SKK Gearmotor MFG500 Series A Series cataloq

SKK Gearmotor MFG500 Series A Series

A Series SKK-Gearmotor MFG500/A Series

Page

A Common

A 1 - 10

Features

A2

Product Range of Reducer

A4

Product Range of Motor

A8

B Gearmotor

B 1 - 62

1. How to Select

B3

2. Selection Tables

B 13

3. Dimension Sheets

B 29

C Reducer

C 1 - 26

1. How to Select

C3

2. Selection Tables

C 11

3. Dimension Sheets

C 15

D Options/Applications

D1-4

E Technical Data

E 1 - 22

1. Reducer

E3

2. Motor

E7

Warranty Standard

1

Warning

2

A1 A1

MFG500 Series

now includes the SKK Gearmotor which meets various needs with wide variations

MFG500 Series

The best-se best-sellin llingg model mo del that softly sof tly and quietly opera operates tes with a small and and light li ght body bo dy.. Ad A d v an antt ag age e Small and light

: Lean and comp compact act with ideal stren strength gth balan balance. ce. Easy to use with small footprint.

Soft and quiet : The gear specification that reduces gear intermeshing noise and the rational operating noise structure of the gear case attain the noiseless and smooth operating sound.

Scope of Model Modell Mode

: Gearm Gearmotor otor,, redu reducer cer (soli (solid d shaf shaftt and hollo hollow w shaft types types))

Reduction ratio : 5-200

A2 A2

Motor type

: 3-phase, single-phase

Moto torr ca capacity

: 0.1 kW kW, 0. 0.2 kW kW

A Series

Two series provide the optimal model for various applications.

A Series

High igh-pe -perfo rformance rmance gea gearmo rmotor tor min minimi imizzes the th e irr irreegularit gularityy of the th e reducti reduction on part case with fine fi ne shape. shape. Ad v an antt ag age e Smallll and Sma and light light

: Max Maxima imally lly comp compact act by by thorou thoroughl ghly y study studying ing the the stren strength gth bala balance nce..

Low noise and low vibration

: Extremely low noise and vibration by adopting low-noise design and new processing technology.

Three Thr ee cla class sses es

: Three Three cla classe sses s for for lig light ht loa load d (Cla (Class ss G), sta standa ndard rd loa load d (Cla (Class ss L), and heavy load (Class S) are provided for various applications.

Scope of Model Model

Gearmotor,, reducer (solid shaft and hollow shaft types) : Gearmotor

Reduction ratio : 5-1000 Motor ty type

: 3-phase, single-phase (0.1 kW - 0.75 kW)

Moto torr ca capacity

: 0.1 kW kW - 11 11 kW

A3 A3

MFG500 Series, A Series

Product Range

P art of Gear

Gearmotor

3-phase Motor MFG500 Series Stages of Reduction A Series Stages of Reduction Nominal Reduction Ratio 50Hz Output Speed 60Hz [r/min] 0.1 kW L 0.2 kW L G 0.4 kW L S G M o 0.75 kW L t o r S C a G p a 1.5 kW L c i t y S / C l G a s s 2.2 kW L S L 3.7 kW S 5.5 kW S 7.5 kW S 11 kW S

A

Products

2

3

2 5 290 350

10 145 175

15 96.7 117

20 72.5 87.5

25 58 70

30 48.3 58.3

45 32.2 38.9

50 29 35

3 60 24.2 29.2

518D 518D

522D

R A B T B C U C D V D E E F

75 19.3 23.3 522T

100 14.5 17.5

522T

A

S B C

C D

C D

D E

D E

E F

B

V

D

F G H

E F F G H K

G H K

F G G H K

Single-phase Motor MFG500 Series Stages of Reduction A Series Stages S tages of Reduction Reduction Nominal Reduction Ratio Output Speed 50Hz [r/min] 60Hz M o t o r C a p a c i t y / C l a s s

2

3

2 5 290 350

10 145 175

15 96.7 117

20 72.5 87.5

25 58 70

30 48.3 58.3

45 32.2 38.9

50 29 35

3 60 24.2 29.2

518D

75 19.3 23.3

100 14.5 17.5

0.1 kW

L

522T

0.2 kW

L

0.4 kW

L

A

B

C

0.75 kW

L

B

C

D

518D

522D

522T

3-phase Motor for Inverter Stages of Reduction Nominal Reduction Ratio Output Speed 60Hz [r/min] L 0.2 kW S L M 0.4 kW o S t o r L C 0.75 kW a S p a L c i 1.5 kW t y S / C l L a 2.2 kW s s S 3.7 kW S 5.5 kW S 7.5 kW S

A4

5

10

15

2 20

25

30

45

50

3 60

75

100

350

175

117

87.5

70

58.3

38.9

35

29.2

23.3

17.5

A B B C C D D E E F F G H

B C C D D E

G H K

E F F G H K

C D D E E F F G G H K


P ar artt of of Gear 3 3 150 9.67 11.7 522T C

130 11.2 13.5

Gearmotor

Product Range

4 200 7.25 8.75

240 6.04 7.29

300 4.83 5.83

360 4.03 4.86

450 3.22 3.89

540 2.69 3.24

C D

C D

D

D E

E

F G

G H

E

F

F

650 2.23 2.69 D E

800 1.81 2.19

G

G

H

1000 1.45 1.75 E F

A

Products

H

K

K

G H

K

K

3 3 150 9.67 11.7

130 11.2 13.5

4 200 7.25 8.75

240 6.04 7.29

300 4.83 5.83

360 4.03 4.86

450 3.22 3.89

540 2.69 3.24

650 2.23 2.69

800 1.81 2.19

1000 1.45 1.75

522T

C

D

E

C

D

E

F

C

D

D

E

130

3 150

200

240

300

360

450

540

650

800

1000

13.5

11.7

8.75

7.29

5.83

4.86

3.89

3.24

2.69

2.19

1.75

C D D E F G G H

4

D E

F

G

H

E F

G

G H

H

K

K K

K

A5


Product Range

P art of Gear

Reducer

Both-end Shaft Type A

Products

MFG500 Series Stages of Reduction A Series Stages S tages of Reduction Reduction Nominal Reduction Ratio Output Speed 50Hz [r/min] 60Hz 0.1 kW L equivalent 0.1 kW L equivalent L 0.4 kW E equivalent S q u i v L 0.75 kW a l e equivalent S n t I n L 1.5 kW p u equivalent t S C a L 2.2 kW p a c equivalent S i t y / C L 3.7 kW l a s equivalent S s 5.5 kW S equivalent 7.5 kW S equivalent 11 kW S equivalent

A6

2

3

2 5 290 350

10 145 175

15 96.7 117

20 72.5 87.5

25 58 70

30 48.3 58.3

45 32.2 38.9

3 60 24.2 29.2

50 29 35

518D

75 19.3 23.3

100 14.5 17.5

522T

518D

522T

A

B

C

B

C

D

C

D

E E

D

E

F

E

F G

G H K

F

G

H

G

H

K

H

K


P art of Gear

3 3 150 9.67 11.7

130 11.2 13.5

A

4 200 7.25 8.75

240 6.04 7.29

300 4.83 5.83

360 4.03 4.86

450 3.22 3.89

540 2.69 3.24

650 2.23 2.69

800 1.81 2.19

1000 1.45 1.75

522T

C

D

E

C

D

E

F

G

H

C

D

D E F

E

E

G H

Product Range

Reducer

F

F G

G H

H

K

Products

K K

K

A7


Product Range Symbols A

Products

    -

Part of Motor

Standard specifications Optional items As a band voltage motor. motor. Refer R efer to "D: Options" for band voltage motors. motors. Consult us. No suppor s upports. ts.

3-phase Motor Indoor Type (IP44) Without Brake

Specifications

200 V Class Capacity 0.1 kW × 4P 4P 0.2 kW × 4P 4P 0.4 kW × 4P 4P 0.75 kW × 4P 4P 1.5 kW × 4P 4P 2.2 kW × 4P 4P 3.7 kW × 4P 4P 5.5 kW × 4P 4P 7.5 kW × 4P 4P 11 kW × 4P 4P

TOSH TOSHIB IBA A

SUMI SUMITOMO T OMO

         -

         

400 V Class TOSH TOSHIB IBA A

With Brakes 200 V Class 400 V Class SAV S BV FB SAV SBV FB

SUMI SUMITOMO T OMO

B  B  B  B  B  B  B  B  B  

TOSH TOSHIB IBA A

         -

     -

Therm Thermal al Class Class E

B

F

H

SUMIT SUMITOM OMO O

TOSH TOSHIB IBA A

SUMIT SUMITOM OMO O

TOS TOSHI HIBA BA

SUMI SUMITOMO T OMO

TOSH TOSHIB IBA A

SUM SUMIT ITOM OMO O

TOS TOSHI HIBA BA

SUMI SUMITOMO T OMO

TOSH TOSHIB IBA A


         

         -

         

         -

   -

         

         

         

         

         

         

Outdoor Type (IP44) Without Brake

Specifications

200 V Class Capacity 0.1 kW × 4P 4P 0.2 kW × 4P 4P 0.4 kW × 4P 4P 0.75 kW × 4P 4P 1.5 kW × 4P 4P 2.2 kW × 4P 4P 3.7 kW × 4P 4P 5.5 kW × 4P 4P 7.5 kW × 4P 4P 11 kW × 4P 4P

TOSH TOSHIB IBA A

SUMI SUMITOMO T OMO

         -

         

400 V Class TOSH TOSHIB IBA A

SUMI SUMITOMO T OMO

B  B  B  B  B  B  B  B  B  

With Brakes 200 V Class 400 V Class SAV S BV FB SAV S BV FB TOSH TOSHIB IBA A

         -

     -

Without Brake 200 V Class

Capacity 0.4 kW × 4P 4P 0.75 kW × 4P 4P 1.5 kW × 4P 4P 2.2 kW × 4P 4P 3.7 kW × 4P 4P 5.5 kW × 4P 4P 7.5 kW × 4P 4P 11 kW × 4P 4P

H

TOS TOSHI HIBA BA

SUMI SUMITOMO T OMO

TOSH TOSHIB IBA A


TOS TOSHI HIBA BA

SUMI SUMITOMO T OMO

TOSH TOSHIB IBA A


         

         -

         

         -

   -

         

         

         

         

         

         

E

B

F

SUMITOMO TOMO

TOSHIBA TOSHIBA

SUMITOMO SUMITOMO

TOSHIBA TOSHIBA

SUMITOMO SUMITOMO

TOSHIBA TOSHIBA

SUMITOMO SUMITOMO

TOSHIBA BA

SUMITOMO SUMITOMO

       -

       

       -

       

       -

-

       -

       

       -

       

Note that we support flame proof and 2nd class rustproof motors. Consult us for details.

A8

F

SUMIT SUMITOM OMO O

TOSHIBA TOSHIBA

     TOSHIBA: TOS HIBA: TOSHIBA TOS HIBA Motor Motor SUMITOMO: SUMI TOMO: SUMITOMO SUMITO MO Motor Motor

B

TOSH TOSHIB IBA A

Thermal C lass

400 V Class

E

SUMIT SUMITOM OMO O

Safety Enhanced Explosion-proof (eG3)

Specifications

Therm Thermal al Class Class


Product Range

Part of Motor Symbols

   -

Standard Specifications Optional items Consult us. No suppor s upports. ts.

A

Products Single-phase Motor Indoor Type (IP22) Without Brake

Specifications

100 V Class Capacity 0.1 kW × 4P 4P 0.2 kW × 4P 4P 0.4 kW × 4P 4P 0.75 kW × 4P 4P

200 V Class

With Brakes 100 V Cla Class 200 V Cla Class SAVS S AVS


B

F

TOS HI HIBA

S UM UMITOMO

TOS HI HIBA

S UM UMITOMO

TOS HI HIBA

TOS HI HIBA

TOS HI HIBA

TO TO SH SHIBA

TO TOS HI HIBA

   

-

-

-

   

   

   

   

   

 

3-phase Motor for Inverter Indoor Type (IP44) Without Brake

Specifications

200 V Cla Class Capacity 0.2 kW × 4P 4P 0.4 kW × 4P 4P 0.75 kW × 4P 4P 1.5 kW × 4P 4P 2.2 kW × 4P 4P 3.7 kW × 4P 4P 5.5 kW × 4P 4P 7.5 kW × 4P 4P

400 V Cla Class

With Brakes 200 V Cla Class 400 V Cla Class FB FB

TOSH TOSHIB IBA A

SUMI SUMITOMO T OMO

TOSH TOSHIB IBA A

SUMI SUMITOMO T OMO

SUMI SUMITOMO T OMO

SUMIT SUMITOM OMO O

-

       

-

       

       

       


B

F

H

SUMI SUMITOMO T OMO SUMIT SUMITOM OMO O SUMIT SUMITOM OMO O SUMI SUMITOMO T OMO



-

       

       

       

Outdoor Type (IP44) Without Brake

Specifications

200 V Cla Class Capacity 0.2 kW × 4P 4P 0.4 kW × 4P 4P 0.75 kW × 4P 4P 1.5 kW × 4P 4P 2.2 kW × 4P 4P 3.7 kW × 4P 4P 5.5 kW × 4P 4P 7.5 kW × 4P 4P

400 V Cla Class

With Brakes 200 V Cla Class 400 V Cla Class FB FB

TOSH TOSHIB IBA A

SUMI SUMITOMO T OMO

TOSH TOSHIB IBA A

SUMI SUMITOMO T OMO

SUMI SUMITOMO T OMO

SUMIT SUMITOM OMO O

-

       

-

       

       

       


B

F

H

SUMI SUMITOMO T OMO SUMIT SUMITOM OMO O SUMIT SUMITOM OMO O SUMI SUMITOMO T OMO



-

       

       

       

Note that we support flame proof and 2nd class rustproof motors for 3-phase motors for inverter. Consult us for details.

     TOSHIBA: TOS HIBA: TOSHIBA TOS HIBA Motor Motor SUMITOMO: SUMI TOMO: SUMITOMO SUMITO MO Motor Motor A9


M E M O

A

Products

A10

A Series

B

 B

GearGearMotor Motor

How to Select

Gearmotor Page

1. How to S elect 2. Selection Tables 3. Dimension S heets

B3 B13 B29

B1

MFG500 Series

M E M O

 B

GearGearMotor Motor

How to Select

B2

A Series

B GearMotor How to Select

B Gearmotor 1. How to Select Page

Variations and Types Selection Method Selection Example   

B4 B6 B8 

B3

MFG500 Series

Variations and Types MFG500 Series Variations Mounting Style

Series Nam N amee

   

Class

Standard (without brake)

With 3-phase Motor With Brakes

Foot-mounted

Solid Input Shaft Reducer

B GearMotor

Outdoor



MFG, MFGV

How to Select

Band Voltage MFG Type

MFG500 Series

With Single-phase Motor

Class L Flange-mounted

(standard)

MFGC, MFGVC


Hollow Input Shaft Reducer

With Brakes



Without Motor

MFGS, MFGVS

With Motor

MFGV Type

 Refer to Chapter C Reducer.

MFGM, MFGVM

MFG500 Series Type Symbols MF G MF G

V

B

Series Name Mounting Style Foot-mount Foot-mounted ed .......... ..... .....blank blank Flange-mounted.............V

Variations With With 3-pha 3- phase se Motor Motor.............. .................blank ...blank With With 3-pha 3- phase se Brake Brake Motor............. B With With Single-phase Single-phase Motor Motor.............. ...............S .S With Single-phase Brake Brake Motor... Motor... SB Solid Input Shaft Reducer............. Reducer..............C .C Hollow Inpu Inputt Shaft Reducer..... Reducer.......... ..... M  

Special....................Z Frame Size Reduction Stages

Doubl Double e ............. .............D D Tri Trip ple..... le........ ...... ...... ..... .. T

B4

518

D



30R

S

0.1



4

522

T



60R

S

0.2



4

Reduction Ratio 1/60....60R 1/30....30R Motor Manufacturer

TOSHI TOSHIBA.. BA.... .... .... .... .... .... .... .... .... S Without Without Motor.... Motor .... blank blank Motor Capacity 0.1kW.....................0.1 0.2kW 0.2kW ....................0 ....................0.2 .2 Motor Poles 4 Poles....... P oles..............4 .......4  

Outdoo Outdoor............... r....................... ........ W Brake Brake Typ Type............. e.................. ..... SBV, SAV, SAVS Band Voltage Voltage Motor.. Motor..... ...B B Differe Different nt Voltage.... Voltage......... ..... V Special............. Special........................ ...........Z Z

W

A Series

Variations and Types A Series Variations Mounting Mountin g Style S tyle

Series Name

   

Class


With 3-phase Motor With Brakes

Foot-mounted Solid Input Shaft Reducer

Class G



AT, AVT Type

(light load)

Outdoor Band Voltage

With Single-phase Motor

A Type

A Series

Class L

AC, AVC Type Type

(standard)

Flange-mounted

(reinforced)

GearMotor How to Select


With Brakes

Hollow Input Shaft Reducer 

Class S

B

Without Motor

AS, AVS Type Type

With Motor

AV Type AM, AVM Type

 Refer to Chapter C Reducer.

A Series Type Symbols Model

Reducer F rame Size

ATB

A Gear Spec

20

L

Motor S pecifications 

Reduction Ratio

Motor Capacity 0.4kW : 0.4 5.5kW : 5.5

1/20 : 20 1/60 : 60

Special : Z

0.4

S

W

S AV

Motor Spec Indoor : blan blankk For Inv Invert erter : I (H) (H) Outdoor : W Incre Increase ased d Safet Safety: y: X Band Voltage: B Fla Flame Pro Proof :T Different Voltage : V Special :Z

Frame Size (output shaft diameter)               

           

C l a s s Ligh Light Loa Load d: G Sta Standard : L Reinfor Reinforced ced : S

F oot-mounted With 3-phase Motor With 3-phase Brake Motor With Single-phase Motor With Single-phase Brake Motor

Motor Manufacturer

TO TOSHI SHIBA : S SUMIT SUMITOM OMO O : Su

Brake Spec Without houtBrak Brake SAV Brake SBV Brake SAV SAVS Brake FB Brake

: blan blank : SAV : SBV : SA SAVS : FB

F lange-mounted AT ATB AS ASB

With 3-phase Motor With 3-phase Brake Motor With S ingle-phase Motor With Single-phase Brake Motor

AVT AVTB AVS AVSB

A Series Classes                        

Light load (G) : Class Class for light load usage such as uniform uniform load and light radial load. Standard (L) : Uniform load. Note that that Class S is standard for models models with the high reduction reduction ratio or the output output 5.5 5.5 kW or higher. higher. Reinforced (S) : The overhang load and output shaft torque are reinforced. Note: This classification class ification is just for a g guide. uide. Check the selection tables tables on page B14 to B27 for for model model selection. B5


Gearmotor Selection Method             

 

Selection rocedure    

GearMotor ow to Select

                             

           r min  0 ) or 

 eduction atio  1 0  30 r min )

           E             

     

TE  T

         TE    m         TE    m         

                        Conditional 

   E    

         

    

                                 niform load

  

   

   

   

100

100

5 1 5

100

5 1 5

150

             

                                              1) Calculate the moment of inertia of load ) 5-1) ssume the followin moment of inertia of load ) ) Calculate the load inertia moment at motor shaft )   1 m 

 

1 

  

3) Calculate the moment of inertia at motor shaft) M) for the

earmotor with the out ut determined in ste  3, ased on ae E 

B6

5-) eduction ratio  1  130

 1   30  -3   13 × 10 m utut  05  5-3) TS  3-hase earmotor   M  000m  

M G500 G500 Serie Series, s,

Serie Series s

Gearmotor Selection Method Model Selection  

Selection rocedure         M

        -3  13 × 10 M    0 -3 M  × 10

 M

                              1  

           M                          1   


Tale 3 Ser ice actor ased on nertia Moment atio and Startu  reuenc sf 1)         

  our

                    

M  05

05  M  10

0 10  M   0

 0 0  M  30

M  0

0  M  05

05  M  0

0  M  10

100 101 101 103 10 110 113

101 10 10 11 1 1 1 1 135

105 11 1 3 3 13 5 1 5 15 1 

110 1 135 1 5 5 1 0 3 1 3 1 1 1

100 101 101 10 105 10 111

101 105 10 113 1 130 13

10 10 115 1 13 1 150

10 11 1 135 1 1 0 1 

1 time 5 times 10 times   50 times 100 times 150 times

                   

                                        Conditional exression

TE × sf × sf 1  T

×

sf G

     G     G                                  

   TE sf sf1      3  m        x sf G    m Since TE x sf sf1  T sf G is met, then                                                                sf G          TE T TG  sf 1

 Checin erhan oad  ) f  ou use a s rocet, ear, and elt with the in utoutut shaft, ma e sure that the o erhan load actin  on the shaft does not exceed the allowale o erhan load of the used earmotor  refer to the selection ta les on ae 1 to 0 )  oweer, it is not re uired if the inutoutut shaft is cou led with a coulin   

000 × TE × sf × sf 1 

×

Cf f

 itch circle diameter of srocet, ulle, etc mm Cf  riin method factor refer to Ta le ) f  oad osition factor refer to Tale 5)       Sin Sinle  le ow ow ou oule  le ow ow Chain Chain

100

1 5 5

Gear 1 5 5

elt

Lo L

                                                   000 × TE × sf × sf 1 Cf ×      f

150

      03o

05o

o 0o

0 o

110

100

0 3 3

0 0 0



000 ×  × 15 × 113 10

×

100 03

                    

                        


Seri Series es

   


V=16m/min

lication moderate shoc  load) P.C.D230 Coneor  230 5 kg/piece Coneance Seed  1 mmin Coneed Mass m  00 ut Time  hoursda   StartSto reuenc  50 times hour riction actor 015 assumed Chain Coneance Efficienc 0 5 assumed ower Source 3-hase 00 50  The s rocets are attached to the center of the shafts The load inertia moments of chain  ) and s rocets  , ) and miscellaneous conditions are not included in the calculation 

m=900kg

  P.C.D160 160

5kg 5kg

  P.C.D120 120

1 eterminin eduction atio 1 × 1000  1r min 30 ×

euired coneor shaft s eed 1 

Srocet  ) 1 0  1 ×   5r min Srocet  ) 10  rom the selection ta les on ae 1 to 0) for the outut shaft seed close to  5 r min, ou can otain the reduction ratio 150 30 r min) Gearmotor out ut shaft s eed   1×

 Calculatin oad Tor ue 30  × 1000

euired coneor shaft tor ue T1  00×015×

10 1 0

oad tor ue at earmotor out ut shaft  TE  1 0×

1 0 5

×

1 0 5

×

×

  1 0m

 1 5m

3 Calculatin utut  rom the selection ta les on ae 1 to 0), ou can o tain the out ut 05  that meets the out ut shaft tor ue 1 5 m with the reduction ratio 1 50

 eterminin Ser ice actor Ser ice factor ased on load condition and dut  time sf  15 moderate shoc  load,  hoursda, from Tale 1 on ae

)

5 Considerin Moment of nertia of oad ) and Startu reuenc oad inertia moment of con eor   

55





oad inertia moment at motor shaft    10× -



10 1 0

30 1000



    1   50 

 00  5

×

×

×

×

1



 10m -





  × 10 m



Moment of inertia of earmotor  M  ×10 m outut 05 , 3-hase earmotor, from ae E ) -   × 10 oad inertia moment ratio  M    0 M  × 10  ith the chain con eance, startu  freuenc 50 times hour, and load inertia moment ratio  M  0 and from the ser ice factor tales Tale 3 on ae ), the ser ice factor ased on inertia moment ratio and startu  freuenc  sf 1  1

 Selectin rame Sie euired reduction art strenth TE×sf ×sf 1  1 5×15×1  3m  rom the selection ta les  on ae 1 to 0), the frame si e that meets the reduction art strenth 3  m with the reduction ratio 150 is n the case of class  T ×sf G  5×100  5  3 n the case of class S  T ×sf G  1×11  50  3 and then the reducer frame si e is 50S

 Checin erhan oad    ) 000 × TE × sf × sf 1

000 × 1 5 × 15 × 1 100 ×  3 00  f 10 100 There is no rolems since the allowa le oerhan load of the reducer frame si e 50S selected in ste  selection tales on ae 1 to 0)    

×

Cf



 eterminin Model when usin TS  n conclusion, T50S-05S is determined as the model of earmotor 

motor)

is 5100  from the


Serie Series s

   



Seri Series es

    Motor 

GearMotor ow to Select             

S i n  l e  h a s e M o t o r s

3   h C a o s n e s t n a  n  t e T r e o t r r  u M e o ) t o r s

                      Motor       Manufacturer      01  - 5   0  - 11   01  - 5   01  - 15   0  - 11                             rotection           Method                 Enclosure                                                          ower          Source class              Class E     Class E Thermal                               Class          Continuous Continuous Continuous Continuous Continuous                                                     Method                                                                         connection method    connection method connection method                                            method method                 Standards Motor                            Manufacturer                        rotection                            Method            Enclosure                          ower                        Source         Thermal     Class   Continuous Continuous                                         Method                                      Standards   Motor               Manufacturer          rotection       Method Enclosure ower              Source   Thermal Class                            Standards  


Serie Series s

   Gear                                   Method                    

Miscellaneous                                                     elow 1,000 meters                                                      



   


Seri Series es

A Series

B GearMotor Selection Tabl Ta bles es

B Gearmotor 2. Selection Tables Page

3-phase/Sin Single-phase Motors 0.1kW0.2kW 0.4kW 0.75kW 1.5kW 2.2kW 3.7kW5.5kW 7.5kW11kW Motor for Inverter 0.2kW 0.4kW 0.75kW 1.5kW 2.2kW3.7kW 5.5kW7.5kW

B14 B14 B14 B15 B16 B17 B18 B19 B20 B22 B22 B23 B24 B25 B26 B27

B13

A Series

0.1 kW, 0.2 kW Gearmotor Selection Tables Frequency P oles Motor Speed

0.1 kW R e d u c t i o n R a t i o

B GearMotor Selection Tab T able less

5 10 15 20 25 30 45 50 60 75 100 130 150 200 240 300 360 450 540 650 800 1000

(

50Hz 60Hz

Unit

Frame Size  518D  518D  518D  518D  518D  518D  518D  518D  522T  522T  522T  522T  522T  522T  C240L  C300L  C360L  C450L  D540L  D650L  D800L  E 1000L

Output Shaft Speed [r/min]

(

-



5R  0.1 10R  0.1 15R  0.1 20R  0.1 25R  0.1 30R  0.1 45R  0.1 50R  0.1 60R  0.1 75R  0.1 100R  0.1 130R  0.1 150R  0.1 200R  0.1 0.1    0.1    0.1    0.1    0.1    0.1    0.1    0.1   

Frequency P oles Motor S peed

Hz P r/min

             

4 4 4 4 4 4 4 4 4 4 4 4 4 4

             

R S e t d a u g c e t i s o n

2

3

4

4 4

C l a s s

L L L L L L L L L L L L L L L L L L L L L L

50 4 1500

Nomenclature  : Refer to footnote 1. 1. Nomenclat enclatur ure e Detail Detail

60 4 1800

)

Nomenclature Nomenclature Detail : R efer to page page B4 and and B5


50 4 1500

Nomenclature  : Refer to footn footnote ote 1. 1.


300 360 MF G 150 180 MF G 100 120 MF G 75 90 MF G 60 72 MF G 50 60 MF G 33 40 MF G 30 36 MF G 25 30 MF G 20 24 MF G 15 18 MF G 12 14 MF G 10 12 MF G 7.5 9.0 MF G 6.3 7.5  5.0 6.0  4.2 5.0  3.3 4.0  2.8 3.3  2.3 2.8  1.9 2.3  1.5 1.8 

Hz P r/min

: Refer to to page page B4 andB5

R e d u c A t c i t o u n a R l a t i o

)

C l a s s

Output Shaft Allowable Torq Torque ue Tout Tout [Nm]


3-P hase with Brakes Brakes S AV S BV FB

SF G

Singlephase

2.35 4.90 7.16 9.40 12.7 14.7 21.6 24.5 28.4 36.3 48.1 63.7 74.5 81.4 118 163 175 213 259 317 378 470

3-phase


1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 .00 1.00 .00 * 1.00 .00 1.00 .00 1.00 .00 * 1.00 .00 1.00 .00 * 1.00

1.20 1.20 1.20 1. 1.20 1. 1.20 1. 1.20 1. 1.20 1. 1.20 1. 1.20 1. 1.20 1. 1.20 1.2 1.20 0 1.2 1.20 0 * 1.20 .20 1.20 .20 1.20 .20 1.00 1.20 .20 1.20 .20 1.00 1.20

353 686 10 1080 14 1470 15 1520 15 1570 16 1670 16 1670 17 1770 17 1770 17 1770 17 1770 17 1770 1770 3970 3970 3970 3970 5100 5100 5100 7350


SF G

Single-Phase with Brakes

Output Shaft Dimension Sheet Page Allowable Radial Load FootFlangePro [N] Mounted Mounted

50Hz 60Hz 50Hz 60Hz 50Hz 60Hz

4.865 2.84 10.096 5.98 14.643 8.73 19.412 11 11.8 25.714 15 15.7 30.000 17 17.7 44.318 26 26.5 49.500 29 29.4 58.842 35 35.3 74.450 44 44.1 98.828 58 58.8 129.56 .567 76 76.5 143.22 .229 90 90.2 198.545 99.0 244.60 .608 14 142 308.15 .150 17 178 363.206 21 211 443.005 216 539.547 31 313 660.020 38 382 786.407 393 977.772 56 567 60 4 1800


3-phase

294 588 883 1230 1370 1470 1670 1670 1770 1770 1770 1770 1770 1770 3970 3970 3970 3970 5100 5100 5100 7350

3-phase

SingleSingle3-phase phase phas

B30 B42 B48 B58 B30 B42 B48 B58 B30 B42 B48 B58 B30 B30 B42 B48 B58 B30 B30 B42 B48 B58 B30 B30 B42 B48 B58 B30 B30 B42 B42 B48 B58 B58 B30 B42 B42 B48 B58 B58 B30 B42 B42 B48 B58 B58 B30 B30 B42 B48 B58 B30 B30 B42 B48 B58 B30 B30 B42 B42 B48 B48 B58 B58 B30 B30 B42 B42 B48 B48 B58 B58 B30 B4 B 42 B4 B 48 B5 B58 B32 B32 B44 B44 B50 B50 B60 B60 B32 B32 B44 B44 B50 B50 B60 B60 B32 B32 B44 B44 B50 B50 B60 B60 B32 B44 B50 B60 B33 B33 B44 B44 B51 B51 B60 B60 B33 B33 B44 B44 B51 B51 B60 B60 B33 B44 B51 B60 B34 B45 B52 B61

Singlephase



Frame SingleSingle  50Hz 60Hz 50Hz 60Hz 50Hz 60Hz 3-phase phase 3-phase phas Size 5 300 360 MF G  518D 5R  0.2 - 4   L 4.980 5.88 4.81 1.00 1.20 353 294 B30 B42 B48 B58 10 150 180 MF G  518D - 10R  0.2 - 4   L 10.045 11.8 9.7 1.00 1.20 686 588 B30 B42 B48 B58 15 100 120 MF G  518D - 15R  0.2 - 4   2 L 14.667 17.7 13.7 1.00 1.20 10 1080 883 B30 B42 B48 B58 20 75 90 MF G  518D - 20R  0.2 - 4   L 19.429 22 22.6 18.6 1.00 1. 1.20 14 1470 1230 B30 B30 B42 B48 B58 25 60 72 MF G  518D - 25R  0.2 - 4   L 25.242 30 30.4 24.5 1.00 1. 1.20 15 1520 1370 B30 B30 B42 B48 B58 30 50 60 MF G  522D - 30R  0.2 - 4   2 L 28.848 34.3 28.4 1.00 1.20 1670 1620 B30 B42 B48 B58 45 33 40 MF G  522T - 45R  0.2 - 4   L 44.458 53 53.0 43.1 1.00 1. 1.20 17 1770 1770 B30 B30 B42 B48 B58 50 30 36 MF G  522T - 50R  0.2 - 4   L 48.020 56 56.9 47.1 1.00 1. 1.20 17 1770 1770 B30 B30 B42 B48 B58 60 25 30 MF G  522T - 60R  0.2 - 4   3 L 56.478 68 68.6 56.9 1.00 1. 1.20 17 1770 1770 B30 B30 B42 B48 B58 75 20 24 MF G  522T - 75R  0.2 - 4   L 74.044 90 90.2 74.5 1.00 1. 1.20 17 1770 1770 B30 B30 B42 B48 B58 100 15 18 MF G  522T - 100R  0.2 - 4   L 97.895 95.1 78.5 * * 1770 1770 B30 B4 B42 B4 B48 B5 B58 130 12 14   C130L 0.2    L 132.00 .000 15 157 129 1.00 .00 1.20 .20 3970 3970 B32 B32 B44 B44 B50 B50 B60 B60 150 10 12   C150L 0.2    3 L 159.92 .923 18 189 157 1.00 .00 1.20 .20 3970 3970 B32 B32 B44 B44 B50 B50 B60 B60 200 7.5 9.0   C200L 0.2    L 196.000 229 192 * 1.00 3970 3970 B32 B44 B50 B60 240 6.3 7.5   D240L 0.2    L 240.441 27 279 231 1.00 .00 1.20 .20 5100 5100 B33 B33 B44 B44 B51 B51 B60 B60 300 5.0 6.0   D300L 0.2    L 312.36 .368 36 362 300 1.00 .00 1.20 .20 5100 5100 B33 B33 B44 B44 B51 B51 B60 B60 4 360 4.2 5.0   D360L 0.2    L 340.282 372 327 * 1.00 5100 5100 B33 B44 B51 B60 450 3.3 4.0   D450L 0.2    L 436.545 408 400 * * 5100 5100 B33 B4 B44 B5 B51 B6 B60 540 2.8 3.3   E 540L 0.2    L 558.747 604 536 * 1.00 7350 7350 B34 B45 B52 B61 650 2.3 2.8   E 650L 0.2    4 L 656.772 606 606 * * 7350 7350 B34 B4 B45 B5 B52 B6 B61 800 1.9 2.3   E 800L 0.2    L 796.884 606 606 * * 7350 7350 B34 B4 B45 B5 B52 B6 B61 1000 1.5 1.8   F 1000L 0.2    4 L 985.819 961 947 * 1.00 11600 11 11600 B35 B45 B53 B6 B 61 Note: Note: 1.  ,  ,  , and  in the Nomenclature column should be replaced with the following specification items: Refer to page B4 and B5 for more details on the nomenclature of main unit. type,  : Motor Manufacturer, Manufacturer,  : Motor M otor Specification, Spec ification,  : With or without brake  : Gearmotor type, 2. When * is indicated in SFG column, the full capacity load [kW] of the motor motor will be an overload. P lease use it within the the value in the Outp O utput ut Shaft Allowable Torque column. column. 3. Motor speed represents a typical value. Refer to Technical Data E8 for more details. 4. Output shaft allowable radial load represents a value for the output shaft center. 5. For inverter driving in the frequency range of 6 to 60 Hz, select an appropriate model based on the allowable torque for 60 Hz. Also refer 50Hz 60Hz

Unit

to B22 to 27 for combinations of the motor for inverter.

B14

A Series

Gearmotor Selection Table 0.4 kW Frequency P oles Motor S peed

0.4kW R e d u c t i o n R a t i o

5

Output Shaft Speed [r/min] 50Hz 60Hz 300 360

10

150 180

15

100 120

20

75

90

25

60

72

30

50

60

45

33

40

50

30

36

60

25

30

75

20

24

100

15

18

130

12

14

150

10

12

200 7.5

9.0

240 300 360 450 540 650 800 1000

7.5 6.0 5.0 4.0 3.3 2.8 2.3 1.8

6.3 5.0 4.2 3.3 2.8 2.3 1.9 1.5

(

50 4 1500

Nomenclature  : Refer to footnote 1. 1.

