SA6D170E-1

SEBE6161

Shop Manual

Al 4

SERIES 6D1704 DIESEL ENGINES

This material is proprietary to Komatsu America international Company and is not to be reproduced, used, or disclosed except in accordance with written authorization from Komatsu America International Company. It is our policy to improve our products whenever it is possible and practical to do so. We resew8 the right to make changes or add Improvements at any time without Incurring any obligation to Install such changes on products sold previously. Due to this continuous program of research and development, periodic revisions may be made to this publication. It is recommended that customers contact their distributor for infomwtion on the latest revision.

December 1997

Coovriaht 1997 Komatsu America International Comoanv

00-l 03

No. of page

01

GENERAL ........................................................................................................ 01-001

11

STRUCTURE AND FUNCTION

12

TESTING AND ADJUSTING

13

DISASSEMBLY

AND ASSEMBLY ................................................. 13-001

14

MAINTENANCE

STANDARD’ ........................................................... 14-001

....................................................... I 1-001

............................................................. 12-001

2 z

15

00-2 0

REPAIR AND REPLACEMENT

OF PARTS .............................. 15-001

'

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00-2-3 @

SAFETY

SAFETY

NOTICE

SAFETY SAFETY

NOTICE

IMPORTANT SAFETY NOTICE Proper

service

and

repair

is extremely

service and repair techniques are both effective designed

manual.

for the specific

injury to workers,

The cautions

by Komatsu

take the necessary

situation

machine

operation.

and described

in this manual

require the use of tools specially

is used to mark safety precautions

these symbols

should

arises or may possibly

always

arise, first consider

in operation

carefully

6. Decide

are extremely and

Manual

the machine.

out any greasing

read all the precautions which

dangerous.

Maintenance

BEFORE operating

1. Before carrying

a place

in the repair

Always

and parts in their

correct

to keep

places.

keep the work area clean and make

sure that there is no dirt or oil on the floor.

or repairs,

given on the decals

carrying

out any operation,

wear safety shoes and helmet.

Smoke

only in the areas provided

for smok-

ing. Never smoke while working.

loose work clothes,

always

. Always

or clothes with buttons

wear

safety glasses when

trained,

7. Before

adding

hitting

oil or making

wear

safety

glasses

repairs are needed, experienced

when

welder

or tracks

blade,

ripper,

bucket or any other work equipment

starting

work,

out welding gloves,

out the work,

apron,

al-

hand

shield, cap and other clothes suited for weld-

work.

to the

If this

equipment

is not possible,

from falling.

ating procedure

before

step of the operation.

agree on the operstarting.

form your fellow workers

with two Always

in-

before starting any

Before starting

work,

REPAIR signs on the controls

in the operator’s

compartment.

5. Keep all tools in good condition the correct way to use them.

In addition,

the

be sure

ing signs on them.

the

machine

with

or assembling, blocks,

jacks

support or stands

before starting work. 10. Remove

all mud and oil from

the steps or

other places used to get on and off the machine. Always steps when Never

and learn

insert

to lock all the control levers and hang warn-

9. When disassembling out any operation always

lower

safety pin or use blocks to prevent the work

carrying

or more workers,

the

from moving.

carry

welding

carrying

to prevent

and

ground.

ways

hang UNDER

8. Before

repairs,

always have a

work. When wear

grind-

etc.

any

on hard, level ground,

block the wheels machine

ing parts with a grinder, 3. If welding

FOR WORK

park the machine

parts with a hammer. . Always

PREPARATIONS

Do not wear

missing.

4. When

the tools

workshop

parts. Always

are fixed to the machine.

2. When

ing

care-

safety, and

keep tools and removed Mistakes

in this

be followed

actions to deal with the situation.

PRECAUTIONS

Read the Operation

The

purpose.

symbol A

the

accompanying

fully. If any dangerous

GENERAL

recommended

for safe

and safe. Some of these techniques

by Komatsu

To prevent

important

jump

impossible

use the handrails,

getting

ladders

or

on or off the machine.

on or off the machine. to use the handrails,

steps, use a stand to provide

If it is

ladders

or

safe footing.

00-3

SAFETY

SAFETY

PRECAUTIONS

DURING

19. Be sure to assemble

WORK

original 11 When or

removing

hydraulic

pressure

loosen them spurting Before

the oil filler cap, drain plug

slowly

measuring

to prevent

disconnecting

or removing

the pressure

when

or air circuits, completely

from

first the

and

oil in the circuits

the engine

is stopped,

20. When sure

installing that

high pressure

they

are hot

ful when

are

circuits.

so be careful

out any work

to cool

before

21 When

on the oil or water

Also,

13. Before starting work, remove the leads from Always

remove

(-) terminal

the lead from

first. use a hoist

or parts which

22. When

aligning

fingers

caught

ample

capacity.

Install

the lifting Use

23. When

equipment

which

has

a hoist

ting any other

or crane

and operate

the component

part. Do not work

15. When

removing

covers which

ternal

pressure

or under

always

leave two

hit-

with

any

wiring 17 When

bolts

from

a

in position

release

components,

or damage

the pres-

removing

be careful not

the wiring.

may cause electrical piping,

Damaged

fires.

stop the fuel or oil

from spilling out. If any fuel or oil drips onto the floor, wipe it up immediately. on the floor

Fuel or oil

can cause you to slip, or can

even start fires. 18. As a general

rule, do not use gasoline

to

wash parts. In particular,

use only the mini-

mum

washing

parts.

00-4

or rotate at

careful

to check

correctly.

Be careful

measuring

hydraulic

that the measuring

not to get your

pressure,

tool is correctly

of gasoline

when

electrical

removing

tracks of track-type When

removing

rates suddenly,

are under in-

pressure

sides. Slowly

removing

to break

violently

in a hole.

24. Take care when

from

sure, then slowly loosen the bolts to remove. 16. When

When

check assem-

at the correct

part still raised by the hoist or crane.

on opposite

parts, always torques.

bled before taking any measurements. equipment

to prevent

spring,

parts

two holes, never insert your

Check that the wire rope, chains and hooks lifting

care-

parts such as guards,

vibrate

or hand.

use

or installing

be particularly

fingers

are free from damage.

Damaged

connecting

tightening

protective

high speed,

make

so be extremely

check that

or crane.

Always

is be-

hoses,

not twisted.

that they are installed

14. When raising heavy components,

places.

by contact

installed.

assembling

installing

the negative

be sure

tubes for high pressure

use the specified

circuits.

the battery.

installing

are correctly

for the oil and water

carrying

slowly

parts with new parts.

hoses and wires,

tubes are dangerous,

not to get burned. Wait

installing

ing operated.

compo-

circuit. water

in their

with other parts when the machine

nents of the oil, water

12. The

Replace any damaged

that they will not be damaged

the oil from

out.

remove

all parts again

places.

. When

plugs,

NOTICE

or installing

the

machines.

the track,

the track

so never let anyone

either end of the track.

sepa-

stand at

FOREWORD

GENERAL

FOREWORD GENERAL This

shop

serviceman

manual

has been

an accurate

prepared

as an aid to improve

understanding

repairs and make judgements.

the

quality

of the product and by showing

Make sure you understand

of repairs

by giving

the

him the correct way to perform

the contents

of this manual

and use it to full

effect at every opportunity.

This shop manual

mainly

service workshop.

For ease of understanding,

chapters

are further

contains

divided

the necessary

technical

the manual

information is divided

for operations

performed

into the following

chapters;

in a these

into the each main group of components.

STRUCTURE AND FUNCTION This section

explains

an understanding

the structure

of the structure,

and function

of each component.

but also serves as reference

It serves not only to give

material

for troubleshooting.

TESTING AND ADJUSTING This

section

adjustments

explains

Troubleshooting

DISASSEMBLY This section assembling

checks

charts correlating

This section

before

and

after

performing

repairs,

as well

as

of the checks and repairs.

“Problems”

to “Causes” are also included

in this section.

AND ASSEMBLY explains

the order

each component,

MAINTENANCE

to be made

to be made at completion

to be followed

when

as well as precautions

removing,

installing,

disassembling

or

to be taken for these operations.

STANDARD gives the judgement

standards

when

inspecting

disassembled

parts.

NOTICE The

specifications

time

and

with

the

contained

without latest

any

advance

in this notice.

shop Use

manual the

are subject

specifications

to change given

in the

at any book

date.

00-5

FOREWORD

HOW TO READ THE SHOP MANUAL

HOW TO READ THE SHOP MANUAL VOLUMES

REVISED

Shop manuals are issued as a guide to carrying out repairs. They are divided as follows:

When

Chassis volume: Engine volume:

pages.

Issued for every machine model Issued for each engine series

Electrical volume: Attachments volume:

1

Each issued as one volume to cover all models

These various volumes are designed to avoid duplicating the same information. Therefore, to deal with all repairs for any model , it is necessary that chassis, engine, electrical and attachment volumes be available. DISTRIBUTION

AND

UPDATING

Any additions, amendments or other changes will be sent to KOMATSU distributors. Get the most up-to-date information before you start any work.

EDITION

a manual

(@@@....I

MARK is revised,

is recorded

an edition

on the

bottom

mark of the

REVISIONS Revised pages are shown in the LIST OF REVISED PAGES next to the CONTENTS page.

SYMBOLS So that the shop manual can be of ample practical use, important safety and quality portions are marked with the following symbols.

FILING METHOD See the page number on the bottom of the page. File the pages in correct order. Following examples show how to read the page number. Example 1 (Chassis volume):

Symbol

item

A

Safety

10 -3

TT Item number ~~~~~~~b.,.

*

(IO. Structure number

el kg

2 (Engine volume):

-F

Unit number (1. Engine) Item number (2. Testing and Adjusting) Consecutive page number for each item.

Special technical precautions or other precautions for preserving standards are necesperforming

the

Weight

Weight of parts of systems. Caution necessary when selecting hoisting wire, or when working posture is important, etc.

Tghteninc torque

Places that require special attention for the tightening torque during assembly.

Coat

Places to be coated with adhesives and lubricants, etc.

12 - 5 TT

Special safety precautions are necessary when performing the work.

sary when work.

for

each item. Example

Caution

Remarks

oil, water or fuel must be added, and the capacity.

Places where

Oil, water Additional cated

pages:

by a hyphen

page number. Example:

Added

00-6

pages are indi-

(-) and number

after the

File as in the example.

IO-4

IO-5

Additional

Places where Drain

must

oil or water be drained, and quan-

tity to be drained.

12-203 12-203-I pages -C12_203_2 12-204

HOISTING

FOREWORD

HOISTING

INSTRUCTIONS

INSTRUCTIONS

HOISTING Slinging near the edge of the hook may cause the rope to slip off the hook during hoisting, and a serious accident can result. Hooks have maximum strength at the middle portion.

Heavy parts (25 kg or more) must be lifted with a hoist, etc. In the DISASg every part weighing 25 kg or more indicated clearly with the symbol &

.

is

If a part cannot be smoothly removed from the machine by hoisting, the following checks should be made: I) Check

for removal

of all bolts fastening

the part to the relative 2) Check for existence ing

interference

part caus-

the part to be re-

moved.

WIRE ROPES 1) Use

adequate

weight

ropes

79%

88%

71%

41% SAD00479

of another

with

100%

parts.

depending

of parts to be hoisted,

on the

referring

to

3) Do not sling a heavy load with one rope alone, but sling with two or more ropes symmetrically wound onto the load. Slinging with one rope may cause a turning of the load during hoisting, untwisting of the rope, or slipping of the rope from its original winding position on the load, which can result in a dangerous accident.

the table below: 4)

Wire ropes (Standard “Z” or “S” twist ropes without galvanizing) Rope diameter mm

Allowa

e load

kN

tons

9.8

1.0

11.2

13.7

1.4

12.5

15.7

1.6

14

21.6

2.2

16

27.5

2.8

suspended.

18

35.3

3.6

(1000

20

43.1

4.4

10

*

r

Do not sling a heavy load with ropes forming a wide hanging angle from the hook. When hoisting a load with two or more ropes, the force subjected to each rope will increase with the hanging angles. The table below shows the variation of allowable load kN {kg} when hoisting is made with two ropes, each of which is allowed to sling up to 9.8 kN (1000 kg1 vertically, at various hanging angles.

22.4

54.9

5.6

30

98.1

10.0

40

176.5

18.0

50

274.6

28.0

60

392.2

40.0

The allowable load value is estimated to be one-sixth or one-seventh of the breaking strength of the rope used.

2) Sling wire ropes from the middle of the hook.

portion

When two ropes sling a load vertically, to 19.6 kN (2000 kg} of total weight This weight

kg1 when

hanging

angle.

two

becomes

ropes

9.8 kN

make

On the other

ropes are subjected

a 120”

hand, two

to an excessive

as large as 39.2 kN (4000

up

can be

force

kg1 if they sling

a 19.6 kN (2000 kg1 load at a lifting angle of 150”.

0 a

D

E,

88

16.7 0

ibid

(1400)

Q (1000)

% 600)

30 Lifting

60 anrle

90 (dearee)

120

150 SAD00480

00-7

COATING

FOREWORD

COATING

MATERIALS

MATERIALS

*

The recommended coating materials such as adhesives, gasket sealants and greases disassembly and assembly are listed below. Sr For coating materials not listed below, use the equivalent of products shown in this list.

Category

omatsu code

LT-IA

Part No.

Q'W

790-129-9030

150 g

Container

Main

I

l

LT-IB

790-129-9050

(2 pes.)

50 g

Polyethylene container

20 g

l

LT-2

09940-00030

790-129-9060 (Set of adhesive and hardening agent)

Adhesive:

LT-4

790-129-9040

250 g

Holtz MH 705

790-126-9120

75 g

LT-3

l

l

1 kg iardening

features

Used to prevent rubber gaskets, rubber ~ ~~ ~~ cushions, and cock plug from coming out.

ITubeTr-


applications,

used for

Used in places requiring an immediately effective, strong adhesive. Used for plastics (except polyethylene, polyprophylene, tetrafluoroethlene and vinyl chloride), rubber, metal and non-metal. Features: Resistance to heat and chemicals Used for anti-loosening and sealant purpose for bolts and plugs. Used as adhesive and plastic.

or sealant for metal, glass

Can

agent: 500 g

Adhesives Polyethylene container

790-129-9140

50 g

Used as sealant

.

Used as heat-resisting ing engine.

. . .

Quick Cure Used bers,

Tube I

Three bond 1735

.

201

790-129-9130

29


I


I

Loctite 648-50

LG-1

Gasket sealant

00-8

LG-3

sealant

holes.

for repair-

I

I Aron-alpha

for machined

l

I l

l

I

hardening type adhesive time: within 5 sec. to 3 min. mainly for adhesion of metals, plastics and woods.

rub-

Quick hardenina tvoe adhesive Quick cure typejmax. strength after 30 minutes) Used mainly for adhesion of rubbers, plastics and metals.

79A-129-9110

790-129-9010

790-129-9070

200 g

Used as adhesive or sealant for gaskets and packing of power train case, etc.

1 kg

Features: Resistance to heat Used as sealant for flange surfaces and bolts at high temperature locations, used to prevent seizure. Used as sealant for heat resistance gasket for high temperature locations such as engine precombustion chamber, exhaust

I

pipe, etc.

COATING

FOREWORD

Category

Komatsu code

Part No.

Q'W

Container

Main

. 790-129-9020

200 g

l

Tube

l

Used as sealant for various threads, pipe joints, flanges. Used as sealant for tapered plugs, elbows, nipples of hydraulic piping.

l

LG-5

790-129-9080

1 kg


l

Features: Silicon based, resistance to heat, cold Used as sealant for flange surface, tread. Used as sealant for oil pan, final drive case, etc.

l

Gasket sealant

LG-6

09940-00011

250 g

Tube

l

l

* Features: LG-7

09920-00150

150 g

features

Features: Resistance to water, oil Used as sealant for flange surface, thread. Also possible to use as sealant for flanges with large clearance. Used as sealant for mating surfaces of final drive case, transmission case.

l

LG-4

applications,

MATERIALS

Silicon

based,

quick

hardening

type - Used as sealant for flywheel housing, intake manifold, oil an, thermostat housing,

Tube

etc. .

Three bond 1211

790-129-9090

100 g

Tube

LM-G

09940-00051

60 g

Can

LM-P

09940-00040

200 g

Tube

l

Molybdenum disulphide lubricant

.

G2-LI

SYG2-400LI SYG2-350LI SYG2-4OOLl-A SYGS-16OLI

Various

Used as heat-resisting engine.

sealant

for repairing

Used as lubricant for sliding portion (to prevent from squeaking).

.

Used to prevent seizure or scuffling of the thread when press fitting or shrink fitting. Used as lubricant for linkage, bearings, etc.

l

General

purpose

type

Various

SYGA-1 6OCNLI l

SYG2-4OOCA SYG2-350CA

Grease

GP-CA

SYGS-4OOCA-A SYG2-160CA

Used for normal temperature, light load bearing at places in contact with water or steam.

Various

Various

SYGA-IEOCNCA Molybdenum disulphide lubricant

SYG2-400M

400 g (IO per

l

Belows

Used for places with

heavy

load

type

case)

00-9

FOREWORD

STANDARD

STANDARD STANDARD

TIGHTENING

TIGHTENING

Use these torques

TORQUE

TORQUE

TORQUES

for metric

TIGHTENING

OF BOLTS AND NUTS

bolts and nuts. (Always

use torque

wrench).

Width across fiats

Thread diameter of bolt I

I

mm

mm

Nm

kqm

6 8 IO 12 14

10 13 17 19 22

13.2+ 1.4 31+3 6657 113*10 177f19

1.35kO.15 3.2kO.3 6.7f0.7 11.5+1 18f2

279+30 382?39 549f59 745f83 927*103

28.5f3 39f4 56f6 76f8.5 94.5f 10.5

27 30 33 36 39

41 46 50 55 60

1320+140 1720+190 2210+240 2750+290 3290*340

135f15 175f20 225f25 280f30 335f35

I

Thread diameter of bolt

Width across flats

mm

mm

Nm

kgm

6 8 10 12

10 13 14 27

7.85f 1.95 18.6f4.9 40.2f5.9 82.35k7.85

0.8f0.2 1.9f0.5 4.1f0.6 8.450.8

TIGHTENING

TORQUE

Use these torques Nominal

OF HOSE NUTS for hose nuts. Thread

No.

02 03 04 05 06 10 12 14

TIGHTENING

TORQUE

Use these torques Thread

diameter mm

00-10

Width

14 18 22 24 30 33 36 42

19 24 27 32 36 41 46 55

for split flange

IO 12

14 17

16

22

torque

Nm

kgm

24.5f 4.9 49k19.6 78.5k19.6 137.3k29.4 176.5f29.4 196.1*49 245.2f49 294.2+49

2.5rt0.5 5f2 8+2 14&3 18*3 20+5 2525 30*5

BOLTS

bolts.

across flat mm

Tightening

across flat mm

OF SPLIT FLANGE

Width

I

diameter mm

Tightening

I

Nm 65.7* 6.8 112k9.8 279*29

I

torque

kgm 6.7f0.7 11.5+1 28.5f3

FOREWORD

STANDARD

TIGHTENING

TORQUE

Use these torques Nominal

OF O-RING

Thread

No.

02 03.04 05,06 IO,12 14

BOSS CONNECTOR

diameter 14 20 24 33 42

TORQUE

Use these torques

Nominal

No.

Thread

TORQUES

Width

across flat mm

Tightening

I

I

torque

Nm

kgm

34.3* 4.9

3.5kO.5 9.5fl 14.5&Z 4356 89.5*13.5

93.1f9.8 142.1f19.6 421.4f58.8 877.1f 132.3

BOSS CONNECTOR

boss connector diameter

Width

Tighteni

across flat

I torque

mm

mm

Nm

kgm

8 10 12 14 16 18 20 24 30 33 36 42 52

14 17 19 22 24 27 30 32 32 -

7.35+ 1.47 11.27f 1.47 17.64f 1.96 22.54k 1.96 29.4& 4.9 39.2+ 4.9 49f 4.9 68.6+ 9.8 107.8f14.7 127.4f19.6 151.9k24.5 210.7f29.4 323.4f 44.1

0.75+0.15 1.15~0.15 I.85 0.2 2.3f0.2 3kO.5 4kO.5 5f0.5 7&l Ilk 1.5 13+2 15.5k2.5 21.5+3 33* 4.5

36 -

OF FLARE NUT

Use these torques

for O-ring

Thread

Width

diameter

I

Varies depending on type of connector.

OF O-RING for O-ring

08 10 12 14 16 18 20 24 30 33 36 42 52

TIGHTENING

TORQUE

for O-ring boss connector

mm

TIGHTENING

TIGHTENING

SAD00483

boss connector

across flat

Tightening

torque

mm

mm

Nm

14

19

24.5f 4.9

18 22

24 27

49+ 19.6 78.5? 19.6

5+2 8k2

24 30

32 36

137.3k29.4 176.5ir29.4

1423 18k3

33 36 42

41 46 55

196.1f49 245.2+49 294.2f49

2Ok5 25f5 30+5

bm 2.5+ 0.5

00-l 1

FOREWORD

TIGHTENING

STANDARD

TORQUE

Use these torques Thread

FOR 102 ENGINE

SERIIES

diameter

Tightening

10 24 43 77

8 10 12

TORQUE

Thread

FOR 102 ENGINE

SERIIES

Tightening

Thread

00-12

torque kgm 0.81 1.02 1.22 2.45 3.67

8k2 lOf2 12 +2 24 f 4 36 + 5

8 10 12 14

FOR 102 ENGINE for tapered

screws

SERIIES

f 0.20 f 0.41 If: 0.61 f 1.22

Engine.

Nm

6

Use these torques

kgm 1.02 2.45 4.38 7.85

(EYE JOINTS)

diameter

TORQUE

torque

f2 f 4 6 z!z rk 12

for eye joints (unit: mm) of Cummins

mm

TIGHTENING

Engine.

Nm

6

Use these torques

NUTS)

for bolts and nuts (unit: mm) of Cummins

mm

TIGHTENING

(BOLT AND

TIGHTENING

(TAPERED

diameter

Engine.

Tightening Nm

II16 l/8 l/4 318 l/2 314 1

351 8+2 12f2 1552 24 + 4 36 k 5 60 k 9

0.20 0.20 0.20 0.41 0.51

SCREWS)

(unit: inch) of Cummins

inch

f + + f +

torque kgm 0.31 0.81 1.22 1.53 2.45 3.67 6.12

* f k f f f f

0.10 0.20 0.20 0.41 0.41 0.51 0.92

TORQUE

ELECTRIC WIRE CODE

FOREWORD

ELECTRIC WIRE CODE In the wiring diagrams, various colors and symbols are employed to indicate the thickness of wires. This wire code table will help you understand WIRING DIAGRAMS. Example: 5WB indicates a cable having a nominal number 5 and white coating with black stripe.

CLASSIFICATION

BY THICKNESS Copper wire

Number of strands

Applicable

Cali:rzD.

circuit

0.85

11

0.32

0.88

2.4

12

I

2

26

0.32

2.09

3.1

20

I Lighting,

signal etc.

4.6

37

Charging

and signal

59

Starting

(Glow plug)

5

65

I

I

0.32

5.23

I

15

84

0.45

13.36

40

85

0.80

42.73

60

127

I

100

\

I

217

CLASSIFICATION

1

0.80

63.84

0.80

I

1

109.1

Starting,

135~~~ I

Starting

13.6

178

Starting

17.6

230

Starting

lighting, signal etc.

BY COLOR AND CODE

Circuits1

Priority 1

Currerrtrating

Dia. yfmst$ndsCross section (mm*)

Starting

Lighting

Instrument

I

Other

Signal

I

I G

L

Yellow

Green

Blue

YR

GW

LW

Pri- Code man/ Color

W

B

B

R

Y

White

Black

Black

Red

Code

WR

-

BW

RW

Color

White & Red

-

Black & White

Code

WB

-

BY

!

2 Xed & White Yellow & Red Green & White Blue & White RB

YB

LR

GR

3 Black & YellowI Red & Black Yellow & Black Green & Red BR Black & Red ICode

I

-

I

-

& Green1

-

1

-

-

-

-

-

-

-

WG

5 IColorlWhite Code 6 Color

RY

I

YG

I

GY

Blue & Red I

LY

led & Yellow Yellow & Green Green & Yellow Blue & Yellow YL

RG
I

& Bluebreen

WJ

LB

GB

I

I

& Black1Blue & Black

GL

Red & Blue ly ellow &White Green & Blue

I

-

I

00-13

FOREWORD

CONVERSION

CONVERSION

TABLE

METHOD

THE CONVERSION

The

OF USING

Conversion

details

Table

of the method

TABLE

TABLE

in this section

is provided

of using the Conversion

to enable

Table,

simple

conversion

see the example

of figures.

For

given below.

EXAMPLE . 1.

Method Convert

of using the Conversion

Table to convert

from

millimeters

to inches

55 mm into inches.

(1) Locate the number 50 in the vertical column at the left side, take this as @, then draw a horizontal line from @. (2) Locate the number

5 in the row across the top, take this as @, then draw a perpendicular

line

down from @. (3) Take the point where from millimeters 2.

the two lines cross as 0.

to inches.

Therefore,

This point @ gives the value when

converting

55 mm = 2.165 inches.

Convert 550 mm into inches. (1) The number 550 does not appear in the table, so divide by 10 (move the decimal

point one place

to the left) to convert it to 55 mm. (2) Carry out the same procedure

as above to convert 55 mm to 2.165 inches.

(3) The original value (550 mm) was divided by 10, so multiply 2.165 inches by 10 (move the decimal point one place to the right) to return to the original value. This gives 550 mm = 21.65 inches.

Millimeters

to inches

1 mm = 0.03937

0

1

2

3

4

5;

6

7

8

9

0 0.394 0.787 1.181 1.575

0.039 0.433 0.827 1.220 1.614

0.079 0.472 0.866 1.260 1.654

0.118 0.512 0.906 1.299 1.693

0.157 0.551 0.945 1.339 1.732

0.197 i 0.591 i 0.984: 1.378: 1.772;

0.236 0.630 1.024 1.417 1.811

0.276 0.669 1.063 1.457 1.850

0.315 0.709 1.102 1.496 1.890

0.354 0.748 1.142 1.536 1.929

0 i . . . . . . . . . . . . . . 12.1651 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.126 . . . . . . . . . 2.047 2.087 1.969 2.008 50 @_.. 2.520 2.559 2.441 2.480 2.362 2.402 60 2.913 2.835 2.874 2.953 2.756 2.795 70 3.307 3.228 3.268 3.346 3.150 3.189 80 3.701 3.740 3.543 3.622 3.661 90 3.583

2.205 2.598 2.992 3.386 3.780

2.244 2.638 3.032 3.425 3.819

2.283 2.677 3.071 3.465 3.858

2.323 2.717 3.110 3.504 3.898

0 IO 20 30 40

00-l 4

in

FOREWORD

Millimeters

CONVERSION

TABLE

to Inches 7 mm

= 0.03937

in

0

0.039

0.079

0.118

0.157

0.197

0.236

0.276

0.315

0.354

10

0.394

0.433

0.472

0.512

0.551

0.591

0.630

0.669

0.709

0.748

20

0.787

0.827

0.866

0.906

0.945

0.984

1.024

1.063

1.102

1.142

30

1.181

1.220

1.260

1.299

1.339

1.378

1.417

1.457

1.496

1.536

0

Kilogram

to Pound

1 kg = 2.2046

0

0

lb

2.20

4.41

6.61

8.82

11.02

13.23

15.43

17.64

19.84

10

22.05

24.25

26.46

28.66

30.86

33.07

35.27

37.48

39.68

41.89

20

44.09

46.30

48.50

50.71

51.91

55.12

57.32

59.53

61.73

63.93

30

66.14

68.34

70.55

72.75

74.96

77.16

79.37

81.57

83.78

85.98

40

88.18

90.39

92.59

94.80

97.00

99.21

101.41

103.62

105.82

108.03

50

110.23

112.44

114.64

116.85

119.05

121.25

123.46

125.66

127.87

130.07

60

132.28

134.48

136.69

138.89

141.10

143.30

145.51

147.71

149.91

152.12

70

154.32

156.53

158.73

160.94

163.14

165.35

167.55

169.76

171.96

174.17

80

176.37

178.57

180.78

182.98

185.19

187.39

189.60

191.80

194.01

196.21

90

198.42

200.62

202.83

205.03

207.24

209.44

211.64

213.85

216.05

218.26

00-l5

FOREWORD

CONVERSIONTABLE

Literto U.S. Gallon 1C = 0.2642

1

2

3

0

0.264

0.528

0.793

1.057

1.321

1.585

IO

2.642

2.906

3.170

3.434

3.698

3.963

20

5.283

5.548

5.812

6.076

6.340

30

7.925

8.189

8.454

8.718

40

10.567

10.831

11.095

50

13.209

13.473

60

15.850

70

0

4

6

7

8

9

1.849

2.113

2.378

4.227

4.491

4.755

5.019

6.604

6.869

7.133

7.397

7.661

8.982

9.246

9.510

9.774

10.039

10.303

11.359

11.624

11.888

12.152

12.416

12.680

12.944

13.737

14.001

14.265

14.529

14.795

15.058

15.322

15.586

16.115

16.379

16.643

16.907

17.171

17.435

17.700

17.964

18.228

18.492

18.756

19.020

19.285

19.549

19.813

20.077

20.341

20.605

20.870

80

21.134

21.398

21.662

21.926

22.190

22.455

22.719

22.983

23.247

23.511

90

23.775

24.040

24.304

24.568

24.832

25.096

25.361

25.625

25.889

26.153

0

5

U.S. Gal

Literto U.K. Gallon

0

0

IC = 0.21997 U.K. Gal 1

2

3

4

5

6

7

8

9

0

0.220

0.440

0.660

0.880

1.100

1.320

1.540

1.760

1.980

IO

2.200

2.420

2.640

2.860

3.080

3.300

3.520

3.740

3.950

4.179

20

4.399

4.619

4.839

5.059

5.279

5.499

5.719

5.939

6.159

6.379

30

6.599

6.819

7.039

7.259

7.479

7.969

7.919

8.139

8.359

8.579

40

8.799 1 9.019 ( 9.239 1 9.459 / 9.679 1 9.899 1 10.119 1 10.339 1 10.559 1 10.778

50

10.998

11.281

11.438

11.658

11.878

12.098

12.318

12.528

12.758

12.978

60

13.198

13.418

13.638

13.858

14.078

14.298

14.518

14.738

14.958

15.178

70

15.398

15.618

15.838

16.058

16.278

16.498

16.718

16.938

17.158

17.378

80

17.598

17.818

18.037

18.257

18.477

18.697

18.917

19.137

19.357

19.577

90

19.797

20.017

20.237

20.457

20.677

20.897

21.117

21.337

21.557

21.777

00-l 6

FOREWORD

CONVERSIONTABLE

kgm to ft. lb

r

1 kqm = 7.233 ft. lb

0

1

2

3

4

5

6

7

8

9

7.2

14.5

21.7

28.9

36.2

43.4

50.6

57.9

65.1

72.3

79.6

86.8

94.0

101.3

108.5

115.7

123.0

130.2

137.4

20

144.7

151.9

159.1

166.4

173.6

180.8

188.1

195.3

202.5

209.8

30

217.0

224.2

231.5

238.7

245.9

253.2

260.4

267.6

274.9

282.1

40

289.3

296.6

303.8

311.0

318.3

325.5

332.7

340.0

347.2

354.4

50

361.7

368.9

376.1

383.4

390.6

397.8

405.1

412.3

419.5

426.8

60

434.0

441.2

448.5

455.7

462.9

470.2

477.4

484.6

491.8

499.1

70

506.3

513.5

520.8

528.0

535.2

542.5

549.7

556.9

564.2

571.4

80

578.6

585.9

593.1

600.3

607.6

614.8

622.0

629.3

636.5

643.7

90

651.0

658.2

665.4

672.7

679.9

687.1

694.4

701.6

708.8

716.1

100

723.3

730.5

737.8

745.0

752.2

759.5

766.7

773.9

781.2

788.4

110

795.6

802.9

810.1

817.3

824.6

831.8

839.0

846.3

853.5

860.7

120

868.0

875.2

882.4

889.7

896.9

904.1

911.4

918.6

925.8

933.1

130

940.3

947.5

954.8

962.0

969.2

976.5

983.7

990.9

998.2

1005.4

140

1012.6

1019.9

1027.1

1034.3

1041.5

1048.8

1056.0

1063.2

1070.5

1077.7

150

1084.9

1092.2

1099.4

1106.6

1113.9

1121.1

1128.3

1135.6

1142.8

1150.0

160

1157.3

1164.5

1171.7

1179.0

1186.2

1193.4

1200.7

1207.9

1215.1

1222.4

170

1129.6

1236.8

1244.1

1251.3

1258.5

1265.8

1273.0

1280.1

1287.5

1294.7

180

1301.9

1309.2

1316.4

1323.6

1330.9

1338.1

1345.3

1352.6

1359.8

1367.0

190

1374.3

1381.5

1388.7

1396.0

1403.2

1410.4

1417.7

1424.9

1432.1

1439.4

0

0

IO

00-17

CONVERSIONTABLE

FOREWORD

kg/cm*

to lb/in’ 1 kg/cm2 = 14.2233

0

3

14.2

28.4

42.7

56.9

71.1

85.3

99.6

113.8

128.0

5

6

7

2

1

4

8

lb/in2

9

0

0

10

142.2

156.5

170.7

184.9

199.1

213.4

227.6

241.8

256.0

270.2

20

284.5

298.7

312.9

327.1

341.4

355.6

369.8

384.0

398.3

412.5

30

426.7

440.9

455.1

469.4

483.6

497.8

512.0

526.3

540.5

554.7

40

568.9

583.2

597.4

611.6

625.8

640.1

654.3

668.5

682.7

696.9

50

711.2

725.4

739.6

753.8

768.1

782.3

796.5

810.7

825.0

839.2

60

853.4

867.6

881.8

896.1

910.3

924.5

938.7

953.0

967.2

981.4

70

995.6

1010

1024

1038

1053

1067

1081

1095

1109.

1124

80

1138

1152

1166

1181

1195

1209

1223

1237

1252

1266

90

1280

1294

1309

1323

1337

1351

1365

1380

1394

1408

100

1422

1437

1451

1465

1479

1493

1508

1522

1536

1550

110

1565

1579

1593

1607

1621

1636

1650

1664

1678

1693

120

1707

1721

1735

1749

1764

1778

1792

1806

1821

1835

130

1849

1863

1877

1892

1906

1920

1934

1949

1963

1977

140

1991

2005

2020

2034

2048

2062

2077

2091

2105

2119

150

2134

2148

2162

2176

2190

2205

2219

2233

2247

2262

160

2276

2290

2304

2318

2333

2347

2361

2375

2389

2404

170

2418

2432

2446

2460

2475

2489

2503

2518

2532

2546

180

2560

2574

2589

2603

2617

2631

2646

2660

2674

2688

190

2702

2717

2731

2745

2759

2773

2788

2802

2816

2830

200

2845

2859

2873

2887

2901

2916

2930

2944

2958

2973

210

2987

3001

3015

3030

3044

3058

3072

3086

3101

3115

220

3129

3143

3158

3172

3186

3200

3214

3229

3243

3257

230

3271

3286

3300

3314

3328

3343

3357

3371

3385

3399

240

3414

3428

3442

3456

3470

3485

3499

3513

3527

3542

00-18

FOREWORD

CONVERSION

TABLE

Temperature Fahrenheit-Centigrade

Conversion

; a simple way to convert a Fahrenheit temperature reading into a Centigrade tempera-

ture reading or vice versa is to enter the accompanying table in the center or boldface column of figures. These figures refer to the temperature

in either Fahrenheit or Centigrade degrees.

If it is desired to convert from Fahrenheit to Centigrade degrees, consider the center column as a table of Fahrenheit temperatures and read the corresponding Centigrade temperature in the column at the left. If it is desired to convert from Centigrade to Fahrenheit degrees, consider the center column as a table of Centigrade values, and read the corresponding Fahrenheit temperature on the right. 1°C = 33.8”F

“C

“F

“C

“F

“C

“F

“C

“F

-40.4

-40

-40.0

-11.7

11

51.8

7.8

46

114.8

27.2

81

117.8

-37.2

-35

-31.0

-11.1

12

53.6

8.3

47

116.6

27.8

82

179.6

-34.4

-30

-22.0

-10.6

13

55.4

8.9

48

118.4

28.3

83

181.4

-31.7

-25

-13.0

-10.0

14

57.2

9.4

49

120.2

28.9

84

183.2

-28.9

-20

-4.0

-9.4

15

59.0

10.0

50

122.0

29.4

85

185.0

-28.3

-19

-2.2

-8.9

16

60.8

10.6

51

123.8

30.0

86

186.8

-27.8

-18

-0.4

-8.3

17

62.6

11.1

52

125.6

30.6

87

188.6

-27.2

-17

1.4

-7.8

18

64.4

11.7

53

127.4

31.1

88

190.4

-26.7

-16

3.2

-7.2

19

66.2

12.2

54

129.2

31.7

89

192.2

-26.1

-15

5.0

-6.7

20

68.0

12.8

55

131.0

32.2

90

194.0

-25.6

-14

6.8

-6.1

21

69.8

13.3

56

132.8

32.8

91

195.8

-25.0

-13

8.6

-5.6

22

71.6

13.9

57

134.6

33.3

92

197.6

-24.4

-12

10.4

-5.0

23

73.4

14.4

58

136.4

33.9

93

199.4

-23.9

-11

12.2

-4.4

24

75.2

15.0

59

138.2

34.4

94

201.2

-23.3

-10

14.0

-3.9

25

77.0

15.6

60

140.0

35.0

95

203.0

-22.8

-9

15.8

-3.3

26

78.8

16.1

61

141.8

35.6

96

204.8

-22.2

-6

17.6

-2.8

27

80.6

16.7

62

143.6

36.1

97

206.6

-21.7

-7

19.4

-2.2

28

82.4

17.2

63

145.4

36.7

98

208.4

-21.1

-6

21.2

-1.7

29

84.2

17.8

64

147.2

37.2

99

210.2

-20.6

-5

23.0

-1.1

30

86.0

18.3

65

149.0

37.8

100

212.0

-20.0

-4

24.8

-0.6

31

87.8

18.9

66

150.8

40.6

105

221.0

-19.4

-3

26.6

0

32

89.6

19.4

67

152.6

43.3

110

230.0

-18.9

-2

28.4

0.6

33

91.4

20.0

68

154.4

46.1

115

239.0

-18.3

-1

30.2

1.1

34

93.2

20.6

69

156.2

48.9

120

248.0

-17.8

0

32.0

1.7

35

95.0

21.1

70

158.0

51.7

125

257.0

-17.2

1

33.8

2.2

36

96.8

21.7

71

159.8

54.4

130

266.0

-16.7

2

35.6

2.8

37

98.6

22.2

72

161.6

57.2

135

275.0

-16.1

3

37.4

3.3

38

100.4

22.8

73

163.4

60.0

146

284.0

-15.6

4

39.2

3.9

39

102.2

23.3

74

165.2

62.7

145

293.0

-15.0

5

41.0

4.4

40

104.0

23.9

75

167.0

65.6

150

302.0

-14.4

6

42.8

5.0

41

105.8

24.4

76

168.8

68.3

155

311.0

-13.9

7

44.6

5.6

42

107.6

25.0

77

170.6

71.1

160

320.0

-13.3

8

46.4

6.1

43

109.4

25.6

78

172.4

73.9

165

329.0

-12.8

9

48.2

6.7

44

111.2

26.1

79

174.2

76.7

170

338.0

-12.2

10

50.0

7.2

45

113.0

26.7

80

176.0

79.4

175

347.0

00-l9

ENGINE 01 GENERAL

General view . . . . . . .. ......... Specifications ........................... General assembly drawing ................ Weight table ............................ Engine performance curve ................

170-1 SERIES

01-002 01-004 01-005

01-01 1 01-012

01-001

0

GENERAL VIEW

GENERAL

GENERAL

VIEW

S6D170-1 for PC650-1

‘\

1.

Corrosion resistor

2.

Crankcase breather

3.

intake manifold

4.

Fuel injection pump

5.

Fuel filter

6.

Oil filler

7.

Oil filter

8.

Vibration

9.

Turbocharger

damper

10.

Oil cooler

11.

Starting motor

12.

Alternator

13.

Water pump

6162POOZ

01-002

170-1 SERIES

GENERAL

SA6D170-A-1

GENERAL VIEW

for EG550-1

1. 2.

Fuel filter

3.

Oil filter

4.

Fuel injection pump

5.

Oil filler

6.

Oil level gauge

7.

Turbocharger

8.

Corrosion resister

9.

Alternator

10.

170-1 SERIES

After-cooler

Starting motor

01-003

SPECIFICATIONS

GENERAL

SPECIFICATIONS Engine model

Applicable

Number

of cylinders

S6D170-1

machine

- Bore x Stroke

Total piston displacement

D275A-2

mm

6-170x170

cc

23,150

Firing order

Pc1500-1 (Twin engine)

PC650-1

l-5-3-6-2-4

Overall

length

mm

1,860

2,029

2,029

mm

1,155

1,009

1,009

mm

2,070

1,875

1,875

mm

-

-

-

302/l ,800 (404/l ,800I

302/1,600 {404/1,600}

302/l ,600 {404/l ,600)

2,079/1,300 {212/l ,300)

2,030/1,200 {207/l ,200)

2,030/1,200 {207/1,200~

High idling

1,960 - 2,040

1,700 - 1,800

1,700 - 1,800

Low idling

600 - 660

650 - 700

650 - 700

219 {163}

224 {I671

224 I1671

2,620

2,375

2,375

Ovrall width Overall height (Excluding exhaust

pipe)

Overall height (Including exhaust

pipe)

Flywheel

horsepower

Maximum

Minimum

torque

fuel consumption

ratio

Dry weight

Bosch PE-PDx type

Fuel pump

Bosch RSUV centrifugal,

Governor

Lubricating

oil amount

all speed type

(refill capacity)

Coolant amount

Alternator

Starting

motor

Battery

24V, 50A

24V, 13A

24V, 13A

24V. 7.5kW x 2

24V, 7.5kW x 2

24V, 7.5kW x 2

12V 200Ah x 2

12V 170Ah x 2 I

I

I Turbocharger

Komatsu

KTRI IO

12V200Ahx2x2 I

Komatsu

KTR130

Komatsu

KTR130

Air compressor

-

Cummins single cylinder reciprocated type


Others

-

-

-

01-004 0

SPECIFICATIONS

GENERAL

S6D170-1 WA600-1 (Extreme cold weather)

WA600-1

WD600-1 (Cold weather)

WD600-1

6-170x

170

23,150 l-5-3-6-2-4

2,024

2,340

2,340

2,350

1,068

1,068

1,120

1,120

1,921

1,909

1,921

1,921

-

-

-

-

305/2,000 {409/2,000)

(Net) (Net)

1,961/1,400 {200/1,400}

(Net) (Net)

305/2,000 (Net) {409/2,0001 (Net)

334/2,000 #48/2,000)

(Net) (Net)

1,961/1,400 {200/1,400~

2,089/1,400 I213/1,400}

(Net) (Net)

(Net) (Net)

334/2,000 (Net) {448/2,0001 (Net) 2,089/1,400 {213/1,4001

(Net) (Net)

2,200 - 2,300

2,200 - 2,300

2,300 - 2,400

2,300 - 2,400

650 - 700

650 - 700

650 - 700

650 - 700

212 1158) (Net)

212 {I581 (Net)

212 11581 (Net)

2,750

2,750

2,750

BOSCH PE-PDx type BOSCH

RSUV centrifugal,

(Net)

2,750

lOSCH RSUV centrifugal, all speed type

DENS0 NE (EP-11) type DENS0 RSUV-D centrifugal, all speed type

BOSCH

all speed typf

212 {I581

PE-P type

135

135

135

139

24V, 50A

24V, 50A

24V, 50A

24V, 50A

24V. 7.5kW x 2

24V, 7.5kW x 2

12V 200Ah

12V 200Ah

24V, 7.5kW x 2

24V, IlkWx2

12V 200Ah

12V 200Ah

x 2

-

x 2

x 2

KOMATSU KTRI IO type

KOMATSU KTRllO type

KOMATSU KTRIIO type

ZEXEL reciprocation single cylinder type

EXEL reciprocation, jingle cylinder type

‘EXEL reciprocation, single cylinder type

KOMATSU KTRllOtype ZEXEL reciprocation, single cylinder type

x 2

I

-

-

-

01-004-l 03

GENERAL

SPECIFICATIONS

Engine

model

Applicable

Number

of cylinders-Bore

Total piston Firing

S6D170-1

OEM ;;;ig,ee;erator

machine

x Stroke

displacement

mm

6-170x170

cc

23,150

order

length

Ovrall

width

Overall height (Excluding exhaust Overall height (Including exhaust

Flywheel Maximum

pipe)

pipe)

horsepower torque

mm

2,306

2,306

2,306

mm

1,048

1,048

1,048

mm

1,631

1,631

1,631

mm

-

-

-

kW/rpm +lP/rpm)

324/l ,500 (50 Hz) {434/1,500} (50 Hz)

355/1,500 (50 Hz) {476/1,5001 (50 Hz)

345/1,500 :462/1,500}

(50 Hz) (50 Hz)

IkgG?pmI

371/1,800 (60 Hz) {497/l ,800) (60 Hz)

408/1,800 (60 Hz) 1547/1,800) (60 Hz)

403/1,800 [539/1,800}

(60 Hz) (60 Hz)

Max. Max.

Max. Max.

Max. 1,560 (50 Hz) Max. 1,872 (60 Hz)

High idling

vm

Low idling Minimum

fuel consumption

ratio

Dry weight

kg

1,560 (50 Hz) 1,872 (60 Hz)

700 - 900

700 - 900

219 I1631

217 {162)

224 I1671

2,600

2,600

2,600

Bosch

PE-ZWx

type

oil amount

amount

Alternator

motor

Battery

Turbocharger

Air compressor

Others

01-004-2 0

(refill

capacity)

107 (96)

e e

(Engine

107 (96)

only 43)

z

Bosch RSUV centrifJgal, all speed type

type

(Engine

only

107 (96)

43)

(Engine

only

43)

24V, 13A

24V, 13A

24V, 13A

24V, 7.5kW x 2

24V, 7.5kW x 2

24V, 7.5kW x 2

12V 200Ah

12V 200Ah

12V 200Ah

Komatsu

x 2

KTRI 10

Komatsu

x 2.

KTRI 10

-

Komatsu

x 2

KTRI 10 -

8 z

Bosch PE-PDx type

Bosch RSUV centrifugal, minimum maximum-speed

Governor

Coolant

1,775 (50 Hz) 1,890 (60 Hz)

700 - 900

Fuel pump

Lubricating

OEM for generator (Power up)

l-5-3-6-2-4

Overall

Starting

OEM for generator (Standby)

SPECIFICATIONS

GENERAL

T

Engine model

Applicable

Number


HD465-5 (Twin turbcharger)

HD465-3 (Twin turbcharger)

machine

of cylinders - Bore x Stroke

SA6D170-A-1

mm

6-170x170

cc

23,150

Firing order

WA700-1 “n$$~$~t~$ne

l-5-3-6-2-4

Overall

length

Ovrall width Overall height (Excluding exhaust Overall height (Including exhaust

Flywheel

pipe)

1,877

1,989

2,391

mm

1,060

1,106

1,080

mm

1,692

1,678

2,017

kW/rpm IHP/rpm)

524/2,100 (Net) {702/2,1001 (Net)

534/2,100 {715/2,100)

(Net) (Net)

478/2,000 {641/2,0001

2,820/1,400 {288/1,4001

2,970/1,400(Net) {303/1,4001 (Net)

2,810/1,400 {287/1,4001

pipe)

horsepower

Maximum

mm

torque

Ikgi?prnl

(Net) (Net)

High idling

vm

2,300 - 2,400

2,300 - 2,400

2,240 - 2,300

Low idling

vm

630 - 680

850 - 900

700 - 750

g/kWh

221 (165)

211 {157)

208 {I 551

kg

2,480

2,750 JZlithexhaust brake

2,900

Minimum

fuel consumption

ratio

Dry weight

{g/HPh)

BOSCH PE-ZWx type

Fuel pump

BOSCH RFD minimum maximum-speed control type

Governor

BOSCH PE-ZWx type BOSCH RSUV centrifugal, all speed type

I Lubricating

oil amount

(refill capacity)

e e

170

174

24V, 50A

24V, 13A

24V, 13A

24V, 7.5kW x 2

24V, 7.5kW x 2

24V, 7.5kW x 2

Battery

12V170Ahx2

12V 200Ah x 2

12V 200Ah x 2

Turbocharger

GARRET TV77 typex2

GARRET TV77 typex2

GARRET TV77 type x 2

CUMMINS single cylinder reciprocated type

ZEXEL single cylinder reciprocated type


With aftercooler, exhaust brake

With aftercooler

Coolant amount

Alternator

Starting

motor

Air compressor

Others

01-004-4 63

With aftercooler

SPECIFICATIONS

GENERAL

SAGDI 70-A-1

EG550-1

EG580-1 EG580B-1

EG600-l,EG600B-1 EG600BS-1 OEM for generctor

EG580B-IL

EPSAGD170-A-1

EG600BS-1 OEM for generctor (Engine No. 15503 and up)

6-170x170 23,150 l-5-3-6-2-4

2,015

2,603

2,603

2,603

2,601

2,603

1,048

1103

1,103

1,103

1,120

1,103

2,015

1,746

1,746

1,746

-

1,746

-

-

-

2,332

-

431/1,500 (50 Hz) I578/1,5001 (50 Hz) 473/1,800 (60 Hz) {634/1,8001 (60 Hz)

456/1,500 (50 Hz) :611/1,500~ (50 Hz) 503/1,800 (60 Hz) :673/1,8001 (60 Hz)

472/1,500 (50 Hz) ;633/1,5001 (50 Hz)

1,700 - 1,800

Max. 1,560 (50 Hz) Max. 1,872 (60 Hz)

Vlax. 1,560 (50 Hz)

Max. 1,560 (50 Hz) Max. 1,872 (60 Hz)

1,950 - 2,050

Wax. 1,560 (50 Hz) Vlax. 1,881 (60 Hz)

650 - 700

700 - 900

700 - 900

700 - 900

750 - 850

700 - 900

230 {I711 (50 Hz) 236 1176) (60 Hz)

217 1162) (At rated output)

217 {162} (At rated output)

217 I1621 (At rated output)



2,650

2,770

2,770

2,750

2,850

2,770

-

8

-

-

470/1,500 (50 Hz) f630/1,5001 (50 Hz) 514/1,800 (60 Hz) 1688/1,800} (60 Hz) -

Bosch PE-ZWx type Bosch RSUV centrifugal,

all speed type

440/l ,800 {590/l ,800) 2,648/1,300 {270/1,300}

470/1,500 (50 Hz) 630/1,5001 (50 Hz) 514/1,800 (60 Hz) 688/1,8001 (60 Hz)

-

Bosch PE-P (PS7S) type

osch PE-ZWx type,

3osch RSUV centrif. ugal, all speed type

voodward PSG hyaulic type governor

119 (107)

139

;.::..,

24V, 13A 24V, 25A (opt)

24V, 13A 24V, 25A (opt)

24V, 13A

24V, 7.5kW x 2

24V, 7.5kW x 2

24V, IlkWx2

24V, 7.5kW x 2

24V, llkWx2

24V. 7.5kW x 2

12V 170Ah x 2

12V 200Ah

12V 200Ah x 2

12V 200Ah x 2

12V 200Ah x 2

12V 200Ah x 2

KTR150

I

Komatsu

x 2

KTRI 50

Komatsu

KTR150

Komatsu

KTR150

24V, 50A

43)

24V, 13A

Komatsu

24V, 13A

(Engin&ly

Komatsu

KTR150

Komatsu

KTR150

-

-

-

-

-

-

With after cooler

With after cooler

With after cooler

With after cooler

With after cooler

With after cooler

01-004-5 0

SPECIFICATIONS

GENERAL

Engine model

Applicable

Number

of cylinders

SA6D170-A-1

- Bore x Stroke


HD465-5 (With electronic governor)

HD465-5 *I (Twin turbcharger)

machine

6-170x

mm

HD465-5 (Mechanical governor)

170

23,150

cc

Firing order

l-5-3-6-2-4

Overall

length


Flywheel

pipe)

pipe)

mm

1,989

1,989

1,989

mm

1,106

1,106

1,106

mm

1,678

1,678

1,678

mm

-

-

-

kW/rpm {HP/rpmI

horsepower

2,108/1,400 I215/1,4001

534/2,100 (Net) l2 015/2,100) Net) l2 43W.750 (Iuet) l3 (587/1,1501 (Net) *3

(Gross: (Gross1

534i2.100 {715/2,100} 2.971/1.400 {303/l ,400)

8 :

Maximum

E b ‘t lz

High idling

2,330 - 2,400

Low idling

1,075 - 1,125

920 - 970

900 - 950

211 {I571

211 {I571

211 I1571

2,750 JVith exhaust brake

2,670

Minimum

torque

386/2,100 (Gross) ~518/2,100~ (Gross1

tkgr$pm>

fuel consumption

ratio

gkWh {g/HPhl kg

Dry weight

2,600 (With;;;kee;haust

Fuel pump

3osch PE-ZWx typr

Governor

Bosch RSUV-D zentrifugal, minimun naximum-speed type

Lubricating

oil amount

(refill capacity)

Komatsu Electronic

*2 l3

2,330 - 2,400

KFE

Bosch PE-ZWx type

control

Bosch RSUV centrifJgal, all-speed type

(Xi,

Q

Q

Coolant amount

2,400-2,500 1.850-1.950

174

24V, 50A

174

24V, 50A

24V. 50A

24V. 7.5kW x 2

24V,llkWx2

24V, 7.5kW x 2

12V 200Ah x 4

12V 200Ah x 2

12V 200Ah x 2

Water cooled Gallet TV77 x 2

Gallet TV77 x 2

Gallet TV77 x 2

Air compressor

Zexel single cylinder reciprocated type



Others

With after cooler

With after cooler, exhaust brake

With after cooler

Starting

motor

Battery

Turbocharger

01-004-6

*I: l2: l3:

High altitude spec. en Power mode Economy mode

ne No. 15963 a

up to 15966

2 z z

SPECIFICATIONS

GENERAL

SA6D170-A-1

EG680A-1 6M170B-1

EM680A

EM680A-A

OEM for Marine engine

OEM for generator (Prime use)

2,603

-

2,603

1,048

-

1,048

1,756

-

1,756

-

-

-

OEM for generator

6-170x170 23,150 l-5-3-6-2-4

2,880 (With marine

gear)

2,841 With marine gear)

2,796 With marine

gear]

1,285 (With marine

gear)

1,137 With marine

gear)

1,150 With marine

gear)

1,757 (With marine

gear)

1,831 With marine

gear)

1,781 With marine

gear]

-

-

552/2,000 I740/2,000}

629/2,000 {842/2,0001

2,501/1,400 {255/l ,400)

2,893/l ,400 I295/1,4001

3,295/1,400 {336/1,4001

2

2,100 - 2,200

2,100 - 2,200

2,100 - 2,200

Max. 1,560 (50 Hz) Max. 1,872 (60 Hz)

2,100 - 2,200

Max. 1,568 (50 Hz) Max. 1,881 (60 Hz)

& z

550 - 600

550 - 600

550 - 600

950 - 1,000

550 - 600

700 - 900

217 {162)

211 {I571 (At rated output)

217 (157) (At rated output)

211 (157) (50 Hz) 217 I1621 (60 Hz)

211 1157)

211 1157) (50 Hz) 217 1162) (60 Hz)

2,750 (Withog;;Tarine

3,250 (Withw;;arine

2,720

2,500

2,720

-

55212,000 (740/2,000}

*4 *4

2,750 (Withw;r;;arine

473/1,500 (50 Hz) [633/1,500} (50 Hz) 546/1,800 (60 Hz) f732/1,800} (60 Hz) -

Bosch PE-ZWx Bosch RSUV centrifugal,

100

-

120 (108)

118

85

85

24V, 30A

24V, 25A

24V, 30A

24V, 13A 24V, 25A (opt)

24V, 13A 24V, 25A (opt)

24V, 7.5kW x 2

24V, 7.5kW x 2

24V, 7.5kW x 2

24V, 11 kW

24V. 7.5kW

12V 200Ah x 2

12V 200Ah x 2

12V 200Ah x 2

12V 200Ah x 2

12V 200Ah x 2

Komatsu

KTRI 10

Komatsu

-

-

-

With after cooler

With after cooler

With after cooler

Without marine gear With bypass filter

67 (60) 119 (107) opt

119 (107) 122 (110) *5

(Engine

KTRI 10

(50 Hz) (50 Hz) (60 Hz) (60 Hz)

all speed type

120 (108)

KTRI 10

419/1,500 I561/1,5001 467/1,800 {625/l ,800) -

type

(90)

Komatsu

*4: *5:

55212,000 {740/2,000}

Komatsu

KTRI 10

Komatsu

KTRllO

only 43)

24V, 13A 24V, 25A (opt) 24V, IlkW

12V 200Ah x 2

Komatsu

KTRIIO

-

With after cooler

With after cooler

With after cooler

01-004-7 0

SPECIFICATIONS

GENERAL

SA6D170-A-1

Applicable

Number

of cylinders-Bore

DEM for generator (Stanby use)

machine

x Stroke


mm

6-170x170

cc

23,150

Firing order

length

.P t

Ovrali width

i

Overall height (Excluding exhaust

6


Flywheel

pipe)

pipe)

mm

2,603

1,861

1,861

mm

1,048

1,060

1,060

mm

1,750

1,626

1,623

mm

-

-

-

515/2,100 (Net) {690/2,1001 (Net)

524/2,100 (Net) {702/2,1001 (Net)

2,824/1,400 {288/1,4001

2,824/1,400 {288/1,4001

kW/rpm {HP/rpm}

horsepower

Maximum

torque

{kgr%Pml

fuel consumption

ratio

Dry weight

700 - 900

850 - 900

850 - 900

g/kWh {g/I-W

211 11571 (50 Hz) 217 {1621(60 Hz)

219 (163)

221 (163)

kg

2,720

2,470

2,470

3osch PE-ZWx

Governor

3osch RSUV centrif, ugal, all speed type

Coolant amount

Alternator

Starting

motor

Battery

Turbocharger

(refill capacity)

e

e

01-004-8 0

Bosch PE-ZWx type

typf

Bosch RSUV centrifugal, minimum maximum-speed type

67 (60) 119 (107) opt

107 only 43)

170

170

24V, 13A 24V, 25A (Opt)

24V, 50A

24V, 50A

24V, 11 kW

24V, 7.5kW x 2

24V, 7.5kW x 2

12V 170Ah x 4

12V 170Ah x 4

(Engine

12V 200Ah

Komatsu

x 2

KTRI IO

Air compressor

Others

(Net) (Net)

2,250 - 2,350

Fuel pump

oil amount

(Net) (Net)

2,250 - 2,350

Low idling Minimum

581/1,500 (50 Hz) {779/1,5001 (50 Hz) 672/1,800 (60 Hz) {900/1,800} (60 Hz) Max. 1,575 (50 Hz) Max. 1,890 (60 Hz)

rPm

High idling

Lubricating

HD465-3 (Single turbocharger)

l-5-3-6-2-4

Overall

t?

H D465-3 (Single turbocharger)

With after cooler

Komatsu

KTRllO

Komatsu

KTRI 10



With after cooler

With after cooler

8 z z

SPECIFICATIONS

GENERAL

SA6D170-A-1

H D465-3 (For ORAPA MINE)

Pc1ooosP-1 (For LAYTON)

6-170x170 23,150 l-5-3-6-2-4

z

io z

1,861

2,373

1,060

1,909

1,626

1,080

-

-

485/2,000 (Net) {650/2,0001 (Net)

434/1,750 {582/1,750}

(Net) (Net)

2,800/l ,300 (Net) (285/1,300} (Net)

2,730/1,300 1279/1,3001

(Net) (Net)

2,250 - 2,350

1,900 - 2,000

840 - 860

650 - 700

216 I1611 (Net)

211 (Net) 11571 (Net)

2,480

2,555

BOSCH PE-ZWx wpe

IOSCH PE-P(PS7S1 type

BOSCH RFD minimun maximum-speed control type

BOSCH RSUV centrifugal, all speed type

170

160

24V, 50A

24V, 50A

24V, 7.5kW x 2

24V, 7.5kW x 2

12V 200Ah

12V 200Ah

x 2

GARRET TV77 typex2 CUMMINS single cylinder reciprocated type With

aftercooler

x 2

KOMATSU KTRllOtype EXEL reciprocation jingle cylinder type With

aftercooler

01-004-9 63

SPECIFICATIONS

GENERAL

Engine model

Applicable

Number

of cylinders

SA6D170-B-1 D375A-1 IEngine Serial No. up to 11045)

machine

- Bore x Stroke


D375A-1 (Engine Serial No. 11046 and up)

mm

6-170x170

cc

23,150

Firing order

D375A-1 (Engine Serial No. 13551 and up)

l-5-3-6-2-4

t Overall

length

mm

2,017

2,017

2,017

mm

1,139

1,139

1,139

mm

1,746

1,746

1,746

mm

-

-

-

kW/rpm IHP/rpm)

379/1,800 {508/1,8001

379/l ,800 {508/1,800}

392/l ,800 {525/1,8001

tkgr%?pmI

2,609/l ,300 {266/l ,300)

2,609/l ,300 {266/l ,300)

2,618/1,300 {267/l ,300)

High idling

rpm

1,950 - 2,050

1,950 - 2,050

1,960 - 2,040

Low idling

rpm

600 - 700

600 - 700

580 - 680

g/kWh {g/HPh)

215 {I601

215 {160}

215 {ISO}

2,660

2,660

2,660


Flywheel

pipe)

horsepower

Maximum

Minimum

pipe)

torque

fuel consumption

ratio

kg

Dry weight

Fuel pump

losch PES-PDx typ

Governor

3osch RSUV centrif Jgal, all-speed type

Lubricating

Coolant

oil amount

amount

Alternator

Starting

motor

Battery

Turbocharger

Air compressor

Others

01-004-10 0

(refill capacity)

Bosch PE(PS7S) 3osch RSUV centrifugal,

z z

type all-speed

type

Q

Q

165

165

165

24V, 30A

24V, 35A (1104612802) 24V, 50A (12806-)

24V, 50A

24V, 7.5kW x 2

24V, 7.5kW x 2

24V, 7.5kW x 2

12V 170Ah x 2

12V 170Ah x2

12V 170Ah x 2

Komatsu

KTRllO

Komatsu

KTRIIO

Komatsu

8

KTRI 10

-

-

-

With after cooler

With after cooler

With after cooler

SPECIFICATIONS

GENERAL

SA6D170-B-1

HD465-3 (Single turbocharger)

Pc1000-1

EG450-1

EG480-1 EG480B-1

EG500-1, EG500B-1 EG500BS-1 OEM for generator

EG500-1, EG500B-1 EG500BS-1 OEM for generator

6-170x170 23,150 l-5-3-6-2-4

2

(D z

2,373

2,373

2,577

2,603

2,603

2,603

1,909

1,909

1,048

1,048

1,048

1,048

1,080

1,080

1,809

1,746

1,746

1,746

-

2,275

-

-

-

405/1,700 {542/1,7001

451/2,100 {604/2,1001

2,550/1,300 I260/1,3001

2,481/1,400 {253/1,400}

354/1,500 (50 Hz) (481/1,5001 (50 Hz) 400/l ,800 (60 Hz) [544/1,8001 (60 Hz) -

37211,500 (50 Hz) l498/1,500~ (50 Hz) 416/l ,800 (60 Hz) (557/1,8001 (60 Hz) -

383/1,500 (50 Hz) {513/1,5001 (50 Hz) 427/1,800 (60 Hz) {572/1,8001 (60 Hz) -

383/1,500 (50 Hz) {513/1,500) (50 Hz) 427/l ,800 (60 Hz) {572/1,8001 (60 Hz) -

Max. Max.

Max. Max.

Max. Max.

1,560 (50 Hz) 1,872 (60 Hz)

1,572 (50 Hz) 1,890 (60 Hz)

1,568 (50 Hz) 1,881 (60 Hz)

1,800 - 1,900

1,800 - 1,900

1,800 - 1,890

650 - 700

650 - 700

950 - 1,000

750 - 850

750 - 850

700 - 900



2,750

2,720

211 {157}

224 {I 67)

217 I1621

217 {162} (At rated output)

2,555

2,555

2,650

2,650

BOSCH PE-P(PS7S) type

BOSCH PE-ZWx type

BOSCH PES-PD type

BOSCH RSUV centrif ugal, ail-speed type

BOSCH RSUV-D :entrifugal, minimum naximum-speed type

BOSCH BOSCH

PE-ZWx

119 (107)

160

24V, 50A

24V, 50A

119 (107)

119 (107)

(Engin%ly

43)

PE-P(PS-7% type

lOSCH RSUVcentrifugal, all-speed type (with cocel spring)

BOSCH RSUV centrifugal, all-speed type

30SCH RSUV centrif ugal, all-speed type

(z,

160

type

(Enginiinly

43)

(Engine8tnly

43)

24V, 50A

24V, 13A

24V, 13A

24V. 25A

24V, 7.5kW

x 2

24V, 7.5kW

x 2

24V, 7.5kW x 2

24V, 7.5kW x 2

24V, 7.5kW x 2

24V, 7.5kW x 2

12V 200Ah

x 2

12V 200Ah

x 2

12V 200Ah

12V 200Ah

12V 200Ah

12V 200Ah

KOMATSU

KTRI 10

KTRI 10



With

With aftercooler

aftercooler

x 2

KTRllr

aftercooler

KTRI IO

KOMATSU

-

-

With

x 2

With

aftercooler

x 2

KTRllO

KOMATSU

aftercooler

KTRI 10

-

-

With

x 2

With

aftercooler

01-004-11 a3

GENERAL

SPECIFICATIONS

Engine model

Applicable

Number

of cylinders

machine

- Bore x Stroke


mm

6-170x170

cc

23,150

Firing order

l-5-3-6-2-4

Overall

length


Flywheel

pipe)

pipe)

horsepower

Maximum

torque

mm

2,603

2,601

2,603

mm

1,100

1,120

1,048

mm

1,746

-

1,746

mm

-

2,332

-

kW/rpm WP/rpml

364/l ,500 ~488/1,500~

397f1.800 {540/1,800} 2,461/l ,300 {251/1,300}

-

Ikg:?pmpm)

367/1,500 (50 Hz) {492/1,5001(50 Hz) 416/1,800 (60 Hz) {557/1,800} (60 Hz)

-

1,950 - 2,050

Max. 1,560 (50 Hz) Max. 1,862 (60 Hz)

700 - 900

750 - 850

700 - 800


231 {I721 (At rated output)

223 {I 661 (At rated output)

Dry weight

2,650

2,850

2,650

Fuel pump

Bosch PE-PDx type

Governor

Bosch RSUV centrifugal, all-speed type

High idling

rDm

Low idling

rpm g/kWh

Minimum

Lubricating

oil amount

Coolant amount

ratio

(refill capacity)

{g/HPM

1,560

motor

Battery

Turbocharger

Air compressor

Others

01-004-12 0

Bosch PE-P(PS7S) type 3osch RSUV centrif Jgal, all-speed type

Q

(Engine

120 only 43)

24V, IlkWx2

12V 200Ah x 4

Komatsu

KTR130

139

z

losch PES-PDx type 3osch RSUV centrifugal, all-speed type

(Engine8Znly

43)

24V, 25A

24V. 13A

24V, 11 kW

24V, 7.5kW x 2

12V 200Ah x 2

12V 200Ah x 2

Komatsu

KTR130

Komatsu

8 z

119 (107)

Q

24V, 13A

Alternator

Starting

fuel consumption

Max.

KTR130

-

-

-

With after cooler

With after cooler

With after cooler

SPECIFICATIONS

GENERAL

SA6D170-B-1

OEM for generator

OEM for generator (Stand by use)

OEM for generator


6-170x

OEM for 6-Pole generator

170

23,150 l-5-3-6-2-4

2,603

2603

2,603

2,603

2,323

1,048

1,048

1,048

1,048

1,080

1,746

1,746

1,746

1,746

1,611 -

406/1,500 (50 Hz) {543/1,5001 (50 Hz) 457/1,800 (60 Hz) {612/1,800} (60 Hz)

379/1,500 (50 Hz) {508/1,500~ (50 Hz) 446/1,800 (60 Hz) {598/1,8001 (60 Hz) -

417/1,500 (50 Hz) :559/1,5001 (50 Hz) 492/1,800 (60 Hz) :660/1,800~ (60 Hz) -

37811,500 (50 Hz) {506/1,5001(50 Hz) 403/1,800 (60 Hz) {539/1,800> (60 Hz) -

275/1,000 (50 Hz) :369/1,0001 (50 Hz) 345/1,200 (60 Hz) [462/1,2001 (60 Hz)

Max. Max.

Max. Max.

Vlax. 1,568 (50 Hz) Vlax. 1,881 (60 Hz)

Max. Max.

Max. 1,045 (50 Hz) Max. 1,254 (60 Hz)

-

8 z

1,572 (50 Hz) 1,890 (60 Hz)

1,560 (50 Hz) 1,872 (60 Hz)

1,568 (50 Hz) 1,881 (60 Hz)

700 - 800

700 - 900

700 - 900

700 - 900

223 {I 66) (At rated output)

217 {I621

217 1162)

224 {I 671

2,650

2,650

2,650

2,650

z

Bosch Bosch

119 (107)

(Engin%ly

(Engine

only 43)

type

all-speed

(Engine

Bosch RSUV centrifJgal, all-speed type

type

only 43)

(Engine

only 43)

24V, 13A 24V, 25A (Opt)

24V, 13A 24V, 25A (Opt)

24V. 7.5kW x 2

24V, 7.5kW x 2

24V, 7.5kW x 2

24V, 7.5kW

x 2

12V 200Ah

12V 200Ah

12V 200Ah

12V 200Ah

x 2

Komatsu

KTR130 -

With

after cooler

Komatsu

KTR130

Komatsu

-

With after cooler

x 2

KTR130

Komatsu

after cooler

KTR130

(Engine

With

after cooler

107 only 43)

24V, 11 kW

12V 200Ah

Komatsu

x 2

KTR130

-

-

-

With

122 (110)

67 (60) 119 (107) opt

24V, 13A 24V, 25A (opt)

x 2

(50 Hz) (60 Hz)

2,700

24V, 13A

x 2

217 {I601 217 {I621

Bosch PE-P(PS7S)

67 (60) 119 (107) opt

43)

750 - 850

PE-PDx type

RSUV centrifugal,

-

With

after cooler

01-004-13 0

SPECIFICATIONS

GENERAL

Engine

model

Applicable

Number

of cylinders

Total piston Firing

SA6D170-AE-1

WA600-1 (EC regulation)

machine

- Bore x Stroke

DENY0 generator DCAGOOSSK

mm

displacement

6-170x170

cc

23.2 {23,150} l-5-3-6-2-4

order

Overall

Ovrall

length

width

Overall height (Excluding exhaust

pipe)


Flywheel Maximum

mm

2,024

2,603

mm

1,136

1,062

mm

2,242

1,736

-

pipe)

kW/rpm {HP/rpm)

horsepower torque

ckgr!$pmpm)

High idling

305/2,000 (Net) {409/2,0001 (Net) 1,960/1,400 (Net1 {200/l ,400) (Net) 2,200 - 2,300

rpm

Low idling

170/l ,500 j30/1,500} j13/1,800 j88/1,800)

(Net, 50Hz) (Net, 50Hz (Net, 60Hz) (Net, 60Hz -

Max. Max.

1,570 (50 Hz) 1,880 (60 Hz)

650 - 700

700 - 900

212 (Net) {1581 (Net)

At rated flywheel horsepower !ll {157} (Net, 50Hzl !I8 11631 (Net, 60Hzl

Dry weight

2,900

2,770

Fuel pump

30SCH PE-PDx tyr

3OSCH PE-ZWx type

Minimum

fuel consumption

ratio

g/kWh Ig/HPh)

#OSCH RSUV centri ugal, all speed type

Governor

Lubricating

Coolant

oil amount

amount

Alternator

Starting

motor

Battery

Turbocharger

Air compressor

Others

01-004-14 03

(refill capacity)

ZEXEL electronic control type

119 (107)

e

e

135

(Engine

only

: 43)

24V, 50A

24V, 25A

24V, 7.5kW x 2

24V, 11 kW

12V 200Ah

x 2

KOMATSU KTRllOtype :EXEL reciprocatio single cylinder typ Aftercooler

12V 200Ah

x 2

KOMATSU KTR150 type

Aftercooler

SPECIFICATIONS

GENERAL

SAAGD170-1

Generator (50 Hz only)

6-170x170 23.15 I23,1501 l-5-3-6-2-4

2,635

1,048

1,770

597/1,500 (Net) I800/1,500} (Net)

8 z z

Max.

1,570

700 - 900 At rated flywheel horsepower 205 (Net) Cl531 (Net) 2,650

BOSCH PE-ZWy type GAC electronic governor

147 (135)

(Engine’Znly

: 43)

24V, 13A

24V, 11 kW

12V 200Ah

x 2

KOMATSU KTRISO type

Air cooled aftercooler

01-004-15 63

/ GENERAL

GENERAL

GENERAL S6D170-1 .