Unit A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A

Hz P r/min

                                            

Nomencl Nomenclatu ature re Detai Detaill

Frame Size R 5G A5L B5S R10G A10L B10S R15G A15L B15S R 20G A20L B20S A25G B25L C25S A30G B30L C30S S45G B45L C45S S 50G B50L C50S S60G B60L C60S B75L C75S C100L D100S C130L D130S C150L D150S D200L E 200S E 240S E 300S F 360S F 450S G540S G650S G800S H1000S

: Refer Refer to page page B4 and and B5

S pecifications -

0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4  0.4 

                                            

                                            

)

60 4 1800 R S e t d a u g c e t i s o n

2

2

2

2

2

2

3

3

3 3 3 3 3 3 4 4 4 4

C l a s s

G L S G L S G L S G L S G L S G L S G L S G L S G L S L S L S L S L S L S S S S S S S S S


5.022 4.983 4.900 10.130 9.893 10.316 14.790 15.417 15.273 19.592 18.836 20.653 26.190 26.232 25.212 29.091 29.400 31.418 44.832 44.898 46.383 48.423 51.140 50.445 59.952 58.698 60.445 73.576 80.182 98.270 98.117 127.726 120.02 .025 140.318 151.232 184.403 194.997 232.875 300.826 364.547 454.062 541.448 636.524 777.521 1094.976

3-phase



SF G

Singlephase

Dimension Sheet Output Shaft Page Allowable Radial Load FootFlangePro [N] Mounted Mounted

50Hz 60Hz 50Hz 60Hz 50Hz 60Hz 12.0 12.1 11.9 25.0 24.0 25 25.0 36.0 37 37.4 37 37.1 48.0 45 45.7 50 50.1 64 64.0 63 63.5 61 61.1 71 71.0 71 71.3 76 76.2 1 10 06 107 107 110 1 11 15 122 12 120 126 129 14 143 131 19 190 233 23 232 226 28 284 226 330 437 463 540 563 84 845 934 1260 1370 1390 1810

10.0 10.0 9.8 20.0 19.9 20.7 30.0 31.0 30.7 39.0 37.9 41.5 53.0 52.7 50.6 58.0 59.0 63.1 88.0 88.3 91.1 95.0 100 99.0 104 116 119 130 158 193 193 223 235 224 297 362 383 447 552 700 873 1040 1230 1390 1790

1.00 1.55 1.55 1.00 1.33 1.34 1.00 1.16 1.24 1.00 1.15 1.28 1.00 1.39 1.55 1.00 1.07 1.55 1.00 1.05 1.46 1.00 * 1.40 * * 1.25 * 1.00 * 1.31 * 1.03 .03 * * * * * * * * * * * *

1.20 1.83 1.83 1.20 1.53 1. 1.61 1.20 1. 1.32 1. 1.32 1.20 1. 1.27 1. 1.27 1. 1.20 1. 1.34 1. 1.83 1. 1.20 1. 1.27 1. 1.83 1.10 1.18 1.38 1.10 1.10 1.43 * * 1.44 * 1.20 1.00 1.56 * 1.23 .23 * * 1.07 1.13 1.07 * 1.16 * 1.18 * * *


3-phase


735 637 B39 - B55 11 1180 1080 B31 B43 B49 B59 1320 1270 B31 B43 B49 B59 1370 1320 B39 - B55 15 1520 1420 B31 B43 B49 B59 18 1860 1620 B31 B31 B43 B43 B49 B59 B59 1520 1470 B39 - B55 15 1570 1470 B31 B43 B43 B49 B59 B59 20 2060 1960 B31 B43 B43 B49 B49 B59 B59 1620 1570 B39 - B55 15 1570 1570 B31 B31 B43 B49 B59 21 2160 2110 B31 B31 B43 B49 B59 19 1960 1910 B31 B43 B43 B49 B59 B59 21 2160 2160 B31 B43 B43 B49 B59 B59 36 3630 3380 B32 B44 B44 B50 B60 B60 20 2060 2010 B31 B43 B49 B49 B59 21 2160 2160 B31 B31 B43 B49 B59 37 3780 3530 B32 B32 B44 B50 B60 1760 1760 B39 - B55 2160 2160 B31 B43 B43 B49 B59 B59 3970 3970 B32 B44 B44 B50 B60 B60 1760 1760 B39 - B55 2160 2160 B31 B43 B49 B59 3970 3970 B32 B32 B44 B50 B60 1760 1760 B3 B39 - B55 2160 2160 B31 B4 B43 B4 B49 B5 B59 3970 3970 B32 B32 B44 B44 B50 B60 B60 2160 2160 B31 B4 B43 B4 B49 B5 B59 3970 3970 B32 B44 B44 B50 B60 B60 3970 3970 B32 B44 B50 B 60 60 5100 5100 B33 B33 B44 B51 B60 3970 3970 B32 B4 B44 B5 B50 B6 B60 5100 5100 B33 B33 B44 B44 B51 B51 B60 B60 3970 3970 B32 B4 B44 B5 B50 B6 B60 5100 5100 B33 B4 B44 B5 B51 B6 B60 5100 5100 B33 B44 B51 B60 7350 7350 B34 B45 B52 B61 7350 7350 B34 B45 B52 B61 7350 7350 B34 B4 B45 B5 B52 B6 B61 11600 11600 B35 B45 B53 B61 11600 11 11600 B35 B4 B 45 B5 B 53 B6 B61 1370013 013700 B36 B46 B54 B62 13700 13 13700 B36 B46 B54 B6 B 62 13700 13 13700 B36 B46 B54 B6 B 62 18100 18100 B3 B 37 B4 B46 -


Note: Note: 1.  ,  ,  , and  in the Nomenclature column should be replaced with the following specification items: Refer to page B4 and B5 for more details on the nomenclature of main unit.  : Gearmotor type, type,  : Motor Manufacturer, Manufacturer,  : Motor M otor Specification, Spec ification,  : With or without brake 2. When * is indicated in SF G column, the full capacity load [kW] of the motor motor will be an overload. P lease use it within the the value in the Output Shaft Allowable Torque Torque column. 3. Motor speed represents a typical value. Refer to Technical Data E8 for more details. 4. Output shaft allowable radial load represents a value for the output shaft center. 5. For inverter driving in the frequency range of 6 to 60 Hz, select an appropriate model based on the allowable torque for 60 Hz. Also refer to B22 to 27 for combinations of the motor for inverter. B15

A Series

0.75 kW Gearmotor Selection Tables 0.75kW R e d u c t i o n R a t i o



(

50Hz 60Hz

Unit

5

300 360

10

150 180

15

100 120

20

75

90

25

60

72

30

50

60

45

33

40

50

30

36

60

25

30

75

20

24

100

15

18

130

12

14

150

10

12

200 7.5

9.0

240 300 360 450 540 650 800 1000

7.5 6.0 5.0 4.0 3.3 2.8 2.3 1.8

6.3 5.0 4.2 3.3 2.8 2.3 1.9 1.5

A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A


Hz P r/min

50 4 1500


                                          

Nomenclature Detail : Refer to page B4 and B5

Frame Size T5G B5L C5S T10G T10G B10L C10S T15G T15G B15L C15S T20G T20G B20L C20S B25G C25L D25S B30G C30L D30S B45G C45L D45S C50L D50S C60L D60S C75L D75S D100L E 100S D130L E 130S D150L E 150S E 200L F 200S F 240S G300S G360S H450S H540S K650S K800S K1000S

S pecifications -

0.75 .75  0.75  0.75  0.75 0.75  0.75  0.75  0.75 .75  0.75  0.75  0.7 0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75  0.75 

                                          

                                          

60 4 1800

)


2

2

2

2

2

2

3 3 3 3 3 3 3 3 4 4 4 4 4

C l a s s

G L S G L S G L S G L S G L S G L S G L S L S L S L S L S L S L S L S S S S S S S S S


4.983 5.113 5.048 9.893 9.881 9.800 15.417 15.595 14.552 18.836 19.808 19.303 26.232 24.055 24.315 29.400 28.955 29.744 44.898 46.460 44.163 50.529 48.109 60.545 57.823 74.204 75.121 94.653 92.688 127.427 124.449 141.183 150.567 196.520 196.98 .987 237.615 305.617 345.480 415.376 563.065 635.884 796.726 959.498

3-phase



SF G

Singlephase


50Hz 60Hz 50Hz 60Hz 50Hz 60Hz 23.0 23.2 22.9 45.0 44.9 44.5 70.0 70 70.9 66 66.1 86.0 90 90.0 87 87.8 119 10 109 111 13 134 13 131 13 135 160 207 19 196 225 21 214 242 25 257 245 334 421 41 412 429 553 426 483 592 876 963 1320 1360 1 17 780 1860 2 27 770 2640 2710

19.0 19.2 19.0 37.0 37.2 36.9 58.0 58.7 54.8 71.0 74.6 72.7 99.0 90.6 91.6 111 109 112 132 172 163 186 177 223 213 243 277 349 341 423 459 422 475 580 726 856 1100 1250 1500 1820 2290 2610 2670

1.00 1.51 1.52 1.00 1.41 1.52 1.00 1.17 1.52 1.00 1.13 1.52 1.00 1.52 1.52 1.00 1.03 1.52 * * 1.23 * 1.17 * 1.06 * * * 1.10 * * * * * 1.07 .07 * * * * * * * *

1.20 1.58 1.78 1.20 1.49 1.78 1.20 1. 1.29 1. 1.78 1.20 1. 1.30 1. 1.78 1.20 1.78 1.78 1.20 1.23 1.78 * 1.06 1.39 1.01 1.33 * 1.20 * 1.07 1.04 1.24 * 1.01 * * * 1.2 1.28 8 * 1.05 * 1.03 * 1.06 * *


3-phase


1130 1030 B39 - B55 13 1320 1270 B31 B43 B49 B59 18 1860 1520 B32 B44 B50 B60 1570 1520 B39 - B55 15 1520 1470 B31 B43 B49 B59 26 2600 2400 B32 B44 B50 B60 1760 1720 B39 - B55 16 1620 1620 B31 B43 B43 B49 B59 B59 27 2790 2600 B32 B44 B44 B50 B60 B60 1860 1810 B39 - B55 16 1670 1620 B31 B43 B49 B49 B59 28 2890 2700 B32 B32 B44 B50 B60 2400 2350 B31 B31 B43 B49 B59 3970 3970 B32 B44 B44 B50 B60 B60 4900 4760 B33 B44 B44 B51 B60 B60 2450 2400 B31 B43 B43 B49 B49 B59 B59 3970 3970 B32 B44 B50 B50 B60 5050 4900 B33 B33 B44 B51 B60 2210 2210 B31 B4 B43 B4 B49 B5 B59 3970 3970 B32 B44 B50 B6 B 60 5100 5100 B33 B33 B44 B44 B51 B60 3970 3970 B32 B44 B50 B 60 60 5100 5100 B33 B44 B44 B51 B60 B60 3970 3970 B32 B4 B44 B5 B50 B6 B60 5100 5100 B33 B33 B44 B51 B60 3970 3970 B32 B4 B44 B5 B50 B6 B60 5100 5100 B33 B44 B51 B6 B 60 5100 5100 B33 B44 B51 B6 B 60 7350 7350 B34 B34 B45 B45 B52 B61 B61 5100 5100 B33 B4 B44 B5 B51 B6 B60 7350 7350 B34 B45 B52 B61 5100 5100 B33 B4 B44 B5 B51 B6 B60 7350 7350 B34 B4 B45 B5 B52 B6 B61 7350 7350 B34 B4 B45 B5 B52 B6 B61 11600 11600 B35 B35 B45 B45 B53 B53 B61 B61 11600 11 11600 B35 B4 B45 B5 B53 B6 B61 1370013 013700 B36 B46 B54 B62 13700 13 13700 B36 B46 B54 B6 B 62 18100 18 18100 B37 B46 18100 18 18100 B37 B4 B46 21600 21 21600 B38 B4 B 47 21600 21 21600 B38 B4 B47 21600 21600 B3 B 38 B4 B47 -

Note: Note: 1.  ,  ,  , and  in the Nomenclature column should be replaced with the following specification items: Refer to page B4 and B5 for more details on the nomenclature of main unit.  : Gearmotor G earmotor type,  : Motor Manufacturer Manufacturer,,  : Motor Specification, Spec ification,  : With or without brake 2. When * is indicated in SFG column, the full capacity load [kW] of the motor motor will be an overload. P lease use it within the the value in the Output Shaft Allowable Torque column. column. 3. Motor speed represents a typical value. Refer to Technical Data E8 for more details. 4. Output shaft allowable radial load represents a value for the output shaft center. 5. For inverter driving in the frequency range of 6 to 60 Hz, select an appropriate model based on the allowable torque for 60 Hz. Also refer to B22 to 27 for combinations of the motor for inverter. B16

A Series

Gearmotor Selection Table 1.5 kW Frequency P oles Motor S peed


5


(

50Hz 50Hz 60Hz 60Hz

Unit

300 360

10

150 180

15

100 120

20

75

90

25

60

72

30

50

60

45

33

40

50

30

36

60

25

30

75

20

24

100

15

18

130

12

14

150

10

12

200 7.5

9.0

240 300 360 450

7.5 6.0 5.0 4.0

6.3 5.0 4.2 3.3

Hz P r/min

50 4 1500


A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A 

Nomencl Nomenclatu ature re Detai Detaill

Frame Size U5G C5L D5S U10G C10L D10S U15G C15L D15S U20G C20L D20S V25G D25L E 25S V30G D30L E 30S V45G D45L E 45S D50L E 50S D60L E 60S D75L E 75S E 100L F 100S F 130L G130S F 150L G150S G200L H200S K240S K300S K360S K540S

: R efer efer to to page page B4 and B5 B5

-



1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5

                                      

                                      

                                      

60 4 1800


)

2

2

2

2

2

2

3 3 3 3 3 3 3 3 4 4 4 4

C l a s s

G L S G L S G L S G L S G L S G L S G L S L S L S L S L S L S L S L S S S S S


5.113 4.859 4.994 9.881 9.802 9.719 15.595 15.364 15.034 19.808 19.145 19.531 24.055 23.893 25.455 28.955 27.942 28.264 46.460 45.665 47.292 49.745 51.705 59.790 62.735 75.336 74.755 99.967 102.987 122.637 121.15 .154 149.610 148.388 174.432 196.987 242.121 303.364 350.950 539.313

3-phase



SF G

50Hz 60Hz 50Hz 60Hz 47.0 44.1 45.4 90.0 89.1 88.4 142 139 13 136 180 174 17 177 21 219 217 231 26 263 254 257 307 406 421 423 460 431 508 439 647 662 844 1040 1080 1020 1270 1500 1500 2110 2360 2390 3090

39.0 36.6 37.7 74.0 73.8 73.2 117 116 113 149 144 147 181 180 192 218 211 213 255 336 348 367 380 421 462 431 548 646 759 903 892 1020 1090 1280 1450 1750 2190 2350 3090

1.00 1.35 1.40 1.00 1.40 1.40 1.00 1.33 1.40 1.00 1.11 1.40 1.00 1.23 1.40 1.00 1.23 1.40 * * 1.06 * * * * * * * * * 1.04 .04 * * * * 1.04 * * *

1.20 1.38 1.64 1.20 1.54 1.64 1.20 1.39 1.64 1.20 1.32 1.64 1.20 1.44 1.64 1.20 1.42 1.64 * 1.01 1.27 * 1.17 * * * 1.05 * * * 1.2 1.24 4 * 1.03 1.04 * 1.24 * * *

Singlephase

Output Shaft Allowable Radial Load Pro [N]


Dimension Sheet Page FootFlangeMounted Mounted

50Hz

60Hz

3-phase

16 1670 1 18 860 31 3190 19 1960 3 31 140 37 3730 2 21 110 3430 40 4070 2 21 110 3530 42 4220 40 4070 4900 7210 42 4220 5050 7350 4220 5100 7350 5100 7350 5100 7350 5100 7350 7350 11600 11600 13700 11600 13700 13700 18100 21600 21600 21600 21600

1620 1520 3040 1910 3040 3630 2060 3330 3970 2110 3480 4120 3920 4760 6720 4070 4900 6820 4220 5100 7350 5100 7350 5100 7350 5100 7350 7350 11300 111600 13700 11600 13700 13700 18100 21600 21600 21600 21600

B40 B32 B33 B40 B32 B33 B40 B32 B33 B40 B32 B33 B40 B33 B34 B40 B33 B34 B40 B33 B34 B33 B34 B33 B34 B33 B34 B34 B35 B35 B36 B35 B36 B36 B37 B38 B38 B38 B38


-

B56 B50 B51 B56 B50 B51 B56 B50 B51 B56 B50 B51 B56 B51 B52 B56 B51 B52 B56 B51 B52 B51 B52 B51 B52 B51 B52 B52 B53 B53 B54 B53 B54 B54 -

-


Note: Note: 1.  ,  ,  , and  in the Nomenclature column should be replaced with the following specification items: Refer to page B4 and B5 for more details on the nomenclature of main unit.  : Gearmotor type, type,  : Motor Manufacturer, Manufacturer,  : Motor M otor Specification, Spec ification,  : With or without brake 2. When * is indicated in SFG column, the full capacity load [kW] of the motor motor will be an overload. P lease use it within the the value in the Output Shaft Allowable Torque column. column. 3. Motor speed represents a typical value. Refer to Technical Data E8 for more details. 4. Output shaft allowable radial load represents a value for the output shaft center. 5. For inverter driving in the frequency range of 6 to 60 Hz, select an appropriate model based on the allowable torque for 60 Hz. Also refer to B22 to 27 for combinations of the motor for inverter. B17

A Series

2.2 kW Gearmotor Selection Tables Frequency P oles Motor S peed




(

50Hz 50Hz 60Hz 60Hz

Unit

5

300 360

10

150 180

15

100 120

20

75

90

25

60

72

30

50

60

45

33

40

50

30

36

60

25

30

75

20

24

100

15

18

130

12

14

150

10

12

200 7.5 240 6.3 300 5.0

9.0 7.5 6.0

Hz P r/min

50 4 1500

Nomenclature  : Refer to footnote 1.

A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A  A 

Nomencl Nomenclatu ature re Detai Detail

Frame Size V5G D5L E 5S V10G D10L E 10S V15G D15L E 15S V20G D20L E 20S D25G E 25L F 25S D30G E 30L F 30S D45G E 45L F 45S E 50L F 50S E 60L F 60S F 75L G75S F 100L G100S G130L H130S G150L H150S K200S K240S K300S

-

: R efer efer to to page page B4 and B5 B5



2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2  2.2 

                                   

                                   

)

60 4 1800 R S e d t a u g c e t i s o n

2

2

2

2

2

2

3 3 3 3 3 3 3 3 4

C l a s s

G L S G L S G L S G L S G L S G L S G L S L S L S L S L S L S L S S S S

R e d u c A t c i t o u n a l R a t i o

4.859 5.141 4.848 9.802 9.761 10.287 15.364 15.944 14.773 19.145 19.504 21.212 23.893 23.554 23.766 27.942 27.686 28.636 45.665 45.818 43.182 50.093 53.342 60.779 62.374 73.396 72.80 .808 102.198 100.962 123.657 125.169 145.360 149.161 198.751 233.418 297.848

3-phase


3-P hase with Brakes Brakes SAV SBV FB

SF G

Output Shaft Allowable Radial Load Pro [N]

50Hz 60Hz 50Hz 60Hz 50Hz 65.0 68.5 64.6 131 130 137 20 205 213 197 25 255 260 282 31 319 314 317 37 373 369 381 496 597 56 563 632 69 695 634 81 814 830 949 1070 1230 1470 14 1470 1470 14 1470 2590 2470 30 3070

54.0 56.8 53.5 108 108 114 170 177 163 211 216 234 264 260 263 309 306 317 411 495 467 541 577 628 674 793 786 1060 1090 1330 1350 1450 1470 2150 2440 3040

1.00 1.32 1.32 1.00 1.32 1.32 1.00 1.28 1.32 1.00 1.19 1.32 1.00 1.32 1.32 1.00 1.29 1.32 * * 1.08 * * * * * 1.05 .05 * * * * * * * * *

1.20 1.55 1.55 1.20 1.51 1.55 1.20 1.40 1.55 1.20 1.34 1.55 1.20 1.55 1.55 1.20 1.51 1.55 * * 1.22 * 1.09 * 1.01 * 1.19 .19 * 1.01 * * * * 1.09 * *

Singlephase

60Hz

20 2060 1910 31 3190 3040 34 3480 3090 30 3040 2940 3730 3630 55 5540 5150 33 3380 3280 40 4070 3970 59 5980 5540 35 3530 3430 42 4220 4120 63 6330 5880 49 4950 4800 73 7350 7350 78 7850 7650 51 5100 4950 73 7350 7350 80 8040 7850 4310 4310 7350 7350 97 9760 9460 7350 7350 10000 9760 7350 7350 10100 10000 10500 10 10300 13700 13700 11600 11300 13 13700 13700 13700 13 13700 18100 18100 13700 13 13700 18100 18100 21600 21 21600 21600 21 21600 21600 21600


Dimension Sheet Page FootFlangeMounted Mounted 3-phase

B40 B33 B34 B40 B33 B34 B40 B33 B34 B40 B33 B34 B33 B34 B35 B33 B34 B35 B33 B3 B 34 B35 B34 B35 B34 B35 B35 B36 B35 B36 B36 B37 B36 B37 B38 B38 B38


-

B56 B51 B52 B56 B51 B52 B56 B51 B52 B56 B51 B52 B51 B52 B53 B51 B52 B53 B51 B52 B53 B52 B53 B52 B53 B53 B54 B53 B54 B54 B54 -

-


A Series

Gearmotor Selection Table 3.7 kW, 5.5 kW Frequency P oles Motor Spe Speed


(

50Hz 50Hz 60Hz 60Hz

Unit

300 360

10

150 180

15

100 120

20

75

90

25

60

72

30

50

60

45

33

40

50

30

36

60

25

30

75

20

24

100

15

18

130 150

12 10

14 12

Nomencl Nomenclatu ature re Deta Detailil

                       

A A A A A A A A A A A A A A A A A A A A A A A A

Output Shaft Speed [r/min] 50Hz 50Hz 60Hz 60Hz

5 300 360 10 150 180 15 100 120 20 75 90 25 60 72 30 50 60 45 33 40 50 30 36 60 25 30 75 20 24 100 15 18

(

3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7  3.7 

-

                       

          

-

)

                       

Hz P r/min



5.5  5.5  5.5  5.5  5.5  5.5  5.5  5.5  5.5  5.5  5.5 

          


2 2 2 2 2 2 3 3 3 3 3 3

C l a s s

L S L S L S L S L S L S L S L S L S L S L S S S

50 4 1500

Nomenclature Nomenclature Detail : R efer to page page B4 and and B5

Frame Size F 5S F 10S F 15S G20S H25S H30S H45S H50S H60S K75S K100S

60 4 1800



Nomenclature  : Refer to footnote footnote 1.

Unit A A A A A A A A A A A

Frame Size E 5L F 5S E 10L F 10S E 15L F 15S E 20L F 20S F 25L G25S F 30L G30S F 45L G45S F 50L G50S F 60L G60S G75L H75S G100L H100S K130S K150S

: R efer efer to to page page B4 and B5



50 4 1500



5

Hz P r/min

          


4.949 5.023 10.107 9.852 14.727 14.682 19.785 20.201 24.341 25.057 28.205 29.455 44.807 46.364 52.394 50.356 57.000 56.924 74.103 72.409 94.659 101.108 120.055 144.582 60 4 1800

)

R S e d t a u g c e t i s o n

C l a s s

2 2 2 2 2 2 3 3 3 3 3

S S S S S S S S S S S


5.065 9.692 15.077 19.856 23.192 29.082 42.878 50.242 59.873 74.555 95.135

3-phase



SF G

Singlephase


50Hz 60Hz 50Hz 60Hz 50Hz 60Hz 11 111 113 22 227 221 33 330 33 330 44 443 45 453 54 546 562 63 633 661 981 1020 1060 1110 1080 1250 1270 1590 1620 1890 2640 2790

92.0 93.4 187 183 274 273 368 376 452 466 524 547 814 842 952 915 1010 1040 1260 1310 1590 1830 2190 2630

3-phase


1.32 1.32 1.32 1.32 1.29 1.32 1.03 1.32 1.20 1.32 1.04 1.32 * 1.09 * 1.01 * * * 1.06 * * * *

1.29 1.29 1.32 1.32 1.34 1.34 1.17 1.46 1.31 1.52 1.21 1.52 * 1. 1.29 * 1. 1.20 * 1.07 * 1.20 * * 1.15 *

Singlephase

140 268 417 548 640 803 1160 1350 1620 2010 2570

1.32 1.32 1.09 1.32 1.30 1.24 1.04 * * * *

1.48 1.50 1.24 1.52 1.47 1.42 1. 1.06 1.06 * 1.09 *


-

B52 B53 B52 B53 B52 B53 B52 B53 B53 B54 B53 B54 B53 B54 B53 B54 B53 B54 B54 B54 -

-



Dimension Sheet Output Shaft Page Allowable Radial Load FootFlangePro [N] Mounted Mounted

50Hz 60Hz 50Hz 60Hz 50Hz 60Hz 16 169 32 323 502 66 662 773 969 1400 1640 1670 2430 2790

3-phase

3480 3090 B34 3480 3090 B35 6820 6570 B34 6820 6570 B35 7350 7160 B34 7350 7160 B35 7350 7350 B34 7550 7350 B35 7850 7650 B35 11400 11100 B36 8040 7850 B35 11800 11500 B36 8040 8040 B3 B35 13700 13 13500 B36 8040 8040 B3 B35 13700 13 13700 B36 8290 8040 B3 B 35 13700 13 13700 B36 13700 13700 B36 18100 18 18100 B37 13700 13700 B36 18100 18100 B3 B 37 21600 21 21600 B38 21600 21600 B3 B 38


SF G


3-phase

2650 2060 B35 6080 4610 B35 6960 6520 B35 11100 10 10400 B36 15000 14 14100 B37 16000 15 15000 B37 17000 16 16600 B37 17800 16800 B3 B 37 18100 17800 B3 B37 21600 21300 B3 B 38 21600 21600 B3 B38


-

B53 B53 B53 B54 -

-

Note: Note: 1.  ,  ,  , and  in the Nomenclature column should be replaced with the following specification items: Refer to page B4 and B5 for more details on the nomenclature of main unit. type,  : Motor Manufacturer, Manufacturer,  : Motor M otor Specification, Spec ification,  : With or without brake  : Gearmotor type, 2. When * is indicated in SFG column, the full capacity load [kW] of the motor motor will be an overload. P lease use it within the the value in the Output Shaft Allowable Torque column. column. 3. Motor speed represents a typical value. Refer to Technical Data E8 for more details. 4. Output shaft allowable radial load represents a value for the output shaft center. 5. For inverter driving in the frequency range of 6 to 60 Hz, select an appropriate model based on the allowable torque for 60 Hz. Also refer to B22 to 27 for combinations of the motor for inverter. B19

A Series

7.5 kW, 11 kW Gearmotor Selection Tables Frequency P oles Motor Spe Speed



5 10 15 20 25 30 45 50 60

Output Shaft Speed [r/min] 50Hz 50Hz 60Hz 60Hz 300 360 150 180 100 120 75 90 60 72 50 60 33 40 30 36 25 30

(

        

5 10 15 20

Output Shaft Speed [r/min] 50Hz 50Hz 60Hz 60Hz 300 360 150 180 100 120 75 90

Specifications 7.5  7.5  7.5  7.5  7.5  7.5  7.5  7.5  7.5 

-


(

        

        

Hz P r/min

   

Nomenclature ature Detail : R efer to page page B4 and and B5

Frame Size H5S H10S H15S K20S

-



11 11 11 11

   

   


C l a s s

2 2 2 2 2 2 3 3 3

S S S S S S S S S

50 4 1500


Unit A A A A

Frame Size G5S G10S G15S H20S K25S K30S K45S K50S K60S

60 4 1800

)

Nomenclature Detail : Refer to page B4 and B5

11kW R e d u c t i o n R a t i o

50 4 1500


Unit A A A A A A A A A

Hz P r/min

   

)


5.054 9.988 14.796 20.250 24.456 29.013 44.389 51.352 64.341 60 4 1800

R S e d t a u g c e t i s o n

C l a s s

2 2 2 2

S S S S


3-phase



SF G

Singlephase


50Hz 60Hz 50Hz 60Hz 50Hz 60Hz 22 229 45 454 673 921 1110 1310 1970 2240 2480

190 377 557 763 921 1090 1640 1890 2310

3-phase


1.32 1.52 1.32 1.52 1.28 1.45 1.25 1.40 1.32 1. 1.52 1.25 1. 1.40 * 1.12 * 1.00 * *

Singlephase


-

B54 B54 B54 -

-



50Hz 60Hz 50Hz 60Hz 50Hz 60Hz

4.952 330 274 9.905 660 547 15.352 1020 848 20.286 1350 1120

3-phase

3820 2650 B36 8780 6470 B36 9810 9220 B36 13500 12 12700 B37 16100 15 15100 B38 17100 16 16100 B38 18800 17700 B3 B 38 19700 18700 B3 B 38 21600 20300 B3 B38


SF G


1.31 1.31 2840 2350 1.32 1.34 7350 6080 1.09 1. 1.23 12000 11 11300 1.24 1. 1.40 14200 13 13300

3-phase

B37 B37 B37 B38


-

-

-


A Series

M E M O


B21

M Series 500 500 Seri Series es,,

Seri Series es

0.2 kW Gearmotor Gearmotor Selection Selection Table (3-phase (3-phase Motors Motors for for nverter) nverter) ase requency

0.2 kW

GearMotor Selection Tables

0

(

llowabl e Speed

nit

3

3 0 720 ( 120

)

10

1

1 0 3 0 ( 120

)

15

12

120 2 0 ( 12 120

)

20

.0

0

25

7.2

72

5

.0

0

.0

1 0 ( 120

)

1

)

( 120

120 ( 120

0

)

0 ( 120

)

50

3.

3

72 ( 120

)

0

3.0

30

0 ( 120

)

2.

2

( 120

)

75 100

1.

1

3

( 120

)

130

1.

1

27.

( 12 120

)

150

1.2

12

2

( 12 120

)

200

0.

.0

1

( 120

)

2 0 300 3 0 50 5 0 50 00 1000

0.75 0. 0 0.50 0. 0 0.33 0.2 0.23 0. 0 .1

7.5 .0 5.0 .0 3.3 2. 2.3 1.

15 12 10 .0 . 5. . 3.

( ( ( ( ( ( ( (

) ) ) ) ) ) ) )

120 12 120 120 12 120 12 120 12 120 12 1 20 12 1 20

1 00 omenclature

5

30

r mi n

Motor Speed

utput Shaft Speed r min min

R e d u c t i o n R a t i o

0

oles

                                   



: Gearmotor type

omenclature omenclature etails : Refer to page

rame Si e 5L 5S 10L 10S 15L 15S 20L 20S 25L C25S 30L C30S 5L C 5S 50L C50S 0L C 0S 75L C75S C100L 100S C130L 130S C150L 150S 200L E200S E2 0S E300S 3 0S 50S G5 0S G 50S G 00S 1000S

-

)

and 5

 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0. 0 .2

Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su

( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( (

) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) )

R e d u c t i o n S t a g e s

2 2 2 2 2 2 3 3 3 3 3 3 3 3

C l a s s

L S L S L S L S L S L S L S L S L S L S L S L S L S L S S S S S S S S S

utput Shaft llowable S Torque Tout ctual ( m) Reduction

G

Ratio

. 3 . 00 . 3 10.31 15. 17 15.273 1 . 3 20. 53 2 .232 25.212 2 . 00 31. 1 . .3 3 51.1 0 50. 5 5 . 0. 5 73.57 0.1 2 .270 .117 127.72 120.025 1 0.31 151.232 1 . 03 1 . 7 23 2 32. 75 30 3 00. 2 3 .5 7 5 .0 2 5 1. 3 .52 777.521 10 . 7

utput Shaft imension Sheet llowable age Radial Load l a o n ro o g

0

0

0

5.00 . 0 . 5 10.3 15.5 15. 1 .0 20. 2 . 25.3 2 .5 31. .2 5. 50.0 .5 57. 5 .5 72.2 7 .0 .5 .5 12 11 1 0 1 7 1 1 1 2 22 2 1 350 1 520 55 751 1053

3. 3. 3.0 3.22 2. 2. 2.5 2.5 2. 3. 2.5 3. 2.3 2.7 2.20 2. 2.10 2. 1. 0 2. 0 2.00 3.12 1. 0 2. 1. 0 2.02 2.1 2.2 2.1 1. 0 2.32 2.10 2.3 2.20 1. 5 1.70

10 0 1270 1 20 1 20 1 70 1 0 1570 2110 21 0 33 0 21 0 3530 21 0 3 70 21 0 3 70 21 0 3 70 21 0 3 70 3 70 5100 3 70 5100 3 70 5100 5100 7350 7350 7350 11 00 11 00 13700 13700 13700 1 10 1 00

ote:1.  in the omenclature column should be replaced with a symbol representing the gearmotor type. Refer to page details on the nomenclature of main unit. 2. Motor Motor speed represents a typical value. Refer Refer to Technical ata E for more more details. 3. utput shaft allowable radial load represents a value for the output shaft center. . n the range of to 0 , you should select a model according to the allowable torque at 0 .

and

t - M o u n t e d

31 31 31 31 31 31 31 31 31 32 31 32 31 32 31 32 31 32 31 32 32 33 32 33 32 33 33 3 3 3 35 35 3 3 3 37

e - M o u n t e d

50 50 50 50 50 50 50 50 50 50 51 50 51 50 51 51 51 52 52 52 53 53 53 53 5 5 5 -

5 for more

M 500 500 Serie Series, s,

Serie Series s

Gearmotor Gearmotor Selection Selection Table (3-phase (3-phase Motors for nverter) nverter) 0. kW ase requency

0. kW

5

0

(

llowable Speed nit

3

3 0

00 ( 100

)

1

1 0 300 ( 100

)

15

12

120 200 ( 100

)

20

.0

0

150 ( 100

)

25

7.2

72

120 ( 100

)

30

.0

0

100 ( 100

)

5

.0

0

7 ( 100

)

0 ( 100

)

50 ( 10 100

)

50

3.

3

0

3.0

30

75

2.

2

0 ( 100

)

100

1.

1

30 ( 100

)

130

1.

1

23 ( 100

)

150

1.2

12

20 ( 10 1 00

)

200

0.

.0

15 ( 10 100

)

13 10 .3 .7 5.5 .7 3. 3.0

) ) ) ) ) ) ) )

0.75 0. 0 0.50 0. 0 0.33 0.2 0.23 0.1

7.5 .0 5.0 .0 3.3 2. 2.3 1.

( ( ( ( ( ( ( (

100 10 100 10 1 00 10 100 100 10 100 100 100

1 00 omenclature

10

2 0 300 3 0 50 5 0 50 00 1000

r mi n

Motor Speed


R e d u c t i o n R a t i o

0

oles

                                   



: Gearmotor type

omenclature etails : Refer to page

rame Si e 5L C5S 10L C10S 15L C15S 20L C20S C25L 25S C30L 30S C 5L 5S C50L 50S C 0L 0S C75L 75S 100L E100S 130L E130S 150L E150S E200L 200S 2 0S G300S G3 0S 50S 5 0S K 50S K 00S K1000S

-

and 5

)

 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0.

Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su

( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( (

) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) )


2 2 2 2 2 2 3 3 3 3 3 3 3 3

C l a s s

L S L S L S L S L S L S L S L S L S L S L S L S L S L S S S S S S S S S

utput Shaft llowable S ctual Torque Tout Reduction ( m) Ratio

5.113 5.0 . 1 . 00 15.5 5 1 .552 1 . 0 1 .303 2 .055 2 .315 2 . 55 2 .7 . 0 .1 3 50.52 .10 0.5 5 57. 23 7 .20 75.121 . 53 2. 127. 27 12 . 1 1.1 3 15 1 50.5 7 1 .520 1 . 7 23 237. 15 30 3 05. 17 3 5. 0 15.37 5 3.0 5 35. 7 .72 5 .

G

utput Shaft llowable Radial Load ro

imension Sheet age o o t - M o u n t e d

l a n g e - M o u n t e d

0

0

0

10.2 10.1 1 . 1 .7 31.3 2 .2 3 . 3 . .3 . 5 .1 5 .7 1.7 . .2 . 11 11 1 5 1 1 1 2 2 2 5 277 2 7 3 7 3 7 57 5 7 7 00 10 7 1221 1535 1 1

2. 3.3 2.7 3.3 2. 2 3.3 2. 3.3 3.3 3.3 2.31 3.3 1. 2. 1 1. 2. 1. 2.25 1. 2.01 1. 5 2.33 1.70 1. 1.53 1. 0 1.50 2. 0 1. 1. 7 1. 1. 3 1. 1. 1.70 1. 5

1270 1520 1 70 2 00 1 20 2 00 1 20 2700 3 70 7 0 3 70 00 3 70 5100 3 70 5100 3 70 5100 3 70 5100 5100 7350 5100 7350 5100 7350 7350 11 00 11 00 13700 13700 1 100 1 100 21 00 21 00 21 00

31 32 50 50 31 32 50 50 31 32 50 50 31 32 50 50 32 50 50 33 51 32 50 50 33 51 32 50 33 51 32 50 50 33 51 32 50 33 51 51 32 50 50 33 51 51 33 51 51 3 52 33 51 3 52 33 51 3 52 3 52 35 53 53 35 53 53 3 5 3 5 37 37 3 3 3 -

and

5 for more

ote:1.  in the omenclature column should be replaced with a symbol representing the gearmotor type. Refer to page details on the nomenclature of main unit. 2. Motor Motor speed represents a typical value. Refer Refer to Technical ata E for more more details. 3. utput shaft allowable radial load load represents a value for the the output shaft center. center. . n the range of to 0 , you should select a model according to the allowable torque at 0 .


Series

0.75 kW Gearmotor Selection Table Table (3-phase Motors for for nverter) ase requency


oles

(

llowabl e Speed nit

5

3

3 0

0 (

0

)

Selection Tables

10

1

1 0 2 0 (

0

)

15

12

120 1 0 (

0

)

20

.0

0

120 (

0

)

25

7.2

72

(

0

)

30

.0

0

0 (

0

)

5

.0

0

(

0

)

(

0

)

5

3.

3

3.0

30

0 (

0

)

75

2.

2

32 (

0

)

100

1. 1.

1

2

(

0

)

130

1. 1.

1

1

(

0

)

150

1.2

12

1

(

0

)

200

0.

.0

12 (

0

)

2 0 300 3 0 50

0.75 0. 0. 0 0.50 0. 0. 0

10 .0 .7 5.3

0 0 0 0

) ) ) )

0

7.5 .0 5.0 .0

( ( ( (

1 00 omenclature

GearMotor

50

r mi n

Motor Speed


0

0

                               



: Gearmotor type

omenclat omenclature ure etails

rame Si e C5L 5S C10L 10S C15L 15S C20L 20S 25L E25S 30L E30S 5L E 5S 50L E50S 0L E 0S 75L E75S E100L 100S 130L G130S 150L G150S G200L 200S K2 0S K300S K3 0S K5 0S

: Refer Refer to page

-

0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75

)

and 5

 Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su

( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( (

) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) )


2 2 2 2 2 2 3 3 3 3 3 3 3 3

C l a s s

L S L S L S L S L S L S L S L S L S L S L S L S L S L S S S S S

utput Shaft ctual llowable S Reduction Torque Tout Ratio ( m)

. 5 . . 02 .71 15.3 15.03 1 .1 5 1 .531 23. 3 25. 55 27. 2 2 .2 5. 5 7.2 2 .7 5 51.705 5 .7 0 2.735 75.33 7 .755 . 7 102. 7 122. 37 12 1 21.15 1 . 10 1 .3 17 . 32 1 . 7 2 2.121 303.3 350. 50 53 53 .313

G


imension Sheet age o o t - M

o u n t e d


0

0

0

1 .3 1 . 3 . 3 . 5 .0 5 .5 72.0 73.5 0.0 .0 10 107 1 17 1 1 0 221 22 27 27 3 7 375 7

2.7 3.2 3.0 3.2 2.7 3.2 2. 3.2 2. 3.2 2. 3.2 2.02 2.5 2.00 2.3 1. 1 2.02 1.5 2.10 1.7 2.02 2.02 2. 1. 2.0 2.0 2.02 2. 1. 1. 7 1.

1520 30 0 30 0 3 30 3330 3 70 3 0 120 7 0 720 00 20 5100 7350 5100 7350 5100 7350 5100 7350 7350 11300 111 0 13700 11 00 13700 13700 1 100 21 00 21 00 21 00 21 00

32 50 50 33 51 32 50 50 33 51 51 32 50 33 51 32 50 50 33 51 33 51 51 3 52 33 51 51 3 52 33 51 51 3 52 33 51 51 3 52 33 51 3 52 33 51 3 52 3 52 35 53 35 53 3 5 35 53 53 3 5 3 5 37 3 3 3 3 -

and

5 for more

55 5 5 0 71 75 1105 125 1

ote: ote: 1.  in the omenclature column should be replaced with a symbol representing the gearmotor type. Refer to page details on the nomenclature of main unit. 2. Motor Motor speed represents a typical value. Refer to Technical ata E for more more details. details. 3. utput shaft allowable radial load represents a value for the output shaft center. center. . n the range of to 0 , you should select a model according to the allowable torque at 0 .


Serie Series s

Gearmotor Selection Table (3-phase Motors for nverter) 1.5 kW ase requency


r mi n

Motor Speed


0

( nit

5

3

3 0

0 (

0

)

10

1

1 0 2 0 (

0

)

15

12

120 1 0 (

0

)

20

.0

0

120 (

0

)

25

7.2

72

(

0

)

30

.0

0

0 (

0

)

5

.0

0

53 (

0

)

(

0

)

0 (

0

)

3.

3

0

3.0

30

1 00 omenclature

llowabl e S peed

50

0

oles

75

2.

2

32 (

0

)

100

1. 1.

1

2

(

0

)

130

1. 1.

1

1

(

0

)

150

1.2

12

1

(

0

)

200 0. 0. 0 2 0 0.75 300 0. 0. 0

.0 7.5 .0

12 ( 10 ( .0 (

0 0 0

) ) )

                            



: Gearmotor type

omenclat omenclature ure etails

rame Si e 5L E5S 10L E10S 15L E15S 20L E20S E25L 25S E30L 30S E 5L 5S E50L 50S E 0L 0S 75L G75S 100L G100S G130L 130S G150L 150S K200S K2 0S K300S

: Refer Refer to page

-

)

and 5

 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5

Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su

( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( (

) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) )


2 2 2 2 2 2 3 3 3 3 3 3 3 3

C l a s s

utput Shaft ctual llowable S Reduction Torque Tout Ratio ( m)

L 5.1 1 S . L .7 1 S 10.2 7 L 15. S 1 .773 L 1 .50 S 21.212 L 23.55 S 23.7 L 27. S 2 . 3 L 5. 1 S 3.1 2 L 50.0 3 S 53.3 2 L 0.77 S 2.37 L 73.3 S 72. 0 L 102.1 S 10 1 00. 2 L 123. 57 S 12 1 25.1 L 1 5.3 0 S 1 .1 1 S 1 .751 S 23 233. 1 S 1 7.

G


0

0

0

3 .7 3 .5 73. 77.7 121 111 1 7 1 0 177 17 20 21 33 31 3 3 3

2.27 2.27 2.21 2.27 2.05 2.27 1. 7 2.27 2.27 2.27 2.21 2.27 1. 7 1.7 1. 7 1. 0 1. 0 1. 1. 7 1.75 1. 7 1. 1. 7 1. 7 1.35 1.33 1. 0 1. 5 1. 2

30 0 30 0 3 30 5150 3 70 55 0 120 5 0 7350 7 50 7350 7 50 7350 0 7350 7 0 7350 10000 10300 13700 11300 13700 13700 1 100 13700 1 100 21 00 21 00 21 00

0 5 1 53 723 7 3 07 20 1071 1103 1 1 7 21 1

ote:1.  in the omenclature column should be replaced with a symbol representing the gearmotor type. Refer to page details on the nomenclature of main unit. 2. Motor Motor speed represents a typical value. Refer Refer to Technical ata E for more more details. 3. utput shaft allowable radial load load represents a value for the the output shaft center. center. . n the range of to 0 , you should select a model according to the allowable torque at 0 .

and

imension Sheet age o o t - M o u n t e d

33 3 33 3 33 3 33 3 3 35 3 35 3 35 3 35 3 35 35 3 35 3 3 37 3 37 3 3 3


51 51 52 51 51 52 51 51 52 51 51 52 52 53 53 52 53 53 52 53 52 53 53 52 53 53 5 53 5 5 5 -

5 for more


Series

2.2 kW, 3.7 kW Gearmotor Selection Table (3-phase Motors for nverter) ase requency



oles

( nit

5

3

3 0

0 (

0

)

10

1

1 0 2 0 (

0

)

15

12

120 1 0 (

0

)

20

.0

0

120 (

0

)

25

7.2

72

(

0

)

30

.0

0

0 (

0

)

5

.0

0

53 (

0

)

3.

3

0

3.0

75

(

0

)

30

0 (

0

)

2.

2

32 (

0

)

100

1. 1.

1

2

(

0

)

130 150

1. 1. 1.2

1 12

1 1

( (

0 0

) )


5 10 15 20 25 30 5 50 0 75 100

3 1 12 .0 7.2 .0 .0 3. 3.0 2. 1.

: Gearmotor type

omencl omenclatu ature re

rame Si e E5L 5S E10L 10S E15L 15S E20L 20S 25L G25S 30L G30S 5L G 5S 50L G50S 0L G 0S G75L 75S G100L 100S K130S K150S

etails etails : Refer Refer to page page

-

)

and and 5

 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2 2.2

Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su Su

( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( (

) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) )


2 2 2 2 2 2 3 3 3 3 3 3

C l a s s

utput Shaft llowable ctual S Torque Tout Reduction ( m) Ratio 0 0

L . S 5.023 L 10.107 S . 52 L 1 .727 S 1 . 2 L 1 .7 5 S 20.201 L 2 .3 1 S 25.057 L 2 .205 S 2 . 55 L . 07 S .3 L 52.3 S 50.35 L 57.000 S 5 . 2 L 7 .103 S 72. 0 L . 5 S 10 1 01.10 S 120.055 S 1 .5 .5 2

5 .7 55.5 111 10 1 3 1 2 21 22 2 277 312 325 501 5 5 1 1 03 77 102 10 1302 15

G

utput Shaft imension Sheet llowable age Radial Load o a l o n g t - e ro M - M 0

2.17 2.17 2.22 2.22 2.25 2.25 1. 7 2. 2.20 2.5 2.0 2.5 1. 2.17 1. 2.02 1. 5 1. 0 1.57 2.02 1.55 1. 1. 3 1.

30 0 30 0 570 570 71 0 71 0 7350 7350 7 50 11100 7 50 11500 0 0 13500 0 0 13700 0 0 13700 13700 1 100 13700 1 100 21 00 21 00

o u n t e d

3 35 3 35 3 35 3 35 35 3 35 3 35 3 35 3 35 3 3 37 3 37 3 3

o u n t e d

52 53 52 53 53 52 53 53 52 53 53 53 53 5 53 5 53 5 53 5 53 53 5 5 5 -

0

oles r mi n

Motor Speed

1 00 omenclature

(

llowable Speed

3 0 20 ( 70 1 0 21 2 10 ( 70 70 120 1 0 ( 70 0 105 ( 70 70 72 ( 70 0 70 ( 70 0 7 ( 70 3 2 ( 70 30 35 ( 70 2 2 ( 70 1 21 ( 70 70

                       



ase requency


0

1 00 omenclature

llowable Speed

50

r min min

Motor Speed

utput Shaft Speed r min min 0

0

nit ) ) ) ) ) ) ) ) ) ) )



: Gearmotor type

omenclature omenclature etails : Refer to page

rame Si e

 5S  10S  15S  G20S  25S  30S 5S   50S  0S  K75S  K100S

-

)

and 5

 3.7 3.7 3.7 3.7 3.7 3.7 3.7 3.7 3.7 3.7 3.7

Su Su Su Su Su Su Su Su Su Su Su Su Su Su

( ( ( ( ( ( ( ( ( ( (

) ) ) ) ) ) ) ) ) ) )


C l a s s

2 2 2 2 2 2 3 3 3 3 3

S S S S S S S S S S S

utput Shaft llowable ctual Torque Tout S Reduction ( m) Ratio

5.0 5 . 2 15.077 1 . 5 23.1 2 2 .0 2 2. 7 50.2 2 5 . 73 7 .555 5.135

G

utput Shaft imension Sheet llowable age Radial Load o a l n o g ro t - e M o u n t e d

- M o u n t e d

0

0

0

.2 1 0 2 1 3 31 5 0 7 0 0 10 0 1352 172

2.20 2.23 1. 2.2 2.1 2.11 1.5 1.5 1. 1. 2 1.

20 0 10 520 10 00 1 100 15000 1 00 00 1 00 00 17 00 21300 21 00

35 53 53 35 53 35 53 53 3 5 37 37 37 37 37 3 3 -

and

5 for more

ote: ote: 1.  in the omenclature column should be replaced with a symbol representing the gearmotor type. Refer to page details on the nomenclature of main unit. 2. Motor Motor speed represents a typical value. Refer to Technical ata E for more more details. details. 3. utput shaft allowable radial load represents a value for the output shaft center. center. . n the range of to 0 , you should select a model according to the allowable torque at 0 .


Serie Series s

Gearmotor Selection Table (3-phase Motors for nverter) 5.5kW, 7.5kW ase requency


5 10 15 20 25 30 5 50 0

oles

3 1 12 .0 7.2 .0 .0 3. 3.0

5 10 15 20

(

3 0 20 ( 70 1 0 210 ( 70 70 120 1 0 ( 70 0 105 ( 70 70 72 ( 70 0 70 ( 70 0 .7 ( 70 3 2 ( 70 30 35 ( 70

nit

3 1 12 .0



: Gearmotor type

omenclat omenclature ure etails : Refer Refer to page page

rame Si e G5S G10S G15S 20S K25S K30S K 5S K50S K 0S

-

)

and 5

 5.5 5.5 5.5 5.5 5.5 5.5 5.5 5.5 5.5

ase requency

Su Su Su Su Su Su Su Su Su

( ( ( ( ( ( ( ( (

) ) ) ) ) ) ) ) )


C l a s s

2 2 2 2 2 2 3 3 3

S S S S S S S S S

utput Shaft llowable S ctual Torque Tout ( m) Reduction Ratio 0 0 5.05 . 1 .7 20.250 2 . 5 2 .013 .3 51.352 .3 1

13 27 0 5 0 75 7 1203 13 1733

G

utput Shaft imension Sheet llowable age Radial Load l a o n o ro g t 0

2.07 2.07 1. 1. 1 2.07 1. 1 1.53 1.3 1.33

2 50 70 220 12700 15100 1 100 17700 1 700 20300

- M o u n t e d

3 3 3 37 3 3 3 3 3

e - M

o u n t e d

5 5 5 -

0

oles r min

Motor Speed

70 70 70 70 70 70

1 00 omenclature

(

llowable Speed

3 0 20 ( 1 0 210 ( 120 1 0 ( 0 105 (

        

) ) ) ) ) ) ) ) )


0

1 00 omenclature

llowable Speed


r min

Motor Speed


0

0

nit ) ) ) )



: Gearmotor type

omenclat omenclature ure etails : Refer Refer to page page

rame Si e

5S   10S  15S  K20S

-

)

and 5

 7.5 7.5 7.5 7.5

Su Su Su Su Su Su

( ( ( (

) ) ) )


C l a s s

2 2 2 2

S S S S

ctual Reduction Ratio

. 52 . 05 15.352 20.2

utput Shaft llowable S Torque Tout ( m)

G

utput Shaft imension Sheet llowable age Radial Load l a ro o n o

0

0

0

1 7 373 57 7

1. 2 1. 7 1. 0 2.05

2350 0 0 11300 13300

ote:1.  in the omenclature column should be replaced with a symbol representing the gearmotor type. Refer to page details on the nomenclature of main unit. 2. Motor Motor speed represents a typical value. Refer to to Technical ata E for more details. 3. utput shaft allowable radial load represents a value for the output shaft center. . n the range of to 0 , you should select a model according to the allowable torque at 0 .

and

t - M o u n t e d

37 37 37 3

g e - M

o u n t e d

-

5 for more


Series

M E M


A Series

B GearMotor Dimension Sheets

B Gearmotor 3. Dimension Sheets Page

3-phase Motor/Mot Motor/Motor or for Inverter MFG5 FG500 Ser Series A S eries A, B C D E F G H K

R, S, T U, V

Foot-mounted Foot-mounted Flange-mounted Flange-mounted B30 B48 B30 B3 0 B48 B4 8 B31 B49 B32 B50 B33 B51 B34 B52 B35 B53 B36 B54 B37 B38 B39 B55 B40 B56

B42 B58 B42 B4 2 B58 B5 8 A, B B43 B59 C, D B44 B60 E, F B45 B61 G, H B46 B62* K B47 Mark of " * " means that has frame size G only.

Single-phase Motor MFG5 FG500 Ser Series A S eries

B29

MFG500 MFSeries G500 Series Series A

Gearmotor Dimension Sheets (3-phase Motor, Foot-mounted) 3-phase Motor SAV Brak Brake e 3-phase Motor with Brakes SBV Brak Brake e

MFG518D-  RS  -4 MFG51 MFG518D-  RS  -4SAV MFG51 MFG518D-  RS  -4SBV

(TOSH (TOSHIB IBA A motor) (TOSHIBA motor otor)) (TOSHIBA motor otor))

L LM

                      

L LM

2 23 1 1 0 . 0 0 -

1

5 .



1

B GearMotor

M

M





3.5 5 . 0 0 -

5

Dimension Sheets

     

12

0

-

0 1

2 30

-10

2

2 30 110 13

     LE GT LE W RE RE

                     

Motor

Motor Type Type

Reduction Ratio

Capacity

 0.1 3-phase 0.2 0. 0.1 SAV 0.2 3-phase with Brakes 0. 0.1 SBV 0.2

5 5 5 5 5 5

3-phase Motor 3-phase Motor with Brakes

SAV Brake SBV Brake

Nomenclature

L

LM

A

TOSHIBA TOSHIBA

 50  25  50  25  50  25

MFG518D-  RS0.1-4 MFG518D-  RS0.2-4 MFGB518D-  RS0.1-4SAV MFGB518D-  RS0.2-4SAV MFGB518D-  RS0.1-4SBV MFGB518D-  RS0.2-4SBV

221 262 282 318 266 266

  DM H' H

128 169 189 225 173 173

TOSHIBA

65 65 65 65 65 65

113.2 135 11 113.2 135 135 135

MFG522D-  RS  -4 MFG522T-  RS  -4

(TOSH (TOSHIB IBA A motor) or)

MFG522D-  RS  -4SAV MFG522T-  RS  -4SAV

(TOSHIBA motor otor))

MFG522D-  RS  -4SBV MFG522T-  RS  -4SBV

(TOSHIBA motor otor))

L LM

- 127.5 - 12 127.5 12 127.5 12 127.5

127.5 136 127.5 136 136 136

KD

Approximate

J

X

 

TOSHIBA TOSHIBA TOSHIBA TOSHIBA

-

76 76

33 74 94 130 78 78

5.6 6.3 6.6 9.2 7.2 7.8

Symbols should be replaced with the following                

L LM

X

A

36 31

X

J 3 1 0 . 0 0 -

B

2 2



M D

9 1

M D



B

5 . 0 0 -

0 9

12.5 Z

' H H

3.5



     

6

65 90

B-B 2 1

4- 4-12

51.5

30 37

30 37 130 130 154 154

    

LENGTH OF LEAD WIRE

                     

Motor

Motor Type Type

Capacity

3-phase

SAV 3-phase with Brakes SBV

B30

 0.1 0.2 0.2 0.1 0.2 0.2 0.1 0.2 0.2

Reduction Ratio

Nomenclature

60  200 200  30  45  100 100  60  200 200   30 45  100 100  60  200 200  30  45  100 100 

L

LM

TOSHIBA TOSHIBA

249 277 290 310 333 346 294 281 294

128 169 169 189 225 225 173 173 173

  DM H' H

A

TOSHIBA

85 72 85 85 72 85 85 72 85

113.2 135 135 113.2 135 135 135 135 135

- 134.5 134.5 - 13 134.5 13 134.5 13 134.5 13 134.5 13 134.5

134.5 138.5 138.5 134.5 13 138.5 13 138.5 13 138.5 13 138.5 13 138.5

KD

Approximate

J

X

 


-

76 76 76

33 74 74 94 130 130 78 78 78

6.8 6.7 7.4 7.8 9.6 10.3 8.4 8.2 8.9

A Series

Gearmotor Dimension Sheets (3-phase Motor/Motor for Inverter, Foot-mounted) 3-phase Motor SAV SAV Bra Brake Motor with SBV SBV Bra Brake 3-phase Brake F B Brake 3-phase 3-phase Motor Motor for Invert Inverter er

ATA ATA  -  ATBA TBA  -  SSAV ATBA TBA  -  SSBV ATBA  -  SuFB ATA  -  SuI (H)

(TOSHIBA (TOS HIBA motor motor/SU /SUMITOM MITOMO O motor motor)) (TOSHIBA motor otor)) (TOSHIBA motor otor)) (SUMITOMO (SUMITOMO motor otor)) (SUMITOMO (SUMITOMO motor otor))

                          

L LM

A

28

X

J

23 1 1 0 . 0 0 -

B

8 1 

B 0 2

M D 

' H H

3.5

5 . 0 0 -

B

B-B

0 9

Dimension Sheets

2 1

26 KD

12.5

65

GearMotor

6

4-12

43.5

26

30

30

90

130 154

Motor

Motor Type Type

Nomenclature

L

 0.4 25  30 30 G ATA  G-0.4  0.4 5  20 L ATA  L-0.4 

3-phase 3-phase with Brakes

Reduction Ratio

Capacity

C l a s s

SAV FB

0.4

SBV 0. 0.4

For Inverter

TOSHIBA

LM

SUMITOMO

TOSHIBA

KD

Approximate

J

X

 

TOSHIBA SUMITOMO TOSHIBA TOSHIBA SUMITOMO SUMITOMO TOSHIBA TOSHIBA SUMITOMO SUMITOMO TOSHIBA SUMITOMO SUMITOMO

302 302 191 191 302 279.5 191 191 194.5

83 150 150 124 124 149 83 150 124 137 149

22 12.5 13 138 22 12.5 138 138

85 85

86 86

59 59

5  20 L ATBA  L-0.4  34 342 309.5 231 226.5

83 150 124 137 149

22 12 12.5 140

85

*

91 12.1 9.6

5  20 L ATBA  L-0.4SSBV 304 304

83 150 150

22

-

*

- 11.5

-

85

-

59

8.5

-

193 193

5  20 L ATA  L-0.2SuI (H) - 279.5

0.2

A

SUMITOMO

  DM H' H TOSHIBA SUMITOMO

-

- 19 194.5

83

-

-

137 14 149

124 124 137 149 149

-

140 140

- 12.5

-

9.5 8.5 9.5 8.5

-

 Consult us for class G 3-phase motors with brakes and motors for inverter with brakes. Consult us for dimension *.

                      3-phase Motor SAV SAV Bra Brake Motor with SBV SBV Bra Brake 3-phase Brake F B Brake 3-phase 3-phase Motor Motor for Invert Inverter er

ATB  -  ATBB TBB  -  SSAV ATBB TBB  -  SSBV ATBB  -  SuFB ATB  -  SuI (H)

(TOS HIBA motor motor/SU /SUMITOM MITOMO O motor motor)) (TOSHIBA motor otor)) (TOSHIBA motor otor)) (SUMITOMO motor otor)) (SUMITOMO motor otor))

                          

L LM

A

X

36 31

J 1 1 0 . 0 0 -

B M D 

Motor Capacity

3-phase

SAV FB 3-phase with Brakes SBV

For Inverter

 0.4 0.4 0.4 0.4 0.75 0.75 0.75 0.75 .75 0.4 0.4 0.4 0.75 .75 0.4 0.4 0.4 0.75 .75 0.2 0.2 0.4

6

2 2

B

KD

Motor Type Type

2 2 

15

Reduction Ratio

C l a s s

75 25  30 30 45  75 75 5  20 20 25  30 30 45 5  20 20 25  30 45  75 5  20 20 5  20 25  30 45  75 5  20 20 5  20 45  75 75 25  30 30 5  20 20

G L L S G G L L L S L L L S L L L L

75 105

5 . 0 0 -

' H H

3.5

5 0 1

B-B

2 1

Nomenclature

30 35 130 155

L

LM

TOSHIBA SUMITOMO TOSHIBA SUMITOMO

ATB  G-0.4  ATB  L-0.4  ATB  L-0.4  ATB  S-0.4  ATB  G-0.75  ATB  G-0.75  ATB  L-0.75  ATBB TBB  L-0.4  ATBB TBB  L-0.4  ATBB TBB  S-0.4  ATBB TBB  L-0.75  ATBB TBB  L-0.4SSBV ATBB TBB  L-0.4SSBV ATBB TBB  S-0.4SSBV ATBB TBB  L-0.75SSBV ATB  L-0 L-0.2SuI SuI (H) ATB  L-0 L-0.2SuI SuI (H) ATB  L-0 L-0.4SuI SuI (H)

30 35

4-12

54

354 354 346 354 354 346 353 353 361 361 353 386 394 394 386 403 348 348 356 356 348 348 360 360 -

329 337 337 329 36 365 361 361 369 369 361 361 408 408 329 329 337 337 365 365

214 214 214 214 214 214 214 214 221 221 221 221 22 221 254 254 254 254 254 254 271 271 216 216 216 216 216 216 228 228 - -

197 197 197 197 197 197 23 233 22 229 229 229 22 229 276 276 197 197 197 197 233 233

A

Dimension mm DM H' H TOSHIBA SUMITOMO

104 104 96 104 104 96 96 104 104 96 96 104 104 96 96 96 104 104 96 96 104 96 96

150 150 150 150 150 150 150 170 170 170 17 170 150 150 150 150 150 150 170 170 150 150 150 150 150 170 170 -

124 124 124 124 124 124 15 155 12 124 124 124 12 124 155 155 124 124 124 124 155 155

- - - 16 165 165 165 - - - 165 165 165

KD

Approximate

J

X

 

TOSHIBA SUMITOMO TOSHIBA SUMITOMO TOSHIBA SUMITOMO TOSHIBA SUMITOMO

165 165 22 165 22 165 22 165 22 172 172 22 172 172 22 17 172 22 165 22 165 22 165 22 172 172 22 165 165 22 165 165 22 165 165 22 17 172 22 165 165 - 165 165 - 172 -

12.5 12.5 12.5 23 12.5 12.5 12.5 23 12.5 12.5 23

138 138 138 13 138 138 146 146 146 146 14 146 14 140 14 140 14 140 148 148 140 140 140 140 140 140 148 148 -

85 85 85 11 114 85 85 85 114 85 85 114

86 86 86 86 101 101 101 101 10 101 * * * * * * * * -

- 59 59 59 - 97 91 91 91 14 140 - 59 59 97

12.5 12 12 12.5 12.5 12 12 16 16.5 16 14 14.6 13.1 15.1 13.6 14.6 13.1 19 16 14 14.5 14 20 - 12.5 12 14


                     

B31

A Series

Gearmotor Dimension Sheets (3-phase Motor/Motor for Inverter, Foot-mounted) 3-phase Motor SAV SAV Bra Brake 3-phase Motor SBV SBV Bra Brake with Brakes F B Brake 3-phase 3-phase Motor Motor for Invert Inverter er

ATC  -  ATBC TBC  -  SSAV ATBC TBC  -  SSBV ATBC  -  SuFB ATC  -  SuI (H)

(TOSHIBA (TOS HIBA motor motor/SU /SUMITOM MITOMO O motor motor)) (TOSHIBA motor otor)) (TOSHIBA motor otor)) (SUMITOMO (SUMITOMO motor otor)) (SUMITOMO (SUMITOMO motor otor))

                                

L LM

A

J

36

X

31 1 1 0 . 0 0 -

B B

GearMotor

8

6 2

M D 

Dimension Sheets

4 2 

B

' H H

4

5 . 0 0 -

B-B

0 2 1

4 1

33

33

KD

15

90

4-12

54

43

43 140

120

170

Motor Type Type

Motor Capacity

 0.1 0.1 0.2 0.2 0.4 0.4 0.4 0.4 0.4 0.4 3-phase 0.75 0.75 0.75 0.75 0.75 0.75 0.75 .75 1.5 0.1 0.1 0.2 0.2 0.4 0.4 0.4 SAV 0.4 FB 0.75 0.75 0.75 0.75 0.75 .75 1.5 3-phase with Brakes 0.1 0.1 0.2 0.2 0.4 0.4 0.4 SBV 0.4 0.75 0.75 0.75 0.75 0.75 .75 1.5 0.4 For Inverter 0.4 0.75 .75

Reduction Ratio 240  450 130  200 100  150 150 100  150 25  30 45  75 50  75 75 25  30 45  75 5  20 5  20 240  450 450 130  200 200 100  150 150 25  30 45  75 25  30 45  75 5  20 5  20 240  450 450 130  200 200 100  150 150 25  30 45  75 25  30 45  75 5  20 5  20 25  30 45  75 5  20

C l a s s

Nomenclature

L

LM


L ATC  L-0.1  322 322 L ATC  L-0.2  316 316 G ATC  G-0.4  368 368 L ATC  L-0.4  368 S ATC  S-0.4  354 354 S ATC  S-0.4  368 G ATC  G-0.75  375 375 L ATC  L-0.75  361 L ATC  L-0.75  375 S ATC  S-0.75  361 361 L ATC  L-1.5  393 L ATBC  L-0.1  383 383 L ATBC  L-0.2  372 372 L ATBC  L-0.4  40 408 S ATBC  S-0.4  394 394 S ATBC  S-0.4  40 408 L ATBC  L-0.75  41 411 L ATBC  L-0.75  42 425 S ATBC  S-0.75  411 L ATBC  L-1.5  45 455 L ATBC  L-0.1SSBV 367 367 L ATBC  L-0.2SSBV 320 320 L ATBC  L-0.4SSBV 370 370 S ATBC  S-0.4SSBV 356 356 S ATBC  S-0.4SSBV 370 370 L ATBC  L-0.75SSBV L-0.75SSBV 368 368 L ATBC  L-0.75SSBV L-0.75SSBV 382 382 S ATBC  S-0.75SSBV S-0.75SSBV 368 368 L ATBC  L-1.5SSBV 408 408 L ATC  L-0.4SuI (H) S ATC  S-0.4SuI (H) S ATC  S-0.75SuI (H) -

383 383 416 430 491 383 369 416 430 491 373 373 387 387 429 429

128 128 169 169 214 214 214 214 214 214 221 221 221 221 221 221 244 189 189 225 225 254 254 254 254 271 271 271 271 306 173 173 173 173 216 216 216 216 216 216 228 228 228 228 228 228 259 259 -

197 197 233 233 280 229 229 276 276 342 233 233 233 233 280 280

A


158 113.2 111 135 135 118 150 150 118 150 104 104 150 150 118 150 118 170 170 104 170 118 170 104 104 170 170 113 188 158 113.2 111 135 135 118 150 104 104 150 150 118 150 104 170 118 170 104 104 170 170 113 188 158 158 135 135 111 135 135 118 150 150 104 104 150 150 118 150 150 104 104 170 170 118 170 170 104 104 170 170 113 188 188 104 118 104 -

124 124 155 155 167 124 124 155 155 167 155 155 155 155 167 167

185 185 185 185

185 185 185 185 185 185 185 185 185 185 185 185 215 185 185 185 185 185 185 185 185 185 185 215 185 185 185 185 185 185 185 185 185 185 21 215 185 185 185 185 215 215

KD

Approximate

J

X

 


22 22 22 22 22 22 22 22 27 22 22 22 22 22 22 27 22 22 22 22 22 22 27 -

12.5 12.5 23 23 23 12.5 12.5 23 23 23 23 23 23

138 138 138 138 138 138 146 146 146 146 146 146 151 140 140 140 140 140 140 14 148 14 148 148 148 153 140 140 140 140 140 140 148 148 148 148 148 148 153 153 -

85 85 114 114 119 85 85 11 114 11 114 119 114 114 119

33 74 86 86 86 86 101 101 101 101 101 101 123 94 130 130 * * * * * * * 76 48 * * * * * * * -

- 59 - 59 - 97 97 - 100 - 91 - 91 140 140 140 140 - 162 162 - - - - - - - - - 97 97 100 100

16 11 14.5 14.5 13.5 14.5 18.5 17.5 18.5 17.5 21 21.5 17 13.9 17.1 17.1 16.1 17.1 17.1 20.5 20.5 21.5 21.5 20.5 27.2 27.2 17.6 12.6 16.5 15.5 16.5 21.5 22.5 21.5 27.5 - - -

14.5 14.5 15.5 16.5 20.5 15.6 15.6 15.6 15.6 17.5 17.5 18.5 18.5 24.5 24.5 15.5 16.5 20.5


                     

B32

A Series


ATD  -  ATBD TBD  -  SSAV ATBD TBD  -  SSBV ATBD  -  SuFB ATD  -  SuI (H)

(TOSHIBA (TOS HIBA motor/SUMI motor/SUMITOMO TOMO motor motor)) (TOSHIBA motor otor)) (TOSHIBA motor otor)) (SUMITOMO motor otor)) (SUMITOMO motor otor))

                                

L LM

A

58

X

J

53

B

1 1 0 . 0 0 -

2 3 

B

GearMotor

0 1

3 3

M D 

5 . 0 0 -

B

5 3 1

B-B

125

40

4-12

78

Motor Type Type

Capacity

3-phase

SAV FB

3-phase with Brakes

SBV

For Inverter

 0.1 0.2 0.4 0.4 0.4 0.75 0.75 0.75 0.75 .75 1.5 1.5 1.5 1.5 2.2 2.2 2.2 0.1 0.2 0.4 0.4 0.75 0.75 .75 0.75 .75 1.5 1.5 1.5 2.2 0.1 0.2 0.4 0.4 0.75 0.75 .75 0.75 1.5 1.5 1.5 0.2 0.4 0.75 .75 0.75 .75 1.5

Reduction Ratio

C l a s s

540 540  800 L 240 240  450 50 L 200 200 G 200 L 100 100  150 50 S 100 100  150 50 G 100  150 L 25  30 S 45  75 S 50  75 G 5  20 S 25  30 L 45  75 L 25  30 30 G 45 G 5  20 L 540 540  800 L 240 240  450 L 200 L 100 100  150 S 100  150 L 25  30 30 S 45  75 75 S 25  30 L 5  20 S 45  75 L 5  20 L 540 540  800 00 L 240 240  450 L 100 100  150 50 S L 200 200 25  30 S 45  75 75 S 100 100  150 50 L 5  20 20 S 25  30 L 45  75 L 200 L 100 100  150 50 L 25  30 S 45  75 L 5  20 S

Nomenclature

50 170

L

LM


ATD  L-0.1  ATD  L-0.2  ATD  G-0.4  ATD  L-0.4  ATD  S-0.4  ATD  G-0.75  ATD  L-0.75  ATD  S-0.75  ATD  S-0.75  ATD  G-1.5  ATD  S-1.5  ATD  L-1.5  ATD  L-1.5  ATD  G-2.2  ATD  G-2.2  ATD  L-2.2  ATBD  L-0.1  ATBD  L-0.2  ATBD  L-0.4  ATBD  S-0.4  ATBD  L-0.75  ATBD TBD  S-0.75  ATBD TBD  S-0.75  ATBD TBD  L-1.5  ATBD  S-1.5  ATBD TBD  L-1.5  ATBD TBD  L-2.2  ATBD TBD  L-0.1SSBV ATBD  L-0.2SSBV ATBD  S-0.4SSBV ATBD TBD  L-0.4SSBV ATBD  S-0.75SSBV ATBD TBD  S-0.75SSBV ATBD TBD  L-0.75SSBV ATBD TBD  S-1.5SSBV ATBD TBD  L-1.5SSBV ATBD TBD  L-1.5SSBV ATD  L-0.2 L-0.2Su SuII (H) (H) ATD  L-0.4 L-0.4Su SuII (H) (H) ATD  S-0.75Su S-0.75SuII (H) ATD  L-0.75Su L-0.75SuII (H) ATD  S-1.5 S-1.5Su SuII (H) (H)

40

50

155

Motor

Dimension Sheets

7 1

KD

15

H

' H

5

356 356 397 397 402 402 402 402 402 409 409 409 395 395 409 409 444 444 430 430 430 444 464 464 478 478 459 417 417 453 453 442 442 442 459 445 445 459 459 492 492 492 506 521 401 401 401 401 404 404 404 404 402 402 416 416 416 416 445 445 445 445 459 459 -

38 385 42 421 466 466 480 480 48 485 417 417 464 464 528 528 542 542 548 548 385 385 421 421 480 480 480 480 485 485

128 128 169 169 214 214 21 214 214 214 221 221 22 221 221 221 221 221 244 244 244 244 244 244 244 244 278 278 278 278 27 273 189 189 225 225 254 254 254 254 271 271 271 271 271 271 306 306 306 306 306 306 335 335 173 173 173 173 216 216 216 216 228 228 228 228 228 228 259 259 259 259 259 259 -

19 197 23 233 280 280 280 280 29 299 229 229 276 276 342 342 362 362 197 197 233 233 280 280 280 280 299

A


170 113.2 113.2 170 170 135 135 130 130 150 150 13 130 150 130 130 150 150 130 130 170 170 13 130 170 116 170 170 130 130 170 170 142 142 188 188 128 128 188 188 128 128 188 142 142 188 128 128 188 188 142 142 188 188 12 128 198 170 113.2 113.2 170 170 135 135 130 130 150 130 130 150 150 130 130 170 116 170 170 130 130 170 170 128 128 188 128 128 188 188 142 142 188 128 128 198 170 170 135 135 170 170 135 135 130 130 150 150 130 130 150 150 116 170 170 130 130 170 170 130 130 170 170 128 128 188 188 128 128 188 188 142 142 188 188 130 130 130 130 116 116 -

12 124 15 155 167 167 167 167 18 180 124 124 155 155 167 167 167 167 180 180 124 124 155 155 167 167 167 167 180 180

215 215 215 215 215 21 215 215 215 21 215 215 215 215 215 215 215 215 215 215 215 21 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215

246 246 24 246 24 246 24 246 24 246 24 246 24 246 24 246 24 246 24 246 246 246 246 246 24 246 24 246 24 246 246 246 246 246 24 246 246 246 24 246 24 246 246 246 24 246 246 246 246 246 246 246 24 246 24 246 24 246 24 246 24 246 24 246 24 246 24 246 246 246 246 246 246 246 246 246 246 246

210

KD TOSHIBA SUMITOMO

J

Approximate

X

 

TOSHIBA SUMITOMO TOSHIBA SUMITOMO TOSHIBA SUMITOMO

22 138 138 22 12.5 138 85 22 138 138 22 146 146 22 23 146 11 114 22 146 146 22 146 146 27 - 147.5 27 - 147.5 27 23 147.5 11 117 27 23 147.5 11 117 27 - 147.5 27 - 147.5 27 23 139 12 126 22 12.5 140 85 22 140 140 22 23 148 114 22 148 148 22 148 148 27 23 149. 149.5 5 119 27 - 149.5 27 23 149. 149.5 5 119 27 23 141 126 126 76 76 22 140 140 22 140 140 22 148 148 22 148 148 22 148 148 27 - 149.5 27 - 149.5 27 - 149.5 - 12.5 85 23 114 23 117 23 117 23 126 126

33 74 86 86 86 101 101 10 101 101 101 101 101 123 123 123 123 123 123 123 123 123 123 123 123 11 117 94 130 130 * * * * * * * * * 78 78 * * * * * * * * -

- 59 97 100 100 10 100 - - 10 105 - 91 - 14 140 162 - 162 168 - 59 97 100 100 100 100 105 105

25 25.5 24 24 24 28 28 27 28 32 31 31 32 37.5 38.5 35 26 28.4 26.6 26.6 31 30 31 36.7 36.7 36.7 37.7 37.7 40.7 40.7 26.6 27 26 26 31 32 32 37 37 38 -

24 26 30 31 34 25.1 28 34 35 40 24 26 30 31 34

 Consult us for class G 3-phase motors with brakes and motors for inverter with brakes. Consult us for dimension *. Note The above dimension diagrams diagrams are for models models with TOSHIB TOS HIBA A motors. motors. For F or SUMI SU MITO TOMO MO motors, the shape and terminal terminal box position are d different. ifferent.