LEFT

ASSEMBLY

ASSEMBLY

DRAWING

DRAWING

(for PC650-1) SIDE

VIEW

r

P

r

zi./

Wind c3

Zrankshaft center

I

lb/3 9

1851.9 20289

6162FOOl

170-1 SERIES

01-005

GENERAL

GENERAL

.

ASSEMBLY

DRAWING

RIGHT SIDE VIEW

16114

Exhaust 0

I

Crankshaft

1

Iii i i it

6162FOOZ

01-006

170-1 SERIES

GENERAL

GENERAL

l

ASSEMBLY

DRAWING

FRONT SIDE VIEW

1001.5

r

I

m

Crankshaft

6162FOO3

170-1

SERIES

01-007

GENERAL

GENERAL

l

ASSEMBLY

DRAWING

REAR SIDE VIEW

Crankshaft center

’

Thread dia. 12 mm, pitch 1.75 mm. thread depth 21 mm, 16 points

\

.

Thread dia. 10 mm, pitch 1.5 mm, thread depth 13 mm, 24 points

330.2 6 162FOO4

01-008

170-l

SERIES

GENERAL

GENERAL

SAGD170-A-1 .

ASSEMBLY

DRAWING

(for EG550-I)

LEFT SiDE VIEW

w

I II I” lt=i uu-

ILo

0 n

0 n

01

_

. ’

c. center

I

1

IIIII 0 0

0 0

2006.4

170-1 SERIES

0 l-009

GENERAL

GENERAL

l

ASSEMBLY

DRAWING

RIGHT SIDE VIEW

-

-

\ 1663.9

01-010

d ?

170-1 SERIES

GENERAL

.

GENERAL

ASSEMBLY

DRAWING

FRONT SIDE VIEW

-

170-1 SERIES

01-010-1

0

GENERAL

GENERAL

.

REAR

SIDE

DRAWING

VIEW

41.4

01-01 o-2 0

ASSEMBLY

243.4

_

170-1 SERIES

GENERAL

GENERAL

SA6D170-B-1 0

ASSEMBLY

DRAWING

(for D375A-1)

LEFT SIDE VIEW

Crankshaft center

/-

6162FOO9

170-1 SERIES

01-01 o-3 0

GENERAL

GENERAL

0

ASSEMBLY

DRAWING

RIGHT SIDE VIEW

r-n

b-4 -

6162FOlO I

01-010-4 0

170-1 SERIES

GENERAL

GENERAL

l

ASSEMBLY

DRAWING

FRONT SIDE VIEW

” I

6162FOll

170-l

SERIES

O’ -%“-5

GENERAL

GENERAL

0

REAR SIDE

ASSEMBLY

DRAWING

VIEW

Crankshaft

center

6162FO12

01-01 O-6 0

170-1 SERIES

WEIGHT

GENERAL

TABLE

WEIGHT TABLE Unit: kg

Item

No.

I

Turbocharger

2

Cylinder

-

17x2

KTRI 10

-

-

20

KTR 130

31

31

31

KTR 150

-

35

-

1

L

Cylinder spring

head assembly

Cylinder

3

Gear case cover

5

Xming

6

Oil pan

7

Flywheel

assembly

8

Flywheel

housing

9

Crankshaft

head, valve and valve

37

gear case

48

I

48

675

I

48

30

30

30

45

45

45

71:{ ;~~$tzl 51: WA600-1

Flywheel Ring gear

37

I 675

675

I

I

-

37‘

I

Cylinder block Main bearing cap Cylinder liner

block assembly

4

SA6D170-B-l I

I

TV77 1

SA6D170-A-1

S6D170-1

Component

I

48: HD465-3 122: EG550-1

43: D375A-1 122: EG450-1

8

Camshaft

10

Crankshaft Crank gear

assembly

Camshaft, plate

assembly

cam gear and thrust

95

95

92: D375A-1 117: EG450-1

270

270

270

31

31

31

I I

11

Piston and connecting assembly

12

Oil pump

13

Fuel injection

14

Water pump

15

Alternator

16

Starting

rod

Piston, piston ring, piston pin and connecting rod

I

21

21

I 21

21

I 21

21

48

31

20

20

20

15: { ‘p$~“5”0& 12: WA600-1

15

IO

motor

18

18

18

17

Air compressor

15

15

18

After cooler

pump

30: { ;$;;;;:J 31: WA600-1

65

43.5

01-011 0

ENGINE

GENERAL

ENGINE S6D170-1

PERFORMANCE

(for PC650-1,

PC1500-1)

horsepower:

410 HP/l,600

Flywheel Maximum

torque:

Minimum

fuel consumption

CURVE

CURVE

rpm

207 kgm/1,200 ratio:

PERFORMANCE

rpm

165 g/HP.h

150

I

I

I

I

I

I

I

400

600

800

1000

1200

1400

I\I

I

125

E

100

;

t75F

450

400

350 EI I

5 P ‘,

300

0

250

1600

1800

2000

Engine speed (rpm)

01-012 0

170-1 SERIES

GENERAL

S6D170-1 Flywheel

ENGINE

PERFORMANCE

CURVE

(for D275A-2) horsepower:

405HP/1,800

rpm

200 Maximum torque: 212 kgm/l,300 + 0 rpm . Minimum fuel consumption ratio: 16lg/HP.h

,150 -125

Em Y

-100

J P

-75

z

- 50 - 25 -0

400

600

800

1000

1200

1400

1600

1800

2ooO

Engine speed (rpm)

170-1 SERIES

01-012-l @

ENGINE PERFORMANCE CURVE

GENERAL

S6D170-1 (for WDSOO-11 SA6D170-AE-1 (for WA600-1

EC regulation)

Flywheel horsepower

: 305 kWM09

Maximumtorque

: 1,960 Nm

HPV2,OOO

rpm

1200 kgml/l,400 rpm

E

9

s 200

0. I

3 Y

450

-2.000

150 -1.500

2 U L

100 -1,000

:

50

-500

0

-0

co a

450 300

400

; 3 0

350

:

300

250

co

200

L

250 150

200

x -

LL

150

100

100

I

150

100 50

50

0

50

0

n _

.. 600

600

1,000 1,200 1.400 1,600 1.800 2.000 2.200 2,400 Engine

speed

(rpm)

SWEOI184

01-013 @


GENERAL

S6D170-1

(for WDSOO-1)

Flywheel

: 334 kW (448 HP}/2,000 rpm

horsepower

Maximum

: 2,089 Nm {213 kgmV1,400 rpm

torque

z 250

/

200

150

100 3

&

2000 a 2 1500

1000

,”

1

500.

-: !500

cnn I!

500

I

350 450

0

300

400

350 250 3 a -

300

G

\

200 250

/

250-

I

\I

I

15C

200

150

Inn

L””

150 IOC

100

100 5c

50

(I-

50

0

::

800

1000

1400

1200 Ens

01-014 0

ine

1600 speed

1800 (rpmi

2000

2200

2400 SWEOIOZI

z 0 c


GENERAL

S6D170-1

(for EPS6D170-1)

Flywheel

E 550-

horsepower

3 1

400-

500-

: 385 kW {516 HP} 1,800 rpm

2 550

500 350-

450-

400-

450

300-

350250-

400

350

c ;

300-

S

300 200-

250-

200-

250

150-

150-

200

150 IOO-

IOO-

100 50-

50-

o-

50

o-

0

Engine

speed

(rpm)

SWE01022

01-014-l 0

GENERAL

S6D170-1


(OEM for generator)

Flywheel

horsepower

:

Prime

use

: 324 kW I434 HP} 1,500 rpm (50 Hz)

Stand

by use

: 355 kW (476 HP} 1,500 rpm (50 Hz)

371 kW 1497 HP} 1,800 rpm (60 Hz)

408 kW {547 HP} 1,800 rpm (60 Hz)

a

3 _b

1

600

450

2

408kW&07H@

400

500

/

600 355kW1476Hd

550

itandbrl

60Hz

50Hz

I

550

(Standbul

I

II

I

/I

/

500 350

450

400

300

+

I

371 kW(497HP) (Prime) 60Hz

350

:

250 300

1 200

z

250

I

I

324kWt434Hd

(Prime)

50Hz 250

z 200

150

150 100 100 50 50

0

0

_

.

1100

1200

1300

En9

01-014-2 0

1400

1500

i ne

speed

1600

(rpm)

1700

1800

1900 SWE01023


GENERAL

SA6D170-A-1 Flywheel

(PClOOOSP-1 for LAYTON) : 434 kW {582 HP}/l,750 rpm

horsepower

Maximum

: 2,731 Nm I278.5 kgm}/1,300 rpm

torque

E

E

3 400

4000

300

c 3000

200

-2000

100

-1000

0

-0

Yj m

a r

600-

3 2.

450

550-

z +-

600 550

400

500-

500 350

450-

450

400;

300

350-

250

a g

400

300200 250200-

250 150

200

150-

150

100 IOO50

50 0

!

50 0

0

::

BOO

1000

1100

1200

1300

Ens i ne

1400

speed

1500

1600

(rpm)

1700

1800

1900 SWE01024

01-014-3 G9


GENERAL

SAGD170-A-1

(for HD465-3

with single turbocharger)

Flywheel horsepower

: 524 kWi613

Maximumtorque

: 2,824 Nm (288 kgmI/1,400

HP}/2,100

rpm rpm

E

s 400

100

E 4000

3000

g

2000

:

1000

0

8

a

B

I:

Y

600

800

700

500

: 80(

70(

60(

600 400 <

500

50(

: 400

300

300 200 200

40(

30(

20( 100 lO(

100

0

0

c

800

1000

1200

1400

Engine

01-014-4 0

1600 speed

1600 (rpm)

2000

2200

2400 SWE01025

GENERAL


SAGD170-A-1 Flywheel Maximum

(for HD465-3

horsepower

with single turbocharger

: 524 kW (702 HP} 2,100 rpm : 2,824 Nm I288

torque

and twin turbocharger)

kgm1

1,400 rpm

E

s

s -400

-4000

-300

-3000

; u L

L1 1

800

3 2 600

700 500 600

z

-200

-2000

-100

-1000

-0

-0

:

2 800

-

700--

600 400

500

500

z 400

300

300

400

300 200

200

200 100

100

0

100

0

0

800

1000

1200

1400

Ens i ne

1600

speed

1800

(rpm)

2000

2200

2400 SWE01026

01-015 0

GENERAL

S6D170-AFlywheel

ENGINE PERFORMANCE

CURVE

1 (For HD465-5) horsepower:

715

HP/2,100

307

kgm/l,400

Maximum

torque:

Minimum

fuel consumption

ratio:

rpm rpm

150 g/HP.h

200

P 2 J P I-"

100

800

0 output /

\ \

I

f

I

I

l/l

I

I

I

I

I

I

II 0 800

1000

1200

1400

1600

1800

2000

2200

II

2400

Engine speed (rpm)

6162F817

O’-F

170-1 SERIES

ENGINE

GENERAL


(for HD465-3 horsepower

Maximum

torque

high altitude

PERFORMANCE

CURVE

spec.)

: 386 kW I518 HP) 2,100 rpm : 2,108 Nm 1215 kgm1 1,400 rpm

E

5

s 300

200

3000

2000 a, 2 0 If

&

100

1000

0

0

Y 3

600400500-

2 a

400-

G

300-

300-

zoo200-

I 200

100loo-

o-

100

o-

0

500

1000

Engine

2000

1500

speed

(rpm)

2500 SWE01027

01-016-l 0

GENaERAL

ENGINE PERFORMANCE,CURVE

S6D170-1

(For WA700-1)

Flywheel horsepower:

641 HP/2,000

Maximum torque:

286.5 kgm/l,400

rpm rpm

Minimum fuel consumption ratio: 153 g/HP.h

250

600-

,C

600

800

1000

1200

1400

1600

1800

2000

2200

Engine speed (rpm) F6161A012

170-1 SERIES

GENERAL

SA6D170-A-1

ENGINE

PERFORMANCE

CURVE

(for EG550-1)

Flywheel horsepower: 578 HP/l ,500 rpm (50 Hz) 634 HP/l,800 rpm (60 Hz)

800

600 c I s P 'j 0

500

400

2 300

200

190

4 2

180

.g

170

s '"a

100

Enginespeed x 100 (rpm)

o’-:‘8

1560

1870

170-l

SERIES

GENERAL

ENGINE PERFORMANCE

(EG5808-1)


CURVE

horsepower:

Fuel consumption

ratio:

611

HP/l,500

673

HP/l,800

160 g/HP.h

rpm (50

Hz)

rpm (60

Hz)

(Rated output)

800

600.

500

/

I 611 HP (50HZ)

400

I

I

I I \

I I I

I I I

300

I I I

I

I 200

, 1

100 --wFue’

ratio

180

-170 160

I

- 150

I

1000

1100

1200

1300

1400

-190

I

I I

I

CO.nsOmptiOn

200

1500

I 1600

1700

1800

1900

2000

Engine speed @pm) F6161A013

170-1 SERIES

01-ii19

ENGINE PERFORMANCE

GENERAL

SA6D170-A-1

(EG5808-1


CURVE

L) 633 HP/l,500

rpm (50 Hz)

Fuel consumption ratio: 160 g/HP.h (Rated output)

800

500

E. 400 c 6'j s 300

200

220

i

--210

II

'-200

\I I

--190

,

180 I

lOO-------

,' /

1000

1100

1200

1300

1400

1500

s-170

I .-I

160

I I

1600

--150 1700

1800

F6161A020

O’-iJ 9-1

170-1 SERIES

GENERAL

ENGINE PERFORMANCE


CURVE

(EG600BS-1) horsepower:

Fuel consumption

ratio:

630

HP/l,500

rpm (50

Hz)

688

HP/l,800

rpm (60

Hz)

160 g/HP.h

(Rated output)

800

600

500

c I

sa s

400

220 210

0

300

!OO 190

200

100

z p \ = .P

180

5s ‘E

170

2

160

E 5 I=

150 1000

1100

1200

1300

1400

1500

1600

1700

1800

1900

2000

Engine speed (rpm) F6161A014

O’-Z20

170-1 SERIES

GENERAL

ENGINE


CURVE

(for EM680A) horsepower

Maximum

PERFORMANCE

torque

: 552 kW 1740 HP) 2,000 rpm : 2,501 Nm I255 kgm) 1,400 rpm

E

s

s

Torque

400

-4000

300

-3000

g m L

200

-2000

If

100 -1000

0

a 1

600-

i 0

3 24

600-

700500600:

500-

400-

400-

300-

:

300200200IOOIOO-

o-

o-

J-2’) . 1 600

II 600

1000

1200

En9 i ne

1400

speed

1600

(rpm)

1800

2000

2200 SWEOlOZtl

Ol -020- 1 0

GENERAL

ENGINE


(for EM680A-1,6M170B-1,

CURVE

engine)

: 552 kW (740 HP} 2,000 rpm

horsepower

Maximum

OEM for marine

PERFORMANCE

torque

: 2,893 Nm I295 kgm) 1,400 rpm

E

e

s -400

-4000

-300

-3000

; Is L

0 2

8OC

-200

-2000

.lOO

-1000

-0

-0

If

3 2.

600

700

600

z

500

0' 400

300

200

100

0

.. 800

1000

1200

1400

En9 ine

01-020-2 0

1600

speed

1800

(rpm)

2000

2200

2400 SWE01029

GENERAL

ENGINE

SA6D170-A-1 Flywheel Maximum

PERFORMANCE

(for EM680A-A) horsepower

: 629 kW I842 HP} 2,000 rpm

torque

: 3,295 Nm I336 kgm} 1,400 rpm

E

s

9

%

CURVE

400

-4000

300

-3000

200

-2000

100

-1000

0

-0

3 24

700900l300- 6007005006004005

500-

: 400-

300-

300200200looIOO-

\

100 A’

o-

o-

n ”

?! .\

600

800

1000

1200

1400

En9 i ne

1600

speed

1800

(rpm)

2000

2200

2400 SWE01030

01-020-3 0

GENERAL

ENGINE


& 800-

PERFORMANCE

(for EPSAGD170-A-l) horsepower

: 508 kW (680 HP1 2,000 rpm

Y 3

600-

700500;

600-

:

400500-

400-

300-

300200200tooloo-

o-

o-

800

1000

1200

1400

En9 ine

01-020-4 0

1600

speed

1800

(rpm)

2000

2200

2400 SWEOtO31

CURVE

GENERAL

ENGINE

SAGD170-B-1 Flywheel

PERFORMANCE

CURVE

(for D375A-1)

horsepower:

508 HP/l ,800 rpm

Maximum

torque:

Minimum

fuel consumption

266 kgm/l,300 ratio:

rpm

158 g/HP.h

280

260

240

T 2 S

220

: I-

200

c I50

800

1000

1200

1400 Engine

170-1 SERIES

speed

1600 (rpm)

1800

01-021 0

ENGINE PERFORMANCE

GENERAL


CURVE

(D375A-2) horsepower:

525

Maximum

torque:

Minimum

fuel consumption

HP/l

,800

267 kgm/l,300 ratio:

rpm rpm

158 g/HP.h

Torque

z 150

210

-200 -190

lOO-

180 -170 Fuel consumption ratio -

50

160 I

0

600

800

1000

1200

1400

1600

1800

2000

$ \ = .P ;;j ; 0 .E z C 8 Z I?

- 150

2200

Engine speed @pm) F6161A015

01-:22

170-1

SERIES

GENERAL

ENGINE PERFORMANCE


CURVE

(PCIOOO-1) horsepower:

542

HP/l

260

kgm/l,300

Maximum

torque:

Minimum

fuel consumption

250

ratio:

,700

rpm rpm

155 g/HP.h

_

1100

1200

1300

Engine

1400

speed

1500

1600

1700

1800

1900

(rpm) F6161A016

170-1 SERIES

GENERAL

SA6D170-B-1 Flywheel Maximum

ENGINE

(for PClOOO-1 high altitude horsepower torque

PERFORMANCE

CURVE

spec.)

: 341 kW {457 HP} 2,000 rpm : 2,157 Nm (220 kgm) 1,300 rpm

E

5

,” 400

-4000

300

-3000

200

-2000

100 0

Ene

01-023-l 0

i ne

speed

(rpm)

; D i

1000 t 0

SWE01032

GENERAL

ENGINE PERFORMANCE

SAGD170-B-1

(for HD465-3

with

CURVE

single turbocharger)


613 HP/2,100

Maximum torque:

253 kgm/l,400

rpm rpm

Minimum fuel consumption ratio: 165 g/HP.h

250

200

50

0

7oc

600

500

z I 5 a 5 0

400 z 3oc

20(

200

: ‘,

Igo

z

180

; .o z E

170 Fuel consumption

\

1OC

ratio

160

z 8

150

2

\

C 1000

1200

1400

1600

Engine

1800

2000

2200

2300

2400

speed (rpm) F6161A017

O’-:24

170-1 SERIES

GENERAL

SA6D170-B-1 Flywheel

ENGINE

PERFORMANCE

CURVE

(for EG450-1)

horsepower:

481 HP/l,500

rpm (50 Hz)

544 HP/l ,800 rpm (60 Hz)

I HP/l

DO rpi -

600 0 HP,

/

h

k-

500 z I 2 n ‘; 0

I

w

/

lP/l ,E

I

1 rpm

I I

I

400

I I

300

I

I

1 i-I

I

I t I

I

I I I

I I I

:I I I

200

L

I I

I

CO

I

,mpti

I

I

I I

100

I + I

I I I

I

I I

I

12

13

14

15

16

17

16

19

Engine speed x 100 (rpm)

170-1 SERIES

O’-$25

ENGINE PERFORMANCE

GENERAL

SAGD170-B-1

CURVE

(EG480B-1)


488 HP/l,500

rpm (50 Hz)

549 HP/l,800

rpm (60 Hz)

Fuel consumption ratio: 162 g / HP.h (Rated output)

220 210 200 190

E $ \ _a .P ;;; h :

180

.E

170

7 6 0 5 I?

160 150

Engine speed (rpm) F6161AO18’

01-026 0

170-1 SERIES

GENERAL

ENGINE PERFORMANCE


CURVE

(EG5OOBS-1) horsepower:

Fuel consumption

ratio:

513

HP/l

,500

572

HP/l,800

160 g/HP.h

rpm (50

Hz)

rpm (60

Hz)

(Rated output)

I \

600

,I

550

I

I

.I

500

I

111

I I

I I I

I I

350 Y

i

300

I I

I

I I 250

I

I

I

I

I I

I i

I

200

150

I I

! I

100

I I I

/

/ d* I 1100

1200

1300

1400

1500

I 1600

I I

/

50

1000

-

1

/I

-

I I

I 1700

1800

-

210

z

200

: p

190

.i

180

.$

170

2 2

160

i

50

: IL

-

2000

Engine speed(rpm) F6161A019

170-1 SERIES

O’-:27


GENERAL

SA6D170-B-1 Flywheel

(OEM for generator) :

horsepower

: 367 kW 1492 HP] 1,500 rpm (50 Hz)

Prime use

416 kW (557 HP} 1,800 rpm (60 Hz) Stand by use : 406 kW (543 HP) 1,500 rpm (50 Hz) 457 kW 1612 HP) 1,800 rpm (60 Hz)

a

3 Y

I

450.

650

600

550

450.

400

500I350 45c l-

4oc l-

300

350I250

350 367kWI492Hd

(Prime)

50Hz 300l3 a

300200

250l-

250

201O- 15(

200

g

.-_

151D-

150

’

lot 101D-

100 51

51O-

O-

50

L

OLLI

1100

1200

1300

1400

Engine

01-028 0

1500

speed

1600

(rpm)

1700'

1800

1900 SWE01033

ENGINE

GENERAL

SA6D170-B-1

PERFORMANCE

CURVE

(for EPS6D170-B-1)

Flywheel horsepower :445 kW{597 HP)1,800rpm

CL 1

3 Y

500650-

600-

550-

650 450-

600

400-

500350450-

400-

3503 P

300-

250-

400

350 / 300

';' 300-

/

0

200250-

250

zoo-

150- 200

I

150looloo-

/ I

150

100 50-

50-

o-

o-

0

600

600

1000

1200

Engine

1400

1600

sPeed(rPm)

1600

2000

2200 SWE01034

01-029 0

II

ENGINE STRUCTURE AND FUNCTION GENERAL

STRUCTURE..

............................

1 I-002

INTAKE AND EXHAUST SYSTEM Intake and exhaus system ..................... 1 I-004 1 I-007 Turbocharger .......................................... 1 I-009 After-cooler.. ........................................... ENGINE BODY 11-010 Cylinder head ......................................... II-012 Valve system ........................................... 1 I-014 Cylinder block ......................................... 1 I-016 Main circulation part .............................. 1 I-018 Timing gear.. ........................................... Flywheel and flywheel housing ............ 1 I-020 LUBRICATION SYSTEM 1 I-021 Lubrication system chart ....................... II-022 Oil pump ................................................. Oil filter and safety valve.. ..................... 1 I-023 1 I-024 Oil cooler ................................................ 1 I-025 Oil pump relief valve.. ............................ 1 I-025 Oil cooler by-pass valve ........................ 1 I-026 Piston cooling valve ............................... Mechanical pump.. ................................. 1 I-027 FUEL SYSTEM 1 I-028 Fuel system chart.. ................................. 1 I-030 Fuel injection pump ............................... 1 I-032 Fuel injection nozzle ............................... Fuel injection pump drive ...................... 1 I-033 1 I-034 Fuel filter.. ............................................... 11-034-I Fuel cut solenoid ................................. 1 I-034-3 Engine stop motor .............................. 1 I-035 Starting aid ............................................. Outline of electronical governor system (with electronical governor made 11-035-I by ZEXEL) ..........................................

COOLING SYSTEM Cooling system chart.. ........................... Water pump.. .......................................... Fan drive and tension pulley.. ............... Corrosioon resistor ................................ Thermostar .............................................

1 I-036 1 I-037 1 I-038 1 I-040 1 I-041

ACCESSORY Air compressor mounting ..................... Air compressor. ...................................... ELECTRICAL SYSTEM Alternator ................................................ Starting motor ........................................ Wiring diagram ......................................

1 I-042 1 I-043 1 I-044 1 I-045 1 I-047

11-001

43

STRUCTURE

AND

GENERAL

FUNCTION

GENERAL

STRUCTURE

STRUCTURE

S6D170-1

6162FlOl

Camshaft

17.

Front seal

Rocker arm shaft

18.

Oil pump

19.

Connecting rod cap

Tappet

20.

Oil pan Main bearing cap

1.

Crank pulley

2.

Thermostat

10.

3.

Cylinder head

11. Push rod

4.

Fuel injection nozzle

12.

9.

5.

Rocker arm housing cover

13.

Rocker arm housing

21.

6.

Piston pin

14.

Cylinder block

22.

Crankshaft

7.

Intake valve

15.

Rear seal

23.

Ring gear

8.

Exhaust valve

16.

Vibration

24.

Flywheel

1 l-002

damper

170-1

SERIES

STRUCTURE

AND

FUNCTION

25.

Cylinder liner

26.

Piston

27.

Oil cooler

28.

Fuel injection pump

29.

Piston cooling nozzle

30.

Connecting rod

170-1 SERIES

GENERAL

STRUCTURE

6162F102

11-003

STRUCTURE

INTAKE S6D170-1

AND

FUNCTION

AND

INTAKE

EXHAUST

AND

EXHAUST

SYSTEM

SYSTEM

for PC650-1

Intake system

1.

Air cleaner

2.

Turbocharger

3.

Intake manifold

4.

Exhaust manifold

5.

Muffler

A.

Intake inlet

B.

Exhaust

6162F106

Exhaust system

6162F107

11-004 0

170-l SERIES

STRUCTURE

S6D170-1

AND

FUNCTION

INTAKE

AND

EXHAUST

SYSTEM

for PC1500-1

Intake system

1.

Air cleaner

2.

Turbocharger

3.

Intake manifold

4.

Exhaust manifold

5.

Muffler

Exhaust system A.

Intake inlet

6.

Exhaust

5

2

170-l SERIES

1 l-005

0

STRUCTURE

AND

FUNCTION INTAKE

ANQ

EXHAUST

SYSTEM

S6D170-1 for WA600-1 Intake system

a

Exhaust system

F6161A002

F6161A003

1 J-005 1

0

170-l SERIES

STRUCTURE

SA6D170-A-1

AND

FUNCTION

INTAKE

AND

EXHAUST

SYSTEM

for EG550-1 Intake system

b

F /--(--

3

1.

Air cleaner

2.

Turbocharger

3.

Intake manifold

4.

Exhaust manifold

5.

Muffler

Exhaust system

1 I-006 0

A.

Intake inlet

6.

Exhaust

170-l SERIES


INTAKE AND EXHAUST SYSTEM

SAGDI 70-A-1 for H D465-3 Intake system

2.

Turbocharger

3.

intake manifold

4.

Exhaust manifold

A.

Intake inlet

B.

Exhaust

Exhaust system

170-1 SERIES

l l -0060

1



SAGD170-B-1 for EG450-1 Intake system

1.

Air cleaner

2.

Turbocharger

3.

Intake manifold

4.

Exhaust manifold

5.

Muffler

A.

Intake inlet

B.

Exhaust

Exhaust system

1 l-006-2 0

170-1 SERIES


SAGD170-B-1


for D375A-1 Intake system

1 . Air cleaner 2.

Turbocharger

3.

Intake manifold

4.

Exhaust manifold

5.

Muffler

A.

Intake inlet

6.

Exhaust

Exhaust system

170-1 SERIES

11-006-3 0

STRUCTURE

AND

INTAKE

FUNCTION

AND

EXHAUST

SYSTEM

TURBOCHARGER .Q KTRllO

C

P

8

I

1.

Blower housing

a.

2.

Blower impeller

b. Oil outlet (to oil pan)

Oil inlet (from oil filter)

3.

Clamp

c. Air inlet

4.

Center housing

d. Air outlet

5. Journal bearing

e.

Exhaust inlet

6. shield

f.

Exhaust outlet

7. Turbine impeller 8.

Flinger

9.

Thrust bearing

e

9

TURBOCHARGER Type:

Komatsu KTRI

Overall length:

290 mm

Overall width:

305 mm

Overall height:

267 mm

Weight:

19 kg

Maximum

allowable rotation:

Maximum

charging: 46 kg/min.

Maximum Direction

94,000

allowable temperature of rotation

Lubrication

method:

10

rpm

(inlet):

75O’C max.

(view from blower side): Forced lubrication

Right

with

engine oil 10.

Turbin shaft

11.

Turbine housing

170-1 SERIES

1 l-007 0



KTR130

2

6162F108

1.

Blower housing

11.

Insert

2.

Blower impeller

12.

Thrust bearing

3.

Clamp

4.

Center housing

13.

Turbine shaft

5.

Journal bearing

a.


6.

Clamp

b.

Oil outlet (to oil pan)

Specifications * Type:

* Maximum l

c.

Air inlet l

8.

Turbine impeller

d.

Air outlet

9.

Turbine housing

e.

Exhaust inlet

Flinger

f.

Exhaust outlet

10.

“:O*

31 kg

- Continuous rotation: charging:

Appropriate

- Direction Shield

Komatsu KTR130

* Length x width x height: 366 x 358 x 323 mm *Weight:

7.

of turbocharger

temperature

of rotation

Lubrication

70,000

method:

rpm

32 kg/min. (inlet,‘C):

750°C

max.

(view from blower side): Forced lubrication engine oil

Right

with

170-l SERIES

STRUCTURE

AND

FUNCTION

INTAKE

AND

EXHAUST

SYSTEM

KTRl50 6

5

F6166009

1.

Blower housing

a.


2.

Blower impeller

b.

Oil outlet (to oil pan)

3.

Clamp

c.

Air inlet

4.

Center housing

d.

Air outlet

5.

Journal bearing

e.

Exhaust inlet

6.

Turbine impeller

f.

Exhaust outlet

7.

Turbine housing

8.

Flinger

9.

Thrust bearing

10.

Turbine shaft

170-l

SERIES

Specifications l

* * * *

Type:

of turbocharger

Komatsu KTR 150

Length x width x height: Weight:

350 x 289 x 358 mm

38 kg

Maximum

allowable rotation:

Maximum

charging:

*

Maximum

l

Direction

l

Lubrication

65,000

allowable temperature of rotation method:

rpm

78 kg/min. (inlet):

75O’C max.

(view from blower side): Forced lubrication engine oil

Right

with

1T8-’

STRUCTURE

AND

INTAKE

FUNCTION

AND

EXHAUST

SYSTEM

TV77

C

615OF106-1

1. Lock nut

12. Turbine housing

2. Blower housing

13.

3. Blower impeller

14. Turbine

4. Thrust collar

A

Air inlet

5. Back plate

B

Air outlet

Overall width

I

284 mm

6. Thrust bearing

C

Gas inlet

Overall height

I

264 mm

7. Seal ring

D

Gas outlet

8. Center housing

E

Oil inlet

9.

F

Oil outlet

Retaining ring

10. Journal bearing 11. Shroud

Piston ring

Type

CO. TV7705

.275mm

Overall length ~_______ ~7

Weight

17 kg

7

Continuous speed

90,000

Max. air supply

0.43 kglsec

Compression ratio Applicable Direction

1 l-008-2 0

GARRETT

impeller

exhaust temp. of rotation

I

rpm

3.4 Max. 700°C Clockwise (see from

I the blower side)

SERIES

170-l

STRUCTURE

AND

INTAKE

FUNCTION

AND

EXHAUST

SYSTEM

AFTER-COOLER

l!!!zll El I 0

170-1

0

SERIES

00 oo

0

0

1.

Cover

2.

After-cooler

0

body

o

0

0

~~[T~_fL!,: 0 0 0 0

;:

A:

From water pump

6:

To water manifold

O 0 O 0 0 O O O -Oo’oo0

0

1 l-009

STRUCTURE

AND

FUNCTION

ENGINE

BODY

ENGINE BODY CYLINDER HEAD

_ a-.

b

B4

A4

6162F109

1l-010 0

1.

Water manifold

a.

2.

Cylinder head

b.

Fuel (return)

3.

Rocker arm housing

c.

Oil (from main gallery)

4.

Rocker arm housing cover

d.

Tap for water temperature

5.

Valve guide

6.

Nozzle holder sleeve

7.

Tube

Coolant

(to thermostat)

gauge sensor

170-1

SERIES

STRUCTURE

AND

ENGINE

FUNCTION

Section A - A

BODY

Section B - B 6162FllO

Cylinder

head

. Direct-injection l

type, injection nozzle, 4-valve type

Separate type (1 -head for 1 -cylinder)

Valve seat . Press fitted into cylinder head of intake valve and exhaust valves.

170-1 SERIES

11-011


ENGINE BODY 1

VALVE SYSTEM

1.

Intake valve

8.

Lock nut

15.

Cam follower pin

2.

Exhaust valve

9.

Upper spring seat

16.

Cam follower

3.

Rocker arm

10.

Valve spring (outer)

17.

Cam follower;haft

4.

Collar

11.

Valve spring (inner)

18.

Adjustment screw

5.

Camshaft gear (No. of teeth: 48)

12.

Lower spring seat

19.

Lock nut

6.

Camshaft

13.

Push rod

20.

Cross head

7.

Adjustment screw

14.

Cam roller

11-012

a.

Oil (from oil pump)

170-1 SERIES

STRUCTURE

AND

ENGINE

FUNCTION

BODY

13

14 15 16 17

Exhaust side of No. 1 cylinder

intake side of No. 1 cylinder

6162F113

6162F112

Valve timing

TDC (Top Dead Center)

Camshaft l

Special cast/forged alloy, 7 bearings

- Cam face and journal face: High frequency hardening

close

BDC (Bottom Dead Center) 6162F114

170-1 SERIES

11-013 0

STRUCTURE

AND

CYLINDER

ENGINE

FUNCTION

BODY

BLOCK

\

\ 8

9 6162F115

1.

Front cover

8.

Main bearing

2.

Cylinder block

9.

Thrust bearing

3.

Cylinder linw

10.

Cam bushing

4.

Crevice seal

11.

Piston cooling nozzle

5.

O-ring (nitrile rubber:

black)

12.

Main bearing cap

6.

O-ring (silicone rubber:

red)

13.

Main bearing cap bolt

14.

Oil level gauge

7.

11-014

Front seal

170-1 SERIES

STRUCTURE

AND

ENGINE

FUNCTION

10

BODY

14

6162F116

Cylinder

block

- Crankshaft:

Seven bearings

- Camshaft:

Seven bearings

Cylinder

liner

- Wet type liner, tufftride

treatment

on bore surface

* Crevice seal, two O-rings

170-1 SERIES

1 J-015


MAIN

CIRCULATION

ENGINE BODY

PART

6162F117

1.

Piston pin

2.

Connecting rod

10.

Crank gear (No. of teeth:

3.

Connecting rod bushing

11.

Connecting rod bearing

4.

Piston

12.

Crankshaft

9.

Vibration

Crankshaft

damper 36)

* Special cast/forged

alloy, seven

bearings - Journal face:

High frequency

hardening 5.

Top ring

13.

6.

2nd ring

14.

Main bearing

7.

Oil ring

15.

Connecting rod cap

8.

Crankshaft

16.

Connecting rod bolt

(Outside

11-016 0

pulley

diameter:

Thrust bearing

200 mm)

170-1 SERIES

STRUCTURE

ALUMINUM

AND

ENGINE

FUNCTION

BODY

PISTON TYPE

Main bearing and connecting rod bearing * 34ayer Kelmet * Upper main bearing:

with oil groove

Piston * Lo-Ex aluminum

alloy

. Groove of top ring:

15

Niresist is cast on top ring.

* Thermal flow solid type (S6Dl70-1)

- Thermal flow shaker type (SAGD170-A-1) (SAGD170-B-1)

-16

- Forced cooling with piston cooling Connecting

rod

- Forged alloy steei

6162F118

Piston ‘T

Piston ring Engine

Top ring

2nd ring

Oil ring

P-face keystone barrel face

2-face keystone inner cut taper face

Bevel cutter with coil expander

Hard chrome plating

Hard chrome plating

Hard chrome plating

S6D170-1 SAGD170-A-I SAGD170-B-1

6162Fllg

170-1 SERIES

STRUCTURE

FCD PISTON

AND FUNCTION

ENGINE BODY

TYPE

Main bearing, connecting bearing l l

rod

34ayer Kelmet Upper main bearing: with oil groove

Piston (FCD piston type) l

0 l

Ductile special iron casting with thin structure Thermal flow shaker type Forced lubricating oil cooling by piston cooling

Al6

--

+

2 Piston Shaker type

6162Fll8

Piston ring Engine

Top ring

2-face keystone eccentric barrel face

2nd ring

2-face keystone inner cut taper face

Oil ring

Bevel cutter with coil expander

SAGDl70-A-1 (HD465-5)

Hard chrome plating

Hard chrome plating

Hard chrome plating

(WA700: 14594 and up)

6162F819

11-017-l CD

STRUCTURE

AND

ENGINE

FUNCTION

BODY

TIMING GEAR

6162FlZO

i 1. Idler gear (No. of teeth:

6.

Idler gear (No. of teeth:

48)

7.

Crankshaft gear (No. of teeth:

8.

Oil pump driving gear (No. of teeth:

9.


2.

Cam gear (No. of teeth:

3.

Compressor driving gear (No. of teeth:

4.

Injection pump driving gear (No. of teeth: 48)

5.


24)

10.

11-018

.

571

30) 36)

33)

41)

Water pump driving gear (No. of teeth

:

20)

45)

170-1 SERIES

ENGINE BODY


h

Y

l-l

Section B - 6

SectionC-C

Section D - D (with timer)

Section d - D (without

timer)

SectionA-A

6162F121

170-1

SERIES

11-019

STRUCTURE

AND

FLYWHEEL

AND

1

ENGINE

FUNCTION

FLYWHEEL

BODY

HOUSING

2

6162F122

Tightening order of flywheel mounting bolt.

1.

Ring gear

2.

Flywheel

3.

Rear seal

4.

Flywheel housing

5.

Drain plug

Ring gear Applicable machine

No. of teeth 118

138

1 l-020 0

I

I

PC650, PClOOO, PC1 500, HD465-5 D275A-2, D355A. D375A. WA600. WD600, WA700, HD465-3, EG550

STRUCTURE

AND

LUBRICATION LUBRICATION

LUBRICATION

FUNCTION

SYSTEM

SYSTEM

SYSTEM

CHART

Oil pan Oil level sensor Oil pump Main relief valve Piston cooling valve Oil cooler $lcyler

by-pass

8. Oil filter 9. Safety valve 10.

Main gallery

11.

Crankshaft

12. Camshaft 13. Rot ker arm 14. Piston cooling nozzle 15. Timing gear 16. Fuel injection pump 17. Turbocharger 18. Mechanical pump

6162F123A

170-1 SERIES

19.

Oil pressure gauge

a.

To intake manifold

w.

Coolant

1 l-021 0

STRUCTURE

AND

LUBRICATION

FUNCTION

SYSTEM

OIL PUMP

6162F124

1 l-022

1.

Oil pump driving gear (No. of teeth:

2.

Oil pump body

3.

Bushing

4.

Drive shaft

5.

Bushing

6.

Pump cover

7.

Driven shaft

8.

Driven gear (No. of teeth:

9.

Bushing

33)

Oil pump

* Gear pump type * Oil pump speed: Engine speed x 1.091

12)

170-1

SERIES

STRUCTURE

AND

LUBRICATION

FUNCTION

OIL FILTER AND

SAFETY

SYSTEM

VALVE

6actionA-A 6162F125

1.

Safety valve cap

Oil filter

2.

Oil pressure sensor

- Filteration

3.

Filter bracket

4.

Filter element

Safety valve Cartridge

5.

Filter case

6.

Safety valve

7.

Valve spring

>

a.

From oil pump

b.

To engine each component

170-1 SERIES

area: 0.82 m2 x 2

- Cracking pressure (difference

pressure): 2.0 + 0.2 kg/cm2

1 l-023

STRUCTURE

AND

LUBRICATION

FUNCTION

SYSTEM

OIL COOLER S6D170-1 SAGD170-B-1

a

Section A - A

i-B

Section B - B

6162F126

11-024 0

1. Cooler cover

Oil cooler

2.

Cooler element

* Heat exchanged:

Min. 45000 area:

Kcel/hr.

3.

Drain cock

* Heat-transmitting

2.94 m2

a.

Coolant (from water pump)

* Oil flow capacity: 180 Urnin. * Water flow capacity: 890 Q/min.

b.

Oil (from oil pump)

c.

Oil (to engine each component)

170-1 SERIES

STRUCTURE

AND

LUBRICATION

FUNCTION

SYSTEM

SAGD170-A-1

Section A - A

Section B - B

1.

Cooler cover

Oil cooler

2.

Cooler element

-

3.

Drain cock

a.

Coolant (from water pump)

b.

Oil (from oil pump)

c.

Oil (to engine each component)

170-1 SERIES

Heat exchanged:

Min. 55000

Heat-transmitting

area: 4.146

Oil flow capacity:

Kcal/hr. m2

180 Q/min.

Water flow capacity:

890 Qlmin.

11-024-l 0

STRUCTURE

AND

OIL PUMP

LUBRICATION

FUNCTION

SYSTEM

RELIEF VALVE 1.

Plug Valve spring Valve body Relief valve Ball type valve (Main relief valve)

6.

Main relief valve spring

a.

From oil pump

b.

To oil pan

c.

From main gallery

Main relief valve

- Cracking pressure (difference

pressure):

8 f 1 kg/cm2 Oil-line

check valve

- Cracking pressure:

-0

3.3 f 0.3 kg/cm2

6162F127

OIL COOLER

BY-PASS

VALVE

1.

cap

2.

Valve spring

3.

Valve body

4.

By-pass valve

a.

From oil pump

b.

To oil filter

Oil cooler by-pass valve * Cracking

pressure:

4.5 + 0.5 kg/cm2

6162F128

170-1 SERIES

1 l-025 0

STRUCTURE

AND

PISTON

COOLING

1

2

FUNCTION

LUBRICATION

SYSTEM

VALVE

3

4

1.

cap

2.

Valve spring

3.

Oil filter adapter

4.

Piston cooling valve

a.

From oil pump

b.

To piston cooling nozzle

c.

To cylinder block

Piston cooling valve * Cracking pressure:

1.3 2.:

kg/cm’

b 6162F129

11-026

170-1 SERIES

STRUCTURE

AND

LUBRICATION

FUNCTION

MECHANICAL

SYSTEM

PUMP

-f

-f

B

B

1.

Spring

2.

Plunger

3.

Plunger

4.

Plunger

5.

Pump body

6.

Worm

a.

Oil inlet (from main gallery)

b.

Oil outlet (to intake manifold)

% C 5 \

/

Section A - A

Section C - C

Section B - B

View 2

6162F130

Mechanical pump * Capacity: 10 + 1 cc/h x 2

* The mechanical pump is a worm pump used to increase the wear resistance of the intake valve seat.

*The pump is driven by the slit shaft connected to the

and sent out from the two outlets of the pump to the two intake manifolds through the oil tubes. sprayed in the intake manifolds

The oil is

by the intake air onto

the seats of the valves to reduce the wear of the seats.

camshaft.

170-1

- The oil is sent from the main gallery into the pump,

SERIES

11-027

STRUCTURE

FUEL SYSTEM

AND

FUNCTION

FUEL SYSTEM FUEL SYSTEM

CHART

6162F131

1 l-028

1.

Fuel tank

2.

Fuel filter

3.

Fuel injection pump

4.

Feed pump

5.

Fuel injection nozzle

170-l

SERIES

STRUCTURE

AND

FUNCTION

FUEL INJECTION S6D170-1,

FUEL SYSTEM

PUMP

SAGD170-B-1

6162F132

1.

Injection pump driving gear (No. of teeth:

a.

Fuel (from fuel tank)

2.

Injection pump drive shaft

b.

Fuel (to fuel filter)

3.

Service meter output

c.

Fuel (from fuel filter)

4.

Fuel injection pump

d.

Fuel (to nozzle holder)

5.

Feed pump

e.


6.

Governor

f.

Oil (to oil pan)

7.

Relay

8.

Solenoid

9.

Fuel filter

11-030 0

48)

170-1 SERIES

STRUCTURE

AND

FUEL

FUNCTION

SYSTEM

6162F133

Fuel injection pump * Maker:

Diesel Kiki

- Type:

PES-PD type

* Governor: * Lubrication

RSUV, centrifugal type, all-speed type method:

Forced lubrication

with engine

oil

170-1 SERIES

11-031 0

FUEL SYSTEM


SAGD170-A-1

4

1.

injection pump driving gear (No. of teeth:

i

i

48)

a.

Fuel (from fuel tank) Fuel (to fuel filter)

2.

injection pump drive shaft

b.

3.

Service meter output

c.

Fuel (from injection pump)

4.

Fuel injection pump

d.

Fuel (to nozzle holder)

5.

Feed pump

e.


6.

Governor

f.

Oil (to oil pan)

7.

Relay

8.

Solenoid

9.

Fuel filter

11-031-l Cc

170-1 SERIES

STRUCTURE

AND

FUNCTION

FUEL SYSTEM

Fuel injection pump

* Maker: - Type:

Diesel Kiki PE-ZWX

* Governor: - Lubrication

type

RSUV, centrifugal type, ail-speed type Forced lubrication with engine oil method:

170-l SERIES

11-031-2 0

STRUCTURE

AND

FUEL

FUNCTION

FUEL INJECTION

SYSTEM

NOZZLE

1.

Nozzle holder

2.

Nozzle spring

3.

Nozzle

4.

Retaining cap

b

5.

Adjustment shim

a.

Fuel inlet

b.

Fuel return (To fuel tank)

IllI

FL IIll Ill’ II I’ IllI

II

1’ I ill’

I

6162F134A

Fuel injection nozzle - Maker: Diesel Kiki - Type:

Bosch DLL-S type, multiple

1 l-032 @

hole type

170-1

SERIES

STRUCTURE

AND

FUEL INJECTION For PES-PD

type

FUEL SYSTEM

FUNCTION

injection

PUMP

DRIVE

pump

7 5

8

6

-

Section

1

2

3

A--A

4 6162F135

1.

Fuel injection pump drive shaft

Tachometer drive

2.

Nut

- Tachometer drive shaft speed = Engine speed x l/2

3.

Tachometer

4.

Drive housing

5.

Pinion gear housing

6.

Tachometer

7.

Pihion gear (No. of teeth:

8.

Bushing

170-1 SERIES

drive gear (No. of teeth:

14)

drive shaft 14)

11-033 @

MAINTENANCE

For PE-ZWX

FUEL SYSTEM

STANDARD

tYpe injection

pump

Detail P

Section A-A

6162F135-1

Fuel injection pump drive shaft

Tachometer

2.

Nut

* Tachometer

1.

3.

Tachometer

4.

Drive housing

5.

Pinion gear housing

6.

Tachometer

7.

Pihion gear (No. of teeth:

8.

Bushing

11-033-l @

drive gear (No. of teeth:

drive drive shaft speed = Engine speed x l/2

14)

drive shaft 14)

170-1 SERIES

STRUCTURE

AND

FUNCTION

FUEL SYSTEM

FUEL FILTER

i

6162F136

1.

Air bleeding plug

2.

Filter bracket

3.

Filter element

4.

Filter case

a.

From feed pump

b.

TO fuel injection pump

Fuel filter l

Cartridge

11-034 0

Filtration area: 0.4 m2 x 2

STRUCTURE

AND

FUEL SYSTEM

FUNCTION

FUEL CUT SOLENOID B contact

(electricity

flows in ordinary

operations)

method

F621201037

*

Maker:

NIKKO

l

Type:

Sealed

* Rated voltage: * Operating current: * Stroke: * Weight: Inner

Cl

:

C2:

DC24ti Maximum:

35A max.

Continuity:

0.5A

max.

12 f 0.1 mm 2.7 kg

wiring

Pull-in coil Holding coil

FUNCTION *

DENKI

1. Shaft

5. Stop lever

2. Case

6. Return spring

3. Piston

7. Solenoid

4. Coil

8. Fuel control lever

Starting engine When the starting key is turned

on, the solenoid

is

energized. Solenoid

shaft

(1)

injection

pump

stop lever (5)

is electrically

attracted,

and fixing

pulling it in the

RUN position. .

Stopping engine When the starting key is turned

off, the solenoid is

de-energized. Injection

pump

stop lever (5) is returned

position (non-injection *

During

operation,

controlled *

to STOP

position) by return spring (6).

the

amount

of fuel

injection

is

by fuel control lever (8).

When installing

the fuel solenoid, adjust clearance A

referring to TESTING

AND

ADJUSTING. 6162F151

170-l SERIES

11-034-l 0.

STRUCTURE

AND

FUNCTION

FUEL SYSTEM

A contact (electricity flows when stopped) method EG580B-1

L

-Y

02F082-K

Y View

Z View

F6161A021

-$($Ejl’

1. Case

Pull-in coil

Pull-in coil

2. Coil

l$o

3. Return spring

Holding coil Holding coil After pull-in Before pull-in Inner wiring

4. Plunger 6134F166A

FUNCTION When stopping the engine, the solenoid is energized, the solenoid plunger is electrically attracted, and the stop lever of the injection pump is moved by a rod to the stop (non-injection) position. As a result, the fuel is cut off and the engine is brought to a stop. Accordingly, this solenoid is used only when the engine is being stopped; it is in free condition during ordinary operations.

FUEL SOLENOID l Maker:

l l

Holding coil: l

’1-?z4-2

Type: Operating current Pull-in coil:

Stroke:

NIPPON DENS0 Made by synchro start (EG5808-1 L) Sealed 20A max. 37A (EG580B-1 L) 5A max. 0.4A (EG580B-1 L) 27 mm 25 mm (EG580B-1 L)

170-l SERIES

STRUCTURE

ENGINE

AND

FUEL

FUNCTION

SYSTEM

STOP MOTOR

Shape of cable tip 7(non-threaded stopper type)-

3

.--r--y-\ :_ A_:.,/

35 Stroke

Shape of cable tip (threaded stopper type)

-

I

Stroke

Made by AMP Co., Econoseal connector, 2. Not used (filler plug added) /

J. Not used (filler plug added) B(AV 0.85LR)

. Not used (filler plug added) 5. p, (AV 0.85LW)

1. Motor assembly

’

8. E(AV 0.858)

Engine stop motor -

Maker:

Jidosha Denki Kogyo Co., Ltd.

2. Cover

-

Rated voltage:

DC24V

3. Cable assembly

* Operating force:

4. Cable clamp 5. Coil spring

*

Stroke:

*

Weight:

15 kg min. 35:::40

mm

1.2 kg_

6. Cable 7. Screw 8. Breather 9. Bracket assembly 10. Cover assembly

170-l

SERIES

1 l-034-3 0


STRUCTURAL

DRAWING

FUEL SYSTEM

(1)

1. Gear cover assembly

2. Slider assembly 3. Armature shaft 4. Contactor assembly 5. Roller 6. Worm wheel assembly 7. Motor assembly 8. Gear case assembly

’’-“o34-4

170-l SERIES

STRUCTURE

AND

STRUCTURAL

FUEL

FUNCTION

DRAWING

SYSTEM

(2)

1. Gear cover assembly 2. Motor assembly 3. Cable clamp 4. Cable assembly 5. Gear case assembly

170-l SERIES

1 l-034-5 0

STRUCTURE

AND

FUNCTION

FUEL

DESCRIPTION

OF OPERATION

1.

(O” or 390°)

Stop condition

AND

SYSTEM

CIRCUITS

Battery 4+-i

The

above

drawing

shows the stopped

when a closed circuit has been formed. 2.

condition

assembly is stopped at the auto-stop position on the

The slider

P, side.

When switch is turned (when starting the motor) attery

b-i

1

When the switch is moved to the P, side (starting

bly, thereby starting the motor.

The slider assembly

switch ON), an electric current flows from the plus

starts to move in the direction

of the arrow at the

side contactor

same time as the roller starts to move.

plate through

the P2 auto-stop

ter-

minal and switch and into the armature shaft assem3.

Turning condition

(90’

in the drawing) Battery

Id7

I7b Electric current continues to pass through the arma-

slider assembly also continues to move in the direc-

ture

tion of the arrow.

turn.

shaft

assembly

and the

Because of the rotation

’’-ki?4-6

motor

continues

of the

to

rol,ler, the

170-l SERIES

STRUCTURE

4.

AND

FUEL

SYSTEM

When stopped (180’)

A closed circuit terminal 5.

FUNCTION

is formed

when the P, auto-stop

rides on the minus-side

contactor

plate,

and the motor comes to a sudden stop.

The slider

assembly also stops.

When switch is turned (when starting the motor) Batterv

When the switch is moved to the PI side (starting

thereby

switch OFF),

starts to move in the direction

contactor and switch 6.

an electric current flows from the plus

plate through

the PI auto-stop

and into the armature

Turning condition

(270°

terminal

starting

in the drawing)

the direction

to stop condition

turn.

170-l

of the arrow at the

shaft assembly,

Electric current continues to pass through the armaassembly

The slider assembly

same time as the roller starts to move.

ture

shaft

the motor.

and the

motor

continues

to

of the arrow.

Then the circuit returns

1.

The slider assembly also continues to move in

SERIES

11-34-7 0

STRUCTURE

AND

STARTING

FUNCTION

FUEL SYSTEM

AID

Auto priming system (APS)

6162F137 1.

Glow plug

6.

Hose

a.

To heater switch

2.

Clamp

7.

Bracket

b.

To APS controller

3.

Wiring harness

8.

Hose

c.

To APS controller

4.

cover

9.

Valve

d.

To heater switch

5.

Nozzle

a.

From fuel filter (Fuel1

170-1 SERIES

1 l-035

OUTLINE OF ELECTRONICAL electronical

governor

GOVERNOR made by ZEXEL)

SYSTEM

(with

OVERALL CONFIGURATION

! Injection

=-I

pump

/

1 /

stop output

Electronical

governor

50160Hz changeover

controller

) i

L

Fuse Low idle control dial

f

t

Start signal

t

Battery

SAE00126

.

The electronical governor system is composed of fuel injection pump governor unit (actuator driven), electronical governor controller, controller mounting panel, switches, dials, sensors and others. The electronical governor controller has a built-in microcomputer and it runs the engine by driving the governor actuator under the running conditions specified by contents of control set in the microcomputer, external switches, dials, etc.

11-035-l @

6 z

CONTENTS

OF ELECTRONIC

VO.

GOVERNOR

CONTROL

Item

Contents

1

Selection

of droop/isochronous

Droop control (Revolution changes according to the load) or isochronous control (Revolution is kept at the rated speed, regardless of the load) is selected with switch input.

2

Selection

of Li/rated

Low-idling

3

Adjustment

4

Adjustment of frequency (In isochronous control mode)

Rated speed is adjusted Adjustment range

5

Selection (In droop

Regulation is changed with droop from about 3% to 5%.

6

Adjustment Hi speed (In droop control mode)

Engine speed is adjusted with speed control switches (Speed raising switch and speed lowering switch) during high idling. Speed adjustment range : Approx. i_i}lOOrpm Judgment: 50msec Adjusting speed : Approx. 5rpm/sec, Initial set engine speed (set when power is reset) is shown in separate table.

7

Li isochronous

Engine

8

Selection

9

Emergency stop function (Error signal output)

speed

of Li speed

control

of frequency

Injection start

11

Overrun-preventive

12

Diagnosis

13

Memory

14

Sharp

15

Pre-operating

16

Overspeed testing (Used only during

(50/60Hz)

rate control

acceleration

is selected

with

speed

with

outside control f 50 rpm,

: Approx.

switch

input.

is kept constant

50Hz or 60Hz is selected

with

adjustment

knob. Judgment

during

low idling,

switch

input.

function

for

function

Fuel injection

rate is control

so that engine

high idling

regardless

limiting

function

Error signal speed

of rack

function test)

to outside

is reset.

off and stop signal

sliding

are taken

(See next item.)

When engine is accelerated sharply, prevent production of black smoke. Rack is moved to reduce at low temperature.

rises

easily.

If electronic governor system has trouble, set measures and error signal is output to outside. (See next item.) function

of load.

temperature to outside.

will start

If engine speed exceeds set value, fuel is turned is output to outside. Set value : (1) 2070rpm (by software) (2) 2300rpm (by hardware)

knob dur-

: 15 msec

knob during

Engine is stopped when oil pressure lowers, water or he engine overruns, and error signal is output

function

clearing

or rated speed

Engine speed is changed with the rpm adjustment control ing low idling. Lower limit : 700 rpm Upper limit : 900 rpm,

of droop (adjustment) control mode)

10

speed

full

resistance

rack position

before

is limited

engine

to

is started

While Li/Hi selector switch is set to Hi position, overspeed operation can be executed with external input. Engine speed is adjusted with speed control switch in droop control mode and with control knob in isochronous control mode.

11-035-2 @

CONTROLLER

2

SEE00127

1. Case 2. Connector 3. Mounting

11-035-3 @

bolt

Function . The controller produces signals for controlling the fuel injection pump for the engine with signals received from sensors and switches which are installed on the panel and externally located. The controller possesses a self-diagnostic function, and abnormalities are displayed on the LED.

Electronical

governor

main

unit

1. 2. 3. 4. 5. 6. 7.

Housing Actuator Control rod Connector Copper plate Cover Lubrication outlet

eyebolt

6

615OFl76

The electronical governor is roughly cornposed of housing, actuator and cover. The actuator is composed of linear DC motor, link and control rod position sensor. It operates in accordance with signals from the control unit. The linear DC motor causes the coil assembly to make up/down motions in accordance with signals from the control unit and causes the coil assembly to become still so that the control rod reaches the target position. (It is because arithmetic processing is executed in the control unit.) The motion of the linear DC motor is further transmitted to the connector through the link, and the fuel injection rate is increased/ decreased when the control rod moves rightward/leftward. That is, the injection rate increases when the coil assembly moves upward, and the injection rate decreases when the coil assembly moves downward. The copper plate at the connector end is the control rod position sensor. It senses the control rod position and feeds it back to the linear DC motor.

l

The actual injection rate is controlled by these series of motions. That is, the injection rate is controlled at the optimum level that corresponds to the machine running conditions as a result of arithmetic processing executed in the control unit. The linear DC motor is composed of magnet unit that supplies magnetic field, pole unit that leads the magnetic field and coil assembly that makes up and down motions. The operating principle of the DC motor is based on Fleming’s left-hand rule, as it is related to the force applied to current leads in a magnetic field. When the current fed to the coil is of direction A, the magnetic force is applied in direction C. When the current fed to the coil is of direction B, the magnetic force is applied in direction D. When the direction and magnitude of the current fed to the coil are controlled, therefore, the coil assembly can be moved up/down, and it is possible to cause the control rod to be still at an arbitrary position by the feedback from the position sensor.

11-035-4 @

1)

Actuator Copper

Control position

plate

rod sensor

Copper I

plate

Connect0

Connector

rod

inear

DC motor 615OF176

615OFl77

2) Linear DC motor

, Coil assembly

Cover

Magnet

’

Pole

615OFl79

(Upper

11-035-5 @

side sectional

view)

3) Control .

Structural

rod position

sensor

.

view

Operation

diagram

Jw-

Large

Inductance 6150Fl82 615OFl81

1. 2. 3. 4. 5. 6.

.

.

.

.

.

Copper plate (fixed) coil Compensator E-core Copper plate (movable) Sensing coil Copper plate

This position sensor is located at the center of the governor top for sensing if the control rod is actually located at the correct position with respect to the target position instructed from the control unit. This position sensor is composed of E-core shown above and sensing coils and copper plates of two sets. One of copper plates is installed to the end of the control rod, and another copper plate is fixed to the E-core. This position sensor senses changes in the coil inductance (may be considered as impedance changes) as changes in the counter electromotive force generated in the coil. When a copper plate is placed in a position to intersect the magnetic field generated by the coil as shown above, the magnetic field beyond the copper plate is canceled.

l

l

.

That is, the counter electromotive force generated in the coil changes when the position .of the copper plate changes. Another coil and copper plate are provided for compensation. They compensate for impedance changes such as temperature changes. The sensing accuracy is increased by absorbing the abnormality caused by the influence of temperature, etc. through sensing of the control rod position by the ratio (ratio of counter electromotive force) of impedances of two sensing coils.

11-035-6 @

STRUCTURE

‘AND FUNCTION

COOLING COOLING

COOLING

SYSTEM

SYSTEM

SYSTEM

CHART

6162F136

11-036

1.

Water pump

7.

Water manifold

2.

Oil cooler

8.

Thermostat

9.

Radiator

3.

Corrosion resistor

4.

Cylinder liner

10.

Fan

5.

Cylinder block

A.

From oil pump (oil)

6.

Thermostat switch

B.

To engine each component

(oil)

170-1

SERIES

STRUCTURE

AND

FUNCTION

COOLING

SYSTEM

WATER PUMP

6162F139

1.

Pump body

A.

From radiator

Water pump

2.

Impeller

B.

To oil cooler

* Water pump speed =

3.

Floating seal

4.

Water seal

5.

Pump shaft (rear)

6.

Pump shaft (front)

7.

Inlet housing

Engine speed x 1.8

* Flow capacity:

1050 !Z/min. (3,600

170-1 SERIES

rpm)

11-037

COOLING SYSTEM


FAN DRIVE l

FAN DRIVE

AND

TENSION

(For D275A-2,

D375A-1.2,

PULLEY PClOOO-1, HD465-3)

6162F140

1 l-038 0

1.

Tension spring

2.

Tension shaft

3.

Tension pulley

4.

Unit

Outside diameter for Pulley Applicable machine

Fan Pulley

Crankshaft Pulley

Tension Pulley

Fan pulley

D275A-2

328

200

150

5.

Fan belt

D375A- 1

342

200

150

6.

Crankshaft pulley

D375A-2

328

200

150

7.

Fan PClDDD-1

347

200

150

HD465-3

308

184

150

: mm

STRUCTURE

l

TENSION

AND FUNCTION

PULLEY

COOLING SYSTEM

(For D275A-2)

X /

\

5

\

fi Section

7

A-A

View

X

1. Tension pulley shaft 2.

Roller bearing

3. Tension pulley bracket 4.

Tension pulley (Outside diameter: 150 mm)

5. Oil seal 6.

Ball Bearing

7. Spacer 8. Stopper

11-038-l 0

STRUCTURE

l

TENSION

AND

FUNCTION

PULLEY

(For D375A-1

/I

5

6

COOLING

l

2, PClOOO-1)

\

7

Section A - A

1.

Tension pulley shaft

2.

Roller bearing

3.

Tension pulley bracket

4.

Tension pulley (Outside diameter:

5.

Oil seal

6.

Ball bearing

7.

Spacer

8.

Stopper

SYSTEM

6162F141

150 mm)

1 l-039 0

STRUCTURE

AND

COOLING

FUNCTION

SYSTEM

FAN DRIVE AND TENSION PULLEY l

FAN

DRIVE

(For WA600,

WD600,

WA700,

HD465-5)

i

/’

\

/

/ I’

6

\_____P---

Fan pulley diameter

1.

Tension spring

2.

Tension shaft

3.

Tension pulley (Outside diameter:

4.

Fan pulley

5.

Fan belt

6.

Crankshaft pulley (Outside diameter:

7.

Fan

a.

Direction of wind

)

11-039-l 0

150 mm)

200 mm)

379

WA700

293

WA600

(A.C spec.), EG480B-1

STRUCTURE

l

TENSION

AND FUNCTION

COOLING

SYSTEM

PULLEY

5 I

8’

7

‘6

A-A SLE00255

1.

Tension

pulley

2.

Seal

3.

Inner

4.

Roller

5.

Tension

6.

Spacer

7.

Ball bearing

8.

Oil seal

shaft

race bearing pulley

(Outside

diameter:

150 mm)

1 l-039-2 0

STRUCTURE

AND

FUNCTION

CORROSION

COOLING

SYSTEM

RESISTOR

a

\

b

\

t-/

b Section X - X (Detail valve)

6162F142

1.

Head

2.

Element case

3.

Solid drug i (included 1,000 g)

a.

Coolant inlet

b.

Coolant outlet

Corrosion resistor Cartridge

11-040

- Filteration area: 0.13 m*

STRUCTURE

AND

FUNCTION

COOLING

SYSTEM

THERMOSTAT

1. Seal

b

2.

Thermostat

3.

Valve

4.

Body

5.

Piston

6.

Sensor

7.

Sleeve

8.

Wax

a.

From engine each component

b.

To water pump

c.

To radiator

6162F143

OPERATION

-._ At cold (close)

At warm (full open)

6162F144

Function Opening temperature: 76.5 f 2°C - Full opening temperature: 9O’C l

* Valve lift: Minimum 10 mm

170-l

SERIES

11-041

STRUCTURE

ACCESSORY

AND FUNCTION

(Diesel Kiki Air compressor) Without air delivery relief valve

PC1 000-l

ir 9 1

!

?;”

-_q

-.iSection

A-A

‘3

View 2

6162F655

1.

Flange

2.

Coupling

3.

Air compressor

4.

Air governor

1

Intake manifold

1

Air

a.

From intake

b.

To air tank (air)

manifold

c.

To thermostat

d.

From oil cooler (cooling water)

housing

(air) (cooling tiater)

Air circuit diagram

170-l

SERIES

6162F146

’’-Oi2-’

STRUCTURE

HD465-5,

ACCESSORY

AND FUNCTION

WA600-1,

WA700-1

(Diesel Kiki Air compressor) Without air delivery relief valve

A-A View 2

a

Air delivery relief valve

6162F620

1.

)

Flange

2.

Coupling

3.

Air compressor

a.

From intake

b.

To air tank (air)

manifold

c.

To thermostat

d.

From oil cooler (cooling water)

housing

Intake manifold 1

(air) (cooling water)

6162F821

’’-“G2-2

170-1 SERIES

STRUCTURE

AND

FUNCTION

ACCESSORY

AIR COMPRESSOR

6162F147

1.

Inlet valve seat

11.

Thrust washer

Air compressor

2.

Unloader valve body

12.

Crankshaft

* Maker: Cummins * Rated speed: 1,600 rpm

3.

Unloader valve spring

13.

Drive gear (No. of teeth

4.

Unloader valve cap

14.

Oil ring

5.

Head cap

15.

2nd ring

6.

Inlet valve

16.

Top ring

7.

Inlet valve spring

17.

Cylinder head

8.

Piston

9.

Crank case

a.

Air inlet

Connecting rod

b.

Air outlet

10.

170-1

SERIES

:

24)

(at engine rated speed)

* Discharge capacity:

245 Illmin.

(at rated speed) l

No. of cylinder - Bore x Stroke: 1 - 92.1 x 44.5

11-043 0


ELECTRICAL

ELECTRICAL SYSTEM

SYSTEM

ALTERNATOR

Inner connecting diagram 6162F148 1.

Alternator

Engine

S6D170-1

assembly

Applicable machine model PC650-1 PC1 500-l

Type

Delco-Remy,

2581-450,

Open type

Specifications

Pulley outside diameter (mm)

Weight

24V, 50A

95

15 kg

ALTERNATOR

BUILT-IN

REGULATOR

\

1.

Alternator

2.

Regulator

Wiring diagram F6166049

Engine

SAGD170-1

Applicable machine model D275A-2 WA600-1 WD600-1

Type

HD465-3 HD465-5


Weight

Sawafuji, Open type

WA700-1 SAGD170.A-1

Specification

24V. 75A Sawafuji. Open type

24V. 50A 95

D375A-1 (-12802) SA6D170-B-1

D375A-1 (12803 and up) D375A-2 PClOOO-1

Nikko Denki, Open type

24V. 35A

Sawafuji, Open type

24V. 50A

n-044-1 0

STRUCTURE

AND

ALTERNATOR

ELECTRICAL

FUNCTION

WITH

REGULATOR

Alternator R

B.E.F.R:

SYSTEM

Regulator

-----JJRl-----

Terminal Wiring diagram

Engine

6114F151

Tvw

Specifications


Weight

EG550-1


24V. 50A

95

15kg

EG5808-1 L

Nikko Denki, Closed type

24V. 13A

95

7.6 kg

EG450-1


24V. 13A

95

7.8 kg

Applicable machine model

SAGD170-A-1

SAGDI 70-B-1

’’-“ii4-2

STRUCTURE

ALTERNATOR

ELECTRICAL

AND FUNCTION

BUILT-IN

SYSTEM

REGULATOR

r

E-

B.E.R: Terminal

F6161 A022

Wiring diagram

Engine


Type

Specifications


Weight

SAGDI 70-A-1

EPSAGD170-A-1


24V. 25A

95

6.5 kg

SAGDl70-B-1

EPSAGDI 70-B-l


24V. 25A

95

6.5 kg

11-044-3 0

STRUCTURE

AND

STARTING

FUNCTION

ELECTRICAL

SYSTEM

MOTOR

6162F149

1.

Pinion gear

2.

Starting motor assembly

3.

Magnetic switch

4.

Safety relay


B, C, E, R, S: Terminal

Type

Specifications

No. of pinion teeth

Weight

Nikko Denki, Sealed type

24V. 7.5KW

11

18 kg

SAGDl70-A-1


24V, 7.5KW

SAGD170-B-1


24V. 7.5KW

Engine

S6D170-1

:;;;l$2 PC1500-1 WA600-1

I

11

I

11 I

18 kg

18 kg I

STRUCTURE

AND FUNCTION

ELECTRICAL

SYSTEM

EG580B-IL, EPSAGD170-A-1, EPSAGD170-B-1 EG480B-1 (For CIS -45°C spec.)

F6161 A023

Engine

1.

Pinion gear

2.

Starting

3.

Magnetic

4.

Safety relay


B, C, E, Fi, S: Terminal

motor assembly switch

Type

SA6D170-A-1

24V, IIKW

SA6D170-B-l EG480B-1 (-45°C spec.)

11-046 0

I

Specificatons

SAWAFUge Denki, Water tight, oil resistant type

Pulley outside diameter

Weight

19.5 kg

STRUCTURE

AND FUNCTION

ELECTRICAL

SYSTEM

F6161 A023

Pinion gear Starting Magnetic

B, C, E, I?, S: Terminal

motor assembly switch

Safety relay

Engine

S6D170-1

Applicable machine model WA600-1 (-50°C spec.)

Type SAWAFUge Denki, Water tight, oil resistant type

Specificatons

Pulley outside diameter

Weight

24V, IIKW

11

19.5 kg

11-046-l 0

STRUCTURE

AND

WIRING

DIAGRAM

SA6D170-A-1

170-1 SERIES

FUNCTION

ELECTRICAL

SYSTEM

(for EG550-1)

11-047 0

STRUCTURE

EG580B-1

AND FUNCTION

ELECTRICAL

SYSTEM

L

unit

Engine stop solenoid

m-@-Zergency

Water temperature unit nJ7-

9

stop

I

Fuse (30A)

Charge ammeter

Alternator

motor

OFF PREHEAT

j

O,,, START

Starting switch

F6161 A024

1 l-048 0

170-1 SERIES

ENGINE

12 TESTING

AND ADJUSTING

ENGINE BODY Adjusting valve clearance . . .._........__._.... 12-003 Measuring compression pressure ._.._.._12-004 FUEL SYSTEM Testing and adjusting fuel injection timing . .. . . . .. . . . .. . . . . . . . . . . . .. . . . . .. . . . . 12-005 Adjusting fuel cut solenoid . .. . .. . . . . . .. . .. . .. 12-007 Procedure for adjusting engine stop motor cable .. . . . . . . .. . .. . . . . . . . . . . . .. . . . .. . . . 12-009 Adjusting fuel injection pressure .. .. .. . . . . 12-011 Method of installing (adjustment) of engine speed sensor . . . . . . . . .. .. . .. . . . .. 12-01 l-l Calibration data . . . . . . . .. . . .. . . . . . .. . . . .. . . . .. . . . . .. . . 12-013 COOLING SYSTEM Fan belt tension . . .. . . . .. . . .. . . .. . . . . . . . . .. . . . .. . .. . .. 12-031 Replacing fan belt and adjust auto tensioner _....__.._..___._.._..................12-032 PERFORMANCE TEST Run-in standard ._._....._..___....___..__..._...._.._ 12-033 Performance test criteria .. . . . . . . . . .. . .. .. . . . . . . 12-036 Testing and adjusting tool list . .. . . . .. . . . . .. . 12-043 Testing and adjusting date .. .. .. . . . . .. .. . .. . . . 12-044 Fan belt tension . .. . . .. . .. . . . .. .. . . . . . . . . .. . ... . . .. . . . 12-052 TROUBLESHOOTING .. . . . . . . . . .. .. . .. . . . . . . .. . . . .. . . . 12-053

12-001 43

A A

When

carrying

When

carrying

thorized

A

out

testing

pins, block the wheels,

When spurt

out

person checking out

and

and

adjusting,

and apply

or troubleshooting,

the parking

operations

with

two

stop

the

machine

on level

ground,

fit safety

brake.

or more

workers,

always

use signals,

and

do not allow

any

unau-

near the machine. the may

water

level,

cause

burns,

if the

radiator

so always

cap

wait

is removed

for

the

when

engine

the

to cool

engine down

is hot, before

boiling

water

checking

the

will water

level.

A A *A!

Be extremely

careful

not to touch

Be extremely

careful

not to get caught

Wh en removing release

the

the

internal

plugs

any hot parts. in the fan or any other

or caps

from

first.

Fit the

pressure

places

under

measuring

rotating

hydraulic tools

parts. pressure,

securely

before

water

pressure,

carrying

out

or air

any

pressure,

testing,

adjust-

ing, or troubleshooting. When

using the standard

be careful

of the following

The standard standards mating

values

for new

wear

during

the results

of various

in testing,

in the standard

and machines

operation standard

or as target values

tests and standard

with the repair

Do not use this standard

12-002 0

for judgement

for the new machines

judgement

together

table

adjusting,

or troubleshooting,

it is necessary

to

points.

machines

The failure erence

values

values

shipped values

from

when

in the standard values

and operation

values

carrying value

for machines history

table as a standard

table

the factory.

should

given

as reference

from

be used as values

the

for esti-

out repairs.

table

are values

shipped

of the machine for judging

are values They

claims.

from

using

estimated

the factory.

when judging

values

based

Use these values

failures.

on

for ref-

TESTING

AND

FUEL

ADJUSTING

ADJUSTING

ENGINE

STOP

SYSTEM

MOTOR

Procedure for adjusting engine stop motor

1.

Temporarily

assemble nut and bolt (1). then with

stop motor actuated, assemble ball joint (2). 2.

With stop motor and ball joint and stopper

actuated,

adjust nut and bolt (1)

(2) so that clearance of stop lever (3) bolt (4) at STOP

end is 1 f 0.5 mm,

then assemble fully. 3.

Switch

the stop motor

check the condition

on and off ten times, and

of the adjustment.

If neces-

sary, adjust ball joint (2). 4.

Check that the engine stops.

[Precautions] 1) When the stop motor is actuated, and stopper

the stop lever (3)

bolt (4) and (5) should not hit.

2) Check that there is no clearance between the stop lever (3) and the stopper bolt (5) at the RUN end when the stop motor

is OFF.

ance, adjust the hole position (If

there

is any clearance,

If there is any clearof the return spring

the output

power may

drop.)

569FlOl

170-l

SERIES

12-002- 1 0

TESTING

AND

FUEL SYSTEM

ADJUSTING

ADJUSTING FUEL INJECTION PRESSURE (VALVE CRACKING PRESSURE) ADJUSTING FUEL (VALVE CRACKING 1. 2.

INJECTION PRESSURE PRESSURE)

Remove retaining cap (1). Remove

nozzle

(2).

spring

seat (3),

and nozzle

spring (4). 3.

Adjust

the

injection

pressure (valve cracking pres-

sure) by adjusting shim thickness (5). *

Injection thickness: m

4.

After

pressure adjusted Approx.

per 0.1

mm shim

15 kg/cm2

Retaining cap: 9 + 1 kgm adjusting

the thickness

of shims, check the

fuel injection pressure using nozzle tester.

6162F202

12-002-2 0

170-1 SERIES

TESTING

DATA

AND

FOR Engine

FUEL SYSTEM

ADJUSTING

INJECTION model

PRESSURE

I

Shim

ADJUSTMENT contour

I

S6D170-1 SAGDI

a =

Shim thickness (Range)

I

Shim thickness (Interval)

4.5 mm 0.50

70-A-1

- 1.54

mm

0.02

mm

b=11.5mm

SAGDl70-B-1

Part No.

SHIMS

Thickness

(mm)

Part No.

Thickness

(mm)

DK150523-5000

0.50

DK150523-7800

1.06

DK150523-5100

0.52

DK150523-7900

1.08

DK150523-5200

0.54

DK150523-8000

1.10

DK150523-5300

0.56

DK150523-8100

1.12

DK150523-5400

0.58

DKl50523-8200

1.14

DK150523-5500

0.60

DK150523-8300

1.16

DKI

0.62

DKl50523-8400

1.18

DK150523-5700

0.64

DK150523-8500

1.20

DK150523-5800

0.66

DKl50523-8600

1.22

DKl50523-5900

0.68

DKl50523-8700

1.24

DK150523-6000

0.70

DK150523-8800

1.26

DK150523-6100

0.72

DK150523-8900

1.28

DKl50523-6200

0.74

DKl50523-9000

1.30

DKl50523-6300

0.76

DK150523-9100

1.32

DK150523-6400

0.18

DK150523-9200

1.34

DK150523-6500

0.80

DK150523-9300

1.36

DKI

0.82

DK150523-9400

1.38

DKl50523-6700

0.84

DK150523-9500

1.40

DK150523-6800

0.86

DK150523-9600

1.42

DK150523-6900

0.88

DKl50523-9700

1.44

DK150523-7000

0.90

DK150523-9800

1.46

DKl50523-7100

0.92

DKl50523-9900

1.48

DK150523-7200

0.94

DK150530-0000

1.50

DK150523-7300

0.96

DKI

1.52

DK150523-7400

0.98

DK150530-0200

DK150523-7500

1 .oo

DK150523-7600

1.02

DK150523-7700

1.04

50523-5600

50523-6600

50530-0100

1.54

c 170-1 SERIES

12-002-3 0

TESTING

AND

FUEL SYSTEM

ADJUSTING

CALIBRATION Machine Model

Engine Model

Pump Assembly Number

PC650-1 6 162-73-l

12-002-4 0

SAGDI 70-B-l

and

Page

up

170

PC 1500-I

EG550-1

Applicable Engine Serial Number

10025 S6D170-1

EG450-1

DATA

12-003 10126

and

up

6162-73-1251

10095

and

up

6 162-73-l

330

10001

-

6162-73-l

331

10053

and

10052

12-004

12-004-

SAGDI 70-A-1 up

12-004-2

170-1 SERIES

1

ENGINE

BODY

ADJUSTING Method 1. 2.

VALVE

of adjusting

Remove

valve

the cyliner

in the normal

at compression

align pointer damper

clearance

head cover.

Rotate the crankshaft No.1 cylinder

CLEARANCE

direction

to set

top dead center,

and

(3) with the 1.6 TOP mark on vibration

(2). When

rotating,

check

the

movement

of the intake valve of No.6 cylinder. *

When

No.1 cylinder

center,

3.

Adjust

the

No.6

the clearance

valve arrangement 4.

Next,

is near compression intake

rotate

direction remaining

top dead

moves

of the valves

(is open).

marked

0 in the

chart.

crankshaft

and

valve

adjust

one the

turn

valve

valves marked

in the

normal

clearance

*

Valve

arrangement

of the

0.

Cylinder No.

1

8 = Exhaust valve Intakevalve

2 E; z

*

To adjust

the valve clearance

of adjustment

screw

between

crosshead

turn

adjustment

the

loosen

(7), insert

(6) and rocker screw

locknut

feeler

until

(8)

gauge

A

6

3

2

0

0

0

0

5

4 0

0

0 0

7

5

6

0 0

0 0

6

arm (5), and the

clearance

is a sliding fit. +

Valve

clearance

(cold, warm) Unit: mm

5.

Tighten

the

locknut

to hold the adjustment

screw

in position. m *

Locknut:

6.9 + 1 kgm

It is also possible each valves

time

and

of each

to turn

adjust

the

cylinder

the

crankshaft

intake

according

and

120° exhaust

to the

firing

order. l

*

Firing order:

After tightening

1-5-3-6-2-4 the locknut,

check the clearance

again. 6162F658

12-003 @

1

MEASURING Method

COMPRESSION

of measuring

A

When

compression

measuring

not to touch

muffler,

or to get caught

-k Measure

pressure

the compression

careful

the

warmed

pressure,

be

manifold

or

exhaust in rotating

the compression

engine

PRESSURE

parts.

pressure

with the

up (oil temperature: 40 -

I.

Adjust For

60°C)

valve clearance. details,

12

see

ADJUSTING

VALVE

CLEARANCE. 2.

Remove

the nozzle holder

assembly

of the cylinder

to be measured. +

3.

Be careful

Install

not to let any dirt or dust get in.

adapter

assembly

Al

to the specified m

Connect

5.

Place

2.75

compressor

the fuel

position.

A

+ 0.25

kgm

gauge A to the adapter.

control

lever

Crank the engine

and measure

and tighten

torque.

Torque:

4.

in the mount of the nozzle holder

of the cylinder to be measured,

in the NO INJECTION with

the compression

If the fuel control NO INJECTION

the starting

motor

pressure.

lever is not placed

position,

in the

the fuel will spurt

out. Ir If the

adapter

amount *

For details pression

mount

is coated

of the

pressure,

TESTING,

standard

value

see TABLE

ADJUSTING,

a small

Torque:

’2-:04

2.25

+ 0.25

for the

com-

OF VALUES

FOR

AND

SHOOTING. m

with

of oil, it will reduce the leakage.

kgm

TROUBLE-

FUEL SYSTEM TESTING

AND

There are the following the fuel injection Aligning

l

methods

timing

match

mark when

Delivery

without

valve method when

When

using

replace

the copper

valve

with

starting *

new

1.

No.1

and

(flange

type)

Turn

the

Check *

always

of the delivery

these

parts

at the compression

adjusting

VALVE

by

crankshaft

pointer

crankshaft

2 z

cylinder

back

Rotate the crankshaft

and

method,

before

top dead

CLEARANCE

aligning

approx.

match

mark

45O from

No.1

TOP.

to align 3.

Prepare

see ADJUSTING

Testing

cylinder 2.

parts.

valve

and O-ring

then test and adjust.

For details,

l

delivery gasket

the injection

or replaced

the operation.

Set the center,

the

the injection

repair

assembling

pump that has been repaired *

TMING

pump.

assembling

engine

FUEL INJECTION

of testing and adjusting

of the injection

pump to the original l

ADJUSTlNG

damper

that

line

slowly

in the normal

( with the injection

line on

(1).

line a at the fuel

b at the

direction

timing

drive

injection

housing

If the lines are not aligned

end

adjust

pump

end

are aligned. at the oblong

hole of the flange.

z w

Bolt nut: 6.75

Testing

l

and

(laminated 1.

Follow

adjusting

coupling the same

for the flange 2.

Check

that

+ 0.75

by

aligning

match

mark

type) procedure

as for Steps

1 and 2

type.

the

lines

on the coupling

cover of the fuel injetion *

kgm

and bearing

pump are aligned.

If the lines are not aligned

adjust

at the oblong

hole of the coupling. w

Bolt nut:

Width across fiats of nut for coupling oblong hole

injection pump type Bosch PE-P, PE-PD

9.0 kO.5 I

I

*Bosch PE-ZWy

pump only.

kgm

19

Bosch PE-ZWx

* 6162-73-l

Tightening rorque for bolt of oblong hole

I 653

21

and 6162-73-l

I 682

7.75 + 0.25

16.Ok

are the

1.0

injection Oblong hole

6162F663

12-005 0

l

Testing

fuel

injection

timing

by

delivery

valve

methd *

Prepare ring

new

parts for the copper

of the

delivery

valve

gasket

before

and O-

starting

the

operation. 1.

Disconnect

fuel

injection

pipe

(1)

of

the

No.1

cylinder. 2.

Remove

delivery

valve

valve (3) and spring

holder

(2). take out delivery

(4), then

install

delivery

valve

holder (2) again. 3.

Place *

4.

the fuel

control

For injection

pumps

OPERATION

position.

Turn the crankshaft

lever

at the

with

a stop lever set to the

back 40 -

FULL

50°

position.

from top dead

center. 5.

Operate

the feed

slowly

in the

where

the fuel

pump

normal

and rotate direction.

stops flowing

the crankshaft

Check from

the

delivery

point valve

holder (2). 6.

197F402

Check

that

crankshaft

the

fuel

pulley

the point where

injection

timing

(5) and pointer

line

on

(6) are aligned

j,

BEYOND

injection

timing

line: Timing

+

BEFORE

injection

timing

line: Timing ADVANCED

If the test incorrect, portion

shows adjust

or at

at

the fuel stops flowing.

that

the fuel

at the

oblong

the

oblong

RETARDED

injection

timing

is

hole of the flange

hole

at the

laminated

coupling. 7.

Remove valve

delivery

valve holder (2), assemble

(3) an spring

(4)

then

install

delivery

delivery

valve

holder (2) again. +

When

assembling

careful Sr Always

replace

the delivery w

again,

wash

with fuel and be

not to let any dir dust stick to any part.

Delivery Note:

the copper

valve with

valve holder: 14.0

gasket

and O-ring

11.5 & 0.5 kgm

+ 1 .O kgm for the EPl 1 injec-

tion pump on the WD600. 8.

Connect w

12-006

fuel injection Sleeve

of

new parts.

pipe (1).

nut: 2.2 + 0.2 kgm

TESTING

ADJUSTING l

ADJUSTING

AND ADJUSTING

Continuous

FUEL CUT SOLENOID

FUEL CUT SOLENOID

type (continuous when operating) /3 Detail

2

3

P

6162~201

7. Solenoid 2. Stopper

This fugure

valve (FULL stopper

(-45°C).

pin)

is for PC650-1,

The linkage

PC1500-I

and the shape

that given here depending

3. Stop lever

differ from

4. Rod

in which the engine

5. Return spring

method

is mounted,

is fundamentally

and EG480B-1 of stop lever may upon the machine

however

the adjusting

the same.

6. Rod

8 & z

Adjusting method 1.

Stop the engine

2.

Adjust

3)

and loosen the nuts of rod (4).

rod (4), so that the solenoid

has a maximum

adjust

rod (7) so that the there is length C of 31

to 32 mm.

stroke of 12 mm. Then,

For EG550-1 Adjust

rod (4) so that there

0.4 + 0.1 mm between

injection

is clearance pump

A of

stopper

(2)

and stop lever (3), while pulling the rod to the RUN position 3.

Adjust

1)

with hand. the length of the return spring as follows.

For PC650-1,

PC1500-1,

EG450-I

and EG480B-1

(-45°C

spec.)

Adjust

rod (6) so that there is length B of 138 to

141 mm.

2)

For WA600-1 No need adjusting. (The return

spring

is installed

in the injection

pump.)

F6161A004

Turn on the engine solenoid

starting

key and confirm

that

has a stroke of 12 mm and there is clear-

ance A of 0.4 * 0.1 mm. After turning

on and off the key several

confirm the amount clearance Tighten

times,

re-

of the stroke of the solenoid and

A. up the nuts of the rod.

12-007 0

SAGDI 70-A-1 SAGDI 70-B-1 1.

Connect

(EG580B. (EG480B.

the solenoid

EGGOOBS) EG500BS)

and injection

pump with

the

rod. When

doing

returned

pin at the lever the

this,

FULL

is returned STOP

(SAGDI

adjust

to a position

bolt

70-B-1

end,

so that

1 -

the stop lever

1.5 mm from

and

so that

the

to a position

1.5 -

(SAGD170-A-1)

or

is

the stop

pump

stop

2.0 mm from limit

position

) when the solenoid shaft is pushed

in fully by hand.

2.

Pass electricity the solenoid OFF 2 -

through

3 times

in the operating smooth,

the solenoid

moves smoothly.

and check that there condition.

adjust

and check that

Turn the power

the

If the movement

linkage

to

ON/

is no change is not

improve

the

---

movement.

Y

u

‘--

6162F620

3.

After

checking

the engine,

pass electricity the engine

+

Problems

that the operation

check that output through

start then

the solenoid

caused by improper

. When free, clearance between stop lever and bolt at FULL side is too large (defective linkage)

adjustment

10 seconds.)

of solenoid.

* Solenoid coil burns out (when solenoid is half pulled). - Injection pump governor breaks or causes scuffing (Excessive force is brought to bear on lever).

- Amount of fuel injected drops, so engine output drODs.

Stoip pin at FULL end

and check that

stops. (It must stop within

-When electricity is passing, clearance between stop bolt and lever is 0.

12-008 0

is smooth,

is as specified,

Stop pin at STOP end Clearance 1.5-2.0mm

6162F621

SA6D170-A-1 1.

Connect

(EG5808-1 the solenoid

L)

and injection

pump with

the

rod. When

doing

returned

pin at the lever

this,

FULL

is returned

the STOP

and

Pass electricity

stop lever

the

pump

1.0 to 2.0 when

is

the stop stop

mm from

the solenoid

in fully by hand.

through

the solenoid

moves smoothly.

3 times


the

so that

bolt (SAGD170-A-1)

the solenoid OFF 2 -

end,

so that

1 to 1.5 mm from

to a position

shaft is pushed

2.

adjust

to a position


adjust

and check that

Turn the power

the

If the movement

linkage

ON/

is no change

to

is not

improve

the

is smooth,

start

is as specified,

then

movement.

3.

After

checking

the engine,


*

Problems

that the operation


caused by improper

electricity is passing, clearance between stop bolt

- When

lever

and check that


* When and

the solenoid

is 0.

free, clearance between stop lever and bolt at FULL side is too large (defective linkage)

10 seconds.)

adjustment

- Solenoid

coil

of solenoid.

burns

out

(when solenoid * Injection pump breaks or causes (Excessive force to bear on lever).

is half pulled). governor scuffing is brought

- Amount of fuel drops, so engine

injected output

stop bolt

drops. F6161 A025

12-008-l 0

SA6D170-A-1 SAGD170-B-1 1.

After that

(EPSAGD170-A-1) (EPSAGD170-B-‘l)

pulling

rod (1) to solenoid

stop-lever

adjust

the length

clearance

OFF 2 -

stop-lever

through

so

operates,

1 .O to 1.5 mm

(2) and stopper

the solenoid

moves smoothly.

3 times


side by hand

solenoid

(3) of

pump.

Pass electricity the solenoid

while

of rod to become

between

fuel injection

2.

works


adjust

and check that

Turn the power

the

If the movement

linkage

to

ON/

is no change is not

improve

the

is smooth,

start

is as specified,

then

movement.

3.

After

checking

the engine,


*

Problems

that the operation


the solenoid

and check that


caused

by improper

’ When electricity is passing, clearance between stop bolt and lever is 0.

adjustment

10 seconds.)

of solenoid.

* Solenoid coil burns out (when solenoid is half pulled). - Injection pump governor breaks or causes scuffing (Excessive force is brought to bear on lever).

2 Detail

P

F6161 A026

12-008-2 co

PROCEDURE SAGD170-A-I 1.

(HD465-3

Temporarily engine

FOR ADJUSTING

install

stop

STOP MOTOR

CABLE

HD465-5)

l

a ball joint

motor

ENGINE

to the cable

to connect

it to the

of the

injection

pump.

2.

Pull the

injection

ENGINE

STOP

temporarily secure *

the cable to bracket

Adjust 0.5

-

1.5

installed

Turn

position

operating

when

position

A between

when

the

the engine

can

engine

adjusting

2

fuel is

motor

is

is stopped).

be carried

the

the

stopper

stop

out

by adjusting

that the ball joint is screwed

tighten 5.

to the

clearance

mm

(when

amount After

with the cable

pump stop lever and the STOP

Adjustment

z z

(1).

spring).

so that

injection

and

stop).

(it is pulled

by a built-in

z

position,

Stop lever (3) is at the operating it is free

4.

by hand to the

stop motor is delivered

pulled (engine

3.

stop lever

INJECTION)

intall ball joint (2) to the stop lever, then

The engine

*

pump (NO

clearance

from

the

in. the

stoppers,

all nuts and bolts. the

engine

starting

switch

times to check that the engine smoothly. between

In particular,

check

stop lever (3) and STOP

-

1.5 mm when

*

Limit

*

Check

the engine

switches

are

built

ON/OFF

several

stop motor operates that

clearance

stopper

A

(4) is 0.5

is stopped. into

the

569FlOl

engine

stop

motor at both ends of the cable stroke. visually

that there

stop motor cable when

that the stop lever returns position.

The action

fuel injection *

Problems engine

is slack in the engine

the engine

is running

and

fully to the operating

of the spring

built

into the

pump keeps it at the oting position.

caused

by defective

adjustment

of the

stop motor cable

* Clearance

between stop lever and STOP stopper too large when engine stop motor cable is pulled.

* Engine does not stop.

is

* Clearance between stop lever and OPERATION stopper is too large when cable is free.

l

Stroke of engine

l

Stroke

of fuel

* Engine output drops because of drop in amount of fuel injected.

stop motor: 35 mm injection

pump

stop lever:

25 mm

12-009 @

S6D170-1 1.

(WA600-1,

Temporarily engine

WA700-1)

install

a ball joint

motor

to connect

stop

to the cable it to the

of the

injection

pump. 2.

Pull the STOP install stop

injection

(NO

pump

stop lever to the

INJECTION)

position,

and

ENGINE

temporarily

ball joint (2) to the stop lever. Then keep the lever

in contact

temporarily

install

with

the

STOP

cable

stopper

(4), and

to bracket

(1)

with

5

locknut (6). Ir The engine

stop motor is delivered

pulled (engine *

Stop lever (3) is at the operating it is free

(it is pulled

by a built-in 3.

*

5.

Turn

cable

locknut

(6) of bracket

to push the stop lever

STOP stopper (4)) so that the stop lever

The movement

Tighten

turn

securely

loose spring 4.

when

position 4

(in the direction

more against is pushed

position

out the operating

spring).

In this condition, (1) 2 turns

with the cable

stop).

against

the stopper.

for two turns

mechanism

is absorbed

by the

inside the motor.

all nuts and bolts.

the

engine

starting

switch

times to check that the engine operate

smoothly,

then

switches

are

ON/OFF

several

stop motor and cable

check the following

points

again. *

Limit

built

into

the

engine

stop

motor at both ends of the cable stroke. *

Check

that

there

is no clearance

lever (3) and stoppers engine

starting

switch

between

(4) and (5), both when is ON and when

l

Stroke of engine

l

Stroke of fuel injection

stop the

it is OFF.

stop motor: 35 mm pump stop lever: 30 mm

12-010 0

6162F642

ADJUSTING FUEL INJECTION PRESSURE (VALVE CRACKING PRESSURE) 1. 2.

Remove retaining

cap (1).

Remove

(2),

nozzle

spring

seat

(3),

and

nozzle

spring (4). 3.

Adjust

the

injection

pressure

sure) by adjusting shim thickness * Injection pressure adjusted thickness: w 4.

After

Approx.

Retaining adjusting

fuel injection

cap:

the

(valve

cracking

pres-

(5). per 0.1

mm shim

15 kg/cm2 9 +_ 1 kgm

thickness

of shims,

check

the

pressure using nozzle tester.

6162F202

METHOD FOR INSTALLING SPEED SENSOR

(ADJUSTMENT)

OF ENGINE

Speed sensor mounting hole 0

Observe the instructions given below at the time of installing of the engine speed sensor (after it was dismounted).

1.

Turn the crankshaft in the normal direction and match the position of speed pickup pin (I), which is driven into the external periphery of the flywheel. -f This pin comes to the-position of the speed sensor mounting hole when the Ll cylinder is located at the top position. (There are six pins.)

2.

Turn in speed sensor (2) in this position. After it made contact with pin (1) in the flywheel and then back it off by two turns. * Clearance a at this time: 2mm

3.

Tighten lock nut (3). m Lock nut: 49.0 + 4.9 Nm (5 f 0.5 kgm) * Assure that smooth cranking is made on termination of adjustment.

I

SEE00059

SEE00060

12-011-l 03

DATA

FOR Engine

INJECTION model

PRESSURE Shim

ADJUSTMENT

a =

SAGDI

70-A-1

SAGDI

70-B-l

Part No.

Shim thickness (Range)

contour

S6D170-1

SHIMS Shim thickness (Interval)

4.5 mm 0.50

- 1.54

mm

0.02

mm

b=11.5mm

Thickness

(mm)

Part No.

Thickness

DKI

50523-5000

0.50

DKI 50523-7800

1.06

DKI

50523-5100

0.52

DK150523-7900

1.08

DKI

50523-5200

0.54

DKl50523-8000

1.10

DKI

50523-5300

0.56

DKI 50523-8100

1.12

DK150523-5400

0.58

DK150523-8200

1 .I4

DKI

50523-5500

0.60

DK150523-8300

1.16

DKI

50523-5600

0.62

DKI

1.18

DKI

50523-5700

0.64

DKl50523-8500

1.20

DKI

50523-5800

0.66

DKl50523-8600

1.22

DK150523-5900

0.68

DKI

50523-8700

1.24

DKI

0.70

DKI

50523-8800

1.26

DKl50523-6100

0.72

DKl50523-8900

1.28

DKI

50523-6200

0.74

DKl50523-9000

1.30

DKI

50523-6300

0.76

DK150523-9100

1.32

DKI

50523-6400

0.78

DKI

1.34

DK150523-6500

0.80

DK150523-9300

1.36

DKI

50523-6600

0.82

DKl50523-9400

1.38

DK’I 50523-6700

0.84

DKl50523-9500

1.40

DKI

0.86

DKI

50523-9600

1.42

DK150523-6900

0.88

DKI

50523-9700

1.44

DKI

0.90

DK150523-9800

1.46

DK150523-7100

0.92

DK150523-9900

1.48

DKI

50523-7200

0.94

DKI 50530-0000

1.50

DKI

50523-7300

0.96

DKI

1.52

DKI

50523-7400

0.98

DK150530-0200

DKI

50523-7500

1 .oo

50523-6000

50523-6800

50523-7000

DK150523-7600

1.02

DKl50523-7700

1 .04

50523-8400

50523-9200

50530-0100

1.54

(mm)

TESTING

CALIBRATION

AND ADJUSTING

CALIBRATION

I I SA6D170-A-1

I I

DATA

DATA

6162-73-1331

I

( EG550-1

1 12-022

6162-73-1332

I

1 EG550-1

I 12-022

6162-73-1333

EG550-1

12-022

6162-73-1334

EG550-1

12-022

6162-73-1341

EM680A

12-024-2

6162-73-1342

EM680A

12-024-2

6162-73-1343

I

1 EM680A

6162-73-1350

I

l

EG550-1

I 12-024-T (Extremecoldweather)

I 12-021

12-013 0

TESTING

AND ADJUSTING

Engine model

Pump

I I I

SAGD170-A-1

assembly

CALIBRATION

No.

Engine serialNo.

Applicable machine EG550-1

(Extreme cold weather)

12-022

6162-73-1352

EG550-1


12-022

6162-73-1353

EG550-1


12-022

6162-73-1354

EG550-1


12-022

6162-73-1372

HD465-3

6162-73-1410

1 WA700-1

I 12-02T

HD465-3

1 12-023

HD465-3

1 12-023

6162-73-1481

I

l l

I I

12-024-3

6162-73-1482

HD465-3

12-023-I

6162-73-1510

HD465-5

12-023-2

6162-73-1531

OEMforBRO

12-024-4

I

6162-73-1550

I

1 HD465-5

1~12Z,

1

6162-73-1571

1 12-023-3

6162-73-1572

I 1

1 WA700-1

I

1 WA700-1

/ 12-023-3

I

6162-73-1612

EPSAGD170-A-1

12-0246

6162-73-1640

OEMfor

12-024-7

6162-73-1670

EM680A-1

12-024-8

6162-73-1682

EM680A-A

12-024-9

EG550-1,EG580B-1,EG580B-1-L

12-023-4

6162-73-1752

EG550-l,EG580B-1,

EG580B-1-L

12-023-4

6162-73-1753

EG550-l,EG580B-1,

EG580B-1-L

12-023-4

6162-73-2350

OEM

6162-73-2370

1 PCIOOOSP-1

I

by generator

(for Layton)

1 12-023-5

EPSAGD170-A-1

12-024

6162-73-2411

EPSAGD170-A-1

12-024

WA600-1

I I

(EC reguration)

12-016-I I

I

6162-74-1310

I DENYOgenerator DCAGOOSSK 1 12-030-11

6162-73-1151

D375A-1

12-025

6162-73-1250

EG450-1, EG480-1, EG500BS-1

12-026

6162-73-1251

EG450-l,EG480-l,EG500BS-1

12-027

6162-73-1252

EG450-l,EG480-1,

EG500BS-1

12-027

6162-73-1253

EG450-l,EG480-1,

EG500BS-1

12-027

1 EG450-1, EG480-1, EG500BS-1

12-027

10332-11045

6162-73-1254

I

for stand

6162-73-2410

6162-73-1583

SA6D170-B-1

marine

6162-73-1751

6162-73-1560 SA6D170-AE-1

6162-73-1430

6162-73-1431

6162-73-1432

12-013-l @

Page

6162-73-1351

6162-73-1480

DATA

EG450-1

I


EG480-1 EG450-1

(Extreme cold weather) (Extremecoldweather)

EG500BS-1 EG450-1

(Extremecoldweather)


EG500BS-1

(Extremecoldweather)

12-027

12-027

12-027

8 z &

TESTINGANDADJUSTING

CALIBRATION

DATA

Applicable machine

SA6D170-B-1

SAA6D170-1

-

6162-73-2121

HD500-3, HD465-3C

12-029

6162-73-2130

Pc1000-1

12-030

6162-73-2131

Pc1000-1

12-030

6162-73-2132

Pc1000-1

12-030

6162-73-2133

Pc1000-1

12-030

6162-73-2141

13551-15523

D375A-2


12-028-I

6162-73-2142

15524and

D375A-2


12-028-2

up

6162-73-2173

OEMforgenerator

12-030-8

6162-73-2174 6162-73-2175

OEMforgenerator (Prime use)

12-030-12

6162-73-2180 6162-73-2181

EG500-1,EG500B-1,EG500BS-1 OEMforgenerator

12-030-13

6162-73-2340 6162-73-2341

OEMforgenerator (Standby use)

12-030-14

6162-73-2380

OEM

for generator

12-030-8

6162-73-2381

OEMfor6-polegenerator

12-030-15

6162-73-2420

EPSAGD170-B-1

12-030-I

6162-73-2421

EPSAGD170-B-1

12-030-I

6162-74-1750

OEMforgenerator(50

Hz)

12-030-10

12-013-2 @

Engine Model

Injection Pump Type

Pump Manufacturer

S6D170-1

PEGZW

DIESEL KlKl

Machine Model

Pump Assembly 6162-73-l

E%b’

Injection

Number 170 (106692-4030)...2

Timing Basis

Unit

Allowance

I

Rotating direction

Counterclockwise from drive end

Injection order

l-5-3-6-2-4

Injection interval

60”

59”30’to60”30’

2.4

23.5 to 24.5

Plunger pre-stroke

mm

Delivery valve retraction volume

mm3

Calibration

viewed

Specification

I

90

for engine

with

fan (reference only)

Rated horsepower:

HP/rpm

41 O/l 800

Maximum

kgm/rpm

215/l

High idling:

rpm

1,700 to 1800

Low idling:

rpm

600 to 700

torque:

200

Standard

r Conditions

Unit

Manufacturer standard (with nearly the same actual machine parts)

Nozzle part no. Nozzle holder part no. In ectron pope (d/D x I/D x length)

mm

8~2.4~1400

Oil temperature

“C

43 to 47

Nozzle opening pressure

kg/cm2

255

Transfer pump pressure

kg/cm2

1.6

Service standard (with calibration test parts)

(105015-5210)

(

I

(105041-7020)

(

1

Test oil

ASTM D975 No. 2 diesel fuel or equivalent

ipecifications Injection volume (cc/l OOst) for manufacturer standard

Calibration basic point

’ Rack positions

l

B B to E are the reference volume when C adjusting the injection volume. D Marks * are average volumes. E

Injection volume(cc/ for service standard

Basis

Allowance

Maximum variance between cylinder

800

29.4

Each cyl. 28.9 to 29.9

21.18

335

5.1

*

20.51

Rack yrooion

Pump speed (rpm)

11.4 5.8

4.6

to

5.6

Basis

Each cyl. *

*

*

*

*

*

*

Ziovernor performance

L

Allowance

Pump speed (rpm) Numbers in parentheses

are pump manufacturer

part numbers.

st) Maximum variance between cylinder

Pump Assembly 6162-73-1171

Number

Applicable

(106692-4034)

Model

( ): Manufacture’s

Machine Serial

Applicable No.

Engine Serial

Model

No.

part No. PC650-1

S6D170-1

PC1500

S6D170-1

Injection

Timing

Rotating

direction

Injection

order

l-5-3-6-2-4

Maximum

Injection

interval

60” (59”30’ to 60”30’)

High idling

(rpm)

1,700 to 1,800

Plunger

pre-stroke

2.4 (23.5 to 24.5)

Low idling

(rpm)

600 to 700

Engine Specification Counterclockwise viewed from drive end

(mm)

Delivery valve retraction volume (mm’/st)

Calibration

90

Rated horsepower

(kw(HP)/rpm)

306(410)/1,800

torque (Nm(kgm)/rpm)

2108(215)/1,200

Pump tester capacity for Service standard

Motor:

7.5 KW

Standard

Service standard indicates data

using calibration test parts. Manufacture standard is data test parts.

Rack positions

B to E are rhe reference volume when adjusting rhe injection volume.

Govern&

perfomance

Governor

325 335

775+25

springset

BIJo:;:

Pump speed Wpm)

6162FZO3B

1Z-01 4-1 0

Pump Assembly Number 6162-73-1580 6162-73-I

I

(1066924352)

590 (I 066924410) part No.

( ): Manufacturer’s Injection Pump Type 1

Pump Manufacturer

1 DIESEL

PES-6PD

1

KIKI

I

1

Applicable Model

Applicable

Serial No.

WA600-1

10001 and up

WA600- 1 c

10001 and up

I

I

Machine

Injection Timing

Model

Serial No. 10490 and up

S6D170-1

II

II

II

I

Engine

I I

Engine specification Counterclockwise viewed from drive end

Rotating direction

HP/rpm

41512000

Maximum

kgm/rpm

200/l 400

torque

High idling

rpm

Low idling

rpm

2200 to 2300 650 to 700

I I

r

I


Delivery valve wtmctinn vnhlmo mm3/st

1

Rated horsepower

I

I Motor

7.5

KW

Calibration Standard Conditions

Service standard

- Service

standard indicates data using calibration test parts. * Manufacture standard is data for factory test.

Nozzle part no.

(I 05780-0050)

Nozzle holder part no.

(I 05780-2090)

Injection ipe (C/D x l/g x length)

Injection

mm

ASTM

D975

(I 05041-7020) 8~2.4~1400 No. 2 diesel fuel or equivalent 43 to 47

OC

Nozzle opening pressure kg/cm*

175

300


1.6

1.6

volume Rack point

standard

(105015-5210)

8 x 3 x 600

Test oil Oil temperature

Manufacturer

kg/cm*

Rack position

Pump speed

(mm)

(rpm)

Service standard

(cc/ 100 st)

Manufacturer

standard (cc/ 100 st

Maximum

Allowance

Basis

)$!$$E

Maximum

Basis

variance between

Allowance

cylinder Rack positions B to E are the reference volume when adjusting the injection volume. Marks l are average volumes.

Basic point B

Governor performance

0

%r?o

‘Ooo

28.05

350

3.93

27.55 *3.43

to 28.55 to

4.43

kO.393

Each cyl.

’ 4.7

*

*

*

D

*

*

E

*

*

II 3

11.4 A

cylinder 24 7

C

(350

I

Each cyl.

- 1000

rpm)

II

3 t.25 iJ.7 750;;;Jo

II P;:;,25 +10

Pump speed (rpm)

FORM

NO.

SEBH4567

12-015 0

I

Injection

Pump Assembly

Number

Applicable

6162-73-1580(106692-4357)6162-73-1590 (1066924412) 6162-73-1581(106692-4740)6162-73-1591 (1066924413) 6162-73-1582(106692-4741)6162-73-1592 (106692-9010)

( ): Injection Pump Manufacture’s

Machine

Applicable

Serial No.

Model

part No.

Engine

Model

Serial No.

S6D170-1 S6D170

Injection

Pump Specification

Engine Specification

Plunger prestroke (mm)

2.35 - 2.45

Delivery valve retraction volume (mm’h)

90

Calibration

Low idling

1 1 : lnjenction

Service standard indicates data using calibration test pa ITS. Manufacture standard is data test parts.

curve (350 - 1,000 rpm)

/ 350

\ 700

/\1125+25

450'-25 (580) (g75)'201000~;~

Pump speed (rpm)

12-016 0

(rpm)


Standard

0

speed

i,

pump manufacture’s

650 - 700 Motor:

part number

7.5 kW

TESTING

AND

Injection

ADJUSTING

CALIBRATION

Pump Assembly

6162-73-1560 6162-73-1583

( ): Injection

Number

Pump

Manufacture’s Injection Pump Manufactuer

PES-PDX

ZEXEL

Pump Specification

Rotating

direction

Injection

order

Injection

interval

Plunger

prestroke

Applicable


Counterclockwise drive end

viewed

from

Flywheel

(Without

horsepower

(kWiHPYrpm)

l-5-3-6-2-4

(mm)

Machine

Engine

part No.

Injection Pump Type

Injection

Applicable

(106692-9231) (I 06692-9002)

DATA

Maximum

torque (Nm{kgmI/rpmi

fan) 32112,000 {430/2,000} 2,010/1,400

{205/1,400)

59” 30’ - 60’ 30’

High idling

speed

Irpm)

2,200 - 2,300

2.35 - 2.45

Low idling

speed

(rpm)

700 - 750

Delivery valve retraction volume (mm”st)


90

Motor:

7.5 kW

test parts.

Injection

Rack positions B to E are the refernce volume when adjusting the

volume

injection

volume

Governor perfomance curve

‘;

12. 4 Il. 9

=

10.3

.-z z

1.3

:: a ;

6.8

=

6.0

0 350

1035f5 Pump speed (rpm)

TWE00606

12-016-l @

Injection

Pump Assembly

Number

6162-73-2150 (106682-4540) 6162-73-2151 (106682-4790) 6162-73-2160(106682-4670) ( ):Injection Pump Manufacture’s

Injection Pumo Tvoe

I

Model

direction

Injection

order

1 Injection

ZEXEL

1-5-3-6-2-4

(mm)

Delivery valve

1

I

Serial

No.

(rpm)

3.15 - 3.25

Low idling

speed

(rpm)


120

(

curve (325 - 900 rpm)

) : lnjenction

302/l ,800 (404/l ,800)

torque (NmIkgmYrpm) speed

test parts.

12-016-2 0

Maximum 1 High idling

Standard

perfomance

Flywheel horsepower (kW{HPYrpm)

59’ 30’ - 60’ 30’

Service standard indicates data using calibration test parts. Manufacture standard is data

Governor

Model

Enaine Soecification

drive end

I retraction volume (mm’istj I Calibration

No.

Engine

I

Counterclockwise viewed from

interval

1 Plunger prestroke

Serial

Applicable

part No.

Pump Specification

Rotating

Machine

Injection Pump Manufactuer

I Injection

Applicable

pump

manufacture’s

2,079/1,300 I

I212/1,3001

1,960 -2,040 600 - 660 Motor:

part number

7.5 kW

I

Pump Assembly Number 6162-73-2231

Applicable

(191000-3930)

Model

( ): Manufacturer’s part No.

Serial No.

Model

Engine Serial No.

S6D170-1

Engine specification

Rotating direction

Counterclockwise

1 Injection order

F%ZX,V!,V~

Applicable

WA600-1

Injection Timing

Plunger pre-stroke

Machine

I-5-3-6-2-4

I

Rated horsepower

viewed from drive end

HP/rpm

41512,000

I

I

3.2

mm


120

,mO mm3/st

Motor

7.5 KW


* Service

standard indicates data using calibration test parts. . Manufacture standard is data for factory test.

Service standard Nozzle part no.

(093400-1800)


(093100-0951)

Injection

ipe

(O/D x l/g x length)

ASTM

250 2.0

- Rack positions 6 to E are the reference volume when

40 to 45

Nozzle opening pressure kg/cm’

Rack point

Basic

adjusting the injection volume. - Marks * are aver-

age volumes.


point

B C

D975 No. 2 diesel fuel or equivalent

OC

Transfer pump pressure kg/cm* Injection volume

Rack position (mm)

Pump speed b-pm)

12.3

1000

13.4

700

L6.71

standard

6x2.2x650

mm


Manufacturer

340

Service standard (cc/ 100 st)

Manufacturer

Maximum pig!‘, Basis cylinder

Basis

Allowance

23 o

.


Max. 1.0

27.1

* 26.6 to 27.6

Max. 1 .O

*

*

Max. 1.0

*

5.0

4.8 to

5.2

standard (cc/

Allowance

Maximurr variance between cylinder

Each cyl.

D

*

*

E

*

*

( 340 - 1000 rpm)

300

1025+10 Pump speed (rpm)

st

SEBH4634

12-017 0

Injection

Pump Assembly

6162-73-2241 6162-73-2242 6162-73-2243

Number

Rotating

part No.

Serial No.

Standard

(

Conditions

Flywheel horsepower (kW{HPI/rom)

) : lnienction

oump manufacture’s

(093400-1800)

Nozzle

(093100-0951)

Manufacture standard is data

Injection pipe

holder

part No.

(Outside dia.x Inside dia.x Length lest

I454/2,000}

Dart number

Manufacturer standard

ASTM

Oil temperature Nozzle opening

pressure

pump pressure

Rack point

Rack positions B to E are the refernce volume A(Basic point) when adjusting the B injection volume. , Marks * are C average volumes. D

D975 No.2 diesel

1°C) 24.5 I2501

(kPaIkg/cm’))

Rack position

Pump speed

(mm)

(mm)

196 (2.01

Service standard (cc/l,000 st) Injection

volume

Max.imum g”,G$E cylinder

12.8

1,000

245 - 255

Max. 2.5

13.6

700

27.8 - 28.8

Max. 2.8

6.7

300

E

curve (300 - 1,000 rpm)

fuel or equivalent

40-45

(MPa{kg/cm’})

njection volume

perfomance

6 X 2.2 X 650

) (mm)

oil

Transfer

12-018 0

339/2,000

Nozzle & Nozzle holder part No.

test parts.

for factory test parts.

Serial No.

S6D170-1

Nozzle part No.

Governor

Model

Service standard

Service standard indicates data using calibration

Engine


Counterclockwise viewed from drive end

direction

Applicable

WD600-1

Pump Specification

Calibration

Machine

Model


Injection

Applicable

(191000-4260) (191000-4262) (191000-4263)

48-52

Max.

0.5

Manufacturer standard (cc/1,000 st) Injection

volume

Maximum ~~~~~~ cylinder

Injection

Pump Assembly

6162-73-2251 6162-73-2252

Number

part No.

WD600-1

direction

Injection

order

Injection

interval

Plunger prestroke (mm) Delivery valve retraction volume (mm’/stj

Calibration

Applicable

Engine

Model

Serial No.

S6D170-1


Pump Specification

Rotating

Machine Serial No.

Model


Injection

Applicable

(191000-4620) (191000-4222)


339/2,000

2,089/1,400I213/1,400~

l-5-3-6-2-4

2,200 - 2,300

59’ 30’ - 60” 30’ 3.15 - 3.25

Low idling

(


Pump speed (rpm)

speed

(rpm)


120

Standard

I454/2,0001

) : lnjenction


650 - 700 Motor:

part number

7.5 kW

1

1 I

Pump Assembly

Number

6162-73-2260

Applicable

Machine

Model

( ): Manufacturer’s

Injection

part No.

Counterclockwise


l-5-3-6-2-4

Injection order

Serial No.

S6D170-1

Rated horsepower

HP/rpm

4 15/2,000

Maximum

kgm/rpm

200/I

torque

High idling

rpm

Low idling

rpm

2,200

,400 to 2,300

mm

3.2

mm3/st

120

650 to 700

I Pump tester capacity for Service standard

Motor

7.5KW I

Standard

Conditions

*Service


Service standard Nozzle part no.

(093400-I


(093100-0951)

Injection

ipe


ASTM

250 2.0

- Rack positions B to E are the reference volume when adjusting the injec-

Basic

tion volume.

are average volumes. l


D975 No. 2 diesel fuel or equivalent 40 to 45


Rack point

Rack position (mm)

Pump speed (rpm)

Service standard

Basis

(CC/ 100 St)

Allowance

1000

23.0


Max. 1.0

B

13.4

700

27.1

*26.6

Max. 1.0

C

Le.71

340

5.0

*

to 27.6

4.8 to 5.2

Manufacturer standard (cc/

Maximum rer!$$E Basis cylinder

12.3

point

Max. 1 .O

Allowance

* *

*

*

E

*

*

300

rpm)

1025210 Pump speed (rpm)

st


Each cyl.

D

( 340 - 1000

standard

800)

OC

Transfer pump pressure kg/cm’ Injection volume

Manufacturer

6 x 2.2 x 650

mm

Test oil

Oil temperature

- Marks

Model

60” f 30’

Injection interval

Calibration

Engine


Rotating direction

!%e+?%!~,m~

Serial No.

WA600-IC

Timing

Plunger pre-stroke

Applicable

(191000-4630)

SEBH4635X

Injection

Pump Assembly

6162-73-1192

Number

Applicable

(106692-4980)

*Serial

Model


part No.

I

I

I

lniection

direction

Injection

order

1 Injection

1

Plunger prestroke (mm) Delivery valve retraction volume

Calibration

2.35

- 2.45

Standard

I 1High idling

speed

(rpm)

idling

speed

(rpm)

Low


(

) : lnjenction


fan) 247/2,000

Maximum torque (NmIkgmYrpm)

90

(mm3M

(Without

horsepower (kWWWrpm)

59” 30’ - 60” 30’

Serial No.

S6D170-1

Flywheel

l-5-3-6-2-4

Engine

Model

Enoine Soecification


interval

No.

D155 (BEML)

Puma, Soecification

Rotating

Applicable

Machine

1,442/1,400

I

{331/2,000}

{147/1,400~

2,150 -2,250

I

600 - 700 Motor:

7.5 kW

part number

(Conditions . Service standard indicates data using calibration test parts.

. Manufacture standard is data for factory test parts.

Injection volume . Rack positions B to E are the refernce volume when adjusting thl injection volume. Marks * are average volumes.

Governor

perfomance

18’:

0

curve

Rack

325

limit : IO.

O+~.'mm

750+20 (9;

Pump

speed

(rpm)

TWE00607

12-020-l 0

Injection Pump Assembly Number 6162-73-1163

Applicable

(106692-4970)

Model

( 1:Injection Pump Manufacture’s

part No.

direction

Injection

order

Injection

interval

Serial No.

Engine Serial

Model

No.

S6D170-1

Engine Specification (Without fan)


viewed

from

l-5-3-6-2-4 59’ 30’ - 60” 30’


Applicable

D355 (BEML)

injection Pump Specification Rotating

Machine

2.35 - 2.45

(mm%)

Calibration Standard

I

\ . Inic,nrtinn

Service standard indicates data using calibration test parts. Manufacture standard is data test parts.

Governor perfomancecurve

Boost compensatorperformancecurve

mpensator

0

Boost 410f20 Pump speed

12-020-2 0

stroke

720f50 (rpm)

Pressure

(kPaImmHs1)

900::: TWE00606

Injection

Pump Assembly

Number

Applicable

6162-73-1212 (106692-4110) 6162-73-1214(106692-4113) 6162-73-1213 (106692-4111)6162-73-1215(106692-4990)

( ): Injection

Injection Rotating

Pump

Manufacture’s

Serial

Model

(Without

Flywheel horsepower (kW{HPl/rpm) Maximum

Standard

Engine No.

S6D170-1



‘~,‘~i Calibration

No.

OEM for generator

Pump Specification direction

Serial

Model

part No.

Applicable

Machine

1 ) : lnienction

fan) 329 I441~/1,500 (50 Hz) 380 I509M1,800 (60 Hz)

torque (NmIkgmMrpm)

DumD manufacture’s

Dart number

Conditions Service standard indicates data using calibration test parts. Manufacture standard is data test parts.

Rack positions B to E are the refernce volume when adjusting the injection volume. Marks * are average volumes.

C D E


18+;l,,,,,,l,,,Tk

limit :l4. 8:0"mm

le sub 'ring set: 3-t,smm

0

400 / Min. 500

75OtlO

\ Max. 945 900’b0

Pump speed (rpm)

TWE00610

12-020-3 0

Injection

Pump Assembly

6162-73-1721

Number

Applicable

(106692-4372)

Machine

Model ( 1: Injection

Pump Manufacture’s

part

No.

Applicable

Serial No.

I

Model

EPS6D170-1

Engine Serial No.

S6D170-1

ki

Injection

Pump Specification

Rotating

direction

Injection

order

Injection

interval


l-5-3-6-2-4 59” 30’ - 60” 30’ 2.35 - 2.45

Delivery valve retraction volume (mm”sr)

Low idling

90

for Service

(

I

Conditions Service standard indicates data using calibration test parts. Manufacture standard is data

Injection pipe (Outside dia.x Inside dia.x Length ) (mm)

for factory

Test oil

(rpm)

) : lnienction

standard

oumo manufacture’s

Service standard

600 - 1,000 Motor:

7.5 kW

Dart number



(105780-8130)

6162-13-3300

(105111-4020)

Nozzle part No.

(105780-0050)

6162-13-3320

(105015-5210)

Nozzle holder part No.

(105780-2090)

6162-13-3110

(105041-7020)

8X4X600

(‘0

I

B to E are the refernce volume when adjusting the injection volume.

Marks * are

Governor perfomance curve Rack

8X2.4X1.400

ASTM D975 No.2 diesel fuel or equivalent

Oil temperature

Rack positions

I imi t :

(R,t

14.

9) ‘t’mm

18’:

400750 I (8401 240

900%

\ 990+25

Pump speed (r pm)

12-020-4 0

speed

Pump tester capacity

Standard

test parts.

fan)

drive end


Calibration

(Without

viewed from

Counterclockwise

TWE00611

40 - 50

Injection

Pump Assembly

Number

Applicable

6162-73-1733(106692-9020)

Machine

Model ( ): lniection

Pumo Manufacture’s

Injection Pump Type

1

1

Rotating

ZEXEL

Injection

order

Injection

interval

Enqine Specification Flywheel

drive end

1-5-3-6-2-4

(Without

horsepower MWHPHrpm)

fan) 351 {47OYl,500 386 {517Y1,800

(50 Hz) (60 Hz)

Maximum torque (Nm{kgmI/rpm)

59” 30’ - 60’ 30’


3.15 - 3.25 I

1

Delivery valve


retraction volume (mm’/st)

Calibration

Serial No.

Model

I


I

Engine

S6D170-1

I

Pump. Specification _ direction

Serial No.

OEM for generator


PE-P DX

Injection

Dart No.

Applicable

Standard

(

1: lnjenction


Motor:

7.5 kW

part number


Rack positions B to E are the refernce volume

Governor perfomance

curve

I imi t : 16+~*mm i a’:

sDrin9

hii n. 7. 3

set:

E E .-S .-_ z _

5.8 5. 3

I 400

Min.

/ 750flO 900’: 500 Pump speed (r pm)

TWE00612

12-020-5 0


(191000-3922)

Applicable

I

Machine

Model


direction

Injection

order

Serial No.

l-5-3-6-2-4

Flywheel

horsepower

Maximum torque (Nm{knmI/rom)

(

1 : lnjenction



16 14 12

8 6

E :: 2

4

( R., Pul I ino start

Point)

2

0

2

4

6 Pump speed

12-020-6 0

a (rpm)

302/1,800

WG-Wrpm)

Rack positions

z .-

No.

Enoine Soecification (Without fan)


test parts.

;

Serial

S6D170-1


10

Model

D275A-2


<

Engine

part No.

Injection Pump _ Specification _ Rotating

Applicable

IO

12 TWE00613

1,981/1.300

part number

{404/1,800} I202/1.300}

Machine Model

Engine Model

Injection Pump Type

Pump Manufacturer

EG550- 1

SAGD170-A-l

PEGZW

DIESEL KIKI

Unit

Allowance

Injection

Pump Assembly 6162-73-l 6162-73-I

Number 330 350

(I 03662-2140). (103662-2770).

4 1

Timing Basis

Rotating direction


injection order

l-5-3-6-2-4

injection interval

60”

59”30’

3.8

3.75 to 3.85

Plunger pre-stroke

mm


mm3

viewed

Specification

for engine with fan

to 60”30’ ~1

I

120 Low idling:

Calibration

(reference only)

rpm

Approx. 800

Standard

ionditions

Unit



Nozzle part no.

(105015-5140)

(

1


(I 05041-7020)

(

)

In ectron rpe (d/D x l/8x length)

mm

8x2.4x

1400

Test oil

ASTM

Oil temperature

“C

43 to 47


kg/cm2

300


kg/cm2

1.6

D975

No. 2 diesel fuel or equivalent

ipecifications Injection volume for manufacturer

Calibration basic point B Rack positions B to E are the reference volume when C adjusting the injection volume. D Marks * are average volumes. E iovernor

Rack osition Pmm)

Pump speed (mm)

18.4 7.8

(cc/l OOst) standard Maximum variance between cylinder

Basis

Allowance

875

52.0


t2.08

400

6.8

*

20.95

6.3

Injectionvolume(cc/ for service standard

to

7.3

Basis

Allowance Each cyl. *

*

*

*

*

*

*

performance

Pump speed (rpm) GNumbers in parentheses


part numbers

St) Maximum variance between cylinder

Machine Model EG550-1

Injection

Engine Model

Injection Pump Type

Pump Manufacturer

SAGDI

PEGZW

DIESEL KlKl

70-A-1

Pump Assembly

Timing Unit


.... 1

. .. 1

(103662-2302) (103662-3210) (103662-3212)

viewed

Specification

for engine with fan

Low idling:

Calibration

(103662-2290) (103662-2292) (103662-3050) (103662-3051) (103662-2300)

Allowance

Basis

Rotating direction

Number

6162-73-1331 6162-73-1332 6162-73-1333 6162-73-1334 6162-73-1351 6162-73-l 352 6162-73-1353 6162-73-1354

rpm

(reference only)

700 to 900

Standard

Conditions

Unit


Nozzle part no. Nozzle holder part no. In ectron rpe Cd/D x t/$x length)

mm


(105015-5140)

(

1

(105041-7020)

(

1

8~2.4~1400 ASTM


“C

43 to 47


kg/cm*

300


kg/cm2

1.6

D975


Specifications Injection volume for manufacturer

Calibration basic point l

l

Rack positions 6 to E are the reference volume when adjusting the injection volume. Marks * are average volumes.

Sovernor

B

Rack osition Pmm)

Pump rgrnd

18.4 7.8


Basis

Allowance

875

52.0


k2.08

400

6.8

*

kO.95

6.3

Injection volume(cc/l for service standard

(cc/l OOst) standard

to

7.3

Basis

Each cyl. * *

*

C D

*

*

E

*

*

performance

M,n26

Pump speed (rpm) Numbers in parentheses

12-022 0

Allowance


part numbers

OOst) Maximum variance between cylinder

Pump Assembly Number

Applicable

6162-73-1480 (103662-2870) 6162-73-1481 (103662-2871) ( ): Manufacturer’s part No.

I

Injection Pump Type

Model

PE-6ZWX

Serial No.

Engine

Model

Serial No.

SAGD170-1

I

KIKI

Injection Timing

w/Single turbo

10794 and up

w/Twin

10851 and LID

turbo


Rotating direction


Injection order

l-5-3-6-2-4

Injection

Applicable

HD465-3

Pump Manufacturer DIESEL

Machine

60” + 30’

Plunger prestroke

3.8 + 0.05

mm

HP/rpm

I

288/l

I

1

1 High idling

rpm

I

2,250 to 2,3501

1 Low idling

rpm

I

850 to 900

torque

I

I


120

730/2,100

kgm/rpm

1 Maximum

interval

Delivery valve retraction volume mm3/st

Rated horsepower

Motor

7.5

,400

KW


- Service


Service standard (105780-0050)

6162-13-3420

(105015-6140)


(105780-2090)

6162-13-3110

(105041-7020)

Injection

ipe


8x4x

mm

8~2.4~1400

1500

ASTM

Test oil

D975 No. 2 diesel fuel or equivalent 43 to 47

OC


175

300

Transfer pump pressure kg/cm’

1.6

1.6

volume Rack point

- Rack positions B to E are the refer-

standard

Nozzle part no.

Oil temperature

Injection

Manufacturer

Basic

ence volume when adjusting the injection volume. - Marks * are average volumes.

Pump speed

(mm)

h-pm)

point B


Rack position

15.3 Approx. 7.3

1050 425

Service standard

Manufacturer

yJE’$, cylinder

Allowance

Maximum

Basis

48 3 Each cyl. . 47.8 to 48

51.932

40.0

5.17

kO.723

4.5

*

4.67 to 5.67

Allowance

*

*

*

D

*

*

E

*

* Boost compensator

0

speed

performance

At boost pressure x

Line 0, :

At boost

Point

0:

Adjust low

Point

0:

Idling

pressure idling

sub spring

:Y

variance between cylinder

Each cyl.

C

( 425 - 1050 rpm)


Maximum

Basis

Line 0:

Pump

(cc/ 100 St)

(650 rpm)

or llMre Or 1eSS

at no boost

pressure

set point

(rpm)

SEBH 4502-l

’ 2-:23

I I


Number

Applicable

(103662-3023)

Machine

Model (

1: Manufacturer’s Injection Pump Type

Serial No.

SA6D170-A-1

DIESEL KIKI


pre-stroke

Calibration

‘:;$;;io?p

(Single turbo) 11683 and up

Rated horsepower

Plunger

Serial No.

Model

HD465-3

Timing


mm

3.8 f

/

730/2100

0.05 Pump tester capacity for Service standard

120

mm3/st

HP/rpm

Motor

Standard

bService standard indicates data using calibration (Nozzle, Nozzle holder and injec-

) Manufacture standard is data using factory test (For reference)

1Rack

positions B to E are the reference volume when adjusting

volume.

1Marks

* are average volumes.

Governor

performance

(425 Stop

Min.26 Or more

1050

lever 17.

rpm)

Boost compensator

performance

rpm)

5+1'6mm

Z E g .-

15.3 I Min. 8. 8 Z Or more a

15.9 z L C .o '5 g +z 11.5 2

1. 3

0

6.2

70+10

Boost pressure I. lM.1 0 720flD

1050:::

Pump speed (rpm) TKE00124

12-023-l 0

(650

Rack limit 16. 5*:.'mm Boost comoensator stroke 4. 4fo.lmm

z

Engine

Pump Manufacturer

PE-6zWX

Injection

part No.

Applicable

I

(340)

(mmHg)

7.5

KW


Applicable

Applicable

Machine

Engine

(103662-3182) Serial

Model

(

1: Manufacturer’s part No. I Pumo I lniection

direction

Injection

order

Injection

interval

Plunger

pre-stroke

Serial No.

Engine specification Counterclockwise from drive end

viewed

l-5-3-6-2-4 60” * 30’ mm

3.8 + 0.05

I


Model SA6D170-A-1

HD465-5

IInjection Timing Rotating

No.


120

mm3’st

Motor

7.5

KW

Calibration Standard Service standard indicates data using calibration (Nozzle, Nozzle holder and injecManufacture standard is data using factory test (For reference)

Rack positions B to E are the reference volume when adjusting volume. Marks * are average volumes. Governor performance (475 Stop

Rack

1050 rpm)

lever

Boost compensator performance (750 rpm)

18. 5’8 ‘mm

I imi t 17. 9’8 Boost

‘mm

compensator 4.

stroke 4*O-lmm

17.4

13.0

;i (70) Boost pressure

Pump

(34OIf20

(mmHg)

speed (rpm) TKEO0125

SEBH4881

12-023-2 0

Injection Pump Assembly Number

Applicable

6162-73-1410 (103662-3260) 6162-73-1571 (103662-3101) 6162-73-1572 (103662-3102)

Model


part No.

direction

Injection

order

Injection

interval

Serial No.

Engine Serial

Model

No.

SA6D170-A-1



viewed

from

Flywheel horsepower MW-Wrpm)

59’ 30’ - 60” 30’

High idling

3.75 - 3.85

Low idling


478/2,000

{641/2,000}

Maximum torque (NmIkgmYrpm) 2,810/1,400

l-5-3-6-2-4


Applicable

WA700-1

Injection Pump Specification Rotating

Machine

speed speed

@pm)

2240 - 2300

(rpm)

700 - 750


120

{286.5/1,400}

Motor:

7.5 kW




Governor

perfomancecurve

Boost compensatorperformancecuve

0

12. 01901

41.3(3101

Boost pressure (kPa{mmHaI

450+20

950+30

Pump speed (rpm)

12-023-3 0

)

1135+25 TWE00614


I

(103662-2911)

Applicable

Machine

Model

:;$;:;$I;;;; [;;$:gf::8:81 ( ): Manufacturer’s part No.

Serial No.

EG550-1

Injection order

l-5-3-6-2-4

interval

Plunger pre-stroke

SAGD170-1

11500 and up 14173 and up

I

Engine specification Counterclockwise viewed from drive end

Rotating direction

Injection

Serial No.

I

1

Engine

Model

SA6D170-A-1

EG580B-1 L

Injection Timing

Applicable

I

50 Hz) 60 Hz)

kgm/rpm

633/l ,500 731/1,800 -

High idling

rpm

Max. 1,560 Max. 1,872

50 Hz 60 Hz

Low idling

rpm

Rated horsepower

HP/rpm

Maximum

torque

60’ +_30 mm

3.8 + 0’.05


700 to 900


120

Motor

7.5

KW


Service standard

Service standard indicates data using calibration test parts. Manufacture standard is data for factory test.

Manufacturer

standard

Nozzle part no.

(105780-0050)

6162-13-3420

(105015-6140)


(105780-2090)

6162-13-3100

(105041-7020)

Injection ipe (O/D x I/! x length)

mm

8x4x ASTM

Test oil

Oil temperature

8 x 2.4 x 1,400

1,500

D975 No. 2 diesel fuel or equivalent 43 to47

“C


175

300


1 .6

1.6

kg/cm2

njection volume

Service standard

100 st)

Manufacturer

stand

Rack positions B to E are the reference volume when adjusting the injection volume. Marks l are average volumes.

E Zovernor performance

I

I

(400 - 900

I*

rpm)

26 or ITOE

Rack limit18.9’oo*mm

0

400 500 750t10 or more Pump speed (rpm)

goo:o

SEBH4806

12-023-4 0

TESTING

AND ADJUSTING

Injection

Pump Assembly

6162-73-2370

CALIBRATION Number

Applicable

(106682-9290)

Machine Serial

Model

( ): Injection

Pump

Injection

Manufacture’s

part No.

direction

Injection

order

Injection

interval

No.

Engine Serial

Model

No.

SA6D170-A-1

Pc1ooosP-1 (for LAYTON)

Pump Specification

Rotating

Applicable

DATA



viewed from

l-5-3-6-2-4

Plunger prestroke

59’30’ (mm)

- 60”30’

3.15 - 3.25


Calibration

Standard

tConditions . Service standard indicates data using calibration test parts. Manufacture standard is data for factory test parts.

(

) : lnjenction Service

pump

manufacture’s

standard

part number Manufacturer

standard


(105780-8130)

6162-13-3702

(105111-4142)

Nozzle part No.

(105780-0050)

6162-13-3720

(105015-6700)

(105780-2090)

6162-13-3712

(105041-7101)

part No.

Nozzle holder

Injection pipe (Outside diaxlnside dia.x Length)

ASTM

Injection

Rack positions

8X2.4X1,450

8X4X1,000

(mm)

Test oil

D975 No.2 diesel fuel or eauivalent

volume

B to E are the refernce volume when adjusting the injection volume. ‘Marks are average volumes.

Governor

perfomance

curve

Boost compensator

Rack

limit

Idline

:la. sub

Governor

I

I

/

/ TBoost

performance

cuve

2 (mm)

O-la. sprins

set

sprins

set

compensator

stroke

:3.

l-3.

3 (mm)

17. 5 16. 7 10.

I (mm

t .I

0

0

300 335

720 / 785-835

Pump speed

\915-965 895-905

Boost

6. 6-12. (50-901 pressure

0

39. 3-48.7 ~280-3801 LkPaImmHaI)

(ram) TWE00728

12-023-5 @

Pump Assembly

Number

6162-73-2410 6162-73-2411

(

): Manufacturer’s

Injection

Timing

Rotating

direction

Injection

order

Injection

interval

Plunger

pre-stroke


Calibration

Applicable

(106682-4652) (106682-4850)

Model

part No.

Counterclockwise viewed from drive end l-5-3-6-2-4

3.2 f 0.05

mm mms/st

Model

1

Serial

No.

SAGD170-1

Enaine

SDecification

1 Rated horsepower Maximum

torque

HP/rpm

)

kgm/rpm

High idling

rpm

1 Low idling

rpm


120

Standard

positions B to E are the reference volume when adjusting the injection volume. 1Marks * are average volumes.


ernor s~lina Idling

set sub splins

set

16.9

p: _ 6. 5 6. 3

30 0:::

385 Pump sDeed (rpm)

TKE00128

12-024 0

No.

Engine

590/

1800

270/l

300

1950

I

to 2050

60° -I- 30’

1Rack

3

Serial

Applicable

EPSAGDl70-A-1

) Service standard indicates data using calibration test parts. 1Manufacture standard is data for factory test.

= E z z .-

Machine

I

750 to 850

Motor 7.5 KW

I

Injection

Pump Assembly

6162-73-1320

Number

Applicable

(103664-1321)

Serial No.

Model


part No.

Applicable

Machine

Engine Serial

Model

No.

SA6D170-A-1

EG600BS-1

for generator OEM

Injection


Pump_ Specification .

Rotating

direction

Injection

order

Counterclockwise

viewed from

drive end l-5-3-6-2-4 I

interval

1 Plunger prestroke (mm)

High idling

3.75 - 3.85

I

speed

(rpm)

1 1Low idling speed

(rpm)

I


Calibration

(

Max. 1,560 (50 Hz) Max. 1,872 (60 Hz)

I

700 - 900

) : lnjenction


I

I

I

I


Standard

1

I

59’ 30’ - 60’ 30’

1

fan) 477 {639H1,500 (50 Hz) 531 ~712)/1,800 (60 Hz)


I

Injection

(Without

Flywheel horsepower (kW{HP}/rpm)

Motor:

7.5 kW

part number



C D

E

12-024- 1 0

Injection

Pump Assembly

6162-73-1341 6162-73-1342 6162-73-1343 ( ):lniection

I

zdA

/

Serial

Applicable No.

I

I

Pump Specification

Rotating

direction

Injection

order

Injection

interval

/ ,A~~~‘,_,

1

I

I


(Without

59” 30’ - 60’ 30’ 3.75 - 3.85

Low idling

speed

(

) : lnjenction

Conditions

Service

Motor:

pump manufacture’s standard

test parts.

Rack positions B to E are the refernce volume when adjusting the injection volume. Marks * are average volumes. I

P W

0

I

curve Rack

I imi t : 20’:“mm

V

300

1000:::\ Pump speed (rpm)

1080f25 TWE00618

I

7.5 kW



perfomance

600 - 650

@pm)


120

Standard

Min. 26

fan)

1-5-3-6-2-4

Delivery valve retraction volume fmmVst)

-I2-024-2 0

Serial No.



Governor

Engine

part No.

ZEXEL

I

Calibration

Machine


PE-ZWx

Injection

Applicable

1


Injection Pump Type

I

Number

(103662-2821) (103662-2822) (103662-3070)

standard

Injection

Pump Assembly

6162-73-1372

Number

Applicable

(103662-3080)

Model


Machine

Applicable

Serial No.

Model

Pump Specification

Rotating

direction

Injection

order

Injection

interval

Serial No.

part No. HD465-3 (with single turbocharger)

Injection

Engine

SA6D170-A-1


(Without

fan)

Counterclockwise viewed from drive end l-5-3-6-2-4 59” 30’ - 60’ 30’


3.75 - 3.85

Delivery valve retraction volume (mmyst)

Calibration

Standard


Rack positions

Governor

petfomance curve lever:1 7. 5*t6mm

Min. 26

sator stroke: 2fO.

7mm i.smm

E E E

15. 9

Min.8.8 15. 3

E E

.2 a : Ix

.-z

.z c 13.9

7. 3 6. 2

: CL 0 I. lf0. 3 0

I I

I

425

L 720+30 aoof30

Pump speed (rpm)

48. olt6.7 (360f50)

21. 3f2. 7 (160&20) Boost Pressure

(kPs

{mmHg] )

1050:::\ 1150+25 TWE00619

12-024-3 0

Injection

Pump Assembly

6162-73-1531

Number

Applicable

(103662-3130)

I

( ): Injection

Pump

PE-ZWx

njection

part No.

ZEXEL

I

1

No.

Model

I Serial

No.

SA6D170-A-1

OEM for BRO

I


Pump Specification

Rotating

direction

Injection

order

Injection

interval

Plunger prestroke


Flywheel

(mm)

(Without

horsepower

Maximum

torque (Nm{kgmMrpm)

fan) 552/2,000

(kWIHPI/rpm)

l-5-3-6-2-4


Calibration

Serial

Engine

I 1


Injection Pump Type

I

Manufacture’s

Model

Applicable

Machine

I 1

I

3,030/1,400

{740/2,000) {309/1,400~

59” 30’ - 60” 30’

High idling

speed

&pm)

2,150 - 2,250

3.75 - 3.85

Low idling

speed

(rpm)

750 - 850


120

I

Standard

Motor:

1 : lninnctinn ntlmn manllfxtttre’s

7.5 kW

nart number


Governor

perfomance

Boost compensator

curve Rack limit:

(17.

performance

curve

2)':"mm Boost compensator stroke:

;; (16. 7) E

0

0

400 720f20

IOOO::! (815) llOOYc25

Pump speed (rpm)

12-024-4 0

21.3k2.7 ~160~201

48. 0f6. 7 1360*503

Boost Pressure (kPa{mmHe))

TWE00621

Injection

Pump Assembly

6162-73-1550 ( 1: Injection

I I

Pump

Injection Pump Tvpe

I

Manufacture’s

Applicable

Injection

order

Injection

interval

Plunger

prestroke


Counterclockwise driveend

viewed from

(Without

Flywheel horsepower

fan) 386/2,100

(kWU-R/rpm)

{518/2,100~

l-5-3-6-2-4 59” 30’ - 60” 30’ 3.75 - 3.85

(mm) I

I


Calibration

Engine

I

Pump Specification direction

Applicable

I

I

ZEXEL

Rotating

Machine

part No.


PE-ZWx

Injection

Number

(103662-3090)

I


120

Standard

I

(

) : lnjenction

pump

I

Motor:

manufacture’s

7.5 kW

part number


Governor

perfomance

curve

Boost compensator

performance

curve

Rack limit :17't'mm Boost compensator stroke ~2. OfO. Adapter spring is not actuated

Min.26

lmm

16. 5 -z E z z -G 4

14.5

: Dz 0

21. 3f2. 7 (160*201

48. 0f6. 7 (360f501

Boost pressure (kPaImmHa1) 0


1050:::\ 1150525

TWE00623

12-024.

Injection

Pump Assembly

6162-73-1612

Number

Applicable

(103662-3110)

Machine

Model

( 1: Injection Pump Manufacture’s

Injection

part No.

direction

Injection

order

1 Injection

from

l-5-3-6-2-4

(Without

horsepower N’WWrpm)

Low idling

speed

(rpm)

speed

(rpm)


120

Standard

Flywheel

II High idling

3.75 - 3.85

Delivery valve retraction volume (mm3’st)

1 1: lnjenction

Serial No.

SA6D170-A-1


fan) 534/2,000 {715/2,000)

Maximum torque INmIkgmYrpm)

59” 30’ - 60’ 30’


Calibration

viewed

Engine

Model



interval

No.

EPSAGD170-A-1

Pump Specification

Rotating

Serial

Applicable

2,922/1,400

{298/1,4001

FM600 - 1,000 Motor:

7.5 kW

part number

lConditions - Service standard indicates data using calibration test pans. pManufacture standard is data for factory test parts.

An-d*

I

* Rack positions B to E are the refernce volume when adjusting the injection volume.

5Marks * are average volumes.

Governor

perfomance

curve

Min. 26

Supplied as adapter spring is not actuated

1I 2-024-6

0

-

Injection

Pump Assembly

6162-73-1640

Number

Applicable

(103662-3170)

Machine Serial No.

Model


Injection

part No.

OEM for marine

Pump Specification

Rotating

Flywheel

drive end

Engine Serial

Model

No.

SA6D170-A-1



direction

Applicable

(Without

horsepower (kW{HPYrpm)

fan) 552/2,000

{740/2,000}

Maximum torque (Nm{kgm}/rpm)

~~~

Calibration

Standard

f

1 : lnienction

oumo

manufacture’s

oart

number


Rack positions B to E are the ref-

ernce volume when adjusting the injection volume. Marks * are average volumes.

C

15.7 - 15.9

100

Rack limit: 15.

7*f'mm

330

-

D E

Governor

petfomance curve

Min. 26 h, //I//.,// C

A

(15. 2) -z 10.7 E 7.7 z ..p (5.6) : PI

0

1000:::


1075f.25 TWE00626

12-024-7 0

Injection

Pump Assembly

6162-73-1670

Number

Applicable

(103662-3230)

Machine Serial No.

Model


Injection

part No.

direction

Injection

order

Injection

interval


l-5-3-6-2-4


59” 30’ - 60” 30’

High idling

speed

(rpm)

3.75 - 3.85

Low idling

speed

(rpm)

(

1 : lnjenction

2,100 - 2,200 550 - 600

I

part No.

7.5 kW

Motor:


Service standard

I Nozzle & Nozzle holder

55212,000 {740/2,000}


120

Standard

tConditions .* Service standard

fan)

Maximum toraue (Nm{kamYrom)

I

Calibration

(Without

Flywheel horsepower (kWW/rpm)

drive end

Delivery valve retraction volume (mmyst)

Serial No.

SA6D170-A-1

viewed from

Counterclockwise

Engine

Model

EM680A-1

Pump Specification

Rotating

Applicable

I

I

part number


(105780-8130)

6162-13-3901

(105111-4350)

Nozzle part No.

(105780-0050)

6162-13-3921

(105015-8330)


(I 05780-2090)

6162-13-3710

(105041-7060)

standard is data

Injection pipe (Outside dia.x Inside dia.x Length ) (mm)

8X4X1,500


Test oil

indicates data using calibration test parts.

*Manufacture

njection

Oil temperature

40-45

(“C) 17.2 1175)

Transfer pump pressure (kPa{kg/cm’})

157 Il.61

Rack point

Rack position

Pumo speed

Service standard

(mm)

(rpm)

Injection

29.4 {300} 157 11.6)

(cc/l,000

st)

Manufacturer

standard (cc/l,000

Maximum

volume

~~~~~~

A(Basic point)

(15.2)

B

Approx. 7.7

300

C

(15.7)

100

t are

average volumes.