B33

A Series


ATE  -  ATBE TBE  -  SAV ATBE TBE  -  SBV ATBE  -  SuFB ATE  -  SuI (H)

(TOS HIBA motor/SUMI motor/SUMITOMO TOMO motor motor)) (TOSHIBA motor otor)) (TOSHIBA motor otor)) (SUMITOM (SUMITOMO O motor otor)) (SUMITOMO motor otor))

                              

L LM

A

A

J

58 53 1 1 0 . 0 0 -

B GearMotor

4 3 M D 

Dimension Sheets

8 3 

B

B

0 1 ' H

5

5 . 0 0 -

0 5 1

B-B

2 2

53

4-15

KD

20

140

H

83

53

63

180

63 190 245

Motor Type Type

Motor

Reduction Capacity Ratio  0.1 1000 0.2 540  800 0.4 240  300 0.75 0.75 100 100  150 0.75 200 0.75 200 1.5 25  30 30 1.5 45  75 75 3-phase 1.5 100 1.5 100 2.2 5  20 20 2.2 25  30 30 2.2 45  60 60 2.2 50  60 60 3.7 5  20 20 0.1 1000 0.2 540  800 0.4 240  300 0.75 0.75 100 100  150 0.75 200 1.5 25  30 30 SAV FB 1.5 45  75 75 1.5 100 2.2 5  20 20 3-phase 2.2 25  30 30 with 2.2 45  60 60 Brakes 3.7 5  20 20 0.1 1000 0.2 540  800 0.4 200 0.75 0.75 100 100  150 SBV 0.75 200 1.5 25  30 1.5 45  75 75 1.5 100 0.2 240  300 0.4 200 0.75 100 For Inverter 1.5 25  30 30 1.5 45  60 60 2.2 5  20 20

C l a s s

L L S S G L S S G L S L L G L L L S S L S S L S L L L L L S S L S S L L L L L L S

Nomenclature

L

LM


ATE  L-0.1  ATE  L-0.2  ATE  S-0.4  ATE  S-0.75  ATE  G-0.75  ATE  L-0.75  ATE  S-1.5  ATE  S-1.5  ATE  G-1.5  ATE  L-1.5  ATE  S-2.2  ATE  L-2.2  ATE  L-2.2  ATE  G-2.2  ATE  L-3.7  ATBE  L-0.1  ATBE  L-0.2  ATBE  S-0.4  ATBE  S-0.75  ATBE  L-0.75  ATBE TBE  S-1.5  ATBE TBE  S-1.5  ATBE  L-1.5  ATBE TBE  S-2.2  ATBE TBE  L-2.2  ATBE TBE  L-2.2  ATBE TBE  L-3.7  ATBE  L-0.1SSBV ATBE  L-0.2SSBV ATBE  S-0.4SSBV ATBE  S-0.75SSBV ATBE  L-0.75SSBV ATBE TBE  S-1.5SSBV ATBE TBE  S-1.5SSBV ATBE  L-1.5SSBV ATE  L-0.2 L-0.2Su SuII (H) (H) ATE  L-0.4 L-0.4Su SuII (H) (H) ATE  L-0.7 L-0.75Su 5SuII (H) (H) ATE  L-1.5 L-1.5Su SuII (H) (H) ATE  L-1.5 L-1.5Su SuII (H) (H) ATE  S-2.2 S-2.2Su SuII (H) (H)

371 371 412 412 417 424 424 424 424 424 441 441 459 459 459 459 459 470 470 470 488 488 488 511 432 432 468 468 457 474 474 474 503 503 521 521 521 532 532 532 550 591 416 416 416 416 419 419 431 431 431 431 456 456 474 474 474 474 -

46 466 43 436 495 495 496 496 51 514 519 519 498 498 479 479 557 557 559 559 577 577 591 591 466 466 436 436 495 495 496 496 514 514 519 519

128 128 169 169 21 214 221 221 221 221 22 221 244 244 244 244 244 244 244 244 273 273 27 273 27 273 273 273 314 314 189 189 225 225 254 254 271 271 271 271 306 306 306 306 306 306 335 335 335 335 335 335 394 394 173 173 173 173 216 216 228 228 228 228 259 259 259 259 259 259 -

19 197 23 233 280 280 299 299 29 299 322 322 321 321 276 276 342 362 362 362 362 394 394 197 197 233 233 280 280 299 299 299 299 322 322

A


185 113.2 113.2 185 185 135 14 145 150 145 145 170 145 145 170 14 145 170 139 139 188 157 157 188 157 157 188 157 157 188 139 139 198 139 139 198 15 157 198 157 157 198 139 139 214 185 113.2 113.2 185 185 135 145 145 150 145 145 170 145 145 170 139 139 188 157 157 188 157 157 188 139 139 198 139 139 198 157 157 198 139 139 214 185 185 135 185 185 135 145 145 150 145 145 170 145 145 170 139 139 188 157 157 188 157 157 188 157 145 145 139 145 139 -

12 124 15 155 167 167 180 180 18 180 222 222 124 124 155 155 167 167 180 180 180 180 222 222 124 124 155 155 167 167 180 180 180 180 222 222

237 237 237 237 23 237 237 237 23 237 237 237 237 237 237 237 23 237 23 237 237 23 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237 237

274 274 27 274 27 274 27 274 27 274 27 274 27 274 27 274 274 274 27 274 274 274 27 274 27 274 274 274 274 274 274 274 27 274 274 274 27 274 27 274 274 27 274 274 274 274 274 274 274 274 274 27 274 27 274 27 274 27 274 27 274 27 274 274 274 274 274 274 274 274 274 274 274 274 274

KD TOSHIBA SUMITOMO

Approximate

J

X

 


22 12.5 138 22 146 146 22 146 146 22 23 146 27 - 147.5 27 - 147.5 27 - 147.5 27 23 147.5 27 139 139 27 23 139 139 27 23 139 27 139 139 27 23 151 151 22 12.5 140 22 148 148 22 23 148 27 - 149.5 27 - 149.5 27 23 149. 149.5 5 27 141 141 27 23 141 27 23 141 27 23 153 76 76 22 140 140 22 148 148 22 148 148 27 - 149.5 27 - 149.5 27 - 149.5 - 12.5 23 23 23 23 23 -

87 11 112 11 117 126 126 12 126 147 147 87 114 119 126 126 126 126 147 147 87 112 117 126 126 126 126 147 147

33 74 86 101 101 101 101 10 101 101 101 101 101 123 123 123 123 123 123 117 11 117 117 142 142 94 130 130 * * * * * * * * * * 78 78 * * * * * * -

- 59 97 - 100 100 - 10 105 10 105 127 127 - 91 14 140 - - 162 162 - 168 168 168 199 199 - - 59 97 100 100 105 105 105 105 127 127

33 33.5 32 38 36 36 36 34 38.5 40 40 40 39 42.5 42.5 42.5 41.5 1.5 44 43 44 47.5 47.5 53.5 3.5 34 36.4 34.6 35.7 39 39 36 44.2 45.7 45.7 45.7 43 48.2 48.2 47.5 49.7 49.7 49 54 64.5 4.5 34.6 35 34 40 40 44.5 46 46 38 34 39 - 41.5 43 - 53.5


                     

B34

A Series


ATF  -  ATBF TBF  -  SAV ATBF TBF  -  SBV ATBF  -  SuFB ATF  -  SuI (H)

(TOS HIBA motor motor/SU /SUMITOM MITOMO O motor) motor) (TOSHIBA motor otor)) (TOSHIBA motor otor)) (SUMITOMO motor otor)) (SUMITOMO motor otor))

                          

L LM

A

X

J

82 77

B 1 1 0 . 0 0 -

2 4 

B

GearMotor

2 1

2 4

M D 

B

5 . 0 0 -

0 8 1

B-B

5 2

4-19 KD

20

160

Dimension Sheets

H

' H

5

107

55

55

65

200

65 220 280

Motor Type Type

Motor

Reduction Capacity Ratio  0.2 1000 0.75 200 1.5 130  150 150 1.5 130  150 1.5 100 2.2 75  100 100 2.2 75  100 3-phase 2.2 25  30 30 2.2 45  60 60 3.7 25  30 30 3.7 45  60 60 3.7 5  20 20 5.5 5  15 15 0.2 1000 0.75 200 1.5 130  150 1.5 100 2.2 75  100 SAV 2.2 25  30 30 FB 2.2 45  60 60 3-phase 3.7 25  30 with Brakes 3.7 45  60 3.7 5  20 20 5.5 5  15 15 0.2 1000 0.75 200 SBV 1.5 130  150 1.5 100 0.2 360  450 0.4 240 0.75 0.75 130 130  150 3-phase 1.5 75  100 for Inverter 2.2 25  30 30 2.2 45  60 60 3.7 5  15 15

C l a s s

L S G L S G L S S L L S S L S L S L S S L L S S L S L S S L L L L L S

Nomenclature

L

LM


A


ATF  L-0.2  453 453 169 169 - 202 202 135 - 283 283 320 ATF  S-0.75  465 465 221 221 - 162 162 170 - 283 32 320 ATF  G-1.5  497 497 244 244 - 171 171 188 - 283 32 320 ATF  L-1.5  497 533 533 244 244 280 280 171 171 188 188 167 167 283 283 320 320 ATF  S-1.5  497 497 244 244 - 171 18 188 - 28 283 32 320 ATF  G-2.2  526 526 273 273 - 171 19 198 - 28 283 32 320 ATF  L-2.2  526 552 552 273 273 299 299 171 171 198 198 180 180 283 283 320 320 ATF  S-2.2  505 505 273 273 - 150 150 198 - 283 32 320 ATF  S-2.2  526 526 273 273 - 171 171 198 - 283 32 320 ATF  L-3.7  549 55 557 314 32 322 15 153 21 214 22 222 28 283 32 320 ATF  L-3.7  570 578 578 314 314 322 322 174 174 214 214 222 222 283 283 320 320 ATF  S-3.7  549 549 314 314 - 153 153 214 - 283 32 320 ATF  S-5.5  655.5 55.5 644 644 412.5 12.5 401 401 161 161 252 252 222 222 283 283 320 320 ATBF  L-0.2  509 509 225 225 - 202 202 135 - 283 283 320 ATBF  S-0.75  515 515 271 271 - 162 162 170 - 283 32 320 ATBF  L-1.5  559 595 595 306 342 342 171 171 188 188 167 167 283 283 320 320 ATBF  S-1.5  559 559 306 306 - 171 171 188 - 283 32 320 ATBF  L-2.2  588 615 615 335 362 362 171 171 198 198 180 180 283 283 320 320 ATBF TBF  S-2.2  567 567 335 335 - 150 150 198 - 283 32 320 ATBF TBF  S-2.2  588 588 335 335 - 171 171 198 - 283 32 320 ATBF TBF  L-3.7  629 629 629 394 394 394 153 153 214 214 222 222 283 283 320 320 ATBF TBF  L-3.7  650 650 650 394 394 394 174 174 214 214 222 222 283 283 320 320 ATBF TBF  S-3.7  629 629 394 394 - 153 153 214 - 283 32 320 ATBF TBF  S-5.5  756 716 716 513 473 473 161 161 252 252 222 222 283 283 320 320 ATBF  L-0.2SSBV 457 457 173 173 - 202 202 135 - 283 283 320 ATBF  S-0.75SSBV 472 472 228 228 - 162 162 170 - 283 32 320 ATBF  L-1.5SSBV 512 512 259 259 - 171 171 188 - 283 32 320 ATBF  S-1.5SSBV 512 512 259 259 - 171 171 188 - 283 32 320 ATF  S-0.2 S-0.2Su SuII (H) 504 504 197 197 202 202 - 124 124 283 283 320 ATF  L-0 L-0.4Su .4SuII (H) 540 540 233 233 202 202 - 155 155 283 283 320 ATF  L-0.7 L-0.75Su 5SuII (H) (H) 533 533 280 280 171 171 - 167 167 283 283 320 ATF  L-1 L-1.5Su .5SuII (H) 552 552 299 299 171 171 - 180 180 283 283 320 ATF  L-2 L-2.2Su .2SuII (H) 557 557 322 322 161 161 - 222 222 283 283 320 ATF  L-2 L-2.2Su .2SuII (H) 578 578 322 322 171 171 - 222 222 283 283 320 ATF  S-3.7 S-3.7Su SuII (H) 644 644 401 401 161 161 - 222 222 283 283 320

KD

J

Approximate

X

 


22 27 27 27 27 27 27 27 27 27 27 35 22 27 27 27 27 27 27 27 27 35 22 27 27 - -

23 23 23 23 23 23 23 23 23 23 12.5 23 23 23 23 23 147 147

144 144 147 147 147 147 147 147 141 141 141 141 141 141 141 141 15 151 151 151 151 151 189 189 146 146 149 149 149 149 143 143 143 143 143 143 153 153 153 153 153 153 191 191 76 146 146 149 149 149 149 -

74 101 101 - 123 123 - 11 119 123 123 100 100 123 123 - 117 - 12 126 117 10 105 117 117 - 14 147 135.5 12 127 14 147 135 135.5 127 127 - 135.5 147 147 151 151.5 127 127 130 130 - * - 119 * 162 * - 126 126 * 168 * - * - 147 147 * 199 147 147 * 199 * - 147 147 * 199 78 - * - * - * - 87 - 50.5 119 97 119 100 100 125 125 105 105 147 147 127 127 147 147 127 127 147 147 127 127

45 47.5 51.5 51.5 51.5 50.5 0.5 51.5 55.5 55.5 55.5 54.5 4.5 53 55.5 58 64 60.5 60.5 66.5 6.5 58 72 72 47.9 50.5 57.2 54.5 57.2 61.2 60.5 58.7 61.2 64.5 64.5 75 67 77.5 77.5 64.5 82 83 46.5 51.5 57.5 57.5 - 50.5 - 52.5 - 50.5 - 54.5 64 - 66.5 72


                     

B35

A Series


ATG  -  ATBG TBG  -  SAV ATBG TBG  -  SBV ATBG  -  SuFB ATG  -  SuI (H)

(TOSHIBA (TOS HIBA motor motor/SU /SUMITOM MITOMO O motor motor)) (TOSHIBA motor otor)) (TOSHIBA motor otor)) (SUMITOM (SUMITOMO O motor otor)) (SUMITOMO (SUMITOMO motor otor))

                            

L LM

A

X

B

J

82 77 1 1 0 . 0 0 -

GearMotor

B 7 4

Dimension Sheets

M D 

B

8 4 

4 1

5 . 0 0 -

' H

5.5

0 0 2

B-B

2 3

4-19 KD

20

195

H

65

107

65

75

235

75 270 330

Motor

Motor Type Type

Capacity

3-phase

3-phase with Brakes

SAV FB

SBV

3-phase for Inverter

 1.5 1.5 1.5 2.2 2.2 2.2 3.7 3.7 3.7 5.5 7.5 1.5 1.5 2.2 2.2 3.7 3.7 3.7 5.5 7.5 1.5 1.5 0.2 0.4 0.75 1.5 2.2 3.7 5.5

Reduction Ratio

C l a s s

200 200 130 130  150 130 130  150 130 130  150 75  100 75  100 25  30 30 45  60 60 20 5  15 15 200 130 130  150 130 130  150 75  100 75  100 25  30 30 45  60 60 20 5  15 15 200 130 130  150 540 540  800 300 300  360 200 130 130  150 75  100 20 5  15 15

G L S G L S L S S S S L S L S L S S S S L S S S L L L S S

Nomenclature

L

LM


517 517 ATG  G-1.5  ATG  L-1.5  517 ATG  S-1.5  517 517 546 546 ATG  G-2.2  546 ATG  L-2.2  ATG  S-2.2  546 546 584 ATG  L-3.7  558 558 ATG  S-3.7  ATG  S-3.7  584 584 667. 667.5 5 ATG  S-5.5  ATG  S-7.5  724. 724.5 5 579 ATBG  L-1.5  ATBG  S-1.5  579 579 608 ATBG  L-2.2  ATBG  S-2.2  608 608 664 ATBG  L-3.7  638 ATBG TBG  S-3.7  638 664 ATBG TBG  S-3.7  664 ATBG  S-5.5  768 ATBG TBG  S-7.5  825 532 ATBG  L-1.5SSBV 532 ATBG  S-1.5SSBV 532 532 ATG  S-0.2SuI (H) ATG  S-0.4SuI (H) ATG  L-0.75SuI (H) ATG  L-1.5SuI (H) ATG  L-2.2SuI (H) ATG  S-3.7SuI (H) ATG  S-5.5 S-5.5Su SuII (H) (H) -

244 244 55 553 244 244 244 273 273 57 572 273 273 273 592 592 314 314 314 314 314 656 656 412.5 12.5 671 671 464. 464.5 5 615 615 306 306 306 635 635 335 335 335 664 664 394 394 394 394 394 728 513 766 565 259 259 259 259 524 524 560 560 553 553 572 572 592 592 656 656 671 671 -

28 280 29 299 322 322 401 401 411 342 342 362 362 394 394 473 473 506 506 197 197 233 233 280 280 299 299 322 322 401 401 411 411

A 191 191 19 191 191 191 191 191 19 191 191 191 188 188 162 162 188 188 173 173 178 178 191 191 191 191 191 191 191 191 188 188 162 162 188 188 173 173 178 178 191 191 191 191 245 245 245 245 191 191 191 191 188 188 173 173 173 173


188 18 188 188 198 19 198 198 214 214 214 214 252 252 252 252 188 188 188 198 198 198 214 214 214 214 252 252 188 188 -

16 167 18 180 222 222 222 222 260 260 167 167 180 180 222 222 222 222 260 260 124 124 155 155 167 167 180 180 222 222 222 222 260 260

315 31 315 315 315 31 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315 315

36 362 36 362 36 362 36 362 36 362 36 362 362 362 36 362 36 362 362 362 362 362 362 362 36 362 362 362 36 362 362 362 36 362 36 362 362 362 36 362 36 362 362 362 362 362 362 362 362 362 362 362 362 362 362 362

KD

J

Approximate

X

 


27 27 23 27 27 27 23 27 27 23 27 27 35 23 35 43 27 23 27 27 23 27 27 23 27 27 35 23 35 43 27 27 - 12.5 23 23 23 23 23 43

147 147 14 147 148 148 141 141 14 141 141 141 151 151 151 151 151 151 189 189 189 189 150 150 150 150 143 143 143 143 153 153 153 153 153 153 191 191 150 150 150 150 -

123 123 12 120 123 123 123 117 12 126 117 117 144 144 135.5 - 135.5 - 135.5 147 147 151 151.5 188 188 151. 151.5 5 119 * * 126 126 * * 147 147 * * * 147 147 * 188 188 * * * 87 119 120 120 126 126 82 147 147 188 188 -

10 100 10 105 12 127 127 127 143 143 162 162 - 168 168 - 199 199 - - 199 238 238 59 97 100 100 105 105 127 127 127 127 143 143

71 71 71 75 75 75 80 75 80 89 100 100 76.7 76.7 76.7 80.7 80.7 80.7 86.5 86.5 81.5 86.5 99 110 77 77 -

70 74 86 89 106 74 80 97 10 100 126 126 69 71 70 74 86 89 106 106


                     

B36

A Series


ATH  -  ATBH TBH  -  SAV ATBH TBH  -  SBV ATBH  -  SuFB ATH  -  SuI (H)

(TOS HIBA motor/SUMI motor/SUMITOMO TOMO motor) motor) (TOSHIBA motor otor)) (TOSHIBA motor otor)) (SUMITOM (SUMITOMO O motor otor)) (SUMITOMO motor otor))

                            

L LM

A

X

82

J

B

77

GearMotor

1 1 0 . 0 0 -

6 5 

B

6 1

5 5

M D 

B

' H

6

5 . 0 0 -

5 2 2

B-B 5 3

KD

4-24 25

215

Dimension Sheets

H

112

65

65

85

85

265

300 360

Motor Type Type

Motor Capacity

 1.5 2.2 3.7 3-phase 5.5 5.5 7.5 11 1.5 2.2 3.7 SAV 5.5 3-phase FB with Brakes 5.5 7.5 11 SBV 1. 1.5 0.2 0.4 0.4 3.7 3-phase for Inverter 3.7 5.5 7.5

Reduction Ratio

C l a s s

200 130 130  150 75  100 25  30 45  60 20 5  15 200 130 130  150 75  100 25  30 30 45  60 60 20 5  15 15 200 1000 450 450  540 25  30 45  60 20 5  15

S S S S S S S S S S S S S S S S S S S S S

Nomenclature

L

LM


531 531 ATH  S-1.5  560 560 ATH  S-2.2  ATH  S-3.7  607 607 689. 689.5 5 ATH  S-5.5  713. 713.5 5 ATH  S-5.5  746. 746.5 5 ATH  S-7.5  ATH  S-11  593 593 ATBH  S-1.5  622 622 ATBH  S-2.2  687 687 ATBH  S-3.7  790 ATBH TBH  S-5.5  ATBH TBH  S-5.5  814 847 ATBH  S-7.5  ATBH TBH  S-11  546 ATBH  S-1.5SSBV 546 ATH  S-0.2SuI (H) ATH  S-0.4 S-0.4Su SuII (H) (H) ATH  S-3.7SuI (H) ATH  S-3.7 S-3.7Su SuII (H) (H) ATH  S-5.5SuI (H) ATH  S-7.5SuI (H) -

244 244 273 273 314 314 678 678 412. 412.5 5 702 702 412. 412.5 5 693 693 464. 464.5 5 755 755 306 306 335 335 394 394 750 750 513 774 774 513 788 788 565 768 768 259 259 546 546 582 582 678 678 702 702 693 693 755 755 -

401 401 401 401 411 473 473 473 473 473 473 506 506 568 568 197 197 233 233 401 401 401 411 411 473 473

A


205 205 205 205 211 211 195 195 219 219 200 200 200 200 205 205 205 205 211 211 195 219 200 200 200 205 205 267 267 267 267 195 195 21 211 200 200 200 200

188 198 214 252 252 252 252 252 252 188 198 214 252 252 252 188 -

222 222 222 222 260 260 260 260 222 222 222 222 260 260 260 260 225 225 155 155 222 222 222 222 260 260 260 260

345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345 345

39 393 39 393 39 393 393 393 393 393 393 393 393 39 393 39 393 39 393 393 393 393 393 39 393 393 393 393 393 393 393

KD

J

Approximate

X

 


27 27 27 35 23 35 23 35 43 43 27 27 27 35 23 35 23 35 43 43 27 - 12.5 23 23 23 43 43

154 154 149 149 151 151 189 189 189 189 189 189 156 156 149 149 153 153 191 191 191 156 156 -

123 123 117 - 135.5 147 147 151. 151.5 5 147 147 151. 151.5 5 188 188 151. 151.5 5 188 188 * * * 147 147 * 147 147 * 188 188 * 188 188 * * 85 114 147 147 147 147 188 188 188 188 -

127 127 127 127 143 143 143 143 - - 199 199 199 199 238 238 238 238 59 97 127 127 127 127 143 143 143 143

86 90 95 104 104 109 109 115 91.7 95.7 102 102 114 119 125 92 -

104 109 121 121 139 139 115 115 120 120 141 141 159 159 86 88 104 104 109 109 121 121 139 139


                     

B37

A Series


ATK  -  ATBK TBK  -  SAV ATBK TBK  -  SBV ATBK  -  SuFB ATK  -  SuI (H)

(TOS HIBA motor motor/SU /SUMITOM MITOMO O motor) motor) (TOSHIBA motor otor)) (TOSHIBA motor otor)) (SUMITOM (SUMITOMO O motor otor)) (SUMITOMO motor otor))

                            

L LM

B

A

X

105 105 100

J 1 1 0 . 0 0 -

GearMotor

B

Dimension Sheets

3 6 

8 1

8 5

M D 

5 . 0 0 -

B

0 5 2

' H H

7 B-B

0 4

KD

75

4-24 30

Motor Type Type

Motor

Reduction Capacity Ratio  0.75 1000 1.5 240  540 2.2 200 2.2 240  300 3-phase 3.7 130  150 5.5 75  100 7.5 25  30 7.5 45  60 11 2 20 0 0.75 1000 1.5 240  540 540 2.2 200 2.2 240  300 300 150 3-phase SAV 3.7 130  150 FB with 5.5 75  100 100 Brakes 7.5 25  30 30 7.5 45  60 60 11 20 20 0.75 1000 1.5 240  540 540 SBV 0.4 1000 0.75 0.75 240 240  450 1.5 240  300 3-phase 3.7 75  100 for Inverter 5.5 25  30 5.5 45  60 7.5 20

C l a s s

240 300

Nomenclature

140

75 95

95 340 410

L

LM


611 S ATK  S-0.75  667 667 S ATK  S-1.5  597 597 S ATK  S-2.2  S ATK  S-2.2  696 648 648 S ATK  S-3.7  754 754.5 S ATK  S-5.5  777 777.5 S ATK  S-7.5  811.5 S ATK  S-7.5  S ATK  S-11  S ATBK  S-0.75  661 S ATBK  S-1.5  729 729 S ATBK  S-2.2  659 659 S ATBK  S-2.2  758 728 728 S ATBK  S-3.7  855 S ATBK  S-5.5  878 S ATBK TBK  S-7.5  917 S ATBK TBK  S-7.5  S ATBK  S-11  618 S ATBK  S-0.75SSBV 618 S ATBK  S-1.5SSBV 682 682 S ATK  S-0.4SuI (H) S ATK  S-0.75SuI (H) S ATK  S-1.5 S-1.5SuI SuI (H) (H) S ATK  S-3.7SuI (H) S ATK  S-5.5SuI (H) S ATK  S-5.5SuI (H) S ATK  S-7.5 S-7.5Su SuII (H) (H) -

60 600 221 680 680 244 244 273 273 699 699 273 314 314 720 720 412. 412.5 5 701 701 464. 464.5 5 735 735 464. 464.5 5 763 763 643 643 668 742 742 306 306 335 335 762 762 335 394 394 792 792 513 796 796 565 830 830 565 858 858 228 228 259 259 600 600 680 680 699 699 720 720 701 701 735 735 763 763 -

23 233 280 280 299 299 401 411 411 473 473 276 276 342 362 362 473 473 506 506 506 506 568 568 233 233 280 280 299 299 401 401 411 411 411 411 473 473

  DM KD A TOSHIBA SUMITOMO H' H TOSHIBA SUMITOMO

28 285 318 318 219 219 318 318 229 229 237 237 208 208 242 242 208 208 285 285 318 318 219 219 318 318 229 229 237 237 208 208 242 242 208 208 285 285 318 318 285 285 318 318 318 318 237 237 208 208 242 242 208 208

17 170 188 188 198 198 198 214 252 252 252 252 252 252 170 170 188 188 198 198 198 214 252 252 252 252 252 252 170 188 -

15 155 167 167 180 180 222 260 260 260 260 155 155 167 180 180 222 222 260 260 260 260 260 260 155 155 167 167 180 180 222 222 260 260 260 260 260 260

38 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385 385

44 442 442 442 44 442 442 442 44 442 442 442 442 442 442 442 442 442 442 442 442 442 44 442 442 442 44 442 442 442 442 442 442 442 442 442 44 442 44 442 442 442 442 442 442 442 442 442 442 442 442 442 442 442

22 27 27 27 27 35 35 35 24 27 27 27 27 35 35 35 22 27 -

J

Approximate

X

 


23 146 23 147.5 47.5 149 149 23 139 151 151 23 189 43 189 43 189 43 23 148 23 149.5 49.5 151 151 23 141 153 153 23 191 43 191 43 191 43 148 148 - 149.5 23 23 23 23 43 43 43 -

11 114 101 117 117 123 123 117 126 126 117 - 135.5 147 147 151 151.5 188 188 151 151.5 188 188 151 151.5 188 188 114 * 119 * * 126 126 * * 147 147 * 188 188 * 188 188 * 188 188 * * 114 117 126 126 147 147 188 188 188 188 188 188 -

97 100 100 105 105 127 127 143 143 143 143 143 143 140 140 140 140 168 168 199 199 238 238 238 238 238 238 97 100 100 105 105 127 127 143 143 143 143 143 143

12 121 131 131 120 120 135 135 125 125 139 140 150 124 137 126 126 141 132 132 149 150 160 125 125 137 137 -

11 119 130 130 11 119 139 139 146 146 156 156 164 164 121 121 134 134 125 125 150 150 166 166 176 176 184 184 119 130 130 119 139 139 146 146 156 156 164 164


                     

B38

A Series

Gearmotor Dimension Sheets (3-phase Motor, Foot-mounted) ATR  -  S

3-phase Motor

(T S

        

motor)

L LM

A

J

28 23

X

1 1 0 . 0 0 -

8 1 

B

5 . 6 1 M D 

6

5 8

22

C Motor l Motor Reduction a s Capacity s Type Ratio  3-phase 0. 5  20 G

12

40 64

' H H

3.5

5 . 0 0 -

B

B-B

B

0 1

24 30

4-10

42

GearMotor

24 30

Dimension Sheets

110 134

  omenclature

L

LM

T S

T S

TR  G-0. S

30

pproximate

M

K

T S

1 1

 

T S

150

-

1

T S

22

T S

T S

13 13

.

Consult us for 3-phase motors with brakes. TS  -  S

3-phase Motor

(T S

         

motor)

L LM

A

J

36 31

X

3 1 0 . 0 0 -

2 2 

B

6

9 1

M D 

0 9

KD

C Motor l Motor Reduction a s Capacity s Type Ratio  3-phase 0. 5 0 G

12.5

65 90

' H H

3.5

5 . 0 0 -

B

B-B

2 1

30 37

4-12

51.5

30 37 130 154


L

LM

T S

T S

TS  G-0. S

33

pproximate

M

K

T S

1 1

10

 

T S

150

-

150

T S

22

T S

T S

13

10

Consult us for 3-phase motors with brakes. TT  -  S

3-phase Motor

(T S

         

motor)

L LM

A

X

J

28 23 1 1 0 . 0 0 -

B

0 2 M D 

3-phase

0.75

C l a s s

5  20 G

12.5

65 90

6 ' H H

3.5

5 . 0 0 -

B

KD

Motor Motor Reduction Capacity Type Ratio 

8 1 

B-B

0 0 1

2 1

4-12

43.5

26 30

26 30 130 154


L

LM

T S

TT  G-0.75S

T S

3 1

pproximate

M

K

T S

1

117

 

T S

170

-

1

T S

22

T S

1

T S

101

13.5

Consult us for 3-phase motors with brakes.

B39

Series

Gearmotor imension Sheets (3-phase Motor, Motor, T  -  S

3-phase Motor

(T S

oot-mounted)

        

motor)

L LM

A

J

36 31

X

3 1 0 . 0 0 -

2 2 

B 2 2 M D 

5 . 0 0 -

B

KD

C Motor l Motor Reduction a s Capacity s Type Ratio  3-phase 1.5 5  20 G

15

75 105

H ' H

3.5 B-B

5 1 1

GearMotor imension Sheets

6

2 1

30 35

4-12

54

30 35 130 155


L

LM

T S

T  G-1.5S

M

T S

3

pproximate

K

T S

25

 

T S

1

1 1

215

T S

27

T S

1 7.5

T S

123

20

Consult us for 3-phase motors with brakes. T  -  S

3-phase Motor

(T S

        

motor)

L LM

A

J

36

X

31 3 1 0 . 0 0 -

B

8 2 

8

6 2

M D 

5 . 0 0 -

B

0 2 1

' H H

4 B-B 4 1

33

KD

15

90

4-12

54

120

33

43

43 140 170

C Motor l Motor Reduction a s Capacity s Type Ratio  1.5 25  30 G 3-phase 1.5 5 G 2.2 5  20 G


L

LM

T S

T  G-1.5S T  G-1.5S T  G-2.2S


T S

3 0 27

pproximate

M

K

T S

25 25 27

10 11 113

 

T S

1 1 1

1 2 1 2 1 5

21 21 215

T S

27 27 27

1 7.5 1 7.5 151

T S

T S

123 123 123

21. 22.5 2 .1

Series

M E M


MFG500 A Series Series

Gearmotor Dimension Sheets (Single-phase Motor, Foot-mounted) Single-phase Motor Single-phase Single-phase Motor Motor with with Brakes Brakes (SAVS)

MFGS518D-  RS  -4  : Reduction ratio, ratio,  : Motor capacity [kW] [kW] MFGS 518D518D-  RS  -4SAVS

L LM

L LM

2 23 1 1 0 . 0 0 -

1

5 . 1

B GearMotor

M

M







5 . 0 0 -

3.5

5

Dimension Sheets

0 1

art for Motor with rakes 100 Lead Wire

Motor Type Type

Motor Reduction Capacity Ratio [kW]

0.1 Single-phase 0.2 Single-phase 0.1 with Brakes 0.2

5 5 5 5

   

12

0

2

Nomenclature

L

LM

270.5 290.5 332 347

DM

A

TOSHIBA TOSHIBA

50 MFGS518D-  RS0.1-4 25 MFGS518D-  RS0.2-4 50 MFGSB518D-  RS 0.1-4SAVS 25 MFGSB518D-  RS 0.2-4SAVS

177.5 197.5 239 254

TOSHIBA

65 65 65 65

113.2 113.2 11 113.2 140

M D

A

36 31

B

M D



H

127.5

127.5 127.5 127.5 138.5

B



Z Part for Motor with Brakes Z

Approximate Mass [kg]


-

-

52 52 113.5 108.5

6.3 8 7.3 10.9

2 2



5 0 . 0 0 -

6

100 100 12.5 Lead Wire Outside Length

65 90

H

3.5 B-B 2 1

30 37

4-12

51.5

30 37 110 110 154 154

Dimension [mm]

X

3 1 0 . 0 0 -

0 9

B42

H'

J

L LM X

9 1

0.1 Single-phase 0.2 0.2 0.2 0.1 Single-phase with Brakes 0.2 0.2

KD

MFGS522D-  RS  -4  : Reduction ratio,  : Motor capacity [kW] [kW] MFGS522D-  RS  -4SAVS

L LM X


2 30 110 13

Dimension [mm]

Single-phase Moto M otorr Single-phase Single-phase Motor Motor with with Brakes Brakes (SAVS)

Motor Type Type

2 30

-10

utside Length

Nomenclature

60  200 200 MFGS522 MFG S522TT-  RS0.1-4 30 MFGS522DMFGS522D-  RS0.2-4 45  100 100 MFGS522 MFG S522TT-  RS0.2-4 60  200 MFGS52 MFGS 522T2T-  RS0.1-4SAVS 30 MFGS5 FGS522D-  RS0.2-4SAVS 45  100 MFGS52 MFGS 522T2T-  RS0.2-4SAVS

L

LM

TOSHIBA TOSHIBA

298.5 305.5 318.5 36 360 36 362 37 375

177.5 197.5 197.5 239 254 254

DM

A

TOSHIBA

85 72 85 85 72 85

113.2 113.2 113.2 113.2 140 140

H'

H

134.5 134.5

134.5 134.5 134.5 134.5 141 141

KD

J

X



-

-

52 52 52 113.5 108.5 108.5

7.5 8.4 9.1 8.5 11.3 12

A Series


ASA  -  S  : Reduction ratio,  : Motor capacity [kW] [kW] ASBA  -  SSAVS

L LM

L LM

2 23

1 1 0 . 0 0 -

1



M

M





0 2

Single-phase

Single-phase 0. 0.4 with Brakes

Nomenclature

L

LM

2 30

-12

3.5

2 30

Dimension Sheets

130 15

DM

A

TOSHIBA TOSHIBA

GearMotor

2 1

-

Dimension [mm]


0.4

5 0

B

3.5

0

12.5

art for Motor with rakes

Motor Type Type

5 . 0 0 -

0 0 1

TOSHIBA

H'

H

KD

J

X



5  20 L ASA  L-0.4S

313

202

83

131.2

-

137 137

-

104 104

*

14

5  20 L ASBA ASBA  L-0.4SSAVS

393

282

83

13 131.2

-

137 137

-

104 104

*

17

X


Consult us for dimension *. Single-phase Motor [kW] ASB  -  S  : Reduction ratio,  : Motor capacity [kW] Single-phase Motor with Brakes Brakes (SAVS) (S AVS) ASBB  -  SSAVS L

L

LM

LM

A

36 31

J

B

J

3 1 0 . 0 0 -

2 2 

M D

M D





6

2 2 0 0 1

B

5 . 0 0 -

' H H

3.5

5 0 1

B-B

2 1

X

X

30 Z P art for Motor with Brakes

15

Z

75

4-12

54

30

35

105

35 130 155

Motor Type Type

Dimension [mm]


0.4 0.4 Single-phase 0.4 0.75 .75 0.4 Single-phase 0.4 with Brakes 0.4 0.75 .75

25  45  5  5  25  45  5  5 

30 75 20 20 30 75 20 20

Nomenclature

L

LM

TOSHIBA TOSHIBA

L L S L L L S L

ASB  L-0.4S ASB  L-0.4S ASB  S-0.4S ASB  L-0.75S ASBB ASB B  L-0.4SSAVS ASBB ASB B  L-0.4SSAVS ASBB  S-0.4SSAVS ASBB ASB B  L-0.75SSAVS

357 365 357 403 437 445 437 473

225 225 225 271 305 305 305 341

DM

A

TOSHIBA

96 104 96 96 96 104 96 96

131.2 131.2 131.2 169.2 13 131.2 13 131.2 13 131.2 16 169.2

H' -

H 165 165 165 165 165 165 165 165 165 165 165 165 165 165 165 165

KD

J


-

104 104 104 104 104 104 113 104 104 104 104 104 104 113

* * * * * * * *

16.5 17 16.5 22 19.5 20 19.5 25.6

Consult us for dimension *.