1,000

Injection volume

~~J~~~ cylinder

395 - 405

Max. 32

Max. 12.6 -

40-50 (300)

D


Boost compensator performance curve Rack limit

:

(15. 7)‘:‘*

mm

/

Boost

Min. 26

compensator stroke

:4fO.

1mm

/

C 115. 2) E E E

:

0 2

(5. 6)

I

5 -------i

0

._

24. 0:::: { 18 0:::1

Boost pressure

Pump speed

12-024-8 0

(rpm)

st)

Maximum

cylinder

when adjusting the injection volume. Marks

D975 No.2 diesel fuel or equivalent

Nozzle opening pressure (MPaIkg/cm’})

volume

Rack positions B to E are the refernce volume

8X2.4X1,400

ASTM

48. Of6. 7 (360*50) (kPa(mmHej)

107&25 TWE00627

Injection

Pump Assembly

6162-73-1682

Number

Applicable

(103682-0470)

Serial No.

Model ( ): Injection


part No.


1

3.75 - 3.85


Standard

(Without

(

fan) 629/2,000

Maximum torque (NmIkgmllrpm)

3.295/1,400

speed

(rpm)

I Low idling speed

@pm)


120

Serial No.

Model

Flywheel horsepower (kW{HPMrpm)

High idling 1 Plunger prestroke (mm)

Engine

SA6D170-A-1

EM680A-A

Enaine SDecification

~1 Calibration

Applicable

Machine

) : lnjenction


{842/2,0001 I336/1,400}

2,100 - 2,200 550 - 600 I

Motor:

7.5 kW

part number


Injection volume


Injection volume

D E

Governor

perfomance

curve

Min. 26 ;h_

/

Rack Iimit:17’~‘mm

/////.‘///

;16.

/I

5

211.1.-z ; a

&’

$

6.5

0

1000:::\

300 Pump speed (r pm)

‘075f25

TWE00629

12-024-9 0

I

Pump Assembly Number 6162-73-1151 (106692-4233) 6162-73-1520 (106692-4460) ( ): Manufacturer’s part No.

Applicable

Machine

Model

Applicable Model

Serial No. 15001andup

D375A-1

Engine

I

Serial No.

SAGDl70-B-1

10332 -

11045


Injection Timing

Plunger pre-stroke

2.4 & 0.05

mm



90

7.5 KW

Motor


t Service

Service standard

standard

indicates data using calibration

test parts.

’ Manufacture

(105780-0050)

6162-13-3520

(105015-6160)

Nozzle holder part no. injection ipe

(105780-2090)

6162-13-3100

(105041-7020)

8 x 2.4 x 1400

mm

ASTM


8x2.4x

43 to 47

Nozzle opening pressure kg/cm2

265


1.6

1.6

Rack point

bRack positions Basic


point B

(

1400


“C 175

Injection volume

B to E are the reference volume when adjusting the injection volume. - Marks l are average volumes.

standard

Nozzle part no.


standard is data for factory test.

Manufacturer

kg/cm2

Service standard

Rack position (mm)

Pump speed (rpm)

Basis

14.0

900

38.44 Each cyl.

Ap rox %.8

325

Manufacturer

kc/ 100 st)

standard (cc/ 100 st Maximum

Maximum

3.42

Allowance

Ter$EK cylinder

Basis

Allowance

,34 o5 Each cyl.

37.94

to 38.94

-

’

* 2.92

to 3.95

kO.342

3.5

*

C

*

*

D

*

*

E

*

* Boost compensator

325 - 900 rpm)


performance

(400 rpm)

15.3 -? E : ‘Z ._ 8 P Y P n

12.6

0

go+20

380+60

Boost pressure (mmHg)

Line @ Line @ Pump

speed

(rpm)

: :

At boost pressure 480 mmHg or more At boost pressure 0 mmHg

SEBH451 l-01

12-025 0

Pump Assembly Number 6162-73-l

Applicable

250 (106692-4050)


Model

part No.

Applicable Model

Serial No.

Engine Serial No.

SAGDI 70-B-1

EG450-1 EG480-1

[I

Injection Timing

Engine specification Counterclockwise view from drive end

Rotating direction

interval

Plunger pre-stroke

~1

’

l-5-3-6-2-4

Injection order Injection

Machine

60’?30’ 2.420.05

mm

Delivery valve _ retraction volume mm3/st


90

Motor

7.5

KW


Service standard


Manufacturer

Nozzle part no.

(105780-0050)

6162-13-3320

(105015-5210)


(105780-2090)

6162-13-3110

(105041-7020)

injection ipe (O/D x l/g x length)

8 x 2.4 x 1400

8 x 3 x 600

mm

ASTM

Test oil

Oil temperature

D975 No. 2 diesel fuel or equivalent 43

OC

to

47


175

255

Transfer pump pressure kg/cm2

1.6

1.6

Pump speed

Service standard

Injection volume

Rack position (mm)

Rack point

(r-pm)

(cc/ 100 St)

Manufacturer

standard (cc/100

Maximum Basis

Allowance

~er$$~

Basis

Allowance

cylinder Rack positions B to E are the reference volume when adjusting the injection volume. Marks * are average volumes.

standard

point

Basic

B

3overnor performance

14.5 Approx 5.4

900

47.25

400

3.95

Each cyl. 46.75 to 47.75 *

3.45

to 4.45

kO.395

40.0 4.0

Each cyl. *

C

*

*

D

*

*

E

*

*

( 400 - 900

rpm)

Ia+; Racklimit:

14.5+b2

///////I//// 14.5

Pump speed (mm)

12-026 0

st


SEBH4730

Pump Assembly Number 6162-73-1251 6162-73-1252 6162-73-1253 6162-73-1254

Applicable

(106692-4121) 6162-73-1430 (106692-4640) (106692-4122) 6162-73-1431 (106692-4642) (106692-4123) 6162-73-1432 (106692-9060) (106692-9040)

Machine

Model

Applicable

Serial No.

Engine

Model

EG450-1

Serial No.

SAGDI 70-B-1

EG480-1

( 1: Manufacturer’s part No. c

injection Timing

Engine specification Counterclockwise view from drive end

Rotating direction Injection order

l-5-3-6-2-4

I

Rated horsepower

HP/rpm

Maximum

kgm/rpm

torque

High idling

rpm

Low idling

rpm

Injection interval I

Plunger pre-stroke

mm

2.4kO.05


50H 60Hf

1:::

I%#:I

las

700 to 900


90

48811500 544/1800

Motor

7.5

KW


Service standard

Manufacturer

standard

* Service

Nozzle part no.

(105780-0050)

6162-13-3220

(105015-5500)

(105780-2090)

6162-13-3110

(105041-7020)

- Manufacture

Nozzle holder part no. Injection ipe (O/D x l/g x length)

standard indicates data using calibration test parts.

is data for factorv test. standard

ASTM

43

OC

to

47

Nozzle opening pressure kg/cm2

175

255

1.6

1.6

Rack position (mm)

Pump speed

Service standard

14.5

900

Rack point

- Rack positions Basic

point

B


0


Transfer pump pressure kg/cm2 Injection volume

B to E are the reference volume when adjusting the injection volume. . Marks l are average volumes.

8 x 3 x 600

mm


8 x 2.4 x 1400

APV&

b-pm)

400

Basis

h/100

Allowance

47 25 Each cyl. . 46.75 to 47.75 3.95

*

3.45 to

4.45

St)

Manufacturer

Maximum Fert,“E”, Basis Allowance cylinder 4. o Each cyl. . AO.395

4.0

C D

*

*

E

*

*

400 ~~~ore750~10

Pump speed (rpm)


*

*

( 400 - 900


*

rpm)

900",0

SEBH4731

12-027 0

Machine Model

Engine Model

D375A-1

SAGD170 S/N 11646 and up

Injection Pump Type

Pump Manufacturer

PE-6P

DIESEL KIKI

Pump Assembly

I

Number

6162-73-2110

(

0

(106682-4350).

1: Manufacturer’s part No.

Injection Timing Unit

Allowance

Basis

I

Rotating direction


Injection order

l-5-3-6-2-4

Injection interval

60”

59”30’ to 60”30’

3.2

3.15 to 3.25

Plunger pre-stroke

mm


mm3

Calibration

Specification

800

kgm/rpm

267/I

300

High idling:

rpm

1950 to 2050

Low idling:

rpm

I Maximum torque:

600to

I I

700

Standard Service standard (with calibration test parts)


Unit

Nozzle part no.

(105015-6700)

(

1


(105041-7020)

(

1

In ectron rpe (d/D x l/l?x length) Test oil

8~2.4~1400

mm

ASTM 0975

Oil temperature

“C

40 to 45


kg/cm2

265


kg/cm2

1.6

ipecifications

Calibration basic point

Basis

Allowance


900

34.0


f 1.02

[ 6.51

325

3.5

* 3.35 to 3.65

k-o.525

8 B to E are the reference volume when C adjustingthe injection volume. D Marks * are averE age volumes. performance

Injection volumekx/ for service standard

Basis

-

900

rpm)


Allowance

* *

*

(325

St)

Each cyl.

A L15.81

1 Rack positions

;overnor


Injection volume kc/ 1OOst) for manufacturer standard

1 : Referencedata Rack Pump osition speed (rpm) Pmm)

1

508/l

Rated horsepower: HP/rpm

120

Conditions

1I

for engine with fan (reference only)

*

*

*

* Boost compensator

performance

(400

rpm)

Rack Ihrn,! K.l++=mm W 117.6,

,

y 115.81

L_____

y’+

B m

-$y.,

-

F_ .E 6 E z a

E E I % 1

‘: I?

Line

@

At boost pressure 450 mmHg or nwre

Line

@

At boost pressure 0 mmHg

z 5

(17.6)

s ‘Z ‘2 (15.4) Y B cc 0

(150)

350 2 50


SEBH452’

’2-:28

Pump Assembly 6162-73-2 6162-73-2

Number Applicable

111 (106682-4355) 141 (106682-4422)


Model

part No.

Serial

D375A-2

16001

Timing

Rotating

direction

Injection

order

Injection

interval

No.

viewed

from

l-5-3-6-2-4 60° f

ore-stroke

Calibration

13551

No. and up

Engine Specification Counterclockwise drive end

Rated horsepower

HP/rpm

525/l

800

Maximum

kgm/rpm

267/l

300

torque

High idling


SA6D170-B-1

Serial

spec.)

’

I

3.2 + 0.05

mm/ mm3/st

rpm

1960

to 2040

30’ Low idlina

Plunaer

Engine

Model

and up

(S.T.D and Cold weather

Injection

Applicable

Machine

rom

I 1

I

I

I


120

I

600 to 700

I

Motor

7.5 KW

I

Standard

erwce standard Indicates data using calibration test parts. Manufacture standard is data for factory test.

Rack positions B to E are the reference volume when adjusting the injection volume. Marks t are average volumes.

Governor performance Rack

(325

I imi

-

900

rpm)

Boost compensator

performance

(500

rpm)

43 ‘mm

t: 18.

t

compensator

stroke

16.4.

0

Boost pressure

325

720’60 Pump speed (rpm)

3Oa50

7090

(mmHg)

900::: TKE00129

SEBH4774-01 12-028-

0

1

Pump Assembly 6162-73-2 6162-73-2

Number

I

112 (106682-4800) 142 (106682-4820)


Applicable

I

Machine

Model

Serial

No.

Enaine

Model

Serial

No.

I

I

Dart No.

Apolicable

D375A-2

SAGD170-B-I

15524 and up

(S.T.D)

Injection

Timing

Engine Specification Rated horsepower Maximum

(kw(HP)/rpm)


I


Calibration


Service standard

Conditions Nozzle part no.


Nozzle holder

part no.

Injection pipe (O/D X I/D X length)

* Manufacture

(mm)

for factory test Darts.

Nozzle opening Transfer

6162-13-3720

(105015-6700)

(105780

- 2090)

6162-13-3711

(105041-7100)

pressure

pump pressure

Rack point

D975 No.2 diesel

(MPa(kg/cm’))

17.2 (175) 157 11.6)

(mm)

fuel or equivalent

40-45

(KPafkaicm’))

Rack position

* Rack positions B to E are the ref-

8 X 2.4 X 1,450

(“C)

volume

Service standard

Pump speed

26.0 (265) 157

(cc/lOOst)

Manufacturer

fl 61

standard

Max_imum

Basis

(v-n)

Allowance

~~$~$

erence volume

Basic point

15.2

900

APP~o~.6.6

325

I

Each cyl.

B

mMarks

* are average volumes.

Allowance

3.5

*

verformance(325-900rum) Rack limit:

Each cyl.

*

conpensatar

PerformancefSOOrPm)

18. d't'mm compensator

stroke

16. 4

13. 9 I

Boost

Pressure

(mmHo) TKE00132

0

\ \\\I\ 4lOUO 45om 325

HBO=o 1OOO~‘o 720’6~ 9 0 0:::

Pump speed (rpm) TKE00130

12-028-2

0

between cylinder

f 1.173

* 0.489

*

Boost

rBoost

i variance

*

*

D

18. I4

34.9

*

C

(cc/lOOst) Maximum

Basis

cylinder

when adjusting the injection volume.

Governor

- 0050)

ASTM

Oil temperature


(105780

8X4X1,000

Test oil

is data

standard

7.5 KW

Standard

- Service standard

Injection

Motor:

I

Pump Assembly Number 6162-73-2120 (106682-4380)

Applicable

Injection Timing

order

Injection

interval

Plunger prestroke

Aoolicable

Enaine


Rotating direction Injection

Machine

Counterclockwise


~~

l-5-3-6-2-4 60” f 30’ mm

3.2 + 0.05

Delivery valve -retraction volume mm3/st


120

7.5 KW

Motor


Service standard


standard

Nozzle part no.

(105780-0050)

6162- 13-3720

(105015-6700)


(105780-2090)

6162-13-3710

(105041-7060)

Injection ipe (O/D x l/g x length)

8 x 2.4 x 1450

8x3~600

mm

ASTM

Test oil

Oil temperature


“C

43 to 47


175

265

Transfer pump pressure kg/cm2

1.6

1.6

Injection volume

Rack position (mm)

Rack point

Rack positions B to E are the reference volume when adjusting the injection volume. Marks l are average volumes.

Manufacturer

Basic

.


point B

Pump speed (rpm)

12.2

1050

APPJ~.

425

Service standard

(cc/ 100 St)

Manufacturer

standard (cc/ 100 st Maximum

Maximum

32 52

.

2.32

ye:::“, cylinder

Allowance

Basis

Basis

Each cyl.

Each cyl. 32.32 to 32.72

‘“.g756

33.55

*

kO.348

3.0

2.12 to 2.52

*

C

*

*

D

*

*

E

*

*

( 425 - 1050 rpm)


Allowance

Boost compensator performance

( 700rpm)

Boostcompensatwstroke 0.9kO.l 13.4 12.2

-G r

6.3

d e z 5 z t $

z L 5 ‘G ‘L : Y P a:

Ormore 6.3

5 0 ‘; 8 m

4.8

0

(300)*25 \ 530*25 425

12.2

11.3

0

60125

Approx.200


12OOi25 (1100)

Pump speed (rpm)

SEBH4695

12-029 0

1

Pump Assembly

Number

6162-73-2 130 (1066824430) 6162-73-2131 (1066824431) 6162-73-2 132 (106682-4560) 6162-73-2133 (1066824810) ( 1: Manufacture’s part No.

Applicable Model

Machine Serial

Applicable No.

Model

Pc1000-1

Injection

Timing

Rotating

direction

Injection

order

1Injection

interval

Plunger

pre-stroke

Serial

SA6D170-B-1

No.

11763 and up

Engine Specification Counterclockwise from

viewed

Rated horsepower

drive end

l-5-3-6-2-4

(mm)

Maximum

60° 2 30’

1 1High

3.2 + 0.05

Low

Delivery valve retraction volume (mm3jst)

Calibration

Engine

(kw(HP)/rpm)

(542)/l ,700


idling

(rpm)

idling

(260)/1,300 I

- 1,900

650 - 700

(rpm)


120

1,800

Motor:

7.5 KW

Standard

erwce standard indicates data using calibration test parts. Manufacture standard is data test parts.

Rack positions B to E are the reference volume when adjusting the

Governor

perfomance

(335 - 850 rpm)

Boost compensator

z .E .-s .= : 0. Y 0 cz

perfomance

(500 rpm)

16.3

13.8

0

7oC20

300*50


he

300

81OQ5

850;;;

Pump speed (rpm)

12-030 0

@

Li”e@

: At boost pressure 300 mmHg Or more : Atb spress”reOmmHg

00

SEBH4694-01

Pump Assembly

Number

6162-73-2420

Applicable

(106682-4661)

1

Model (

): Manufacturer’s

lniection

I

direction

Injection

order

Injection

interval

Calibration


I

No.

Model

Engine

1

Serial

No.

SAGD170-1-B-1

Engine

Specification

I

l-5-3-6-2-4 60° f

pre-stroke


Serial

EPSAGD170-B-1

Timina

Rotating

1 Plunger

part No.

Applicable

Machine

30’

3.2 f 0.05

mm1

120

mm3/st

I


Motor 7.5 KW

Standard

standard indicates data using calibration test parts. Manufacture standard is data for factory test. Service

Rack positions B to E are the reference volume when adjusting the injection volume. Marks * are average volumes.


385

(415

-

900

rpm)

Boost compensator

performance

(700 rpm)

900;:: Pump speed (rpm)

12-030-l 0

I


Number

Applicable

1 (106682-4840)

Serial

Model


Applicable

Machine No.

Rotating

direction

Injection

order

Counterclockwise from

drive

SA6D170-I-B-I

1 Rated horsepower 1Maximum

I I High

60’ t 30’

Plunger pre-stroke

Calibration

viewed end

I-5-3-6-2-4

interval


No.

Enaine Soecification

Timina

I Injection

Serial

Model

part No. EPSAGD170-B-1

lniection .

Engine

(mm)

3.2 5 0.05


idling

(rpm)

Low idling

(rpm)

(540)/1,800

1

(251 VI ,300

I

1,950 - 2,050


120

(mm”st)

(kw(HP)/rpm)I

I

I I

750 - 850 Motor:

7.5 KW

Standard Service

Conditions

standard

Manufacturer

standard


Rack positions B to E are the reference volume when adjusting the injection volume. Marks t are average volumes. Governor

D

/

/ /

(16.2)

E

perfomance

750 650

(415 - 900 rpm)

18’: Governor Idling ED

a 16.2 ..S .-z

s~lina set sub s~lina

set

A

.z _ 2

6.5 6. 3

0

900:::


12-030-2 0

97w

415

TKE00131

j 1

* *

1(36.0) 1* 1(36.6) 1t

35.5 - 36.5 36.1 -37.1

/ )

-

Injection

Pump Assembly

6162-73-1711

6162-73-1760

Applicable

(106692-4650)

( 1: Injection

Pump

Injection

Model

Manufacture’s

part No.

direction

Injection

order

Injection

interval prestroke

Machine Serial

Applicable No.

SA6D170-B-1

EPSAGD170-B-1 (Extreme cold weather)

SA6D170-B-1


Counterclockwise

viewed

Engine Serial

Model

EPSAGD170-B-1

Pump Specification

Rotating

Plunger

Number

(106692-4382)

(Without

No.

fan)

from

drive end

l-5-3-6-2-4 59’ 30’ - 60” 30’

High idling

speed

(rpm)

2.35 - 2.45

Low idling

speed

(rpm)

(mm)

I

Max.

I

2,030

600 - 1,000

I

Delivery valve retraction volume (mm”‘st)

Calibration

Pump

90

tester

for Service

capacity

standard

Motor:

7.5 kW

Standard

Service standard indicates data using calibration test parts.

Manufacture standard is data test parts.


16.2

C

750

425 - 435

-

D E

Governor

perfomance

curve Rack limit

:

(16.

7) '~'mm

1 (15. 2) (9. 8)

E E .!

(6. 8)

‘, 2

6.3

I0

400 / (870) +30\990+25 900::: 75O’P Pump speed (rpm)

L-

TWE00630

12-030-3 0

Injection

Pump Assembly

6162-73-1743

Number

Applicable

(106692-9070)

Machine

Model Pump

( ): Injection

Manufacture’s

part No.

Serial

Applicable No.

OEM for

Engine

Model

Serial

1 No.

SA6D170-B-1

generator

11

Injection

Pump Specification

Rotating

direction

Injection

order

1Injection

interval

1Plunger

prestroke



viewed

from

l-5-3-6-2-4 59’ 30’ - 60” 30’ (mm)

1

2.35 ; 2.45

---I I

I

Standard

data

standard

is data

(50 Hz) (60 Hz)

I

I


(

fan) 425 {570}/1,500 506 {6781/1,800

torque (Nm{kgmI/rpm)

) : lnjenction

pump

erwce standard indicates

(Without

horsepower (kW{HPYrpm)

a::“: Maximum

Delivery valve retraction volume (mmyst) I

Calibration

Flywheel

. Rack positions B to E are the refernce volume when adjusting the injection volume. Marks * are

l


spring

set:

manufacture’s

I

Motor:

part number

7.5 kW

Injection Pump Assembly Number 6162-73-1941 (1066824890)

Applicable Machine Model

( 1:Injection Pump Manufacture’s part No. Injection Pump Type

Injection

Serial No.

OEM for generator

Pump

Serial No.

Model SA6D170-B-1

Manufactuer

I

I

ZEXEL

PE-P (S7S)


Applicable Engine

(kW{HP}/rpm)

(50 Hz) (60 Hz)

Maximum torque (Nm{kgml/rpm)


(

) : lnienction

I

Conditions Nozzle & Nozzle holder Dart No. holder

part


Servicestandard

1

No.

6162-13-7300

(1051114431)

(105780-0050)

6162-13-7520

(105015-8790)

(105780-2090)

6162-13-3111

(105041-7110)

Injection pipe (Outside dia.x Inside dia.x Length 1(mm)

8 X 4 X 1,000

Test oil

ASTM

Oil temperature

part number

Manufacturerstandard

1

(105780-8130)

Nozzle part No. Nozzle

386 {517)/1,500 458 I613Yl.800

Flywheel horsepower

‘~~~ Service standard indicates data using calibration test parts. Manufacture standard is data for factory test parts.

I



direction

I

(“C)

8 X 2.4 X 1,400

D975 No.2 diesel fuel

or equivalent

40-45

Rack positions B to E are the refernce volume when adjusting the injection volume.

Marks * are average volumes.

Governor perfomancecurve ck

limit:

18’:‘mm Idle

-

:

spring

is

17. 5 15.1 14.9

sprint

set:

z z.: _= t

7.0 6.4 6.1

0

,400

750f5

460f5 Pump speed

\ 1000*5 900f5 (r Pm)

TWE00632

12-030-5 0


Applicable

(1066824891)

Machine

Model

( 1: Injection Pump Manufacture’s

part No.

Serial

direction

I Injection

order

Injection

interval

Engine

Model

Serial No.

SA6D170-B-1



Flywheel horsepower

386 {517)/1,500 458 {6131/1.800

(kW{HPVrpm)

l-5-3-6-2-4

(50 Hz) (60 Hz)


59” 30’ - 60” 30’


2.95 - 3.05 I

I

Delivery valve retraction volume (mm3bt)

120

I

I



Service standard indicates data using calibration Manufacture standard is data



et when supplied

(800) Pump speed (r pm)

12-030-6 0

No.

OEM for generator


Applicable

TWE00633

Motor:

7.5 kW


Applicable

(106682-9130)

Machine

Model


part No.

Applicable

Serial

No.

Engine

Model

D375 (BEML)

I

Serial No.

SA6D170-B-1

/

lniection Pump. Specification _ Rotating

direction

Injection

order

Injection

interval

Ennine Specification (Without fan)


Flywheel


59’ 30’ - 60” 30’ 3.15 - 3.25 I

I

Delivery valve retraction volume (mm3/st)J

High idling

speed

(rpm)

Low idling

speed

(rpm)

I

(

(Conditions

) : lnjenction

{248/1,300}

1,960 - 2,040 600 - 650 I

I

Motor:


Service standard

indicates data using calibration test parts. Manufacture standard is data for factory test parts.

{509/1,800}

3,432/1,300

Pump tester capacity fnr Service ntnnriard

120


Service standard

380/1,800

(kW{HPYrpm)

1-5-3-6-2-4


horsepower

7.5 kW


standard


(105780-8130)

6162-14-3700

Nozzle part No.

(105780-0050)

6162-13-3320

(105015-8600)


(105780-2090)

6162-13-3712

(105041-7101)

Injection pipe (Outside dia.x Inside dia.x Length ) ‘mm)

8 X 4 X 1,000

Test oil

ASTM

Oil temperature

8X2.4X1.450

D975 No.2 diesel fuel or equivalent 40-45

(‘C)

Nozzle opening pressure (MPa{kg/cm’])

17.2 {1751

Injection


I

(105111-4441)

26.0 {2651

volume

Injection

volume

ernce volume when adjusting the injection volume. Marks * are average volumes.

Governor

1 a’:

perfomance

curve

Boost compensator

: 17.

Rack I imit

performance

curve

2’oD”mm

Boost compensator stroke ~2. 520.

I

1 mm

1 15. 5

4. 0

9. 3

+5mm’/s

t

:

I I. 5

Dz

1; 0

KR;

Boost

41Oi20

QdO::: (72d) i50 Pump speed (rpm)

9. 3f2. 7 (701t20)

pressure

40. 0*6. 7 ~300+501

(kPa{mmHel

1

TWE00634

L

12-030-7 0

Injection

Pump Assembly

Number

I

6162-73-2173 (1066824830)

Applicable

Machine Serial No.

Model


Injection

part No.

Rotating

direction

Injection

order

Injection

interval

2.95 - 3.05 1 1 Pump tester capacity fnr

Standard

l

1 Nozzle & Nozzle holder oart NO.

I

C+lnrl3rA


Service standard

Motor:

7.5 kW

oart number

(105780-8130)

6162-13-3201

(105780-0050)

6162-13-3220 (105015-5500)


(105780-2090)

6162-13-3111

Injection (Outside

pipe

dia.x Inside dim

Length

8 X 4 X 1,000

) (mm)

temoerature

(“C)

40-45 17.2 {175}

Transfer pump pressure (kPa{kg/cm*))

157 Il.61

Rack point

Rack position (mm)

bRack

positions B to E are the refernce volume AlBasic point) 16.0 when adjusting the 15.2 B injection volume. Marks * are C Approx. 9.3

D

Service

Pump speed Wpm)

limit:

volume

400

35-45

set:

3. 6fO. 3 750f5 TWE00636

st)

Maximum $$g$ cylinder

365 - 375

Z ..Z _

(r Pm)

Injection

standard (cc/l,000

380 - 390

spring

speed

Maximum g$$z

Manufacturer

750

E Min. 7. 9 E _ 6.4 Z 6. 2

500

157 Il.61 ,000 s-t)

900

19. l’t’mm

1;. ! 15: 2

25.0 1255)

cylinder

1’

ck

standard (cc/l

Injection volume


PUIIIP

(105041-7110)

8X2.4X1,450

I

Nozzle opening pressure (MPa{kg/cm%

18:’

f105111-4051)

ASTM D975 No.2 diesel fuel or equivalent

Test oil

I Oil

I


Nozzle part No.

Injection volume

12-030-8 0

Cnnrim

1: lnienction

Conditions

average volumes.

fan) 378 {5061/1,500 (50 Hz) 403 {539Vl,800 (60 Hz)

59’ 30’ - 60” 30’

valve retraction volume (mm’/st)l

Service standard indicates data using calibration test parts. Manufacture standard is data for factory test parts.

No.

Maximum torque (NmIkgmI/rpm)

veIlvery

Calibration

(Without


l-5-3-6-2-4


I

Serial

SA6D170-B-1



Engine

Model

OEM for generator

Pump Specification

Applicable

I

Max. 23.1 -

Max. 12


1

Model ( ): Injection


part No.

direction

Injection

order

Injection

interval

59’ 30’ - 60’ 30’


280/1,000

{375/1,000}

fl

2.75 - 2.85 I

(mm’/st)

I

I


120

f

ionditions

Manufacture standard is data

Serial No.




Flywheel horsepower (kW{HPMrpm)

l-5-3-6-2-4

I

Service standard

I

Model SA6D170-B-1




Serial No.

OEM for 6-pole


Applicable Engine

Applicable Machine

(106682-9350)

I

) : lnienction


Servicestandard

7.5 kW

Motor:

oart number

Manufacturerstandard


(105780-8130)

6162-14-3300

(105111-46601

Nozzle part No.

(105780-0050)

6162-14-3320

(105025-0910)


(105780-2090)

6162-13-3711

(105041-7101)

Injection pipe (Outside

dia.x Inside dia.x Length

) (mm)

ASTM

Test oil Oil temoerature

1Transfer pump pressure

40-45

(kPa{kg/cm*H1

njection volume

Rack positions


(‘C)

Nozzle opening pressure &lPa{kg/cm%~

Rack point

8 X 2.4 X 1,400

8X4X1.000

Rack position

Pump speed

(mm)

(rpm)

B to E are the ref14.8 ernce volume AtBasicpoint) when adjusting the B 15.5 injection volume. . Marks * are C Approx. 6.8 average volumes. D

17.2 {175}

26.0 f2651

157 Il.61

157 U.61

Service standard (cc/l,000 st)

Manufacturer standard (cc/1,000 st]

Maximum

Injection volume

vba,EEkE

Mqimum

Injection volume

cylinder

500 600 400

508 - 513 538 - 548 II-14

Max. 18.7 Max. 7.5

g”,zg!z cylinder

419

-

448

-

25

-

E


Rack limit

0

400

is not actuated

500f5

\ 6001t5 520f5 Boost speed (rPm)

TWE00637

1Z-030-9 0


Applicable

(103684-0361)

Model


part No.

direction

Injection

order

Injection

interval

Plunger prestroke (mm) Delivery valve retraction volume (mmyst)


t Service

standard indicates data using calibration test parts. Manufacture standard is data test parts.

Rack positions

B to E are the refernce volume when adjusting the injection volume. Marks * are average volumes.

12-030- 10 0

Serial

Applicable No.

OEM for generator (50 Hz)


Machine

Engine

Model

Serial

No.

SAAGD170-1


Counterclockwise viewed from drive end l-5-3-6-2-4

Flywheel horsepower (kW{HWrpm)

597/1,500

Maximum torque (Nm{kgm}/rpm)

59” 30’ - 60” 30’

High idling

3.55 - 3.65

Low idling

speed speed

(rpm)

Max. 1,575

(rpm)

700 - 900


180

(

1 : lnjenction

{800/1,500} -


Motor:

part number

7.5 kW

TESTING Injection

AND ADJUSTING Pump Assembly

CALIBRATION Number

Applicable

6162-74-1310 (103662-3350) (With electronic governor)

( 1:Injection

Pump

Machine

Model

Manufacture’s

part No.

Applicable

Serial

No.

Engine Serial

Model

DENY0 generator

DATA

No.

SA6D170-AE-1

DCAGOOSSK

)

Injection

Pump Specification

Rotating

direction

Injection

order

Injection

interval

1Plunger



Flywheel

Maximum

(rpm)

3.15 - 3.25

Low idling

speed

(rpm)

indicates data using calibration test parts. . Manufacture standard is data for factory test parts.

( I

Nozzle & Nozzle hn1d-r rdart No. ..v...v,

Nozzle part No. Nozzle holder

manufacture’s

1

1 I

1 I

pressure

(MPa{kg/cm)) (kPa{kg/cm’})

Rack position

Rack voltage

Pump speed

(mm)

w

Irpm)

13.2

1.36

865

5.9

2.8

400

7.5 kW

part number

Manufacturer standard 6162-14-7600

(105111-4820)

6162-14-7620

(105025-1850)

5212-13-3111

(105041-7111)

8 X 2.4 X 1,450 D975 No.2 diesel

fuel or equivalent

40-45

(‘C)

pump pressure

1,880 (60 Hz)

700 - 900

) (mm)

njection volume Rack positions B to E are the refernce volume when adjusting Rated tttt:;eyfion point

pump

Service standard

ASTM

tiozzle opening L

1: lnjenction

Test oil

Transfer

Max.

Motor:

part No.

Injection pipe (Outside dia.x Inside dia.x Length

Oil temperature

Max. 1,570 (50 Hz)


Standard

iGross.50Hz) (Gross,GOHz)

-

torque (Nm{kgm}/rpm) speed

90

fan)

478 {641)/1,500 528 {708M1,800

(kW{HP)/rpm)

High idling

(mm)

(Conditions . Service standard

(Without

horsepower

59’ 30’ - 60’ 30’

Delivery valve retraction volume (mm31st)

Marks * are average volumes.

from

1-5-3-6-2-4

prestroke

Calibration

viewed

29.4 13001 157 {I .60} Service standard

(cc/l,000

st)