B43

A Series

Gearmotor Dimension Sheets (Single-phase Motor, Foot-mounted) ASC  -  S  : Reduction ratio, ratio,  : Motor capacity [kW] [kW] ASBC  -  SSAVS

Single-phase Motor Single-phase Single-phase Motor Motor with with Brakes Brakes (SAVS)

L LM

A

36 31 3 1 0 . 0 0 -

B

J

B

8

6 2

M D 

GearMotor

4 2 

B

0 0 1

5 . 0 0 -

H ' H

4

0 2 1

B-B

4 1

X

Dimension Sheets

33 15

90

4-12

54

33

43

120

43 140 170

* 0.1 kW to 0.2 kW single-phase motors (without brake) are dip-proof type and their shapes are slightly different. Motor Type Type

Single-phase

Single-phase with Brakes

Dimension [mm]


0.1 0.2 0.4 0.4 0.4 0.75 0.75 0.75 0.75 0.75 0.1 0.2 0.4 0.4 0.4 0.75 0.75 0.75 0.75 0.75

450 240 240  450 130 130 200 200 100 100 150 150 25  30 45  75 25  30 45  75 5  20 450 240 240  450 130 130 200 200 100 150 150 25  30 45  75 25  30 45  75 5  20

Nomenclature

L

LM

TOSHIBA TOSHIBA

ASC  L-0.1S ASC  L-0.2S ASC  L-0.4S ASC  S-0.4S ASC  S-0.4S ASC  L-0.75S ASC  L-0.75S ASC  S-0.75S ASBC  L-0.1SSAVS ASBC  L-0.2SSAVS ASBC  L-0.4SSAVS ASBC ASBC  S-0.4SSAVS ASBC ASBC  S-0.4SSAVS ASBC ASBC  L-0.75SSAVS ASBC ASBC  L-0.75SSAVS ASBC ASBC  S-0.75SSAVS

L L L S S L L S L L L S S L L S

371.5 344.5 379 365 379 411 425 411 433 401 459 445 459 481 495 481

DM

A

17 177.5 197.5 225 225 225 271 271 271 239 254 305 305 305 341 341 341

TOSHIBA

158 111 118 104 118 104 118 104 158 111 118 104 118 104 118 104

11 113.2 11 113.2 131.2 131.2 131.2 169.2 169.2 169.2 113.2 140 13 131.2 13 131.2 13 131.2 169.2 169.2 169.2

H' -

KD

H

J


X


185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185 185

-

-

52 52 104 104 104 104 104 104 113 113 113

104 104 104 104 104 104 113 113 113

* * * * * * 113.5 108.5 * * * * * *

16.7 12.7 17 18 19 23.5 24.5 23.5 17.7 15.6 22 21 22 27.1 28.1 27.1

Consult us for dimension *. Single-phase Motor Single-phase Single-phase Motor Motor with with Brakes Brakes (SAVS)

ASD  -  S  : Reduction ratio,  : Motor capacity [kW] [kW] ASBD  -  SSAVS L LM

A

58 53 0

32 -0.016 0 1 J M D 

5 . 0 0 -

0 0 1

6 5 4 1 2 2

5

5 3 1

7 1

X 15

125 155

78

40 50 4 170

12

40 50

210

* 0.1 kW to 0.2 kW single-phase motors (without brake) are dip-proof type and their shapes are slightly different. Model

Single-phase



0.1 0.2 0.4 0.4 0.75 0.75 0.75 0.75 0.75 0.1 0.2 0.4 0.4 0.75 0.75 0.75 0.75 0.75

Nomenclature

800 L ASD  L-0.1S 540 540  800 450 L ASD  L-0.2S 240 240  450 L ASD ASD  L-0.4S 200 200 100 100 150 150 S ASD  S-0.4S 100 150 150 L ASD  L-0.75S 25  30 S ASD  S-0.75S 45  75 S ASD  S-0.75S 800 L ASBD  L-0.1SSAVS 540 540  800 450 L ASBD  L-0.2SSAVS 240 240  450 200 200 L ASBD  L-0.4SSAVS 100 100 150 150 S ASBD  S-0.4SSAVS 100 150 150 L ASBD  L-0.75SSAVS 25  30 S ASB ASBD D  S-0.75SSAVS 45  75 S ASB ASBD D  S-0.75SSAVS


B44

Dimension [mm]

L

LM

TOSHIBA TOSHIBA

405.5 425.5 413 413 459 445 459 467 482 493 493 529 515 529

17 177.5 19 197.5 225 225 271 271 271 239 254 305 305 341 341 341

DM

A

TOSHIBA

170 170 130 130 130 130 130 170 170 130 130 130 116 130

11 113.2 11 113.2 131.2 131.2 169.2 169.2 169.2 113.2 140 131.2 131.2 169.2 169.2 169.2

H' 215 215 215 215 215 215 215 215 215 215 215 215 215 215

KD

H

J


X


246 246 246 246 246 246 246 246 246 246 246 246 246 246

-

-

52 52 104 104 104 104 113 113 113

104 104 104 104 113 113 113

* * * * * 113.5 108.5 * * * * *

25.7 27.2 28.5 28.5 34 34 34 26.7 30.1 31.5 31.5 37.6 36.6 37.6

A Series

Gearmotor Dimension Sheets (Single-phase Motor, Foot-mounted) ASE  -  S  : Reduction ratio,  : Motor capacity [kW] [kW] ASBE  -  SSAVS SSAVS


L LM

58

A

53 0

38 -0.016 0 1

4 3

J M D 

0 0 1

5 . 0 0 -

0 5 1

7 3 2

4 7 2

B GearMotor

5 2 2

x 20

53

83

140

4 15

Dimension Sheets

53

63

63

180

190 245

* 0.1 kW to 0.2 kW single-phase motors (without brake) are dip-proof type and their shapes are slightly different. Motor Type Type

Single-phase


Dimension [mm]


0.1 0.2 0.4 0.75 0.75 0.1 0.2 0.4 0.75 0.75

10 1000 800 540 540  800 200 200 200 200 100 150 150 10 1000 800 540 540  800 200 200 200 200 100 150 150

Nomenclature

L

LM

A

TOSHIBA TOSHIBA

ASE  L-0.1S ASE  L-0.2S ASE ASE  S-0.4S ASE ASE  L-0.75S ASE  S-0.75S ASBE  L-0.1SSAVS ASBE  L-0.2SSAVS ASBE ASB E  S-0.4SSAVS ASBE ASBE  L-0.75SSAVS ASBE  S-0.75SSAVS

L L S L S L L S L S

420.5 440.5 428 474 474 482 497 508 544 544

DM

17 177.5 197.5 225 271 271 239 254 305 341 341

TOSHIBA

185 185 145 145 145 185 185 145 145 145

11 113.2 135 131.2 169.2 169.2 113.2 140 13 131.2 169.2 169.2

H'

KD

H

237 237 237 237 237 237 237 237 237 237

J


X


274 274 274 274 274 284 274 274 274 274

-

-

52 52 104 104 113 113

106 106 115 115

* * * 113.5 108.5 * * *

33.7 35.2 36.5 42 42 34.7 38.1 39.5 45.6 45.6

Consult us for dimension *. ASF  -  S  : Reduction ratio,  : Motor capacity [kW] [kW] ASBF  -  SSAVS


L A

LM

82 77 0

42 -0.016 2 1

9 3

J M D 

0 3 2 8 3 2

0 0 1

5 . 0 0 -

5

0 8 1

5 2

x 20

55

150

4 19

107

55 65

65

200

220 280

* 0.1 kW to 0.2 kW single-phase motors (without brake) are dip-proof type and their shapes are slightly different. Motor Type Type Single-phase Single-phase with Brakes

Dimension [mm]


0. 0.2 0.75 0.2 0.75

10 1000 200 10 1000 200

Nomenclature

L

LM

TOSHIBA TOSHIBA

L S L S

AS F  L-0.2S AS F  S-0.75S AS BF BF  L-0.2SSAVS AS BF BF  S-0.75SSAVS

481.5 515 538 585

19 197.5 271 254 341

DM

A

TOSHIBA

202 162 202 162

11 113.2 169.2 140 169.2

H' 283 283 283 283

KD

H

J

X



320 320 320 320

-

113 113

52 * 108.5 *

46.7 53.5 49.6 57.1


B45

A Series

Gearmotor Dimension Sheets (Single-phase Motor, Foot-mounted) ASG  -  S  : Reduction ratio,  : Motor capacity [kW] [kW] ASBG  -  SSAVS


L LM

A

J

82 77 1 1 0 . 0 0 -

8 4 

B

B

7 4

J

GearMotor

M D 

B

0 0 1

Dimension Sheets

4 1 ' H

5.5

5 . 0 0 -

0 0 2

B-B

H

2 3

X 4-19 20

195

65

65

75

107

235

75 270 330

Motor Type Type Single-phase Single-phase with Brakes

Dimension [mm]


0.4 0.75 0.4 0.75

540 540 800 800 300 360 360 540 800 800 300 360 360

Nomenclature

L

LM

A

TOSHIBA TOSHIBA

ASG  S-0.4S ASG  S-0.75S ASBG  S-0.4SSAVS ASBG  S-0.75SSAVS

S S S S

552 598 632 668

DM

225 271 305 341

H'

TOSHIBA

245 245 245 245

131.2 169.2 13 131.2 169.2

KD

H

315 315 315 315

J

X



362 362 362 362

-

104 104 113 104 104 113

* * * *

73.5 79 76.5 82.6

Consult us for dimension *. ASH  -  S  : Reduction ratio,  : Motor capacity [kW] [kW] ASBH  -  SSAVS


L LM

A

82

J

77 1 1 0 . 0 0 -

B J

6 5 

6 1

5 5

M D 

B

0 0 1

5 . 0 0 -

5 2 2

' H

6

H

B-B 5 3

X 4-24 25

215

112

65

65

85

85

265

300 360


0. 0.4 0.75 0.4 0.75

10 1000 450 540 540 1000 450 540 540


B46

Dimension [mm]


Nomenclature

L

LM

TOSHIBA TOSHIBA

S S S S

AS H  S-0.4S ASH  S-0.75S ASBH SBH  S-0.4SSAVS ASBH  S-0.75SSAVS

574 620 654 690

225 271 305 341

DM

A

TOSHIBA

267 267 267 267

131.2 169.2 13 131.2 169.2

H' 345 345 345 345

KD

H

J

X



393 393 393 393

-

104 104 113 104 104 113

* * * *

90.5 96 93.5 99.6

A Series


ASK  -  S  : Reduction ratio,  : Motor capacity [kW] [kW] ASBK  -  SSAVS

L LM

A

105 105 100

J 1 1 0 . 0 0 -

B J

3 6 

8 1

B

8 5

M D 

7

5 . 0 0 -

B

0 0 1

0 5 2

GearMotor

' H H

B-B

0 4

Dimension Sheets

X 75

4-24 30

Motor Type Type


240 300

140

75 95

95 340 410

Dimension [mm]

Nomenclature

L

LM

TOSHIBA TOSHIBA

DM

A

TOSHIBA

H'

KD

H

J

X



Single-phase

0.75 1000

S ASK  S-0.75S

661

271

285

169.2

385

442

-

113

*

127 127


0. 0.75 1000

S ASBK SBK  S-0.75SSAVS

731

341

285

169.2

385

442

-

113

*

131 131


B47

M Series G500 G500 Seri Series es

Gearmotor imension Sheets (3-phase Motor, Motor, 3-phase Motor rake 3-phase Motor S with rakes S rake

M G 51 51 M G 51 51 M G 51 51

-  RS  -  RS  - S -  RS  - S

(T S (T S (T S

lange-mounted)

 : Reduction ratio,  : Motor capacity kW ,

motor) motor) motor)

L L

LM

LM

A

28

X

155

23

X

B

5 . 6 1

GearMotor

1 1 0 . 0 0 -

8 1

0 0 - -



6

5 4 1

M D

M D

3 6 4 0

 0 . 1 .





B

5 5 1

7 0 1

3.5

 B-B

imension Sheets

4-11 10

      Z

3

      LENGTH OF LEAD WIRE

Motor

Motor Type

Capacity

3-phase 3-phase with rakes

S S

kW 0.1 0.2 0.1 0.2 0.1 0.2

Reduction Ratio      

5 5 5 5 5 5

3-phase Motor rake 3-phase Motor S with rakes S rake

50 25 50 25 50 25

omenclature

L T S

M M M M M M

G 51 -  RS0.1G 51 -  RS0.2G 51 -  RS0.1.1- S G 51 -  RS0.2.2- S G 51 -  RS0.1.1- S G 51 -  RS0.2.2- S

imension mm M K

LM T S

221 2 2 2 2 31 2 2

T S

12 1 1 225 173 173

5 5 5 5 5 5

113.2 135 113.2 135 135 135

M G 522 -  RS  -  M G 522T-  RS  M G 52 522 -  RS  - S  M G 522T-  RS  - S

(T S (T S

motor) motor)

M G 52 522 -  RS  - S

(T S

motor)

 M G 522T-  RS  - S

T S

-

pproximate Mass kg

T S

T S

-

T S

33 7

5. . . .5 7.5 .1

130 7 7

7 7

 : Reduction ratio,  : Motor capacity kW ,

L LM

L

A

36

165

31

X

LM X

3 1 0 . 0 0 -

B

2 2

3 6

0  4 0 . 1 . 0 0 -

M D



8 4 1

9 1

M D





B

6

5 6 1

5 1 8

3.5

 B-B

12

4-11

4

      Z

      LENGTH OF LEAD WIRE

Motor

Motor Type

Capacity

3-phase

S 3-phase with rakes S

kW 0.1 0.2 0.2 0.1 0.2 0.2 0.1 0.2 0.2

Reduction Ratio 0 30 5 0 30 5 0 30 5

 200 M M  100 M  200 M M  100 M  200 M M  100 M

omenclature

L

LM

T S

G 522T-  RS0.1G 52 522 -  RS0.2G 522T-  RS0.2G 522T-  RS0. RS0.1 1- S G 522 -  RS0. RS0.22- S G 522T-  RS0. RS0.2 2- S G 522T-  RS0. RS0.1 1- S G 522 -  RS0. RS0.22- S G 522T-  RS0. RS0.2 2- S

imension mm M K

T S

2 277 2 0 310 333 3 2 2 1 2

T S

12 1 1 1 225 225 173 173 173

5 72 5 5 72 5 5 72 5

113.2 135 135 113.2 135 135 135 135 135

T S

-

pproximate Mass kg

T S

T S

-

T S

33 7 7

7 7 7

130 130 7 7 7

7.2 7.1 7. .2 10 10.7 . . .3

Series

Gearmotor imension Sheets (3-phase Motor Motor for nverter, T  -  T  -  SS T  -  SS T  -  Su T  -  Su ( )

3-phase Motor S rake 3-phase Motor S rake with rakes rake 3 -phase Motor for nv nver ter

lange-mounted)

S motor S M T M motor)  : Reduction ratio,  : Motor manufacturer,  : Motor S motor) Motor capacity capacity kW ,  : rake type S motor) M T M motor) M T M motor)

(T (T (T (S (S

L

J

LM

A

X

34

11

160

3 28 1 1 0 . 0 0 -

8 1 

B 0 2 M D 

3 6 4 0 0 . 1 . 0 - 0 -

6

0 4 1 

B

GearMotor

0 8

imension Sheets

3.5 B-B

0 9

0 1 6

 -10

23 KD

Motor Type 3-phase 3-phase S with rakes S or nverter

C l a s s

omenclature

0. 0.

25  30 G 5  20 L

T  G-0.  T  L-0. 

0.

5  20

L

T

0. 0.

5  20 5  20

L L

Motor Capacity

kW

Reduction Ratio

L T S

imension mm M K

LM

S MT M

T S

S MT M

T S

S MT M

T S

pproximate Mass kg S MT M

T S

S MT M

302 302 27 .5

1 1 1 1

1 5

77 77

150 150

12 12

22 12 12.5 22 12.5

13 13

5 5

 L-0. 

3 2 30 .5 .5

231

227

77

150

12

22 12.5

1 0

5

 L-0. SS T T  L-0. Su ( )

30 - 27 .5

1 3 -

1 5

77 77

150 -

12 12

22 12.5

1 0 -

T S

S MT M

5 5

T S

10 10

1 12.

-

5

-

S MT M

1

12 -

10.1 -

 Consult us for class G 3-phase motors with brakes and motors for inverter with brakes. Consult us for dimension . ote: ote: The The abo above ve dime dimens nsio ion n dia diagr gram amss are are for for mode models ls with with T S   -  T  T  -  SS T  -  SS T  -  Su   -  Su ( ) T 

3-phase Motor S rake 3-phase Motor S rake with rakes rake 3 -phase Motor for nv nver ter

(T (T (T (S (S

moto motors rs..

or S M T M motors motors,, the the shape shape and termin terminal al box box positio position n are are diff differe erent. nt.

S motor S M T M motor)  : Reduction ratio,  : Motor manufacturer,  : Motor S motor) Motor capacity capacity kW ,  : rake type S motor) M T M motor) M T M motor) J

L LM

A

X

42 11

180

3 36 3 1 0 . 0 0 -

0 9

2 2 6  3 4 0

B

2 2

6

0 . 1 . 0 - 0 -

M D 

0 6 1 

B

0 1 8



3.5

0 0 1

B-B -10

31 KD

Motor Type

3-phase

S 3-phase with rakes S

or nverter

Motor Capacity

kW 0. 0. 0. 0. 0.75 0.75 0.75 0. 0. 0. 0.75 0. 0. 0. 0.75 0.2 0.2 0.

Reduction Ratio 75 25 5 5 25 5 5 25 5 5 5 25 5 5 5 5 25 5

               

C l a s s

G 30 L 75 L 20 S 30 G G 20 L 30 L 75 L 20 S 20 L 30 L 75 L 20 S 20 L 75 L 30 S 20 L

omenclature

L T S

T T T T T T T T T T T T T T T T T T

 G-0.   L-0.   L-0.   S-0.   G-0.75   G-0.75   L-0.75   L-0.   L-0.   S-0.   L-0.75   L-0. SS  L-0. SS  S-0. SS  L-0.75SS  L-0. Su ( )  S-0. Su ( )  L-0.75Su ( )

S MT M

35 3 35 3 353 3 1 353 3 3 3 03 3 35 3 3 0 -

imension mm M K

LM 32 3 32 3 5 3 1 3 3 1 0 32 337 3 5

T S

S MT M

21 21 21 21 221 221 221 25 25 25 271 21 21 21 22 -

1 7 1 7 1 7 233 22 22 22 27 1 7 1 7 233

T S

0 0 0 0 0 0 0 0 0 0 0 0

150 150 150 150 170 170 170 150 150 150 170 150 150 150 170 -

S MT M

12 12 12 155 12 12 12 155 12 12 155

T S

22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 -


12 1 2.5 12.5 12 1 2.5 23 12 1 2.5 12.5 12 1 2.5 23 12.5 12.5 23

T S

13 13 13 13 1 1 1 1 0 1 0 1 0 1 1 0 1 0 1 0 1 -

S MT M

-

T S

S MT M

5 5 5 101 101 11 101 7 5 1 5 1 5 1 11 1 0 5 1 5 1 11 7 5 5 5

T S

S MT M

13 12.5 13 12.5 1 .5 17 1 .5 15 1 5.1 15. 15 1 5.1 1 .5 1 .5 15 1 .5 20.5 -

12 1 2.5 13 12 1 2.5 1 .5 13 1 3. 1 .1 13 1 3. 1 .5 13 12.5 1 .5

 Consult us for class G 3-phase motors with brakes and motors for inverter with brakes. Consult us for dimension . ote: ote: The The abov above e dime dimens nsio ion n dia diagr gram amss are are for for mod model elss wit with hT S

moto motors rs..

or S M T M motors motors,, the the shape shape and termin terminal al box positi position on are differ different ent..

Series

Gearmotor imension Sheets (3-phase Motor Motor for nverter, 3-phase Motor S 3-phase Motor S with rakes

rake rake rake 3-phase Motor for nverter

TC  - 

(T S

T C  -  SS T C  -  SS T C  -  Su T  -  Su ( )

(T (T (S (S

motor S M T M motor)  : Reduction ratio,  : Motor manufacturer,  : Motor Motor capacity capacity kW ,  :

S motor) S motor) M T M motor) M T M motor)

L LM X

rake type

J A

42 12

210

3 36 3 1 0 . 0 0 -

GearMotor

6 2

imension Sheets

lange-mounted)

M D 

4 2 6  3 4 0

B

0 . 1 . 0 - 0 -

0 8 1 

B

5 0 1 8

5 2 2

4



5 1 1

B-B 31

4-12

KD

Motor Type

3-phase

S

3-phase with rakes

S

3-phase for nverter

Motor Capacity

kW 0.1 0.2 0. 0. 0. 0. 0.75 0.75 0.75 0.75 1.5 0.1 0.2 0. 0. 0. 0.75 0.75 0.75 1.5 0.1 0.2 0. 0. 0. 0.75 0.75 0.75 1.5 0. 0. 0.75

Reduction Ratio

C l a s s

2 0  50 130  200 100  150 100  150 25  75 25  75 50  75 25  30 5  75 5  20 5  20 2 0  50 130  200 100  150 25  75 25  75 25  75 25  75 5  20 5  20 2 0  50 130  200 100  150 25  30 5  75 25  30 5  75 5  20 5  20 25  30 5  75 5  20

L L G L S S G L L S L L L L S S L L S L L L L S S L L S L L S S

omenclature

L T S

TC  L-0.1  TC  L-0.2  TC  G-0.  TC  L-0.  TC  S-0.  TC  S-0.  TC  G-0.75  TC  L-0.75  TC  L-0.75  TC  S-0.75  TC  L-1.5  T C  L-0.1  T C  L-0.2  T C  L-0.  T C  S-0.  T C  S-0.  T C  L-0.75  T C  L-0.75  T C  S-0.75  T C  L-1.5  T C  L-0.1SS T C  L-0.2SS T C  L-0. SS T C  S-0. SS T C  S-0. SS T C  L-0.75SS T C  L-0.75SS T C  S-0.75SS T C  L-1.5SS TC  L-0. Su ( ) TC  S-0. Su ( ) TC  S-0.75Su ( )

S MT M

322 31 3 3 35 3 375 3 1 375 3 1 3 3 3 3 372 0 3 0 11 25 11 55 3 7 320 370 35 370 3 3 2 3 0 -

imension mm M K

LM 3 3 3 3 1 30 1 3 3 3 1 30 1 373 3 7 2

T S

S MT M

12 1 21 21 21 21 221 221 221 221 2 1 225 25 25 25 271 271 271 30 173 173 21 21 21 22 22 22 25

1 7 1 7 233 233 2 0 22 22 27 27 3 2 1 0 15 1

T S

152 152 113.2 13.2 105 135 112 150 112 150 150 112 150 112 170 170 121 170 170 107 1 152 152 113.2 13.2 105 135 112 150 150 112 150 170 112 170 170 107 1 152 135 105 135 112 150 150 112 150 170 112 170 170 107 1 112 -

S MT M

12 12 155 155 1 7 12 12 155 155 1 7 155 155 1 7

T S

22 22 22 22 22 22 22 22 27 22 22 22 22 22 22 27 22 22 22 22 22 22 27 -


T S

13 12 12.5 13 13 12 12.5 13 1 23 1 23 1 1 23 151 12.5 1 0 1 0 12 1 2.5 1 0 23 1 23 1 1 23 153 7 1 0 1 0 1 0 1 1 1 153 23 23 23 -

S MT M

-

T S

S MT M

33 7

5 5 11 11 11 5 5 11 11 11 11 11 11

5 5 101 101 7 101 7 101 123 100 130 1 1 1 0 1 0 1 2 7 7 7 7 7

T S

S MT M

1 .5 11.5 15 15 15 1 15 15 1 1 1 1 17 1 22 21 17.5 1 . 17. 1 .1 1 . 17 1 7. 1 .1 21 1 22 1 21 27 2 7.7 25 1 .1 13 17 1 17 22 23 22 2 1 17 21

 Consult us for class G 3-phase motors with brakes and motors for inverter with brakes. Consult us for dimension . ote: The The abo above ve dime dimens nsio ion n dia diagr gram amss are are for for mod model elss wit with hT S

moto motors rs..

or S M T M motors motors,, the the shap shape e and and term termina inall box box posi positio tion n are are dif differ ferent ent..

Series

Gearmotor imension Sheets (3-phase Motor Motor for nverter, 3-phase Motor S rake 3-phase Motor S rake with rakes ra rake 3 -phase Motor for nv nver ter

T  -  T  -  SSS T  -  SS  -  Su T  -  Su ( ) T


(T (T (T (S (S

L LM X

lange-mounted)

J A

66 16

260

3 58 6 1 0 . 0 0 -

B

0 1

0 . 1 . 0 - 0 -

0 3 2 

3 3

M D 

B

7 0 2

5



Motor Type

3-phase

S

3-phase with rakes

S

3-phase for nverter

Motor Capacity

kW 0.1 0.2 0. 0. 0. 0.75 0.75 0.75 0.75 1.5 1.5 1.5 1.5 2.2 2.2 2.2 0.1 0.2 0. 0. 0.75 0.75 0.75 1.5 1.5 1.5 2.2 0.1 0.2 0. 0. 0.75 0.75 0.75 1.5 1.5 1.5 0.2 0. 0.75 0.75 1.5

Reduction Ratio

C l a s s

5 0  00 2 0  50 200 200 100  150 100  150 100  150 25  30 5  75 50  75 5  20 25  30 5  75 25  30 5 5  20 5 0  00 2 0  50 200 100  150 100  150 25  75 25  75 25  30 5  20 50  75 5  20 5 0  00 2 0  50 100  150 200 25  30 5  75 100  150 5  20 25  30 5  75 100  150 100  150 25  30 5  75 5  20

L L G L S G L S S G S L L G G L L L L S L S S L S L L L L S L S S L S L L S L S L S

4-15

53

omenclature

L T S

T  L-0.1  T  L-0.2  T  G-0.  T  L-0.  T  S-0.  T  G-0.75  T  L-0.75  T  S-0.75  T  S-0.75  T  G-1.5  T  S-1.5  T  L-1.5  T  L-1.5  T  G-2.2  T  G-2.2  T  L-2.2   L-0.1  T T  L-0.2   L-0.  T T  S-0.   L-0.75  T  S-0.75  T T  S-0.75   L-1.5  T T  S-1.5   L-1.5  T T  L-2.2   L-0.1SS T  L-0.2SS T  S-0. SS T  L- 0. T 0. SS T  S-0.75SS  S-0.75SS T  L-0.75SS T T  S-1.5SS  L-1.5SS T  L-1.5SS T T  S-0.2Su ( ) T  L-0. Su ( ) T  S-0.75Su ( ) T  L-0.75Su ( ) T  S-1.5Su ( )

imension Sheets

0 3 1

B-B

KD

GearMotor

0 3 1

2 3 2  0 5 2

S MT M

35 3 7 02 02 02 0 0 3 5 0 30 30

3 5 21 0

7 5 17 53 2 2 5 5 5 2 2 50 52 01 01 0 0 02 1 1 5 5 5 -

imension mm M K

LM

5 17 52 5 2 5 3 5 21 0 0 5

T S

S MT M

12 1 21 21 21 221 221 221 221 2 2 2 2 27 27 273 1 225 25 25 271 271 271 30 30 30 3 0 173 173 21 21 22 22 22 25 25 25 -

1 7 233 2 0 2 0 2 22 27 3 2 3 2 3 2 1 7 233 2 0 2 0 2

T S

1 2 113.2 1 2 135 122 150 122 150 122 150 122 170 122 170 10 170 122 170 13 1 120 1 120 1 13 1 120 1 13 1 120 1 1 2 113.2 1 2 135 122 150 122 150 122 170 10 170 122 170 120 1 120 1 13 1 120 1 1 2 135 1 2 135 122 150 122 150 10 170 122 170 122 170 120 1 120 1 13 1 122 122 10 13 120 -

S MT M

12 155 1 7 1 7 1 0 12 155 1 7 1 7 1 0 12 155 1 7 1 7 1 0

T S


T S

22 13 22 12 1 2.5 13 22 13 22 1 22 23 1 22 1 22 1 27 - 1 7.5 27 - 1 7.5 27 23 1 7.5 27 23 1 7.5 27 - 1 7.5 27 - 1 7.5 27 23 13 22 12 1 2.5 1 0 22 1 0 22 23 1 22 1 22 1 27 23 1 .5 27 - 1 .5 27 23 1 .5 27 23 1 .5 .5 7 7 22 1 0 22 1 0 22 1 22 1 22 1 27 - 1 .5 27 - 1 .5 27 - 1 .5 12.5 23 23 23 23 -

S MT M

-

T S

S MT M

33 7

5 101 11 101 101 101 123 123 117 123 117 123 123 123 12 117 5 11 11 11 12 5 7 100 100 105 -

5 7 100 100 105 1 1 0 1 2 1 2 1 5 7 100 100 105

T S

S MT M

2 2 .5 27 27 27 27 31 31 2 30 31 35 3 3 33 35 3 0.5 1.5 3 37 2 31. 2 . 2 .1 2 . 3 31 33 3 3 .7 37 3 .7 0.7 3 .2 3 2 . 30 2 2 3 35 35 0 0 1 27 2 33 3 37


moto motors rs..


Series

Gearmotor imension Sheets (3-phase Motor Motor for nverter, 3-phase Motor S rake 3-phase Motor S rake with rakes ra rake 3 -phase Motor for n ve ver ter

TE  -  T E  -  SS T E  -  SS T E  -  Su TE  -  Su ( )

(T (T (T (S (S


L LM X

J A 16

68

300

5 58 6 1 0 . 0 0 -

GearMotor

4 3

imension Sheets

M D 

B

0 5 1

8 3 2  0 5 2

0 1

0 . 1 . 0 - 0 -

0 5 2 

B

0 3 1

5



0 5 1

B-B 53

4-19

KD

Motor Type

3-phase

S

3-phase with rakes

S

3-phase for nverter

Motor

Reduction Capacity Ratio kW 0.1 1000 0.2 5 0  00 0. 200 0.75 100  150 0.75 200 0.75 200 1.5 25  30 1.5 5  75 1.5 100 1.5 100 2.2 5  20 2.2 25  30 2.2 5  0 2.2 50  0 3.7 5  20 0.1 1000 0.2 5 0  00 0. 200 0.75 100  150 0.75 200 1.5 25  30 1.5 5  75 1.5 100 2.2 5  20 2.2 25  0 2.2 25  0 3.7 5  20 0.1 1000 0.2 5 0  00 0. 200 0.75 100  150 0.75 200 1.5 25  30 1.5 5  75 1.5 100 0.2 2 0  300 0. 200 0.75 100 1.5 25  30 1.5 5  0 2.2 5  20

C l a s s

L L S S G L S S G L S L L G L L L S S L S S L S L L L L L S S L S S L L L L L L S

lange-mounted)

omenclature

L T S

TE  L-0.1  TE  L-0.2  TE  S-0.  TE  S-0.75  TE  G-0.75  TE  L-0.75  TE  S-1.5  TE  S-1.5  TE  G-1.5  TE  L-1.5  TE  S-2.2  TE  L-2.2  TE  L-2.2  TE  G-2.2  TE  L-3.7  T E  L-0.1  T E  L-0.2  T E  S-0.  T E  S-0.75 

S MT M

371 12 17 2 2 2 1 5 5 5 70 70

511 32

57 7 T E  L-0.75  7 T E  S-1.5  503 T E  S-1.5  521 T E  L-1.5  521 T E  S-2.2  537 T E  L-2.2  537 T E  L-2.2  555 T E  L-3.7  03 T E  L-0.1SS 1 T E  L-0.2SS 1 T E  S- 0. 0. SS 1  T E S-0.75SS 31 T E  L-0.75SS 31 T E  S-1.5SS 5 T E  S-1.5SS 7 T E  L-1.5SS 7 TE  L-0.2Su ( ) TE  L-0. Su ( ) TE  L-0 .7 5Su ( ) TE  L-1.5Su ( ) TE  L-1.5Su ( ) TE  S-2.2Su ( ) -

imension mm M K

LM 3 5 51 51 7 557 55 577 5 1 3 5 51 51

T S

S MT M

12 1 21 221 221 221 2 2 2 2 273 273 273 273 31 1 225 25 271 271 30 30 30 3 0 3 0 3 0 0 173 173 21 22 22 25 25 25 -

1 7 233 2 0 2 2 322 321 27 3 2 3 2 3 2 3 1 7 233 2 0 2 2 322

T S

175 175 113.2 13.2 175 135 135 150 135 170 135 170 135 170 12 1 1 7 1 1 7 1 1 7 1 12 1 12 1 1 7 1 1 7 1 12 21 175 175 113.2 13.2 175 135 135 150 135 170 135 170 12 1 1 7 1 1 7 1 12 1 12 1 1 7 1 12 202 175 135 175 135 135 150 135 170 135 170 12 1 1 7 1 1 7 1 175 135 135 12 135 12 -

S MT M

12 155 1 7 1 0 1 0 222 12 155 1 7 1 0 1 0 222 12 155 1 7 1 0 1 0 222

T S


T S

S MT M

T S

33 7 22 12.5 13 7 22 1 101 22 1 101 22 23 1 112 101 27 - 1 7.5 101 27 - 1 7.5 101 27 - 1 7.5 123 27 23 1 7.5 117 123 27 13 123 27 23 13 12 117 27 23 13 12 117 27 13 117 27 23 151 1 7 1 2 22 12 1 2.5 1 0 7 22 1 22 23 1 11 27 - 1 .5 27 - 1 .5 27 23 1 .5 11 27 - 1 .5 27 23 1 .5 12 27 23 1 .5 12 27 23 15 1 7 7 7 22 1 0 22 1 22 1 27 - 1 .5 27 - 1 .5 27 - 1 .5 12.5 7 23 112 23 117 23 12 23 12 23 1 7 -

S MT M

5 7 100 105 105 127 1 1 0 1 2 1 1 1 5 7 100 105 105 127

T S

S MT M

3 .5 37 35.5 1.5 3 .5 3 .5 3 .5 .5 37.5 2 3.5 3.5 3.5 2.5 5 7.5 .5 7.5 51 57 37.5 3 . 3 .1 3 2.5 2.5 3 .5 7.7 .2 .2 .5 5 .2 5 .2 51 55.7 52.5 2 3 .1 3 .5 37.5 3.5 3.5 .5 .5 1.5 37.5 2.5 5 .5 57

 Consult us for class G 3-phase motors with brakes and motors for inverter with brakes. Consult us for dimension . ote: The The abo above ve dime dimens nsio ion n dia diagr gram amss are are for for mod model elss wit with hT S

moto motors rs..


Series

Gearmotor imension Sheets (3-phase Motor Motor for nverter, 3-phase Motor S rake 3-phase Motor S rake with rakes ra rake 3 -phase Motor for nv nver ter

T  -  T  -  SS T  -  SS T  -  Su T  -  Su ( )

(T (T (T (S (S

lange-mounted)

S motor S M T M motor)  : Reduction ratio,  : Motor manufacturer,  : Motor S motor) Motor capacity capacity kW ,  : rake type S motor) M T M motor) M T M motor) J

L LM

A 20

X

92 5

390

82

B

6 1 0 . 0 0 -

2 1

0 . 1 . 0 - 0 -

2 4

M D 

B

0 1 3 

Motor Type

3-phase

S 3-phase with rakes

S

3-phase for nverter

Motor

Reduction Capacity Ratio kW 0.2 1000 0.75 20 200 1.5 130  150 1.5 130  150 1.5 100 2.2 75  100 2.2 75  100 2.2 25  30 2.2 5  0 3.7 25  30 3.7 5  0 3.7 5  20 5.5 5  15 0.2 1000 0.75 200 1.5 130  150 1.5 100 2.2 75  100 2.2 25  30 2.2 5  0 3.7 25  30 3.7 5  0 3.7 5  20 5.5 5  15 0.2 1000 0.75 200 1.5 130  150 1.5 100 0.2 3 0  50 0. 2 0 0.75 130  150 1.5 75  100 2.2 75  100 2.2 5  0 3.7 5  15



77

C l a s s

L S G L S G L S S L L S S L S L S L S S L L S S L S L S S L L L L L S

0 8 1

6-19

omenclature

L T S

T T T T T T T T T T T T T T T T T T T T T T T T T T T T T T T T T T T

 L-0.2   S-0.75   G-1.5   L-1.5   S-1.5   G-2.2   L-2.2   S-2.2   S-2.2   L-3.7   L-3.7   S-3.7   S-5.5   L-0.2   S-0.75   L-1.5   S-1.5   L-2.2   S-2.2   S-2.2   L-3.7   L-3.7   S-3.7   S-5.5   L-0.2SS  S-0.75SS  L-1.5SS  S-1.5SS  S-0.2Su ( )  L-0.75Su ( )  L-1.5Su ( )  L-1.5Su ( )  L-2.2Su ( )  L-2.2Su ( )  S-3.7Su ( )

imension Sheets

0 5 3

5 B-B

KD

GearMotor

0 8 1

2 4 7  6 5 3

S MT M

53 5 7 7 7 52 52 505 52 5 570 5 5 50 515 55 55 5 3 572 5 3 1 2 1 75 57 72 512 512 -

imension mm M K

LM 533 552 557 57 5 5 15 2 50 71 50 5 0 533 552 557 57

T S

S MT M

1 221 2 2 2 273 273 273 273 31 31 31 13 225 271 30 30 3 0 3 0 3 0 0 0 0 515 173 22 25 25 -

2 0 2 322 322 01 3 2 3 2 3 3 73 1 7 233 2 0 2 322 322 01

T S

1 2 135 152 170 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 1 1 1 1 1 3 21 1 21 1 3 21 151 252 1 2 135 152 170 1 1 1 1 1 1 1 1 1 1 0 1 1 1 1 1 3 20 2 02 1 202 1 3 202 151 2 3 1 2 135 152 170 1 1 1 1 1 1 1 2 1 2 1 1 1 1 1 1 1 1 151 -

S MT M

1 7 1 0 222 222 222 1 7 1 0 22 2 22 222 222 12 155 1 7 1 0 222 222 222

T S


T S

S MT M

T S

7 22 1 101 27 1 7 123 27 23 1 7 11 123 27 1 7 123 27 1 1 117 27 23 1 1 12 117 27 1 1 117 27 1 1 117 27 23 151 1 7 13 27 23 151 1 7 13 27 151 13 35 23 1 1 7 152 22 1 27 23 1 11 27 1 27 23 1 12 27 1 27 1 27 23 15 15 1 7 27 23 15 1 7 27 15 35 23 1 1 1 7 7 22 1 27 1 27 1 12.5 7 23 11 23 11 23 125 23 1 7 23 1 7 23 1 7 -

S MT M

100 105 127 127 127 1 2 1 1 1 1 50.5 7 100 105 127 127 127

T S

50.5 5 .5 5 .5 5 .5 5 .5 5 .5 5 5 .5 1 3.5 1 75 50. 53.5 0.2 0.2 .7 .2 .7 72 7 .5 72 .2 .5 5 .5 0.5 0.5 -

S MT M

53.5 57.5 7 .5 75 57 57.5 3.5 7 0.5 53.5 55.5 53.5 57.5 7 .5 75


moto motors rs..


Series

Gearmotor imension Sheets (3-phase Motor Motor for nverter, TG  -  T G  -  SS T G  -  SS T G  -  Su TG  -  Su ( )

3-phase Motor S rake 3-phase Motor S rake with rakes ra rake 3 -phase Motor for n ve ver ter

(T (T (T (S (S

lange-mounted)


L LM X

A 20

GearMotor

92 5 82

420

6 1 0 . 0 0 -

7 4

B

5 9 1

8 4 2 1 5  6 0 . 1 .

4 1

0 - 0 -

imension Sheets

M D 

B

0 4 3 

0 8 3

5.5



5 9 1

B-B KD

Motor Type

3-phase

3-phase with rakes

S

S

3-phase for nverter

Motor Capacity

kW 1.5 1.5 1.5 2.2 2.2 2.2 3.7 3.7 3.7 5.5 7.5 1.5 1.5 2.2 2.2 3.7 3.7 3.7 5.5 7.5 1.5 1.5 0.2 0. 0.75 1.5 2.2 3.7 5.5

Reduction Ratio

C l a s s

200 200 130  150 130  150 130  150 75  100 75  100 25  30 5  0 20 5  15 20 200 130  150 130  150 75  100 75  100 25  0 25  0 20 5  15 20 200 130  150 5 0  00 300  3 0 20 200 130  150 75  100 20 5  15

G L S G L S L S S S S L S L S L S S S S L S S S L L L S S

77

6-19

L

omenclature T S

TG  G-1.5  TG  L-1.5  TG  S-1.5  TG  G-2.2  TG  L-2.2  TG  S-2.2  TG  L-3.7  TG  S-3.7  TG  S-3.7  TG  S-5.5  TG  S-7.5  T G  L-1.5  T G  S-1.5  T G  L-2.2  T G  S-2.2  T G  L-3.7  T G  S-3.7  T G  S-3.7  T G  S-5.5  T G  S-7.5  T G  L-1.5SS T G  S-1.5SS TG  S-0.2Su ( ) TG  S-0. Su ( ) TG  L-0.75Su ( ) TG  L-1.5Su ( ) TG  L-2.2Su ( ) TG  S-3.7Su ( ) TG  S-5.5Su ( )

S MT M

517 517 517 5 5 5 5 55 5 725 57 57 13 13 7 50 7 770 10 532 532 -

imension mm M K

LM 553 572 5 2 5 71 15 35 72 7 52 5 0 553 572 5 2 5 71

T S

S MT M

2 2 2 273 273 273 31 31 31 13 5 30 30 3 0 3 0 0 0 0 515 550 25 25 -

2 0 2 322 01 11 3 2 3 2 3 73 50 1 7 233 2 0 2 322 01 11

T S

1 1 1 1 1 1 1 1 1 1 1 1 17 152 17 1 3 1 1 1 1 1 1 1 1 1 17 152 17 1 3 1 1 1 1 1 235 235 1 1 1 1 17 1 3 1 3

1 1 1 1 1 1 21 21 21 252 252 1 1 1 1 202 202 202 2 3 2 3 1 1 -

S MT M

1 7 1 0 222 222 2 0 1 7 1 0 22 222 222 2 0 12 155 1 7 1 0 222 222 2 0

T S


27 27 23 27 27 27 23 27 27 23 27 27 35 23 35 3 27 23 27 27 23 27 27 23 27 27 35 23 35 3 27 27 12.5 23 23 23 23 23 3

T S

S MT M

T S

1 123 1 120 123 1 123 1 1 117 1 1 12 117 1 1 117 151 1 13 151 13 151 13 1 1 7 152 1 1 152 150 11 150 150 12 150 15 15 1 7 15 15 1 1 1 7 1 1 1 150 150 7 11 120 12 1 7 1 7 1 -

S MT M

T S

S MT M

75 100 75 7 75 7 105 7 7 7 127 0 7 127 3 3 1 3 10 110 1 2 0.7 7 0.7 1 7.2 7.2 1 5 10 101 0 5 1 107 10 23 11 130 1 1 5 73 7 75 100 7 105 7 127 0 127 3 1 3 110

 Consult us for class G 3-phase motors with brakes and motors for inverter with brakes. Consult us for dimension . ote: ote: The The abo above ve dime dimens nsio ion n dia diagr gram amss are are for for mod model elss wit with hT S

moto motors rs..


Series

Gearmotor imension Sheets (3-phase Motor, Motor, TR  -  S

3-phase Motor

(T S

lange-mounted)

 : Reduction ratio,  : Motor Manufacturer,  : Motor capacity kW

motor)

L

J

LM

A

X

10

28 3

155

1 1 0 . 0 0 -

5 . 6 1 M D 

B

8 1 3 6 0  4 0 . 1 .

6

0 - 0 -

B

5 . 7 7

5 4 1 

7 0 1

3.5



4-11

23

7

GearMotor

5 . 7 7

B-B

imension Sheets

KD

Motor Type 3-phase

C

Motor

l Reduction a s Capacity s Ratio kW 0. 5  20 G

omenclature

L

imension mm M

LM

T S

T S

TR  G-0. S

T S

30

1 1

pproximate Mass kg

K T S

150

T S

22

T S

T S

13

.1

Consult us for 3-phase motors with brakes. TS  -  S

3-phase Motor

(T S

motor)


L LM

J A

36

X

12

165

4 3 1 0 . 0 0 -

B

2 2 6  3 4 0 0 . 1 . 0 - 0 -

9 1

M D 

8 4 1 

B

5 . 2 8

6

5 1 8

3.5



5 . 2 8

B-B 31

Motor Type 3-phase

Motor

4-11

5 . 5

KD

C

l Reduction a s Capacity s Ratio kW 0. 5 0 G

omenclature

L T S

TS  G-0. S


imension mm M

LM T S

33

T S

1 1

10

pproximate Mass kg

K T S

150

T S

22

T S

13

T S

10.

Series

Gearmotor imension Sheets (3-phase Motor, Motor, TT  -  S

3-phase Motor

(T S


motor)

L

J

LM

A

X

11

34 3 28

B 0 2 M D 

160

1 1 0 . 0 0 -

0 8

8 1 3 6 0  4 0 . 1 .

6

0 - 0 -

0 4 1 

B

3.5  4-10

23 8

KD

Motor Type 3-phase

Motor Capacity

kW 0.75

C l a s s

omenclature

5  20 G

TT  G-0.75S

Reduction Ratio

0 9

0 1 6

B-B


lange-mounted)

L

imension mm M

LM

T S

T S

3 1

T S

1

111

pproximate

K

Mass kg

T S

170

T S

22

T S

1

T S

101

1

Consult us for 3-phase motors with brakes. T  -  S

3-phase Motor

(T S


motor)

L

J

LM

A

X

11

42 3 36

B 2 2 M D 

180

3 1 0 . 0 0 -

0 9

2 2 3 6 4 0  0 . 1 .

6

0 - 0 -

B

0 6 1 

0 1 8



3.5

0 0 1

B-B 31

4-10

9

KD

Motor Type 3-phase

Motor

C

l Reduction a s Capacity s Ratio kW 1.5 5  20 G

omenclature

L T S

T  G-1.5S


imension mm M

LM T S

3

T S

25

0

pproximate Mass kg

K T S

1

T S

27

T S

1 7.5

T S

123

20.5

Series

Gearmotor imension Sheets (3-phase Motor, Motor, T  -  S

3-phase Motor

(T S


motor)

J

L LM

A

X

lange-mounted)

12

42 3 36

B 6 2 M D 

210

3 1 0 . 0 0 -

5 0 1

8 2 6  3 4 0

8

0 . 1 . 0 - 0 -

B

0 8 1 

5 2 2

4



5 1 1

B-B 31

GearMotor

4-12

KD

Motor Type 3-phase

Motor Capacity

kW 1.5 1.5 2.2

Reduction Ratio

C l a s s

25  30 G 5 G 5  20 G

omenclature

L

LM

T S

T  G-1.5S T  G-1.5S T  G-2.2S


imension mm M

T S

3 0 27

T S

25 25 27

112 107

pproximate Mass kg

K T S

1 1 1

T S

27 27 27

T S

1 7.5 1 7.5 151

T S

123 123 123

22.1 23 2 .

imension Sheets

MFG500 MFSeries G500 Series Series A

Gearmotor Dimension Sheets (Single-phase Motor, Flange-mounted) Single-phase Moto M otorr Single-p Single-pha hase se Motor Motor with with Brake Brakess (SAVS) (SAVS)

MFGVS518D-  RS  -4 MFGVS518 MFGVS518DD-  RS  -4SAVS

 : Reduction ratio,  : Motor manufacturer manufacturer,,  : Motor capacity [kW] [kW]

L

L LM

LM 10

2 3

155

1 1 0 . 0 0 -

1

5 . 1

B GearMotor

M

M





 3

0 0 . 1 . 0 - 0 -

5 1



5 5 1

7 0 1



3.5 -

Dimension Sheets




0.1 0.2 0.1 0.2

5 5 5 5

   

50 25 50 25

23

100 Lead Wire

Nomenclature

L

LM

TOSHIBA

TOSHIBA

MFGVS518D-  RS0.1-4 MFGVS518D-  RS0.2-4 MFGVSB518DMFGVSB518D-  RS0.1-4SAVS MFGVSB518DMFGVSB518D-  RS0.2-4SAVS

Single-phase Motor Single-p Single-pha hase se Motor Motor with with Brake Brakess (SAVS) (SAVS)

270.5 290.5 332 347

MFGVS522D-  RS  -4 MFGVS522DMFGVS522D-  RS  -4SAVS

L LM X

-11

utside Length

Dimension [mm] DM KD

A

177.5 197.5 239 254

TOSHIBA

65 65 65 65

J

X

Approximate Mass [kg] [kg]

TOSHIBA

TOSHIBA

TOSHIBA

TOSHIBA

-

-

113.2 113.2 113.2 140

52 52 113.5 108.5

6.6 8.4 7.3 10.9

 : Reduction ratio,  : Motor M otor manufacturer,  : Motor capacity [kW] [kW]

L LM

A 12

X

36 4

165 165

3 1 0 . 0 0 -

B

9 1 M D

6

4 0 0 1 . . 0 0 -

M D



2 2

 3 6

B



8 4 1



5 6 1

5 1 8



3.5 B-B

Z Part for Motor with Brakes Z

Motor Type Type Single-phase


B58


0.1 0.2 0.2 0.1 0.2 0.2

31

100 100 Lead Wire O utside Length

Nomenclature

60  200 200 MFGVS522 MFGV S522TT-  RS0.1-4 30 MF GV GVS 52 522D-  RS0.2-4 45  100 100 MFGVS522 MFGV S522TT-  RS0.2-4 60  200 MFGVS522 MFGV S522TT-  RS0.1-4SAVS 30 MF GV GVS 52 522D-  RS0.2-4SAVS 45  100 MFGVS522 MFGV S522TT-  RS0.2-4SAVS

L

LM

TOSHIBA

TOSHIBA

298.5 305.5 318.5 360 362 375

177.5 197.5 197.5 239 254 254

4-11

A

Dimension [mm] DM KD TOSHIBA

85 72 85 85 72 85

113.2 113.2 113.2 113.2 140 140

J

X


TOSHIBA

TOSHIBA

TOSHIBA

TOSHIBA

-

-

52 52 52 113.5 108.5 108.5

7.9 8.8 9.5 8.5 11.3 12

A Series

Gearmotor Dimension Sheets (Single-phase Motor, Flange-mounted) Single-phase Moto M otorr Single-p Single-pha hase se Mot Motor with with Brake Brakess (SAVS) (SAVS)

AVSA  -  S AVSBA  -  SSAVS

 : Reduction ratio, ratio,  : Motor M otor manufacturer,  : Motor capacity [kW] [kW]

L LM

L

3

LM

11

1 0

3 2 1 1 0 . 0 0 -

0

1

 3

0 2

B

0 0 . 1 . 0 - 0 -

0

M

M





1



GearMotor

3.5

0 0 1

-

1

0

0

 -10

23

Dimension Sheets


Motor Type Type Single-phase


0. 0.4


0. 0.4

Nomenclature

L

LM

TOSHIBA

TOSHIBA

A


TOSHIBA

J

X


TOSHIBA

TOSHIBA

TOSHIBA

5  20 L AVSA  L-0.4S

313

202

77

131.2

-

104 104

*

14.5

5  20 L AVSBA  L-0.4SSAVS

393

282

77

131.2

-

104 104

*

17.5

X


TOSHIBA

TOSHIBA

Consult us for dimension *. Single-phase Moto M otorr Single-p Single-pha hase se Mot Motor or with with Brake Brakess (SAVS) (SAVS)

AVSB  -  S AVSBB  -  SSAVS

 : Reduction ratio,  : Motor M otor manufacturer,  : Motor capacity [kW] [kW]

J

L A

LM

L

11

LM

42 3 36

180 180

3 1 0 . 0 0 -

J

J

M D

M D





Motor Type Type

Single-phase



0.4 0.4 0.4 0.75 .75 0.4 0.4 0.4 0.75 .75

25  45  5  5  25  45  5  5 

30 75 20 20 30 75 20 20

0 . 1 . 6 0 - 0 -

0 6 1 3.5

B

0 0 1

0 8

 1



0 0 1

B-B -10

31

Z

Nomenclature L L S L L L S L

0 9

2 2

6  3 4 0

X

X Z P ar art for Motor with Brakes

B

2 2

AVSB  L-0.4S AVSB  L-0.4S AVSB  S-0.4S AVSB  L-0.75S AVSBB  L-0.4SSAVS AVSBB  L-0.4SSAVS AVSBB  S-0.4SSAVS AVSBB  L-0.75SSAVS

L

LM

TOSHIBA

TOSHIBA

357 365 357 403 437 445 437 481

225 225 225 271 305 305 305 341

A


90 98 90 90 90 98 90 98

131.2 131.2 131.2 169.2 131.2 131.2 131.2 169.2

TOSHIBA

-

J TOSHIBA

104 104 104 104 104 104 113 104 104 104 104 104 104 113

* * * * * * * *

17 17.5 17 22.5 20 20.5 20 27.6


B59

A Series

Gearmotor Dimension Sheets (Single-phase Motor, Flange-mounted) Single-phase Motor Singl Single-p e-pha hase se Mot Motor wit with h Brak Brakes es (SAVS (SAVS))

AVSC  -  S  : Reduction ratio,  : Motor M otor manufacturer,  : Motor capacity [kW] [kW] AVSBC AVSBC  -  SSAVS J

L A

LM

42 12

210

3 36 3 1 0 . 0 0 -

J

B GearMotor

6 2

M D 

8

0 . 1 . 0 - 0 -

0 8 1 

B

0 0 1

5 0 1

4 2 6  3 4 0

B

5 2 2

4



31

Dimension Sheets

5 1 1

B-B 4-12

X

 0.1 kW to 0.4 kW single-phase motors (without brake) are dip-proof type and their shapes are slightly different.

Motor Type Type

Single-phase



0.1 0.1 0.2 0.2 0.4 0.4 0.4 0.4 0.75 0.75 0.75 0.75 0.75 .75 0.1 0.1 0.2 0.2 0.4 0.4 0.4 0.4 0.75 0.75 0.75 0.75 0.75 .75

240 450 450 130 200 200 100 150 150 25  30 45  75 25  30 45  75 5  20 240 450 130 200 100 150 150 25  30 45  75 25  30 45  75 5  20

Nomenclature L L L S S L L S

L S S L L S

L

LM

TOSHIBA

TOSHIBA

AVSC AVSC  L-0.1S AVSC AVSC  L-0.2S AVSC AVSC  L-0.4S AVSC  S-0.4S AVSC  S-0.4S AVSC  L-0.75S AVSC  L-0.75S AVSC  S-0.75S AVSB VSBC C  L-0.1SSAVS AVSB VSBC C  L-0.2SSAVS AVSBC AVSBC  L-0.4SSAVS AVSBC  S-0.4SSAVS AVSBC  S-0.4SSAVS AVSBC  L-0.75SSAVS AVSBC  L-0.75SSAVS AVSBC  S-0.75SSAVS

371.5 344.5 379 365 379 411 425 411 433 401 459 445 459 481 495 481

A

177.5 197.5 225 225 225 271 271 271 239 254 305 305 305 341 341 341


152 105 112 98 112 98 112 98 158 111 112 98 112 98 112 98

113.2 113.2 131.2 131.2 131.2 169.2 169.2 169.2 113.2 140 131.2 131.2 131.2 169.2 169.2 169.2


J

X

TOSHIBA

TOSHIBA

TOSHIBA

-

-

52 52 104 104 104 104 104 104 113 113 113

* * * * * * 113.5 108.5 * * * * * *

104 104 104 104 104 104 113 113 113

TOSHIBA

17.2 13.2 19.5 18.5 19.5 24 25 24 17.7 15.6 22.5 21.5 22.5 27.6 28.6 27.6

Consult us for dimension *. Single-phase Motor Single-phase Motor with Brakes Brakes (SAVS) (S AVS)

AVSD  -  S  : Reduction ratio,  : Motor M otor manufacturer,  : Motor capacity [kW] [kW] AVSBD  -  SSAVS L LM

A 16



66 3

260

58 53

0

32 -0.016 0 2 5 2 0 . 1 . 0 - 0 -

J 3 3

M D



0 3 2



0 0 1

0 3 1

0 1

7 0 2 

5

0 3 1

4- 15

X

 0.1 kW to 0.4 kW single-phase motors (without brake) are dip-proof type and their shapes are slightly different.

Motor Type Type

Single-phase



0.1 0.1 0.2 0.2 0.4 0.4 0.4 0.75 0.75 0.75 0.75 0.75 0.75 0.1 0.1 0.2 0.2 0.4 0.4 0.4 0.75 0.75 0.75 0.75 0.75 0.75

540 800 L 240 450 L 200 L 100 150 150 S 100 100 150 150 L 25  30 S 45  75 S 540 800 800 L 240 450 450 L 200 L 100 150 150 S 100 100 150 150 L 25  30 S 45  75 S


Nomenclature AVSD  L-0.1S AVSD  L-0.2S AVSD  L-0.4S AVSD  S-0.4S AVSD AVSD  L-0.75S AVSD  S-0.75S AVSD  S-0.75S AVSBD AVSBD  L-0.1SSAVS AVSBD AVSBD  L-0.2SSAVS AVSBD  L-0.4SSAVS AVSBD  S-0.4SSAVS AVSBD AVSBD  L-0.75SSAVS AVSBD  S-0.75SSAVS AVSBD  S-0.75SSAVS

L

LM

TOSHIBA

TOSHIBA

405.5 425.5 413 413 459 445 459 467 482 493 493 529 515 529

177.5 197.5 225 225 271 271 271 239 254 305 305 341 341 341

A


162 162 122 122 122 108 122 170 170 122 122 122 108 122

113.2 113.2 131.2 131.2 169.2 169.2 169.2 113.2 140 131.2 131.2 169.2 169.2 169.2

J

X


TOSHIBA

TOSHIBA

TOSHIBA

TOSHIBA

-

-

52 52 104 104 104 104 113 113 113

104 104 104 104 113 113 113

* * * * * 113.5 108.5 * * * * *

28.7 30.2 31.5 31.5 37 36 37 26.7 30.1 34.5 34.5 40.6 39.6 40.6

A Series

Gearmotor Dimension Sheets (Single-phase Motor, Flange-mounted) Single-phase Motor Single-p Single-pha hase se Motor Motor with with Brake Brakess (SAVS) (SAVS)

AVSE  -  S AVSBE  -  SSAVS

 : Reduction ratio, ratio,  : Motor M otor manufacturer,  : Motor capacity [kW] [kW]

L LM

300

68 5

A 16



58 4 3

J

0

38 -0.016

53 0 2 5 2 0 . 1 . 0 - 0 -

0 5 1

M D



0 0 1



Single-phase



0.1 0.2 0.2 0.4 0.75 0.75 0.75 0.1 0.2 0.2 0.4 0.75 0.75 0.75

GearMotor

0 3 1 

5

X

Motor Type Type

B

0 1

0 5 2

0 5 1

Dimension Sheets

4- 19

Nomenclature

L

LM

TOSHIBA

TOSHIBA

1000 L AVSE  L-0.1S 540 800 L AVSE  L-0.2S 200 S AVSE  S-0.4S 200 L AVS E  L-0.75S 100 100 150 S AVSE  S-0.75S 1000 L AVSBE SBE  L-0.1SSAVS 540 800 L AVSBE  L-0.2SSAVS 200 S AVSBE  S-0.4SSAVS 200 L AVSBE SBE  L-0.75SSAVS 100 100 150 S AVSBE  S-0.75SSAVS

420.5 440.5 428 474 474 482 497 508 544 544

A

177.5 197.5 225 271 271 239 254 305 341 341


175 175 135 135 135 185 185 135 135 135

113.2 113.2 131.2 169.2 169.2 113.2 140 131.2 169.2 169.2


J

X

TOSHIBA

TOSHIBA

TOSHIBA

-

-

52 52 106 106 115 115

106 106 115 115

* * * 113.5 108.5 * * *

TOSHIBA

37.2 38.7 40 45.5 45.5 34.7 38.1 43 49.1 49.1

Consult us for dimension *. Single-phase Moto M otorr Single-p Single-pha hase se Mot Motor or with with Brake Brakess (SAVS) (SAVS)

AVSF  -  S AVSBF  -  SSAVS

 : Reduction ratio,  : Motor manufacturer manufacturer,,  : Motor capacity [kW] [kW]

L LM

92

A 20



390 390

5

  

0

42 -0.016

82

2 1

7 6 3 5 0 . 1 . 0 0 - -

J

0 1 3

9 3

M D 

0 0 1

77



   

5

  

X 619



0.2 0.75 0.2 0.75

1000 200 100 1000 200


Nomenclature L S L S

AVS F  L-0.2S AVS F  S-0.75S AVSBF SBF  L-0.2SSAVS AVS BF BF  S-0.75SSAVS

L

LM

TOSHIBA

TOSHIBA

481.5 515 538 585

197.5 571 254 341

A


192 152 202 152

113.2 169.2 140 169.2


J

X

TOSHIBA

TOSHIBA

TOSHIBA

-

-

52 115

115

* 108.5 *

TOSHIBA

49.7 56.5 49.6 60.1

A Series

Gearmotor Dimension Sheets (Single-phase Motor, Flange-mounted) Single-phase Motor Singl Single-p e-pha hase se Mot Motor wit with h Brak Brakes es (SAVS (SAVS))

AVSG  -  S  : Reduction ratio,  : Motor M otor manufacturer,  : Motor capacity [kW] [kW] AVSBG AVSBG  -  SSAVS L

LM

A 20

92 5 82

420

6 1 0 . 0 0 -

B

7 4

J

0 0 1

Dimension Sheets

B

Single-phase Single-phase with Brakes


0.4 0.75 0.75 0.4 0.4 0.75 0.75

540 800 800 300 300 360 360 540 800 800 300 300 360 360


4 1 0 8 3

5.5



77

Model S S S S

0 4 3 

5 9 1

5 9 1

B-B

X

Motor Type Type

8 4 2 1 5  6 0 . 1 . 0 - 0 -

M D 

GearMotor

B

AVSG  G-0.4S AVSG  G-0.75S AVSBG  G-0.4SSAVS AVSBG  G-0.75SSAVS

6-19

L

LM

TOSHIBA

TOSHIBA

552 598 632 668

225 271 305 341

A


235 235 235 235

131.2 169.2 131.2 169.2

TOSHIBA

-

J TOSHIBA

104 104 113 104 104 113

X


TOSHIBA

TOSHIBA

* * * *

77.5 83 80.5 86.6

Series

C

C C Reducer Reducer ow to Select

Reducer age

1.

ow to Select

C3

2. Selection Select ion Tables

C11

3.

C15

imension Sheets

C1

M G500 G500 Seri Series es

M E M

C C Reducer Reducer ow to Select

C2

Series

C Reducer ow to Select

C Reducer 1.

ow to Select age

ariations and Types

C

Selection Method

C

Selection Example

C

  



C3


ariations and Types  M G500 G500 Seri Series es aria ariati tion ons s Series ame

Mounting Style

   

Class

Standard (without brake)

With 3-phase Motor 

oot-mounted

With rakes  Solid nput Shaft Reducer

utdoor 

M GM G

and oltage  M G Type ype

C Reducer

M G500 Series

Class L lange-mounted

With Single-phase Motor 

(standard)

ow to Select

M GC GCM G C

ollow nput Shaft Reducer

With Motor

M G Type

 Refer to Chapter

M GM GMM G M

Gearmotor. Gearmotor.

 M G500 G500 Seri Series es Type ype Symb Symbol ols s M G

C

51

M G

M

522

30R

0.1



0R

0.2

Reduction Ratio

Mounting Style

1 0 ... . .. 0 R 1 30… ..30R

Solid nput Shaft Shaft Reducer .... C ollow nput Shaft Reducer Reducer .. .. M  

Special...................... ............. ram ra me Si e Reduction Stages

ouble ................................... Triple ......................................T

C4

T



Series ame

ariations

With rakes  Without Motor

M GS GSM G S

oot-mounted ....... blank lange-mounted .........


Equivalent nput Capacity

0.1 kW Equivalent ..............0.1 0.2 kW Equivalent............. 0.2

Series

ariations and Types 

Series ariations

Series ame

Mounting Style

   

Class


With 3-phase Motor 

oot-mounted

With rakes  Solid nput Shaft Reducer

Class G

T,

(light load)

utdoor 

T Type

and oltage  Type

With Single-phase Motor 

Class L

Series lange-mounted

(standard)

C C,

C Type

ollow nput Shaft Reducer

Class S (reinforced)

S,


Reducer

With rakes 

ow to Select

Without Motor

S Type

With Motor

Type

 Refer to Chapter

M,

Gearmotor. Gearmotor.

M Type

 Series Type Symbols Model

Reducer rame Si e

T

20

nput Specifications 

L

 

Reduction Ratio

Special:

1  20 2020 1  0 0

0. Equivalent nput

0. kW Equiv Equivale alent nt:: 0. 5.5 kW Equivalent: Equivalent: 5.5

rame Si e (output (output shaft diameter diameter))

 1  2  22 G  5 C 2  32 K 3 E 3

Class

isplay

Light Load: G Standard: L Reinforced: S

oot-mounted Solid nput Shaft Reducer ollow nput Shaft Reducer

lange-mounted

C M

Solid nput Shaft Reducer ollow nput Shaft Reducer

C M

 Series Classes                        Standard (L): (L):

niform load. ote that that Class S is standard for for models with the high reduction ratio or the input capacity 5.5 kW or higher.

Reinforced (S): (S): The overhang load and and output shaft torque torque are reinforced.

                   

C5


Reducer Selection Method               

S election P rocedur rocedure e

 

   

C Reducer How to Select

                             

1 50 r  in

    

 or 0  euilent lent,, T

                    

Reduction Rtio 2 ssue tht T

1 0

2 

or 075  euilent lent,, T

7 2  T

2 

15  T

2 

The outut of 0 75  eets the condition e ression

 liction Coneor-drien oder te shoc lod) hour hourss d oer tion

                             

       

T  T

                                

   

   

   

 

100

100

125

  

100

125

150

             

                                                                   

 R2

1 R

Reduction R Rtio

       M          

5-1) ssue the followin  oent of inerti  of lo d ) 2

 12  5-2) Reduction R tio 1 R 1 0  1 2   2  2 0 R - 2 1 × 10  5-) Motor to e ttched to the reducer 2 M  0002 


Serie Series s

Reducer Selection Method  Model Selection Clcultion le

Selection rocedure        

5- ) od inerti oent r tio

 M M

-

 M   M

           M          

1 × 10 2

×

-

10

 0

5-5) Coulin ethod Chin non-direct)

od inerti oent r tio M 0 Strtu freuenc 20 ties hour hour ro Tle , Ser ice f ctor  sf 1 11

5)                 1   

C

             1)  

our

M  05

   05  M  10 10  M  20

100 101 101 10 10 110 11

             

101 10 107 112 121 12 1 5 5

20  M   0 0

105 11 12 1 2 2 1 5 157 1

Reducer Cou Coulin lin Method Method on-direct such  such ss ch chin con conence) nce) M  02 02  M  05 05  M  07 07  M  10

110 12 1 5 5 1 5 1 0 17 1 1

100 101 101 102 105 10 111

101 105 10 11 122 1 0 0 1

102 10 115 122 1 1 150

10 11 12 1 5 5 1 1 0 1

                   

                             Conditionl eression

T × sf × sf 1  TG

-1) or reducer, reducer, T × sf × sf 1  2 × 125 × 11  12   n the cse of clss  T ×sf G  11×10  1   Since T  sf sf  sf 1  T  sf sf G is et, then uilent C cit 075     Reducer r e SieC0 T T TG sf sf 1 sf G

lic chine)   ctu ctul lo lod tor ue re reuired tor ue of the  liction chine) ut utut sh shft tor ue Mi iu driin in tor ue of reducer)   Reducer out outut sh shft llow llowle le tor ue   sed on lo le 1) Ser ice f ctor sed lod condition nd dut dut ti tie Tle sed on inerti Ser Ser ice f ctor sed inerti oent r tio nd st strtu rtu fre freuenc uenc Tle le ) Stren Strenth  th r r in r tio of reducer reducer for for T tor ue

                                                                   

2000 × T × sf × sf 1 

×

Cf f

 itch circle dieter of s rocet, ulle, etc  Cf  riin ethod f ctor  refer to Tle ) f  od osition f ctor  refer to Tle 5)             100 125



 

125

150

      o 0o

05o

07o

0 o

110

100

0 

070

Lo L

7 itch Circle ieter of Srocet  120 riin Method Sinle Row Chin riin Method ctor  Cf 100 od osition  25  Since the o diension of TC0 odel is  ,  070o nd then od osition ctor  f 0 

    

2000 × T × sf × sf 1

 2000 ×

×

2 × 125 × 11 120

Cf

f ×

100 0 

 2502 There is no roles since the llowle oerhn lod of the odel selected in ste  is  70 

ow to Select


Seri Series es

                 

   

V=16m/min

P.C.D230 230 5 kg/piece

                        

m=900kg Chain (A)

Sprocket (B) P.C.D160 160

                                C Reducer ow to Select

5kg 5kg

Sprocket (A) P.C.D120 120

    1 × 1000  221r  in 20 ×

       

Srocet ) Srocet  )

      1   

 221 ×

1 0 in  2 5r  120

                          

           1     

20 2 × 1000

           

120 1 0

×

1 0 5

×

1 0 5

×

  1 02 

 12 5 

                                   

                             

                   



          

55 2



120 1 0 -

20

2

  1000  2 2 1   50 

 00  5

    M          

×

×

×

×

1

2

 120 -

2

 27 × 10 

2

                           27 × 10          0 M 2 × 10                                     1  

            sf sf1                                     sf G    225          sf G    250          

        

2000 × T × sf × sf 1

Cf



2000 × 12 5 × 125 × 1

100

  00  f 120 100                                ×

            

×


Serie Series s

                                   Method                     

      i e n t C o n d i t i o n s

              

       -20 to 0 

      

      

C Reducer

                                                     

ow to Select


   

C Reducer ow to Select

Seri Series es

MF500 Series, A Series

C Reducer Selection Table Ta bless

C Reducer 2. Selection Tables Page

Reduction Ratio 5 - 30 Reduction Ratio 45 - 130 Reduction Ratio 150 - 1000 1000

C12 C13 C14

C11 C11


Reducer (Solid Input Shaft Type, Hollow Input Shaft Type) Selection Tables R e d u c t i o n R a t i o

5

[r/min] Input Input 1450 1750 [r/min] [r/min]

290

350


10

15

20

25

30

Input Input Shaft Shaft Speed Speed 1450 450 r/m r/min

Output Shaft Speed

145

175

96.7 116.7

72.5 87.5

58.0 70.0

48.3 58.3

Input Input Shaft Shaft Speed Speed 1750 750 r/m r/min

Allowable Radial Load Allowable Radial Load Actual Reducer Motor Allowable Output Shaft Reduction Allowable Output Shaft Equivalence Frame Capacity Reduction Input Allowable Torque Output Shaft Input Shaft Input Allowable Torque Output Shaft Input Shaft Stages Size Ratio Capacity Capacity Tout Tout Tout Tout [kW] Pro Pri Pro Pri

[kW]

518D

0.1

518D

0.2

A5L

0.4

B 5L 5L

0.75

C5L

1.5

D5L

2.2

E 5L

3.7

F 5S

5.5

G5S

7.5

H5S

11

518D

0.1

518D

0.2

A 10 10L

0.4

B10 B10L

0.75

C 10 10L

1.5

D10L

2.2

E 10 10L

3.7

F 10 10S

5.5

G10S

7.5

H10S

11

518D

0.1

518D

0.2

A 15 15L

0.4

B15 B15L

0.75

C 15 15L

1.5

D15L

2.2

E 15 15L

3.7

F 15 15S

5.5

G15S

7.5

H15S

11

518D

0.1

518D

0.2

A 20 20L

0.4

B20 B20L

0.75

C 20 20L

1.5

D20L

2.2

E 20 20L

3.7

F 20 20S

3.7

G20S

5.5

H20S

7.5

K 20 20S

11

518D

0.1

518D

0.2

B 25 25L

0.4

C25 C25L

0.75

D25L

1.5

E 25 25L

2.2

F 25L

3.7

G25S

3.7

H25S

5.5

K 25 25S

7.5

518D

0.1

522D

0.2

B 30 30L

0.4

C30 C30L

0.75

D30L

1.5

E 30 30L

2.2

F 30L

3.7

G30S

3.7

H30S

5.5

K 30 30S

7.5

4.865 4.980 4.983 5.113 4.859 5.141 4.949 5.065 5.054 4.952 10.096 10.045 9.893 9.881 9.802 9.761 10.107 9.692 9.988 9.905 14.643 14.667 15.417 15.595 15.364 15.944 14.727 15.077 14.796 15.352 19.412 19.429 18.836 19.808 19.145 19.504 19.785 20.201 19.856 20.250 20.286 25.714 25.242 26.232 24.055 23.893 23.554 24.341 25.057 23.192 24.456 30.000 28.848 29.400 28.955 27.942 27.686 28.205 29.455 29.082 29.013

2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2

0.10 0.20 0.50 1.05 1.95 2.82 4.77 7.25 9.87 14.5 0.10 0.20 0.50 1.05 1.95 2.82 4.77 7.25 9.87 14.5 0.10 0.20 0.50 0.95 1.95 2.82 4.77 6.52 9.87 13.0 0.10 0.20 0.50 0.92 1.81 2.82 4.14 4.77 7.25 9.87 14.5 0.10 0.20 0.58 1.05 1.95 2.82 4.77 4.77 7.25 9.87 0.10 0.20 0.47 0.84 1.95 2.82 4.18 4.77 7.25 9.87

[N-m]

2.84 5.88 15.1 32.6 57.5 87.9 14 143 22 223 30 302 435 5.98 11.8 30.0 62.9 116 16 167 292 42 426 59 597 871 8. 8.73 17 17.7 46 46.7 90 90.1 181 273 426 595 885 1220 11.8 22 22.6 57 57.1 111 2 21 10 3 33 33 4 49 96 5 58 83 87 873 1220 1780 15.7 30.4 92.2 153 282 402 704 72 725 10 1020 1460 17.7 34 34.3 82 82.9 1 14 47 330 473 715 85 851 1270 1740

[N]

353 353 1180 1320 1860 3190 3480 2650 3820 2840 686 686 1520 1520 3140 3730 6820 6080 8780 7350 1080 1080 1570 1620 3430 4070 7350 6960 9810 12000 1470 1470 1570 1670 3530 4220 7350 7550 11100 13500 14200 1520 1520 2160 3970 4900 7350 7850 11400 15000 16100 1570 1670 2160 3970 5050 7350 8040 11800 16000 17100

[N]

206 206 265 314 431 471 598 804 990 1210 206 206 265 314 431 471 598 804 990 1210 206 206 265 314 431 471 598 804 990 1210 206 206 265 314 431 471 598 598 804 990 1210 206 206 265 314 431 471 598 598 804 990 206 206 265 314 431 471 598 598 804 990

[kW]

0.1 0.2 0.58 1.24 2.25 3.23 5.19 8.36 11.4 15.7 0.1 0.2 0.58 1.21 2.25 3.23 5.31 8.36 11.4 16.0 0.1 0.2 0.57 1.05 2.25 3.23 5.39 7.41 11.4 14.7 0.10 0.20 0.55 1.06 2.15 3.20 4.71 5.40 8.36 11.4 16.7 0.1 0.2 0.58 1.24 2.25 3.23 5.27 5.40 8.36 11.4 0.1 0.20 0.55 1.00 2.25 3.23 4.87 5.40 8.36 11.4

[N-m]

2.35 4.81 14.5 31.9 54.9 83.4 128 213 28 289 389 4.9 9.7 28.8 60.3 111 158 270 407 57 572 797 7.16 13.7 44.4 82.4 174 259 398 561 847 1140 9.4 18 18.6 52 52.3 1 10 05 2 20 07 3 31 14 4 46 68 5 54 48 83 834 1160 1700 12.7 24.5 76.8 150 270 382 644 68 680 974 1400 14.7 28 28.4 81.5 1 14 46 316 449 689 79 798 1220 1660

[N]

294 294 1080 1270 1520 3040 3090 2060 2650 2350 588 588 1420 1470 3040 3630 6570 4610 6470 6080 883 883 1470 1620 3330 3970 7160 6520 9220 11300 1230 1230 1570 1620 3480 4120 7350 7350 10400 12700 13300 1370 1370 2160 3970 4760 7350 7650 11100 14100 15100 1470 1620 2160 3970 4900 7350 7850 11500 15000 16100

[N]