Manufacturer

standard (cc/l,000

Max.imum

Injection

volume

Ezz,“,“z cylinder

st

Maximurr

Injection

volume

~~~~~~ cylinder

* 543 t 5

Max. 44

Low idling point

*30*5

Max. 8

perfomance curve (Not specified)

Governor

12-30-11 @

Injection

Pump Assembly

6162-73-2174 6162-73-2175

( ): Injection

Number

Applicable

(106682-4990) (106682-4991) Pump

Injection

part No.

direction

Injection

order

firestroke

I

Engine Serial

Model

(Without


viewed from

1Maximum

I

fan1

-

torque (NmIkgmMrpm)I

I

59” 30’ - 60” 30’

I High idling

speed

(rpm)

Max. 1,570 (50 Hz) Max. 1,880 (60 Hz)

2.95 - 3.05

I Low idling

speed

(rpm)

700 - 900

(mm) (


120

Standard

(

) : lnjenction

pump

Motor:

manufacture’s

7.5 kW

part number

test parts.

Rack positions

curve

perfomance

urnmaximum

speed

control

Rack

iimit:l9.

spec. I-19.

3

(mm) All

Idling

sub

spring

Q=67-77 (mm3/s

Pump

12-30-12 G9

745-755

500 speed

(rpm)

speed

idl

ina

set

set t)

0 Approx.

No.

378 {506)/l ,500 (Net) 403 {5391/l ,800 (Net)


Governor

DATA

SA6D170-B-1


l-5-3-6-2-4


Calibration

No.



interval

Applicable

Machine Serial

Model

Manufacture’s

Pump Specification

Rotating

Injection

CALIBRATION

AND ADJUSTING

TESTING

400 Pump

speed

from) TWE00729

TESTING

AND ADJUSTING

Injection

Pump Assembly

6162-73-2180

CALIBRATION Number

ApDiicable

(I 06682-4900)

6162-73-2181

(106682-9000)

( ): Injection

Pump

Serial

Model

Manufacture’s

part No.

I

Machine No.

EG500-l,EG500B-1

Aoolicable

Enaine

Model

I

DATA

Serial

No.

SAGD170-B-I

EG500BS-1 OEM for generator

Injection

Pump Specification

Rotating

direction

Injection

order

Injection

interval

Plunger prestroke


Counterclockwise drive end l-5-3-6-2-4

(mm)

(Without

Flywheel horsepower (kWfHP)/rpm) Maximum

fan) 385 {5241/l ,500 (50 Hz) 458 I611~/1,800 (60 Hz) -

torque (Nm{kgm}/rpm)

59” 30’ - 60” 30’

High idling

speed

(rpm)

Max. 1,560 (50 Hz) Max. 1,870 (60 Hz)

2.95 - 3.05

Low idling

speed

(rpm)

800

Delivery valve retraction volume (mm3’st)

Calibration

viewed from


120

Standard

(

) : lnienction

oumo

manufacture’s

Motor:

7.5 kW

Dart number

* Service standard indicates data using calibration test parts. 5Manufacture standard is data test parts.


Governor pet-fomance curve

: -

2 .-.2 a

19.7

17.6 17.4 9.3

400

750 900

Pumpspeed [r pm) TWE00730

12-30- 13 @

TESTING

AND

Injection

CALIBRATION

ADJUSTING

Pump Assembly

6162-73-2340 6162-73-2341

( ): Injection

Pump

Injection

Number

Applicable

(106682-9220) (106682-9221) part No.

OEM for generator (Standby

direction

Injection

order

Injection

interval

Plunger

prestroke

No.


(Without

Flywheel horsepower (kW{HP)/rpm)

viewed from

Maximum

2.75 - 2.85

Low idling

speed

Calibration

speed

(

1: lnjenction

pump

test parts.

In.ection volume

perfomance

curve

Rack

I imit : 16. 5-l 5. 7 (mm)

Idlina sub sbrinu set Q=55-65 (mm’/s t .I

Idline sub spring set Q=65-75 (mm3/st.)

0

745-755

Min. 900

Pump speed (rum) TWE00731

12-30-14 60

700 - 900 I


Governor

Max. 1,575 (50 Hz) Max. 1,890 (60 Hz)

(rpm)


Standard

fan)

-

(rpm)

I

120

No.

468 {636}/1,500 (50 Hz) 557 {7571/1,800 (60 Hz)

torque (Nm{kgmYrpm)

High idling

59’ 30’ - 60” 30’


Serial

Model

use)

l-5-3-6-2-4

(mm)

Engine

SA6D170-B-1


Pump Specification

Rotating

Serial

Model

Manufacture’s

Applicable

Machine

DATA

manufacture’s

I

Motor:

part number

7.5 kW

TESTING

CALIBRATION

AND ADJUSTING

Injection

Pump Assembly

6162-73-2381

Number

Applicable

(106682-9351)

Serial

Model

( ): injection

Pump

lniection

Manufacture’s

part No.

direction

Injection

order

Injection

interval

Plunger

prestroke

l-5-3-6-2-4

Maximum

17441 and up

fan)

torque (NmIkgmVrpm)

2.75 - 2.85

(mm)


Standard

Service standard

indicates data using calibration test parts. Manufacture standard is data for factory test parts.

(

) : lnjenction

I

Service

manufacture’s

standard

7.5 kW


standard

(105780-8130)

6162-14-3300

(105111-4660)

Nozzle part No.

(I 05780-0050)

6162-14-3320

(105025-0910)


(I 05780-2090)

6162-13-3711

(105041-7101)

Injection (Outside

pipe

diax

Inside

dia.x Length

ASTM

Oil temperature

40-45

pump pressure (kPaikg/cm?)

Rack point Rack positions B to E are the ref-

Pump

Rack position

speed

(mm)

(mm)

14.8

A(Basicpoint)


(“C)

volume

when adjusting the injection volume. Marks * are average volumes.

8 X 2.4 X 1,400

8X4X1,000

) (mm)

Test oil

1Transfer

ernce volume

pump

Motor:


Nozzle opening pressure (MPaIkg/cm%

17.2 {I751

26.0 {265}

157 {I .6}

157 {I .S}

Service standard

Injection volume

500

498 - 508 538 - 548

B

15.5

600

C

Approx. 6.8

400

II-14

(cc/l,000

st)


Max. 18.7 Max. 7.5

Manufacturer

standard (cc/1,000 st) Maximum

Injection volume

~~!r~J~ cylinder

419

-

448

-

25

-

D

perfomance

curve

Rack

0

(Without

No.

59’ 30’ - 60’ 30’

Ctonditions

Governor

Serial

Model

viewed from

I

njection

Engine

SA6D170-B-1



Delivery valve retraction volume (mm’/st) I

Calibration

No.

OEM for B-pole generator

Pump. Specification .

Rotating

Applicable

Machine

DATA

limit

400

Boost

is

not

actuated

500f5

\ 520f5

speed

(rpm)

600f5 TWE00637

12-30-15 @

COOLING

SYSTEM

FAN BELT TENSION 4 2 1. Adjustment nut 2. Washer 3. Tension spring 4.

Adjutment bolt

5. Tension pulley A. Protrusion of adjustment bolt

For D275A-2

I

6162F291

2 z z

Unit: Engine

model

Applicable machine

;6D170-1

4

SA6D170-A-1

1

mm

Dimension A

Q area

HD465-3

1

58f5

12-031 69

REPLACING

l

FAN BELT AND

AQJUSTING

AUTO TENSIONER

Replacing Loosen

locknut

(1) and turn back adjustment

(2) as far as bracket Insert

a bar with

hole (418)

screw

(3).

a length

in bracket

of approx.

(7). then

50 cm in the

pull strongly

4

to the

front and hold in position. The spring

will

extend

and the tension

pulley

will

move to the inside. Remove the old belts and replace it with new bolts. *

Replace

the V-belts

in a set (3 belts).

6162F1014

l

1.

Adjusting Tighten

adjustment

adjustment tension

screw

pulley

(2) a further

screw (2)

(2), and when

comes

lever (4). tighten

half turn,

then

into

the tip of

contact

adjustment

lock it in position

with screw with

locknut (1). w *

Locknut

If a gap appears the

+ 2 kgm

between

tip of adjustment

adjust *

: 29.5

tension screw

pulley

(2) during

lever (4) and operation,

in the same way.

If the fan

belt screeches,

adjust

in the

same

way. 6162F668

12-032 0


PERFORMANCE TEST

PERFORMANCE TEST RUN-IN STANDARD

T

Item

1

2

3

4

5

6

Running time

3

6

3

3

10

Min. 5

Engine speed

300 - 66C

1,000

1,200

1,200

1,500

1,800

716 mm

0

392 {401

883 {901

1,373 {I401

2,059 12101

2,452 {2501

895 mm

0

314 I321

706 (721

1,098 {I121

1,648 {I681

1,961 {200>

1,023 mm

0

275 {281

618 {63}

961 1981

1,442 11471

1,716 I1751

Flywheel Horsepower

0

29.4 139.4)

79.4 1106.51

123.5 U65.61

231.7 1310.6)

331 1443.7)

Running time

3

6

3

3

10

Min. 5

Engine speed

550 - 700

1,000

1,200

1,200

1,500

1,600

716 mm

0

392 I401

883 I901

1,373 {I401

2,059 f2101

2,648 (2701

895 mm

0

314 1321

706 I721

1,098 {I121

X2??

2,118 f2161

1,023 mm

0

275 1281

618 1631

961 1981

1,442 {I471

1,853 11891

0

29.4 f39.4)

79.4 I106.5)

123.5 U65.61

231.7 1310.61

317.8 f426.0)

3

6

3

3

10

Min. 5

i50 - 700

1,000

1,200

1,200

1,500

2,000

716 mm

0

392 1401

883 I90)

1,373 {I401

2,059 I2101

2,157 I2201

895 mm

0

314 I321

706 {72)

1,098 {I121

1,648 11681

1,726 {176)

1,023 mm

0

275 {28)

618 I631

961 {981

1,442 I1471

1,510 1154)

Flywheel Horsepower

0

29.4 I39.4)

79.4 1106.5)

231.7 1310.61

323.6 t433.8)

Running time

3

6

3

3

10

Min. 5

5ngine speed

;50 - 700

1,000

1,300

1,600

1,800

2,000

716 mm

0

265 I271

530 154)

814 I831

1,157 {I181

2,403 f2451

895 mm

0

216 (221

422 I431

647 {661

922 1941

1,922 U96)

1,023 mm

0

186 U9)

373 I381

569 158)

814 1831

1.677 I1711

‘lywheel Horsepower

0

19.8 126.6)

51.5 {69)

97.8 I131.1)

155.9 {209.0)

433.9 I581.7)

Iunning

5

15

5

5

20

10

00 - 850

1,000

1,200

1,200

1,500

1,500

490 150)

981 {loo)

2,059 I2101

3,138 13201

4,219 1430)

Load D275A-2

Load PC650-1 PC1 500-I

Flywheel Horsepower

Running time Engine speed Load S6D170-1

WA600-1

_oad ND600-1

time

ingine speed .oad iG550-1

716 mm

min.

123.5 U65.6)

895 mm

-

-

-

-

-

1,023 mm

-

-

-

-

-

36.6 I491

88.0 Ill81

:lywheel Horsepower * *

Order

185 12481

352.9 14731

474.5 I6361

The values given for the output is the fan removed. _ The load (dynamometer) is given for the case of the arm length is 716 mm, 895 mm or 1,023 mm.

12-033 0

TESTING

Engine model

PERFORMANCE

AND ADJUSTING

The table gives the standard

*

The load for the dynamometer

values for machines

without

fan.

are at an arm’s length of 716 mm.

Order

,pplicable machine

PS6D170-1

t

TEST

Item 1

2

3

4

5

6

Running time

3

6

3

3

10

5

Engine speed

800

1,000

1,200

1,200

1,500

1,800

Load

0

392 {401

883 I901

1,373 11401

2,059 {2101

2,942 13001

Flywheel Horsepower

0

29.4 I39.41

79.4 1106.51

123.6 1165.61

231.8 l310.6)

397.4 1532.4)

Running time

3

6

3

3

10

Min. 5

1,500

1,800

S6D170-1

‘50 - 800

1,000

1,200

1,200

Load

0

392 I401

883 I901

1,373 I1401

2,059 {2101

3,040 {3101

Flywheel Horsepower

0

29.4 139.4)

79.5 I106.5)

123.6 i165.61

231.8 1310.61

410.7 t550.21

Engine speed ‘EM for enerator

Running time Engine speed Load Flywheel Horsepower




12-034 0

PERFORMANCE TEST


*

The values given for the output is the fan removed.

t

The load (dynamometer)

*I

: Mechanical

l-

Engine model

governor

item

Running time Engine speed iD465-5 Both nechanical Jectronic rovernor)

Load

3

4

5

6

3

6

3

3

10

5

1,000

1,200

1,200

1,500

2,100

392 {401

883 $01

1,373 U401

2,511 {2561

3,452 I3521

25 -950 *1 20 - 970 *i

716 mm

0

895 mm

-

-

-

-

-

-

1,023 mm

-

-

-

-

-

-

29.4 l39.4)

79.5 UO6.5)

123.6 {I 65.6)

282.6 C378.61

544.1 1728.9)

Running time

5

15

5

5

20

10

Engine speed

700

1,000

1,200

1,600

1800

2,000 3,383 13451

$zl

883 (901

1,667 I1701

2,452 {2501

0

353 I36}

706 I721

1,334 I1361

1,961 I2001

2,707 I2761

0

309 131.51

618 f631

1,167 {I191

1,716 I1751

2,368 I241.5)

Flywheel Horsepower

0

33.1 @I441

79.5 UO6.5)

200.2 1268.21

331.2 I443.71

507.8 t680.31

Running time

5

15

5

5

20

10

Engine speed

‘00 - 900

1,000

1,200

1,200

1,500

1,500

1,961 (2001

3,046 (3101

3,432 {3501

716 mm

0

895 mm 1,023 mm

716 mm

0

392 1401

1,177 I1201

895 mm

0

314 {321

932 (951

1,569 I1601

2,432 (2481

2,746 12801

1,023 mm

0

275 (281

824 1841

1,373 (140)

2,128 (1271

2,403 12451

Flywheel Horsepower

0

29.4 139.4)

106.0 (142.0)

176.6 (236.6)

242.2 (458.5)

386.4 (517.7)

Running time

5

15

5

5

20

10

Engine speed

50 - 1,ooc

1,000

1,200

1,200

1,500

1,500

2,354 (2401

3,530 1360)

4,707 I480}

Load

generator

716 mm

0

588 f601

1,177 I1201

895 mm

0

471 I481

941 {961

1,883 11921

2,824 (2881

3,766 1384)

1,023 mm

0

412 {421

824 (841

1,648 (1681

2,471 12521

3,295 13361

Flywheel Horsepower

0

44.1 159.11

105.9 (141.9)

211.8 (283.91

397.2 (532.4)

529.6 i709.91

Running time

5

15

5

5

20

10

Engine speed

800

1,000

1,200

1,600

1,800

2,000

883 {90}

1,765 (1801

3,026 13081

3,060 I3631

Load EG580-BIL

Load EPSAGDlTI( -A-

2

0

VA700-1

SAGDI 70-A-

1

Flywheel Horsepower

Load

iG580-1 iG580B-1 iG600-1 .G600B-1 J;;T&s-l

is given for the case of the arm length is 716 mm, 895 mm or 1,023 mm. *2 : Electronic governor

716 mm

0

z

895 mm

-

-

-

-

-

-

1,023 mm

-

-

-

-

-

-

33.1 (44.4)

79.5 I106.5)

407.7 (546.2)

534.3 t715.8)

Flywheel Horsepower

0

212 12841

l Z-035 0

TESTING

AND ADJUSTING

EM680A-A

H D465-5 (High altitude spec.)

*


*


values for machines

TEST

without

fan.


Order

Applicable machine

EM680A EM680A-1 6M170-B-1

PERFORMANCE

Item

1

2

3

4

5

6

Running time

3

6

3

3

10

Min. 5

Engine speed

550 - 600

1,000

1,200

1,200

1,500

2,000

Load

0

392 I401

883 I901

1,373 U40}

2,579 (2631

3,658 {3731

Flywheel Horsepower

0

29.4 i39.4)

79.5 (106.5)

123.6 U65.61

290.4 I389.0)

549.1 1735.6)

Running time

3

6

3

3

Engine speed

550 - 600

1,000

1,200

1,200

1,500

2,000

Load

0

392 I401

883 (901

1.373 (1401

2,511 (2561

4,187 I427>

Flywheel Horsepower

0

29.4 (39.4)

79.5 (106.51

123.6 (165.61

282.6 (378.61

628.5 (842.01

Running time

5

15

5

5

20

10

Engine speed

1,100

1,100

1,300

1,650

1,900

2,100

0

343 (351

637 (651

1,226 (125)

1,863 (1901

2,452 (2501

2

0

28.3 t38.01

62.2 i83.31

151.8 (203.41

265.7 (355.91

386.4 I517.71

z

Load Flywheel Horsepower

IO

Min. 5

z

SA6D170-A-

OEM for at7yfr=r$r

Running time

5

15

5

5

20

IO

Engine speed

950

1,000

1,200

1,200

1,500

1,500

Load

0

588 160)

1,177 I1201

2,354 (2401

3,530 13601

4,707 (4801

Flywheel Horsepower

0

44.2 (59.21

106.0 (142.0)

212.0 (284.01

397.4 (532.41

529.9 (709.91

Running time

5

15

5

5

20

IO

Engine speed

700 - 900

1,000

1,200

1,200

1,500

1,500

Load

0

490 (50)

981 IlOO}

1,961 I2001

2,942 (3001

3,923 I4001

Flywheel Horsepower

0

29.4 (39.41

106.0 (142.01

176.6 (236.6)

342.2 (458.51

386.4 (517.7)

633 HP)

EG600BS-1 OEM for generator (Engine No. 15503andup

OEM for generator

12-035- 1 0

Running time

3

6

3

3

IO

5

Engine speed

800

1,000

1,200

1,200

1,500

1,800

Load

0

490 1501

981 I1001

1,961 (2001

2,942 I3001

3,923 (4001

Flywheel Horsepower

0

47.8 (64.11

114.8 (153.8)

234.0 I313.5)

441.6 (591.61

529.9 (940.61

TESTING

AND ADJUSTING

T ‘c1ooosP-

3EM for generator Standby .rse 581 kW :778 HP})

PERFORMANCE

Item

*


t


-r

values for machines

TEST

without fan.


Order 1

2

3

4

5

6

Running time

3

6

3

3

10

Min. 5

Engine speed

675

1,000

1,200

1,200

1,500

1,750

Load

0

392 {401

883 {901

1.373 {I401

2,059

WO}

3,472 1354)

Flywheel Horsepower

0

29.4 139.4)

79.5 1106.5)

123.6 1165.6)

231.8 f310.61

456.3 I611.31

Running time

3

6

3

3

10

5

Engine speed

700 - 900

1,000

1,200

1,200

1,500

1,800

Load

0

637 165)

1,275 I1301

2,599 I2661

3,923 (4001

5,198 I5301

Flywheel Horsepower

0

47.8 WI)

114.8 1153.8)

234.0 (313.5)

441.6 (591.61

702.1 (940.6)

Running time

3

9

18

24

6

Engine speed

575

1,260

1,580

1,820

2,000

Load

0

922 I941

1,844 (188)

2,756 I2811

3,677 I3751

Flywheel Horsepower

0

86.8 (116.3)

218.6 (292.8)

376.1 (503.81

552.0 (739.5)

Running time

3

6

3

3

10

Min. 5

Engine speed

850

1,000

1,200

1,200

1,500

2,000

Load

0

392 (401

883 1901

1,373 {I401

2,511 (2661

3,393 I3461

Flywheel Horsepower

0

29.4 (39.4)

79.5 UO6.51

123.6 U65.61

282.4 I378.61

508.8 {682}

SA6D170-A-

3EM for narine

-lD465-3 ,For ORAPI MINE



12-035-2 0

TESTING

AND ADJUSTING

t *

PERFORMANCE

The values given for the output is the fan removed. The load (dynamometer) is given for the case of the arm length is 716 mm, 895 mm or 1,023 mm. Order

Engine model

Item 1

4

5

6

3

6

3

3

10

Min. 5

600 - 700

1,000

1,200

1,200

1,500

1,800

0

392 {401

883 {901

1,373 11401

2,059 {2101

2,942 {3001

314 I321

706 {721

1,098 11121

1,648 I1681

2,354 12401

275 I281 29.4 139.41

618 {631

961 1981

2,059 {2101

79.4 1106.5)

123.5 {I 65.6)

1,442 {I471 231.7 1310.61

397.2 i532.4)

IO

Min. 5

716 mm 895 mm 1,023 mm

Flywheel Horsepower Running time

3

6

3

3

Engine speed

600 - 700

1,000

1,200

1,200

1,500

1,800

716 mm

0

392 1401

785 {801

1,569 I1601

2,354 {240}

3,119 {3181

895 mm

0

314 {321

706 {721

1,255 11281

1,883 Cl921

2,495 i254.41

1,023 mm

0

275 1281

618 I631

1,648 (1681

2,183 1222.6)

0

29.4 t39.41

70.6 194.6)

1,098 Cl121 141.2 i189.3)

264.8 1355.01

421.0 i564.41

Load D375A-2

Flywheel Horsepower Running time

3

6

3

3

10

Engine speed

650 - 700

1,000

1,200

1,200

1,500

Min. 5 1,700

716 mm

0

392 1401

883 1901

1,373 11401

2,059 I2101

3,236 I3301

895 mm

-

-

-

-

-

-

1,023 mm

-

-

-

-

-

-

Load PC1000-l

Flywheel Horsepower

0

29.4 139.4)

79.4 UO6.51

123.5 {I 65.6)

231.7 1310.6)

412.6 1553.11

Running time

5

15

5

5

20

10

Engine speed

850 - 900

1,000

1,300

1,650

1,900

2,100

0

373 I381

735 I751

2,206 I2251

2,942 {3001

298 130.41

588 I601

1,471 {I501 1,177 I1201

1,765 I1801

2,354 {2401

359 I36.6)

515 152.5)

1,030 Cl051

1,545 U57.5)

2,059 {2101

28.0 137.5)

71.6 {961

182.0 {2441

314.4 t421.51

463.4 1621.21

Load HD465-3 with single turbochage HD500-3

716 mm 895 mm 1,023 mm

Flywheel Horsepower

Running time

3

6

3

3

IO

5

Engine speed

800

1,000

1,200

1,200

1,500

1,800

0

343 1351

686 {701

1,373 {I401

2,059 {210}

2,746 I2801

0

25.8 134.5)

61.8 I82.81

123.6 I165.61

231.8 t310.6)

350.3 I469.3)

Load

716 mm

Flywheel Horsepower

12-035-3 0

3

Engine speed

D375A-1

Pc1000-1 (High altitude spec.)

2

Running time

Load

SA6D170-B-

TEST

2 z z

PERFORMANCE TEST


t

The values given for the output is the fan removed.

*

The load (dynamometer)

l-

Engine model

r

Item

6

5

20

10

1,200

1,500

1,500

0

392 {401

1,177 11201

1,961 12001

3,040 {3101

3,432 {350>

Yywheel Horsepower

0

40.3 158

145.5 11951

242.5 1325)

470.0 I6301

530.4 17111

bnning

3

6

3

3

10

Min. 5

‘00 - 900

1,000

1,200

1,200

1,500

1,800

716 mm

0

392 1401

883 {901

1,373 WON

2,059 I2101

3,481 {3551

895 mm

-

-

-

-

-

-

1,023 mm

-

-

-

-

-

-

231.7 (310.6)

470.0 I6301

_oad

speed 716 mm

time

_oad

zlywheel Horsepower

0

29.4 t39.41

79.4 1106.5)

123.5 (165.6)

krnning

3

6

3

3

10

Min. 5 1,800

time

800

1,000

1,200

1,200

1,500

0

392 {40)

883 I901

1,373 U40>

2,059 {2101

3,138 {320}

?ywheel Horsepower

0

29.4 t39.41

79.5 (106.51

123.6 U65.61

231.8 f310.61

458.5 t614.31

Qrnning

3

6

3

3

10

5 1,800

_oad

_oad

speed 716 mm

time speed 716 mm

-lywheel Horsepower

Running time EG500-1 EG500B-1 EG500BSOEM for generator

5

5

ingine :G480B-1 :For CIS)

4

1,200

!ngine SA6D170-B-

3

15

5 50 - 1,000

Engine speed

?SA6D17( .B-1

2

1,000

ingine

fG480-1 EG480B-1 EG500-1 EG500B-1 !G500BS-1

Order

1

Qrnning time

:G450-1

is given for the case of the arm length is 716 mm, 895 mm or 1,023 mm.

Engine speed Load

716 mm

Flywheel Horsepower

min.

150 f 100

1,000

1,200

1,200

1,500

0

40

90

140

210

355

0

39.4

106.5

166

310.6

630

3

6

3

3

IO

5

800

1,000

1,200

1,200

1,500

1,800

0

490 1501

981 {IO01

1,961 {200}

2,942 13001

3,923 {4001

0

36.8 149.31

88.3 {I 18.3)

176.6 f236.6)

331.2 1443.71

530.3 {710.01

12-035-4 0

TESTING

AND ADJUSTING

PERFORMANCE

t


*


-r

values for machines

TEST

without

fan.


Order

Engine model

Item

OEM for ggyTrar

1

2

3

4

5

Running time

3

6

3

3

3

5

Engine speed

800

1,000

1,200

1,200

1,500

1,800

Load

0

392 1401

883 1901

1,373 U401

2,059 C2101

3,727 {3801

Flywheel Horsepower

0

29.4 (39.4)

79.5 I106.5)

123.6 1165.6)

231.8 f310.61

503.4 l674.41

Running time

3

6

3

3

10

5

Engine speed

800

1,000

1,200

1,200

1,500

1,800

Load

0

539 155)

1,079 UlOI

2,157 {2201

3,236 I3331

4,315 1440)

Flywheel Horsepower

0

40.5 154.2)

97.2 1130.2}

194.3 1260.3)

364.3 {488.1}

582.9 I780.91

Running time

3

6

3

3

10

5

Engine speed

800

1,000

1,200

1,200

1,500

1,800

0

392 {401

834 I851

1,667 I1701

2,501 I2551

3,334 I3401

Flywheel Horsepower

0

29.4 C39.4)

75.1 ClOO.61

150.1 {201.11

281.9 f377.61

375.4 1502.9)

Gnning

3

6

3

3

10

5

800

1,000

1,000

1,000

1,000

1,200

508 HP)

OEM for r,n7epar 559 HP)

OEM for prime use g7rF$r

Load

506 HP)

6

z

SA6D170-B-

3EM for j-pole Jenerator 50Hz)

IEM for j-pole gonezTtor

time

Engine speed _oad

0

471 14481

932 1951

1,863 {I901

2,795 (2851

3,727 13801

+wheel Horsepower

0

35.3 C47.31

69.9 {93.7}

139.8 U87.3)

209.8 1281.01

279.7 1374.7)

3unning time

3

6

3

10

5

%gine speed

800

1,000

1,000

1,200

1,200

1,200

.oad

0

490 I501

981 {loo}

1,961 12001

2,942 {3001

3,923 14001

‘lywheel Horsepower

0

36.8 f49.3)

73.6 198.6)

176.6 I236.61

265.0 {355.0}

353.3 1473.31

Iunning

3

6

3

3

10

5

00 - 850

1,000

1,200

1,200

1,500

1,500

.oad

0

392 I401

1,177 {1201

1,961 {2001

3,040 13101

3,432 13501

:lywheel Horsepower

0

29.4 I39.41

106.0 U42.01

176.6 f236.61

342.2 I458.51

386.4 I517.7)

time

ingine speed IEM for generator

12-035-5 0

3

z z

TESTING

PERFORMANCE

AND ADJUSTING

r

Engine

qunning Engine VA600-1 EC regulaion)

Engine

values

for machines

are at an arm’s

without

length

fan.

of 716 mm.

2

3

4

5

6

6

3

3

10

5

1,000

1,200

1,200

1,500

2,000

390 {401

880 190)

1,370 U40}

2,060 12101

2,160 {2201

124 U681

232 (315)

324 14401

time speed

time speed

Flywheel Horsepower

Engine

gives the standard

1

Load

Running


Order

Flywheel Horsepower

>ENYO generator xA6OOSSl

The table

*

Item

Load

Running

*

TEST

&

0%

6

3

3

10

5

1,000

1,200

1,200

1,500

1,800

490 1501

980 UOO}

1,960 {2001

2,940 (3001

3,920 {400}

1%

{I%)

176 {2401

331 1450)

529 {720}

time speed

Load Flywheel Horsepower SA6D170-AERunning Engine

time speed


Running Engine

time speed


Running Engine

time speed


12-035-6 @

TESTING

Engine model

AND ADJUSTING

Applicable machine

ienerator 50 Hz only

PERFORMANCE

Item


*


r

values for machines

without

fan.


Order 1

2

3

4

5

6

Running time

3

6

3

3

IO

5

Engine speed

800

1,000

1,200

1,200

1,500

1,750

Load

0

785 I801

1,569 {I601

3,089 {315}

4,609 I4701

6,374 16501

Flywheel Horsepower

0

58.9 (78.9)

141.3 {I 89.3)

278.2 t372.7)

518.9 1695.11

717.6 {961.4)






12-035-7 69

*

TEST

TESTING

PERFORMANCE

AND ADJUSTING

PERFORMANCE

Engine model

TEST CRITERIA

.pplicable nachine

Test item

Specified value (fullyequippe)

F

nAax. torque 275A-2 tiigh idlingspeed 1.owidling speed

C650-1 c1500-1

TEST CRITERIA

2,079 Nm/1,300 rpm 1212 kgm/1,300 rpm1 1,960-2,040 rpm 600-660

rpm

F:lywheel Horsepower

302 kW/1,600 rpm I405 HP/l,800 rpm)

Fwlax.torque

2,030 Nm/1,200 rpm {207 kgm/1,200 rpm)

Elnginespeed (rpm)

l-

Dvnamometerload

(N {kg))

Arm length 716mm

Arm length 895mm

Arm length 1,023 mm

1,795-1,805

2,409 -2,542 245.6-259.2)

1,927 -2,064 196.5 -207.4)

1,686 -1,779 171.9 -181.41

1l,300-1,500

2,924-3,100 298.2 -316.1)

2,340 -2,480 238.6-252.91

2,047 -2,169 208.7 -221.2)

1,960-2,040

-

-

-

600-660

-

-

-

1,595 -1,605

1,818 -1,922 2,598- 2,747 2,078 -2,198 :264.9-280.11 :211.9-224.1) ,185.4- 196.0)

l,lOO-1,300

1,996-2,114 2,281 -2,417 2,852-3,021 :290.8-308.1) :232.6-246.5) ,203.5-215.6)

t

1,700-1,800

-

-

-

1

650-700

-

-

-

S6D170-1 1!,995-2,005

2,143-2,270 1,711 -1,715 1,499 - 1,589 (218.5-231.51 (174.8-185.21 J52.9 - 162.0)

1,961 Nm/1,400 rpm I200 kgm/1,400 rpm}

11,250- 1,450

1,956- 2,046 2,236-2,338 2,795-2,922 (285.0-298.0) (228.0-238.41 :199.5-208.6)

2,200-2,300 rpm

;!,200-2,300

f IVlax.torque VA600-1

I

650-700

I

VA600-1

I-lighidlingspeed ILow

12-036 0

idling speed

-

-

-

-

-

1,634-1,730 1,867 -1,977 (190.4-201.61 [166.6-176.41

1,995-2,005

2,334 - 2,471 1238-2521

2,089 Nm/1,400 rpm (213 kgm/1,400 rpm)

1,300-1,500

2,029 -2,152 2,319 -2,459 2,899-3,073 {295.6-313.41 {236.5-250.71 (206.9-219.4)

2,200-2,300 rpm

:!,300-2,400

I I\nax.torque

-

650-700

rpm

650-700

-

-

-

-

-

8 z z

TESTING * * * * t *

2 G

z

AND ADJUSTING

PERFORMANCE

TEST CRITERIA

The values in the table are indicated at standard conditions (Armospheric temperature 25-C, atmospheric pressure 196.8 kPa 1750 mm Hg}. The values given for dynamometer loads the output and torque are with the fan removed, so they differ from those of the secification. Values are standardized under thefollowinq conditions: Muffler; air cleaner installed; alternator idling; and air compressor (if installed) open. Dynamometer loads are given for the case of the arm length is 716 mm. Fuel used: ASTM D975 No. I or No. 2 diesel fuel. Lubricaton ooil used: CLASS-CO SAE30. Lubrication oil pressure &Pa h/cm2H

Exhaust temperature (‘C)

80-110

294 - 490 {3.0 - 5.0)

Max. 600

70-90

80-110

-

Max. 650

-

70-90

80-110

-

-

70-90

Min. 80

Min. I47 {Min. 1.5}

-

311.9-329.9 {417.9 - 441.9)

-

Min. 21.6

70-90

80-110

343 - 490 13.5 - 5.01

Max. 600

-

2,042 - 2,163 1208.2 - 220.6)

Min. 25.0

70-90

80-110

-

Max. 650

-

-

70-90

80-110

343 - 490 t3.0 - 5.01

-

-

-

70-90

Min. 80

Min. 147 {Min. 1.5)

-

294 - 490 13.0 - 5.01

out put (kW {HP})

Torque (Nm {kgm))

Fuel consumption (set/500 cc)

Coolant temperature (“C)

325.3 - 343.4 (435.8 - 460.1)

-

Min. 19.7

70-90

-

2,095 - 2,226 {213.6 - 226.4)

-

-

Lubrication Niltemperature (“C)

294 - 490 (3.0 - 5.0)

-

321.6 - 340.8 1430.9 - 456.51

-

Min. 19.2

70-90

80-110

-

1,999 - 2,097 f203.8 - 213.81

Min. 22.2

70-90

80-110

-

-

-

70-90

80-110

294 - 490 f3.0 - 5.01

-

-

-

-

70-90

80-110

Min. 147 {Min. 1.5)

-

350.3 - 370.9 1469.3 - 496.9)

-

Min. 17.5

70-90

so - 120

324 l3.3 -1

Max. 600

-

2,075 - 2,230 {211.6 - 227.4)

-

70-90

so - 120

-

-

-

70-90

so - 120

-

-

-

-

Min. 70

Min. 80

-

-

-

Max. 600

Max. 650

Max. 650

12-037 0

TESTING

PERFORMANCE

AND ADJUSTING

Applicable machine

Test item

Specified

Flywheel Horsepower

Engine speed (rpm)

value

385 kW/1,800 1516 PS/1,800

rpm rpm}

TEST CRITERIA

Dynamometer (N {kg])

Load

1,795 - 1,805

2,937 - 3,015 (299.5 - 307.51

Max. torque

-

-

-

High idling speel

-

-

-

Low idling speer

-

-

-

!PS6D170.

Flywheel Horsepower 3EM for Jenerator Prime USE

324 {434 371 I497

Max. 1,560 rpm Max. 1,872 rpm

Low idling speec S6D170-1 Flywheel Horsepower

355 {476 408 I547

3EM for generator Power up

Max. torque High idling spee, Low idling speec

12-037-l 0

Hz) Hz) Hz) Hz)

1,495 - 1,505 (50 Hz) 1,795 - 1,805 (60 Hz)

(50 Hz) (60 Hz)

kW/1,500 HP/l,500 kW/1,800 HP/l,800

rpm rpm} rpm rpm}

(50 (50 (60 (60

Hz) Hz) Hz) Hz)

(50 Hz) (60 Hz)

kW/1,500 HP/l,500 kW/1,800 HP/l,800

-

-

3,119 I318.0 3,011 I307.0

rpm rpm} rpm rpm}

(50 (50 (60 (60

Hz) Hz) Hz) Hz)

(50 Hz) (60 Hz)

1,495 - 1,505 (50 Hz) 1,795 - 1,805 (60 Hz)

700 - 900 rpm

Max. 1,560 Max. 1,872

(50 Hz) (50 Hz) (60 Hz) (60 Hz)

-

(50 Hz) (60 Hz)

-


1,575 1,890

- 3,589 - 366.0) -3,168 - 323.0)

-

-

700 - 800

700 - 800 rpm

3,001 (50 Hz) 306.0) (50 Hz) 2,893 (60 Hz) 295.0) (60 Hz)

-

1,795 - 1,805 (60 Hz)

Max. Max.

-

-

-


345 {462 403 {539

2,844 1290.0 2,736 1279.0

-

1,495 - 1,505 (50 Hz)

-

Low idling speec

Flywheel Horsepower

(50 (50 (60 (60

700 - 800 rpm

Max. torque High idling speel

rpm rpm} rpm rpm}

-

Max. torque High idling speel

3EM for generator Stand by use)

kW/1,500 HP/l,500 kW/1,800 HP/l,800

3,109 t317.0 3,040 C310.0

- 3,197 (50 Hz) - 326.0) (50 Hz) - 3,128 (60 Hz) -319.0) (60 Hz) -

(50 Hz) (60 Hz)

700 - 900

-

8

G

z

TESTING

* *

*

PERFORMANCE

AND ADJUSTING

TEST CRITERIA

The table gives the standard values using the JIS compensator factor. The values in the table are the standard values for machines with the muffler installed, air cleaner installed, alternator under no load, and air compressor opem (if installed). The loads for the dynamometer are at an arm’s length of 716 mm Flywheel horsepower (kW {HP})

Torque (Nm (kgm})

396.9 - 407.9 f531.6 - 546.4)


Coolant temperature (“0

Lubrication #iItemperature (“C)

80-110

Lubrication oil pressure (kPa {kg/cm*}) 294 - 490 13.0 - 5.01

Min. 15.9

70-90

-

-

-

70-90

80-110

-

-

-

Min. 70

Min. 80

-

535.8 - 568.2 t717.8 - 761.2)

Min. 12.3

70-90

80-110

-

-

-

-

-

Exhaust temperature (“C)

Max. 650

-

294 - 490 13.0 - 5.01

-

-

Max. 650

Max. 650

-

-

-

70-90

80-110

294 - 490 l3.0 - 5.01

-

-

-

70-90

Min. 80

Min. 147 {Min. 1.51

-

374.6 - 398.2 1501.9 - 533.8

Min. 16.5

70-85

80-110

294 - 490 (3.0 - 5.01

Max. 620

-

-

-

-

70-85

80-110

-

-

70-85

Min. 80

Min. 147 {Min. 1.51

-

Min. 18.5

70-85

80-110

343 - 490 it. I y;

Min. 15.8

70-85

80-110

2 z z

350.3 {469.3 410.7 1550.2 -

360.4 (50 483.1} (50 423.2 (60 567.0}(60

Hi Hi Hz Hi

-

-

-

-

-

-

-

t3.5 - 5.01

Max. 600 Max. 650

-

70-85

80-110

343 - 490 13.5 - 5.01

Min. 70

Min. 80

Min. 177 {Min. 1.8)

V-037-2 0

TESTING

PERFORMANCE

AND ADJUSTING

Engine model

Test item

Flywheel Horsepower iD465-3 with single urboharger, twir urboharger)

Max. torque

SA6D170-A-

504 kW/2,100 1702 HP/2,100 2,824 Nm/1,400 I288 kgm/1,400

rpm rpm} rpm rpm)

ngine speed (rpm)

l-

Dynamometer

load (N {kg})

Arm length 716 mm

Arm length 895 mm

Arm length 1,023 mm

!,095 - 2,105

3,413 - 3,501 346.0 - 357.01

!,730 - 2,801 278.4 - 285.61

2,389 - 2,451 243.6 - 249.91

1,350 - 1,450

3,825 - 4,070 390.0 - 415.01

$060 - 3,256 312.0 - 332.01

2,677 - 2,849 273.0 - 290.5)

High idling spee’

2,250 - 2,380 rpm

2,250 - 2,350

-

-

Low idling spee,

850 - 900 rpm

;50 - 700 (*l) 140 - 940 (‘21

-

-

Flywheel Horsepower iD465-5 with mechnical governor)

Specified value (fully equippe)

Max. torque

High idling speem

Low idling spee,

Flywheel Horsepower Max. torque

533 kWl2.100 I715 HP/2,100 2,971 Nm/1,400 {303 kgm/1,400

rpm rpm) rpm rpm}

TEST CRITERIA

$095 - 2,105

3,400 - 3,605 346.7 - 367.6;

1,300 - 1,500

4,081- 4,327 416.1 - 441.2:

2,400 - 2,500 rpm

?,400 - 2,500

-

-

-

900 - 950 rpm

900 - 950

-

-

-

478 kW/2,000 1641 HP&000 2,815 Nm/1,400 {287 kgm/l,400

rpm rpm1 rpm rpm1

2,000 - 2,050

3,282 - 3,485 334.7 - 355.4

2,626 - 2,788 267.8 - 284.3:

2,298 - 2,440 :234.3 - 248.8)

1,300 - 1,500

3,892 - 4,134 396.9 - 421.5:

3,114-3,307 317.5 - 337.2

2,724 - 2,894 :277.8 - 295.1)

NA700-1

c1: With5 “2 : With t

12-037-3 0

High idling spee

2,240 - 2,300 rpm

2,240 - 2,300

-

-

-

Low idling speel

700 - 750 rpm

700 - 750

-

-

-

gte ruroocnarger n turbocharger

TESTING

* t * * * *

AND ADJUSTING

out put (kW{HPI)

Torque (Nm {kgm))

537.3 - 552 1720.0 - 739.5)

-

-

2,736 - 2,913 1279.0 - 297.01

-

-

-

-

-

G

z

TEST CRITERIA

The values in the table are indicated at standard conditions (Armospheric temperature 25”C, atmospheric pressure 196.8 kPa {750 mm Hg}. The values given for dynamometer loads the output and torque are with the fan removed, so they differ from those of the secification. Values are standardized under the following conditions: Muffler; air cleaner installed; alternator idling; and air compressor (if installed) open. Dynamometer loads are given for the case of the arm length is 716 mm. Fuel used: ASTM D975 No. 1 or No. 2 diesel fuel. Lubricaton ooil used: CLASS-CO SAE30.

535.8 - 568.2 1717.8 - 761.2)

2

PERFORMANCE


Coolant temperature (‘C)

Lubrication )il temperature (“C)

Lubrication oil pressure (kPa {kg/cm?)

Min. 12.0

70-90

80-110

196 - 392 i2.0 - 4.0)

Max. 550

Min. 15.5

70-90

80-110

196 -392 12.0 - 4.0)

Max. 600

-

70-90

80-110

196-392 i2.0 - 4.0)

-

70-90

Min. 80

Min. 147 {Min. 1.51

Min. 11.6

70-90

80-110

Max. 650

70-90

80-110

Max. 670

70-90

80-110

-

70-90

Min. 80

Min. 147 {Min. 1.5)

-

70-95

80-110

294 - 490 (3.0 - 5.0)

Max. 650

70-95

80-110

-

Max. 650

70-80

80-110

294 - 490 I3.0 - 5.01

70-80

Min. 80

Min. 147 {Min. 1.5}

2,922 - 3,099 t298.0 - 316.0)

492.6 - 523.1 1659.9 - 700.81

-

-

2,787 - 2,954 1284.2 - 301.81

Min. 13.6

-

-

-

Exhaust temperature (“0

-

12-037-4 0

TESTING

Engine model

AND ADJUSTING

Applicable machine

PERFORMANCE

Test item


Specified

value

434 kWll.750 rpm (582 HP/l ,750 rpm) 2,731 Nm/1,300 (278 kgm/1,300

rpm rpm}

Engine speed (rpm)

TEST CRITERIA

Dynamometer (N (kg])

Load

1,755

3,376 - 3,573 (344.3 - 364.31

1,200 - 1,400

3,808 - 4,038 (388.3 - 411.8)

1,900 - 2,000

-

650 - 700

-

2,095 - 2,105

3,400 - 3,605 (348.7 - 367.6)

1,300 - 1,500

4,081 - 4,327 (416.1 - 441.21

2,330 - 2,440

-

920 - 970

-

1,995 - 2,105

2,377 - 2,526 (242.4 - 257.61

1,300 - 1,500

2,856 - 3,026 (291.9 - 308.61

8 ;;;

1,745-

Pc1ooosP~ High idling spee d

Low idling spee d

Flywheel Horsepower HD465-5 (with electronic governor)

Max. torque

High idling spee d

Low idling spee d

Flywheel Horsepower HD465-5 (Hifh altitude spec

Max. torque

1,900 - 2,000

rpm

650 - 700 rpm

533 kW/2,100 (715 HP/2,100 2,971 Nm/1,400 I303 kgm/1,400 2,330 - 2,400

rpm rpm) rpm rpml rpm

920 - 970 rpm

387 kW/2,100 (518 HP/2,100 2,108 Nm/1,400 (215 kgm/1,400

rpm rpm} rpm rpml

High idling spee d

2,330 - 2,400

rpm

2,330 - 2,400

-

Low idling spee d

1,075 - 1,125 rpm

1,075 - 2,400

-

1,995 - 2,005

3,496 - 3,677 (356.5 - 375.01

1,300 - 1,500

Min. 3,496 (Min. 356.5)

2,100 - 2,200

-

550 - 600

-

2,000

3,638 - 3,677 (371 - 375)

1,300 - 1,500

Min. 4,328 (Min. 432.81

2,100 - 2,200

-

SA6D170-AFlywheel Horsepower Max. torque

552 kW/2,000 (740 HP/2,000 2,501 Nm/1,400 {255 kgm/1,400

rpm rpm} rpm rpm)

EM680A High idling spee d

Low idling spee d

Flywheel Horsepower Max. torque EM680-A 6M170B-1 High idling spee d

Low idling spee d


2,100 - 2,200

rpm

550 - 600 rpm

552 kW/2,100 (740 HP/2,100 2,893 Nm/1,400 (295 kgm/1,400 2,100 - 2,200

rpm rpm} rpm rpm} rpm

550 - 600 rpm

629 kW/2,000 (842 HP/2,000 3,295 Nm/1,400 (336 kgm/1,400

rpm rpm} rpm rpml

550 - 600

1,995 - 2,005

4,084 - 4,291 {416.5 - 437.51

1,300 - 1,500

Min. 4,602 (Min. 469.3)

2,100 - 2,200

-

550 - 600

-

EM680A-A High idling spee d

--L *I

12-037-5 0

: Without

Low idling spee’ d manne

gear

2,100 - 2,200

rpm

550 - 600 rpm

z

TESTING

* *

*

PERFORMANCE

AND ADJUSTING

TEST CRITERIA

The table gives the standard values using the JIS compensator factor. The values in the table are the standard values for machines with the muffler installed, air cleaner installed, alternator under no load, and air compressor opem (if installed). The loads for the dvnamometer are at an arm’s length of 716 mm Flywheel horsepower (kW {HP))

Torque (Nm Ikgml)

443.4 - 469.2 t594.1 - 628.61

-

-

535.8 - 568.2 {717.8 - 761.2)

Lubrication oil pressure (kPa {kg/cm21)

70-90

80-110

343 - 490 13.5 - 5.0)

Max. 700

-

70-90

80-110

343 - 490 {3.5 - 5.0)

Max. 700

-

70-90

80-110

343 - 490 13.5 - 5.01

-

-

70-90

Min. 80

Min. 147 {Min. 1.5)

-

70-90

80-110

294 - 490 (3.0 - 5.0)

70-90

80-110

70-90

80-110

294 - 490 {3.0 - 5.0)

-

70-90

Min. 80

Min. 147 {Min. 1.51

-

70-85

80-110

294 - 490 {3.0 - 5.0)

-

70-85

80-110

-

-

70 - 85

80-110

-

70 - 85

Min. 80

Min. 147 {Min. 1.5) 294 - 490 13.0 - 5.01

14.9

Min. 2,922 - 3,099 1298.0 - 316.0)

-

Lubrication %I temperature YC)

Min. 2,727 - 2,892 {278.1 - 294.9)

12.0 -

-

374.6 - 398.2 1501.9 - 533.41

Min. 2,050 - 2,167 {209 - 221)

-

16.5

-

-

524.8 - 552.0 (703.0 - 739.5)

-

Min.

12.9

70 - 95

80-110

-

Min. 2,501 {Min. 255.0)

Min.

18.8

70 - 95

80-110

-

70 - 95

80-110

-

70-95

Min. 80

-

546.1 - 552.0 i731.6 - 739.5)

-

-

Min. 3,040 {Min. 310)

Min.

12.2 -

-

-

613.1 - 644.0 i821.3 - 862.8)

-

Min.

Min. 3,295 {Min. 336)

Min.

-

-

-

70 - 90

80-110

70-90

80-110

70 - 90

80-110

Max. 650

Max. 670

Max. 620 -

-

-

Max. 650

Max. 650 Min. 147 {Min. 1.5} 294 - 490 t3.0 - 5.0)

-

Max. 600

Max. 600 -

70 - 90

Min. 80

Min. 147 {Min. 1.5)

10.7

70 - 90

80-110

294 - 490 {3.0 - 5.0)

Max. 600

14.8

70 - 90

80-110

-

Max. 600

70 - 90

80-110

70-90

Min. 80

-

-




-

Min. 147 {Min. 1.5)

-

12-037-6 a9

TESTING

Engine model

PERFORMANCE

AND ADJUSTING

splicable nachine

Test item

3550-I

Dynamometer Arm length 716 mm

rpm rpm)

1,495 - 1,505

4,008 - 4,242 408.7 - 432.6)

(60Hz)

473 kW/1,800 {634 HP/l,800

rpm rpm}

1,795 - 1,805

3,716 - 3,933 378.9 -401.11

speed (50Hz)

Max.

1,560 rpm

Max.

1,560

0

(60Hz)

Max.

1,872 rpm

Max.

1,872

0

speed

700-800

rpm

456 kW/1,500 {611 HP/l,500

rpm rpm}

1,495-

(60Hz)

502 kW/1,800 {673 HP/l,800

rpm rpm)

1,795 - 1,805

idling

0

750 z!C50

+wheel (50Hz) -lorsepower

iigh

L

T

431 kW/1,500 {578 HP/l,500

Low idling

35808-l

ingine speed (rpm)

+wheel (50Hz) Horsepower

High idling

3580-I 35808-l


1,505

TEST CRITERIA

load (N {kg))

Arm length 895 mm

Arm length 1,023 mm

-

-

-

-

4,126 - 4,256 420.7 - 434.0)

3,301 - 3,405 336.6 - 347.2)

!,888 - 2,979 Z94.5 - 303.81

3,825 - 3,933 390.0 -461.11

3,060 - 3,145 312.0 - 320.8)

!,677 - 2,753 !73.0 - 280.7)

speed (50Hz)

Max.

1,560 rpm

Max.

1,560

-

(60Hz)

Max.

1,872 rpm

Max.

1,872

-

-

-

700 - 900

-

-

-

1,495 - 1,505

4,276 - 4,393 1436 - 4481

1,550 - 1,560

-

700 - 900

-

700 - 900 rpm

-

_ow idling

speed

3ywheel iorsepower

(50Hz)

-iigh idling

speed (50Hz)

_ow idling

speed

-lywheel iorsepower

(50Hz)

470 kW/1,500 {630 HP/l,500

rpm rpm)

1,495 - 1,505

4,249 - 4,381 433.3 - 446.7)

3,399 - 3,504 346.6 - 357.3)

1,974 - 3,066 103.3 - 312.61

(60Hz)

513 kW/l,SOO rpm 1688 HP/l,800 rpm}

1,795 - 1,805

3,906 - 4,015 398.3 - 409.41

3,124-3,212 318.6 - 327.51

1,734 - 2,810 !78.8 - 286.5)

472kW/1,500 I633 HP/l,500

Max.

rpm rpm)

1,560 rpm

700 - 900 rpm

3,450 - 3,515 348.8 - 358.4)

-

!,993 - 3,075 $05.2 - 313.6}

-

-

SAGDI 70-A.

3600-I 36008-l 3600BS-1 IM for nerator

iigh

idling

_ow idling

speed (50Hz)

Max.

1,560 rpm

Max.

1,560

(60Hz)

Max.

1,872 rpm

Max.

1,872

speed

Flywheel Horsepower

12-038 0

-

-

-

-

700 - 900

440 kW/l,SOO rpm I590 HP/l,800 rpm)

1,795 - 1,805

3,304 - 3,503 (336.9 - 357.2

2,643 - 2,803 L269.5 - 285.8

2,312 - 2,452 235.8 - 250.0)

1,200 - 1,400

3,670 - 3,888 L374.2 - 396.5

2,936 - 3,111 :299.4 - 317.2

2,568 - 2,721 261.9 - 277.5)

rpm rpm]

High idling

speec

1,950 - 2,050 rpm

1,950 - 2,050

-

-

-

Low idling

speed

750 - 850 rpm

750 - 850

-

-

-

1,995 - 2,065

3,291 - 3,495 F335.6 - 356.4

-

-

1,200 - 1,400

3,786 - 4,020 L386.1 - 409.9

-

-

-

Flywheel Horsepower

D465-3 or ORAP rllNE)

-

700 - 900 rpm

2,648 Nm/l,300 I270 kgm/1,300

Max. torque PSAGDI? -A.

-

-

504 kW/2,000 {675 HP/2,000 2,795 Nm/1,300 I285 kgm/1,300

Max. torque

rpm rpm) rpm rpml

High idling

speec

2,250 - 2,350 rpm

2,250 - 2,350

Low idling

speed

840 - 860 rpm

840 - 860

TESTING * t * * * *

PERFORMANCE

AND ADJUSTING

TEST CRITERIA

The values in the table are indicated at standard conditions (Armospheric temperature 25”C, atmospheric pressure 196.8 kPa {750 mm HgI. The values given for dynamometer loads the output and torque are with the fan removed, so they differ from those of the secification. Values are standardized under the following conditions: Muffler; air cleaner installed; alternator idling; and air compressor (if installed) open. Dynamometer loads are given for the case of the arm length is 716 mm. Fuel used: ASTM D975 No. 1 or No. 2 diesel fuel. Lubricaton ooil used: CLASS-CO SAE30. Lubrication oil pressure (kPa {kg/cm%

put (kW {HP))

Torque (Nm {kgm})


Coolant temperature (‘Cl

LLlbrication oil tlemperature (“C) -

450.6 - 477.4 I604.0 - 640.0)

-

27.0 - 28.5

70-90

80-115

265 - 392 (2.7 - 4.0)

Max. 650

501.3 - 531.2 I672.0 - 712.01

-

24.0 - 25.0

70-90

80-115

294 - 441 13.0 - 4.51

Max. 650

-

70-90

80-115

-

70-90

SO-115

out


-

-

-

-

-

70-90

Min. 80

Min. 147 {Min. 1.51

-

464.2 - 478.9 1622.2 - 641.9)

-

Min. 26.0

70-85

80-110

265 - 392 {2.7 - 4.0)

Max. 650

516.4531.1 t692.2 - 711.9)

-

Min. 23.4

70-85

80-110

294 - 441 13.0 - 4.51

Max. 650

-

70-85

80-110

-

70-85

80-110

-

70-85

-

-

-

-

Min. 80

Min. 147 {Min. 1.5)

-

Max. 650

480.3 - 494.2 W3.8 - 662.5)

-

Min. 13.7

70-85

80-110

265 - 392 (2.7 - 4.0)

-

-

-

70-85

80-110

-

-

-

-

70-85

Min. 80

Min. 147 {Min. 1.5)

478.1 - 492.8 WO.9 - 660.61

-

80-110

265 - 392 12.7 - 4.0)

Max. 650 Max. 650

8 z z

-

527.4 - 542.1 I707.0 - 726.7)

-

0

0

-

70-85

Min. 22.9

70-85

80-110

294 - 441 13.0 - 4.5)

0

70-85

80-110

-

-

80-110

-

-

0

0

446.1 - 473.0 1598.0 - 634.01

Min. 25.2

70-85

0

70-85

Min. 80

Min. 147 {Min. 1.5)

Min. 14.4

70-85

80-110

294 - 441 {3.0 - 4.5)

-

Max. 650

2,628 - 2,785 1268 - 2841

-

70-85

80-110

-

-

-

-

70-85

80-110

-

-

-

-

70-85

Min. 80

Min. 147 {Min. 1.5)

-

80-110

294 - 490 I3.0 - 5.01

Max. 680

488.6 - 519.2 I655 - 6961

-

-

2,712 - 2,879 1276.5 - 293.61

-

80-110

-

-

-

-

-

80-110

-

-

-

-

Min. 80

Min. 25

Min. 147 {Min. 1.5)

12-039 0

TESTING

Engine model

PERFORMANCE

AND ADJUSTING

Applicable machine

?ywheel Horsepower

3EM for generator

Specified

Test item 473 (633 546 (732

470 kW/1,500 1630 HP/l,500 514 kW/1,800 {688 HP/l,800

OEM for generator (Prime use

Flywheel Horsepower OEM for generator (::;d

by

Max. torque High idling spee

(50 (50 (60 (60

Hz) Hz) Hz) Hz)

419 kW/1,500 (561 HP/l,500 467 kW/1,800 1625 HP/l,800

(50 Hz) (60 Hz)

rpm rpm} rpm rpm}

(50 (50 (60 (60

Hz) Hz) Hz) Hz)


(50 Hz) (60 Hz)

(50 Hz) (50 Hz) (60 Hz) (60 Hz)

Max. 1,568 (50 Hz) Max. 1,881 (60 Hz)

-

700 - 900

-

1,495 - 1,505 (50 Hz) 1,795 - 1,805 (60 Hz)

4,119-4,374 (420 - 4461 3,766 - 3,991 {384 - 4071

(50 Hz) (50 Hz) (60 Hz) (60 Hz)

-

Max. 1,568 (50 Hz) Max. 1,881 (60 Hz)

-

700 - 900

-

1,495 - 1,505 (50 Hz) 1,795 - 1,805 (60 Hz)

3,675 I374.7 3,449 f351.7

-

3,909 398.6) 3,666 373.81

(50 Hz) (50 Hz) (60 Hz) (60 Hz)

rpm rpm} rpm rpm}

(50 (50 (60 (60

Hz) Hz) Hz) Hz)

(50 Hz) (60 Hz)

1,495 - 1,505 (50 Hz) 1,795 - 1,805 (60 Hz)

(50 Hz) (60 Hz)

Max. 1,575 Max. 1,890

Min. 5,237 (50 Hz) {Min. 5341 (50 Hz) 5,080 - 5,384 (60 Hz) (518 - 549) (60 Hz)

-

-


Max. 1,568 Max. 1,881

(50 Hz) (60 Hz)

-

1,995 - 2,005

3,589 - 3,677 (366 - 3751

-

-

-

High idling spee

2,100 - 2,200 rpm

2,100 - 2,200

-

Low idling spee

550 - 600 rpm

550 - 600

-

512 kW/1,800 rpm I686 HP/l ,800 rpm)

1,795 - 1,805

3,560 - 3,724 {363 - 379.7)

-

-

-

High idling spee

Max. 2,200 rpm

Max. 2,200

-

Low idling spee

600 - 1,000 rpm

600 - 1,000

-


700 - 900 rpm

552 kW/2,000 I740 HP/2,000

rpm rpm}

OEM for marine

Flywheel Horsepower

12-039-l 0

4,395 4481 4,266 435)

700 - 900

Low idling spee

EPSAGDli -A-l (512 kW/ 686 HF

-

-

700 - 900

700 - 900 rpm kW/1,500 HP/l,500 kW/1,800 HP/l,800

1,795 - 1,805 (60 Hz)

4,276 I436 4,148 (423

Load

-

-

581 {779 672 (900

1,495 - 1,805 (50 Hz)

-

700 - 900 rpm

Low idling spee SA6D170-A-

rpm rpm} rpm rpm}



(50 Hz) (60 Hz)

-

Low idling speem

Flywheel Horsepower

Hz) Hz) Hz) Hz)

950 - 900 rpm

Wax. torque High idling spee

(50 (50 (60 (60


-


_ow idling speel

+wheel Horsepower

rpm rpm} rpm rpm1

-

Vlax. torque iigh idling specs

EGGOOBS-’ OEM for generator ;Engine No. 15503 and ur

kW/1,500 HP/l,500 kW/1,800 HP/l,800

Engine speed (rpm)

value

TEST CRITERIA

Max. torque

TESTING

t *

AND ADJUSTING

TEST CRITERIA

The table gives the standard values using the JIS compensator factor. The values in the table are the standard values for machines with the muffler installed, air cleaner installed, alternator under no load, and air compressor opem (if installed). The loads for the dvnamometer are at an arm’s length of 716 mm

*

Flywheel horsepower (kW WR) 480.6 1643.9 560.1 1750.3

463.7 1621.2 508.6 1681.3

8

PERFORMANCE

413.6 1554.1 465.9 1624.1

z z

Min. {Min. 686.0 I919.0

Torque (Nm {kgrn))

- 494.6 (50 H2 - 662.6) (50 H2 - 576.3 (60 Hz -772.0) (60 Hi


Lubrication )il temperature (“C)

Lubrication oil pressure Wa {kg/cm*)) 255 - 441 y.. I “&1

-

Min.

13.7

70-85

80-110

-

Min.

11.4

70-85

80-110

12.6 - 4.5)

Exhaust temperature (“C) Max. 650 Max. 650

-

-

-

-

-

-

-

-

-

-

70-85

80-110

255 - 441 l2.6 - 4.5)

-

-

-

-

Min. 70

Min. 80

Min. 147 {Min. I.51

-

343 - 441 $3.3” I &5;

- 492.4 (50 Hz - 629.6) (50 Hi - 539.5 (60 Hz -722.7) (60 H2

-


-

Min.

14.0

70 - 85

80 - 105

-

Min.

12.4

70-85

80 - 105

l3.5 - 4.5)

Max. 650 Max. 650

-

-

-

-

-

70-85

80 - 105

343 - 441 13.5 - 4.51

-

-

-

Min. 70

Min. 85

Min. 147 {Min. 1.5}

-

440.1 (50 Hz 589.6) (50 H2 495.3 (60 Hz 663.6) (60 H2

-

-

Min.

15.0

70 - 85

80-110

-

Min.

13.3

70-85

80-110

-

-

-

-

-

70-85

-

-

589.5 (50 789.9) (50 - 727.2 (60 -974.2) (60

Hz Hz Hz H2

-

-

Min.

11.3

Min. 9.3

-

-

-

255 12.6 255 12.6

-

-

441 4.5) 441 4.5)

Max. 650 Max. 650

-

-

80-110

255 - 441 12.6 - 4.5)

-

Min. 70

Min. 80

Min. 98 {Min. 1.0)

-

70-85

80-110

226 - 392 :‘i; 1 y.

70-85

80-110

-

-

12.3 - 4.0)

Max. 700 Max. 700

-

-

-

-

70-85

80-110

226 - 392 12.3 - 4.0)

-

-

-

Min. 70

Min. 80

Min. 147 {Min. 1.5)

-

538.0 - 552.0 1720.8 - 739.5)

Min.

12.4

-

80-90 -

-

-

533.9 - 558.9 i715.2 - 748.8)

-

-

-

-

Min.

11.7

90-110 -

294 - 490 (3.0 - 5.01

Max. 650

-

-

80-90

90-110

294 - 490 c3.0 - 5.0)

-

Min. 80

Min. 90

Min. 147 {Min. 1.5}

-

70-90

80-110

294 - 490 13.0 - 5.0)

Max. 650

-

-

-

-

70-90

80-110

294 - 490 13.0 - 5.0)

-

Min. 70

Min. 80

Min. 147 {Min. 1.5)

-

12-039-2

@

TESTING

Engine model

PERFORMANCE

AND ADJUSTING

4pplicable machine

Test item

:lywheel Horsepower Wax.torque 1375A-1 iigh idlingspeed

load (N {kg))

inginespeed @pm)

309 kW/1,800 rpm {608 HP/l,800 rpm}

1,795 -1,805

2,354-2,497 2,942 -3,121 (300.0-318.3) (240.0-254.61

!,059-2,185 !lO.O-222.8)

2,609 Nmil.300 rpm {266kgm/1,300rpm)

1,200 -1,400

2,925 - 3,104 3,657 -3,880 (372.9-395.6) {298.3-316.5)

1,560-2,715 !61.0-276.91

1,950-2,050 rpm

1,950 -2,050

rpm

600-700

Arm length 716mm

Arm length 895mm

4rm length 1,023 mm

0

0

0

0

0

0

+wheel Horsepower

392 kW/1,800 rpm 1525 HP/l,800 rpm)

1,795-1,805

2,423- 2,567 3,029 -3,209 (308.9-327.2) i247.1-261.81

!,I20-2,246 !16.2-229.0)

Irlax.torque

2,618 Nm/1,300 rpm 1267 kgm/1,300 rpm}

1,200- 1,400

3,014-3,199 3,767 -3,999 (384.1-407.8) (307.3-326.21

!,636-2,799 !68.8-285.4)

1,950-2,050 rpm

1,950 -2,050

D375A-2 iigh idlingspeed

580-680

_owidling speed +wheel Horsepower Max.torque Pc1000-1

rpm

580-680

0

0

0 !,258- 2,389 Z30.3-243.6)

2,550 Nm/1,300 rpm 1260 kgm/1,300rpm)

1,200-1,400

2,832 -2,997 3,540-3,746 {361.0-382.0) {288.8-305.61

!,478-2,622 252.7-267.4)

2,481 Nm/1,400 rpm (253 kgm/1,400 rpm) 2.350-2.450 rpm 800-900

Low idling speed

0

2,581 - 2,730 3,226-3,413 (329.0-348.0) (263.2-278.41

SA6D170-B-

High idlingspeed

0

1,695-1,705

650-700

HD465-3 Max.torque with single turbocharge

0

405 kW/1,700rpm {542 HP/l,700 rpm}

1,800-1,900

HD500-3

Dvnamometer


600-700

_owidling speed

T

TEST CRITERIA

rpm

0

0

0

0

0

0

2,095 -2,105

2,358 -2,499 2,947 -3,123 (300.5-318.5) 1240.4-254.8:

1,063-2,187 210.4-223.0)

1,300- 1,500

2,730 -2,879 3,413 -3,599 {348.0-367.0) 1278.4-293.6:

1,389 - 2,519 243.6-256.91

2,350-2,450

0

0

0

800-900

0

0

0

I

1,495-1,505

3,217-3,203 (328.0-326.6)

-

406kW/1,800 rpm (544 HP/l,800 rpm)

1,795-1,805

3,057 -3,230 {311.7-329.4)

-

High idling speed (50Hz)

Max.1,560 rpm

Max.1,560

0

-

(60Hz)

Max. 1,872 rpm

Max. 1,872

0

-

950 -1,000 rpm

950-1,000

0

-

Flywheel (50Hz) 351 kW/1,500 rpm (481 HP/l,500 rpm} Horsepower (60Hz) EG450-1

Low idling speed

2,699 -2,782 3,373 -3,478 {344.0-354.7) (275.2-283.7

2,361-2,434 240.8-248.2)

416 kW/1,800 rpm (557 HP/l,800 rpm1

1,795 -1,805

2,545 -2,619 3,181 -3,274 (324.4-333.91 (259.5-267.1

2,226-2,292 227.0-233.7)

High idlingspeed (50Hz)

Max.1,560 rpm

Max. 1,560

0

0

0

(60Hz)

Max.1,872 rpm

Max. 1,872

0

0

0

0

0

0

(60Hz)

Low idling speed

12-040 0

-

1,495 -1,505

Flywheel (50Hz) 372 kW/1,500 rpm 1498 HP/l,500 rpm} Horsepower

EG480-1 EG480B-1

-

700-900

rpm

700-900

8 ;;

z

TESTING * * * * * *

Lubrication oil pressure (kPa {kg/cm%


Coolant temperature (‘C)

Lubrication #iItemperature (“C)

Min. 17.0

70-90

80 - 100

2,569 - 2,778 I262.0 - 283.31

Min. 19.3

70-90

80 - 100

0

0

-

70-90

80 - 100

294 - 490 13.0 - 5.01

-

0

0

-

70-90

Min. 80

Min. 245 {Min. 2.5)

-

294 - 490 t3.0 - 5.01

put (kW {HP})

Torque (Nm {kgm))

397.3 - 421.5 I532.2 - 564.7)

-

-


294 - 490 {3.0 - 5.01 -

Max. 550

Max. 600

409.2 - 433.5 I546.2 - 590.8)

-

Min. 16.5

70-90

80-110

-

2,697 - 2,859 l275.0 - 291.51

-

70-90

80-110

0

0

-

70-90

80-110

294 - 490 13.0 - 5.01

-

0

0

-

70-90

Min. 80

Min. 147 {Min. 1.5)

-

70-90

80-110

343 - 490 (3.5 - 5.0)

Max. 700

411.4 - 435.7 t551.2 - 583.7)

-

Min. 16.3

-

Max. 650

Max. 650

2,534 - 2,682 l258.4 - 273.51

-

70-90

80-110

-

Max. 700

0

0

-

70-90

80-110

343 - 490 (3.0 - 5.0)

-

0

0

-

70-90

Min. 80

Min. 147 {Min. 1.5)

-

294 - 490 13.0 - 5.01

-

z z

TEST CRITERIA

The values in the table are indicated at standard conditions (Armospheric temperature 25°C. atmospheric pressure 196.8 kPa 1750 mm Hg}. The values given for dynamometer loads the output and torque are with the fan removed, so they differ from those of the secification. Values are standardized under the following conditions: Muffler; air cleaner installed; alternator idling; and air compressor (if installed) open. Dynamometer loads are given for the case of the arm length is 716 mm. Fuel used: ASTM D975 No. 1 or No. 2 diesel fuel. Lubricaton ooil used: CLASS-CO SAE30.

out

2

PERFORMANCE

AND ADJUSTING

457.9 - 485.5 1622.1 - 659.6)

-

Min. 13.1

70-85

80-

-

2,442 - 2,579 1249.0 - 263.01

-

70-85

80-110

0

0

-

70-85

80-110

294 - 490 f3.0 - 5.01

-

0

0

-

70-85

Min. 80

Min. 147 {Min. 1.5)

-

110

-

Max. 650

Max. 650

351.1 - 370.9 (50 Hz {477.0 - 504.01(50 H2

-

23-27

70 - 100

100 - 120

245 - 392 (2.5 - 4.01

Max. 680

400.4- 423.2 (60 Hz W4.0 - 575.01(60 H2

-

26-30

70 - 100

100 - 120

245 - 392 (3.0 - 4.51

Max. 650

0

-

70 - 100

100-120

0

-

70 - 100

0

-

70 - 100

-

-

100 - 120

-

-

Min. 100

245 - 392 {3.0 - 4.5)

-

516.0 - 532.0(50 Hz I508.8 - 524.61(50 H2

-

Min. 17.5

70 - 85

80-110

265 - 392 12.7 - 4.0)

Max. 650

584.0 - 601.0 (60 H2 I575.8 - 592.61(60 Hz

-

Min. 15.5

70-85

80-110

294 - 441 l3.0 - 4.5)

Max. 650

0

-

70-85

80-110

-

-

0

-

70-85

80-110

-

-

Min. 147 {Min. 1.5)

-

0

-

70-85

Min. 80

12-041 0

TESTING

AND ADJUSTING

Engine model

iG550-1 iG500B-1 iG500BS-1

PERFORMANCE

Test item


Sngine speec (rpm)

Flywheel (50Hz Horsepower

383 kW/1,500 rpm (513 HP/l,500 rpm}

(6OH2

12-041-l 0

Dvnamometer load

ir {kg})

Arm length 716 mm

Arm length 895 mm

Arm length 1,023 mm

1,495 - 1,505

3,472 - 3,576 364.0 - 364.7

2,777 - 2,861 283.2 - 291.7

2,430 - 2,503 247.8 - 255.2}

427 kW/1,800 rpm I572 HP/l,800 rpm}

1,795 - 1,805

3,264 - 3,351 332.8 - 341.7

2,611 - 2,680 266.2 - 273.3

2,284 - 2,345 232.9 - 239.1)

High idling speec (50Hz

Max. 1,560 rpm

Max. 1,560

0

0

0

(6OH2

Max. 1,872 rpm

Max. 1,872

0

0

0

700 - 900 rpm

700 - 900

0

0

0

Flywheel Horsepower

408 kW/1,800 rpm I540 HP/l,800 rpm)

1,795 - 1,805

3,039 - 3,216 309.9 - 327.9

2,431 - 2,572 247.9 - 262.3

2,127 - 2,251 216.9 - 229.5}

Max. torque

2,461 Nm/1,300 rpm (251 kgm/1,300 rpm)

1,200 - 1,400

3,410 - 3,628 347.7 - 370.0

2,728 - 2,903 278.2 - 296.0

2,383 - 2,540 243.3 - 259.01

High idling speec

1,950 - 2,050 rpm

1,950 - 2,050

-

-

-

Low idling speec

750 - 850 rpm

750 - 850

-

-

-

Flywheel Horsepower (Prime use

359 kW/1,500 rpm {488 HP/l,500 rpm}

1,495 - 1,505

3,210 - 3,406 327.3 - 347.3

-

-

(Standby use)

397 kW/1,500 rpm {540 HP/l,500 rpm}

1,495 - 1,505

3,655 - 3,759 372.7 - 383.3,

-

-

High idling speec

Max. 1,560 rpm

Max. 1,560

-

-

-

Low idling speec

700 - 900 rpm

700 - 900

-

-

-

Low idling speec

SA6D170-B-

T

TEST CRITERIA

.PSA6D17( -B-

TESTING t * *

* t

*

AND ADJUSTING

TEST CRITERIA

The values in the table are indicated at standard conditions (Armospheric temperature 25’C, stmospheric pressure 196.8 kPa (750 mm Hg}. The values given for dynamometer loads the output and torque are with the fan removed, so they differ from those of the secification. Values are standardized under the following conditions: Muffler; air cleaner installed: alternator idling; and air compressor (if installed) ooen. Dynamometer loads are given for the case of the arm length is 716 mm. Fuel used: ASTM D975 No. 1 or No. 2 diesel fuel. Lubricaton ooil used: CLASS-CO SAE30. put (kW {HP})

Torque (Nm IkgmI)



390.8 - 402.6 i523.6 - 539.3)

-

Min. 17.1

70-85

out

440.9 - 452.6 t590.6 - 606.41

2 b z

PERFORMANCE

Min. 15.2

Lubricatic oil temperai (‘C)

Lubrication oil pressure (kPa {kg/cm*})


80-110

265 - 392 12.7 - 4.0}

Max. 650

70-85

80-110

294 - 441 13.0 - 4.5}

Max. 650

70-65

80-110

-

-

-

-

0

-

0

-

70-85

80-110

0

-

70-85

Min. 80

Min. 147 {Min. I.51

Min. 15.8

70-85

80-110

294 - 441 I3.0 - 4.5)

410.3 - 434.2 f550.0 - 582.0)

-

-

2,442 - 2,599 {249 - 265)

-

70-85

80-110

-

-

-

-

70-85

80-110

-

-

-

-

-

70-85

Min. 80

Min. 147 {Min. 1.5}

-

357.3 - 378.0 {479 - 508)

-

Min. 17.5

70-85

80-110

265 - 392 12.7 - 4.0)

Max. 650

407.3 - 418.5 {546 - 5611

-

Min. 15.9

70-85

80-110

265 - 392 (2.7 - 4.01

Max. 650

-

-

-

70-85

80-110

-

-

-

70-85

80-110

Min. 147 {Min. 1.5}

Max. 650

-

-

12-041-2 0

TESTING

PERFORMANCE

AND ADJUSTING

le

Engine model

e

IFlywheel Horsepower

OEM for generato r (Prime u!se)

Engine speed frpm)

Test item

367 {492 416 {557

kW/1,500 HP/l,500 kW/1,800 HP/l ,800

OEM for generato r v %rd b’

486 1543 457 {612

Pc1000-1 I (High alti itude spel d

Max. torque

-

rpm rpm) rpm rpm)

(50 (50 (60 (60

Hz) Hz) Hz) Hz)

Max. 1,560 (50 Hz) Max. 1,890 (60 Hz)

-

700 - 800

-

1,495 - 1,505 (50 Hz) 1,795 - 1,805 (60 Hz)

3,544 i361.4 3,357 (342.3

-

3,752 (50 382.6) (50 3,540 (60 361 .O) (60


(50 Hz) (60 Hz)

Max. 1,575 (50 Hz) Max. 1,890 (60 Hz)

700 - 800 rpm

700 - 800

-

341 kW/1,700 rpm I457 HP/l ,700 rpm)

1,695 - 1,705

2,737 - 2,905 1279.1 - 296.2)

1,200 - 1,400

3,004 - 3,187 f306.3 - 325.0)

2,157 Nm/1,300 {220 kgm/1,300

rpm rpm1

Low idling spee

680 - 780 rpm

680 - 780

-

383 1510 427 {572

kW/1,500 HP/l,500 kW/1,800 HP/l,800

IMax. torque IHigh idling spee Low idling spee’

Hz) Hz) Hz) Hz)

(50 Hz) (60 Hz)

700 - 900 rpm 379 (508 ..~. 446 1598

kW/1,500 HP/l ,..~ 500 kW/1,800 HP/l,800

rpm (50 Hz) roml (50 Hz) r _~_. ~, rpm (60 Hz) rpm) (60 Hz)

(50 Hz) (60 Hz)

-

Max. 1,568 Max. 1,881

-

(50 Hz) (60 Hz)

1,495 - 1,505 (50 Hz) 1,795 - 1,805 (60 Hz)

rpm rpm) rpm rpm)

(50 (50 (60 (60

Hz) Hz) Hz) Hz)


Max. 1,560 Max. 1,872

3,432 1350 3,393 {346

-

700 - 900 rpm

-

(50 Hz) (60 Hz)

1,495 - 1,505 (50 Hz) 1,795 - 1,805 (60 Hz)

Max. 1,568 Max. 1,881

3,521 (50 Hz) 359) (50 Hz) 3,481 (60 Hz) 355) (60 Hz)

-

3,668 {374 3,638 {371

-

3,883 3961 3,854 3931

-

(50 Hz) (60 Hz)

3,570 (50 Hz) 364) (50 Hz) 3,354 (60 Hz) 342) (60 Hz)

-

700 - 900

700 - 900 rpm kW/1,500 HP/l,500 kW/1,800 HP/l,800

1,795 - 1,805 (60 Hz)

3,373 {344 3,168 1323

-


417 {559 492 1660

1,495 - 1,505 (50 Hz)

700 - 900

-

Low idling spee

Flywheel Horsepower

(50 (50 (60 (60

-



rpm rpm} rpm rpm)

-

Low idling spee

Hz) Hz) Hz) Hz)

-

-

Flywheel Horsepower

Load

3,752 (50 Hz) 382.6) (50 Hz) 3,540 (60 Hz) 361 .O} (60 Hz)

1,800 - 1,900

EG500-1 EG500B- 1 EG500BI i-1 Max. torque OEM for generato r (Engine Nc1. IHigh idling spee 13265 and uPI

12-041-3 0

1,795 - 1,805 (60 Hz)

3,544 I361.4 3,357 1342.3

1,800 - 1,900 rpm

IFlywheel Horsepower

OEM for generato r

1,495 - 1,505 (50 Hz)

High idling spee

SA6D170-B-

OEM for generato r

kW/1,500 HP/l,500 kW/1,800 HP/l,800

-

ILow idling spee IFlywheel Horsepower

(50 Hz) (60 Hz)

700 - 800 rpm

IMax. torque IHigh idling spee

Hz) Hz) Hz) Hz)


-


ILow idling spee, IFlywheel Horsepower

(50 (50 (60 (60

-

IMax. torque High idling spee

rpm rpm) rpm rpm}

TEST CRITERIA

(50 Hz) (60 Hz)

700 - 900

-

(50 Hz) 150 Hz) (60 Hz) (60 Hz)

TESTING

* *

*

AND ADJUSTING

PERFORMANCE

TEST CRITERIA

The table gives the standard values using the JIS compensator factor. The values in the table are the standard values for machines with the muffler installed, air cleaner installed, alternator under no load, and air compressor opem (if installed). The loads for the dynamometer are at an arm’s length of 716 mm Flywheel horsepower ikw {HP})

362.1 W35.1 412.9 l553.1

- 382.7 (50 -512.7) (50 - 436.4 (60 - 584.71 (60

Torque (Nm NgmI) Hz Hz Hz Hz

-

Fuel consumption (seci500 cc) 17.7

70-95

80-115

Min.

15.5

70-95

80-115

385.7 (516.7 457.8 (613.3

-

412.9 1553.1 491.6 1658.6 -

-

265 {2.7 294 {3.0

-

-

392 4.0} 441 4.5)

Exhaust temperature (“C) Max. 680 Max. 680

-

-

-

-

-

-

70-95

80-115

-

-

-

70-95

Min. 80

Min. 98 {Min. l.O}

-

265 - 392 $‘9’;: I”4.i

Max. 680

422.5 566.0) 478.4 640.9)

(50 (50 (60 (60

Hz Hz Hz Hz

349.2 - 370.6 W37.8 - 496.5)

-

-

Lubrication oil pressure (kPa (kg/cm21)

-

Min.

16.1

70-95

80-115

Min.

14.2

70-95

80-115

-

379.0 (507.8 427.6 c572.9

Lubrication oil temperature (“0

Min.

-

398.9 1534.4 453.4 (607.4 -


402.6 (50 539.31 (50 454.1 (60 608.4) (60

396.7 (50 531.51 (50 471 .O (60 631.0) (60

437.9 586.7) 521.1 698.1)

-

-

-

70-95

80-115

-

70-95

Min. 80

Min. 98 {Min. 1.0)

70-90

90-110

392 - 539 (4.0 - 5.5)

Min.

Hz Hz Hz Hz

Hz Hz Hz) Hz:

(50 Hz) (50 Hz: (60 Hz: (60 Hz;

i3.0 - 4.5)

18

-

Max. 680

-

Max. 650

2,151 - 2,282 (219.3 - 232.7)

-

70-90

90-110

-

-

-

-

70-90

90-110

-

-

-

-

Min. 70

Min. 90

Min. 118 {Min. 1.2)

-

343 - 441 $3.3” I t.4

Max. 600

Min.

17.1

70-85

80-110

Min.

14.4

70 - 85

80-110

(3.5 - 4.5)

-

-

-

70-85

80-110

343 - 441 (3.5 - 4.51

-

Min. 70

Min. 80

Min. 176 {Min. l.S}

-

Max. 620

-

245 i2.5 245 (2.5

-

441 4.5) 441 4.51

Min.

17.1

70 - 85

80-110

Min.

14.2

70-85

80-110

-

-

-

-

70-85

SO-110

245 - 441 12.5 - 4.5)

-

Min. 70

Min. 80

Min. 147 {Min. 1.5} 245 12.5 245 {2.5

-

441 4.5) 441 4.5)

Min.

15.9

70-85

80-110

Min.

13.2

70-85

80-110

-

-

-

-

70-85

80-110

245 - 441 f2.5 - 4.5)

-

Min. 70

Min. 80

Min. 147 {Min. 1.5)

Max. 650 Max. 680

Max. 650 Max. 650

12-041-4 @

TESTING

AND ADJUSTING

Engine model

PERFORMANCE

Test item

Flywheel Horsepower

OEM for generator

Specified

378 1506 403 1539

High idling

speed

12-041-5 63

Hz) Hz) Hz) Hz)

1,495 - 1,505 (50 Hz) 1,795 - 1,805 (60 Hz)

3,315 {338 2,981 I304

-

(50 Hz)

Max.

1,568 (50 Hz)

-

Max.

1,881 rpm

(60 Hz)

Max.

1,881 (60 Hz)

-

700 - 900 rpm

445 kW/1,800 I597 HP/l,800

Max. torque

-

700 - 900

rpm rpm)

1,795 - 1,805

-

-

3,393 - 3,491 1346 - 3561

High idling

speed

Max. 2,200 rpm

Max. 2,200

-

Low idling

speed

600 - 1,000 rpm

600 - 1,000

-

275 I369 345 I462

kW/l,OOO rpm HP/l,000 rpm) kW/1,200 rpm HP/l,200 rpm)

(50 (50 (60 (60

Hz) Hz) Hz) Hz)

995 - 1,505 (50 Hz) 1,195-

1,205 (60 Hz)

Load

3,511 (50 Hz) 358) (50 Hz) 3,158 (60 Hz) 21 I} (60 Hz) -

1,568 rpm

speed

Flywheel Horsepower

SA6D170-B-

(50 (50 (60 (60

Dynamometer (N ikgl)

Max.

Flywheel Horsepower

OEM for 6-pole generator

rpm rpm} rpm rpm} -

Max. torque

Low idling

EPSAGD17( -B-

kW/1,500 HP/l,500 kW/1,800 HP/l,800

Engine speed irpm)

value

TEST CRITERIA

3,169 1369 3,815 1389

-

3,834 (50 Hz) 3911(50 Hz) 4,031 (60 Hz) 41 I} (60 Hz) 8

-

Max. torque High idling

speed

Low idling

speed

Max. Max.

1,045 rpm 1,254 rpm

(50 Hz) (60 Hz)

750 - 850 rpm

Max. Max.

1,045 (50 Hz) 1,254 (60 Hz) 750 - 850

-

-

z z

TESTING

* +

*

AND ADJUSTING

PERFORMANCE

The table gives the standard values using the JIS compensator factor. The values in the table are the standard values for machines with the muffler installed, air cleaner installed, alternator under no load, and air compressor opem (if installed). The loads for the dynamometer are at an arm’s length of 716 mm Flywheel horsepower ikW {HP})

372.4 f498.9 401.9 1538.4 -

Torque (Nm {kgm))

396.0 (50 530.51 (50 426.9 (60 571.91(60

Fuel consumption (seci500 cc)

-

Min.

-

Min.

-

-

-

415.8 - 440.9 1557.1 - 590.61

-

271.6 f363.8 343.0 {459.5

-

287.8 385.51 363.6 487.1)

(50 (50 (60 (60

Hz: Hz1 Hz] Hz)

z

14.9

70 - 85

80-110

-

245 i2.5 245 12.5

-

80-110

-

70 - 85

80-110

-

Min. 70

Min. 80

75-85

90-110

-

-

{Min.’ l.O}

Max. 600 Max. 620

-

294 - 490 t3.0 - 5.01

Max. 640

75 - 85

80-110

294 - 490 I3.0 - 5.0)

-

-

-

Min. 75

Min. 80

Min. 98 {Min. 1.0)

-

-

Min. 24.2

70-85

85-110

Min.

70-85

85-110

18.9

294 I3.0 343 13.5

-

-

-

-

-

-

-

-

the radiator


-

245 - 441 12.5 - 4.5) 245 - 441 ‘2.., “9.851

-

and operate

441 4.5) 441 4.5)

-

-

70 - 85

15.3

Lubrication oil pressure ikPa {kg/cm*})

-

The SAA6D170-1 engine for the generator the generator at the front of the radiator. install

80-110

-

Min.

2 z

Lubrication )il temperature (“0

70 - 85

-

-


16.8

-

-

*

TEST CRITERIA

and air-cooled

-

Min.

-

is equipped with an air-cooled aftercooler. When carrying out an output performance

aftercooler

to a stand

to give a same condition

441 4.5) 490 5.0)

Max. 650 Max. 700

-

147

-

The aircooled aftercooler is installed to test of the engine as an individual part,

as when they are mounted

on the machine,

with the fan.

12-041-6 03

TESTING

PERFORMANCE

AND ADJUSTING

rpplicable machine

Test item

:lywheel Horsepower flax. torque VA600-1 IC regulaon)

Dynamometer (N Ngl)

1,995 -2,005

2,180 - 2,310 1223-235)

1,960 Nm

1,300- 1,500

2,820 -2,940 1287-3001

2,200-2,300

-

.ow idling

speed.

650 - 700 rpm

650-700

-

flax.

torque

Load

305 kW

2,200 - 2,300 rpm

_owidling speed

12-041-7 63

Engine speed (rpm)

speed

iigh idlingspeed

SA6D170-AE.

value

idling

iigh

'lywheel Horsepower ,ENYO enerator KzA600SSI K

Specified

TEST CRITERIA

470 kW

1,495-1,505 (50 Hz)

513 Kw

1,795-1,805 (60 Hz)

-

Max.1,570 rpm Max.1,880 rpm 700-900rpm

(50 Hz) (60 Hz)

Max. Max.

1,570 (50 Hz) 1,880 (60 Hz) 700 - 900

4,190-4,380 (50 Hz) {420-4471(50 Hz) 3,780-4,020 (60 Hz) {386-411) (60 Hz)

-

TESTING

* *

*

PERFORMANCE

AND ADJUSTING

TEST CRITERIA

The table gives the standard values using the JIS compensator factor. The values in the table are the standard values for machines with the muffler installed, air cleaner installed, alternator under no load, and air compressor opem (if installed). The loads for the dynamometer are at an arm’s length of 716 mm Flywheel horsepower W’C-W)

Torque N-n {kgm))

328 - 346 (Gross) WI5 - 4701 (Gross)

Min. 18.7

I

463 - 493 (Gross,50Hz) {630- 670NGross.50Hz) 511 -543(Gross,GOHz) {695- 7391(Gross,60Hz)

Coolant temperature ('0

Lubrication ,il temperature (“0

110

Lubrication oil pressure Wa {kg/cm2})


280-490 12.8-5.01

Max.610

70-90

go-

-

70-90

90-110

-

-

70-90

90-110

280-490 {2.8-5.01

-

-

-

70-90

90-110

Min. 150 {Min. 1.5}

-

Ain.13.8 (50 H2

75-85

85-110

Ain.12.0 (60 H2

75-85

85-110

2,010 -2,110 (Gross) {205-215) (Gross)

-


-

-

Max.650

840-540 (50 Hz 3.5-5.5) (50 Hz 870-540 (60 Hz 3.8-5.5) (60 Hz

Max.650 Max.650

-

-

-

-

-

-

-

-

-

-

75-85

85-110

340-540 {3.5- 5.51

-

-

-

-

75-85

85-110

Min. {Min.

-

180 180)

1 Z-041 -8 @

TESTING

AND ADJUSTING

Engine model

Applicable machine

PERFORMANCE

Test item

Specified

Flywheel Horsepower

597 kW/1,500 {800 HP/l,500

value

Engine speed (rpn-0

rpm (Net) rpmj (Net)

1,495 - 1,505

5,140 - 5,460 1524 - 557)

-

-

Max. 1,570

-

700 - 900

-

-

Max. torque

TEST CRITERIA


jenerator 50 Hz onl) High idling spee

Low idling speel

SAAGD170-1

12-041-9 03

Max.

1,570 rpm

700 - 900 rpm

Load

TESTING

* *

*

PERFORMANCE

AND ADJUSTING

TEST CRITERIA

The table gives the standard values using the JIS compensator factor. The values in the table are the standard values for machines with the muffler installed, air cleaner installed, alternator under no load, and air compressor opem (if installed). The loads for the dynamometer are at an arm’s length of 716 mm Flywheel horsepower (kW (HP}) 579 - 612 (Gross) {775 - 819) (Gross)

Torque

(Nm ikgm})

-


-

-

Lubrication lit temperature (‘C)

Lubricatior oil pressun (kPa {kg/cm2

80-110

260 - 370 l2.6 - 3.8)

-

-

-

-

70-85

80-110

-

-

Min. 70

Min. 80

Min.

11.0

-

Coolant temperature (‘0

70 - 85

Min. 150 {Min. 1.5}

I

1)


Max. 650

-

-

-

-

-

12-041-10 03

PRECAUTIONS

WHEN

OPERATING

THE

ENGINE

INDEPENDENTLY *

If the engine is operated with

a double

tions will differ

independently

lip seal fitted, from

on a bench

the lubricating

condi-

actual running conditions,

re-

sulting in possible damage to the seal lip. 1.

When running-in the engine or subjecting it to a bench test, use the rear seal shown in the diagram at right on all models for the duration of testing.

Engine side

Clutch side

_

-

6162F202

2.

After

completing

running-in or bench testing,fit

I

the correct rear seal.

‘Torque co&etier side or clutch side

23 k 0.6

Engine side H

6162F203

*

Precautions when fitting rear seal 1)

A new rear seal is coated with event that

grease.

In the

it becomes soiled, however,

wipe it

clean with a cloth and coat it with about 1.2 to 1.6 cc of G2-Ll 2)

(lithium grease).

Be careful not to damage the rear seal when fitting it.

TESTING

No.

AND

ADJUSTING

Inspection and measuring item

1

Engine speed

2

Batten/ S.G.

TOOL LIST

Fault finding tool

Part No.

Multi-tachometer

799-203-8001

Battery, coolant tester

795-500-l001

Remarks Digital reading, pressure type 60 to 19,999 rpm

sensing

1 .lOO to 1.300

3

Freezing temperature cooling water

of

4

Water temperature, oil temperature, air intake temperature

5

Exhaust temperature

Digital temperature

gauge

790-101-1500

-5°C

to -50°c

-99.9

- 1.299”C

0 to 20 kg/cm*

0 to 50 kg/cm2

1

Pressure test kit

8

intake pressure, exhaust pressure

9

Blow-by pressure

D to 500 mmHz0

10

Air intake resistance

-100 to 0 mmHz0

11

Compression pressure

Compression gauge kit

795-502-1205

0 to 70 kg/cm’

12

Blow-by pressure

Blow-by checker

799-201-I

D to 500 mmH,O

15

11

Water and fuel content in oil

1 Fuel injection pressure

Engine oil checker

799-203-2002

503

0 to 1,000 mmHg

795-l 25-l 340

0.4, 1 .O mm

799-201-9000

Dirtiness 0 to 70% with standard color (Dirtiness % x l/10 = Bosch scale)

799-201-6000

Provided with 6.1 and 0.2% water content standard samples.

Commercially available

I to 300 kg/cm2

799-202-7001

JH, nitrite ion concentration

799-202-9001

I to 2 kg/cm*

799-202-2001

I to 40 m/s

795-610-1000

X24V

6162-234820

:or 6D170-1


Zurrent, voltage,_resistance

/ Nozz,eteSter

Fuel injection nozzle spray condition

18

Coolant quality

Water quality tester

Leakage in cooling water system

21

Radiator blockage (wind speed)

22

Engine cranking

23

Electrical circuits

Anemometer (Air speed gauge)

Tester

with starting engine series engine

12-043 0

TESTING

AND ADJUSTING

DATE

T

Engine model

S6Dl70-1

C5Z sifica -tior 8 6 E b Lt I?

Condition, etc.

item

T

PC650-1 PC1500-1

Applicable machine model Unit

Standard 1,700-I

,800

Tolerance 1,700-I

,800

WA600-1

Tolerance

Standard

2,200-2,300

2,200-2,300

High idling speed

rpm

Low idling speed

rpm

650-700

o”c

rpm

Min. 100

-

Min. 100

-

rpm

Min. 100

-

Min. 100

-

Engine speed

Necessary starting speed

-20°C

(with starting aid)

650-700

650-700

650-700

Intake resistance

At all speed

mmH,C

Max. 380

762

Max. 300

762

Intake pressure

At rated output

mmHg

Min. 800

700

Min. 600

540

Exhaust pressure (Turbine inlet pressure)

At rated output

mmHg

Min. 650

550

Min. 630

570

Exh’aust temperature (Turbine inlet temperature)

All speed (Intake air temp.: 2dC)

“C

Max. 650

Max. 700

Max. 650

Max. 700

Exhaust gas color

Quick acceleration (Low idling + High idling) At rated output At high idling

Bosch scale

Valve clearance (When engine is hot or cold.)

Max. 6.5

3.5

Max. 6.0

8.0

Max. 2.5 Max. 2.0

3.5 3.0

Max. 2.0 Max. 1.5

3.0 2.5

0.4

-

0.4

-

1 .o

-

1.0

-

Min. 29

20

8 Compression pressure (SAEBO oil)

Oil temperature: 40°C to 60°C (Engine speed)

Blow-by pressure (SAE30 oil)

At rated output Water temperature: Min. 70°C At rated output SAEBO oil

Oil pressure (Oil temperature: Min. 8O’Cj

E al t; > _ .-P 5 s

kg/cm’

Min. 29

(rpm)

(21 O-250)

mmH,C

20 (210-250)

Max. 150

300

Max. 150

300

kg/cm’

3.5-5.0

2.5

3.0-5.0

2.4

SAEI OW oil

kg/cm’

3.04.5

2.0

2.5-4.5

1.8

SAEBO oil

kg/cm’

Min. 1.5

0.7

Min. 1.5

0.7

SAEI OW oil

kg/cm’

Min. 1 .O

0.7

Min. 1 .O

0.7

SO-110

120

SO-

120

At low idling

Oil temperature

All speed (oil in oil pan)

Oil consumption ratio

At continuous rated output (Ratio of fuel consumption)

Fuel injection pressure

“C

1 .o

110

1

Max. 0.5

.o

%

Max. 0.5

Nozzle tester

kg/cm’

255 +’ 3 +5

211

55::s(-#1604: !65:?(#16044

3) -)

211

Fuel injection timing

B.T.D.C.

degree

42 + 1

42 f 1

42+1(-#16043 38*1(#16044

3)

42 + 1

Radiator pressure valve

Opening pressure (Differential pressure)

0.75 + 0.1 ‘C650-1 j ‘Cl 500-I)

Fan speed Fan belt tension

See page 12-031

*The

(210-250)

(210-250)

values given in the Testing and Adjusting data are NOT for adjustment of the output.

Do not use these values as a guide to change the setting of the fuel injection pump.

12-044 0

0.75 t 0.1

1,200 f 30 _

1 -)

0.75 f 0.1

1,200 f 30 -

;; z

TESTING

TESTING

AND ADJUSTING

AND ADJUSTING

DATA

S6D170-1 EPS6Dl70-1

D275A-2 Standard 1,960 -2,040 600-660 Min. 100 Min. 100

z z

I 1,960 -2,040 600-660 -

Standard I Max.2,030

Max. 2,030

Tolerance

Standard

700-800

Min. 100

-

Min.100

-

Min. 100

-

Min. 100

-

762

Max.300

810

-

Min.900

810

Max.650

Max. 6.0

8.0

-

Max. 1.3 Max. 1.0

2.3 2.0

2.5 Max.2.0

0.4

-

0.4

1.0

-

1.0

762 -

700

3.5 3.0

for generator (Power up)

Standard

Tolerance

Max.1.560(50Hz)Max. 1,560(50Hz)Max. 1,560(50Hz)Max.1,560(50Hz) Max.l.872(60Hz)Max.l,872(60Hz)Max.l.872(60Hz)Max.l.872(60Hz) 700-800

Min.900

Max.700

Tolerance

600-1,000

600-1,000

Max.300

Max.650

2

Tolerance

OEM

OEMforgenerator

!-I Max.300 -

I I

762 -

700

650

-

-

-

-

-

I

I -

Max. 3.0 -

700

650 I

-

Max.3.0 -

4.0 -

Min.29

20

Min.29

20

Min.29

20

Min.29

20

(210-250)

(210-250)

(210-250)

(210-250)

(210-250)

(210-250)

(210-250)

(210-250)

Max.300

600

Max.300

600

Max.400

800

Max.400

800

3.0- 5.0

2.5

3.0 - 5.0

2.4

3.3-4.5

2.3

3.3 -4.5

2.3

2.5-4.5

1.8

2.5-4.5

1.8

2.6 -4.2

2.0

2.6 -4.2

1.8

Min.l.5

0.7

Min. 1.0

0.7

Min. 1.2

0.7

Min. 1.2

0.7

Min.l.0

0.7

Min. 1.0

0.7

Min. 1.0

0.7

Min. 1.2

0.7

80-110

120

80-110

Max.0.5

1.0

Max. 0.5

220

260-268

270-278 37-39

37-39

41-43

41-43 0.65- 0.85

-

-

41-43

41-43

0.65-0.85

0.65-0.85

-

-

-

-

41-43 0.65 -0.85

41-43 0.65 -0.85

995-1,055(50Hz) 995-1,055(50Hz) 1,193-1,267(60Hz) 1,193 - 1,267(60Hz)

-

-

12-044-l 0

Engine model Applicable machine model Clasisification

“0 5 E 8 Y d

: z 2

z 7 _c 2

Itern

2 B al r .=

F

w

Unit

High idling speed

wm

Low idling speed

wm

0°C

rpm

Engine speed


-20°C

(with starting aid)

Intake resistance

At all speed

mmH,C

At rated output

mmHg

Exhaust pressure (Turbine inlet press” re)

At rated output

mmHg

Exhaust temperature (Turbine inlet temperature)

All speed (Intake air temp.: 20°C1

Exhaust gas color

Quick acceleration (Low idling-t High idling) At rated output At high idling

OC

Intake valve

mm

Exhaust valve

mm

Compression pressure (SAEBO oil)

Oil temperature: 4o”c to 60°C (Engine speed)


At rated output Water temperature: Min. 7O’C

Oil pressure (Oil temperature: Min. 80°C)

:

.-* 3

Bosch scale

Valve clearance (When engine is hot or cold.)

SAElOW

kg/cm’ (rpm)

mmH,C

At rated output SAEBO oil

z t

rpm

Intake pressure

-0

& P E :

Condition, etc.

oil

kg/cm’ kg/cm’

At low idling SAE30 oil

kg/cm’

SAElOW

kg/cm’

oil

P

z k ’

g

E

z ?; P

.= a 8

*The

Oil temperature





Nozzle tester

kg/cm’


B.T.D.C.

degree


Opening press” re (Differential pressure)

kg/cm’

Fan speed

At rated engine speed

rpm

Fan belt tension

Deflects when pushed with a force of 6 kg

mm

“C

%

values given in the Testing and Adjusting data are NOT for adjustment of the output

Do not use these values as a guide to change the setting of the fuel injection pump.

12-044-2 03

I

TESTING AND ADJUSTING DATA


SA6D170-A-1

S6D170-1 H D465-3 (with twin turbochrger) Tolerance

r

WA700-1

HD465-5 Standard

2,250 - 2,350

2,250 - 2,350

850 - 900

850 - 900

Min. 130

-

Min. 130

Min. 100

-

Min. 100

Tolerance

I

Standard

Tolerance

I

-

Min. 100 Min. 100

Max. 300

t

762 -

Max. 380

762

Max. 380

762

Max. 300

762

-

Min. 1,500

1,000

Min. 1,000

Min. 870

Min. 1,000

Min. 870

-

-

Min. 950

850

Min. 900

Min. 780

Min. 850

Min. 750

Max. 650

Max. 700

Max. 680

680

Max. 680

Max. 700

Max. 650

700

Max. 7.0

8.0

Max. 7.0

8.0

Max. 6.0

8.0

Max. 2.7 Max. 2.7

Z

Max. 3.0 Max. 2.0

4.0 3.0

Max. 2.0 Max. 1.0

3.0 2.0

0.4

-

1.0

-

Min. 28

20

Min. 28

20

Min. 28

20

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

Max. 300

600

Max. 300

700

Max. 350

700

Max. 350

700

3.0 - 5.0

2.0

3.0 - 5.0

2.0

3.0 - 5.0

2.1

2.5 - 4.5

1.8

2.5 - 4.5

1.8

3.0 - 5.0

2.4

2.5 - 4.5

1.8

Min. 1.0

0.7

Min. 1.5

0.7

Min. 1.5

0.7

Min. 1.5

0.7

Min. 1.0

0.7

Min. 1.0

0.7

Min. 1.0

0.7

Min. 1.0

0.7

80-110

120

80-110

120

80-110

120

80-110

120

Max. 0.5

1.0

Max. 0.5

1.0

Max. 0.5

1.0

Max. 0.5

1.0

270 - 278

220

305 - 313

247

305 - 313

247

305 - 313

247

28 - 30 *2 35 - 37 *3

35-37

41 - 43 (up to 13764) 37 - 39 (13765 and up)

-

0.65 - 0.85

0.65 - 0.85

1,220 - 1,280

1,220 - 1,280

-

*I : For cold weather specifica ‘2 : With electronic governor *3 : With mechanical governor

35-37

35 - 37

37 - 39 (-#14593) 37 - 39 (-#14593) 34 - 36 (#I4594) 34 - 36 (#14594-j

Ins

12-045 0

SAGDI 70-A-1

Engine model Applicable machine model Condition, etc.

b ‘;

d


Unit

High idling speed

rpm

Low idling speed

rpm

0°C

wm

Min. 100

rpm

Min. 100

-

mmH,C

Max. 450 1,200 (50H.z) 1,400 (60~2)

635 -

-20°C

(with starting aid)

Intake resistance

At all speed

Intake pressure

At rated output

mmHg

At rated output

mmHg

800 (50Hzj 1,000 (60Hzj

-

“C

Max. 650

Max. 650

Exhaust pressure : z ?; z 3 _c J 0

5

;G586-1, EG580B-1, EG600B-1 zG~OOBS-1, OEM for generator

EG550-1

Exhaust temperature (Turbine inlet

Exhaust gas color

2 B

All speed (intake air temp.: ZO’C) Quick acceleration (Low idling-t High idling) At rated output At high idling

Bosch scale

Intake valve

mm

Exhaust valve

mm

Max. 450

762

Max. 650

700

Max. 3.0

4.0

Min. 26

18

(When engine is

Oil temperature: 4O’C to 60°C (Engine speed)

Blow-by pressure

At rated output Water temperature: Min. 70°C

kg/cm’

Min. 26

(rpm)

(21 O-250)

mmH,C

Max. 280

400

kg/cm’

2.5 - 4.0

2.5 - 4.0

At rated output SAE30 oil Oil pressure (Oil temperature: Min. 80°C)

SAEIOW

oil

kg/cm’

SAE30 oil

kg/cm’

Min. 1.5

0.7

SAEIOW

kg/cm2

Min. 1 .O

0.7

oil


OC



%

Max. 0.5

kg/cm*

300+’ 3 +5

Nozzle tester

B.T.D.C.

j

8

0

[ Fan speed Fan belt tension

1 ,

80-

110

degree


kg/cm’


ram


mm

*The values given in the Testing and Adjusting data are NOT for adjustment of the output. Do not use these values as a guide to change the setting of the fuel injection pump.

12-046 0

Max. 400

800

3.0 - 4.5

2.1

2.5 - 4.0

1.8

Min. 1.5

0.7

Min. 1 .O

0.7

At low idling

Oil temperature

g

18 (210-250)

120

1 .o

270

---I--80-110

Max. 0.5

300;;” 37 fl

120

1 .o

247 37 fl

TESTING

TESTING

AND ADJUSTING

AND ADJUSTING

DATA

SA6D170-A-1 EPSAGD170-A-1

EG580B-1L

HD465_3(ForORAPAMINE) Tolerance

-

{Max. 1,560(50Hz)Max.l,560(50Hz)

2,300+ 50

2,300 k 50 85OklO

Min. 130

-

Min.130

-

Min.100

-

Min. 100

-

300 -

762

650

;:: 0.4 2 z z

1.0 Min.26

Max.350

- I- II I -

700

4.5 3.5

Min. 1,150

762 1,100

-

Max.650

700

Max. 1.5 Max. 1.0

380

I

-

762 -

-

-

680

700

-

6.0

8.0

2.5 2.0

2.0 2.0

3.0 3.0

-

0.4

-

0.4

-

-

1.0

-

1.0

-

18

(210-250)

210-250)

300

600

20

Min.28 (210-250)

Max.400

2.7-4.5

1.9

3.0-4.5

2.2 -4.0

1.5

-

Min. 1.5

0.7

Min. 1.0

0.7

-

80-110

120

80-110

210-250)

20

Min.28 (210-250)

210-250)

800

Min. 1.0

700

2.0

3.0 - 5.0

2.1

-

2.5-4.5

1.8

0.7

Min. 1.5

0.7

-

Min. 1.0

0.7

120

)

1.0

247 36+_1

0.75 * 0.1

0.75 f 0.1

0.75 k 0.1

1,020f26

1,020 + 26

1,230 k 40

-

-

Auto

0.75 * 0.1 1,230 + 40

tension

1,250? 30

1,250+ 30

Auto tension

12-047 0

TESTING

TESTING

AND ADJUSTING

Engine model Applicable

machine

AND ADJUSTING

DATA

SA6D170-A-1

I

model

HD465-3 (With single turbocharger)

Pc1ooosP-1

Standard

Tolerance

High idling speed

2,250 - 2,350

2,250 - 2,350

Low idling speed

940 - 990

940 - 990

-

Min. 130

-

-

Min. 100

-

7.5 1762)

Max. 3.7 {Max. 380)

-

Min. 10.8 {Min. 1,100)

-

Min. 10.3 {Min. 1,050)

700

Max. 650

5.0

Max. 6.0

7.0

2.5 2.0

Max. 2.0 Max. 2.0

%!I

-

0.4

-

-

1.0

-

Condition,

Item

etc.

1

IEngine speed


-20°C (with starting

IIntake resistance

At all speed

Intake pressure

At rated output

IExhaust pressure /[Turbineinlet pressure)

At rated output

IExhuast temperature ,[Turbine inlet 1temDerature)

aid)

rpm kPa [mmHzOI kPa ImmHgI

All speed (intake air temp.: 20°C)

Valve clearance (When engine is Hot or cold) Compression pressure (SAE30 oil)


Intake valve

Min. 100

Max. 650

Bosch scale

mm

0.4 7

Exhaust valve Oil temperature: 40°C to 60°C

~~

mm

1.0

MPa {kg/cm?

Min. 2.55 {Min. 26)

(rpm)

(Engine speed)

I

-

“C

At rated output At high idling

Min. 100

Max. 2.9 {Max. 300)

kPa ImmHg)

Quick acceleration (Low idling --f High idling) IExhaust gas color

I

rpm

0°C

1

(210-250)

I

1.77 {I81

1

(210-250)

At rated output Water temperature: Min. 70°C At rated output SAW0


oil

At low idling SAE30

*

294 - 441 (3.0 - 4.5)

kPa {kg/cm21

206 (2.1)

(210 - 250)

(210 - 2501

Max. 3.4 {Max. 350)

6.9 I7001

{20)

oil

kPa {kg/cm?

245 - 441 12.5 - 4.5) Min. 147 {Min. 1.5)

kPa {kg/cm?

oil

SAEIOW

1,96

294 - 490 (3.5 - 5.0)

oil

SAElOW

Min. 2.75 {Min. 28)

Min. 98 {Min. 1.0)

1

Oil temperature





Nozzle tester


B.T.D.C.

Radiator vavle


64-83 {0.65 - 0.85)

64-83 IO.65 - 0.851

Fan speed

At rated engine

1,220 - 1,280

1,220 - 1,280

Fan belt tension

Deflects when pushed with a force of 6 ko

pressure

% MPa {kg/cm21

I

120

Max. 0.5

1.0

Max. 0.5

1.0

26.5 - 27.3 (210 - 278)

21.6 (220)

29.9 - 30.7 (305 - 313)

24.2 (2471

37-39

speed

mm

-

The values given in the Testing and Adjusting

data are NOT for adjustment

Do not use these values as a guide to change

the setting of the fuel injection

12-047- 1 0

80-110

of the output. pump.

37-39

See page 12-031

TESTING

AND ADJUSTING

TESTING

AND ADJUSTING

DATA

SA6D170-A-1

r

EM680A

T

EM680A-1 EM170B-1

H D465-5 (High altitude spec.)

EM680A-A

Standard

Tolerance

Standard

Tolerance

Standard

Tolerance

2,100 - 2,200

2,100 - 2,200

2,000 - 2,200

-

2,100 - 2,200

2,100 - 2,200

550 - 600

550 - 600

550 - 600

-

550 - 600

550 - 600

Min. 130

-

Min. 130

-

Min. 130

-

Min. 130

-

Min. 100

-

Min. 100

-

Min. 100

-

Min. 100

-

Max. 2.9 {Max. 300)

7.5 {762)

Max. 3.7 {Max. 380)

7.5 {762)

Max. 2.9 {Max. 300)

-

Max. 2.9 {Max. 3001

7.5 17621

Min. 168 (Min. 1.3001

-

Min. 155 (Min. 1,200}

-

-

Min. 80 {Min. 620)

Max. 550

700

Max. 600

-

-

Max. 2.0 Max. 2.0

Max. 2.0 Max. 2.0

-

Min. 106 {Min. 820} Min. 95 {Min. 7401

60

Max. 650

700

-

-

3.0 2.0

Max. 1 .O Max. 0.5

Max. 620

2.0 1.5

8

1.0

2 -

z z

Min. 2.75 (Min. 281

1.96 {201

Min. 2.75 {Min. 28)

1.96 (201

Min. 2.75 {Min. 28)

1.96 1201

Min. 2.75 {Min. 28)

1.96 I201

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

Max. 3.4 {Max. 3501

6.9 I7001

Max. 2.9 {Max. 300)

5.9 {6001

Max. 3.4 {Max. 350)

6.9 (7001

294 - 490 (3.0 - 5.0)

294 - 490 l3.0 - 5.01

206 (2.1)

294 - 490 13.0 - 5.0)

245 - 441 (2.5 - 4.51

245 - 441 {2.5 - 4.5)

177 Il.81

245 - 441 (2.5 - 4.51

245 - 441 (2.5 - 4.5)

177 11.81

Min. 147 (Min. 1.5)

Min. 147 {Min. 1.5}

I&

Min. 147 {Min. 1.5)

Min. 147 {Min. 1.5}

1:;)

Min. 98 {Min. 1.0)

Min. 98 {Min. 1.0)

{:?I

Min. 98 (Min. l.O}

Min. 98 {Min. I.01

&

0.4

80-110

Max. 0.5 29.9 - 30.7 I305 - 3131 33-35

-

-

1.0 24.2 I2471

0.4

-

0.4

-

1.0

-

1.0

-

80-110

120

80-

110

120

Max. 0.5

1.0

Max. 0.5

1.0

29.9 - 30.7 (305 - 3131

24.2 {247)

29.9 - 30.7 (305 - 3131

24.2 I2471

33-35

33-35

33-35

29-31

-

-

-

-

-

-

-

17

15 - 19

-

24.2 12471

29.9 - 30.9 {305 - 3151

29-31

-

I

-

12-047-2 0

TESTING

TESTING

AND ADJUSTING


Clas


model

f Unit

etc.

OEM for generator Standard

IG600BS-1, OEM for generator (Engine No. 15503 and up)

Tolerance

Tolerance ax. 1,568 (50Hz) ax. 1,881 (60Hz)

lax. 1,568 (50Hz) lax. 1,881 (60Hz)

High idling speed

vm

Aax. 1,560 (50H; Aax. 1,872 (60H;

Max. 1,560 (50Hi Max. 1,872 (60H2

Low idling speed

wm

950 - 1,000

950 - 1,000

700 - 900

700 - 900

Min. 130

-

Min. 130

-

Min. 100

-

Min. 100

-

Max. 3.9 {Max. 400)

7.5 {762)

Max. 3.9 {Max. 400)

7.5 I7621

0°C -20°C (with starting

rpm

aid)

kPa

Intake resistance

At all speed

{IrnmHz0)

Intake pressure

At rated output

Imml-lg)

-

-

-

At rated output

kPa

I mml-fg}

-

-

-

-

Max. 650

700

Max. 650

700

-

-

-

Exhaust pressure Turbineinlet pressure) Ixhuast temperature :Turbine inlet :emperature)

kPa

All speed [intake air temp.: 20°C)

“C

Quick acceleration [Low idling + High idling) !xhaust

gas color

dalve clearance :When engine is iot or cold) Zompression oressure SAE30 oil)



Max. 1.5 Max. 1.0

2.5 2.0

Max. 1.2 Max. 1.0

mm

0.4

-

0.4

-

Exhaust valve

mm

1.0

-

1.0

-

MPa 1kg/cm?

Min. 2.55 {Min. 26}

1.77 (181

Min. 2.55 {Min. 26)

1.77 {18I

(rpm)

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

kPa Min. 70°C : { mmHz0

Max. 3.9 {Max. 400)

Max. 3.9 {Max. 400)

7.8 {800}

kPa (kg/cm?

255 - 441 12.6 - 4.5)

343 - 441 13.5 - 4.5)

kPa (kg/cm21

216 - 392 {2.2 - 4.0)

294 - 441 13.0 - 4.51

kPa [kg/cm?

Min. 147 {Min. 1.5}

Min. 147 {Min. 1.5}

kPa

Min. 98 {Min. 1.0)

Min. 98 {Min. l.O}

Oil temperature: 40°C to 60°C [Engine speed) At rated output Water temperature:

SAE30 oil Oil pressure (Oil temperature: Min. 80°C)

Bosch scale

Intake valve

At rated output

SAEIOW

oil

At low idling SAEJO oil SAEIOW

*

DATA

SA6D170-A-1

Condition,

sifica - tior 8 6 E b ‘t a”

machine

AND ADJUSTING

oil

i(kg/cm?

Oil temperature


“C

80-110

120

80-110



%

Max. 0.5

1.0

Max. 0.5


Nozzle tester

MPa

29.7 - 30.9 1303-315)

24.2 {247)

29.9 - 30.7 I305 - 313)


B.T.D.C.

Radiator vavle


pressure

i(kg/cm? degree kPa

i[kg/cm?

33-35 64-83 to.65 - 0.85)

64-83 lo.65 - 0.85)

995 - 1,055 (50Hi 995 - 1,055 (50Hz ,192 - 1,266 (6Ok 1,192 - 1,266 (60H

Fan speed

At rated engine

Fan belt tension


speed

-

mm





12-047-3 0

33-35


30-32 59-78 fO.6 - 0.8)

1.0 24.2 I2471 30-32 59-78 fO.6 - 0.8)

95 - 1,055 (50Hz) 195- 1,055 (50Hz) 192- 1,266 (60Hz: 192 - 1,266 (60Hz)

-

8 z &

TESTING

TESTING

AND ADJUSTING

AND ADJUSTING

DATA

SA6D170-A-1 OEM for generator (Prime use) Standard

T

Tolerance

Max. 1,568(50Hz: Aax.1,566(50Hz Max. 1,981@Hz: Aax.1,981(60Hz

OEM for generator (Standby use) Standard

r

Tolerance

Tolerance

2,100 - 2,200

Max. 2,200

Max. 2,200

700 - 900

700 - 900

700 - 900

550 - 600

550 - 600

700 - 900

700 - 900

Min. 130

-

Min. 130

-

Min. 130

-

Min. 130

-

Min. 100

-

Min. 100

Min. 100

-

Min. 100

-

Max. 3.9 {Max. 400)

7.5 {762)

Max. 4.9 {Max. 500)

Max. 2.9 {Max. 300)

Max. 650

700

-

-

Max. 1.2 Max. 1.0

z

Standard

700 - 900

-

z

Standard

lax. 1,575(50Hz) Bax.1,575(50Hz) 2,100 - 2,200 lax. 1,890(60Hz) [ax. 1,890(60Hz)

-

$

EPSAGD170-A-1 512 kW (686 HP}

OEM for marine

Z

Max. 700 Max. 2.5 Max. 2.5

700

-

2:;

Max. 3.9 {Max. 400)

-

-

-

-

Max. 650

-

700

-

7.5 {762)

Max. 650

700

-

Max. 1.0 Max. 1.0

it

Max. 2.5 Max. 1.5

3.5 2.5

0.4

-

0.4

-

0.4

-

0.4

-

1.0

-

1.0

-

1.0

-

1.0

-

Min. 2.55 {Min. 2.6)

1.77 (18)

Min. 2.55 {Min. 2.6)

1.77 U8I

Min. 2.75 {Min. 28)

1.96

120)

Min. 2.55 {Min. 26)

1.77 118)

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

Max. 3.9 {Max. 400)

7.8 {800)

Max. 3.9 {Max. 400)

7.8 I8001

Max. 3.4 {Max. 350)

6.9

{700)

Max. 3.9 {Max. 4001

7.8 {8001

343 - 441 13.5 - 4.5)

245 I2.5)

226 - 392 12.3 - 4.0)

157 Il.61

294 - 490 {3.0 - 5.0)

206 (2.1)

294 - 490 (3.0 - 5.0)

294 - 441 13.0 - 4.5)

206 12.1)

177-348 Il.8 - 3.5)

127 Il.31

245 - 441 l2.5 - 4.5)

245 - 441 t2.5 - 4.5)

Min. 147 {Min. 1.5)

Min. 147 {Min. 1.5)

r%

Min. 147 {Min. 1.5)

Min. 98 {Min. I.01

Min. 98 {Min. 1.0)

r%

Min. 98 {Min. 1.0)

80-110

120

80-110

120

90-110

120

80-110

120

Max. 0.5

1.0

Max. 0.5

1.0

Max. 0.5

1.0

Max. 0.5

1.0

29.9 - 30.7 1305 - 313)

24.2 {247I

29.9 - 30.7 {305 - 313)

24.2 {247)

29.9 - 30.7 I305 - 313)

24.2 {247)

29.9 - 30.7 I305 - 313)

24.2 1247)

29 - 31 (50 Hz] 29 - 31 (50 Hz 31 - 33 (60 Hz] 31- 33 (60 Hz 59 - 78 IO.6 - 0.8)

59-78 CO.6- 0.8)

33-35 59-78 IO.6 - 0.8)

33-35 59-78 to.6 - 0.8)

995- 1,055(50Hz) 395- 1,055(50Hz: 195- 1,055(50Hz) 395- 1,055(50Hz) 1,192- 1,266(60Hi ,192- 1,266(60H; 192- 1,266(6OH2 ,192- 1,266(60Hz

-

-

33-35

33-35

-

-

-

36 - 38 39 - 59

36-38 39-59

IO.4 - 0.6)

IO.4 - 0.6)

-

-

-

-

-

-

12-047-4 0

Engine model

SAGD170-6-l D375A-1 (Engine No. up to 11117)


Item

Condition, etc. High idling speed

D375A-1 (EngineNo. 11118andup)

Unit

Standard

rpm

1,950-2,050

1,950-2,050

1.950-2.050

1,950-2,050

rpm

600-700

600-700

600-700

600-700

rpm

Min. 130

-

Min. 130

-

rpm

Min. 100

-

Min. 100

-

Tolerance

Standard

Tolerance

Engine speed Low idling speed I

I

ooc


-20°C (with starting aid)

Intake resistance

At all speed

mmH,O

Max. 380

635

Max. 380

635

Intake pressure

At rated output

mmHg

Min. 1,100

825

Min. 950

825


At rated output

mmHg

Min. 900

810

Min. 900

810

Exhaust temperature (Turbine inlet temoeraturel


OC

Max. 650

Max. 650

Max. 650

Max. 650

Max. 7.0

8.0

Max. 6.0

8.0

Max. 4.5 Max. 1.5

5.5 2.5

Max. 2.5 Max. 1.5

3.5 2.5

Valve clearance (When engine is hot or cold)

Intake valve

mm

0.4

-

0.4

-

Exhaust valve

mm

1 .o

-

1 .o

-

Compression pressure (SAEBO oil)

Oil temperature: 40°C to 60°C (Engine speed)

8

I Blow-by pressure (SAEBO oil)

Oil temperature

+

(21 O-250)