167 167 226 275 402 441 549 755 932 1140 167 167 226 275 402 441 549 755 932 1140 167 167 226 275 402 441 549 755 932 1140 167 167 226 275 402 441 549 549 755 932 1140 167 167 226 275 402 441 549 549 755 932 167 167 226 275 402 441 549 549 755 932

Dimen Dimensio sion n Sheet Sheet Page Solid Input Shaft

Hollow Shaft Foot-Mounted Flange-Mounted

C1 C 16 C1 C 16 C1 C 16 C1 C 17 C1 C 17 C1 C 17 C1 C 18 C1 C 18 C1 C 18 C1 C 19 C1 C 16 C1 C 16 C1 C 16 C1 C 17 C1 C 17 C1 C 17 C1 C 18 C1 C 18 C1 C 18 C1 C 19 C1 C 16 C1 C 16 C1 C 16 C1 C 17 C1 C 17 C1 C 17 C1 C 18 C1 C 18 C1 C 18 C1 C 19 C1 C 16 C1 C 16 C1 C 16 C1 C 17 C1 C 17 C1 C 17 C1 C 18 C1 C 18 C1 C 18 C1 C 19 C1 C 19 C1 C 16 C1 C 16 C1 C 17 C1 C 17 C1 C 17 C1 C 18 C1 C 18 C1 C 18 C1 C 19 C1 C 19 C1 C 16 C1 C 16 C1 C 17 C1 C 17 C1 C 17 C1 C 18 C1 C 18 C1 C 18 C1 C 19 C1 C 19

C 20 C 20 C 20 C 21 C 21 C 21 C 21 C 22 C 22 C 23 C 20 C 20 C 20 C 21 C 21 C 21 C 21 C 22 C 22 C 23 C 20 C 20 C 20 C 21 C 21 C 21 C 21 C 22 C 22 C 23 C 20 C 20 C 20 C 21 C 21 C 21 C 21 C 22 C 22 C 23 C 23 C 20 C 20 C 21 C 21 C 21 C 21 C 22 C 22 C 23 C 23 C 20 C 20 C 21 C 21 C 21 C 21 C 22 C 22 C 23 C 23

C 24 C 24 C 24 C 25 C 25 C 25 C 25 C 25 C 26 C 24 C 24 C 24 C 25 C 25 C 25 C 25 C 25 C 26 C 24 C 24 C 24 C 25 C 25 C 25 C 25 C 25 C 26 C 24 C 24 C 24 C 25 C 25 C 25 C 25 C 25 C 26 C 24 C 24 C 25 C 25 C 25 C 25 C 25 C 26 C 24 C 24 C 25 C 25 C 25 C 25 C 25 C 26 -

Note: 1. Output shaft allowable radial load represents represents a value for the the output output shaft center. center. 2. "Equivalent motor motor capacity [kW]" [kW]" is just for a guide. Note N ote that the full (100 %) output output of the the motor may may be an overload. Be B e sure to use it within the output shaft allowable torque. C12 C12


Reducer (Solid (Solid Input Shaft Type, Type, Hollow Inpu Inputt Shaft Shaft Type) Select Selection ion Tables Tables R e d u c t i o n R a t i o

Input Input Shaft Speed 1450 1450 r/m r/min

Output Shaft Speed

Motor Allowable Radial Load Allowable Radial Load Actual Reducer Equivalence Reduction Allowable Output Shaft Allowable Output Shaft Reduction Input Allowable Torque Output Shaft Input Shaft Input Allowable Torque Output Shaft Input Shaft Stages Input Input Frame Size Capacity Ratio Capacity Capacity Tout Tout Tout Tout 1450 1750 [kW] Pro Pri Pro Pri [kW] [kW] [N-m] [N-m] [N] [N] [N] [N] [r/min] [r/min]

50

60

75

100

130

Dimension Sheet Page

[r/min]

518D

45

Input Input Shaft Speed 1750 750 r/mi r/min n

32.2 38.9

29.0 35.0

24.2 29.2

19.3 23.3

14.5 17.5

11.2 13.5

0.1

522T

0.2

B 45L

0.4

C45 C45L

0.75

D45L

1.5

E 45L

2.2

F 45 45L

3.7

G 45S

3.7

H45S

5.5

K 45 45S

7.5

518D

0.1

522T

0.2

B 50L

0.4

C50 C50L

0.75

D50L

1.5

E 50L

2.2

F 50 50L

3.7

G 50S

3.7

H50S

5.5

K 50 50S

7.5

522T

0.1

522T

0.2

B 60L

0.4

C60 C60L

0.75

D60L

1.5

E 60L

2.2

F 60 60L

3.7

G 60S

3.7

H60S

5.5

K 60 60S

7.5

522T

0.1

522T

0.2

B 75L

0.4

C75 C75L

0.75

D75L

1.5

E 75S

1.5

F 75 75L

2.2

G75L

3.7

H75S

3.7

K 75 75S

5.5

522T

0.1

522T

0.2

C10 C100L

0.4

D10 D100L

0.75 .75

E10 E100L

1.5

F10 F100L

2.2

G10 G100L

3.7

H100S

3.7

K10 K100S

5.5

522T

0.1

C13 C130L

0.2

C13 C130L

0.4

D13 D130L

0.75 .75

E13 E130S

0.75 .75

F13 F130L

1.5

G13 G130L

2.2

H130S

2.2

K13 K130S

3.7

44.318 44.458 44.898 46.460 45.665 45.818 44.807 46.364 42.878 44.389 49.500 48.020 51.140 50.529 49.745 50.093 52.394 50.356 50.242 51.352 58.842 56.478 58.698 60.545 59.790 60.779 57.000 56.924 59.873 64.341 74.450 74.044 73.576 74.204 75.336 74.455 73.396 74.103 72.409 74.555 98.828 97.895 98.270 94.653 99.967 102.198 94.659 101.108 95.135 129.567 132.000 127.726 127.427 124.449 122.637 123.657 125.169 120.055

3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3

0.10 0.20 0.47 0.78 1.50 2.22 3.70 4.48 6.36 8.25 0.10 0.20 0.42 0.75 1.43 2.13 3.41 4.15 5.56 7.33 0.10 0.20 0.37 0.68 1.22 1.76 3.21 3.70 4.71 6.50 0.10 0.20 0.30 0.56 0.98 1.47 1.91 2.88 4.36 5.87 0.10 0.20 0.40 0.76 1.12 1.76 2.88 3.17 4.95 0.10 0.20 0.30 0.57 0.75 1.43 2.00 1.98 3.91

26.5 53 125 216 406 604 981 1240 1620 2170 29.4 56.9 128 225 42 423 63 632 1060 1240 1660 2240 35.3 68.6 12 129 24 242 43 431 63 634 1080 1250 1670 2480 44.1 90.2 13 131 24 245 43 439 64 647 8 83 30 1270 1870 2590 58.8 95.1 23 233 42 426 66 662 10 1070 1620 18 1890 2790 76.5 15 157 22 226 42 429 55 553 1040 1470 14 1470 27 2780

1670 1770 2160 3970 5100 7350 8040 13700 17000 18800 1670 1770 2160 3970 5100 7350 8040 13700 17800 19700 1770 1770 2160 3970 5100 7350 8290 13700 18100 21600 1770 1770 2160 3970 5100 7350 10500 13700 18100 21600 1770 1770 3970 5100 7350 11600 13700 18100 21600 1770 3970 3970 5100 7350 11600 13700 18100 21600

206 206 265 314 431 471 598 598 804 990 206 206 265 314 431 471 598 598 804 990 206 206 265 314 431 471 598 598 804 990 206 206 265 314 431 431 471 598 598 804 206 206 265 314 431 471 598 598 804 206 206 265 314 314 431 471 471 598

0.1 0.2 0.52 0.88 1.68 2.37 4.03 5.30 6.48 9.33 0.1 0.2 0.49 0.84 1.60 2.40 3.70 4.93 6.48 8.33 0.10 0.20 0.42 0.75 1.43 2.10 3.62 4.40 5.62 7.33 0.10 0.20 0.36 0.67 1.17 1.75 2.22 3.45 4.93 6.66 0.10 0.20 0.44 0.87 1.32 2.10 3.41 3.82 5.68 0.10 0.20 0.36 0.68 0.84 1.62 2.27 2.35 4.73

21.6 43.1 116 202 378 533 887 1210 1360 2040 24.5 47.1 123 209 39 391 58 589 951 1220 1600 2100 28 28.4 56 56.9 12 121 22 223 42 421 62 628 1010 1230 1660 2310 36.3 74 74.5 13 130 24 243 43 431 64 640 8 80 02 1260 1760 2440 48 48.1 78 78.5 21 215 40 403 64 646 10 1060 1590 19 1900 2660 63.7 12 129 22 223 42 423 51 515 974 1380 14 1440 27 2790

1670 1770 2160 3970 5100 7350 8040 13500 16600 17800 1670 1770 2160 3970 5100 7350 8040 13700 16800 18700 1770 1770 2160 3970 5100 7350 8040 13700 17800 20300 1770 1770 2160 3970 5100 7350 10300 13700 18100 21300 1770 1770 3970 5100 7350 11300 13700 18100 21600 1770 3970 3970 5100 7350 11600 13700 18100 21600

167 167 226 275 402 441 549 549 755 932 167 167 226 275 402 441 549 549 755 932 167 167 226 275 402 441 549 549 755 932 167 167 226 275 402 402 441 549 549 755 167 167 226 275 402 441 549 549 755 167 167 226 275 275 402 441 441 549

Solid Input Shaft


C16 C16 C17 C17 C17 C18 C18 C18 C19 C19 C16 C16 C17 C17 C17 C18 C18 C18 C19 C19 C16 C16 C17 C17 C17 C18 C18 C18 C19 C19 C16 C16 C17 C17 C17 C18 C18 C18 C19 C19 C16 C16 C17 C17 C18 C18 C18 C19 C19 C16 C17 C17 C17 C18 C18 C18 C19 C19

C20 C20 C21 C21 C21 C21 C22 C22 C23 C23 C20 C20 C21 C21 C21 C21 C22 C22 C23 C23 C20 C20 C21 C21 C21 C21 C22 C22 C23 C23 C20 C20 C21 C21 C21 C21 C22 C22 C23 C23 C20 C20 C21 C21 C21 C22 C22 C23 C23 C20 C21 C21 C21 C21 C22 C22 C23 C23

C24 C24 C25 C25 C25 C25 C25 C26 C24 C24 C25 C25 C25 C25 C25 C26 C24 C24 C25 C25 C25 C25 C25 C26 C24 C24 C25 C25 C25 C25 C25 C26 C24 C24 C25 C25 C25 C25 C26 C24 C25 C25 C25 C25 C25 C26 -

Note: 1. Outp O utput ut shaft allowable radial load represents a value for the outpu outputt shaft center. center. 2. "Equivalent motor capacity [kW]" is just for a guide. Note that the full (100 %) output of the motor may be an overload. Be sure to use it within the output shaft allowable torque. C13 C13



Reducer (Solid Input Shaft Type, Hollow Input Shaft Type) Selection Tables R e d u c t i o n R a t i o

150

Inpu Inputt Shaft Shaft Speed Speed 1450 450 r/m r/min Inpu Inputt Shaft Shaft Speed Speed 1750 750 r/m r/min Motor Allowable Radial Load Allowable Radial Load Actual Allowable Output Shaft Reduction Allowable Output Shaft Reducer Equivalence Reduction Input AllowableTorque Output Shaft Input Shaft Input Allowable Torque Output Shaft Input Shaft Stages Input Input Frame Size Capacity Ratio Capacity Tout Tout Capacity Tout Tout 1450 1750 [kW] Pro Pri Pro Pri [kW] [N-m] [kW] [N-m] [r/min] [r/min] [N] [N] [N] [N]

9.67 11.7


200

240

300

360

450

540

650

800

Dim Dimensio ension n Sheet Sheet Page Page


7.25 8.75

6.04 7.29

4.83 5.83

4.03 4.86

3.22 3.89

2.69 3.24

2.23 2.69

1.81 2.19

1000 1.45 1.75

522T

0.1

C15 C150L

0.2

C15 C150L

0.4

D150L

0.75 .75

E15 E150S

0.75

F15 F150L

1.5

G15 G150L

2.2

H150S

2.2

K15 K150S

3.7

522T

0.1

C20 C200L

0.2

D200L

0.4

E20 E200L

0.75

F20 F200S

0.75

G20 G200L

1.5

H200S

1.5

K20 K200S

2.2

C24 C240L

0.1

D240L

0.2

E24 E240S

0.4

F24 F240S

0.75

K24 K240S

2.2

C30 C300L

0.1

D300L

0.2

E30 E300S

0.4

G30 G300S

0.75 .75

K30 K300S

2.2

C36 C360L

0.1

D360L

0.2

F36 F360S

0.4

G36 G360S

0.75 .75

K36 K360S

1.5

C45 C450L

0.1

D450L

0.2

F45 F450S

0.4

H45 H450S

0.75 .75

K45 K450S

1.5

D540L

0.1

E54 E540L

0.2

G54 G540S

0.4

H54 H540S

0.75 .75

K54 K540S

1.5

D650L

0.1

E65 E650L

0.2

G65 G650S

0.4

K65 K650S

0.75

D800L

0.1

E80 E800L

0.2

G80 G800S

0.4

K80 K800S

0.75

E10 E1000L

0.1

F10 F1000L

0.2

H10 H1000S

0.4

K1000 K1000S

0.75 0.75

143.229 159.923 140.318 141.183 150.567 149.610 145.360 149.161 144.582 198.545 196.000 184.403 196.520 196.987 174.432 196.987 198.751 244.608 240.441 232.875 237.615 233.418 308.150 312.368 300.826 305.617 297.848 363.206 340.282 364.547 345.480 350.950 443.005 436.545 454.062 415.376 447.823 539.547 558.747 541.488 563.065 539.313 660.020 656.772 636.524 635.884 786.407 796.884 777.521 796.726 977.772 985.819 1094.976 959.498

3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4

0.10 0.20 0.27 0.51 0.54 1.15 1.71 1.66 3.25 0.10 0.20 0.40 0.51 0.89 1.45 1.28 2.35 0.10 0.20 0.41 0.70 1.83 0.10 0.20 0.32 0.76 1.78 0.10 0.20 0.45 0.68 1.18 0.10 0.20 0.35 0.74 1.19 0.10 0.20 0.45 0.57 0.99 0.10 0.20 0.37 0.76 0.10 0.20 0.31 0.57 0.10 0.20 0.29 0.49

9 90 0.2 18 189 22 226 42 426 48 483 1020 1470 1470 2790 99 22 229 43 437 59 592 1040 1500 1500 2770 14 142 27 279 55 552 96 963 2470 17 178 36 362 56 563 1340 3070 211 37 372 94 941 1360 2390 21 216 40 408 93 934 1780 3100 31 313 60 604 1400 1860 3090 38 382 60 606 1370 2790 39 393 60 606 1390 2610 56 567 96 961 1810 2710

1770 3970 3970 5100 7350 11600 13700 18100 21600 1770 3970 5100 7350 11600 13700 18100 21600 3970 5100 7350 11600 21600 3970 5100 7350 13700 21600 3970 5100 11600 13700 21600 3970 5100 11600 18100 21600 5100 7350 13700 18100 21600 5100 7350 13700 21600 5100 7350 13700 21600 7350 11600 18100 21600

206 206 265 314 314 431 471 471 598 206 206 265 314 314 431 431 471 206 206 265 314 471 206 206 265 314 471 206 206 265 314 431 206 206 265 314 431 206 206 265 314 431 206 206 265 314 206 206 265 314 206 206 265 314

0.10 0.20 0.32 0.61 0.64 1.38 2.03 2.00 3.91 0.10 0.20 0.48 0.60 1.07 1.73 1.53 2.66 0.10 0.20 0.49 0.84 2.18 0.10 0.20 0.38 0.89 2.13 0.10 0.20 0.53 0.80 1.40 0.10 0.20 0.42 0.88 1.41 0.10 0.20 0.54 0.67 1.19 0.10 0.20 0.44 0.90 0.10 0.20 0.37 0.68 0.10 0.20 0.34 0.58

7 74 4.5 15 157 22 224 42 422 47 475 1020 1450 1470 2780 81.4 19 192 43 431 58 580 1030 1480 1480 2600 118 23 231 54 544 96 963 2440 16 163 30 300 55 552 1310 3040 17 175 32 327 92 923 1330 2350 21 213 40 400 92 922 1760 3040 25 259 53 536 1390 1820 3090 31 317 60 606 1340 2760 37 378 60 606 1390 2640 47 470 94 947 1790 2670

1770 3970 3970 5100 7350 11600 13700 18100 21600 1770 3970 5100 7350 11600 13700 18100 21600 3970 5100 7350 11600 21600 3970 5100 7350 13700 21600 3970 5100 11600 13700 21600 3970 5100 11600 18100 21600 5100 7350 13700 18100 21600 5100 7350 13700 21600 5100 7350 13700 21600 7350 11600 18100 21600

167 167 226 275 275 402 441 441 549 167 167 226 275 275 402 402 441 167 167 226 275 441 167 167 226 275 441 167 167 226 275 402 167 167 226 275 402 167 167 226 275 402 167 167 226 275 167 167 226 275 167 167 226 275

Solid Input Shaft


C1 C 16 C1 C 17 C1 C 17 C1 C 17 C1 C 18 C1 C 18 C1 C 18 C1 C 19 C1 C 19 C1 C 16 C1 C 17 C1 C 17 C1 C 18 C1 C 18 C1 C 18 C1 C 19 C1 C 19 C1 C 17 C1 C 17 C1 C 18 C1 C 18 C1 C 19 C1 C 17 C1 C 17 C1 C 18 C1 C 18 C1 C 19 C1 C 17 C1 C 17 C1 C 18 C1 C 18 C1 C 19 C1 C 17 C1 C 17 C1 C 18 C1 C 19 C1 C 19 C1 C 17 C1 C 18 C1 C 18 C1 C 19 C1 C 19 C1 C 17 C1 C 18 C1 C 18 C1 C 19 C1 C 17 C1 C 18 C1 C 18 C1 C 19 C1 C 18 C1 C 18 C1 C 19 C1 C 19

C 20 C 21 C 21 C 21 C 21 C 22 C 22 C 23 C 23 C 20 C 21 C 21 C 21 C 22 C 22 C 23 C 23 C 21 C 21 C 21 C 22 C 23 C 21 C 21 C 21 C 22 C 23 C 21 C 21 C 22 C 22 C 23 C 21 C 21 C 22 C 23 C 23 C 21 C 21 C 22 C 23 C 23 C 21 C 21 C 22 C 23 C 21 C 21 C 22 C 23 C 21 C 22 C 23 C 23

C 24 C 25 C 25 C 25 C 25 C 25 C 26 C 24 C 25 C 25 C 25 C 25 C 26 C 25 C 25 C 25 C 25 C 25 C 25 C 25 C 26 C 25 C 25 C 25 C 26 C 25 C 25 C 25 C 25 C 25 C 26 C 25 C 25 C 26 C 25 C 25 C 26 C 25 C 25 -

Note: 1. Outp O utput ut shaft allowable radial load represents a value for the outpu outputt shaft center. center. 2. "Equivalent motor capacity [kW]" is just for a guide. Note that the full (100 %) output of the motor may be an overload. Be sure to use it within the output shaft allowable torque. C14 C14

Series

C Reducer imension Sheets

C Reducer 3.

imension Sheets age

Solid nput Shaft Type

C1


C1

Series

C1 , C,

C17

E, , G

C1

,K

C1 age

oot-mounted lange-mounted C20

C2

C20

C2

C20

C2

, C,

C21

C25

E, , G

C22

C2

,K

C23

-

ollow nput Shaft Type

M G500 Series Se Series

M Series G500 G500 Series Series,,

Series Series

Reducer imension Sheets (Solid  : Reduction ratio,  : Equivalent capacity kW

oot-mounted M GC51 -  R  -

L A

Li

nput Shaft Type)  : Reduction ratio,  : Equivalent capacity kW

lange-mounted M G C51 -  R  L

28 23

Li

A 10

28 3

155

0

18 -0.011

t

0

18 -0.011

6

t

b 5 . 0 0 - -

dh6

i C

5 . 6 1 b

5 . 7 2 1

3.5

28

23

5 8

3 6 4 0 0 1 . . 0 0 - -

6

5 5 1

5 4 1 

7 0 1



3.5

dh6 0 1

12

C

4-10

Gi

40

24

4-11

24

30

42

30 110

64

134

Reducer imension Sheets

omenclature

M G C 51

-R-

L

Ci

5  50 15 10

Gi

d

Li

b

.5 77 12 25

pproximate Mass kg

t

2.5 2.2

 : Reduction ratio,  : Equivalent capacity kW

oot-mounted M GC522 -  R  M GC52 GC522T 2T--  R  -

L A

Li

imension mm

Reduction Ratio

omenclature

-R-

M G C51

imension mm

Reduction Ratio

L

5  50

15

d 10

12

b

t

25

2.5 2.5


lange-mounted M G C 522 -  R  M G C 522T-  R  L

36

Li

A

31

12

165

36 4

0 22 -0.013

0

22 -0.013

36 6

t

5 . 0 0 - -

i C

b

5 . 4 3 1

3.5

0 9

3 6 4 0 0 1 . . 0 0 - -

t

b

dh6

Li

pproximate Mass kg

9 1

31

6

8 4 1 

5 1 8



3.5

dh6

2 1

4-11 12.5 Gi

65

30

4-12

51.5

30

37

37

90

130 154

omenclature

M G C 52 2 -  R  M GC52 GC522T 2T--  R  -

L

Ci

Gi

d

Li

b

30 17 113 71 57.5 12 25 5  200 1 7 12 12 71 70.5 12 25

pproximate Mass kg

t

2.5 2. 2.5 3.3


oot-mounted C  L-  L A

Li

imension mm

Reduction Ratio

Reduction Ratio

omenclature

imension mm L

d

M G C522 -  R  - 30 17 5  200 1 7 M G C522T-  R  -

113 12

12 12

Li 25 25

L Li

23

A

2.5 3 2.5 3.7

160

34 11

0 18 -0.011

t


lange-mounted C  L- 

28

b

pproximate Mass kg

3 28

dh6

B

0 18 -0.011

6

C b

B t C-C

i C

5 . 0 0 -

3.5

0 9

C

7 3 1

dh6

C b

B-B 2 1

12.5 Gi

65

43.5

4-12

90

omenclature

Reduction Ratio

26

26

30

30

5  20 1

Ci

0 8 3 6 4 0 0 . 1 . 0 - 0 -

6

0 4 1 

6 0

 1 3.5

C

0 9

B-B

C-C 23

4-10

130 154

imension mm L

0 2

B t

C  L-0.

B

Gi

d

135 70 7 .5 1

Li 25

b 5

pproximate Mass kg

t 3

.5

omenclature C  L-0.

imension mm

Reduction Ratio

L

5  20

1

d 12

1

Li 25

b

pproximate Mass kg

t 5

3

5

Series

Reducer imension Sheets (Solid nput Shaft Type)  : Reduction ratio,  : Equivalent capacity kW

oot-mounted C  L- 

L

L A

Li



36

Li

31

A

180

42 11

0 22 -0.013

3 36

dh6

B

0 22 -0.013

6

C b

B i C

t

3.5

5 . 0 0 -

5 0 1

C

5 6 1

B

2 1

B t

15 Gi

75

54

2 2

C b

B-B

C-C

dh6

4-12

30

30

35

35

105

0 9 3 6 4 0 0 . 1 . 0 - 0 -

6

0 6 1 

8 0

 1 3.5

C

0 0 1

B-B

C-C 31

4-10

130 155

omenclature C  L-0. C  L-0. C  L-0.75

C

imension mm

Reduction Ratio

L

Ci

25  30 230 1 5  75 23 177 5  20 23 175

Gi

d

Li

3 101 1 3 10 1 3 110 1

25 25 2

b 5 5

pproximate Mass kg

t

3 7 3 7.5 3.5


oot-mounted CC  L- 

Reduction Ratio

omenclature

L

d

Li

b

t

C  L-0. C  L-0. C  L-0.75

5  50 5  75 5  20

lange-mounted CC  L- 


L Li

imension mm

230 23 23

1 3 171 1

1 1 1

25 25 2

5 5

pproximate Mass kg

3 7.5 3 3.5 .5

L

A

36 31

Li

A

210

42 12

0 24 -0.013

3 36

dh6

B

0

24 -0.013

8

C b

B t

i C

5 8 1

4

5 . 0 0 -

C-C

B

B-B

omenclature CC  L-0. CC  L-0.75 CC  L-0.75

90 120

54

B 33 43

4-12

33 43

C 31

4-12

imension mm L

Ci

100  150 252 1 1 25  30 2 7 1 3 5  75 2 1 1 7

Gi

d

Li

10 1 25 103 1 2 117 23 2

b 5

pproximate Mass kg

t

3 .5 3.5 .5 3.5 10.5


A

5 1 1

B-B

C-C

Reduction Ratio

omenclature CC  L-0. CC  L-0.75 CC  L-0.75

imension mm L

d

100  150 252 25  30 2 7 5  75 2 1

1 5 177 1 1

Li

1 1 1

b

25 2 2

t 5

3 3.5 3.5

pproximate Mass kg

10 10 11



L Li

5 2 2



4

140 170

Reduction Ratio

oot-mounted C  L- 

5 0 1

3 6 4 0 0 . 1 . 8 0 - 0 -

0 8 1 

4 1

t 15 Gi

6 2

C b

0 2 1

C

dh6

L 58 53

Li 0

A 12

32 -0.016

66 3

260

58 dh6

B

0 1

C

0

32 -0.016 4 7 7 3 2 2

b

B t

i C

C

5 . 0 0 -

8 3 1

5

B C

B-B

C-C

dh6

7 1

3 3

b

B 15 Gi

125 155

78

40 50

4-12

t

40 50

0 3 1 0 2 5 2 0 0 . 1 . 1 0 - 0 -

0 3 2 

C 31

4-15

210

omenclature C  L-0. C  L-0.75 C  L-1.5 C  L-1.5 C  L-2.2

imension mm

Reduction Ratio

L

200 100  150 25  30 5  75 5  20

2 2 5 305 31 322

Ci 203 20 21 2 11 225 22 22

Gi

102 3 102 2 10 102 10 102 10 102 11 11 102 11

d

Li

1 1 1 20 22

25 2 2 3 3

b 5

t

pproximate Mass kg

3 1 3.5 20 3.5 .5 3.5 22 3.5 21 2 1.5

omenclature C  L-0. C  L-0.75 C  L-1.5 C  L-1.5 C  L-2.2

0 3 1

B-B

C-C

170

7 0 2



5

imension mm

Reduction Ratio 200 100  150 25  30 5  75 5  20

L 2 2 5 305 31 322

d 1 5 201 203 217 220

1 1 20 20 22

Li 25 2 3 3 3

b

t 5

pproximate Mass kg

3 22 22 3.5 23 3.5 2 3.5 25 3.5 2 .5


Series


oot-mounted CE  L-  CE  S- 

nput Shaft Type)

L Li


lange-mounted CE  L-  CE  S-  L

A

58 53

Li

A

68

0 38 -0.016

16

300

5 58

dh6

B

0 1

C

0

38 -0.016 4 7 7 3 2 2

b 5 . 0 0 -

B

t

i C

5

0 5 1

C

2 2

0 5 1

B

4 3

C B-B

C-C

dh6

0 2 5 2 0 . 1 . 0 - 0 -

b

B 20 Gi

53 140

83

63

4-15

180

63

C-C 53

CE  S-0. CE  L-0.75 CE  S-0.75 CE  S-1.5 CE  L-2.2 CE  L-2.2 CE  L-3.7

imension mm

Reduction Ratio

L

2 0  300 200 130  150 75 25  30 5  0 5  20

3 7 310 310 33 333 351 3 7

omenclature

Ci

Gi

d

Li

2 13 . 1 1 22 11 7 1 22 11 7 1 2 0 11 111 20 23 11 110 22 25 257 11 12 22 2 7 11 12 25

25 2 2 3 3 3 2

b 5

pproximate Mass kg

t

3 33 3.5 2 3.5 2 3.5 30 3.5 2 3.5 30.5 32.5


oot-mounted C  L-  C  S- 

CE  S-0. CE  L-0.75 CE  S-0.75 CE  S-1.5 CE  L-2.2 CE  L-2.2 CE  L-3.7

82 77

5 . 0 0 -

0 3 2 8 3 2

dh6

Li

B-B

107

3 0  50 200 2 0 130  150 75  100 25  30 5  0 20 5  15

05 351 1 372 3 3 5 0 3 5 17

55

55

65

65

Ci 2 1 7. 7.2 2 1 1 1 30 1 7.2 25 25 13 271 13 2 1 13 13 2 2 13 2 1 13 13 277 13

d

Li

13

1 1 1 20 22 25 25 25 30

25 2 2 3 3 2 2 2 5

1 7 105 122 11 11 13 13 11 11 150

77 6-19

b 5

pproximate Mass kg

t

3 5.5 3.5 3 .5 3.5 .5 3.5 1.5 3.5 2 3 5.5 3 3

C C C C C C C C C

B

Reduction Ratio

L

 S-0.  S-0.75  S-0.75  L-1.5  L-2.2  L-3.7  L-3.7  S-3.7  S-5.5

3 0  50 200 2 0 130  150 75  100 25  30 5  0 20 5  15

05 351 1 372 3 3 5 0 3 5 17

d 2 231 2 2 2 1 251 272 251 2 7

Li

1 1 1 20 22 25 25 25 30

b

25 2 2 3 3 2 2 2 5

t 5

3 .5 3.5 2.5 3.5 .5 .5 3.5 .5 3.5 5 .5


lange-mounted CG  L-  CG  S- 

0

C

20

420

92 5 82 0 48 -0.016

2 5 6 1 3 3

5 . 0 0 -

0 0 2

dh6

C

5.5 B-B

107

2 3

65 75

4-19

65 75

5 0  00 300  3 0 200 130  150 25  30 5  0 75  100 20 5  15

25 31 31 177. 3 7 2 177. 3 2 27 153 0 2 1 153 3 270 15 153 20 2 153 20 2 153 2 2 1 30 1

2 1 6 5 0 . 1 . 0 - 0 -

4 1

0 5 2 

0 8 3

5.5



5 9 1

B-B

C-C 77

6-19

imension mm Ci

5 9 1

C

270 330

L

B

B

235

Reduction Ratio

7 4

b

t 195

A

4 1

C-C

CG  S-0. CG  S-0.75 CG  L-1.5 CG  L-2.2 CG  S-3.7 CG  S-3.7 CG  L-3.7 CG  S-5.5 CG  S-7.5

pproximate Mass kg

imension mm

omenclature

48 -0.016

b

omenclature

0 8 1

B-B

Li

B

20 Gi

C

220 280

Gi

0 5 3



5

L 82 77

C

i C

3 .5 31.5 31.5 33.5 32.5 3 3

2 1

0 1 3 

C-C


dh6

t

3 3.5 3.5 3.5 3.5 3.5

390

6 7 5 3 0 . 1 . 0 - 0 -

B

imension mm L

2 4

C

5 2

4-19

Reduction Ratio

L A

t 5

0 8 1

B

b

t

oot-mounted CG  L-  CG  S- 

b

25 2 2 3 3 3 2

0

5

0 8 1

C

 S-0.  S-0.75  S-0.75  L-1.5  L-2.2  L-3.7  L-3.7  S-3.7  S-5.5

Li

1 1 1 20 22 22 25

42 -0.016

C-C

C C C C C C C C C

27 21 21 230 22 2 7 237

92 5 82

2 1

B

160 200

A 20

b

omenclature

d

3 7 310 310 33 333 351 3 7


0 42 -0.016

B

20 Gi

L

2 0  300 200 130  150 75 25  30 5  0 5  20

lange-mounted C  L-  C  S-  Li

C

t

pproximate Mass kg

imension mm

L

A

dh6

i C

4-19

Reduction Ratio

omenclature

L Li

0 5 1

B-B

245

Reducer

0 3 1



5

C

190

C

imension Sheets

t

53

0 1

0 5 2 

b

t

pproximate Mass kg

Gi

d

Li

123 1 0 10 107 2 11 11 12 1 27 1

1 1 20 22 25 25 25 30 35

25 5 3 25 5 3 33 3 3.5 1 3 3.5 1.5 2 0 2 5 2 5 5 0 5 10 5 3

omenclature CG  S-0. CG  S-0.75 CG  S-1.5 CG  L-2.2 CG  S-3.7 CG  S-3.7 CG  L-3.7 CG  S-5.5 CG  S-7.5

Reduction Ratio

pproximate Mass kg

imension mm L

5 0  00 25 300  3 0 3 200 3 2 130  150 0 25  30 3 5  0 20 75  100 20 20 2 5  15

d 30 30 31 2 2 1 2 0 2 2 27 2

1 1 20 22 25 25 25 30 35

Li 25 25 3 3 2 2 2 5 5

b

t 5 5

10

3 3 3.5 5 3.5 5. 5. 5

5

7

Series


oot-mounted C  S- 

 : Reduction ratio, ratio,  : Equivalent capacity [kW] [kW]

Foot-mounted ACK  S- 

L

L

Li

2 77

Li

0 63-0.011

3 5 3 3

b

B i C

5 . 0 0 -

5 2 2

C

25 Gi

Nomenclature ACH  S-0.4 ACH  S-0.75 ACH  S-1.5 ACH  S-2.2 ACH  S-3.7 ACH  S-5.5 ACH  S-5.5 ACH  S-7.5 ACH  S-11

215 2 5

B

dh6 1

C

C-C

5 3

8 1

C

B i C

5 . 0 0 -

5 2 2

C

C-C

5 5

-2

5 5

B-B 0 4

75 240

4-24

140

75

95

300

95 340

C

410

Dimension [mm]

447 450  540 456 200 406 130  150 423 75  100 443 25  30 451 45  60 475 20 470 5  15 52 525

1000

3

7

30 Gi

300 3 0

L

2 4 5 4 8

b

t

B-B

112

Reduction Ratio

105

0 -0.01

B

dh

A

100

5

t

nput Shaft Type)

b

t


A

Ci

Gi

d

Li

340 346 288 305 319 311 335 330 361

217 217 168 168 168 170 168 170 170

120 129 79 96 116 124 148 143 198

14 18 20 22 25 30 30 35 40

25 5 3 81 28 6 3.5 82 36 6 3.5 76 36 6 3.5 76.5 42 8 4 80 58 8 4 75 58 8 4 80 58 10 5 78 82 12 5 91

Nomenclature

Ratio

ACK  S-0.75

650  1000

ACK  S-1.5

360  540

ACK  S-2.2 ACK  S-2.2 ACK  S-3.7 ACK  S-5.5 ACK  S-7.5 ACK  S-7.5 ACK  S-11

Dimension [mm]

Reduction

L

A

Ci

497 364 241.7 542 401 401 246. 246.6 6 200 460 319 192 240  300 559 418 418 246. 246.6 6 130  150 484 337 192 75  100 516 353 190 25  30 50 501 338 192 45  60 53 535 372 190 5  20 55 556 369 192

Gi

d

Li Li

b

t


40 162 162 80 179 179 104 136 121 155 176

18 20 22 22 25 30 35 35 40

28 36 36 36 42 24 58 58 24

6 6 3.5 3.5 6 8 8 10 10 12

3.5 3.5 3.5 3.5 3.5 3.5 3.5 4 4 5 5 5

113 121 121 107 122 122 110 110 103 11 113 11 116



Seri Series es

Reducer imension Sheets (

ollo ollow w nput nput Shaf Shaftt Type) ype)


oot-mounted M GM51 -  R  -

L A

LR 

 

28

BB

23 0

18-0.011

D F7 1 Depth

 LA

6

' H

3.5 3.5

5 . 0 0 -



10

H

5 8 0 1

C

4-LZ

B C


5 . 6 1

7 C H L B L 

Motor kW 0.1 0.2

Reduction Ratio

omenclature -  R0.1-  R0.2-

M GM51 M GM51

12

40 64

42

24 30 11 110 0 13 134 4

Reducer L 135 1 .5 12 127.5 135 1 .5 12 127.5

5  50 5  25

24 30

4-10

C 5 -11.5 5 -11.5

imension mm Motor-mounted art   L L LC L 130 110 1 0 M 5 5 130 110 1 0 M 5 5

l1 23 23

11 11

m 10 10

pproximate Mass kg


oot-mounted M GM522 -  R  M GM52 GM522T 2T--  R  -

 

 

L A

LR

36

BB

31 0

22-0.013

D F7 1 Depth

6

9 1

7 C H L B L 

 LA

5 . 0 0 -



10

' H H

3.5 3.5

0 9



4-LZ

Motor kW 0.1 0.1 0.2

Reduction Ratio

omenclature M GM522 -  R0.2M GM522T-  R0.1M GM522T-  R0.2-

B C

12.5

65 90

L 150 1 3 1 3

30 37 110 154

imension mm Motor-mounted art   L L LC L 130 110 1 0 M 5 5 130 110 1 0 M 5 5 130 110 1 0 M 5 5

C 151 13 .5 151 13 .5 151 13 .5

30 37

4-12

51.5

Reducer

30 0  200 5  100

2 1

5 5 5

-

l1 23 23 23

11 11 11

m 10 10 10

pproximate Mass kg

. 5.1 5.1


oot-mounted M  L- 

LR  

 

L A

28 23

BB

0

18-0.011

D F7 1 Depth 7 C H L B L 

b

A L 

0 2

2 5 . 0 0 -



t

6

0 9

' H H

3.5 3.5 2 1

4-LZ B C

4-12 12.5

Motor kW 0.

omenclature M  L-0.