Min. 26

20 (21 O-250)

(21 O-250)

18

;o

(21 O-250)

I At rated output Water temperature: Min. 70°C At rated output SAEBO oil


kg’cm2 (rpm)

Min. 28

mmH?O

Max. 280

560

Max. 350

700

kg/cm2

3.0 -

5.0

2.0

3.0 -

5.0

2.0

SAElOW oil

kg/cm2

2.5 -

4.5

1.8

2.5 -

4.5

1.8

SAEBO oil

kg/cm*

Min. 1.5

0.7

Min. 1.5

0.7

SAElOW oil

kg/cm2

Min. 1 .O

0.7

Min. 1 .O

0.7

At low idling


80-110

120

80-110

120

Max. 0.5

1.0

Max. 0.5

1 .o

265 +15 +5

220

265 +’ 3 +5

220


6.T.D.C

degree



kg/cm*

0.75 + 0.1

0.75 i 0.1

0.75 * 0.1

0.75 + 0.1

Fan speed


rpm

1,050 f 30

1,050 i 30

1,050 i 30

1,050 i 30

Fan belt tension


mm

38t

38*

1

The values given in the Testing and Adjusting data are NOT for adjustment of the output Do not use these values as a guide to change the setting of the fuel injection pump.

12-048 0

1

38il

See page 12.031

38i

1

z

SAGDl70-8-1 HD465-3 (with single turbocharger)

D375A-2 Standard 2,000

+ 40

630 zt 50

2 ;;;

Tolerance 2,000

i 40

630 f 50

Tolerance

2.350-2.450

2,350-2,450

800-900

800-900

Standard 1,850

zk 50

675 rt 25

Tolerance 1,850

Standard

Tolerance

f 50

1,800-l

,890

1,800-l

,890

675 f 25

950-I

,000

950-l

,000

130

-

Min.

130

-

Max.

130

-

Min.

100

-

Min.

100

-

Min.

100

-

Min.

100

-

Min.

100

-

Max. 380

762

Max. 300

762

Min. 950

825

-

-

Min. 900

810

-

-

Max. 650

Max. 650

Max. 650

Max. 6.0

8.0

Max. 2.5 Max. 1 .O

3.5 2.0

0.4

1.o

(21 O-250)

762

Max. 300

635

900

-

-

Min. 900

810

-

-

Max. 700

Max. 650

700

Max. 650

Max. 650

Max. 6.0

8.0

Max. 3.0

5.0

-

-

Max. 2.0 Max. 1.5

3.0 2.5

Max. Max.

2.5 2.0

Max. 2.0

2.5

-

0.4

-

0.4

-

0.4

-

-

1.o

1.o

-

1.o

-

18

Min. 28

(21 O-250)

(21 O-250)

20 (21 O-2.50)

Max. 300 Min.

1,000

1.5 1 .O

Min. 26 (21 O-250)

18 (21 O-250)

Min. 28 (21 O-250)

Max. 350

700

Max. 350

700

Max. 400

800

Max. 200

3.0 -

5.0

2.1

3.0 -

5.0

2.1

3.5 -

5.0

2.5

2.5 -

2.5 -

4.5

1.8

2.5 -

4.5

1.8

3.0 -

4.5

2.1

4.0

20 (210-250)

400

2.5 -

4.0

Min.

1.5

0.7

Min.

1.5

0.7

Min.

1.5

0.7

Min.

1.5

0.7

Min.

1 .O

0.7

Min.

1 .O

0.7

Min.

1 .O

0.7

Min.

1 .O

0.7

110

120

80-100

120

80-90

120

80-110

120

80-

Max. 0.5

1 .o

Max. 0.5

1 .o

Max. 0.5

1.0

Max. 0.5

1 .o

265 f13 +5

220

265 +13 +5

220

265 +13 +5

239

255 +13 +5

230

381 0.75

1 + 0.1

l.lOOi33

38 + 1 0.75

i

l.lOOk33

42 * 1 1

42 f 1

-

-

-

38 i 0.75

1

i 0.1

95 f 25 See page 12-031

+

EG450-1

Min.

Min. 26

z

Standard

PC1 000-l

The values given in the Testing and Adjusting Do not use these values as a guide to change

38 t 1 0.75

It 0.1

950 * 25

39 i 0.75

1

i 0.1

1,020+25(50Hz) 1,224k30(60Hz) -

39 + 1 0.75

j: 0.1

1,020t25(50Hz) 1,224+30(60Hz) -

data are NOT for adjustment of the output the setting of the fuel injection pump.

12-049 8


Item

SA6D170-6-l EG480-1, EG480B-1, EG500-1 EG500B-1, EG500B.B1

machine model

Condition,

I

etc.

Unit

Standard

EPSAGD170-B-1

Standard

Tolerance

Tolerance

High idling speed

rpm

Low idling speed

rpm

ooc

rpm


rpm

Min. 100

mmHs0

Max. 400 lin. 930(50Hz) lin.1,100(60Hz)

762 720 880

Max. 350

762

Min. 1,250

1,090

Max. 400

800

Max. 400

800

2.0

Engine speed


mmHg

)

-

(

Min. 100

1

-

mmHg Exhaust temperature (Turbine inlet temperature)


Exhaust gas color

Quick acceleration (Low idling - High idling) At rated output At high idling

OC

Bosch scale

mm mm

kg/cm2 (rpm)



mmH*O

At rated output kg/cm2

3.0 -

4.5

2.1

3.0 -

oil

kg/cm2

2.5 -

4.0

1.8

-

kg/cm2

Min. 1.5

0.7

oil

kg/cm2

Min. 1 .O

0.7

SAE30 oil Oil pressure (Oil temperature: Min. 80°C)

SAElOW

4.5

-

At low Idling SAEBO oil SAElOW

011 temperature


OC



%


Nozzle tester

80-110

0.7

-

120

I

kg/cm*

Min. 1 .O

-

80-110

120

I

I

Max. 0.5

1 .o

Max. 0.5

1.0

255 +I3 +5

211

265 ;L3

220

degree

kg/cm2

*

Fan speed


rpm

,020+26(50Hz) .224+30(60Hz)

1,020i26(50Hz) 1,224+30(60Hz)

Fan belt tension


mm

-

-

The values given in the Testing and Adjusting data are NOT for adjustment of the output Do not use these values as a guide to change the setting of the fuel injection pump.

12-049-l 0

1.23Oi40

1,230 + 40

Auto tension

TESTING

TESTING

AND ADJUSTING

Clas sifica - tiol

machine

I

model

Condition,

item

EG480B-1

(For CIS)

lax. 1,560 (50Hz) lax. 1,872 (60Hz)

Engine speed


700 - 800

0°C

Min. 130

-


Min. 100

-

Max. 2.9 {Max. 300)

7.5 I7621

-

-

68 15301

-

-

700

Max. 650

-

-

kPa [mmHzO}

2.9 {3001

Intake pressure

At rated output

kPa 0-nmHg}

Min. 120 {Min. 930)

{792301

At rated output

kPa {mmHgI

Min. 85 {Min. 6601 650


“C

7.5 I7621

Quick acceleration (Low idling + High idling) gas color

Valve clearance (When engine is Hot or cold) Compression pressure (SAE30 oil)

Blow-by pressure (SAESO oil)

-p/


mm

Exhaust valve

mm

Oil temperature: 40°C to 60°C (Engine speed) At rated output Water temperature: Min. 70°C

SAE30 oil SAElOW

oil

At low idling SAESO oil SAElOW

*

4.0 2.0

Intake valve

At rated output


lax. 1,560 (50Hz) lax. 1,872 (60Hz)

700 - 800

At all speed

Exhaust

Tolerance

Low idling speed

Intake resistance

Exhaust pressure [Turbineinlet pressure) Exhuast temperature (Turbine inlet temoerature)

OEM for generator 367 kW {492 HP} I50 Hz Standard

etc.

High idling speed z : E b ‘t d

DATA

SA6D170-B-1


AND ADJUSTING

oil

0.4

I

1.0

I

Max. 3.0 Max. 2.5

4.0 3.5

-

0.4

-

-

1.0

1.96

MPa {kg/cm*}

Min. 2.55 {Min. 26)

1.77 1181

Min. 2.75 {Min. 281

(rpm)

(210 - 250)

(210 - 250)

(210 - 250)

(210 - 250)

7.8 18001

Max. 3.9 {Max. 4001

7.8 (800) 206 (1.8)

kPa (mmHnO1

&&

kPa {kg/cm*}

265 - 392 (2.7 - 4.0)

186 (1.9)

294 - 441 13.0 - 4.51

kPa {kg/cm3

216-343 (2.2 - 3.5)

147 (I.51

245 - 392 (2.5 - 4.0)

kPa {kg/cm*}

Min. 147 {Min. 1.5)

$1

Min. 147 {Min. 1.5)

kPa {kg/cm’}

Min. 98 (Min. l.O}

$1

Min. 98 {Min. 1.01

QOI

Oil temperature


“C

80-110

120

80-110

120



%

0.5

1.0

Max. 0.5

1.0


Nozzle tester

MPa {kg/cm*}

25.5 - 26.3 1260 - 268)

20.7 I2111

25.5 - 26.3 (260 - 268)

20.7 12111


B.T.D.C.

Radiator vavle


pressure

degree


Fan belt tension

Deflects when pushed with a force of 6 kg the Testing and Adjusting

41-43

41-43 64-83 IO.65 - 0.851

Fan speed

The values given‘in

41-43

mm

Auto tension


Do not use these values as a guide to change the setting

of the fuel injection

41-43 64-83 IO.65 - 0.851

-


12-049-2 0

TESTING

TESTING

AND ADJUSTING

:-

machine

IBS-1 :nerator 265 and up)

model

Condition,

Item

DATA

SA6D170-B-1


AND ADJUSTING

Unit

etc.

-

Tolerance

Standard

OEM for generator 379 kW I508 HP} / 50 Hz Standard

Tolerance

7

rpm

Low idling speed

rpm

700 - 800

0°C

vm

Engine speed



Intake resistance

At all speed

Intake pressure

At rated output

Exhaust pressure [Turbineinlet pressure) Exhuast temperature (Turbine inlet temoerature)

aid)


Valve clearance

dax. 1,568 (50Hi lax. 1,861 (60H:

Compression pressure (SAE30 oil)


700 - 900

Min. 130

-

Min. 130

-

vm

Min. 100

-

Min. 100

-

kPa (mmHnO1 kPa fmmHgI

Max. 2.9 {Max. 300)

Max. 2.9 {Max. 300)

7.5 (7621

-

-

-

-

-

-

-

Max. 650

700

Max. 650

700

-

-

“C

7.5 f762) . .

-


Bosch scale

Max. Max.

1.5 1.0

*

Max. 2.5 Max. 1.5

2:

Intake valve

mm

0.4

-

0.4

Exhaust valve

mm

1.0

-

1.0

MPa {kg/cm21

Min. 2.75 (Min. 28}

1.96

(rpm)

(210 - 250)

(210 - 250)

(210 - 250)

Max. 3.9 {Max. 400)

7.8 (8001

Max. 3.9 {Max. 400)

Oil temperature: 40°C to 60°C (Engine speed) At rated output Water temperature: Min. 70°C

kPa ImmHtO

343-441 (3.5 - 4.5)

245 (2.5)

245 - 441 (2.5 - 4.5)

SAEIOW

kPa Ikg/cn+I

294 - 392 (3.0 - 4.01

206 (2.1)

196 - 392 (2.0 - 4.0)

oil

At low idling SAEBO oil

Ikg/cm21

Min. 177 (Min. 1.8}

Min. 147 {Min. 1.5)

SAEIOW

kPa {kg/cm?

Min. 127 {Min. I.31

Min. 98 {Min. 1.0)

kPa

oil

8

I,96

Min. 2.75 {Min. 28)

(201

(kg/cm21

kPa

3.5 2.5

-

SAE30 oil

At rated output


dax. 1,560 (50Hz) Aax. 1,872 (6OHz)

700 - 900

/[When engine is Hot or cold)

flax. 1,560 (50H2 dax. 1,872 (60H2

700 - 800

kPa ImmHgI

At rated output

Quick acceleration (Low idling --3 High idling)

IExhaust gas color

dax. 1,568 (50tb tiax. 1,881 (6OH2

High idling speed

(201 (210 - 250)

Oil temperature


“C

80-110

120

80-110

120



%

Max. 0.5

1.0

Max. 0.5

1.0


Nozzle tester

MPa {kg/cm21

25.5 - 26.3 (260 - 268)

20.6 (21OI

25.5 - 26.3 1260 - 268)


B.T.D.C.

degree

35-37x1 31 -33 ‘2

35-37x1 31 -33 *2

35-37

Radiator vavle


kPa {kg/cm’I

59-78 (0.6 - 0.8)

59-78 IO.6 - 0.8)

-

995 - 1,055 (50Hz ,192 - 1,266 (60H

395- 1,055 (50tk ,192 - 1,266 (60H

pressure

Fan speed


wm

Fan belt tension

Deflects when pushed with aforceof6kg

mm


-


Do not use these values as a guide to change the setting of the fuel injection

12-049-3 0

20.6 (2101 35 -37

)95 - 1,055 (50Hz ,192 - 1,266 (60H

-

395 - 1,055 (50Hz) ,192 - 1,266 (60Hz)

-


*I

: Except EG500BS-1

*2

:

EG500BS-1

only

z z



SAGDI JO-B-I


machine

OEM folr gc merator (Stan db\lr use)

model

Condition,

etc.

Standard

I E

Low idling speed

wm

700 - 900

0°C

rm

Min. 130

-

Min. 130

rpm

Min. 100

-

Min. 100

-

kPa lmmHz0) kPa lmmHg)

Max. 3.9 {Max. 400}

7.5 1762)

Max. 3.9 {Max. 400)

1762)

At all speed

Intake pressure

At rated output

-0

6

m

Exhaust gas color

%

2

(When engine

700 - 900

-

At rated output All speed (intake air temp.: 20°C)


: ‘Bl I=

Blow-by pressure lSAE30 oil)

-

-

-

-

Max. 700


2.5 2.0

Intake valve

-

Exhaust valve

-

3il temperature:

Min.27.5 {Min. 28}

40°C to 60°C :Engine speed)

pressure

Max. 3.9 {Max. 400)

7.8 1800)

SAE30 oil

245 - 441 12.5 - 4.5)

I77 11.8)

SAElOW

196 - 392 (2.0 - 4.0}

137 11.4)

4t rated output Water temperature:

Min. JOY

kPa lmmHz0)

Max. 3.9 {Max. 400)

7.8 1800)

oil

At low idling

kPa {kg/cm*)

Min. 147 {Min. 1.5}

&

u” *

Fan belt tension

Min. 147 {Min. 1.5} Min. 98 {Min. 1.01

oil


80-110

120


Max. 0.5

1.0

- 25.5 - 26.3 I260 - 268) 40-42

Opening pressure [Differential pressure)

{‘fi

l,,:

1

1”“:

Deflects when pushed with 3 force of 6 ka


59-78 10.6 - 0.8)

995 - I 055 l50Hz) 995 - 1055 (50Hz) ‘95 - 1,055 (50Hz 1,192 - 1,266 (60Hz) 1,192 - 1,266 (6OH2 192 - 1,266 (60H;


.-? Z

1201 (210 - 250)

B.T.D.C. Radiator

1.96

(210 - 250)

Nozzle tester

s

700


SAElOW Oil temperature

7.5

-

SAE30 oil

ti ?i

Max. 650

700 - 800

Quick acceleration [Low idling + High idling)

At rated output

$ IYY 2

700 - 800

is

& 8

lax. 1,568 (50Hz) lax. 1,881 (60Hz)

vm

Intake resistance

Exhaust pressure (Turbineinlet pressure) Exhuast temperature (Turbine inlet temperature)

Aax. 1,566 (50H; Aax. 1,681 (60H;

High idling speed


ti 2 ti : _c Z

Max. 1,568 (50Hz) Max. 1,566 (50H2 Max. 1,881 (60Hz) Max. 1,881 (60H1

Tolerance



-

20.6 1210) 40-42 59 - 78 iO.6 - 0.8) 95 - 1,055 (50Hz) 192- 1,266 (60Hz)

-


12-049-4 0




machine

SA6D170-B-1 EPSAGD170-B-1 445 kW (597 HP} / 1,300 rpm

model

Condition,

1

etc.

Unit

Standard

Max. 2.200

High idling speed

Tolerance Max. 2.200

Engine speed



Intake resistance

At all speed

Intake pressure

At rated output

Exhaust pressure (Turbineinlet pressure) Exhuast temperature (Turbine inlet temperature)

aid)

At rated output All speed (intake air temp.: 20°C)

Exhaust gas color


SAE30

oil

SAEIOW

oil

At low idling SAE30 oil SAElOW

750 - 850

Min. 130

-

Min. 130

-

Min. 100

-

Min. 100

-

-

Min. 123 (50Hz) {Min. 950) (50Hz)

-

kPa ImmHgI

-

-

Min. 142 (6OHz) [Min. 1,100) (66Hz

-

Max. 650

700

Max. 6700

700

-

-

-

-

Bosch scale

oil

-

0.4

-

1.0

-

1.0

-

1.96

I20}

Min. 2.45 {Min. 26)

Min.1.77 {Min. 18)

(210 - 250)

(210 - 250)

(210 - 250)

5.9 16001

Max. 3.9 {Max. 400)

I

294 - 490 13.0 - 5.01

kPa {kg/cm*}

245 - 441 12.5 - 4.5)

177 t1.81

kPa {kg/cm?

Min. 147 {Min. 1.51

I&

,k~,~m21

Min. 98 {Min. 1.0)

&

I -

120

85-110

“C

80-110



%

Max. 0.5

206 t2.11 Min. 147 {Min. 1.5)

39 - 59 IO.4 - 0.61

E) 120

21.5 {219}

41-43 kPa {kg/cm?

-

1.0

25.5 - 26.3 I260 - 268)


2.0 1.5

0.4

kPa ikg/cm2}


7.5 D’621

Max. 0.5 1.0


pressure

Max. 3.7 {Max. 380)

;::

Oil temperature

Radiator vavle

7.5 17621

Max. 2.5 Max. 1.5

kPa ImmHzO)


*

750 - 850

(210 - 250)

At rated output


600 - 1,000

-


Min. 70°C

Max. 1,947 (50Hz) Aax. 1,047 (50Hz) Max. 1,256 (6OHzl Aax. 1,256 (60Hz)

600 - 1,000

Min. 2.75 {Min. 27)

At rated output Water temperature:

Tolerance

Max. 2.9 {Max. 300)

Valve clearance (When engine is Hot or cold)


Standard

generator

kPa {mmHzOl kPa {mmHgI

“C

Quick acceleration (Low idling + High idling)

OEM for 6-pole

18-20 39 - 59 CO.4 - 0.6)

59-78 10.6 - 0.81

59-78 IO.6 - 0.81

Fan speed

-

989 - 1,051

989 - 1,051

Fan belt tension

-

8 - 12





12-049-5 0


8-12

2 z z

TESTING

TESTING

AND ADJUSTING

Item

machine

model

Condition,

I

DATA

SAA6D170-1


AND ADJUSTING

f

etc.

OEM for generator

Unit

Standard

rpm

Max. 1,568

Low idling speed

rpm

700 - 900

0°C

rpm

Min. 130

vm

Min. 100

High idling speed

(50 Hz)

Tolerance

Max.

1,568

Engine speed



aid)

Intake resistance

At all speed

kPa [mmHzO;

Max. 4.4 {Max. 4501

Intake pressure

At rated output

kPa {mml-lg}

-


At rated output

kPa ImmHg)

-

~uh$~e~;e:en;netPe’ature All speed (intake air temp.: 20°C) temperature)

Exhaust

gas color

Valve clearance (When engine is Hot or cold)


“C

Quick acceleration (Low idling + High idling) At rated output At high idling

Bosch scale

Max. 1.5 Max. 1.0

mm

0.4

-

Exhaust valve

mm

1.0

-

MPa {kg/cm*1

Min. 2.55 {Min. 26)

1.77 I181

(rpm)

(210 - 250)

(210 - 250)

kPa (mmHz0

Max. 5.9 {Max. 6001

11.8 Il.2001

kPa {kg/cm*)

255 - 373 12.6 - 3.81

kPa {kg/cm21

206 - 324 {2.1 - 3.3)

SAE30 oil

kPa {kg/cm?

Min. 147 {Min. 1.5)

SAElOW

kPa {kg/cm21

Min. 98 {Min. 1.0)


SAEBO oil SAElOW

oil

At low idling

oil

Oil temperature


“C

80-110



%

Max. 0.5


Nozzle tester

MPa {kg/cm*1

29.9 - 30.7 1305 - 313)

degree

t

Max. 650

Intake valve

At rated output


Fan speed

At rated engine

Fan belt tension


The values given‘in

700 - 900

speed

the Testing and Adjusting

120

23-25

kPa {kg/cm?

59-78 IO.6 - 0.8)

vm

1,240 - 1,310

mm

Autotensioner



Autotensioner

1


12-049-6 0

FAN BELT TENSION

1. 2.

Washer

3.

Tension spring

4.

Adjustment bolt

5.

Tension pulley

A.

6162F291

Unit: mm Engine model

Applicable machine

Dimension A

PC650-1 PC1500-1

S6Dl?O-1

SAGDl70-A-1

73 f 5

HD465-3

5Bi5 I

I

D375A-1 D375A-2

SAGD 170-B-l

I

PC1 000-l

50 k 5

I

70 i: 5

Adjustment nut

Protrusion of adjustment bolt

TENSION l

1.

OF WA700-1

Replacing Loosen

locknut

(1) and turn back adjustment

(2) as far as bracket 2.

FAN BELT

insert

a bar with

hole (@18)

screw

(3).

a length

in bracket

of approx.

(7), then

50 cm in the

pull strongly

to the

front and hold in position. 3.

The spring

will

extend

and the tension

pulley

will

move to the inside. Remove the old belts and replace it with *

new bolts.

Replace

the V-belts

in a set (3 belts).

6162F1014

l

Adjusting Tighten

adjustment

adjustment tension

screw

pulley

(2) a further (1).

w

Locknut

the

(4). tighten then

: 29.5

f

between

tip of adjustment

adjust

(2). and when

comes

half turn,

locknut

If a gap appears

lever

screw (2)

into

the tip of

contact

adjustment

lock it in position

with screw with

2 kgm

tension screw

pulley

(2) during

lever (4) and operation,

in the same way.

If the fan

belt screeches,

adjust

in the same

way. 6162F668

12-051 0

TROUBLESHOOTING CONTENTS Points to remember Method S-l

Starting

troubleshooting

performance

(Starting s-2

when

of using troubleshooting always

chart

Engine

does not turn

@

Engine

turns

but no exhaust

comes

12-061

out

..............................................

gas comes out but engine

12-062

does not start 12-063

.................................................

does not pick up smoothly

(Follow-up

. ...........

............................................

is poor)

operations

12-064 12-065

Engine

s-5

12-066

s-7

.................................... Engine lacks output (no power) .............................................. ................................. Exhaust gas is black (incomplete combustion)

S-8

Oil consumption

...........................

12-069

s-9

Oil becomes

S-IO

Fuel consumption

S-l 1

Oil is in cooling water,

s-12

Oil pressure

s-13

Oil level rises

s-14 s-15

............................ Water temperature becomes too high (overheating) ................................................... Abnormal noise is made

S-16

Vibration

Engine

stops during

.............................................

s-4 S-6

2 z z

12-061

...................................................

(Fuel is being injected) Engine

12-060

......................................................

(Fuel is not being injected)

s-3

12-056

................................................

takes time)

@

Exhaust

12-055

is poor

Enginedoesnotstart

@

.......................................... .............................................

does not rotate smoothly

is excessive

contaminated

(hunting)

(or exhaust

gas is blue)

12-068

........................................... ..............................................

12-070

quickly

is excessive or water

spurts back, or water

lamp lights up (drop in oil pressure) .............................................................

is excessive

12-067

......................................................

level goes down

...............................

12-071

............

12-072 12-073 12-074 12-075 12-076 12-077

POINTS TO REMEMBER WHEN TROUBLESHOOTING Troubleshooting failure When carry

means

locating

the basic cause

of the failure,

and carrying

carrying out

out

the

mentioned

troubleshooting,

troubleshooting

by the operator

it is of course

effectively, as a guide

important

a quick

in locating

method

to understand is to carry

Do

not

disassemble

cause there If the

the

machine

simply

be-

is a failure

machine

is disassembled

immediately

because there is a fuilure: . Unrelated or unnecessary .

just

failure degree

difficult

places

are also dis-

the cause

is not only

a waste

and money

on replacement

For this

of the

problem

in the handling

of the

When

driving

failure,

the

problem

a failure,

But to problems

to judge

or if there

or operation

the

machine

be sure

measurement

parts,

oil, and grease,

5.

of the

for

is some

of the

ma-

that

does

and

the

not

re-enacting

investigation

make

the

or

failure

Troubleshooting Narrow results

reason

also,

it is important

based

to carry

on full investigation

and troubleshooting

following

out

Items

before

Questions

the correct

*

to ask the user and operator

1) Are there any problems ready

other

than

those

6. unusual

happen

before

the fai-

lure occurred? the

failure

occur

of the

the failure

occurred?

What were

2 -

suddenly,

machine

been

or

had

poor

when

the

before

the failure

from

the

in the above

the troubleshooting

flow

for troubleshooting

1)

Start from the simple

2)

Start from

3)

investigate

Basic action

places.

the most probable related

oc-

to remedy

Even if the failure

places.

parts also.

cause of failure

is repaired,

is not repaired,

if the root

cause

the same failure

of

will OC-

cur again. To prevent the

the conditions

of the failure and checks

4, then follow

Basic procedure

the failure

condition

the causes

al-

reported?

2) Did anything

down

of the questions

chart to locate the failure.

order.

4)

function.

using

of time

will also lose the confidence

troubleshooting

Did

the

if it is really

*

user and operator.

3)

and

worse. that there

but this action

z z

that the

chine.

to locate

This means

starting

structure

yourself

failure

8

and ensuring

troubleshooting

Check

the

It becomes

the

out

Confirming

assembled

2.

repairs,

the cause 4.

1.

out swift

does not occur again.

failure

this, it is necessary occurred,

and

to

to investigate remove

the

why root

cause of the failure.

curred? 51

Had any repairs

been carried

ot before

the fai-

lure occurred? 6) 3.

Had any similar

failure

occurred

before?

Checks before troubleshooting

1) Check the oil level. 4 Check for any external piping

and hydraulic

3)

Check the travel

4)

Other out

of the control

maintenance

visually,

considered

leakage

of oil from

the

equipment. items

so carry

out

levers.

can also be carried any

check

that

is

necessary.

12-055 @

METHOD OF USING TROUBLESHOOTING This

troubleshooting

sections: ooting.

The

pinpoint from

the

questions failure

is divided

check

items,

and check

high probability

without

causes

symptoms

troubleshooting

used

to

check

three

troublesh-

items

are used to

simple

inspection

tools.

tools

the

into

and

that can be located

or

using troubleshooting

Next, are

chart

questions,

high

or

direct

inspection

probability

causes

to

make final confirmation. [Questions] Sections

@ +

sponds

to

obtained items

@ in the chart

the

from that

depending

items the

can

on the right corre-

where

user.

be

answers

The

items

obtained

from

can

be

@

are

in the

user,

on the user’s level.

[Check items] The

serviceman

narrow

down

carries

out simple

the causes.

The

the chart on the right correspond The

serviceman

information

narrows

@

user and the

that results

he

of 0

under

to

@ in

to this.

down has

inspection

items the

causes

obtained

that

from

from

the

he has obtained

from his own inspection. rroubleshooting] Troubleshooting probability,

is carried

starting

been

marked

from

information

[Check items].

12-056 8

as

out

in the

with

the

causes

having

the

highest

gained

from

order that

of

have

probability

[Questions]

and

CHART

The

of using the troubleshooting

basic method

chart

is as

follows. Items

listed for [Questions]

relationship of these,

with

the Cause

causes

that

have

and [Check items

items]

that have a

are marked

with

probability

are

a high

0,

and

marked

with 0. Check and

problem the

each

of the

marked

[Questions]

appeared.

highest

and

the 0 or 0 in the The

number

vertical

of points

so start troubleshooting

[Check

chart

for

column

the

that

has

probable

to make

turn,

where

(Causes)

is the most

for that item

item&in

items

cause,

final confir-

mation of the cause.

%1. For [Confirm tions]

recent

Section,

1 ! column

with

the cause

when

repair

ask the

A

to

use

and

in the mark

as reference

of the failure.

making

history]

user,

However,

calculations

to

the for

[QuesCause locating

do not use this

narrow

down

the

as reference

for

causes.

%2,

Use the

[Degree

A

[Questions]

use it when

cause,

in the

Cause

column

of use (Operated section

for long

as reference.

calculating

the

but it can be included

period)]

in the

As a rule, do not

points for

locating

if necessary

the

to deter-

mine the order for troubleshooting.

2 G z

%l

Confirm recent repair history

%2

Degree of use

I Operated for’long period

A

A

I

A

12-057 0

- Example of troubleshooting Let

us assume

have

causal

that

[Clogged

relationship

er], and [Dust indicator If we causes.

12-058 8

look

from

these

Let us explain

with

when exhaust gas is black air

cleaner]

this

problem:

is taken

to

[Exhaust

be the

gas slowly

cause

of black

became

black],

exhaust [Power

gas.

Three

slowly

symptoms

became

weak-

is red]. three

symptoms

here the method

to

find

the

causes,

of using this causal

we

relationship

find

that

there

to pinpoint

is a relationship the most probable

with cause.

five

Five causes Step 1 Clarify the relationship in the

[Questions]

between

and

the three

[Check

items]

symptoms

section

and

the five Cause items in the vertical column.

Step 2

I

Add

up the total of 0

zontal

and 0

lines for the three

marks where

symptoms

the hori-

and the vertical

columns for the causes intersect. (1)

Clogged air cleaner element:

(2) Air leakage between

000

turbocharger

and

head:

00

(3)

Clogged,

seized injection nozzle:

0

(4)

Defective

contact of valve, valve seat:

0

(5) Worn piston ring, cylinder:

0

Step 3 The

calculations

in Step

relationship

is with

Follow

column

this

2 show

[Clogged down

air to

that

the

area and carry out the troubleshooting 0.

The

Remedy

cleaning, _ to normal.

and

the

the

cleaner

is given

as [Clean],

exhaust

gas color

closest

element].

troubleshooting item marked so carry should

out

return

TROUBLESHOOTING

TABLE

r

S-l

Starting performance is poor (Starting always takes time) General causes why exhaust gas comes out but engine does not start Defective electrical system insufficient supply of fuel Insufficient intake of air Improper selection of fuel (At ambient temperature of -1 O°C or below, use ASTM D975 No. 1) .lr Battery charging rate

Causes

l

2

l

s ;i

l

$

l

100%

90%

80%

75%

70 %

temoerature 2ooc

1.28

1.26

1.24

1.23

1.22

ooc

1.29

1.27

1.25

1.24.

1.23

-1 ooc

1.30

1.28

1.26

1.25

1.24

* The specific gravity should be for the charging rate of 70% or more in the above table. In cold weather the specific gravity must be for the charging rate of at least 75% in the above table. l

,

I

‘/ <

” i i

i 1 : I

0 t(

/ f. i _

I

I

b : i i

Starts when warm

Dust indicator is red ,

Type of oil is not used according to operation manual

-

Starting motor cranks engine slowly When exhaust manifold is touched immediately after starting engine, temperature of some cylinders is low

-

Engine does not pick up smoothly, and combustion is irregular Blow-by gas is excessive Match marks on fuel injection pump are out of alignment Mud is stuck to fuel tank cap When engine is cranked with starting motor, 1) Little fuel comes out even when injection pump sleeve nut is loosened

Q

-6

/

There is hunting from engine (rotation is irregular)

I

-

,

When fuel filter, strainer are inspected directly, they are found to be clogged When feed pmp strainer is inspected directly, it is found to be clogged APS combustion portion does not become warm 30V between alternator terminal B and terminal E

Either specific gravity of electrolyte or voltage of battery is low Some cylinders does not change engine speed when operating on reduced cylinders

a

c

5 -

- -

When check is made using delivery method, injection timing is found to be incorrect

I

-

G - -

,

When comoression oressure is measured. it is found to be low

Voltage is 26 -

$

0 - 5

Leakage from fuel piping

When air cleaner element is insDected directly, it is found to be clogged

6

c

3 0 - 0 - -

1

2) Little fuel comes out even when fuel filter air bleed plug is loosened

P

$ -

Gradually became worse

Non-specified fuel has been used

:

m‘

-

Replacement of filters has not been carried out according to operation manual

;i;

E

t;s 2 5

/ .

Engine oil must be added more frequently

5

2

2

Indicator lamp does not light up

z 9

5

c

Operated for long period

Ease of starting

E

z

/

I

1 Confirm recent repair history Degree of use

:

a zi h J $ 55

- -

When control rack is pushed, it is found to be heavy or does not return (when blind plug at rear of pump is removed, it can be seen that plunger control sleeve does not move)

0

-

-

1 When fuel cap is inspected directly, it is found to be clogged

-

When overflow valve is inspected, it is found to be stiff, or always stays oper Legend 0: Possible cause (jugding from Questions and Check items) 0: Most probable causes (judging from Questions and Check items) A: Possible causes due to length of use (used for a long period) 0: Items confirm the cause

12-060 @

I

i

z

.k

0

8

m

1 i

m

cr E

S-2

Engine

does not start

@ Engine does not turn

r

General causes why engine does not turn

Causes

l l

b

6

E

r, C

$ z

z

z :

E

$

5

2

‘E

m

zi a .?

&

Ek .-P L

2 5

2 -

Confirm recent repair history !? E ._ zi %-


Condition of horn when starting switch is turned ON

Horn does not sound

a

Horn sound level is low Rotating speed is slow

/I

When starting switch is turned to START, pinion moves out, but

/I

-

Makes rattling noise and does not turn

Im

When starting switch is turned to START, pinion does not move out

C

When starting switch is turned to ON, there is no clicking sound

P 6

When startina switch is turned to ON. linkaae does not move

E

0

Battery terminal is loose

1 When batterv is checked, batterv electrolvte is found to be low 1 Specific gravity of electrolvte, voltage of batten, is low For the following conditions 1) - 5). turn the starting switch OFF, connect the cord, and carry out troubleshooting at ON 1) When terminal B and terminal C of starting switch are connected, engin starts

ii-

When rina aear is inspected directlv. tooth surface is found to be chiooed

2

B z

5 5 :: 0)

.’ ;

I

$ iT 0 - - z- - - - $ -

E

$

L

,z a, 3

z ._ ; I

.

I I _

Remedy

-

-

-

-

-

-

-

-

-

-

-

-

-

0 -

-

r-

-

or

b

Irr

r

or

z,

E

5 z z e E

E -

3

G

2

-

-

-

P

0

E

.-z

-

-

0 -

s

m m .E ;

r-

D -

-

0

3

x 2 ._

F -

0 -

-

P

E 5

$ -

-

Does not move even when engine stop motor linkage is disconnected

*

Legena 0: Possible cause (jugding from Questions and Check items) 0: Most orobable causes (iudaina from Questions and Check items) A: Possible causes due to-length-of use (used for a long period) e: Items confirm the cause

E

5 ii 8

E -

0” -

l -

-

5) There is no 24V voltage between terminal B and terminal E of battery relav

.-J t;

F

-

-

4) When terminal of safety switch and terminal B of starting motor are con netted, engine starts

2 3 L fti

.-6 8 ii 5 I i?i ._ 8 z .f B

-

l

3) When terminal B and terminal C of safety relay are connected, engine starts E

-

F 0 - - - - - - - -

2) When terminal B and terminal C of starting motor are connected, engine starts

I=

e m

c -

Makes grating noise Soon disenaaaes aaain -”

1

.-El 3

T

Degree of use

-

-

-

Internal parts of engine seized Ir If internal parts of the engine are seized, carry out troubleshooting for “Engine stops during operations”. Failure in power train Defective electrical system

l

P

E

c 7

P $

a

12-061 Go

@

Engine

turns

but no exhaust

(Fuel is not being General

causes

gas comes

out

injected)

why engine turns but no exhaust gas comes

out

Causes

-

-

Supply of fuel impossible Supply of fuel is extremely Improper Standards

selection

small

of fuel (particularly

in winter)

for use of fuel

E

E ._ a

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E

2 ::

z 1

1

5e a

$ .N

-z -

Confirm recent repair history Degree of use


Exhaust gas suddenly (when starting again) stopped coming out z .-o 5S

Replacement of filters has not been carried out according to operation manual Fuel tank is found to be empty There is leakage from fuel piping, crushed piping Mud is stuck to fuel tank cap When starting switch is turned ON, linkage does not move When fuel filter is drained, fuel does not come out

i Iu When engine is cranked with starting motor, .E 1) No fuel comes out even when fuel filter air bleed plug is_loosened % a, 2) No fuel spurts out even when injection pipe sleeve nut is loosened 5 ” 1 Rust and water are found when fuel is drained Inspect injection pump directly When control rack is pushed, it is found to be heavy or does not return

When feed pump strainer is inspected directly, it is found to be clogged When fuel cap is inspected directly, it is found to be clogged Does not move even when engine stop motor linkage is disconnected Legend 0: Possible cause (jugding from Questions and Check items) 0: Most probable causes (judging from Questions and Check items) A: Possible causes due to length of use (used for a long period) 0: Items confirm the-cause

12-062 0

I

z iT -

F 5

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r-

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u $

-

3

lx -

1

2 6 %

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-3

$

H

0 -

K .k

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LT

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Exhaust being

General

gas comes

out

but

engine

does

not

start

(Fuel

is

injected) causes

why

exhaust

gas comes

out but engine

does not Causes

start

l

Lack of rotating

l

Insufficient

l

Insufficient

l

Improper

force due to defective

electrical

system

supply of fuel intake

of air

selection

of fuel and oil

6 ::

%JY ._ 2 $ E .E

2

E

7,

Y a

2

kl c

z 0E

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Suddenly failed to start When engine is cranked, abnormal noise is heard from around cylinder head Engine oil must be added more frequently

- - - -

- - -

Q -

- - - -

-

g

5 0 -

Dust indicator is red Indicator lamp does not light up Starting motor cranks engine slowly Mud is stuck to fuel tank cao When fuel lever is olaced at FULL position, it does not contact stopper

/ E S z : 5

When engine is cranked with starting motor, 1) Little fuel comes out even when injection pump sleeve nut is loosened 2) Little fuel comes out even when fuel filter air bleed plug is loosened There is leakage from fuel piping When exhaust manifold is touched immediately after starting engine, temperature of some cvlinders is low 1 When fuel filter is drained, no fuel comes out Even when fuel control lever is moved, fuel injection pump lever does not move Remove head cover and inspect directly When control rack is pushed, it is found to be heavy or does not return When compression pressure is measured, it is found to be low When fuel filter. strainer are insoected directlv, they are found to be clogged When feed pumo strainer is inspected directly, it is found to be clogged When air cleaner element is inspected directly, it is found to be clogged APS combustion portion does not become warm even when starting switch is turned HEAT Either specific gravity of electrolyte or voltage of battery is low When feed pump is operated, there is no response or pump is heavy Soeed of some cvlinders does not chancre when operating on reduced cylinders When fuel cap is inspected directly, it is found to be clogged

ii-

-

Play, stiffness in fuel control lever linkage Legend 0: Possible cause (jugding from Questions and Check items) 0: Most probable causes (judging from Questions and Check items) A: Possible causes due to length of use (used for a long period) 0: Items confirm the cause

-

5 - 5 -

-

5k

5

-0

a -

-

G - G -

Type of oil is not used according to operaton manual Rust is found when fuel is drained

z

i- - -

h -

n

Non-specified fuel has been used Reolacement of filters has not been carried out according to operation manual

5

-

on f rrm recent reoair historv Operated for long period

2

:

- 0 - -

u -

1

2 5

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Degree of use

8

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5 tl $ _c i 5 -z lj

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Engine does not pick up smoothly (Follow-up General

causes why engine

l

Insufficient

l

lnsuff icient supply of fuel

is poor)

does not pick up smoothly

intake of air

l

Improper

l

Use of improper

condition

l

Defective

of fuel injection

fuel

fuel injection

pump

B

k $

z

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5

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v -

v -

1 Confirm recent reoair historv Ooerated for lona oeriod


h 0 0

0 - 0

Non-specified fuel has been used Engine oil must be added more frequently I .P

0 -

0 -

am-died

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There is hunting from engine (rotation is irregular)

5 -

ii -

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c-

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Rust and water are found when fuel is drained Dust indicator is red

2 r3

Noise of interference is heard from around turbocharaer Engine pick-up suddenly became poor Color of exhaust gas

/

Blue under light load Black -.-_..

Clanging sound is heard from around cylinder head Mud is stuck to fuel tank cao There is leakage from fuel piping C 1

High idling speed under no load is normal, but speed suddenly drops when load is

-rr-.--

L

6

When exhaust manifold is touched immediately after starting engine, temperature oi some cvlinders is low 1 Blow-bv aas is excessive When air cleaner element is inspected directlv. it is found to be clwaed I When fuel filter, strainer are inspected directlv, thev are found to be cloooed When feed pump strainer is inspected directly, it is found to be clogged Some cylinders does not change engine speed when operating on reduced cylinders

E

5 2 : E z -

Inspect feed pump When compression pressure is measured, it is found to be low When turbocharger is rotated bv hand, it is found to be heavy When valve clearance is checked directly, it is found to be outside standard value When fuel cap is inspected directlv, it is found to be clogged When feed pump is operated, operation is too light or too heavy When starting switch is turned ON, there is a clearance between stop lever and stoooer . . bolt

P

d

F t; 5

r=

Degree of use

z

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4 $

5

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When boost compensator diaphragm is inspected it is found to be broken, or pipe is crushed

.Legena . 0: 8: A: 0:

Possible cause (jugding from Questions and Check items) Most probable causes (judging from Questions and Check items) Possible causes due to length of use (used for a long period) Items confirm the cause

i 5 J

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z

Engine

s-4

stops during

operations

General causes why engine stops during operations l l l

l

Internal parts of engine seized Insufficient supply of fuel Overheating + If there is overheating and the engine stops, carry out troubleshooting for overheating. Failure in power train + If the engine stops because of a failure in the power train, carry out troubleshooting for the chassis.

z 5 i

z

u

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$ L 2ii E is G til t n

s J

2

I

5e 5 2 m q Confirm recent repair history Degree of use

Abnormal noise was heard and engine stopped suddenly Engine overheated and stopped

Condition when engine stopped

E .o z 2

Ermine stopped slowlv ! There was hunting and engine stopped

Fuel gauge lamp lights up

a

Fuel tank is found to be empty Replacement of filters has not been carried out according to operation manual

*

Non-soecified fuel has been used

/

-

-

0 -

0 -


When feed oumo is ooerated. there is no resoonse or it is heaw

- - - 0 - 0 - - -

Mud is stuck to fuel tank cap Engine turns, but stops when transmission control lever is operated

Try to turn by hand using barrmg tool

Rust and water are found when fuel is drained Metal particles are found when oil is drained Remove oil pan and inspect directly Remove head cover and inspect directly

.-P

When gear train is inspected, it does not turn

6

2 t

Turns when oumo auxiliarv eauioment is removed When fuel filter, strainer are insoected directlv. thev are found to be cloaaed

B

a

c

When feed pump strainer is inspected directlv, it is found to be clogged Inspect feed pump directlv

G -

G -

When control rack is pushed, it is found to be heavy or does not return I

Legend 0: Possible cause (jugding from Questions and Check items) 0: Most probable causes (judging from Questions and Check items) A: Possible causes due to length of use (used for a long period) 0: Items confirm the cause

5

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Remedy

T

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CT

I

$ .g L

5 i

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12-065 0

Engine

does not rotate

General

causes why engine

s-5

l

Air in fuel system

l

Defective

governor

smoothly

(hunting)

does not rotate smoothly

1

Causes

-

mechanism

-

-

u

2

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tl 5 ??

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1 Confirm recent repair history

1

Degree of use

1


j ;;:;;z : 2 ;; ? CJ

Condition of hunting

1: ;;;;,:r;;d

range

Occurs even when weed is raised Occurs on slopes

Fuel tank is found to be empty

c 0 0

Replacement of filters has not been carried out according to operation manual Rust is found when fuel is drained Leakage from fuel piping z al C % al 6

-

When feed pump is operated, 1) No response, light, return is quick

-

-

-

-

2) No response, light, return is normal

G-

Sometimes difficult to stop engine

-Q

,ii-

7 -

c-

When covernor lever is moved it is found to be stiff

-

-

Engine speed sometimes changes greatly

Seal on injection pump has come off

-

-

-

G-

When injection pump is tested, governor is found to be improperly When control rack is pushed, it is found to be heavy or does not return

When feed pump strainer is inspected directly, it is found to be clogged

-

c-

z

4

-

When fuel filter, strainer are inspected directly, they are found to be 1 Check fuel feed pumo LC sgend 0 : Possible cause (jugding from Questions and Check items) Q : Most probable causes (judging from Questions and Check items) A : Possible causes due to length of use (used for a long period) 0: Items confirm the cause

12-066 0

5

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55 ‘0’

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S-6

Engine Carry

lacks output

(no power)

out troubleshooting

engine General

or in the machine.

to decide (Measure

causes why engine

l

Insufficient

intake of air

l

Insufficient

supply of fuel

l

Improper

condition

0 Use of improper

is in the

stall speed)

Causes

lacks output E

E .E

ma

of fuel injection

n

fuel

(if non-specified l

if the cause engine

5

fuel is used, output drops)

P

m .?

Lack of output due to overheating j,

If there

is overheating

troubleshooting

and

lack of output,

carry

out

z

2

$

for overheating.

ai

Tl


1


Power was lost

Replacement Non-specified

of filters has not been carried out according to operation

F

E 8

m .? ;

1

c

d -

-

ii-

manual

fuel has been used

Black Color of exhaust gas

Blue under light load

Noise of interference

is heard from around turbocharger

Blow-by gas is excessive Engine pickup is poor and combustion

is irregular

High idling speed under no load is normal, but speed suddenly drops when load is applied

B

When exhaust manifold is touched immediately ture of some cylinders is low

6

There is hunting from engine (rotation

after starting engine, tempera-

is irregular)

< -

c_ CJ _

Clanging sound is heard from around cylinder head

_

High idling speed of engine is low

-

Leakage from fuel piping

-

When injection pipe is held between fingers, there is no pulse, or there are cylinders with a weak pulse

-

When air cleaner element is inspected directly, it is found to be clogged

-

When turbocharger

is rotated by hand, it is found to be heavy

-

When compression

pressure is measured, it is found to be low

-

When fuel filter, strainer are inspected directly, they are found to be clogged

: 5

When feed pump strainer

% 3

When control rack is pushed, it is found to be heavy or does not return

_z

2 5

0 _ -

Gradually

Dust indicator is red

v) E m C ._

G

Suddenly

2 Engine oil must be added more frequently .g 5 2

zm

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Dearee of use

1

2

z

P :

Some cylinders does not change engine speed when operating on reduced cylinders

When valve clearance value

0 _ _ _ _ _

-

is inspected directly, it is found to be clogged

5 -

6

s

z

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5 %

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2 _c

z n8 2

m .k

When feed pump is operated, operation

is too light or too heavy

When fuel cao is insoected directly, it is found to be clogged Legend 0: Possible cause (jugding from Questions and Check Items) Q: Most probable causes (judging from Questions and Check items) A: Possible causes due to length of use (used for a long period) 0: Items confirm the cause

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z

P

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2 2

5

5 ,_

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-

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is checked directly, it is found to be outside standard

When lever is placed at FULL position, it does not contact stopper

e 8 z

5 5 2 0

,

S-7

Exhaust General

gas is black (incomplete causes

l

Insufficient

l

Improper

l

Excessive

why exhaust

combustion)

gas is black Causes

intake of air condition injection

-

-

of fuel injection of fuel

%

F .P

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6 .%

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Q

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E

1

0

5 ii

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2 B 2

v Confirm recent repair history

I Dearee of use

I

Ooerated for lona oeriod

h -

$

0

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F .-P L

El

72 ._ 0.

E

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2 0 -

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0 z zi- c IN on -soecified fuel has been used Noise of interference is heard from around turbocharger Dust indicator is red Blow-by gas is excessive Engine pickup is poor and combustion is irregular When exhaust manifold is touched immediately after starting engine temperature of some cylinders is low

Seal on injection pump has come off sound is heard from around cylinder head Exhaust noise is abnormal Muffler is crushed Leakaae of air between turbocharaer and head. loose clamo When turbocharaer is rotated bv hand, it is found to be heaw When air cleaner is inspected directlv. it is found to be clogged When compression pressure is measured, it is found to be low Some cylinders does not change engine speed when operating on reduced cylinders

2 ._ B P

When check is made using delivery method, injection timing is fount to be incorrect

3

B 2 e

Injection pump test shows that injection amount is incorrect When valve clearance is checked directly it is found to be outside standard value 1 When muffler is removed, exhaust gas color returns to normal

I

When control rack is pushed, it is found to be heavy or does not return

Legend 0: Possible cause (jugding from Questions and Check items) @: Most probable causes (judging from Questions and Check items) A: Possible causes due to length of use (used for a long period) 0: Items confirm the cause

0 -

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s .e .‘y .5

$ 8 p -

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-

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S-8

Oil consumption *

To prevent engine

is excessive

oil from

leaking

(or exhaust up or down,

at idling for more than

20 minutes

gas is blue)

do not run the continuously.

(Both low and high idling) General

causes why oil consumption

l

Abnormal

l

External

l

Wear

combustion leakage

is excessive

of oil

of oil

of lubrication

system

B a d

3

.c

&I

2 ‘-

2 :P =

i %

2 Confirm recent repair history g 2 G 2 u

Degree of use


Oil consumption suddenly increased Engine oil must be added more frequently Engine oil becomes contaminated quickly Exhaust gas is blue under light load Amount of blow-by gas

Abncrmally excessive None

0 -

Area around engine is dirty with oil There is oil in engine cooling water f = Y 4 5

3 -

When exhaust pipe is removed, inside is found to be dirty with oil Inside of turbocharger intake pipe is dirty with oil Oil level in clutch or TORQFLOW transmission damper case rises When oil level is checked with dipstick, it is found to be above H mark Clamps for intake system are loose If engine is run at low idling, oil leaks from joint of turbocharger and exhaust manifold Inside of joint bolt of injection pump and boost compensator pipe is wet with oil When compression pressure is measured, it is found to be low When breather element is inspected, it is found to be clogged with dirty oil There is external leakage of oil from engine Pressure-tightness test of oil cooler shows there is leakage Excessive play of turbocharger shaft Check rear seal directly When intake manifold is removed, dust is found inside

-

c-

When intake manifold is removed, inside is found to be dirty with oil

I ____A Leyeno 0: Possible cause (jugding from Questions and Check items) Q: Most probable causes (judging from Questions and Check items) A: Possible causes due tolength-of use (used for a long period) 0: Items confirm the cause

I k

I L

Remedy

x

r”

12-069 8

S-9

Oil becomes General

contaminated

quickly

causes why oil becomes

l

Intake of exhaust

l

Clogging

of lubrication

l

Improper

combustion

l

Use of improper

l

Operation

l

Interval

gas due to internal

quickly

wear

-

-

passage

oil

under excessive between

contaminated

load

oil change

is too long

m .P a .g

6

a

E

b P

E

r” ::

se,

23

s

i z

2

= 0 -0 (u

$

0 0 -

Confirm recent repair history E 2 5 z

-


Degree of use Engine oil must be added more frequently Non-specified

0 -

fuel has been used Blue under light load

Color of exhaust gas

Black Abnormally

Amount E .= % a, 5

of blow-by gas

excessive

None

Oil filter caution lamp stays on even when oil pressure rises When oil filter is inspected, metal particles are found When exhaust pipe is removed, inside is found to be dirty with oil Engine oil temperature

rises quickly

When oil level is checked with dipstic, When compression .-P 5 2 2 0 z c

-

it is found

pressure is measured,

to be above H mark.

it is found to be low

-

drain tube is clogged

Excessive play of turbocharger

shaft

I

E

P 8

5 .:: 8

0

0

-

-

-

-

-

-

-

-

-

-

-

-

F

-s x-

12-070 0

_;; 3 Remedy

2

-

s

z

2

-

-

-

When safety valve is inspected directly, spring is found to be catching or broken Legend 0: Possible cause (jugding from Questions and Check items) 0: Most probable causes (judging from Questions and Check items) A: Possible causes due to length of use (used for a long period) 0: Items confirm the cause

P

D

0 T YEi - 0 - --ii - - - G - - - - < -6 -

When oil cooler is inspected directly, it is found to be clogged Turbocharger

a

s %

0 -

When breather element is inspected directly, it is found to be clogged with dirty oil, or hose is broken When oil filter is inspected directly, it is found to be clogged

b

LF

-E

5 :

c? 1

5 ii

2 0

z

5m .?

5

2 0 5 T

.c .E _c

E F 2 = 0 _

0 _ -

2 % _ -

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r

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2 <

2

S-l 0

Fuel consumption General

causes

l

Leakage

l

Improper

l

Excessive

why

is excessive fuel

consumption

is excessive

r

of fuel condition

of fuel

injection

of fuel

injection

-

-

-

-

-ii 0

g t; ._ a 27

P m

x

.L .5

.-2 G

P


2 P

2 8 -_

E

4

-s g

F 2

.2

2

$ -

h -

h -

0 -

-0 -

0 Match mark on injection pump is misaligned

-

Enaine oil level rises and smells of diesel fuel

-

Engine low idling speed is high

-

Injection pump test shows that injection amount is too high .-P 6 2 I = 2 $

Some cylinders does not change engine speed when operating on reduced cylinders When control rack is pushed, it is found to be heavy or does not return

-% -

When check is made using delivery method, injection timing is found to be incorrect

-

Remove nozzle holder and inspect directly

-

Remove feed pump and inspect directly

-

When engine speed is measured, low idling speed is found to be high Legend 0: Possible cause (jugding from Questions and Check items) 0: Most probable causes (judging from Questions and’theck items) A: Possible causes due to length of use (used for a long period) 0: Items confirm the cause

I

7 -

c

0 0 -G 5 -

T T TiI iti s i % Et a lx E -

s .t(

5

.% .5

m 2

.-?

B

I

2 -

0

-

m

.-E m I

.-6 z .% .c .-? t

d -

x -

There is irregular combustion

9 E

x

1 Confirm recent repair history

0 -

.5

E

&

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c

2 5

.-r”

x-

e

0” 0 - - - -

-

-

-

5 -

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r-

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m

$ r -

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a -

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m

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12-07 1 @

S-1 1

Oil is in cooling General

water,

or water

spurts

back, or water

level goes down

causes why oil is in cooling water Causes

l

Internal

leakage

in lubrication

system

l

Internal

leakage

in cooling system


.-:

cl 2 c1

Degree of use Increase in oil level

Operated for long period Suddenly increased Gradually increased

Hard water is being used as cooling water (corrosion resistor valve is closed)

/ : C % 0) 5 .-P

Engine oil level has risen, oil is cloudy white Excessive air bubbles inside radiator, water spurts back Hydraulic oil, torque converter, transmission oil is cloudy white When hydraulic oil, torque converter, transmission oil is drained, water comes out Pressure-tightness test of oil cooler shows there is leakage

i;

Pressure-tightness test of cylinder head shows there is leakage

2 I %

Remove oil oan and insoect directlv

Remove cylinder head and inspect directly

0

Inspect water pump E I_ . Legeno 0: Possible cause (jugding from Questions and Check items) 0: Most probable causes (judging from Questions and Check items) A: Possible causes due to length of use (used for a long period) 0: Items confirm the cause

12-072 8

S-1.2

Oil pressure General

lamp lights up (drop in oil pressure)

causes

why

oil

pressure

lamp

lights up

l

Leakage,

clogging,

l

Defective

l

Use of improper

l

Deterioration

wear

of lubricating

r

1

Causes

-

-

-

-

-

-

system

*

Standards

oil pressure

control

oil (improper

% a

viscosity)

of oil due to overheating for engine

Li

z 0

oil selection

z5

AMBIENT TEMPERATURE

5 = + =

.o .-P

Fi

0

P x 8 E _o u Confirm recent repair history Degree of use

1


h -

-z h -


0

Caution lame liahts uo

G

Non-soecified fuel has been used

0 -

0 TT -

0 -

0 -

-

-

-

-

L

-

-

-

I

1 Lights up at low idling Condition when oil pressure lamp lights up

Lights up at low. high idling Lights up on slopes Sometimes lights up

Crushed piping, leakage from hydraulic piping (external) Oil level sensor lamo liohts uo When oil level in oil pan is checked, it is found to be low Metal particles are found when oil is drained Metal particles are stuck to oil filter element Oil is cloudy white or smells of diesel oil When oil filter is inspected directly, it is found to be cloooed , Remove oil pan and inspect directly Oil oumo rotation is heavy, there is play There is catching of relief valve, regulator valve, or spring, valve guide is broken When oil level sensor is replaced, oil pressure sensor lam goes out When oil pressure is measured, it is found to be within standard value 1 Check oil cooler

I

?gend : Possible cause Remedy (jugding from Questions and Check items) I Q: Most probable causes (judging from Questions and Check items) A: Possible causes due to length of use (used for a long period) 0: Items confirm the cause

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Oil level rises

3

*

If there

is oil in the

troubleshooting General

cooling

for “Oil

water,

carry

is in cooling

out

water”.

causes why oil level rises

l

Water

l

Fuel in oil (diluted,

l

Entry of oil from other component

r

Causes

-

-

in oil (cloudy white) and smells

of diesel fuel)

F

‘5 .-

E

E

% t

P 0

z

‘f

z

k E

P P

Leave radiator cap open. When engine is run at idling, an abnormal number of bubbles appear, or water spurts back Water pump breather hole is clogged with mud When water pump breather hole is cleaned, water comes out Oil level does down in TORQFLOW transmission. or damoer case Oil level does down in hvdraulic tank Enaine oil smells of diesel fuel Fuel is added more frequently Pressure-tightness test of oil cooler shows there is leakage Pressure-tightness test of cylinder head shows there is leakage When compression pressure is measured, it is found to be low Remove water oumo and insoect directlv lnsoect rear seal directlv When pump auxiliary equipment is removed, seal is found to be broken Remove nozzle holder and inspect directly Remove injection pump and inspect directly There is improper contact of thermostat seat valve Remove oil q an and insoect directlv

I

I Legend 0: Possible cause (jugding from Questions and Check items) Q: Most probable causes (judging from Questions and Check items) A: Possible causes due to length of use (used for a long period) 0: Items confirm the cause

12-074 8

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Pressure-tiahtness test of after-cooler core shows there is leakage Remedy

2

2

5z

-

When enaine is first started, drops of water come from muffler

‘Z

z


Exhaust oas is white

B

E d

m -

There is oil in radiator cooling water

2

m P : ._

&


‘E .-

iz

z 8 4

Degree of use

.a

z t

0.

% c”

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4f m

5e

m -

0 -

-

-

-

-

5 T ii i?

T

u

P z t

S-l 4

Water

temperature

General

causes

becomes

why water

too high (overheating)

temperature

l

Lack of cooling wind (deformation,

l

Drop in heat dissipation

l

Defective

l

Rise in il temperature j,

becomes

damage

too high

of fan)

r

efficiency

cooling circulation

system

of power train

Carry out troubleshooting

for chassis.

c ;

6 6 0

E?

s 4

z

s P i 5 g E

2

0

m L

2 x 8 z 9

u -

_O

v -


I

Deoree of use Condition of overheating

Water temperature

Ooerated for lono oeriod

6

Suddenly overheated

1 Does not go down from red range

Radiator water level sensor lights up Fan belt whines

under sudden load

Cloudy white oil is floating

on cooling water

Coolino water flows out from overflow

hose

Excessive air bubbles inside radiator, water sourts back Engine oil level has risen, oil is cloudv white Radiator shroud, inside of underguard

are clogged with dirt or mud

When light bulb is held behind radiator, no light passes through Water is leaking because of cracks in hose or loose clamps Belt tension

is found to be slack

Power train oil temoerature

enters red ranae before enaine water temperature

Temoerature

difference

between top and bottom radiator tanks is excessive

Temperature

difference

between top and bottom ratiator tanks is too small

When radiator is inspected through When a function ing temperature

water filler port, the core is found to be cloggel

test is carried out on the thermostat,

When water temoerature

When compression

is measured. it is found to be normal

pressure is measured,

E

2

it is found to be low

test of cylinder head shows there is leakage

Legend 0: Possible cause (jugding from Questions and Check items) Q: Most probable causes (judging from Questions and Check items) A: Possible causes due to length of use (used for a long period) 0: items confirm the cause

5

2 _ _ -

-

P

E

L_

m 8 L

$

Y 0 6 _ -

h .-?

_ - - -

.k

Remedy

0

7 z

G - 5

- - _ _ -

s

z

G _ _ _ _

is made with radiator cap tester, set pressure is found to be

Remove oil pan and inspect directly Pressure-tightness

i

2

it does not open at the crack

When oil cooler is insoected directlv. it is found to be cloaaed When measurement low

0 _ _ ii iTI - _ - - 0 _ _ _

Alwavs tends to overheat / Rises quickly

gauge

h - h

2

0 -

2 c

z_ -

-

5 -

u P

a, ii

DC

cc

P

4

12-075 @

S-l 5

Abnormal + Judge

noise is made if the

noise

is an internal

noise

or an external

noise. Causes

General

causes why abnormal

Abnormality Abnormal Air sucked

due to defective combustion

noise is made parts

% i

noise

in from intake

system

5 :

a

: . / : ” : j

u‘

?

5

i : ,

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E

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$ g

I

9

0

Dearee of use

E

.g

z

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Condition of abnormal noise

-

I 0 aerated

for lona period

-

1 Graduallv occurred

(

1 Suddenly occurred

Non-specified fuel has been used Engine oil must be added more frequently Color of exhaust gas

Blue under light load

) ) (

Slack

) )

Metal particles are found in oil filter Slow-by gas is excessive

4

Noise of interference is heard from around turbocharger

E (Y

.= P 6

Engine pickup is poor and combustion is irregular When exhaust manifold is touched immediately aftr starting engine, temperature of some cylinders is low

Abnormal noise is loud when accelerating engine

Leakage of air between turbocharger and cylinder head Vibrating noise is heard from around muffler

I

1 When compression pressure is measured, it is found to be low

I

When turbocharger is rotated by hand, it is found to be heavy Remove gear cover and inspect directly, (flywheel housing top cover)

When control rack is pushed, it is found to be heavy or does not return Injection pump test shows that injection amount is incorrect Fan is deformed, or belt is loose When valve clearance is checked directly, it is found to be outside standard value Remove cylinder head cover and inspect directly When muffler is removed, abnormal noise disappears Check for leakaae from air comoressor oioina

k : f 8

5

$ -

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0 0 - 0 -

0 -

0

0 -

0 -

s-

Some cylinders does not change engine speed when oeprating on reduced cylinder

.c

m .?

-


1 Clanging sound is heard from around cylinder head

.-2 B e z B 2 e

-

0

_a

s ,_ t; .L

2

-

1 Confirm recent reoair historv

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x

-

5 -

G - G - -

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0 5 -

Remove oil pan and inspect Legend 0: Possible cause (jugding from Questions and Check items) 0: Most probable causes (judging from Questions and Check items) A: Possible causes due to length of use (used for a long period) 0: Items confirm the cause

12-076 Go

Remedy

, ! ;

u z 4 4 5 P cc

s5 oz a

.L

x

2

S-l 6

Vibration *

is excessive

If there

is abnormal

vibration,

noise

together

carry out troubleshooting

with

the

for “Abno-

General

causes why vibration

l

Defective

parts (abnormal

l

Improper

alignment

l

Abnormal

1

Causes

rmal noise is made”. is excessive

wear,

breakage)

combustion

AZ

0

3 8 D

5

.z a

r

EL 4 m E

-is

Confirm recent repair history Degree of use I .o 6 : 0


Condition of vibration Non-specified

Suddenly

increased

Gradually

increased

fuel has been used

Metal particles are found in oil filter Metal particles are found when oil is drained Oil pressure is low at low idling

i S z 8 6

Vibration

occurs at mid-range

Vibration

follows engine speed

5-

speed

7 -

Exhaust gas is black Seal on injection

r-

pump has come off

Remove oil pan and inspect directlv 1 Remove side cover and inspect directlv Cherck directly for worn support pilot, play Inspect

directlyfor

loose engine mounting

bolts, broken cushion

i-

When radial runout, face runout are measured, they are found to be Remove front

I

cover. and inspect directlv.

Remove head cover and insvect directlv

1 Injection

pump test shows that iniection

-

amount is incorrect

Legeno 0: Possible cause (jugding from Questions and Check items) 0: Most probable causes (judging from Questions and Check -items) a: Possible causes due to length of use (used for a long period) 0: Items confirm the cause

lu

xs. Lz

.s

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3 -

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:

12-077 0

TROUBLESHOOTING TABLE FOR ELECTRONIC GOVERNOR r

T .i t t

P,~_ Indication Item

Trouble check method

Iheck time

Action take

to

bi’ity

Normal Written data and read data are compared with each other when system is started, and they are different as a result.

C/U (RAN)

1

Signals are not output for a certain time after AD conversion is finished.

C/U (AD converter)

-r

ms

10s Is

Racksensor circuit

Output voltage of rack sensor circuit is out of specified range (Above 4.5V or below 0.5V).

Overrun

Software overrun: NE 2 115% Overspeed Hardware overrun: HE 2 2,300rpm

Oil pressure drop

Oil pressure switch is Hi (24V) and NE > 500rpm.

Water temperature rise

Water temperature is Hi (24V).

NE sensor No. 1

Second but first

NE Sensor No. 2

First pulse is received second one is not.

Speed control knob (Low idling)

Output voltage of speed control knob is out of specified range (Above 4.8V or below 0.2V).

Frequency control knob

Output, voltage of frequency control knob is out of specified range (Above 4.8V or below 0.2V).

IS

Droop adjustment error

Output voltage of droop adjustment is out of specified range (Above4.8V or below 0.2V).

IS

GOV PULL

switch

but

6s

0.3s

160 NE s

420 NE s

GOV pD;tJN

Normal control (with frrst pulse)

Same

0

Not @ Alternate c reFast Fast settable

?‘“’ Remarks ;ys-

Iuns -

lorma -

em

as above

Same as above

IfNE> 150rpm, set to 1 sec.

itop:

nginf as ‘oubll gain.

E!Gzg

v r settabl

Pe;;&

is output when software overrunis detected.

When power is tur ned off and startec again, if engine is not under conditior at left, aovernor is reset. -

0

Reset when inpu signal become: normal.

@ Alternate C Slow Slow

Fix to set median.

Re- 0 settable

@

Fix to set median.

Re- 0 settable

@ Slow

all AD data are controlled

of No.

normally

Same

as above

Note 3)

0 : Going off, 0 : Lighting, @ : Slow flashing @ 0 : Alternate flashing, @ @ : Simultaneous

(Period: flashing

Note 4)

“GOV

Note 5)

The indication

4 seconds),

tuns

ight nginr ‘oublr Only in isochronous operation

Reset when inpu signal become: normal.

Fast

Same as above

On& operation.

in the backup

(One pattern

Same as above

Same as above

0

If speed contra lknob > 20% ant 0.2sec, normal.

If a start signal

12-078 69

When power is turned off ant started again, if en, gine is not under condition at left governor is reset.

Re_ a SimultaNormal 0 neous control with setsecond pulse tab’e ‘tow ‘tow

Two or more codes are detected in the order seconds, the next pattern is indicated.)

of the lamps

l

GOVPULL 2 . DOWN ~~~i~

Note 2)

means

0

Same as above

Note I)

PULL DOWN”

0

En3ine

Software: Same as above Hardware: NE 2 2,lOOrpm

pulse is received one is not.

is input,

Resetting condition

Red

0

IOOms GOV PULL Not 0 DOWN z;_ (Note I) table

Target value and actual value are not the same: NE < 150rpm. NE > 150rpm (Imm minimum)

I

2

Green

:on-

of

settable

Governor servo error

I

GOV $LLN

lamps

setta_

mode.

is indicated

@

: Fast

(A servo

error

for 12 seconds.

flashing

is not detected.) Then,

after an interval

(0.5: seconds),

to pull back the fuel rack. is saved,

and it is not cleared

until the memory

clear switch

is pressed

for 0.4 seconds.

of 6

Diagnosis

lamp indication

0

Lit

@

@ Simultaneous

0

out

@

a

0

Quick flashing

0

@ Alternate

@ Slow flashing

(0.25 second)

type

system

0

0

Governor

servo system

@

@I

Rack sensor system

8

0

Overrun

0

0

1st speed sensor (engine)

@

@

@I

@

a

@

l

(3

No indication

0

0

Normal

0

0

Low idling speed control

Droop changeover

indication

dial

dial

pump)

quick flashing

lamp indication Green Red I0 0

Controller

2nd speed sensor (Fuel injection

flashing

flashing

(2 seconds) Diagnosis

Indication

Alternate

12-079 @

1.

Controller

system

abnormality

5 YES YES 4 Is the rack drags in

2. Governor

servo system

YES

abnormality

Is the resistance value between E

the injection

pump?

(female@@

cap removed.)

(Check with the rack

and

NO 4

r (female1 a and% (female)OlB(female)

YES -

0) and the resistance Z (female)@ and a

value between 2

~ Is the resistance YES

value

1

@It@) normal?

Is the resistance

- Resistance

value between a _ tfemale)@(Otfemale) 6)) and @%female) OIL0tfemale)@) normal? . Resistance

between

_

q(female)@@)

and

value

* Power

OFF

* Disconnect (Connect

a.

8,

-

-

“Ower

OFF

, NO

1&z&yL

* Resistance *

value between ~(female)O~i@) and @!(femalei&S~) 30.5 - 38.55 f2 Resistance value between Q(female) (@I@ 0) and

~(female)@X@:) 0.75 - 22.5 R * Disconnect KI:. Connect E‘. f. p NO

(female)@ ia(female)@ 30.5 - 38.5 R value between zlfemale)@ ~!(female)O(~(female)Ol 0.75 - 22 n Power OFF

* Resistance * - Disconnect

9-10.5R -

tfamale)@(~j(female) 0) normal? p . Resistance value @(female)O and @

ggifi

and

I.

NO

&I, 3.)

value

9-10.50

- Power

OFF

NO

* Disconnect w.

0

,zl.

Electrical circuit diagram related to 1. and 2. above Controller

Actuator

r

t

Racksensor

TAE00063

12-080 03

Remedy

Cause

Iontroller

abnormality

aulty fuel injection

pump

aulty controller

aulty harness 3-q-Bandfl)

aultyfuel

Replace.

Replace.

(between

injection

pump

Replace (Repair the harness.)

Replace

aulty harness (between g-fl-a,

Repair the harness

aulty fuel injection ump, faulty harness

Replace (Repair the harness)

12-081 03

3.

Rack sensor system

abnormality

YES 4

YES

YES -

Is the resistance value between I@ (female) 0 and q (female)O0l(female) 01 and the resistance

0)

-

normal?

* Resistance

q(female)a (female)@

I

Is the resistance value

between

B

~female)OKWemale) 0) and m(femalei O(O(female@I) normal? * Resistance

* Resistance

-

value

9 - 10.5 n * Power OFF * Disconnect q I. (Connect @iI,3)

(Check with the rack

between

value

pump?

cap removed.) -

’ Power

NO

0~

m

Ifemale)@@) and B (female@%@J) normal? ~ NO Resistance value between ~3(female@X@

*

q(female)@(@,)

30.5 - 38.55 R * Resistance value between acfemale) ~(female)@(@) 0.75 - 22.5 .C -

_

the injection

value

value between q (female@ and @ (femaleK%Dfemale)

2 _

Is the resistance value between n Ifemale@%@ and B (female)@@) . and the resistance

3

5 YES _ Is the rack drags in

* Disconnect

0.

Connect

@@I

and and

!B. RI.

NO and q (~(female)@) 30.5 - 38.5 L2

. Resistance value between ~(female)Ot~_(female)O)

m(female)@ 0.75 - 22 R

and

- Power OFF -Disconnect G, LG. NO

value

9-10.5R

* Power

OFF . Disconnect %I,0 ,z.

NO

Electrical circuit diagram related to 3. above Controller

Actuator

Rack

sensor

1

TAE00063

12-082 @

Cause

-

Faulty fuel injection

-

Faulty controller

_ Faulty harness q -_-mandg)

)

Remedy

pump

Replace.

Replace.

(between

Faulty fuel injection

pump

Replace (Repair the harness.)

Replace

Faulty harness (between El-O-B

Repair the harness

Faulty fuel injection pump, faulty harness

Replace (Repair the harness)

12-083 @

4.

Overrun

abnormality

I 1

YES

-

Cause

Remedy

I

The probable cause is located outside of the ekctronical governorsystem.

FHW/ _ (Overrun)

Electrical

circuit

NO

- Power OFF * Disconnect @.

diagram

related

[

=

I

!

m

El@)

r-

Replace, or repair the harness.

to 4. above

El Actuator

Faulty fuel injection pump, faulty harness

@-------a m

@

,A

1 I I

II

TAE00063

12-084 da

5.

1st speed

sensor

abnormality

Cause

2 YES Is the resistance YES value between 1 r @(female)@ and a22.1 -2.5 kQ?

Is the resistance value between q _ (male)@ and E ~male~Z.l -2.5 I&?

- Power OFF * Disconnect 51.

(Engine)

6.

2nd

speed

sensor

* Power OFF . Disconnect a. - Connect 3.

NO

L

Remedy

Faulty controller

!eolace.

Faulty harness (between zl-7-B)

iepair or eplace.

W Faulty 1st speed sensor

NO

leplace

abnormality 2 YES

value between 0

. Power OFF * Disconnect 3.

Electrical

circuit

diagram

related

Faulty controller

Ieplace

Faulty harness (between a-7J-a)

epair or splace

-aulty 2nd speed sensor

eplace

to 5. and 6. above

Controller

2nd speed sensor

1st speed sensor

TAE00064

12-085 43

7. Low idling

speed

control

dial

abnormality

Remedy

Cause

2 YES Is the resistance YES value between 0 (female@ and q 1 (femaleY@ normal?

0

@-

Electrical

Is the resistance NO . The resistance value between 0 value changes between approx. 0.5 - 5.5 kR. (female@ and u . Power OFF (female@ normal? p * Disconnect a. * The resistance -Turn the low idling speed control dial. value changes between approx. O.F-05.5 kR. . Power OFF * Disconnect a. -Turn the low idling speed control dial.

circuit diagram

related

Controller

Replace.

abnormality

Faulty harness (between B@ and low idling speed control dial)

Repair the harness.

Faulty low idling speed control dial orfaulty harness (between a@ and low idling speed control dial)

Replace or repair the harness.

to 7. above

Controller

Droop

Low idling

control

dial

speed control

dial +--

I

TAE00065

12-086 @

8. Droop control

dial abnormality

Cause

2 YES Is the resistance YES value between 0 (female@ and q 1 (female)@normal?

Is the resistance value between q (female@ and B (female@normal?

- The

L

Controller

)

q@

Faulty harness (between and droop control dial)

Repair the harness.

Faultv drooo control dial or faul& harness (between H@ and droop control dial)

Replace or repair the harness.

resistance NO value changes between approx. 0.5 - 5.5 kQ. * Power OFF - Disconnect q. -Turn the droop control dial. L

* The resistance value changes between approx. 0.!?5.5 kR. * Power OFF * Disconnect n. + Turn the droop control dial.

Remedy

I

Replace.

abnormality

Electrical circuit diagram related to 8. above

Controller 1

Low idling

Droop control

dial

speed control

dial

TAE00065

12-087 @

a 9.

Diagnosis

lamp fails to make indication

Cause

Remedy

1 YES

Is the voltage between atcheck

p

terminal)@ 0

o-

Controller

abnormality

generator body and the voltage between 0 and generator ~ body normal?

* @I voltage -0 voltage * Power ON

-

L

NO +20 - +3OV 0 - c2V

Faulty harness (between a@(@), - g - ACC terminals or between a@ (BJ@)) and battery GND)


co2?d grounding terminal

12-088 03

eplace.

and

TAE00066

epair the arness.

10.

Normal

indication

a.

Changeover

between

low idling speed

and rated

speed

cannot

be achieved.

Cause

1 YES

l

0

-K$Z?j$and

- Power * At the - At the

Electrical

circuit

diagram

-

NO ON time of low idling speed: 20 - 30V time of rated speed: 0 - 2V

related

-

Controller

abnormality

Faulty harness (between low idling speed/rated speed changeover switch - li: - controller)

Remedy

Replace.

Repair the harness.

to 10. a. above

TAE00067

12-089 63

b.

Changeover

between

50Hz and 60Hz cannot

be achieved.

1 YES

0

o-

Is the continuity between E3female) @and a (female) @Snormal?

- Disconnect -When 50Hz

El. NO is selected: Continuity is observed. -When60Hz is selected: Continuity is not observed.

Electrical

circuit diagram

related

to 10. b. above

Controller

0C 50/60Hz changeover

1Z-090 @

3

=

Controller

abnormality

-

Faulty harness (between 50160Hz changeover switch and controller)

Replace.

Repair the harness.

c. *

Starting

failure

(the engine

cranks,

but no exhaust

Check for causes (such as abnormalities

smoke

in the fuel system)

is emitted.) outside

of the electronical

governor

system

first

of all. Remedy

YES 1 Is short-circuit observed between - B(female)@ and fl(female)@? - Power OFF * Disconnect a. NO

00

2 YES Is short-circuit observed between Q(femal& (@03, and q (femaleKQ@)?

- Power

OFF . Disconnect a.

Electrical

circuit

diagram

related

-

NO

Actuator

r

Racksensor

0

G

[$r

Replace or repair.

Faulty harness (between @j-Y-fl)

Repair or replace.

Faulty controller

Replace.

to 10. c. above

qr

Faulty injection pump (Faulty harness)

@-----___

34

1

El

Controller

0

12-091 03

d.

Starting

failure

(the engine

fails to start,

although

but exhaust

smoke

is emitted.)

Cause

YES

4

1

YES

I

2

. Disconnect

d.

Isshort-circuit observed between - atfemale)@ NO @:, and q3(femafe) @&a,? - Power OFF * Disconnect

a.

3YE Isthe voltage between &Xfemale@$andE - (female)@ normal at NO thetimeof engine start? * 20 - 30Vfbattery voltage) - Disconnect a. * Power ON - Start the engine.

Electrical

circuit

diagram

related

Faulty injection pump (Faulty harness)

Replace or repair.

Short-circuit of rack sensor harness between HI and IZ

Repair or replace.

The probable cause is located outside of the electronical governor system. Faulty harness (between starting switch C terminal and 3)

to 10. d. above

1 Actuator

Nr

Remedy

Controller

q-

r Rack sensor

i

Controller

Starting switch C terminal

12-092 03

Repair or eeplace.

e.

The engine

*

This electronical engine

stops during

stops,

governor check

1.

The emergency

2.

The engine

3.

The oil pressure

water

running. system

has been designed

if any of the following stop

switch

temperature

statuses

to stop the engine has been

in any of the following

cases.

If the

produced.

is pressed. is abnormal.

is abnormal.

1Z-093 @

11. Memory clear cannot is made by diagnosis *

To execute cannot

*

memory

be achieved

If memory longer,

clear

implement

be achieved lamp).

clear, when

cannot

keep

by pressing

pressing

the memory be achieved

the diagnosis

the

clear even

indicated

the memory

memory switch

if the

clear

switch

is pressed memory

clear switch

for

(when

5 seconds

failure

or longer.

1 YES

-When -When

X3

memory memory

clear

switch

was

-

-

NO clear switch is ON: Continuity clear switch is OFF: Continuity

kept

pressed

is observed. is not observed.

clear switch

5 seconds

T

Remedy

Replace.

Faulty memory clear switch or faulty harness (between memory clear switch and controller)

Replace the switch or repair the harness.

I

Controller

TAE00070

1Z-094 @

for

Faulty controller


Memory

clear

below.

If the continuity between Zl(female) aand@ normal?

- Disconnect - Power OFF

(Memory

momentarily.)

Cause

Ll

indication

or

ENGINE 13 DISASSEMBLY

AND

ASSEMBLY

.13-002 DISASSEMBLY ................................................ .13-019 Washing ...................................................... Washing cylinder block ............................. .13-019 Washing crankshaft ................................... .13-020 .13-021 Measuring parts ......................................... .13-027 ASSEMBLY ......................................................

*

The explanation for disassembly and assembly of the engine given in this section describes the procedure for the SA6D170-1 engine when using the repair stand.

*

If a different engine or engine repair stand is used, or if the engine is not equipped with an aftercooler, the procedure may be different in places, but the operation is basically the same.

13-001 0

Special tools

1

No. A Al

Part No.

1

Part Name

790-501-2000

Engine repair stand

790-901-I

l

170

B 1 790-476-1140 C 1 795-601-I

I Q’W 1

Repair stand bracket

1 Lifting tool

110 1 Push tool

1

I

1

I

’

I

1

1 795-100-I

191

G 1 795-102-1300

Piston ring tool 1 Liner puller

l

Preparatory

work

1.

Washing l Before disassembling parts for any cracks of whole engine carefully disassembly work can

the engine, check all damage, then clean the with steam so that the be carried out swiftly.

‘1

6162F669

1) Before washing,

remove starting motor assembly (I), alternator assembly (2), and electric wiring. 2) Cover all the openings of the engine with tape. 3) Using a washing machine, clean engine.

2.

Setting engine stand l Prepare a stable engine stand that will prevent the engine from falling over, then set the engine assembly on the stand and secure it in position.

3.

Engin oil Drain engine oil.

. A

Engine oil: Approx. 41a

II 13-002 0

-6162F671

1.

Water pump assembly I) Remove water tube (1). 2) Remove plate, then remove water tube (2). 3) Remove water pump assembly (3). *After removing the water pump, remove the drive shaft.

2.

Turbocharger drain tube Disconnect drain tube (I).

3.

Oil cooler 1) Remove water tube (I). 2) Remove oil cooler (2).

4.

Placing engine on the stand 1) Install bracket Al for the engine repair stand A using the threads for the oil cooler. 2) Raise engine assembly (I) and set it to the engine repair stand A. * Tighten the bolts on the engine repair stand securely.

5.

Air cleaner Remove air cleaner (1).

6.

Intake connector Remove bracket (I) and intake connector (2).

7.

Connector pipe 1) Remove boost compensator tube (I). 2) Remove plate, then remove connector

pipe

(2). 8.

Fuel filter I) Disconnect fuel hose for APS. 2) Disconnect fuel hoses and remove fuel filter.

9.

After-cooler tube, lubrication tube 1) Disconnect after-cooler tube. 2) Disconnect turbocharger lubrication tube.

10. Fuel injection tube Remove clamp, and tube (I).

13-004 0

disconnect

fuel

injection

11. Oil filter Remove oil filter (I), then remove bracket. 12. Oil filler, oil level gauge 1) Remove oil filler (2). 2) Remove oil level gauge (3).

""'J

y

"I.) ._a

6162F680

13. Tension spring, tension pulley I) Loosen locknut (I), loosen bolt (2) to allow spring to expand, then remove tension spring (3).

A

Be careful not to get your fingers caught in the bracket.

2) Remove tension pulley assembly (4) and bracket as one unit. l Disassemble tension pulley assembly. i) Remove snap ring (51, then remove cover (6). ii) Remove lock plate (7). then remove holder (8). iii)Remove pulley assembly (9) from shaft. iv)Remove bearing (10). then remove snap ring (II), and take out spacer (12) and bearing (13). v) Remove oil seal (15) from pulley (14). vi)Remove plate (161, then remove seal (17), bearing (18), inner race (191, and seal (20).

22

6162F682

13-005 0

14. Corrosion resistor Using filter wrench,

remove

corrosion

resistors

(1,.

15. Thermostat housing Remove thermostat housing (I). l Disassembly thermostat housing.

6162F685

i) Remove outlet pipe (2) and cover (3). ii) Remove thermostat (4). iii) Remove thermostat seal (5) from husing (6).

16. Turbocharger, exhaust manifold assembly 1) Sling turbocharger and exhaust manifold assembly (11, remove mounting bolts. 2) Remove turbocharger and exhaust manifold.

..

..

_ __

-

-.

J

17. Aftercooler, intake manifold assembly 1) Sling aftercooler and intake manifold assembly (I), remove mounting bolts. 2) Remove aftercooler and intake manifold assem bly.

l

Disassembly aftercooler and intake manifold. Remove joint (2) and connector (3). i) ii) Remove cover (4). iii) Remove core assembly (5) from intake manifold (6).

6162F689

13-007 0

18. Fuel injection pump assembly 1) Remove lubrication tube .between injection pump and cylinder block. 2) Screw lifting tool B into delivery valve thread, and sling assembly. 3) Pull out fuel injection pump assembly (1) to rear and remove. Fuel injection pump assembly. SAGDI 70 : 48 kg S6D170 : 30 kg 6162F690

19. Spill tube, head cover 1) Disconnect spill tube (I). 2) Disconnect turbocharger lubrication tube (2). 3) Disconnect connection (3) and remove head cover (4). * Screw forcing screws (Thread dia. = 14 mm, Pitch = 1.5 mm) into the places marked., and remove the head cover. * After removing the head cover, remove the nozzle seal from the head cover.

h_j 0

0

6162F693

20.

Rocker arm Remove rocker arm (1). *To prevent pressure on the push rod when installing, loosen the locknut and turn the adjustment screw (2) back 2 to 3 turns before removing the rocker arm assembly.

13-008 0

l

Disassemble rocker arm assembly. i) Remove locknut (1). then remove adjustment screw (2) from rocker arm (3). ii) Using push tool, remove bushing (4).

6162F695

6162F696

21. Crosshead Remove crosshead (1). 22. Push rod Remove push rod (2).

23. Injection nozzle holder Remove mounting bolts (I), then remove tion nozzle holder assembly (2).

injec-

24. Rocker arm housing I) Remove snap ring (I), then using push tool C, remove water manifold (2).

“c-2 “0

2 6162F699

6162F700

13-009 0

2) Remove rocker arm housing (3). 25. Cylinder head assembly Using eyebolt @ (Dia. = 12 mm, Pitch = 1.75 mm), remove cylinder head assembly (2). Cylinder head:

40 kg

-+‘y

l

6162F701

11

6162F702

Disassembly the cylinder head i) Using spring pusher D, compress spring, then remove valve cotter (3). ii) Remove retainer (4). iii) Remove outer spring (5). inner spring and valve lower seat.

6162F703

iv)

Remove exhaust valves (7).

valves

(6) and

6162F70

intake

6162F70E

26. Crankshaft pulley 1) Remove mechanical pump tubes (I). 2) Remove crankshaft pulley (2). * If an impact wrench is used to loosen the bolts, there is danger of damage to the thread, so loosen the bolts with a hand tool.

%

F6 164026

6162F706

6162F707

27. Vibration damper I) Remove spacer (3). 2) Sling vibration damper (4), then screw in forcing screw @ and remove vibration damper (4). * While tightening the forcing screw, take care not to drop the vibration damper.

28. Front support Lift out front support (I). Front support:

See Weight Table

29. Cover Remove cover (2).

6162F710

2

z z

30. Trunnion Tighten the forcing screw to remove trunnion (I). *When replacing the front seal, remove oil seal. 31. Timer Using tool E, remove timer (3). * Timer (3) is press fitted with a taper, so hit the end face of reamer bar E with a hammer to remove it.

6162F711

32. Accessory drive pulley 1) Remove accessory drive pulley (4). 2) Remove pulley (5) for alternator drive. 33. Mechanical pump assembly Remove mechanical pump assembly.

34. Injection pump drive case Remove coupling (I), then pump drive case (2).

remove

injection

35. Cam follower 1) Remove cover (I). 2) Remove cam follower (2).

6162F714

36. Gear case cover Remove gear case cover (I). r?zkg

Gear case cover:

48 kg

37. Camshaft assembly Remove mounting bolt from hole in cam gear, then pull out camshaft assembly (I). *When removing the camshaft, rotate it while pulling it out to prevent damage to the cam bushing. 6 kg

Camshaft assembly: 32 kg

38. Main idler gear Remove mounting idler gear (2).

bolt (I),

then

remove

main

39. idler gear for water pump gear Remove mounting bolt (31, then gear (4) for water pump.

remove

idler

40. Idler gear for oil pump gear Remove mounting bolt ES), then gear (6) for oil pump.

remove

idler

41. Flywheel Using the sling bolts (thread dia. = 12 mm, pitch = 1.751, lift out flywheel (I). Flywheel:

*If

See Weight Table

an impact wrench is used to loosen the bolts, there is danger of damage to the thread, so loosen the bolts with a hand tool.

%

F6164026

42. PTO drive gear 1) Remove steering pump drive gear (I). 2) Remove the six set bolts, and remove drive gear (2).

PTO

Remove 6 mounting bolts while supporting the PTO drive gear by hand. If the PTO drive gear is not supported, it may fall when the bolts are removed.

l

Disassemble PTO driving gear as follows: i) Remove bearing retainer (3) and shim (4).

6162F720

ii) iii)

Remove drive gear (5) and bearing (6). Remove bearing (7) from shaft (8).

5’ 43. Rear seal cover Remove rear seal cover (I).

44. Oil pan 1) iurn over repair stand to set oil pan at top. 2) Remove oil pan (I).

I

6162F721

t1

6162F722

45. Oil strainer Remove bracket, then remove oil strainer (I). 46. Oil pump assembly 1) Remove tube (2). 2) Remove oil pump assembly (3).

2

6162F725

47. Gear case Remove gear case (I). Gear case:

30 kg

48. Flywheel housing Lift out flywheel housing assembly (1). Flywheel housing:

95 kg

6162F727

49. Piston cooling nozzle Remove piston cooling nozzle (I). *To avoid hitting the piston, rotate 90” to remove.

6162F729

50. Piston and connecting rod assembly I) Using dial gauge 0, measure connecting rod side clearance to act as a guide when assembling. l Check the stamped number on the connecting rod cap. i) The cap number and cylinder number must match. ii) The number is stamped on the cam side. * If there is no stamped mark, mark the cylinder No. with an electric pen before removing. Do not stamp a mark. 2) Rotate the crankshaft so that the piston to be removed is at bottom dead center. 3) Loosen connecting rod bolt 5 - 6 turns. * If an impact wrench is used to loosen the bolts, there is danger of damage to the thread, so loosen the bolts with a hand tool.

%

F6164026

4) Tap head of connecting rod bolt with a plastic hammer, then disassemble connecting rod cap and connecting rod. 5) Remove carbon from top wall of liner with fine sandpaper. 6) Rotate crankshaft, and align with top dead center, then remove connecting rod cap (2). 7) Push in piston and connecting rod from oil pan end.

8) Support piston at cylinder head end, and remove piston and connecting rod assembly. * Be careful not to damage the inside surface of the liner with the corner of the connecting rod when removing it. 9) Remove other piston and connecting rods in the same way. * Keep in a safe place and be careful not to damage the piston sliding surface and the bearing. * Assemble the connecting rod and cap temporarily and keep together with the bearing to prevent mistakes when reassembling. l Disassemble the piston and connecting rod assembly. i) Remove snap ring (4). ii) Support connecting rod (5) with hand, then pull out piston pin (61, and disassemble piston (7) and connecting rod. * If the piston pin is stiff and cannot be removed, heat it in hot water (IOOT [212”Fl, 5 min.) before removing it.

iii) Remove snap ring on the opposite side. iv) Using piston ring tool F, remove piston ring (8). VI Remove oil ring expander (9). * Keep the piston, connecting rod, connecting rod bearing, piston ring, and piston pin in sets for each cylinder.

51. Crankshaft 1) Before removing the crankshaft, using dial gauge @ to measure end play of crankshaft, and use it as a guide when assembling. 2) Measure starting torque of crankshaft and use as a guide when assembling.

3) Remove mounting bolts (2) of main cap (I). 4) Insert bolt in hole of main cap, and move the main cap from side to side to remove it. *Thrust bearing is installed to the No. 6 cap, so after removing it, mark the assembly position.

5) Using nylon sling, lift off crankshaft (3). 6 kg

Crankshaft assembly:

260 kg

6) Remove upper main bearing.

6162F740

55. Cylinder liner * Before removing cylinder liner, using dial indicator @ to measure protrusion of cylinder liner.

Using liner puller G, pull out cylinder liner (1).

WASHING l

When washing, divide the parts into small parts and large parts, and wash the small parts in a bath like the one shown on the right. *

Before washing disassembled parts, the gasket carbon with a wire brush.

remove

*After washing, dry the washing fluid off completely with compressed air. (Be particularly careful that there is no washing fluid remaining in the bolt holes.) 6162F743

WASHING CYLINDER BLOCK

s Z Z

1)

Before washing the cylinder block, remove plugs from the oil line and cooling systems.

the

2)

Use a washing machine such as shown on the right, and use the nozzle of a jet cleaner to wash the oil line and cooling systems thoroughly.

3)

Clean with a stiff wire brush to prevent any metal particles from remaining in the oil line.

4)

Use sandpaper to polish the O-ring contact surface smooth at the bottom of the liner bore and to remove the burrs and flashes from the liner bore.

5)

Dry off the cleaning fluid completely with compressed air. l Be particularity careful not to leave any cleaning fluid in the bolt holes.

6)

completely press fit the plugs in the oil line and cooling systems.

w

Outside diameter

of plug: Thread tightener

(LT-2)

6162F744

WASHING l

CRANKSHAFT

If the engine is disassembled, wash the crankshaft before inspecting. 1) Clean the crankshaft with a steam cleaner, then use a wire brush like the one shown in the diagram on the right to clean all the oil holes. 2) After washing, dry the cleaning fluid off thoroughly with compressed air. 3) Use a small magnet to completely remove all the metal particles from the oil holes.

Y

6162F74f

6162F747

’3-k20

2 ZY z

l

Before reassembling disassembled parts, check visually that there are no cracks, damage, or abnormal wear.

l

If no abnormalities are found during the visual inspection, use an accurate measuring device to measure the specified position precisely.

.

Action and judgement on whether the parts can be reused shall be in accordance with the maintenance standard.

MEASURING CURVATURE OF CRANKSHAFT 1) Support the center of both ends of the crankshaft with lathes, put the indicator of the dial gauge perpendicularly in contact with the journal at the center, and set it to 0. 2) Rotate the crankshaft one turn, and measure the difference between the maximum reading and minimum readig of the dial gauge. * Do not measure with both ends of the crankshaft supported on V blocks. This method produces an error because of the eccentric wear of the journal.

MEASURING OUTSIDE DIAMETER OF JOURNAL 1) Using a micrometer, measure the outside diameter of the main journal and pin journal in the X and Y directions.

Pin journal (measure at 5 places) J

Main journal (measure at 3 places)

F6164143

13-021 0

MEASURING DEPTH OF CYLINDER LINER COUNTERBORE 1) Set depth gauge @ on gauge block 0, then set the gauge indicator to 0. 2) Set the gauge block parallel with the top surface of the cylinder block, and measure the depth of the counterbore. * Clean the counterbore and top surface of the cylinder block before measuring.

MEASURING MAIN BEARING BORE 1) Install the main bearing cap to the cylinder block, and tighten to the specified torque. 2) Using a dial bore gauge or inside micrometer, measure the main bearing bore. * When measuring the bore, measure in two directions (X and Y).

6162F757

MEASURING CURVATURE OF CAMSHAFT I) Support the center of both ends of the camshaft with lathes, put the indicator of the dial gauge perpendicularly in contact with the journal at the center, and set it to 0. 2) Rotate the camshaft one turn, and measure the difference between the maximum reading and minimum reading of the dial gauge. * Do not measure with both ends of the camshaft supported on V blocks. This method produces an error because of the eccentric wear of the journal.

/

6162F753

MEASURING OUTSIDE DIAMETER OF JOURNAL I) Using a micrometer, measure the outside diameter of the journal.

6162F754

MEASURING HEIGHT OF CAM 1) Using a micrometer, measure the intake and exhaust.

cam height H for

6162F755

13-023 0

MEASURING

PISTON RING GROOVE

Special tool No. A

l

Part No. 795-901-I

120

Part Name Wear aauae

Q' W 1

Measuring keystone ring groove 1) Push piston ring wear gauge A lightly into the ring grooves of the top ring and second ring, and measure the wear of the ring groove. l If the shoulder of the wear gauge contacts the piston, replace the piston. *Carry out the measurement at several places.

6162F756

Wear gauge l

Wear gauge

Measuring straight ring groove 1) Assemble a new ring in the oil ring groove, and measure the clearance at the top and bottom with a feeler gauge. * If the clearance is greater than the permissible limit, replace the piston.

!I-Good

Ill-Nogood

6162F757

MEASURING PISTON RING END GAP 1) Assemble the piston ring to the cylinder liner, push the piston ring into the area of the cylinder where there is least wear, then measure the piston ring end gap with a feeler gauge. * Insert the piston ring so that it is at right angles to the sliding portion of the liner.

13-024 0

Tighten the mounting bolts of the connecting rod cap to the specified torque. * Do not assemble the connecting rod bearing. Assemble a new piston pin in the hole at the small end of the connecting rod. * Coat the piston pin with grease (G2-LI) before installing. Support both ends of the piston pin on V blocks, and support both ends of the connecting rod on square blocks. Measure distance A between the big end and small end with a height gauge. Measure the inside diameter of the big end and small end. Calculate the value for the length B of the connecting rod as follows. Connecting =

rod dimension

F6164154

B

ID of big end + ID of small end 2

+A

Measurement

Y

“1”L.n

F6164

13-025 0

MEASURING CURVATURE, TWISTING OF CONNECTING ROD l Method for measuring curvature 1) Tighten the mounting bolts of the connecting rod cap to the specified torque. * Do not assemble the connecting rod bearing. 2) Assemble a new piston pin in the hole at the small end of the connecting rod, place V blocks on a flat surface, then set both end of the piston pin on the V block. * Coat the piston pin with grease (G2-LI) before installing. Stand the connecting rod perpendicularly, and 31 support both sides of the big end with square blocks. 4) Set the indicator of height gauge u at the front of the hole at the big end, set it in contact with the bottom, then set the gauge to 0. 5) Move the height gauge to the opposite side by a distance equal to the width of the big end, and read the measurement of the gauge.

F6164156

F6164157

l

Method of measuring twisting 1) From the condition described above, remove the square blocks, lay the connecting rod down, and support the big end on the tip of a conical jack. 2) Measure the big end in the same way as when measuring the curvature. l Calculate the value for the curvature and twisting as follows. Curvature, twising Dimension B x Actual measured value = Dimension A

13-026

/

1

\

A

Measurement nf CIIrvlltllrl-?

Measurement nf iwistino

F61 641 56

ASSEMBLY TIGHTENING BOLTS BY PLASTIC RANGE TURNING ANGLE METHOD The important bolts on the 170 Series engine use the plastic range turning angle method for tightening. This method uses special bolts, and by tightening the bolts to the load where the bolt starts to deform permanently (plastic range), it is possible to get an accurate, high tightening force. (Of the methods used for tightening bolts, the method using checking of the torque is the most common, but because of the influence of friction factors, it is difficult to control the tightening force accurately.) The tightening method using the plastic range turning angle method uses the initial tightening torque and the turning angle to tighten the bolts.

(Plastic

range)

Plastic range turning angle method

Torque method (Convertional method)

Elongation of bolt 615OF302-1

.

*

Bolts tightened with the plastic range turning angle method on the 170 Series engine. 1) Crankshaft pulley mounting bolts. (Only HD465) 2) Idler gear mounting bolts. 3) Flywheel mounting bolts. (HD465 only) With the plastic range turning angle method, there is a permanent deformation remaining after tightening. Therefore, there is a limit to the number of times that the bolt can be used, so please observe the following. 1) After tightening, make one punch mark. If any bolt has more than 5 punch marks, do not use it again; replace it with a new bolt. 2) When tightening to an angle greater than the specified angle, loosen completely before tightening again. (In this case, make two punch marks.) 3) The target for the tightening angle should be the standard value 2 tolerance.

13-027 0

Special tools No.

l

l

Part No.

Part Name

Q’ty

A

790-501-2000

Engine repair stand

A

790-901-I

170

l

B

790-476-I

140

Lifting tool

1

C

795-601-1110

Push tool

1

D

795-102-2102

Spring pusher

1

H

795-100-I

Piston ring tool

1

I

795-250-1210

Liner driver

1

J

795-225-1700

Piston holder

1

K

790-331-I

Wrench

1

191

110

Repair stand bracket

1 1

Wash all parts clean, and check that there are no dents, scratches, or casting defects. Check also that all oil or water passages are clear before assembling. Before inserting the cylinder liner, take the following action with the cylinder block.

1) Remove the rust and scale from surfaces @

2) 3)

4) 5) 6)

*

and @ with sandpaper until the machining surface appears. Polish portions @ and @ with #240 sandpaper so that the R surface is smooth. Polish portions @, @ and @with #240 snadpaper so that they become smooth. If the corner of the@portion is sharp or there are burrs, polish with a scraper or snadpaper. Be sure to finish this surrface particularly smoothly so that it does not scratch the Oring. If surface @ is pitted and rough, and cannot be corrected, replace the cylinder block. If surface @ and portions @ and @ are pitted and rough, finish them smoothly. Inspect the counterbore, and remove any burrs or flashes. If there are any metal particles or dirt on surface 0, the liner will not fit properly in close contact, and this may cause problems such as leakage of water or protrusion of liner. If there is any drooping, corrosion, or pitting left in the counterbore, carry out additional machining.

13-028 0

Counterbore

Portion

0

Detail Q

Detail

P 6162F306

1. * l

Cylinder liner Replace the liner O-ring and clevis seal with new parts immediately before assembling the liner. Method of installing liner O-ring and clevis seal 1) Check the cylinder liner O-ring groove and outside circumference of the liner to confirm that there is no rust or pitting. l If the surface is rough and pitted, it may cause leakage of water, so replace the liner.

2) Coat the liner O-ring and clevis seal with clean engine oil (SAE #30).

* Oil causes the clevis seal and O-ring swell and deteriorate, so do not leave them soaking in oil. Use a brush and coat them with a small amount of oil immediately before assembly. 3) Assemble the liner O-ring and clevis seal to the liner as shown in the diagram on the right.

ne propylene

rubber)

ene propylene

rubber)

4) After installing the liner O-ring, check for twisting. If any twisting is found, use a smooth bar (approx. $10) to remove the twisting.

6136F303

* To prevent the clevis it is installed, press cumference so that it *Assemble the clevis side facing down.

seal from twisting when it around the whole cirfits into the seal groove. seal with the chamfered

Push into groove

6136FO29

13-029 0

5) Method of inserting cylinder liner i) Using a cloth, wipe off all the dirt and oil from the contact surface of the liner lip and the cylinder block counterbore. ii) Coat the mating surface of the cylinder block and cylinder liner counterbore with silicon-based gasket sealant (LG-6).

6162F759

*Width

of gasket sealant: o2.0 -

3.0 mm

I

Top surface of block

Mating portion of liner

Position to coatwith gasket sealant 62 I OF304 (coat the comer of the deck)

*

Make an overlap of 6 I!Z 6 mm at the beginning and end when coating with gasket sealant LG-6.

1

I

I .

Overlap:

61?16mmm

62 I OF305

When machining the bottom contact surface of the counterbore liner lip and using a shim. i) Coat the bottom of the shim thinly with gasket sealant LG-6, then assemble the shim. ii) Next, coat with gasket sealant LG-6 in the same way as when not using a shim.

1 13-030 0

,

6162F760

6) Coat the liner O-ring, clevis seal, and cylinder block contact surface with a small amount of engine oil (SAE #30) immediately before press fitting the liner. * Coat the contact surface of the cylinder block uniformly around the whole circumference by hand.

\a

6162F761

7) Insert liner (I) into cylinder block, taking care not to damage O-ring. 8) Use your weight and push the liner in with both hands. jr If the liner does not go in smoothly when you apply your weight, there is danger that the O-ring may be damaged, so check the cylinder block for burrs of flashes.

9) Using a liner driver I, press fit cylinder liner (1) into the cylinder block. *

Using the following procedure, squeeze out the gasket sealant coated on the counterbore. i)

Tighten the cylinder head temporarily a used head gasket.

m

Mounting

bolt:

with

26 & 1 kgm

ii)

Remove the cylinder head, and wipe off the gasket sealant that has been squeezed out from between the cylinder liner and cylinder block.

*

If gasket sealant sticks to the grommet in the head gasket, the grommet will change shape and cause leakage of water, so be sure to wipe off all the gasket sealant.

Order for tightening cylinder head mounting bolts

I

I

RlG7F7fiA

10)After press fitting cylinder liner, use dial gauge @ to measure protrusion of cylinder liner. *When measuring the protrusion of the liner, hold the liner down with a plate to prevent the liner from coming up on the Oring when measuring. * Protrusion of cylinder liner: 0.07 - 0.15 mm *

If it is not within the standard value, take the action given in the maintenance standard.

QJ

2.

Crankshaft 1) Align protrusion of upper main bearing (1) with notch of cylinder block, then assemble in cylinder block. * Check that there is no dirt at the rear face of the bearing before tightening. Coat the inside surface of the bearing with engine oil (SAE #30). * Do not coat the rear surface of the bearing with oil. * Upper bearing: With oil hole

2) Check for the following before assembling the crankshaft. in the front, rear side i) Abnormality threaded portion (The bolt must go. in smoothly when turned by hand.) ii) Scratches or dents on the pin or main journal portion. iii) Dirt stuck to the inside of the oil hole.

3) Raise crankshaft (2), and assemble to mounting position, taking care not to hit the cylinder block.

6162F765 1

4) Move crankshaft to one side, then coat upper thrust bearing (3) with engine oil (SAE #30), and install to No. 6 bearing so that side with oil groove is facing crankshaft end.

5) Align protrusion of lower bearing (4) with notch of main cap and install. * Check that there is no dirt at the rear face of the bearing before tightening. Coat the inside surface of the bearing with engine oil (SAE #30). * Do not coat the rear surface of the bearing with oil. * Lower bearing: No oil hole

6162F769

6) For No. 6 main cap, knock in dowel pin so that protrusion from end face of cap is 3.0 - 3.5 mm, then install lower thrust bearing (5) on both sides. * Install the thrust bearing with the side with the groove on the crankshaft side.

6162F770

r

I

6162F771

7) Coat journal surface of crankshaft with engine oil (SAE #30), check that stamped number on main cap (6) matches number on cylinder block, then install main cap. 8) Coat mounting bolt thread and washer of main cap with engine oil (SAE #30), then screw in bolts, and insert main cap completely.

F6164030

13-033 0

I

9) Tighten main cap mounting bolts as follows. *When tightening, start from the center and work in order to the outside. Tighten the bolts to the specified tightening torque using the following steps. w

Main cap mounting

bolt Unit: kgm

Step

Target

Range

1st

56

51 to 61

2nd

113

107 to 118

3rd

0

Loosen completely

4th

38

33 to 43

5th

75

70 to 80

6th

113

107 nto 118

10) After tightening main cap bolts, screw bolt into center bolt hole and measure starting torque of crankshaft. l Standard value: Max. 2.8 kgm

‘11)

3.

Measure end play of crankshaft with dial gauge 0. 0.140 - 0.32 mm l End play: j, If it is within the standard value, take the action given in the maintenance standard.

Piston, connecting rod assembly Assemble piston and connecting rod. i) Fit oil ring expander (I) in oil ring groove.

l

ii)

Using piston ring tool H, assemble oil ring, second ring, and top ring in order.

*Set each ring with the stamped mark facing up and install to the piston. * Place the end of the expander coil at 180” to the end gap of the oil ring. 6162F773

’3-:34

6162F774

*Assemble diagram.

each piston

ring as shown

in the

lTf

’

Oil ring

F6 164033

I iii) Install snap ring (2) on one side. iv) Heat piston (3) at 100°C f212”Fl for 5 minutes in a heating furnace. * If no heating furnace is available, heat in hot water at 100°C [212”Fl for 5 minutes. *When heating with hot water, clean the piston completely after setting it in position.

6162F775

6162F776

Coat piston boss with engine oil (SAE #30), set front embossed casting letters on piston facing in same direction as part number casting letters on connecting rod, then insert piston pin (4). vi) Install snap ring (5) on opposite side. * Rotate the left and right snap rings to check that the snap rings are completely fitted into the ring groove.

v)

vii) Align protrusion of connecting rod upper bearing (6) with notch of connecting rod, then install. * Check that there is no dirt at the rear face of the bearing before assembling. * Do not coat the rear surface of the bearing with oil. * Check that the hole in the bearing and the oil hole in the connecting rod are aligned.

13-035 0

viii)Align protrusion of connecting rod lower bearing (7) with notch.of connecting rod cap, then install. * Check that there is no dirt at the rear face of the bearing before assembling. * Do not coat the rear surface of the bearing with oil. l

Method of inserting piston and connecting rod assembly . 1) Coat cylinder liner with engine oil (SAE #30). * Coat uniformly with engine oil around the whole circumference by hand.

I

6162F779

2) Rotate crankshaft and set pin journal at top dead center for cylinder where be inserted.

piston is to

3) Set embossed letters on connecting rod facing front of engine (stamped number is on camshaft side), then insert piston and connecting rod assembly into cylinder from head end.

/

Embossed letters (to face engine front)

Cylinder No. (to match cam) Y 6162F309

4) Align all piston rings as shown in diagram.

*o*.

‘000

6162F780

’3-:36

5) Coat piston (SAE #30).

ring

uniformly

with

engine

oil

6) Tighten piston ring with piston ring holder J, then push in piston head with wooden bar.

7) Using connecting rod pulling tool shown in the diagram on the right, pull connecting rod, and fit it in close contact with crank pin journal. * Check that the connecting rod bearing is correctly in position. * To make a connecting rod pulling tool, weld a bar to an old connecting rod bolt. 8) Coat crankshaft pin journal with engine oil (SAE #30).

Approx. 500 mm

Connecting

rod bolt

F6164038

I

2 z z

Bar

9) Rotate crankshaft 180” while pulling connecting rod. 10) Coat connecting rod lower bearing with engine oil (SAE #30), check cap number, then align with dowel pin, and install connecting rod cap (8). * When coating with engine oil, spread the oil with a finger over the whole part. * When assembling a new connecting rod, mark the cylinder number with an electric pen. Do not make a stamped mark. 0

6162F732

Cylinder No.

F616403E

11) Coat thread and washer of connecting bolt with engine oil (SAE #30).

rod

12) Tighten connecting rod bolts in turn until connecting rod cap is in tight contact. f If an impact wrench is used to loosen the bolts, there is danger of damage to the thread, so loosen the bolts with a hand tool.

F6164030

F6164026

13) Rotate crankshaft 180” and repeat Steps I) to 12) to insert pistons in all cylinders.

14) Tighten the connecting

i)

rod bolts as follows.

1st step: Tighten 20 & 1 kgm 2nd step: Using wrench K turn 90“+A50 to tighten. l When not using wrench K, tighten as follows. i) 1st step: Tighten 20 k 1 kgm ii) 2nd step: Put a mark on the bolt and cap with a felt pen, then turn the bolt a further 90”+h5’ * After tightening, make one punch mark on the bolt head. If the bolt head has five punch marks, do not reuse it. Replace the bolt with a new bolt. *After assembling the connecting rod, check that the crankshaft rotates smoothly.

I

6162F763

ii)

After tightening, make punch mark on bolt head to indicate number of times of tightening

#

6206F303

1

15) Using dial gauge@, of connecting rod.

measure side clearance

*Standard for side clearance: 0.200 - 0.375 mm * If the connecting rod does not move, remove the connecting rod cap and check that there is no mistake in assembly, and that there are no burrs, or dirt caught anywhere. 4.

Piston cooling nozzle Fit O-ring to cooling nozzle (I) and install. &

O-ring:

Engine oil (SAE #30)

*

Before installing, check the curvature (angle) of the nozzle, and check that there is no clogging inside the nozzle. * Face the tip of the nozzle to the side with the mounting hole at the side, insert into the piston, taking care that it does not hit the piston, then turn 90” to install.

5.

Flywheel housing 1) Fit gasket to mounting surface of cylinder block, then using eyebolts (Thread dia. = 16 mm, Pitch = 2.0 mm), raise flywheel housing (I) and install to cylinder block.

m

Mounting bolt: 1st step: Tighten to 36 - 40 kgm 2nd step: Loosen completely 3rd step: Tighten to 40 - 44 kgm

*Tighten the mounting bolts of the flywheel housing as follows, in the order shown in the diagram. *The bolts are of different lengths, so be careful when installing them. 2) After installing flywheel housing, using dial gauge to measure face runout and radial runout. * l Face runout: Max. 0.20 mm l Radial runout: Max. 0.20 mm 3) Inspect stepped difference between cylinder block and flywheel housing. * Stepped difference at bottom surface: Max. 0.15 mm 6162F307

’3-:39

6.

Gear case 1) Fit gasket to mounting surface of gear case. 2) Install gear case (I).

7.

Main idler gear Install main idler gear (I). *Assemble with the oil groove of the thrust bearing on the gear side. l Press fit the thrust plate to the shaft. a

Coat the bolt thread and seat with engine oil (SEA#30), then tighten.

*When installing the mounting bolts, screw in first at least 2-3 turns by hand, then tighten as fol,lows. (All models) m

Idler gear mounting

Tightening

(Thread size) x (Pitch)

M16 x 1.5

bolt:

I

Ml8 x 2.5

30 - 35 kgm (Tighten by torque) 5 2 0.5 kgm 90+i””

Tighten an additional 31 f

Ml8 x 1.5

method

4 kgm

go + ionTighten an additional

* After tightening, make one punch mark on the bolt head to indicate the number of times that the bolt has been used. If any bolt has four punch marks, do not reuse it. Replace it with a new bolt. *Align carefully with the match marks on the gear when installing.

8.

Camshaft Coat surface of camshaft journal with engine oil (SAE #30) and install camshaft (2). w

Camshaft plate:

3.1 -

4.3 kgm

*When inserting the cam shaft, rotate it while inserting it in order to prevent damage to the cam bushing. *Align carefully with the match marks on the gear when installing.

qJ‘;”

6162F786

9.

Idler gear for oil pump Install idler gear (2) for oil pump. m

Idler gear mounting

(Thread size) x (Pitch) ( Ml6 x 1.5

bolt:

Tightening method 30 - 35 kgm (Tighten by torque) 5 + 0.5 kgm

Ml8 x 2.5

90+i’“Tighten

an additional

31 f 4 kgm Ml8 x 1.5

80+i”“Tighten an additional

Be sure to install the thrust bearing with the oil groove facing in the correct direction. Coat the bolt thread and seat with oil. When installing the mounting bolts, screw in first at least 2 - 3 turns by hand, then tighten fully. After tightening, make one punch mark on the bolt head to indicate the number of times that the bolt has been used. *Align carefully with the match marks on the gear when installing. 10. Idler gear for water pump Install idler gear (I) for water pump. *Align carefully with the match marks on the gear when installing. w

11

Idler gear mounting bolt for water pump: Same as in Item 9 above

Injection pump drive case 1) Fit O-ring and install injection case (2). 2) Install coupling (1).

pump

drive

6162F787

12. Timer Install timer (2) aligning tighten nut (I). m

it with the gear, then

T?mer nut: 147 - 196 Nm (15 - 20 kgm}

It Align the match marks on the timer and the gear surely. *Measure the backlash and end play of each gear with dial gauge 0. * Standard value of backlash and end play:

6162F310

Without a timer Backlash A

End play

0.140 -

0.460

1

0.075 -

B

0.130 -

0.470

2

0.10 -

C

0.130 -

0.470

3

% 0.145 -

D

0.100 -

0.500

4

0.10 -

0.21 0.32 0.395 0.32

5

a b

0.095 -

0.460

6

0.14 -

0.32

C

0.120 -

0.425

7

0.10 -

0.32

d

0.100 -

0.445

8

0.085 -

0.125

% End play (3) for machines with a timer (HD465 twin turbo, WA700 only) is 0.09 - 0.45 mm. For other machines the backlash and end play are as in the table above.

13-042 0

13. Gear case cover I) Stick gasket to mounting surface for gear case cover. 2) Install gear case cover (1). * Check the difference in level between the gear case, gear cover, and the bottom face of the cylinder block. * Difference in level of bottom face: Max. 0.15 mm

6162F715

14. Oil pump assembly I) Install oil pump assembly (3). .m

Mounting

bolt:

11.0 zb 1.5 kgm

2) Fit gasket, O-ring and install tube (2). 15. Oil strainer Fit gasket, then install oil strainer (1) and secure with bracket.

I

z z z

‘2 6162~725

16. Oil pan * Before installing the oil pan, cut off the gaskets of the flywheel housing, gear case, and gear cover so that they are the same level as the cylinder block. Apply liquid gasket to the face of the oil pan, and install oil pan (1). & *

Face of oil pan: Diameter

Liquid gasket (LG-7)

of gasket sealant:

$1.6 -

2.0 mm

17. Rear seal cover Fit O-ring and install rear seal cover (1). * Take care that the lip is not rolled up.

6162F724

18. PTO drive gear * Assemble PTO drive gear as.follows: i) Install bearing (7) to shaft (8). ii) Install the snap ring to gear (5), then install bearing (6). *

Coat the bearing portion with engine oil (SAE #30).

6162F722

iii) Install shim (4), then install retainer (3). * Bend the lock plate securely. *Confirm that the gear can rotate smoothly. If not, adjust the thickness of the shim.

I

1) Install PTo drive gear (21, and then tighten six bolts. *After installing PTO drive gear, confirm that there is backlash between it and the PTO gear. * Backlash: 0.15 to 0.52 mm 2) Install steering pump drive gear (I). * Bend the lock plate securely.

lg. Flywheel 1) Using eyebolts (Thread dia. = 12 mm, Pitch = 1.75 mm), raise flywheel (I), mesh train gear and idler gear, then install flywheel and tighten bolts. * For engines with a PTO: When measuring the engine capacity, the inside of the PTO case cannot be lubricated, so remove the PTO drive gear and install the flywheel.

’3-:44

6162F720

2) Coat bolt thread and washer with engine oil (SAE #30) or anti-friction compound (LM-P). 3) Tighten bolts in turn until flywheel is in tight contact. *

I

If an impact wrench is used to loosen the bolts, there is danger of damage to the thread, so loosen the bolts with a hand tool.

F6164030

%

F6164026

4) Secure flywheel and housing with stopper @), and tighten bolts. * Order of tightening

3

6

2

z

6162F792

m

Flywheel mounting

bolt (HD465):

z 1st step: Tighten to 20 t 2 kgm 2nd step: Tighten to 47 k 2 kgm 3rd step: Make marks on bolt and flywheel with felt pen, then tighten bolt an additional 90 + ZO”

D

Flywheel mounting bolt (machines cept HD465): 1st step: 8 - 12 kg 2nd step: 28 - 32 kgm 3rd step: 53 - 57 kgm

ex-

5) Measure radial runout and face runout of flywheel. * Radial runout and face runout of flywheel

13-045 0

20. Cam follower I) Install cam follower with the pin. D

Cam follower

assembly

(2), aligning

it

mounting

bolt: 9.2 - 10.6 kgm * Before installing the cam follower, wash the oil hole of the mounting bolt.

2) Install cover (1). a

Face of.cover: *

Diameter mm


of gasket

sealant:

$1.6

-

2.0

21. Mechanical pump assembly Fit O-ring to mechanical pump assembly (6), then align with slit at tip of camshaft, and install. 22. Accessory drive pulley I) Fit O-ring and install drive pulley (5) for alternator. 2) Fit O-ring and install accessory drive pulley (4).

23. Trunnion 1) When press fitting front seal, use a tool. * After press fitting, check that the spring has not come out of position. &

Lip of oil seal:

Grease (G2-LI)

2) Fit O-ring and install trunnion (1). * Before installing the trunnion, clean off all dirt from the outside circumference of the crankshaft, then coat the whole circumference thinly with engine oil (SAE #30). * Take care that the lip is not rolled up. 24. Cover Install cover (2). & *

13-046 0

Face of cover: Diameter


of gasket sealant:

$1.6 -

2.0 mm

6162F794

25. Front support Raise front support portion. &

(I)

and install to trunnion

Front support grease groove: Grease (G2-LI)

26. Vibration damper 1) Sling vibration damper pin, and install. 2) Install spacer (3).

27. Crankshaft pulley 1) Install crankshaft mounting bolts. a

(4), align with dowel

pulley (2) and tighten

with

Coat bolt thread and seat surface with engine oil (SAE #30), then tighten bolts. *When installing the mounting bolts, screw in first at least 2 - 3 turns by hand, then tighten as follows. w

Crankshaft pulley mounting

bolt:

II

6162F708

(1

6162F709

Unit: kgm HD465 only

Except HD465

1st step

40 + 3

7.5 I!I 2

2nd step I

78 f

Order

*

3

I

25 f

2

If an. impact wrench is used to loosen the bolts, there is danger of damage to the thread, so loosen the bolts with a hand tool.

F6164026

F6164030

13-047 0

1

2) Fit gasket and install mechanical

pump tubes

(I).

28. Cylinder head assembly l Assemble cylinder head as follows. i) Align with casting mark on cylinder head and assemble intake valve (7) and exhaust valve (6). &

Valve stem:

Engine oil (SAE #30) (Inside face of valve guide)

*The intake valve has the mark IN and the exhaust valve has the mark E on the bottom.

I

6162F705

ii)

Assemble valve blower seat to cylinder head, then assemble inner spring and outer spring (5). *The spring with the unequal pitch (WA600, WD600, WA700, HD465) is assembled with the narrow pitch at the head end. iii) Install retainer (4). iv) Using spring compressor D, compress spring, and fit valve cotter (3) in groove of valve stem. 6162F703

Tap valve stem with plastic hammer and check that valve cotter is completely fitted. vi) When nozzle valve has been replaced, install nozzle holder to cylinder head, then use depth gauge to measure protrusion of nozzle. * Protrusion of nozzle: 4.9 - 5.7 mm VI

13-048 0

6162F704

1) Check that there is no dirt or dust on cylinder head mounting surface or inside cylinder, then install gasket (9). *When installing the gasket, check that grommet (IO) has been properly installed and has not peeled off. There is danger that the head gasket Note: grommet may swell and change shape, so do not coat it with gasket sealant.

II

g 6162F796

I

2) Coat thread of head bolt and washer with antifriction compound (LM-P).

F6164067

1

3) Using eyebolts @ (Thread dia. = 12 mm, Pitch = 1.75 mm), install cylinder head assembly (2). 4) Screw in head bolts (1) at least 2 - 3 turns by hand, then tighten in order shown in diagram below.

1 do

6162F702

1_L!--

6162F797

6162F311

m

Cylinder head mounting

bolt:

Unit: kgm

3rd

39

37.5 to 40.5

4th

50.5

49 to 52

’3-:49

29. Crosshead Install crosshead (1). a

Guide pin:


* Adjust the crosshead as follows. i) Loosen locknut, and turn back adjustment screw. ii)

Hold top surface of crosshead screw in adjustment screw.

lightly,

and

iii) After adjustment screw contacts valve stem, screw in a further 20”.

intake end

iv) Tighten locknut to hold in position. w

Locknut: *

4.0 f

0.6 kgm

Install the crosshead so that the adjustment nut is at the exhaust end. Exhaust end Adjustment

30. Rocker housing 1) Fit gasket, align tab of grommet with groove in gasket, then install. *The grommet has a top and bottom, so be sure to install it facing the right way up.

nut

F6164068

Tab

0

&,

0 F6164069

2) Fit O-ring, then rocker housing. &

O-ring:

insert water

manifold

(3) in


*

If the O-ring is coated with engine oil and left for a long time, it will swell, so coat it with oil immediately before assembling it. * Insert the snap ring groove end into the rocker housing. 6162F799

’3-iL50

3) Install rocker housing (3). w

Mounting

bolt:

10 2 0.5 kgm

4) Using push tool C, insert water manifold (2). 5) Secure water manifold with snap ring (1).

31. Injection nozzle assembly *Check that there is no dirt or dust inside the nozzle holder sleeve. (Mask it with a rubber cap.) I) Align line on nozzle body with line on plate, then set with lines facing front of engine, and install injection nozzle assembly (1).

2) When tightening 2 mounting bolts (2). tighten each in turn to a low torque, then gradually increase torque of each bolt in turn (approx. 0.5 kgm each time) to tighten to specified torque. Sr Do not reuse nylock bolts. Always replace them with new parts. w

Mounting *

bolt:

2.75 & 0.25 kgm

Keep the difference in torque between two bolts to a maximum of 0.5 kgm.

the

Push rod Install push rod (I). *

Check that the push rod is fitted properly into the socket of the cam follower.

33. Rocker arm assemblv Assemble rocker arm. Using push tool, align oil hole of bushing (4) i) and knock in rocker arm (3). ii)

Assemble adjustment (I) to rocker arm.

screw (2) and locknut

I

L.d 6162F695

6162F696

iii) Coat rocker shaft with engine oil (SAE #30), then set so that portion with plug is at exhaust end. iv) Set exhaust rocker arm (long arm) on left and intake rocker arm (short arm) on right, insert collar at center, then insert onto rocker shaft. Intake

1 1) Install rocker arm assembly (I) and tighten mounting bolts. * Check that the ball of adjustment screw (2) is fitted properly into the socket of the push rod before tightening. *Assemble a spacer (length: 15 mm) to the short bolt and a washer to the long bolt. w

Mounting

bolt:

10 k 0.5 kgm

34. Adjusting valve clearance Adjust valve clearance. For details, see TESTING AND ADJUSTING, justing valve clearance.

13-052 0

Ad-

6162F804

Head cover, spill tube I) Fit gasket, install head cover (41, then tighten bolts temporarily. 2) Install nozzle seal and press fit with push tool. &

Nozzle seal surface: Engine oil (SAE #30)

6162F692

3) Tighten head cover mounting shown in diagram.

bolts in order

a 5

w

Mounting

bolt:

3.25 & 0.25 kgm

1

4) Install connection

(3).

5) Install turbocharger

lubrication tube (2).

6) Install spill tube (I).

3

36. Fuel injection pump assembly l Laminated coupling type 1) Knock key into drive shaft. 2) Screw lifting tool B into delivery valve thread, raise fuel injection pump assembly (I), then align key groove of pump coupling (2), and connect pump. 3) Tighten drive shaft mounting bolts (3) of coupling. 4) Align lines on coupling and bearing cover of injection pump, then tighten bolt (4). * If the mounting bolts are not tightened uniformly, the pump will be at an angle and will rotate against the drive shaft, and this will result in a change in the injection timing. * If there are no lines marked, or if the injection pump has been replaced, adjust the injection timing. For details, see TESTING AND ADJUSTING.

0

/

2

4

Key

F6166057

4

3

i

6162F805

Flange type *When installing the flange type injection pump, align line “a” on the flange with line “b” on the injection pump flange. * If there are no lines marked, or if the injection pump has been replaced, adjust the injection timing. For details, see TESTING AND ADJUSTING. 1) Fit gasket, then install lubrication tube between injection pump and cylinder block.

l

6162F806

37. Aftercooler, intake manifold assembly l Assemble aftercooler and intake manifold assembly. i) Fit gasket, then assemble core assembly (5) to intake manifold (6). ii) Fit gasket, then install cover (4). D

Mounting

bolt:

3.0 & 0.5 kgm

iii) Fit gasket and O-ring, then align connector (3) and joint (2) with joint of cooler core, and install. a

O-ring:


3 6162F689

1) Fit gasket, then install aftercooler manifold assembly (1). w

13-054 0

Mounting

bolt:

6.5 IfI 1.0 kgm

and intake

38. Turbocharger, exhaust manifold assembly Fit gasket, then install turbocharger and exhaust manifold assembly (1). &

Mounting

bolt thread: Anti-friction

(LM-P)

w

Mounting

w

D375A, PCIOOO, WA700, HD465-5 2 bolts (length: 50 mm): 8.5 & 0.5 kgm

*

bolt:

compound

11.25 I!I 1.25 kgm

If the turbocharger has been replaced, the tightening torque for the turbocharger mounting bolts is as follows. l

D375A-I,2

: 6.0 - 7.5 kgm

r

(Serial No. up to 12867) 5.5 kgm (Serial No. 12868 and up)

: 4.5 -

l

WA600-1

: 6.0 -

l

WA700-1

: 6.0 -

7.5 kgm (Serial No. up to 12885) : 4.5 - 5.5 kgm (Serial No. 12886 and up)


6162F807

6162F686

: 6.0 -

l

PCIOOO-1


l

HD465-3, 5 : 10.0 - 12.5 kgm KTR130 (Serial No. upi0 11682) Single turb. - : 8.0 - 9.0 kgm ocharger (Serial No. 11683 and up)

1

6162F685

39. Thermostat case Assemble thermostat case. i) Using push tool 0, press fit thermostat seal (5) to housing (6). * Be careful that the seal is not at an angle when press fitting. ii) Assemble thermostat (4). iii) Fit gasket, then install cover (3) and outlet pipe (2). Install thermostat

case (I

13-055 0

40. Corrosion resistor Install corrosion resistor (I). * Coat the seal and thread with engine oil (SAE #30). * After the seal surface comes into contact with the filter head, tighten a further 2/3 turns.

41. Tension spring, tension pulley l Assemble tension pulley. i) Press fit shaft (21) to bracket (22). ii) Install seal (20) to bracket (23), then assemble inner race (19). bearing (181, and seal (171, and install plate (16). Sr Coat the bearing and seal portion with grease (G2-LI). iii) Install oil seal (15) to pulley (14). iv) Assemble pulley to bracket (231, then assemble bearing (13) and spacer (121, and install snap ring (11). v) Install bearing (IO). vi) Fit holder (8), and tighten lock plate (7) with bolts. * Bend the lock plate securely. vii) Fit cover (61, then secure with snap ring

14-7

(5).

23---d&&

/

:682

1) Insert spacer, then isntall tension pulley assembly (4) and bracket as one unit. 2) Install tension spring (3) and tighten bolt (21, then secure them with locknut (1). * The tension spring will be adjusted according to the tension of the fan belt after the engine assembly is mounted.

42. Oil filler, oil level gauge I) Fit gasket and install oil level gauge (3). 2) Fit gasket and install oil filler (2). 43. Oil filter Fit O-ring and install bracket, then install oil filter (I). * Coat the seal and thread with engine oil (SAE #30). * After the seal surface comes into contract with the filter head, tighten by hand a further 314 1 turn.

Fuel injection tube Install fuel injection tube (I) and secure it with the clamp. D

Sleeve nut:

2.25 f 0.25 kgm (both pump and nozzle ends)

45. After-cooler

tube and oil filler tube 1) install lubrication tube for the turbocharger. 2) install O-ring and after-cooler tube, then secure them with the lockbolt.

46. Fuel filter I) Install fuel filters (I). 2) Fit gasket and connect fuel hoses (2). 3) Connect fuel hose (3) for APS.

47. Connector pipe I) Install O-ring and gasket, install connector pipe (2). then secure it with the plate. &

O-ring: *

Grease (G2-LI)

When connecting the piping to the turbocharger, center the piping so that the turbocharger is not twisted, then tighten.

2) Fit gasket and install tube (I) for boost compensator.

48. Intake connector Fit O-ring and install intake connector (2). Align the hole on it with the one on bracket (1). & *

O-ring:

Grease (G2-LI)

Insert a plain washer and the bracket.

between

the connector

49. Air cleaner assembly Fit gasket and install air cleaner assembly (I) and secure it with the band. m

Band:

1.0 & 0.1 kgm

50. Setting off engine from engine stand 1) Lift the engine assembly (I) and remove the mounting bolts to separate the engine assembly from engine repair stand A. 2) Remove the bracket for the engine repair stand Al. * Prepare an engine stand, then place the engine on the stand and secure it in position.

13-058 0

51. Oil cooler 1) Fit gasket and install oil cooler (2). w

Oil cooler mounting

bolt: 6.75 & 0.75 kgm

2) Fit gasket and install water pipe (I).

52. Drain tube of turbocharger Fit gasket to both end faces, then install drain tube (I) for the turbocharger.

Water pump assembly 1) Install drive shaft. 2) Fit gasket and install water pump assembly (31, aligning it with the drive shaft. 3) Fit O-rings to both end faces. Install water pipe (2) and secure it with the plate. 4) Fit O-rings and gaskets to both end surfaces, then install water pipe (1).

54. Alternator assembly 1) Install bracket (5). 2) Install alternator (4) and temporarily nut (3).

tighten

3) Fit belt (2) to the pulley, and tighten the mounting bolts for adjustment plate (I). 4) Raise the alternator assembly with a bar, and adjust so that the deflection of the belt is approx. 15 mm when pressing .its center with 6 kg of force. Then tighten the bolt securely.

55. Starting motor assembly 1) Fit gasket and install starting motor (1).

I

’3-:60

‘1

6162F669

ENGINE 14 MAINTENANCE

STAN

INTAKE

AND

EXHAUST

ENGINE

.

.

.

14-002

BODY

Cylider head Valves

.

..

.

and valve guide

Crosshead Push

SYSTEM

. . .

Turbocharger

and crosshead

_ ...

. . . .

guide

rod and cam follower

. Cylinder liner . .

... . .. .. ....

Crankshaft

..

Cylinder

block

..

gear

LUBRICATIOIN Oilpump

.

..

.

.. . .

14-005 . 14-006

.

14-007

. . 14-008

. .

14-010 14-011 14-012

.. Piston, piston ring and piston pin . . Connecting rod . ... .. .

Timing

.

. ..

. .._........

Camshaft

14-004

.

. 14-013 . . 14-013-2 . . 14-015

SYSTEM . . . . . . . . . . . . . . .._.......

14-016

Oil pump relief valve, piston cooling valve and oil cooler by-pass COOLING

valve

14-017

SYSTEM

Waterpump

. . . . . . . . . . . .._._.....

14-018

ACCESSORY Air compressor

170-1

SERIES

.

...

.

..

14-020

14-001 0

MAINTENANCE

STANDARD

INTAKE AND EXHAUST

SYSTEM

TURBOCHARGER KTRI

IO

6162F402 Unit: kam No.

Check item

Criteria

Remedy

Permissible range End play (play in axial direction)

1

Radial play (play in radial direction)

2

I

Replace parts related to thrust

0.08 - 0.18

Replace parts related to bearing

0.25 - 0.60

I

Permissible range 3

Outside diameter of journal bearing, inside diameter of center housing

I

Shaft

I

4

Inside diameter of journal bearing, outside diameter of thrust collar

5

Thickness of thrust bearing

Hole

-

22.92 22.96 14.95 -

Hole

I

I

23.00 - 23.03

14.97

15.00 - 15.04

Replace

6

7

8

..,“:.

Turbine end

1.85-

Blower end

1.45 - 1.52

1.92

1.46-2.05

Thickness of seal ring

Clearance between blower housing and impeller Tightening torque of blower impeller locknut

1.56-

Clearance limit:

(Min.) 0.20

I 2.9 f0.3

1.65 Replace parts related to bearing

kgm Tighten

9

;i;;u;ing

torque of V-band

’4-:02

0.9 * 0.1 kgm

170-1

SERIES

MAINTENANCE

STANDARD

INTAKE AND EXHAUST

SYSTEM

KTR130

\ \*

1 I

\

1

8

2

5

\

\

4

3

6162F401

6162F402

Unit: No.

Check item

Criteria

2

Radial play (play in radial direction

3


Remedy

Permissible range

End play (play in axial direction)

1

mm

I

I

I


0.08 - 0.18


0.25 - 0.60

Permissible range Hole

Shaft - 29.94

30.00 - 30.04

19.95 - 19.97

20.00 - 20.05

29.89 Inside diameter of journal bearing, outside diameter of wheel shaft 4 Curvature of wheel shaft

Repair limit:

Replace

0.010 (total deflection of indicator)

Permissible range 5


6

Groove

Width


5.86 - 5.92

6.00 - 6.04

2.85 - 2.92

2.96 - 3.05 I

I

I

7

Clearance between blower housing and impeller

8

Tightening torque of blower impeller locknut

8.5 f 0.5 kgm

9

Tightening torque of insert mounting bolt

1.25 f 0.25 kgm

10

Tightening torque of V-band locknut

0.95 f 0.05 kgm

I

Clearance limit:


(Min.) 0.20

I I

Tighten

170-1 SERIES ’ 4-:03

MAINTENANCE

INTAKE AND EXHAUST

STANDARD

SYSTEM

KTR150

F6166056 Unit:

NO.

1

Criteria

Check item

Permissible range

End play (play in axial direction)

Radial play (play in radial direction)

3


Remedy


0.08 - 0.18

2

I

mm


0.25 - 0.60

Permissible range Hole

Shaft 29.89

- 29.94

30.00 - 30.04

19.95 - 19.97

20.00 - 20.05

-

4

Inside diameter of journal bearing, outside diameter of wheel shaft

Repair limit:

Curvature of wheel shaft

0.010

Replace

(total deflection of indicator)

Permissible range 5 6


7

Clearance between blower housing and impeller

8

Tightening torque of blower impeller locknut

Groove

Width


5.86 - 5.92

6.00 - 6.04

2.85 - 2.92

2.96 - 3.05

Clearance limit:

I

I

-

9.5 2 0.5 kgm

I

I

9

Tightening torque of insert mounting bolt

3.75 i 0.25 kgm

10

Tightening torque of turbine housing

5.75 f 0.25 kgm

Tightening torque of V-band locknut

0.9 f 0.1 kgm

-

-

14-003-l 0


(Min.) 0.20

MAINTENANCE

INTAKE AND EXHAUST

STANDARD

SYSTEM

TV77

615OF401-1

Unit: No.

2 z

Criteria

Check item

-

Remedy

Repair limit

Standard size 1

Radial play of rotor

G 2

End play of rotor

3

Tightening torque of blower housing bolt

0.076 - 0.152

0.18

0.08 - 0.25

0.25

Target (kgm)

Range (kgm)

Rapair or replace

-

1.25

Tightening torque of back 4

plate mounting bolt

-

1.15 -

1.38

Step

Target

Range

1 St step

1.8

1.6 - 2.0

2nd step

0

Loosen completely

3rd step

1.4

1.27 -

Tighten

1.50

Repair limit

Standard size 5

Thickness of thrust bearing 2.315

2.29 I

l

6

Outside diameter Measuring point Point (A) Point (9)

Bend of wheel shaft

l

Bending:

Repair limit 0.010

Standard size

Repair limit

17.53 15.88.

17.48 15.88

(total indicated runout)

Replace

7

Standard size

Repair limit

17.475

17.49

Inside diameter of back plate

-

Measuring point 8

mm

I wide diameter of center housing

Point(C) Point (D)

Standard size 24.97 20.90

Repair limit 24.97 20.93

14-003-2 0

MAINTENANCE

CYLINDER

STANDARD

ENGINE BODY

HEAD Tightening order of head mounting bolt

6\

5

4

Tightening order of head cover mounting bolt

6 162F403A

F6170010578 Unit:

mm

I No.

1

Check item

Criteria

Remedy

Tolerance

Distortion of cylinder head mounting surface

Repair limit -z

Max. 0.05 2

0.1

Protrusions of nozzles

Standard:

fqeplace noz2:le sleeves

4.9 to 5.7

I

Order

/

3

Tightening torque of cylinder head mounting bolts

1st

(Coat bolt threads and washer with anti-friction compound (LM-P))

2nd

Target value (kgm)

6.5 to 9.5

23.5

22.0 to 25.0

39.0

4th

50.5

-

1Tighten in sequence as Indicated aIbove.

37.5 to 40.5 I

I

49.0 to 52.0

I

I Target value (kgm) 4

Range (kgm)

8.0

3rd

f3epair by frinding ‘>r replace

Range (kgm)

Tightening torque of nozzle holder mounting bolt 2.75

5

Tightening torque of cylinder head cover

6

Tightening torque of rocker arm housing mounting bolt

14-004 8

I

2.5 to 3.0

I

I 3.25

10

I

Retighten 3.0 to 3.5

9.5 - 10.5

170-1 SERIES

MAINTENANCE

STANDARD

ENGINE

VALVES AND VALVE GUIDE

1 SWE01035

No.

8

z-

I

Amount

of valve

2

Valve

3

Valve seat angle

sinking

z

Outside stem

6

head thickness

diameter

of intake

valve

BODY

MAINTENANCE

STANDARD

CROSSHEAD

ENGINE

AND

CROSSHEAD

BODY

GUIDE

$

6162F405

z z Unit:

No.

Criteria

Check item

Depth of cross-

Standard size

Except H D465-5

head stem HD4655

only

3.0 7.5

+0.3 0

Inside diameter of crosshead

15

Outside diameter of crosshead guide

15

Repair limit

Replace

+0.10 +0.05

I

I

I Clearance between crosshead. guide and crosshead

Remedy

Tolerance +0.3 0

+0.039 +0.028

mm

15.21

15.00

I I

I I

Standard clearance

Clearance limit

0.011 to 0.072

0.02

Adjust

Standard size

Repair limit

Tolerance

Protrusion of crosshead guide 54

-“0.3 I

5

6

Intake valve

Exhaust valve

0.4

1 .o

Replace

Valve clearance (at cold)

Tightening torque of crosshead lock nut

’4-:06

Except HD465-5

4.0 + 0.6 kgm

HD465-5 only (Serial No. 14203 and up)

6.0 Itr0.6 kgm

Tighten

MAINTENANCE

PUSH

STANDARD

ROD AND

ENGINE

CAM

FOLLOWER

Unit: No.

1

2

Check item

Criteria

Tolerance

25.0

-0.040 -0.055

24.9

-0.020 0

25.0

19.0

+0.175 +0.150

19.2

19.0

+0.075 +0.065

25.0

I

Inside diameter of cam follower roller

/

Repair limit

3

Replace Outside diameter of cam follower roller pin

4

mm

Remedy

Standard size Outside diameter of cam follower shaft

Inside diameter of cam follower lever

BODY

Outside diameter of cam follower roller

41 .o

I

+0.050 +0.025

5

Diameter of push rod tip ball

15.85

kO.03

6

Inside diameter of push rod socket

12.7

to.20

170-1 SERIES

19.0

41.0

I

-

14-007 0

MAINTENANCE

STANDARD

CYLINDER

ENGINE

BODY

& I

BLOCK

6

6162F407

Unit: No.

I

Check item

Criteria

I Tolerance Standard size

1

Inside diamater of block

Clearance between cylinder block and liner

Outside diameter of liner:

190 Standard size

2

Thickness of main bearing

Inside diameter of main bearing

14-008 0

I

Remedy

Standard clearance

Clearance limit

Replace cylinder liner or block

0.050 to 0.160

I Inside diameter of main bearing hole (lighten bolt to specified torque)

mm

I Tolerance

148

+ 0.025 - 0.001

4

- 0.038 - 0.051

140

+0.127 + 0.076

Repair limit -

Repair or replace

140.20

170-1

SERIES

MAINTENANCE

ENGINE BODY

STANDARD

Unit: No.

Check item

Clearance between main bearing and crankshaft journal

2

Remedy

Criteria

I Standard clearance

Clearance limit

0.075 to 0.150

0.32 Interference

Standard interference Interference between main bearing cap and cylinder block

3

Inside diameter of camshaft bushing

mm

limit

0.05

0.080 to 0.160 Standard size

Tolerance

Repair limit

72

+0.070 0

72.10

Repair or replace

4 Clearance between camshaft and journal

Standard clearance

Clearance limit

0.080 to 0.180

0.24

Tolerance

Repair limit

0.09

0.15

Distortion of cylinder head face

5

Order

Tightening torque of main

Target value (kgm)

1st

56

2nd

113

Range (kgm) 51 to 61 107 to 118

bearing cap bolt 3rd

6

~

K$at

170-1

Tighten

Loosen completely

bolt threads with

SERIES

engine

4th

38

33 to 43

5th

75

70 to 80

6th

113

107 to 118

14-009

MAINTENANCE

ENGINE

STANDARD

CYLINDER

BODY

LINER

Detail P

F6166062

Jnit: mm No.

Check item

Criteria

I

I

Standard size

3

I

Tolerance

170.24 i

I

Roundness

Repair limit:

Cylindricity

Repair limit: 0.015

.

Tolerance 194.565

194.59

Interference of cylinder liner and block (Counter bore lower part) Outside diameter of cylinder liner (Counter bore part)

0.020

Standard size

Standard interference:

- 194.615

0.025 to 0.135

Tolerance

Standard size 205.99

205.965

Replace cylinder liner

- 206.015

4 Clearance between cylinder liner and block (Counter bore part) Outside diameter of cylinder liner (O-ring part)

Interference: 0.085 to Clearance: 0.025

Standard size

Tolerance 190.34 -

190.4

190.40

5 Clearance between cylinder liner and block (O-ring part)

6

Unevenness of counter bore depth

14-010 0

Standard clearance:

0.050 to 0.210

Tolerance

Repair limit

-

0.03

2 z z

Repair limit

+0.04 0

170

2

Outside diameter of cylinder liner (Counter bore lower part)

Replace cylinder liner or block

Permissible range: 0.07 to 0.15 Difference among cylinders: 0.05 max.

Protrusion of cylinder liner

Inside diameter of cylinder liner

Remedy

Repair by grinding

MAINTENANCE

STANDARD

CRANKSHAFT

ENGINE

BODY

7TI

-

2,i

5'

7'

1,3

6162F409

Unit: NO.

1

Check item

Criteria

I

Size

Standard size

I

S.T.D.

140.00

mm

Remedy

Tolerance

Repair limit

I

139.91 I

I

Outside diameter of main journal

2

Outside diameter of crank pin journal

3

” Journal roundness

0.75us

139.25

139.16

1 .oous

139.00

138.91

S.T.D.

108.00

107.91

0.25US

107.75

107.66

Repair or replace

.

Tolerance

Repair limit

0.140 to 0.320

0.69

End play

Main bearing thickness (Center)

Outside diameter of rear flange

I

Bend of crankshaft (by indicator)

Tightening torque of crank wllev mountina bolt

170-1

SERIES

I

Standard size

Tolerance

Standard interference

4

-0.040 -0.050

3.90

I

170

xl.020

-

1

Tolerance

Repair limit

0.09

0.20 See page 13644

Replace

Tighten

14-011 0

MAINTENANCE STANDARD

ENGINE BODY

CAMSHAFT

6162F410

Unit: Check item

Criteria

Standard size

Cam height

Remedy

Tolerance

Repair limit

Intake side

62

+0.440 WO.240

61.37

Exhaust side

61

-0.310 -0.510

59.64

72.00

-0.080 -0.110

71.86

Outside diameter of journal

mm

Repair or replace

Replace Thrust plate thickness

4

5

6.85

-0.025 -0.060

10.00

Standard clearance

Clearance limit

0.075 to 0.240

0.40

Camshaft end play

Bend of camshaft

14-012

Repair limit:

0.20 (by indicator)

Replace thrust plate

Replace

170-1 SERIES

MAINTENANCE

STANDARD

TIMING

ENGINE

GEAR

INo

BODY

Check item

’ :3

6162F411

Unit:

mm

Criteria

Main idler gear (large) and idler gear

Gear backlash

7

Clearance between main idler gear bushing and shaft

8

9

10

11

End play of idler gear

0.10 to 0.32

12

End play of oil pump idler gear

0.10 to 0.32

13

Difference of timing gear case and cvlinder block lower steo

170-1

SERIES

bearing

Tolerance:

0.15

Repair or

I replace

14-013 cz

MAINTENANCE

ENGINE BODY

STANDARD

’

(HD46!5-5)

Unit:

mm

I No.

Check item

Criteria

-

Gear backlash

Water pump idler gear and water

-

Standard size 7

Clearance between main idler gear bushing and shaft

-

a 9

ushing and shaft

10 11 12

Replace thrust

End play of oil pump idler gear

13

Iifference of timing gear case md cylinder block lower step

’4-oi3-1

Tolerance:

0.15

Repair or replace

MAINTENANCE

PISTON, ALUMINIUM

STANDARD

PISTON

ENGINE

RING AND

PISTON

BODY

PIN

PISTON TYPE

Omm

6162F412 Unit: No.

I

Outside diameter of piston (3.0 mm from bottom and at 2O’C)

I

Piston ring groove

I

-0.257

170

169.62

-0.287

Ring groove

2

Repair limit

Tolerance

Standard size 1

Remedy

Criteria

Check item

mm

Ring thickness

~~

Oil ring

4.80

-0.500 -0.075

io.010

0.3 Clearance limit

Standard clearance

Replace

I

Piston ring gap

Inside diameter of piston pin boss

5

Outside diameter of piston pin

170-1 SERIES

68

0 -0.006

I

67.98

I 14-013-2 8


ENGINE BODY

FCD PISTON TYPE

6162F822

Unit: No.

1

Criteria

Check item Standard size

Outside diameter of piston (3.0 mm from bottom and at 2O’C)

Repair limit

Tolerance -0.075 -0.105

170

169.79

Tolerance

ClW$ce

Standard size Ring groove

2

Top ring

Keystone

2nd ring

Keystone

Oil ring

4.80

Piston ring groove

Ring thickness

Check with piston groove wear gauge

~.OlO

-0.500 -0.075

Standard clearance

3

5

0.50 - 0.65

2nd ring

0.45 - 0.60

Replace

0.3

Clearance limit

Piston ring gap

I 4

Top ring

0.15

Insidediameter

I

Standard size

0.50 - 0.70

II Tolerance

of piston

pin boss

Outside diameter of piston pin

14-Z4

I

Oil ring

1.8

68

+0.044 +0.034

68

0 -0.006

170-1 SERIES

mm


ENGINE BODY

CONNECTING ROD

6162F413

Unit: 2 z

No.

Check item

Criteria

z

1

Shaft

Clearance between connecting rod bushing and piston pin

3

Inside diameter of connecting rod big end

Clearance between inside diameter of connecting rod big end and crankshaft journal

_

5

I

Bend or twist of connecting rod

6

Connecting rod weight

7

Tightening torque of connecting rod cap (Coat bolt and nut threads with engine oil)

+0.070 +0.050

0.050

- 0.075

0.11

Tolerance

115

+0.025 0

Standard clearance 0.060

S. T. D. 1 Connectina rod bearina

Clearance limit

Standard size

Size

.

Standard clearance Hole

0 -0.060

68

2

Remedy

Tolerance

Standard size

-

mm

Replace (the bushing is supplied as a semi-finished product)

Clearance limit

0.130

0.34

Standard size

Tolerance

3.500

Repair limit 3.41

Repair limit of bend: 0.10 Repair limit of twist: 0.25

I

10.15 +0.03

Order

kg

Target (kgm)

1st

20

2nd

90”

Range (kgm) 19-21 90” -

Tighten 105O

14-015 0

MAINTENANCE

LUBRICATION

STANDARD

SYSTEM

OIL PUMP

0 W

‘5

2

z ’

6162F414

Unit: No.

1

Check item

Criteria

I

Clearance between drive shaft and bushing

Clearance between driven shaft and driven gear bushing

Remedy

I

I

;:::;;

10.040 too.075

I

I

32

-0.025 -0.040

30

-0.020 -0.035

+0.030 +0.010

0.030 to 0.070

-

66

-0.115 -0.095

+0.035 0

0.095 to 0.150

-

,/

mm

-

Replace

Clearance between outside diameter of gear and body

4

Main pump gear and body end play

5

Tightening torque of mounting bolt

14-016 0

6.9 f 1 .O kgm

Tighten

MAINTENANCE

LUBRICATION

STANDARD

OIL PUMP RELIEF VALVE, PISTON OIL COOLER BY-PASS VALVE

COOLING

6162F415

6162F416

SYSTEM

VALVE AND

6162F417

Unit:

mm

I Check item

Criteria

Main relief valve spring

Regulator valve spring

5

Main relief valve operating pressure

6

Standard:

3.3 f 0.3 kg/cm’

Regulator valve operating pressure

Standard:

8.0 * 0.8 kg/cm’

7

Piston cooling valve operating pressure

Standard:

1.3 Tt:f

8

Oil cooler by-pass valve operating pressure

Standard:

4.5 ?:0.5 kg/cm*

170-1 SERIES

I

Repair or replace spring

kg/cm2

’4-:’’

COOLING SYSTEM


WATER PUMP

6162F418

Jnit: mm

f No.

Check

Standard size 1

‘.3

Interference between rear shaft and bearing

Interference between rear shaft and impeller

Tolerance

. Shaft

Interference between front shaft and bearing

I

Clearance between impeller and connection

14-018

Hole

25

I 19.9

I

+0.015

0 -0.010

+0.010 0

-:.o,o

0

0 to 0.025

0 to 0.020 Replace

+0.020 +0.005

I

4


I 30

2

Remedy

Criteria

item

I

-0.025 -0.05

0.030 to 0.070

I

Standard clearance

Clearance limit

0.23 to 0.66

-

170-1 SERIES

MAINTENANCE

STANDARD

ACCESSORY

AIR COMPRESSOR

48

6162F419

14-020

170-1 SERIES

MAINTENANCE

STANDARD

ACCESSORY

Unit: No.

Check item

~~

I_

Tolerance

Inside diameter of cylinder

Tolerance Standard size Shaft

Clearance between piston and piston pin

Hole

i-O.570 +0.550

47

M.662 +0.612

Shaft

Interference between crank case and bushing

Hole

+0.019 -0.006

51

-0.086 -0.129 Tolerance

Standard size Shaft Clearance between crankshaft and connecting rod

Hole

-


Clearance limit

0.08 to 0.13

-

Standard clearance

Clearance limit

+0.225 +0.213

0.051 to 0.089

-

47

+0.570 +0.550

+0.638 +0.612

0.042 to 0.089

-

Hole

+0.489 a.476 Standard (kgm)

Replace bushing

Repair or replace crank case

Replace

Standard interference Replace

I 25

170-1 SERIES

0.042 to 0.113

+0.162 +0.135

interference between crankshaft and coupling gear

Tightening torque of cylinder head mounting bolt

Clearance limit

49

Tolerance

8

Standard clearance

Replace

Standard size 7

Replace crank case

I

Shaft

I

Replace

Tolerance

Clearance between crankshaft and support

Repair limit

I

Standard size

6

I

+0.08 +O.lO

92

Clearance between crankshaft and bushing

Remedy

Criteria

Standardsie

mm

i6.425 +0.400

0.051 to 0.089

Limit (kgm) Tighten

3

2 to 3.5

14-021 0

ENGINE 15

REPAIR AND REPLACEMENT OF PARTS

Table of special tools .................................. Cylinder head .............................................. Testing and inspecting ............................... Repairing mounting face of cylinder head by grinding.. .................... Replacing valve seat inserts ...................... Replacing nozzle holder sleeve ................. Replacing valve guide ................................ Replacing cross head guide.. ..................... Grinding the valve ...................................... Cylinder block ............................................. Testing and inspecting ............................... Grinding the top surface of cylinder block ......................................................... Replacing main metal cap.. ........................ Replacing cam bushing.. ............................ Crankshaft. .................................................. Repairing the crankshaft ............................ Connecting rod ........................................... Replacing crankshaft gear.. ........................ Replacing camshaft gear ........................... Replacing flywheel ring gear.. ...................

15-002 15-004 15-005 15-007 15-008 15-014 15-018 15-019 15-020 15-021 15-022 15-024 15-030 15-032 15-034 15-041 15-046 15-048 15-049 IO-050

15-001 0


OF PARTS

TABLE OF SPECIAL TOOLS

TABLE OF SPECIAL TOOLS I ;ymbol

Operation

Replacing

valve

seat

Part No. 795-l 00-4800

Puller

2

795-l 00-3004

Push tool

795-600-2510

Push tool

c

I

Replacing guide

valve

Replacing guide

crossheac

Grinding Replacing bushing

cam

Replacing gear

crankshaf

15002 0

1

For intake

1

I For exhaust

Calking

tool

1

For intake

795-600-2541

Calking

tool

1

For exhaust

5

795-600-2570

Peening

1

795-600-2110

Push bar

1

2

795-600-I

Push bar

1

3

795-600-2120

Driver

1

4

795-600-I

Punch

1

5

795-600-2130

Holder

1

1

795-600-I

Punch bushing

1

2

795-600-2140

Rollina

1

3

795-600-2150

Expander

1

4

795-600-2160

Cutter

1

5

795-600-2170

Guide

790-553-1700

I Coolant

tester

79A-471-1050

Pump

assembly

795-600-2550

Valve guide

1

1 12 1 H

191

130

140

795-600-2560 795-140-6410

I

valve

1

seat cutter

795-600-2531

F G


(

tool

1

bushina

CZzl,head

driver

795-250-1301

Push tool

2

792-l 03-0400

GriD

1

790-101-2800

Bearing

I2I

790-101-2300

II 1 1

I

1

guide

refacer

1

I

remover

1 Valve auide

Valve

1

guide

set

1 1

J

K

.-

seat

1 Push tool

E

Pressure test of cylinder head

For valve

795-600-2520

4

Replacing nozzle holder sleeve

Remarks

Q’tv 1

1

3 A 1- 1

IB

Part Name

1 puller

I Push puller

1

I

valve valve valve valve


CYLINDER

OF PARTS

CYLINDER

HEAD

F6164091

1. Valve guide 2. Closshead guide 3. Fuel injection nozzle sleeve 4. O-ring 5. Cylinder head 6. O-ring 7. Pushrod tube 8. Valve seat insert

15004 0

HEAD

REPAIR

AND

REPLACEMENT

TESTING (1)

Cylinder

TESTING

OF PARTS

AND

INSPECTING

AND INSPECTING head Unit: mm

Inspection

Judgement

item

A. Cracks, leakage from cylinder head

l l

l

Check for cracks (external

color check)

Check for air leakage with air pressure (3.0 - 3.5 kg/cm*, 30 sec.) Water

pressure

B. Distortion of top, bottom surface o cylinder head

Remedy

standards

test (3.5 -

4.0 kg/cm*,

Tolerance

10 min.)

Repair limit

I

Max. 0.05

Repair by welding or replace

test

Grind to correct

0.1

I

Machine to repair or replace sleeve

C. Damage to injection nozzle sleeve seat surface, contact width D. Protrusion of injection nozzle

Permissible

range: 4.9 -

5.7

Replace sleeve

F6164092

io E. Damage to valve seat surface or loosening of seat

l

Pitting of seat surface

l

Check contact

l

Airtighteness

l

Tap cylinder

between

Correct seat surface or replace valve seat

valve and seat surface

test head and check for looseness

F. Sinking of valve (both intake and exhaust) Standard 0.9 -

Repair limit

value

Replace valve or valve seat

2.1

1.5

F6164093

G. Thickness of valve head _1

/ l

Angle

of seat surface

Intake valve:

\

Exhaust

-D

;

Thickness

Replace

30°

valve: 45O

of valye

head

F6164094

15005 63


OF PARTS

TESTING

AND INSPECTING

Unit Inspection

Judgement

item

H. Abnormality

in

l

Check if head has become

standards

: mm

Remedy

flat, check for cracks or piting of seat

surface

valve l

Airtightness

l

Check for play in cotter pin when

test new cotter pin is inserted

in cotter

Replace

j groove.

I. Outside

diameter

l

Check for eccentric

l

Check for hollow

l

Outside

wear

or curvature

of stem.

in stem end.

Correct

diameter

of intake valve Standard

stem

size

I2 Outside

diameter

of exhaust

l

Outside

Standard

value

11.94

I I .92

-

Repair

limit

11.90 Replace

diameter

valve Standard

stem

size

12

Standard

value

11.908-11.893

Repair

limit

I I .80

J. Inside diameter Standard

of valve guide

size

Standard

value

Repair

limit

(after head press 1 I.981

12

fit)

K. Protrution

-

11.999

12.10

of

valve guide (after head press fit) Permissible

range

: 23.4 -

23.9

Repair

limit

F6164095

L. Outside

diameter Standard

of crosshead

size

Standard

value

guide 15.028

I5

M. Protrution crosshead

-

15.039

15.00

of guide

E

Crosshead guide

Q

‘B

2 6 t

15006 0

Permissible

F6164096

range

: 53.7 -

54.0

Replace

REPAIRING REPAIR

AND

REPLACEMENT

OF PARTS

CYLINDER

REPAIRING MOUNTING BY GRINDING 1.

FACE OF CYLINDER

MOUNTING HEAD

FACE

OF

BY GRINDING

HEAD

Grinding

1) Remove

the valve seat inserts.

REPLACING

2) Remove

VAVLE

For details,

the nozzle holder sleeves.

see REPLACING

see

SEAT INSERTS.

NOZZLE

For details,

HOLDER

SLEEVES.

3) Grind the cylinder head to remove the strained or corroded portions within the limit of the height of the cylinder If any grinding face *

of the

Repair

cylinder

limit

139.55

head (H).

is carried head

out, stamp with

of cyinder

mm (Standard

the side

an (R) mark.

head

height

F6164097

(H):

size: 139.85

-

140.15) +

Amount

to remove

per grinding:

*

Surface

roughness

of grinding

*

Flatness

0.10

to 0.15

mm

surface: within

(deformation):

-rt Grinding *

limit:

Difference

0.3

0.05

mm

in head height

per unit: 0.15

4) Press-fit details,

2 Z &

the see

6s

mm max.

one-size-larger REPLACING

max.

inserts. VAVLE

For SEAT

INSERTS. 5) Press-fit the nozzle holder sleeves. For details, see REPLACING NOZZLE HOLDER SLEEVES. 2. .

Check

after

grinding

Check the sinking of the valves and the protrusion of the nozzles are within +

Standard

+

Allowable

sinking

the standard

of valves:

protrusion

0.9

values to 1.5

mm

to 5.7

mm

of nozzle: 4.9

15007 0


REPLACING

OF PARTS

VALVE SEAT INSERTS

REPLACING VALVE SEAT INSERTS *

When repairing without replacing the valve seat insert (when there is surface roughness or stepped wear), correct with the amount of sinking of the valve within the repair limit of 2.1 mm

.

Intake valve

““it: mm

A

A i) ii)

head

Confirm that the grindstone is not damaged, then install it to the shaft of the grinder without applying excessive force. Confirm that there is no play between the grindstone and shaft. When using the grinder, wear safety goggles. Install grindstone @to grinder 0. Install the sleeve and grinder after aligning the groove of sleeve @ with holder 0. Adjust the position of the grinder with set screw @.

6162F502A

.

Exhaust valve #5&4*lj.O5

bf

Unit: mm

der head

6162F503A

Checking for looseness of valve insert Tap the outside of the valve insert of the cylinder head with a hammer to check for any looseness of the valve insert. If the valve insert is loose or springs back, replace the insert. Pulling out the valve seat insert 1) Using the grinder of valve e seat puller Al, make grooves on the inserts to pull them out according to the following procedure. Ir Set the air pressure to 5 to 6 kg/cm*. * When replacing the grindstone of the grinder, shut off the compressed air. A

Before using the grinder, run it for a minute to test it. After replacing the grindstone, run the grinder for three minutes to test it.

l

15008 63

6162F504


iii)

Adjust

OF PARTS

the position

REPLACING

VALVE SEAT INSERTS

of the grinder so that

the center of grindstone

@

center of seat insert (l),

then tighten the

will be at the

set screw to secure the grinder. iv)

Fully rotate

open the throttle the grindstone

of the grinder to and slowly

move it

until it contacts insert (1). VI

Press the grindstone

against the inside of

the insert, move it in a circular pattern, and w

make a groove about 1 mm deep.

6162F505

2)

Pull out the insert with the puller head of valve seat puller Al according

to the following

pro-

cedure. i)

Push three claws (a) of puller head @

in-

ward by hand and put them in insert (1). ii)

Tighten screw

@

to press the three claws

against the groove on the inside surface of the insert. *

If the screw is tightened

break and it will be dif-

ficult

it out.

to pull

tightening compretely iii)

too strongly,

the insert will

Place bridge place plates Tighten

nut

the

Therefore,

screw when

the

stop claws

contact the groove. @ @ @

over the puller head, then and

0

on the bridge.

to pull out the insert.

6162F506A

Al

F6164098A

15-009 0


2.

REPLACING

OF PARTS

VALVE SEAT INSERTS

Machining valve seat insert mounting hole to oversize 1) Using valve seat cutter A2, machine the mounting hole to install a one-size-larger insert. l Dimensions of insert and mounting hole

\

hr dr

Bottom\surface of cylinder head 6162F502-1 l

/i

Intake valve side Insert

Stamp on insert

O.D.(d,)

S.T.D.

63.00+“’ O” +o.080

0.25 OS

Unit: mm

I

I

63.25;;:;;;

Mounting hole for insert Hight(h,)

I.D. (d2)

8.5-z.,

63.002:;;;

8.5:,,

12.5 zt 0.1

2) If the talked portion of the mounting hole, is damaged remove it within the range of 1.00 mm oversize. If the damage portion cannot be removed within the range of 1 .OOmm oversize,

12.5 f 0.1

63.25 :;:$j I

F6164099A

Depth (h,)

I

replace 3.

the cylinder

head.

Press fitting the insert 1) Using insert push toolA3,press-fit

the insert

(1 ).

l

Exhaust valve side Unit: mm

A3

Mounting hole for insert

Insert

Stamp 0"

insert

O.D.(d,)

Hight(h,)

I.D. (d2)

Depth (b)

615F004A 0.75 0.S

61.75;;:;:

8.75&

61.75 “;:;:;

12.75 f 0.1

1 .OO OS

62.00;;:;:

8.8&

62.00 “;:;:;

12.88 f 0.1

2) Check the sinking distance the *

Inside surface roughness: 12.5s max. Mountting hole bottom roughness: 12.5s max. Concentricity of inside diameter of valve guide and inside diameter of insert hole: 0.05 mm (T.1.R) max. Rectangularity of inside diameter of valve guide and bottom of insert hole : 0.03 mm (T.1.R) max.

15-010 0

mounting,

surface

of the insert from

of the

cylinder

head.

Standard sinking distance of insert: 3.9 to 4.2 mm

E 4

>& I

o! m

F6164159

8 z z


OF PARTS

REPLACING

4.

Calking circumference of insert Calk the circumference of the exhaust valve seat insert as follows. * It is unnecessary to talk the insert for the intake valve.

*

Differences

between

exhaust

valve inserts

New

Old

6162-13-1321 (2 per valve)

6162-13-1320 (2 per valve)

VALVE SEAT INSERTS

1 I OO- 500mm

Part No.

Part No. and size stamped on outside circumference

Difference Need for calking after press

No

No stamp (Note: The oversize insert is stamped.)

Yes

fitting Calking above.

is not needed

head

for any insert not listed

1) Set with the bottom surface of the cylinder 8

z z

2) 3)

head facing up, and place on wooden blocks. * Leave enough space so that the valve guide does not contact the ground. Insert calking tools A4 and A5 into the valve guide. Hold calking tools A4 and A5 down with one hand, and hit around the whole circumference 15 times with the hammer to talk. * Check that there are no cracks in the talk portion and that the calking is uniform around the whole circumference.

6162F816A

F6164160A

15011 0

REPAIR

5.

AND

REPLACEMENT

Finishing

OF PARTS

A2 as shown Angie

of seat

Width

surface:

intake

of seat fininshing

side:

Connectricity

side: 3.69

of valve

Coat the seat surface guide

mm

and

mm

insert:

(T.I R) max. Unit:

using the compound.

a rough compound valve

mm

side: 3.79

guide

0.07 2) Fit the seat surface

30°

side: 45O

surface:

Exhaust

the

INSERTS

with valve seat cutter

Intake +

SEAT

in the figure. Exhaust

*

VALVE

the seat surface

1) Finish the seat surface +

REPLACING

of the valve thinly

mixed with

that

forms

with

oil insert

that

bar to the valve head,

and

hands

against When

it with

both

to rub

mm

* 0.05

it in

a pair with

valve, then fit a rubbing turn

$57.4

459+0.05

3o”

lightly

the valve seat. the

rubbing

removes

wipe off the compound. compound

and

repeat

give a good contact

the

roughness,

Intake

Exhaust

side

side

Then coat with a fine the

surface

above

process

to

with

no break

in

6162F507A

contact. 6.

Final check *

8

Standard

sinking

distance

of valve 0.9

-Sr Standarad

width

of contact

valve:

Intake

l

Coat the seat surface with

push

surface,

and rotate

contact

surface,

is uniform

l

lightely

surface

insert

against

mm

?c 0.2

it in the valve

the valve

insert

1 O”. Check the valve insert

Intake

side

Exhaust

side

that the contact

any breaks.

F6164100

or Make of the

marks with a pencil on the seal surface new

valve

as shown

in the diagram,

insert it in the valve guide, push lightly against the valve insert surface, that

the

uniformly

and rotate 1 O”. Check

pencil

marks

have

around

the whole

been

erased

Pencil ,(about

marks 20

places)

circumference.

F6164101

15-012 0

z z

Bottom surface of cylmder head

Bottom surface of cylinder head

against

* 0.2

side: 2.8

and confirm

without

Lo

mm

of the new valve thinly

red lead (minium),

guide,

Unit:

to 1.5 mm

side: 2.5

Exhaust

(new):


OF PARTS

REPLACING

VALVE SEAT INSERTS

Air pressure testing method When carrying out an airtightness test with a vacuum tester, test as follows 1) Wipe off all the dirt, dust, and oil from the valve and valve seat surface with a cloth. 2) Assemble the valve, valve spring, retainer, and cotter, tap the tip of the valve stem with a plastic hammer 2 or 3 times directly from above to bring it into tight contact with the seat surface. 3) Fit a vacuum cup that matches the size of the valve in tight contact with the head surface. When doing this, to improve the airtightness of the vacuum cup, coat grease on the O-ring fitted to the vaccum cup, and fit it in tight contact with the flat surface of the head. (Be careful not to get any grease on the seat surface.) 4) Set the vacuum gauge, and check that the pressure drops less than 10 mmHg in 3 seconds. If it drops more than 10 mmHg in 3 seconds, check for any dirt on the seat surface, or rub the surface to correct it. l

15013 0


OF PARTS

REPLACING

NOZZLE HOLDER SLEEVE

REPLACING NOZZLE HOLDER SLEEVE 1.

Cutting a hole at bottom of sleeve . Insert 12 mm diameter drill 0 in the hole at the bottom of the sleeve to make the hole.

2.

Removing the sleeve 1) Insert-push bar Bl inside the sleeve. 2) Using sleeve extraction tap 0, cut tap to about 25 mm depth from top face of sleeve. Add oil while cutting. + Sleeve extraction tap: M32, P q 2.0 3) Insert push bar 82 from the bottom of the head and tap with the hammer to remove the sleeve. 4) Remove the sleeve materials from the tap portion of portion a of the cylinder head. 5) Remove O-ring (2).

3.

Press-fitting the sleeve I) Install O-ring (2) to the cylinder head. 2) Insert sleeve (I) in the cylinder head, then insert sleeve driver B3 and lightly tap it until the sleeve contacts the seat surface. * Before installing the sleeve, clean the sleeve and seat. * Apply adhesive to the seat around the sleeve. &

Seat: LT-2

F6164102

F6164103A

e

-

a

F6164104

F6164105A

15-014 0

z z

-----______

%

8


4.

OF PARTS

REPLACING


Calking the sleeve seat face 1) Fitthe sleeve seat with sleeve holder B5. w

Tightening

torque for sleeve holder: 2 kgm.

B4

/

2) Install punch bushing Cl and insert sleeve 3)

4)

5)

driver B4. Place support @ under the cylinder head to allow the bolt of the sleeve holder to move out. Hit the sleeve driver with a hammer to talk the seat surface. Lightly hit with a hammer several times. * Remove the sleeve holder and punch bushing.

5.

Roll-fit the bottom

hole of sleeve

.

Using sleeve rolling tool C2, roll-fit bottom hole @ of sleeve (1). * Adjust the roll-fitting height with bearing collar @ so that the shaft of the rolling tool will protrude a little from the bottom hole. * Install the rolling tool to a radial drilling machine or upright drilling machine to roll-fitwith its own weight. + Rotating speed: 200 to 300 rpm

6.

Roll-fitting

.

Using sleeve expander C3, roll-fit the taper section of the sleeve. Set the roll-fitting amount with stopper @ of the expander. Install the expander to a radial drilling machine or upright drilling machine to roll-fitwith its own weight. Rotating speed: 200 to 300 rpm

6162F511A

the taper section of sleeve

6162F512A

6162F513A

15015 0


OF PARTS

7.

Spot-facing the inside seat of the sleeve I) Using guide bushing C5 as the guide, spotface the seat with sleeve cutter C4. + Cut the seat little by little while checking the protrusion of the nozzle with the holder for measuring it and a dial gauge so that the protrusion of the nozzle will be within the specification. * Rotating speed: 500 to 600 rpm * Protrusion of nozzle: 4.9 to 5.7 mm 2) Remove all the metal chips and dust from the machined surface.

8.

Checking the leakage from the seat . Confirm that fluid does not leak through the sleeve seat in the air pressure test. (There must be no leakage for 30 seconds at an air pressure of 3.0 - 3.5 kg/cm2.) + When carrying out the air pressure test, install a used nozzle holder.

15016 0

REPLACING


6162F514A


OF PARTS

REPLACING


Water pressure testing method . If the area around the head has been corrected, test as follows. 1.

Water Dressure test 1) Tighten the nozzle holder assembly to the specified torque. 2) Assemble tool E and tool F, and connect a hose to frange (I). 3) Apply water pressure (3.5 - 4.0 kg/cm2) for approx. 10 minutes, and check for any leakage from around the head. sr

2.

2 Z Z

It is preferable to warm the whole cylinder head and carry out the test with hot water (82 - 93°C).

Air pressure test 1) Tighten the nozzle holder assembly to the specified torque. 2) Connect the pump hose to flange (I). 3) Place the head in a water bath, apply air pressure (3.0 - 3.5 kg/cm? for approx. 30 seconds, and check for any air leakage in the water. sr

F6164106A

If the above test shows that there are cracks around the nozzle holder and plugs, replace the cylinder head.

15017 0


OF PARTS

REPLACING

VALVE GUIDE

REPLACING VALVE GUIDE 1.

Removing the valve guide . Remove the valve guide with valve guide remover Gl.

6162F811A

2.

Press-fitting the valve guide 1) Press-fit the valve guide until the tip of valve guide driver G2 contacts the cylinder head. 2) Confirm that the protrusion of the valve guide is within specification. Ir Protrusion of valve guide: 23.7:::; mm * Inside diameter of valve guide hole in cylinder head: 19+~~021 mm

15018 0


REPLACING 1.

Removing l

OF PARTS

REPLACING

CROSS HEAD GUIDE

CROSS HEAD GUIDE

,

the cross head guide

Using cross head guide puller H, pull out thje cross head guide. 1) As shown

in the figure,

guide with collet @of

hold the cross head

the puller.

2) Tighten the collet with bolt 0 0. 3) Rotate

nut @and

to lock sleeve

pull out the cross head

guide. 4) Remove

burrs, fins, etc. from the mounting

place of the cross head guide and clean

it.

615F019A

2.

Press-fitting l

the cross head guide

Insert the cross head guide in the cylinder head, then hit it into the cylinder bar or plastic

hammer

head with a copper

until

its protrusion

is

within specification +

Protrusion

of cross head guide Tolerance:

+

Inside diameter

54

’ -0.3

mm

of crosshead guide hole: ,5 + 0.018 mm 0

15019 0

REPAIR

AND

REPLACEMENT

GRINDING 1.

Grinding l

OF PARTS

VALVE

the seat surface

Angle

of valve seat: Intake valve: Exhaust

Checking l

THE

THE VALVE

Grind the seat surface with valve refacer *

2.

GRINDING

I.

30°

valve: 45O

after grinding

Confirm

that the thickness

protrusion

of the valve head,

of the valve, and the contact surface

of the valve seat are within specification. *

Thickness

of valve head

Ir Thickness

F6164107A

of valve head

Repair limit Intake valve: Min. 2.9 mm (Standard Exhaust

size 3.4 mm)

valve: Min. 3.1 mm (Standard

*

Sinking

of valve

size 3.5 mm)

Standard:

0.9 -

F6164108

8

1.5 mm

z z

Repair limit: 2.1 mm

*

Check the contact of the valve with the seat surface l

using one of the following

Coat the seat surface of the ground valve thinly with red lead (minium), the valve guide,

Make

marks

any breaks.

a pencil

on the

seat

of the ground valve as shown

the diagram, push

with

the

and confirm that the

contact is uniform without

surface

insert it in

push lightly against

valve insert surface,

l

F6164109

methods.

lightly

surface,

insert

against

and rotate

in

it in the valve guide, the loo.

valve

Pencil

marks

(about

20

places)

insert

Check that the

pencil marks have been erased uniformly around

15-020 0

the whole

circumference.

F6164101


OF PARTS

CYLINDER

BLOCK

CYLINDER BLOCK

HLE00055

1. 2. 3. 4. 5. 6. 7.

Cylinder liner Crevice seal O-ring Cylinder block Main bearing cap Main bearing cap bolt Camshaft bushing

15-021 0

REPAIR

AND

TESTING (1)

Cylinder

REPLACEMENT

OF PARTS

TESTING

AND

INSPECTING

AND INSPECTING block Unit: mm

inspection

Judgement

item

A. Cracks

Check for cracks (external

l

Cylinder

Remedy

standards

color check)

head bolts hole portion,

Replace

etc.

6. Correction of con tact at packing portion Check for water leakage caused by corrosion

I C. Clearance liner

Replace

F6164111

from

~~~

zi%z!

ji

Clearance from liner

190.34

-

190.40

190.19

-

190.29

0.05

-

0.21 Replace cylinder liner or block

F616411:

D. Inside diameter of camshaft bushing

l

Inside diameter Standard

size

72 l

Clearance

from camshaft Standard 0.08

E. Protrusion

Standard

value

Repair limit

72.00

72.07

72.10 Replace bushing

bearing Standard

clearance -

-

0.18

of line

value

0.24

Permissible

range: 0.07

-

0.15 Replace cylinder liner or correct cylinder block

I

F. Depth of counter. bore and corrosion of bottom surface

G. Distortion, wear of cylinder head mounting surfac

’ \

F6164113

Depth of counterbore

Standard 14

~6164114

l

Overall

Standard

value

14.00

14.05

-

Repair by machining, add shim

Check for corrosion Repair limit

Tolerance top surface

For one cylinder:

15022 0

size

of block: Max. 0.09

0.15

Max. 0.05

0.10

Repair by machining

REPAIR

AND

REPLACEMENT

OF PARTS

TESTING

AND

INSPECTING

Unit: mm inspection

H. inside diameter of main bearing mounting hole l

Judgement

item

Tighten main bearing cap bolt and guide bolt at specifier torque

Standard 148 Ran$bf

Standard

size

@

standards

value

Remedy

Repair

147.992

-

147.025

-

170.992

-

171.025

-

limit

Replace I. Fitting of cap and cylinder

block

z z z

J. Inside diameter of counterbore, outside diameter of cylinder liner flange

Replace cylinder

F6164117

Bottom

1 194.59

Cylinder block

Standard size

Top

Bottom

1 206.0 194.5

/ ‘“~~$&I

Standard value

1 ‘““;;“,., 194.48 194.54

liner

-

Repair limit

I’““;“,‘,,

Correct cylinder sleeve

block

194.46 194.57

15023 0

REPAIR

AND

REPLACEMENT

GRINDING

GRINDING

OF PARTS

THE TOP SURFACE

THE TOP

OF CYLINDER

SURFACE

OF CYLINDER

BLOCK

BLOCK’

Grinding

Grind off the strained and corroded portions of the cylinder block within the allowable height (H) of the cylinder block. Ir Use the followinga as a guide to decide when to grind to the top surface. If the top surface of the cylinder block is worn or corroded in the shape of the head gasket, and the amount of wear is more than 0.10 mm, grind the top surface. * If there are blackened portions on the cylinder liner contact surface of the counterbore (particularly in the front-to-rear direction), or there is speckled wear, and these portions extend over more than half of the contact width of the deck, and if grinding has been carried out on the top surface, correct the counterbore.

.c

z

Wear

ofcounterbore

portion

$ % 3 _I

I, \

1.

Grinding

top surface

1) Measure the wear and strain of the top surface of the cylinder block, and if it is over the repair limit, grind the top surface.

F6164118

+ Flatness of cylinder block (for one cylinder): Standard dimension: 0.05 mm Repair limit: 0.10 mm * Height of cylinder block (H): Standard dimension: 509.835 - 510.065 mm Repair limit: 509.5 mm + Roughness of top surface of cylinder block: Max. 12.5s

If grinding

with

a grindstone

*

Speed

of grindstone:

*

Speed

of table:

+ Grinding It

depth/time:

Cross feed/time:

(for reference)

1,650

to 1,950 m/min.

15 to 30 m/min. 0.025

mm

1 to2mm

*

Grindstone:

A461V

*

Grinding

Water-soluble

lubricant:

grind-

ing lubricant

HLE00058

15024 0


2.

OF PARTS

GRINDING

THE TOP SURFACE

OF CYLINDER

Unit:mm

Grinding couterbore After

grinding

the

block,

measure

the depth of the counterbore.

it is not within are

contact

top surface

the standard

blackened

direction),

and these

portions

half of the contact counterbore correcting, 14.05

-

on

the

width

depth* if the

15.525

(Liner Drotrusion)

cylinder

-

If

or if there

cylinder

of the counterbore

in the front-to-rear wear,

of the

dimension,

portions

surface

liner Cylinder liner

(particularly

extend

/

over more than

the repair limit. After

counterbore

depth

mm, combine

with

Cylinder block

is within shims

is 0.07

-

and 0.15 I

mm. Counterbore

Repair

dimension limit:

Roughness

*

Machined

14 + io5

15.46

of cylinder

Standard +

I

depth L:

Standard

* Protrusion

v

/

of the deck, correct the

within

L 12.5s

or there is speckled

adjust so that the liner protrusion

*

BLOCK

F6164120

mm

liner I:

value: 0.07

of counterbore: shape:

mm

-

0.15

Max.

In accordance diagram

mm Unit:mm

12.5s with

for portion

detail

a cylinder

For the

extra

decide

amount

a machining

protrusion

for counterbore amount

that

will

of the cylindr liner within

depth

L,

bring the

the standard

value. When

grinding

within

the

repair

limit

in cases

where the counterbore depth L exceeds the standard dimension, set the machining amount Detail a

so that one shim can be used for each cylinder as shown

[Reference]

F6164121

in the table below.

Adjustment

shims for counterbore

Unit: mm

depth Ilnit. mm

.Part No. 6162-29-2260

T

1

1.50

t

Weight (kg)

1 0.025

1 0.004

Remarks

1

6162-29-2250

1 0.80

1 0.025

1 0.002

1

6162-29-2240

1 0.50

1 0.025

1 0.001

1

0.26

0.025

0.001

6162-29-2220

0.20

0.020

0.001

6162-29-2210

0.16

0.016

0.001

6162-29-2230

\

Shim

T*t

F6164122

15-025 0


3.

GRINDING

OF PARTS

THE TOP SURFACE

OF CYLINDER

BLOCK

Checking and distinguishing after grinding and correcting After grinding

and correcting,

on the flat surface in the cylinder Remove

all burrs completely.

H exceeds

is within always *

and oil holes

block top surface.

After grinding the top surface, height

check for scratches

around the water

the

the repair

limit (569.5

use an oversize

Oversize

if the cylinder

standard

block

dimension, -

509.8

but mm),

head gasket.

head gasket part number: 6162-19-1811

Thickness

of plate: 2.4 mm (Standard:

Ir To distinguish,

2.0 mm)

the letters

“OS”

are stamped

stamp

top surface

on the plate. After

correcting,

cylinder correction

block

according

as shown

the

to the

content

of the

Position Ds,r I.

of the

in the table below.

Table of letters to stamp Oversize head gasket

Shim

Stamp

18, (Size of letters: 5 -

10 mm) HLE00067

15026 0

REPAIR

4.

AND

REPLACEMENT

Procedure gasket

for coating

bottom

When

pulling it again,

out the

of linei

cylinder

coat the

the counterbore

liner

contact

THE

TOP

SURFACE

OF CYLINDER

BLOCK

lip with

and press

surface

under

liner lip with gasket sealant

LG-

as follows. Use the same procedure when using

a shim for the corresponding +

GRINDING

sealant

fitting 6

OF PARTS

The following

part.

commercially

is equivalent

available

sealant

to LG-6.

l

Three

l

Nihon Hermetic:

Bond: TBI 215 SS-6OF 6162F759

1) Use a cloth to wipe off all the dirt and oil from the contact surface

Top surface

of the liner lip and cylinder

of block

block counterbore. Meting

2) Coat the position

marked

in the diagram

Of liner

portion

with

LG-6. l

Make

the

sealant l

diameter

$2 -

of the

Make the overlapping and ending

line

of gasket

3 mm. the

mm as shown

portion for beginning

coating

of sealant

6 f

Position to coat with gasket sealant

6

in the diagram.

F6164124

*

When l

using shims

After

coating

thinly

with

,

the

bottom

LG-6,

of the

shim

it to the

deck

in the same

way

instll

portion of the block. l

Next,

coat with

as when

LG-6

not using shims.

Overlap

amount

6 + 6 mm

-1

d

F6164125

G-6

(@2 -

3 mm)

/

3) Press fit the liner in the cylinder When

doing

this,

coat the

lubricant

RF-I.

+ RF-l

is equivalent

available

+ If RF-1 contaet

to

Daido Kagaku is not surface

an extremely (SAE30)

the

available,

small

1 rubber

commercially

Kogyo DS-50. coat

of the O-ring

immediately

block.

seal with

amount before

the

block

and seal with of engine press

oil

fitting

the liner. F6164126

15-027 0


4)

OF PARTS

GRINDING

THE TOP SURFACE

OF CYLINDER

Coat the liner O-ring, clevis seal, and cylinder block contact surface with a small amount of engine oil (SAE #30) immediately before press fitting the liner. * Coat the contact surface of the cylinder block uniformly around the whole circumference by hand.

\+a

5)

Insert liner (I) into the cylinder care not to damage the O-ring.

6)

Use your weight and push the liner in with both hands. Ir If the liner does not go in smoothly when you apply your weight, there is danger that the O-ring may be damaged, so check the cylinder block for burrs or flashes.

7)

Using liner driver I, press fit cylinder liner (1) into the cylinder block. * Using the following procedure, squeeze out the gasket sealant coated on the counterbore. i) Tighten the cylinder head temporarily with a used head gasket. w

ii)

Ir

Mounting

6162F761

block, taking

bolt: 26 * 1 kgm

Remove the cylinder head, and wipe off the gasket sealant that has been squeezed out from between the cylinder liner and cylinder block. If gasket sealant sticks to the grommet in the head gasket, the grommet will be deformed, and this will cause leakage of water, so remove all the gasket sealant.

I

15-028 0

BLOCK

6162F764


8)

OF PARTS

GRINDING

THE TOP SURFACE OF CYLINDER

Loosen the cylinder head mounting bolts, remove the head, then wipe off the excess gasket sealant that has come out from the cylinder bore. a

BLOCK

If the grommet is deformed into a heart shaDe. it blocks the water hole and may cause the coolant.

/

The gasket sealant that comes out may cause deformation of the head gasket grommet, so always carry out steps 4) and 5) without fail.

/ / Grommet

R

leakage

of

\ \ Water

hole

F616417.7

15029 0


OF PARTS

REPLACING

MAIN METAL CAP

REPLACING MAIN METAL CAP * When replacing the main metal cap, machine the semi-finished part according to the following procedure. No. 1,2,3,4,5 and 7 Main cap 6162-29-1210 No. 6 Main cap 6162-29-l 250 ( 1 1.

Machining the bore of main metal cap 1) Remove the cylinder liner 2) Install the replacement metal cap to the cylinder block and tighten it to specification. w *

Mounting

Coat the thread SAE30

boltfor main metal cap: and seat with engine

oil

Unit: kgm Procedure

Target

Range

1 st step

56

51 -61

2st step

113

3st step

0

4st step

38

33-43

5st step

75

70-80

6st step

113

5)

*

3)

4)

107-118 Loosen completely

Tolerance:

107-118

Align the notches and cap.

on the cylinder

Cut the inside of metal cap (I) little by little while checkinn its inside diameter. Cut until the cutting tool contacts the inside wall of cylinder block (2). Inside diameter of main cap: i) Machining dimension ii)

block

Set the jig for mounting the cylinder block to the table of a horizontal boring machine. Install the cylinder block by mounting its hole for the liner to the datum plug of the jig. Center the arbor of the boring machine by applying a dial gauge to the inside wall of the two metal caps which have the largest pitch in the metal caps to b e used again.

148+to25 mm

Inside diameter of cap when main cap is tightened to specified torque after machining. Tolerance:

148$::%:

mm

(IO” range above and below cap matching surface) Surface roughness: 12.5s max. Never cut the inside wall of the cylinder block.

HLE00060

15030 0

2 z &


2.

REPLACING

OF PARTS

MAIN METAL CAP

Correcting the width of the main metal cap (Modifvinn No. 6 main cap onlv) 1) lnskrtcast iron bushing @and pass arbor @I through. 2) Install facing tool @to the arbor. 3) Cut cap (I), until the cutting tool contacts the cylinder block. 4) Cut the opposite side in the same way. *

Never cut the cylinder

block. 6 I27F230

*

Roughness

of surface facing thrust metal: 12.5 max. of main cap Tolerance:

+

Width

Max.R0.5 1

HKE00068

15031 0


OF PARTS

REPLACING

CAM BUSHING

REPLACING CAM BUSHING *

Before replacing the cam bushing, remove plug from the rear of the cylinder block.

the

1.

Removing

.

As shown in the figure, assemble push tool @ and collar @ in push tool set Jl, and grip J2, then pull bushing (2) out of cylinder block (I) by hitting the grip.

No. 1 and No. 7 bushings

6162F518A

2.

Removing


.

Assemble push bar 0, push tool 0, guide 0, and collar @ in push tool set Jl, then pull bushing (2) out of cylinder block (1) while hitting the bar.

2

1

c 6162F519

3.

Removing

No. 3, No. 4, and No. 5 bushings

.

Assemble push bar 0, push tool 0, guide 0, and collar 8 in push tool set Jl, then pull bushing (2) out of cylinder block while hitting the bar.

2 1

6162F520

4.

Press-fitting

No. 3, No. 4, and No. 5 bushings

.

Assemble tool set Jl and bushing (2), then fit the bushing until the end face of push tool @I contacts cylinder block (I). Ir Align the oil hole on the bushing. (This must be cared whenever fitting the bushings.)

1

6162F521

15-032 0


OF PARTS

5.

Press-fitting

.

Assemble tool set Jl and bushing (2), then fit the bushing until the end face of push tool @I contacts the cylinder block. * Align the oil hole on the bushing.

REPLACING

CAM BUSHING


6162F522

6.

Press-fitting


.

Assemble tool set Jl, grip J2, and bushing (2), then fit the bushing until the end face of push tool @I contacts the cylinder block. Ir Align the oil hole on the bushing.

*

Press-fit the plug to the rear of the cylinder block.

6162F523A


OF PARTS

CRANKSHAFT

CRANKSHAFT

HLE00062

1.

Crankshaft

Unit: mm Inspection

item

A. Cranks

Judgement Use a magnetic

standards

flaw detector

to check for cracks

6. Damage Check for damage to the journal portion 1 Damage C. Clogging

15-034 0

of oil hole

Scratches seizure discoloration

to cap hole at front and rear end

Check for clogging

of oil hole

Remedy Replace If the damage is slight, correct with an oilstone or correct by lapping. Replace if there is seizure Correct Correct


OF PARTS

CRANKSHAFT

Unit: Inspection

item

D. End play of crankshaft

E. Thickness bearing

Size

of

G. Out-of-roundness crankshaft pin

of

I. Outside diameter main journal

of

L. Curvature of crankshaft (total runout of indicator)

Standard

1

standards Repair

Standard value 0.14 - 0.320

of thrust

F. Outside diameter crankshaft pin journal

Judgement

I

limit

Tolerance

Repair

limit

3.79 3.92

STD 0.25 US

4.0 4.125

0.50 us

4.25

0.75 us

4.375

4.17

1 .oo us

4.5

4.29

Size

Standard

size

Tolerance

_ Replace thrust bearing or correct crankshaft . with oversize

4.04

-0.07 -0.12

Repair

limit

STD

108.00

107.91

0.25 US

107.75

107.66

0.50 us

107.50

0.75 us

107.25

107.16

1.00 us

107.00

106.91

-:.022

Standard Total coaxiality main journal

of

Coaxiality of neighboring journals

Remedy

Replace thrust bearing or correct with oversize

0.69

size

mm

107.41

Repair

Max. 0.09

0.09

Max. 0.05

0.05

Correct with undersize or replace

limit Replace

15-035 0


Correcting surface journal portion If the does

roughness not

roughness

of the

fulfill

OF PARTS

the

of crankshaft

crankshaft

standard,

CRANKSHAFT

journal

correct

portion

the

surface

roughness. 1.

Cleaning Before

and blowing polishing,

with

brush

air

the oil holes

and blow

with air. 2.

Correcting

surface

1) When

roughness

correcting

with

of journal special

portion

polishing

machine Use a special the diagram

i)

polishing

Set the rotating -

50

rpm,

type).

as shown

speed for the work

and

Perform

honing

machine

in

on the right. use No. 320 dry polishing

paper

at 40 (belt

(do not use

oil), and move the paper

and down the whole journal

once

up

width for each

journal. ii)

Next, replace journal

the handle right

with No. 500 paper, coat the

surface by the

movement.

with

honing

of the machine amount Use this

oil, and move to the left and

of play to give fine movement

once up and down the whole journal.

Move the paper

to move

width

smoothly

of the

not stop at any point. iii) Check the surface not within

roughness,

the standard,

up and down the width

F6164131

and do

and if it is

polish again once of the journal

z Move handle to left and right, and move once up and down width of journal

with

No. 500 paper.

F6164132

15-036 0

z


2) When

OF PARTS

CRANKSHAFT

using a work clamp jig for polishing

(When

a special

polishing

machine

is not

jig such

as shown

in the

machine

under

available) Use a work diagram

clamp

on the right.

Use a crankshaft the following

grinding

polising

Paper:

No. 800

Machining

oil: Honing

Work speed: The

time

6 minutes.

amount

oil

40 rpm

polishing

approx.

conditions.

for

one

Move

the

of play of the clamp

width

(approx.

5 mm),

down

the journal

After completing replace When

journal clamp

is the

and journal

and move

in the axial

up and

direction.

the honing of one journal,

the paper with new paper. honing

the

pin journal,

it is safer

to carry out the work with the pin journal at the rotation

3) Assembly

center.

of work

F6164133

clamp

jig and

method

of

use i) Jig for pin journal Assemble diagram

on the

component separate

and jig for main journal

the clamp parts,

jig as shown

in the

For details

of the

right. see

the

drawings

on

pages.

F6164134

15-037 0

REPAIR

AND

REPLACEMENT

CRANKSHAFT

OF PARTS

ii) Cut out a piece of No. 800 paper with the shape shown in the diagram on the right.

Dimensions

230 Make cuts of 20 mm length\ at approx. 10 mm intervals

mm

IIIIIIIIIII

i E 9

iii) Take 2 pieces of paper prepared in Step ii), insert the top and bottom pieces in the slit of the clamp jig. then fix in position with tape. iv) Fit the journal in the clamp, and fix the ends of the lever with a rubber tube.

of paper for pin journal

I I I I I I I I I n_, Cut out slit 2 portions Dimensions

of paper for main journal

F6164135

3.

Measuring

surface

roughness

Standard for surface roughness Journal surface, thrust surface: Max. 0.8 S Using a surface roughness measuring tool, check that the roughness is within the standard. If no measuring tool is available, rub No. 1500 paper extremely lightely in the axial direction, and use a 30-times magnifying glass to inspect the pattern on the paper. If the horizontal lines can be seen to be connected it is within the standard value. If the lines cannot be seen to be connected, the roughness of the journal surface is excessive, so polish it again. 4.

Cleaning

after

correcting

surface

8

z z

roughness

After correcting the surface roughness, always brush the oil hole and blow with air. 5.

Check

that

the journal

there portion

are no scratches and fillet

or dents

at

R portion.

Fix in position Bend to fit round

.Rubber

with tape w

shape

inside

plate

F6164136

15038 0


Clamp jig parts drawing

CRANKSHAFT

OF PARTS

(for pin journal)

@I Plate (2 are used for each jig) Unit: mm 69 k 0.1

I=

74

(10)

-i 5

A

F==i A

LLI 31.5

I =H--

/

--t-F”

I

STKM 13A

Section A-A F6164137A

@

Handle (2 are used for each jig)

Umt:mm -

450

132

F6164138A

15039 0


Clamp jig parts drawing 0

OF PARTS

CRANKSHAFT

(for main journal)

Plate (2 are used for each jig) Unit:

mm

1 A

t A -

27.5

/ 6.5

6.5

STKMI

3A

Section A-A g=x Section

A-A

F6164139A

@I Handle (2 are used for each jig) Unit:

mm

F6164140A


OF PARTS

REPAIRING

THE CRANKSHAFT

REPAIRING THE CRANKSHAFT .

.

l

If the crankshaft is worn or slightly seized or damaged, cut it to any one of the following thicknesses. Undersize dimensions: 0.25, 0.50,0.75, 1.00 mm If the crankshaft is bent or worn unevenly, replace it instead of repairing it. (A lot of skill is required to repair it.) Carefully finish section R of the fillet of the crankshaft, section r on the shoulder, and section R facing the hole.

\c

\ /IF.

Dimension

R

of fillet

/r

r’

i

R: 6.5_g.s mm, Surface roughness r: 6.4 mm, Surface roughness

-

R

-

1.6s 12.5s

Roughness of outside surface of pin journal, main journal: Max. 0.8s Tolls and jigs required for cutting 1) Magnetic flaw detector 2) Shore hardness tester 3) Etching kit 4) Crankshaft cutting machine 5) Crankshaft grinding machine 6) Roughness gauge 7) Ball gauge for measuring radii of fillets Min. 795-500-1140 Max. 795-500-I 150 Check before cutting 1) Visual check Check for cracks, damage, seizure, discoI: oration, wear, etc. to see if it can be repaired. 2) Hardness test of journal Hardness of journal (Shore hardness) Allowable range: 60 - 67 Hs Limit: 60 Hs If the hardness is below the limit, dispose of the crankshaft. 3) Torsion test

6127F231

.

Dimension

Main journal

Stroke

of oil hole on journal

Pin journal

6127F233

Throw

of eccentric:

85-t,,,

mm

15041 0


2.

OF PARTS

REPAIRING

4) Measuring the bend (Alignment) l Measure the bend of the repaired crankshaft. l Measure the bend (alignment) at the following four places. i) Overall length alignment: 0.09 mm max. 0.05 mm max. ii) Adjoining alignment: 10.04 mm max. iii) Forward end alignment: iv) Rear end alignment: ‘0.03 mm max.

Check during and after cutting 1) Checking the round sections of fillets i) Confirm that the round sections of fillets are smoothly connected to the shoulders of journals. ii) Using ball gauges for measuring the radii of the fillets, confirm that each radii of the fillets, confirm that each radii is between the minimum and maximum limits. 3.

kk

&tact

point

Contact point

6127F234

THE CRANKSHAFT

Cutting the main journals Cut all the main journals to the same undersize. When cutting the main journals, count in the finishing allowance for grinding 0.007 to 0.008 mm. Undersized of main journal Unit: mm

Minimum radius of fillet: 6.00 mm Maximum radius of fillet: 6.50 mm Size 2) Checking the seized surfaces by etching After cutting the journals, confirm that no parts were seized in the cutting procedure by the etching test. l If any seized part is found, cut the journal another 0.02 mm to apply the next undersize. l After etching the journals, neutralize and wash the checked surface, then apply oil.

l

3) Magnetic flaw detecting l Before using the repaired crankshaft, confirm that there are no cracks on it by magnetic flaw detection. l Check the fillets of journals which are put in the critical area of each web of the crankshaft especially carefully. l After inspecting with a magneticflawdetector, always demagnetize the crankshaft.

Critical area of web of crankshaft

I 6127F235

15042 0

Basic dimension

S.T.D

140.000

0.25 US

139.750

0.50 us

139.500

0.75 us

139.250

1 .oo us

139.000

Allowable error

-00.025

Out of roudness and cylindricality of main journals (T.1.R). surface roughness. Allowable error: 0.010 mm max. Limit: 0.015 mm Surface roughness: 0.8s

8 Z Z


4.

REPAIRING

OF PARTS

Grinding the thrust bearing surface Jc It is not always required to grind the front and rear thrust bearing surfaces to the same undersize. * If the thrust bearing surfaces have been ground, confirm that the end play of the crankshaft is within the allowable range (For details, see DISASSEMBLY AND ASSEMBLY).

5.

Grinding pin journals * Grind all the pin journals to the same undersize. * When grinding, count in finishing allowance for grinding 0.007 to 0.008 mm. .

Undersizes

Undersizes

3asic dimension

Rear thrust

bearing

Basic dimension Limit Basic dimension

surface

64+:.050

0.25 0.S +0.050 64.25 o

64.060

64.310

64.25+;‘050

64.50+;.05’

64.310

64.560

.

6.

Squareness (T.1.R)

Ulowable error

of thrust bearing

S.T.D

108.00

0.25 US

107.75

0.50 us

107.50

0.75 us

107.25

1 .oo us

107.00

mm

1 S.T.D

.

mm

of thrust bearing surfaces Unit:

Limit

of pin journal Unit:

Size

.

THE CRANKSHAFT

surface .

Limit: 0.04 mm

.

0 -0.022

Out of roundness and cylindricality of pin journal (T.I.R), surface roughness Allowable error: 0.010 mm max. Limit: 0.015 mm Surface roughness: 0.8s

Correcting the width of the main journal and pin journal by grinding When correcting the worn surfaces of the main journals and pin journals, limit the grinding thickness to the minimum. Width of crank pin journal If cutting one side only: Standard: 72+i.074 mm Limit: 72.32 mm Width of main journal: 64+g.05 mm Standard: Limit: 64.30 mm Squareness of thrust bearing surface (T.1.R) Limit: 0.04 mm Thickness of friction surface -L Journal

i

Friction surface 1 6 I27F236

15-043 0


7. . .

Correcting the grindstone Dress the grindstone each time one journal is ground. Grindstone dresser Tip angle: 75”? I0 Radius of edge: 0.38 * 0.25 mm At the edge of the dresser, a diamond for industrial use must be embedded.

Adjust the machine for correcting the grindstone, and correct the edge of the grindstone to the radius of the fillet. When checking and correcting the grindstone edge, grind a wood bar for trial and use ball gauges. Preventing seizure caused by grinding 1) Use the plunge grinding method. 2) Use the overall width of the grindstone. Do not grind the bosses if possible. 3) Apply sufficient cooling oil. 4) Set the circumferential speed of the grindstone to 2,000 m/min when the speed of crankshaft is 50 rpm. 9. .

Surface finishing Standard surface roughness 0.8s Journal: 1.6s max. Thrust bearing, fillet: 1-2s Tapered end: Bosses of pin and main journal: 3.2s max. Finishing allowance for grinding: 0.007 to 0.008 mm

15-044 0

REPAIRING

OF PARTS

THE CRANKSHAFT

IO. Treatment after grinding Confirm that each dimension is within specification. . Carefully wash each section and apply oil to it. . When storing the crankshaft for a long time, support it at three points or hang it vertically.

l

11. Balancing (for reference) (Do not perform any repair which will have an adverse effect on the balance of the crank shaft.) . Limit of unbalance: 110 g.cm . Limits for reading the balance correctly Bend of crankshaft: 0.09 mm (T.1.R) Speed of crankshaft: 325 rpm max. . Balance the crankshaft with the crank gear installed or install a weight equivalent to the weight of the gear fixing key to the keyway. . To balance the crankshaft, make a hole on the counter weight with a drill or cut it. Limit of amount of counterweight to be removed: 56 g 6 max. Number of holes: 19 mm or 23 mm Diameter of hole: 50 mm max. Depth of hole: Distance between hole and side face: 3 mm min. Distance among holes: 5 mm min.

8 z z


OF PARTS

REPAIRING

THE CRANKSHAFT

12. Procedure for measuring curvature of crankshaft and outside diameter of journal Method of measurement 1) When measuring the curvature, use No. 1 and No. 7 journals as the datum point, put the dial gauge in contact with the journal and set the dial to 0 at the peak. Then rotate one turn and read the minimum and maximum values.

Example of measuring curvature

F6164144

2)

Measure the outside diameter of the main journal in the XY direction (No. 1 - 2) at 2 places, and the outside diameter of the pin journal in the XY direction (No. 1 - 2) at 2 places with a micrometer or air micrometer.

Locations for measurement

12345

15-045 0


CONNECTING

OF PARTS

CONNECTING

ROD

ROD 1. 2. 3. 4. 5. 6.

Bolt Washer Cap Dowel pin Connecting Bushing

rod

F6164151

Unit: mm Inspection

item

A. Cracks

Judgement

standards

Remedy

Check for cracks with a color check or magnetic

B. Curvature, twisting

,,,I:::~

flaw detector

I D

:,

Replace

Check for curvature or &vising F6164152A

C. Clearance between connecting rod bushing and piston pin

D. Inside diameter of hole at big end of connecting rod

Replace bushing, roughness of inside surface of bushing: Max. 2.4s Inside diameter of hole at big end Without bearing Standard

1

size

Tolerance

I

+0.026 0 Roughness of inside surface of hole at big end: Max. 6.35 Clearance from crankshaft bearing (with bearing) 115

Standard

clearance

0.058 - 0.132

1 I

Clearance

Replace

limit

0.20

Even if each part is within the repair limit, if it is above the clearance limit, replace the part (bearing, etc.) E. Thickness bearing

of

F. Scratches on inside surface of bearing, seizure G. Distance between holes at big end and small end

15046 0

Standard

size

Tolerance

Repair limit

S.T.D

3.500

U.S 0.125

3.625

3.41

0.250

3.725

0.375

3.875

3.79

0.500

4.000

3.90

3.54 -0.029 -0.042

3.66

Check for scratches or seizure

Standard

Replace, replace connecting rod also size

1

Tolerance Replace

305

I

-:.05

8 Z G,


CONNECTING

OF PARTS

ROD

Unit: mm Inspection

item

Judgement

H. Scratches at I shape portion of connecting rod (dents)

standards

Check for scratches direction in area A

I

Remedy

in horizontal

Check for grinder grain in horizontal direction in area A

F6164153 I

I. Fretting of mating surface of cap

Check for fretting

Roughness Contact

J. Scuffing of bolt seat surface

2

K. Deformation dowel pin

T

W

of

of mating

surface

of mating

of mating

surface:

surface:

Scuffing

of cap bolt seat surface

Scuffing

of bolt seat surface

Scuffing

of washer

Replace if fingernail catches in fretting

Max. 6.3 S

Min. 70%

I I

I

surface

Check for deformation

of dowel

pin

Check for deformation

of dowel

pin hole

dents, regardless of size

Correct with oilstone Replace

bolt

Replace washer Replace

I

G L. Damage

to bolt

Check for cracks, damage Check for curvature

+

*

of bolt

to bolt thread

Replace

bolt

If it is impossible to measure all the items in this judgment standard (in particular, the localized wear of big internal circumference) after machining and rebuilding the connecting rod, do not carry out any rebuilding. The reason for this is that it is impossible to confirm the precision after machining and rebuilding the hole at the connecting rod big end. When deciding on whether to reuse or discard the connecting rod, if honing grain can be observed on hole surface at big end, measurement of big end hole surface roughness and wave is unnecessary.

15-047 0


OF PARTS

REPLACING

CRANKSHAFT

GEAR

REPLACING ‘CRANKSHAFT 1. .

Removal of gear Make a scratch in the surface at the root of the teeth with a nrinder, then assemble tools Kl and K2 and turn nut @ to remove the gear. * If the gear cannot be removed in this way, make a scratch in the surface at the root of the teeth with a grinder, then heat the gear with a gas burner and knock the gear out with a copper rod. t Be careful not to damage the crankshaft.

K2 /

6162F813A

2.

Press fitting gear 1) Check the gear mounting surface, key groove, and flange surface, and if there are any scratches, correct them with an oilstone. 2) Knock a new key into the key groove of the shaft. 3) Heat the gear for the specified time at the specified shrink-fitting temperature. * Gear shrink-fitting temperature: 200°C Heating time: Min. 30 minutes 4) Put the timing mark of the gear on the outside, then use a hitting tool to press fit until the side face of the gear is in close contact with the crankshaft flange. * Knock in quickly before the gear becomes cool.

15048 0


REPLACING CAMSHAFT 1.

a

2.

REPLACING

OF PARTS

CAMSHAFT

GEAR

GEAR

Removal of gear Set the camshaft assembly on the press stand, then push the camshaft to remove the gear When setting the camshaft assembly on the press stand, be careful not to get your fingers caught between the press stand and the gear. Press fitting gear 1) Checkthe gear mounting surface, key groove, and flange surface, and if there are any scratches, correct them with an oilstone. 2) Knock a new key into the key groove of the shaft. 3) Assemble the thrust plate. 4) Heat the gear for the specified time at the specified shrink-fitting temperature. * Gear shrink-fitting temperature: 200°C Heating time: Min. 30 minutes 5)

Put the timing mark of the gear on the outside, then use a hitting tool to press fit until the side face of the gear is in close contact with the camshaft flange. Knock in quickly before the gear becomes * cool.

15049 0


OF PARTS

REPLACING FLYWHEEL RING GEAR Be careful not to let the flywheel you.

g

fall and injure

1. .

Removal of gear Make a scratch in the surface at the root of the gear teeth with a grinder, then split with a chisel to remove.

a

Be careful when handling the grinder and chisel.

2.

Press fitting gear 1) Check the gear mounting surface, and if there are any scratches, correct them with an oilstone. 3 Heat the gear for the specified time at the specified shrink-fitting temperature. sr Gear shrink-fitting temperature: Max. 200°C Heating time: Min. 50 minutes 3) Set the chamfered face of the gear facing the flywheel, and press fit until the side face of the gear is in close contact with the flywheel.

15-050 0

REPLACING

FLYWHEEL RING GEAR

Komatsu America international Company 440 North Fairwav Drive I Vernon Hills, IL 66061-8112 U.S.A. Attn: Technical Publications Fax No. (847) 970-4186

PROPOSAL

1

FOR MANUAL

REVlslON

FOR INTERNAL USE ONLY -- No. PMR 2

NAME OF COMPANY:

:

PHONE NO:

: S

DEPARTMENT:

E R

NAME:

MANUAL NAME: MANUAL NO: MACHINE MODEL: S/N IF APPLICABLE: PAGE NO:

PROBLEM:

Attach photo or sketch. If more space is needed, use another sheet.

1 FOR INTERNAL USE ONLY CORRECTIVE ACTION:

PFMRl 081696

LOCATION:

DATE:

SA6D170E-1

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