Reduction Ratio 5  20

Reducer L 15

3

150

137

LR 7

65 90

26

26

30

30 130 130

43.5

imension mm Motor-mounted art   C L L LC L 5 -10 130 110 1 0 M 5 5

154 154

l1 30

1

 5

 2.3

pproximate Mass kg

5.5


Reducer imension Sheets ( L A

LR  

 

36 31

BB

0 22-0.013

D F7 1 Depth 7 H C L B L  

b

A L



6

2

2 2

5 0 1

30 4-12

Reduction Ratio

M  L-0. M  L-0. M  L-0.75

L 17 1 7 10 1 7

25  30 5  75 5  20

LR 7 7 55

1 5 1 5 1 3 1 5

35 130 130 155 155

imension mm Motor-mounted art C L L LC L   5 3 13 130 11 110 1 0 M 5 5 5 3 13 130 11 110 1 0 M 5 5 5 -17 1 5 13 130 20 200 M10 5 5

Reducer

30 35

54

75 105 105

H

2 1

B C

15

omenclature

' H

3.5 3.5

5 . 0 0 -

t

4-LZ

0. 0. 0.75




Motor kW

Serie Series s

l1 30 30 0

C

1 1 1

 5 5

 2.3 2.3 2.

pproximate Mass kg

.5 10


oot-mounted MC  L- 

L  

LR

 

3 31



2

7 1

epth 7 C L L 

b

L

2

2 5 . 0 0 -





0 -0.013

0 2 1

t

1

-L C

33 15

5

0

-12

120

Motor kW 0. 0.75 0.75

Reduction Ratio

omenclature

1 1

LR 7 55 55

1 5 1 5 1 5

3 1 0 170

imension mm Motor-mounted art   L L LC L 130 11 110 1 0 M 5 5 1 5 13 130 20 200 M10 5 5 1 5 13 130 20 200 M10 5 5

Reducer

L 100  150 201 11 25  30 1 5 10 10 5  75 20 11

MC  L-0. MC  L-0.75 MC  L-0.75

33

3

5 5 5

C 1 -

l1 30 0 0

1 1 1

 5

 2.3 2. 2.

pproximate Mass kg

10.5 11.5 12.5



L A

LR BB

 

 

58 53 0

32-0.016 D F7 1 Depth 7 H C L B L 

b

L A



0 1

2

3 3 5 . 0 0 -



t

5 3 1

0.1 0.2 0. 0.75 1.5 1.5 2.2

M  L-0.1 M  L-0.2 M  L-0. M  L-0.75 M  L-1.5 M  L-1.5 M  L-2.2

value of the dimension

Reduction Ratio 5 0  2 0  200 100  25  5  5 

4-12

78

125 125 155 155

2 27 2 2 2 2 2

215 237 215 215 215 215 215

LR 7 55 0 0 71

C 5 5 5 5 5 5

1 22 2 2 2 -23

imension mm Motor-mounted art   L L LC L 130 11 110 1 0 M 5 5 13 1 30 110 1 0 M 5 5 13 1 30 110 1 0 M 5 5 1 5 13 130 20 200 M10 5 5 1 5 13 130 20 200 M10 5 5 1 5 13 130 20 200 M10 5 5 21 2 15 1 0 25 2 50 M12 5 5

with              

value of the dimension b with  is the dimension of the

cut.

40

50

50 170 170 210 210

Reducer

L 00 270  212 50 270  212 235 130 150 2 3 130 30 2 12 75 2 0 1 2 20 257 12

H

7 1

40 15

omenclature

5

B C

4-LZ

Motor kW

' H

l1 23 23 30 0 50 50 0

  11  10 11  10 1 5 2.3 1 2. 2 3.3 2 3.3 2 3.3

pproximate Mass kg

23.2 23.2 20 22 22 23 25



Seri Series es

Reducer imension Sheets ( oot-mounted ME  L-  ME  S- 


 : Reduction ratio,  : Equivalent capacity kW  

L A

LR BB

 

58 53 0

38-0.016

D F7 1 Depth b

L A



7 H C L B L 

' H

0 5 1


0.1 0.2 0. 0.75 0.75 1.5 1.5 2.2 2.2 3.7

omenclature ME  L-0.1 ME  L-0.2 ME  S-0. ME  S-0.75 ME  L-0.75 ME  S-1.5 ME  L-1.5 ME  L-2.2 ME  L-2.2 ME  L-3.7

Reduction Ratio 1000 5 0  2 0  130  200 75 100 25  5  5 

Reducer

L 2 5  227 00 2 5  227 300 31 211 150 25 1 5 25 1 5 275 157 275 157 30 2 13 0 2 157 20 271 13

27 27 27 27 27 27 27 237 27 27 27 27 27

LR 7 55 55 0 0 71 71 7

237 237 237 237 237 27 237 237 237 237

2 2

53

B C

20

140 140 180 180

H

5

5 . 0 -



t

4-LZ

Motor kW

0 1

4 3

2

4-15

83

53

63

63 190 190 245 245

imension mm Motor-mounted art   C L L LC L 5 1 13 1 30 110 1 0 M 5 5 5 1 13 1 30 110 1 0 M 5 5 5 5 . 130 110 1 0 M 51 3 5 1 1 5 13 130 20 200 M10 5 5 5 1 1 5 13 130 20 200 M10 2 5 1 1 5 130 200 M10 5 5 5 1 1 5 130 200 M10 5 5 - 215 1 0 25 2 50 M12 5 5 - 215 1 0 25 250 M12 5 5 - 215 1 0 25 2 50 M12 5 5

l1 23 23 30 0 0 50 50 0 0 0

  11  10 11  10 1 5 2.3 1 2. 1 2. 2 3.3 2 3.3 2 3.3 2 3.3 2 3.3

pproximate Mass kg

31.2 31.2 3 22 30 31 31 32.5 3 3 .5

value of the dimension with               value of the dimension b with  is the dimension of the cut. oot-mounted M  L-  M  S- 


L A

LR

 

 

82

BB

77

0

42-0.016 D F7 1 Depth

2 1 7 C H L B L 

b

L A



2 4

2

5 . 0 0 -



t

4-LZ

0 8 1

55

0.2 0. 0.75 0.75 1.5 2.2 3.7 3.7 3.7 5.5

omenclature M M M M M M M M M M

 L-0.2  S-0.  S-0.75  S-0.75  L-1.5  L-2.2  S-3.7  L-3.7  L-3.7  S-5.5

Reduction Ratio 1000 3 0  200 2 0 130  75  20 25  5  5 

Reducer

L 32  32  2 50 35 225 2 1 2 3 2 225 150 313 171 100 32 171 30 153 30 30 153 0 330 17 15 33 1 1

320 320 32 3 20 320 320 320 32 320 32 320 320 320

2 2 2 2 2 2 2 2 2 2

3 3 0 3 3 3 3 3 3 3

LR 7 55 55 0 71 7 7 7 1

C 5 7 5 7.2 5 1 5 220 5 3 13 13 13 13 -12

4-19

107 107

160 160 200

H

5 2

B C

20

Motor kW

' H

5

55

65

65 220 220 280 280

imension mm Motor-mounted art   L L LC L 13 1 30 110 1 0 M 5 5 130 110 1 0 M 51 3 1 5 13 130 20 2 00 M10 3 51 1 5 130 200 M1 M10 51 3 1 5 130 200 M1 M 10 3 .5 .5 51 5 1.5 215 1 0 250 M1 M 12 3 .5 51 5 1.5 21 215 1 0 25 250 M12 5 5 21 215 1 0 25 250 M12 5 5 21 2 15 1 0 25 2 50 M12 5 5 2 5 230 300 M12 5 5

l1 23 30 0 0 50 0 0 0 0 0

  11  10 1 5 2.3 1 2. 1 2. 2 3.3 2 3.3 2 3.3 2 3.3 2 3.3 3 10 3.3

pproximate Mass kg

2.7 .5 1.5 .5 2.5 5.5 7 7 .5 50

value of the dimension with               value of the dimension b with  is the dimension of the cut. oot-mounted MG  L-  MG  S- 

 : Reduction ratio,  : Equivalent capacity kW  

 

LR BB

1 Depth

A

 L

t

4-LZ

7 C H L B L 

0. 0.75 1.5 2.2 3.7 3.7 3.7 5.5 7.5

MG  S-0. MG  S-0.75 MG  S-1.5 MG  L-2.2 MG  S-3.7 MG  S-3.7 MG  L-3.7 MG  S-5.5 MG  S-7.5

Reduction Ratio 5 0  300  200 130  25  5  75  20  5 

L 00 37 3 0 3 2 333 150 3 30 3 0 3 100 3 25 3 15 3

3 3 3 3 3 3 3 3 3

2 2 2 2 2 2 2 2 2

0  48-0.016

31 3 15 315 315 31 315 315 315 315 31 3 15 31 315

4 1 ' H

2 5 . 0 0 -



LR 7 55 0 71 7 7 7 1

195 235 235

107

H

5.5

0 0 2

B C

Reducer 2 5 2 5 1 1 1 1 1 2 1 1 173 17

77

7 4

20

omenclature

82

 D F7

b

Motor kW

L A

2 3

65

4- 19

imension mm Motor-mounted art   C L L LC L 5 7. 130 110 1 0 M 51 3 5 77. 1 5 130 200 M10 51 3 5 53 1 5 130 200 M10 3 5 2 215 1 0 25 250 M12 3 5 2 215 1 0 250 M12 2 2 215 1 0 250 M12 2 2 215 1 0 250 M12 2 -2 2 5 23 2 30 30 3 00 M12 5 5 -2 2 5 23 230 30 300 M12 5 5

65

75

75 270 330

l1 30 0 50 0 0 0 0 0 0

1 1 2 2 2 2 2 3 3

 5

10 10

 2.3 2. 3.3 3.3 3.3 3.3 3.3 3.3 3.3

pproximate Mass kg

5 7 2 5

7 72


Reducer imension Sheets ( L A

LR

82

BB 

77

0 56-0.019

D F7 1 Depth

6 1 7 C H L B L 

b

A L 

7 5

2



t

' H

6

5 . 0 0 -

5 2 2

4-LZ

25

0. 0.75 1.5 2.2 3.7 5.5 5.5 7.5 11

Reduction Ratio

omenclature M  S-0. M  S-0.75 M  S-1.5 M  S-2.2 M  S-3.7 M  S-5.5 M  S-5.5 M  S-7.5 M  S-11

1000 50  200 130  75  25  5  20 5 

2 7 2 7 20 205 205 21 2 11 1 5 21 21 20 2 00 200

3 3 3 3 3 3 3 3 3

3 3 3 3 3 3 3 3 3

3 3 3 3 3 3 3 3 3

65

85

85

LR 5 7 5 55 5 0 5 71 5 7 5 1 5 1 5 5 123

L A

LR BB

C 5 13 137 5 117 5 3 3 20 1 20 7 -5

imension mm Motor-mounted art   l1 L L LC L 13 130 11 110 1 0 M 5 5 30 1 5 13 1 30 20 2 00 M10 5 5 0 1 5 13 130 20 200 M10 2 50 21 215 1 0 25 250 M12 2 0 21 215 1 0 25 250 M12 5 5 0 2 5 23 230 30 300 M12 5 5 0 2 5 23 230 30 300 M12 5 5 0 2 5 23 2 30 30 3 00 M12 5 5 0 300 250 350 M1 M1 5 5 110

 

1 1 2 2 2 3 3 3 2

imension Sheets

 5

10 10 10 12

 2.3 2. 3.3 3.3 3.3 3.3 3.3 3.3 3.3

L A



2 77 0 2 7 7

100 100

0 63-0.019

8 1 7 C H L B L 

8 5

2

5 . 0 0 -



t 4-LZ

0 5 2

B C

' H

7

omenclature

Reduction Ratio 50  3 0  200 2 0  130  75  25  5  5 

1000 5 0

240 240 300 300

140 140

5 2 5 3 31 31 3 5 21 21 300 31 150 0 22 100 33 237 30 02 20 20 0 3 2 2 20 3 20

2 2 2 2 2 2 2 2 2

3 3 3 3 3 3 3 3 3

LR 5 55 5 0 5 71 5 71 5 7 5 237 5 5 5 123

4-24

75

95

95 340 340 410 410

Reducer L

H

0 4

75 30

MK  S-0.75 MK  S-1.5 MK  S-2.2 MK  S-2.2 MK  S-3.7 MK  S-5.5 MK  S-7.5 MK  S-7.5 MK  S-11

pproximate Mass kg

D F7

b

0.75 1.5 2.2 2.2 3.7 5.5 7.5 7.5 11

Reducer

105

1 Depth

Motor kW

C


oot-mounted MK  S- 

 

65 300 300 360 360

Reducer

L 3 5 0 0 3 7 150 35 100 3 7 30 3 0 3 2 371 15 05

4-24

112 112

215 215 265 265

H

5 3

B C

Motor kW



oot-mounted M  S- 

 

Serie Series s

C 5 1 2 5 1 7 12 7 0 2 0 7 17

imension mm Motor-mounted art L L LC L   l1 1 5 13 130 20 200 M10 5 5 0 1 5 13 130 20 200 M10 5 5 50 21 215 1 0 25 250 M12 2 0 215 1 0 25 250 M12 5 5 0 215 1 0 250 M12 5 5 0 2 5 230 300 M1 M12 5 5 0 2 5 23 230 30 300 M12 5 5 0 2 5 23 230 30 300 M12 5 5 0 300 250 350 M1 M1 5 5 110

 1 2 2 2 2 3 3 3 2

10 10 10 12

 2. 3.3 3.3 3.3 3.3 3.3 3.3 3.3 3.3

pproximate Mass kg

115 122 110 125 11 117 112 122 121


Seri Series es

Reducer imension Sheets (  : Reduction ratio,  : Equivalent capacity kW

lange-mounted M G M51 -  R  -

L LR

155

2 23



 



1

7 epth

1

1

7 C L L 

C

5 1





10

0 -0.011

3 0 0 1 . . 0 0 -

5 .

 L

7 0 1



3.5

-11

-L B C



Motor kW 0.1 0.2

Reduction Ratio

omenclature -  R0.1-  R0.2-

M G M51 M G M51

Reducer L 135 135

5  50 5  25

L 5 5

L 130 130

110 110

imension mm Motor-mounted art LC L   1 0 M 5 5 1 0 M 5 5

 10 10

l1 23 23

11 11

pproximate Mass kg

.3 .3


lange-mounted M G M522 -  R  M G M522T-  R  -

L LR

A

36

BB

165 165

31



 

0

22-0.013

D F7 1 Depth 7 C H L B L 

 LA

3 6 4 0 0 . 1 . 0 0 -

9 1

8 4 1





10

6

' H H

5 1 8

3.5 3.5



4-LZ

4-11 B C

Motor kW 0.1 0.1 0.2

Reduction Ratio

omenclature M G M522 -  R0.2M G M522T-  R0.1M GM522T-  R0.2-

30 0  200 5  100

Reducer L 150 1 3 1 3

L 5 5 5

L 130 130 130

110 110 110

imension mm Motor-mounted  LC L 1 0 M 1 0 M 1 0 M

art  5 5 5

 10 10 10

l1 5 5 5

23 23 23

11 11 11

pproximate Mass kg

. 5.5 5.5


lange-mounted M  L- 

L LR 11

 

 

1 0

3 3 2 1



7 1

b

0

epth 7 C L L 

3 0 0 . 1 . 0 - 0 -

0 2

2

0

 1

1





L



0 -0.011

t

0

3.5

0

23

-L

-10

C

Motor kW 0.

omenclature M  L-0.

Reduction Ratio 5  20

Reducer L LR 15 77 7

5

C L -10 130

imension mm Motor-mounted art   L LC LC L 110 1 0 M 5 5

l1 30

 1

5

 2.3

pproximate Mass kg



Serie Series s




L A

LR

11  

 

180 180

42 3 36

BB

0

22-0.013 D F7

B

1 Depth 7 H C L B L 

b

2 2

2

6

0 6 1

8 0



B



A L



0 9

3 6 4 0 0 1 . . 0 0 - -

 1

3.5 3.5

t

0 0 1

B-B 31

4-10

4-LZ

Motor kW 0. 0. 0.75

Reduction Ratio

omenclature M  L-0. M  L-0. M  L-0.75

lange-mounted MC  L- 

C

25  30 5  75 5  20

Reducer L LR 17 0 7 1 7 7 1 7 0 55

imension mm Motor-mounted art   C L L LC LC L 5 -2 130 110 1 0 M 5 5 5 -2 13 1 30 110 1 0 M 5 5 5 -22 1 5 130 200 M1 M 10 5 5

1 1 1

5 5

 2.3 2.3 2.

.5 10.5

 : Reduction ratio,  : Equivalent capacity kW L A

LR

12  



l1 30 30 0

pproximate Mass kg

 

210 210

42 3 36

BB

0

24-0.013 5 0 1

D F7

B

1 Depth 7 H C L B L  

b

L A



6 2

2

3 6 4 0 0 . 1 . 0 0 - -

8

0 8 1

B



5 2 2



4

t

5 1 1

B-B 31 4-12

4-LZ

Motor kW 0. 0.75 0.75

Reduction Ratio

omenclature MC  L-0. MC  L-0.75 MC  L-0.75


100  150 25  30 5  75

Reducer L LR 201 112 7 1 5 55 20 112 55

imension mm Motor-mounted art C L L LC LC L   5 130 110 1 0 M 5 5 5 -11 1 5 130 200 M10 5 5 5 -11 1 5 130 200 M1 M 10 5 5



l1 30 0 0

1 1 1

5

 2.3 2. 2.

pproximate Mass kg

11 12 13

 : Reduction ratio,  : Equivalent capacity kW L LR

A 12

66 3

260 260

58  

BB

 

0

32-0.016

D F7

B


b

L A



3 3

B

4-LZ

0.1 0.2 0. 0.75 1.5 1.5 2.2

omenclature M  L-0.1 M  L-0.2 M  L-0. M  L-0.75 M  L-1.5 M  L-1.5 M  L-2.2

Reduction Ratio 5 0  2 0  200 100  25  5  5 

0 1



0 2 7 

5

0 3 1

B-B 31

Motor kW

0 2 5 2 0 1 . . 0 0 - -

0 3 2

2



t

0 3 1

00 50 150 30 75 20

Reducer L LR 270  20 270  212 235 122 7 2 3 122 55 2 120 0 2 0 13 0 257 120 71

value of the dimension with  is the total value of dimension value value of the dimension b with  is the dimension of the cut.

C 5 5 5 5 5 5

1 17 -3 -3 -3

L 130 130 130 1 5 1 5 1 5 215

LR in the figure.

4-15

imension mm Motor-mounted art   L LC LC L 110 1 0 M 5 5 110 1 0 M 5 5 110 1 0 M 5 5 130 200 M1 M10 5 5 130 200 M1 M10 5 5 130 200 M1 M10 5 5 1 0 250 M1 M12 5 5

l1 23 23 30 0 50 50 0

 11  10 11  10 1 5 1 2 2 2

 2.3 2. 3.3 3.3 3.3

pproximate Mass kg

2 .2 23.2 23 25 25 2 2



Seri Series es


ollo ollow w nput nput Shaf Shaftt Type) ype) L


lange-mounted ME  L-  ME  S- 

LR

A

300

1

5 5

 

 

3 

0 5 1

epth

1

0 2 5 2 0 . 1 . 0 - 0 -

3 7 C L L 

b L



0 -0.01

7





t

0 1

0 5 2

2

0 3 1



5

0 5 1

53

-L

Motor kW


0.1 0.2 0. 0.75 0.75 1.5 1.5 2.2 2.2 3.7

omenclature ME  L-0.1 ME  L-0.2 ME  S-0. ME  S-0.75 ME  L-0.75 ME  S-1.5 ME  L-1.5 ME  L-2.2 ME  L-2.2 ME  L-3.7

Reduction Ratio 1000 5 0  2 0  130  200 75 100 25  5  5 

00 300 150

30 0 20

Reducer L LR 2 5  217 2 5  227 31 201 7 25 135 55 25 135 55 275 1 7 0 275 1 7 0 2 12 71 2 1 7 71 271 12 12 7

C 5 5 5 5 5 5 5

L 130 130 130 1 5 1 5 1 5 1 5 215 215 215

5 . 1 1 1 1 -

-1

imension mm Motor-mounted art L LC LC L   110 1 0 M 5 5 110 1 0 M 5 5 110 1 0 M 51 3 130 200 M1 M 10 5 5 130 200 M1 M10 2 130 200 M1 M 10 5 5 130 200 M10 5 5 1 0 25 250 M12 5 5 1 0 250 M1 M12 5 5 1 0 25 2 50 M12 5 5

l1 23 23 30 0 0 50 50 0 0 0

 11  10 11  10 1 5 1 1 2 2 2 2 2

pproximate Mass kg

 3 .7 31.2 2.3 37.5 2. 33.5 2. 33.5 3.3 3 .5 3 .5 3.3 3 3.3 37 37.5 3.3 0

value of the dimension with               value of the dimension b with  is the dimension of the cut. L LR


lange-mounted M  L-  M  S- 

20

 

 

A

390 390

92 5 82 0

BB

42-0.016

D F7 1 Depth

2 4 7 H C L B L 

b

A

 L

B

0 8 1 6 7 5 3 0 1 . . 0 0 - -

2 1

0 1 3

2 B





0 5 3



5

t

0 8 1

B-B 77

4-LZ

Motor kW 0.2 0. 0.75 0.75 1.5 2.2 3.7 3.7 3.7 5.5

omenclature M M M M M M M M M M

 L-0.2  S-0.  S-0.75  S-0.75  L-1.5  L-2.2  S-3.7  L-3.7  L-3.7  S-5.5

value of the dimension

Reduction Ratio 1000 3 0  200 2 0 130  75  20 25  5  5 

50

150 100 30 0 15

6-19

Reducer L LR 32  2 35 215 7 2 152 55 3 2 215 55 313 1 1 0 32 1 1 71 30 1 3 7 30 1 3 7 330 1 7 33 151 1

imension mm Motor-mounted art   L L LC LC L 130 110 1 0 M 5 5 130 110 1 0 M 51 3 1 5 130 200 M1 M10 3 51 1 5 130 200 M10 51 3 1 5 130 200 M10 3 .5 51.5 215 1 0 250 M12 3 .5 51.5 215 1 0 250 M12 5 5 215 1 0 250 M12 5 5 215 1 0 250 M1 M12 5 5 2 5 230 300 M12 5 5

C 5 5 5 5 5

7.2 1 7.2 3 13 13 13 13 -12

l1 23 30 0 0 50 0 0 0 0 0

 11  10 1 5 1 1 2 2 2 2 2 3 10

 2.3 2. 2. 3.3 3.3 3.3 3.3 3.3 3.3

pproximate Mass kg

2.7 .5 .5 51.5 5.5 .5 50 50 52 52.5 53

with              

value of the dimension b with  is the dimension of the

cut. L LR

lange-mounted MG  L-  MG  S- 

20

 : Reduction ratio,  : Equivalent capacity kW  

A

420 420

92 5 82 0 48-0.016

BB  

D F7 7 4


b

A

 L

5 9 1 2 1 6 5 0 1 . . 0 0 - -

4 1

0 5 2

2 B



t

B



0 8 3

5.5



5 9 1

B-B 77

4-LZ

6-19

Motor kW 0. 0.75 1.5 2.2 3.7 3.7 3.7 5.5 7.5

omenclature MG  S-0. MG  S-0.75 MG  S-1.5 MG  L-2.2 MG  S-3.7 MG  S-3.7 MG  L-3.7 MG  S-5.5 MG  S-7.5

Reduction Ratio 5 0  300  200 130  25  5  75  25  5 

00 3 0 150 30 0 100 30 15

Reducer L LR 37 235 7 3 2 235 55 333 1 1 0 3 1 1 71 31 152 7 3 17 7 3 17 7 3 1 3 1 3 1

5 5 5

C 2. 72. 23 23 23 23 -7 -7

L 130 1 5 1 5 215 215 21 215 21 215 2 5 2 5

imension mm Motor-mounted art L LC LC L   110 1 0 M 51 3 130 200 M10 51 3 130 200 M1 M10 3 5 1 0 250 M12 3 5 1 0 250 M12 2 1 0 25 250 M12 2 1 0 25 250 M12 2 230 300 M1 M12 5 5 23 230 30 300 M12 5 5

l1 30 0 50 0 0 0 0 0 0

 1 1 2 2 2 2 2 3 3

5

10 10

 2.3 2. 3.3 3.3 3.3 3.3 3.3 3.3 3.3

pproximate Mass kg

71

73 73 71 7

Series

ptions

ptions

pplications age

Slide ase

2

and oltage Motor

2

utdoor Type Motor

3

Safety Enhanced Explosion-proof Motor ther Motor

ptions

3 3

Series

ptions pplications

Slide ase ase ( Seri Series es  Sli We provide optional slide base dedicated for

nly nly)

Series. lease ask us at the time of order. 2-Z

D E

B d

C G

B

A

Move Length Gap with Reducer

2 h H

1 H

L

ttaching Slide ases When you use the slide bases with driving chain or belt, attach the push bolts at front and back in in the opposite direction of the external force as shown above. Reducer rame rame Si e

imension mm

Slide ases o.

ush olt d L

C

E

G

1

2

h

ptions C E G K

SR-30

1

SR- 5

2 0

27

3 0

1

355

32

35

1 20 2

S R-50

520

37 370

30

0

S R- 3

35

0

35

5 5

5

7

0

2

50

0

0

0

0

105

70

20

3

115

12

M10

25 25

15

M12

30

1

M1

35

2

M20

Gap with Reducer mm

Move Length mm

5

35

50

30

0

35

10

0

20

30

20

5

-

0

15

70

-

50

Mass kg er nit (2 Rails)

12

15 21 3

 and oltage Motor or 3-phase motors, we provide multi-voltage compatible band voltage motors for 00 Compatible voltages of the band voltage motors are as follows:

oltage requency

3 0

00 50

ote: Consult us for for ones with brakes.

15

00

0 0

class other than 200

standard. lease ask us at the time of order.

Series

ptions pplications 

utdoor Type Motor

We provide outdoor type gearmotors suitable to use outdoors. They are specially designed to be used safely under the conditions such as weather, snow, etc. nly the dimensions different from the indoor types are shown below:

T S

Motor (0. to 11 kW) mm

A

T S

utput kw

B

C

D right side seen from motor fan side

Motor Connection

C

Method 3 0. 150 11 3 0.75 15 11 Screw Clamp 3 1.5 15 11 Terminal lock 3 2.2 153 11 3 3.7 1 11 5.5 2 0 203 15 11 2 Stud Type Terminal 7.5 2 0 203 15 11 2 lock 11 ote: There is a slightly difference in the dimension among models models because because the attaching angle of the terminal box varies depending on the model.

S MT M

Motor (0. to 11 kW)

LM

J

kW0. ( ) 0. ( ) 0.75 1.5 2.2 3.7 5.5 7.5 11

M D 

KD

LM 1 .5 (22 .5) 1 7 (22 ) 233 (27 ) 2 0 (3 2) 2 (3 2) 322 (3 ) 01 ( 73) 11 (50 ) 73 (5 )

imension mm M K 3 12 3 12 3 155 3 1 7 3 1 0 222 1 222 1 2 0 1 2 0 11

105 105 13 1 1 1 1 3 1 3 222 222

1. ( ) represents the dimension with brakes. 2. The The fra frame si e is T for for 0.2 and and 0. ( ), and T and 0. ( ).

to T

for for 0.2 0.2

 ncresed Safety Explosion-proof Motor We provide increased safety explosion-proof motors (eG3) for an environment where an explosive gas may be produced. nly the dimensions different from the indoor types are shown below: nly without brake. nverter driving not supported.

             

LM

J

kW0. ( ) 0. ( ) 0.75 1.5 2.2 3.7 5.5 7.5 11

M D 

KD

LM 1 .5 1 7 233 2 0 2 322 01 11 73

imension mm M K 3 12 3 12 3 155 3 1 7 3 1 0 222 1 222 1 2 0 1 2 0 11

The The fra frame si e is T for for 0.2 0.2 and 0. ( ), and and T 0. ( ).



ther Motor

105 105 13 1 1 1 1 3 1 3 222 222

to T

ptions

                   

for for 0.2 and and

ptions

Series

M E M

ptions

Tec Tech hnical ical Dat Data / Gear Gear

E Te Technical Data

E Tech Tec hnic ical al Tec T ech hnic ical al Data Data Reducer

Page

1. Reducer 2. Motor

E3 E7

E1


M E M O

E Tech Tec hnic ical al Tec T ech Data hnical cal Data Reducer

E2


E Technical Data E

1. Reducer

Tec T ech hnic ical al Data Reducer

Page

Construction onstruction Drawing Lubrication Moment of Inertia Dimension Dimension of Tapped Tapped Hole of Output Shaft E nd

E4 E5 E6 E6

E3


Lubrication Lubrication The The gea gearm rmot otor orss and and red reduc ucer erss of MFG500 MFG500 an and A Seri Series es ar are gr grease ease-lu -lubr bric icat ated ed and and sea seale led d wit with h gr grease ease bef befor ore e ship shipm ment ent. So th they can can be be used without replenishment.                       continuous use, replace it about every 15,000 hours. L E Grea Grease se R000 R000 (Sho (Showa wa Shel Shelll Seki Sekiyu yu K.K. K.K.)) Extreme-pressure Grease

 

LG

o.00 o.000 0 Mult Multii-pu purp rpos ose e Lith Lithiu ium m ase ase

ill olume olume of Grease Grease for M G500 G500 Series Series oot-mounted

lange-mounted

ouble Re Reduction Triple Re Reduction

ouble Reduction

uad Re Reduction

Triple Reduction

uad Reduction

Reducer

ill

Reducer

ill

Reducer

igh Speed Slow Speed

Reducer

ill

Reducer

ill

Reducer

igh Speed Slow Speed

rame rame Si e

olume

rame rame Si e

olume

rame rame Si e

ill olume

rame rame Si e

olume

rame rame Si e

olume

rame rame Si e

ill olume

51

0.0 100 100

522T

0.1 200 200

C

51

0.07  0

522T

0.15 1 0

C

522

0.1 150 150

C

0.32 350 350

E

522

0.11 120 120

C

0.32 350 350

E

ill olume

0.1 200 200 0.32 0.32350 350 0.1 200 200 0.51 0.51550 550 0.1 200 200 0. 21000 1000 0.1 200 200 1. 01500 1500

ill olume

0.1 200 200 0.32 0.32350 350 0.1 200 200 0.  0. 500 500 

E

0.1 200 200 0. 3 00 00

0.1 200 200 1.30 1.301 00 00 T Tec ech hnic ical al

Data

ill olume of Grease for M o u n t i n g S t y l e

T y p e ( o o t m o u n t e d )

1 51 10

C

E

G

K

T y p e ( l a n g e m o u n t e d )

ouble Reduction

Reducer rame rame Si e

1 15  1 30

kg ml

1 5  1 200 200

1 2 0  1 1000 1000 igh Speed Side

Slow Speed Side

0.1 150 150

-

-

-

0.23 0.23250 250

0.2 300 300

-

-

0.2 300 300

0.32 0.32350 350

-

-

0. 2 50 50

0.51 0.51550 550

-

-

0. 3 00 00

0. 21000 1000

0.37 0.37 00 00

0. 21000 1000

1.1 1.11200 1200

1. 1500 1500

0.37 0.37 00 00

1. 1500 1500

2.02200 2200

1. 2000 2000

2.3 2.32500 2500

0.37 0.37 00 00

2.3 2.32500 2500

2. 3100 3100

2. 2 00 00

3.2 3.23500 3500

0.51 0.51550 550

3.2 3.23500 3500

.2 .2 500 500

3.  100 100

. 5000 5000

E

Reducer

uad Reduction

Triple Reduction

1.3 1.31 00 00

C

G

Series

0.75kW 0.51 0.51550 550 1.5-2.2kW 0.  0. 700 700 

. 5000 5000

0.12 0.12130 130

-

-

-

0.1 200 200

0.23 0.23250 250

-

-

0.2 300 300

0.32 0.32350 350

-

-

0.37 0.37 00 00

0.  0. 500 500 

-

-

0.7  00 00

0. 3 00 00

0.37 0.37 00 00

0. 3 00 00

1.2 1.21300 1300

1.0 1.01100 1100

1.3 1.31 00 00

0.37 0.37 00 00

1.3 1.31 00 00

1. 2000 2000

1.7 1.71 00 00

2.1 2.12300 2300

0.37 0.37 00 00

2.1 2.12300 2300

E5

Technical ata Gear

Moment of nertia, imension of Tapped ole at utput Shaft End

Moment of nertia of Gearmotor T S

2

Motor (0. - 11 kW)

utput kW

3-phase Gearmotor

0. 0.75 1.5 2.2 3.7 5.5 7.5

0.0012 0.002 0.00 0.00 1 0.00 2 0.020 0.0277

kg kgm 3-phase gearmotor with brakes

With S

Type rakes

With S

0.0022 0.0050 0.007 -

Type rakes 0.000 0.0030 0.0051 0.00 0.00 0 0.0225 0.02

With S Type rakes

Single-phase Gearmotor

Single-phase with rakes Gearmotor

0.0013 0.0030 0.0051 -

0.0020 0.00 0 -

0.0021 0.00 2 -

or the moment of inertia of 0.1 and 0.2 kW, consult us.

S MT M

kg kgm

2

utput kW

3-phase Gearmotor

3-phase gearmotor with brakes

0. 0.75 1.5 2.2 3.7 5.5 7.5 11

0.000 5 0.00120 0.00213 0.00333 0.00 0.011 0.02 0.0375

0.000 0.00130 0.00235 0.00373 0.00 5 0.0125 0.0303 0.0 10

E Technical ata Reducer

Motor (0. - 11 kW) With

Type rakes

imension of Tapped ole of utput Shaft End We provide tapped holes at output shaft (slow speed shaft) end as semi-standard. The dimensions are as follows: Reducer rame rame Si e

C igure1 P

E

G igure2 K

igure o.

imension

Tapped ole Si e

1

-

M

10

1

-

M

10

1

-

M

10

2

1

M

1

2

20

M

1

2

22

M10

1

2

2

M10

1

2

30

M10

1

2

3

M12

20

epth

Tec Tech hnical ical Dat Data / Mot Motor

E Technical Data 

2. Motor

Tec T echn hnic ical al Data Motor

Page

Motor Characteristics haracteristics Tables Motor Brake Characteristics haracteristics Tables Motor Brake Construction onstruction Drawing Connections 3- and S ingle-Phase ingle-P hase Motor without without Brakes 3-Phase 3-P hase with with S AV-Type AV-Type Brakes 3-Phase 3-P hase with with S BV-Type Brakes 3-Phase 3-P hase with with F B-Type Brakes S ingle-P ingle-Phase hase with with S AVS AVS-Type -Type Brakes Inverter Driving P recautions for Inverter Driving Inverter Driving of General-P General-P urpose urpose Motor

E8 E9 E10 E13 E13 E 14 E 15 E 16 E 19 E 20 E 20 E21

E7


Characteristics for Motor 3-phase Motor

TOSHIBA TOSHIBA Mot Motor (Mot (Motor or manuf anufac actturer rer code code:: S) Capacity [kW]

Frame Size

0.1 0.2 0.4 0.75 1.5 2.2 3.7 5.5 7.5

63M 63M 71M 80M 90L 100L 112M 132S 132M

SUMITOM UMI TOMO O Motor (Motor manufacturer anufacturer code: Su)

4P 200V-50Hz 200V-60Hz 220-60Hz Full Load Full Load Full Load Full Load Full Load Full Load Current Speed Current Speed Current Speed A [r/min] A [r/min] A [r/min]

0.63 1.2 2.2 3.8 7.2 9.8 16.0 23.8 31.8

1400 1400 1400 1410 1420 1400 1410 1430 1435

0.57 1.1 2.0 3.4 6.2 8.9 14.8 21.0 28.2

1680 1690 1680 1700 1690 1680 1690 1730 1730

0.58 1.1 2.0 3.4 6.2 8.5 14.0 20.0 27.0

1700 1710 1710 1720 1720 1710 1710 1740 1740

Capacity [kW]

Frame Size

0.4 0.75 1.5 2.2 3.7 5.5 7.5 11

71M 80M 90L 100L 112M 132S 132M 160M

Single-phase Motor

TOSHIBA TOSHIBA Mot Motor (Mot (Motor or manuf anufac actturer rer code code:: S) E Tec T ech hnical cal Data Motor

E8

Capacity [kW]

Model

0.1 0.2 0.4 0.75

S IK-DCKLK2 S IK-DCKLK2 S IKD-DCKLK2 SIKD-FCKLK8

4P 100V-50Hz 100V-60Hz 200-50Hz 200-60Hz Full Load Full Load Full Load Full Load Full Load Full Load Full Load Full Load Current Speed Current Speed Current Speed Current Speed A [r/min] A [r/min] A [r/min] A [r/min]

3.2 3.2 5.2 5.2 7.2 12.6

1440 1440

2.8 2.8 4.5 4.5 5.8 10.8

1730 1730

-

3.6 6.3

1440 1440

-

2.9 5.4

1730 1730

4P 200V-50Hz 200V-60Hz 220-60Hz Full Load Full Load Full Load Full Load Full Load Full Load Current Speed Current Speed Current Speed A [r/min] A [r/min] A [r/min]

2.3 3.9 7.0 9.6 15.1 22.2 29.5 42.1

1410 1430 1430 1430 1420 1420 1450 1450

2.0 3.4 6.3 8.8 14.2 20.8 27.4 39.7

1700 1730 1720 1710 1700 1700 1750 1740

2.0 3.3 6.0 8.3 13.1 19.2 25.6 36.9

1730 1740 1740 1720 1720 1720 1750 1750


Characteristics for Motor Brake For 3-phase Motor

SAV Brake (for TOSHI SHIBA Motor)  Brake structure: Dry-type DC electromagnetic brake P ower source: AC200V-50Hz, AC 200V-50Hz, 200/220 200/220V-60Hz V-60Hz Motor Capacity [kW] 0.1 0.2 0.4 0.75 1.5 2.2 3.7 5.5 7.5

0.1 0.2 0.4 0.75 1.5

Model

Specified Gap [mm]

Limit Gap [mm]

Tot Total al Energy [x 107 J ]

S AV-01 S AV-02 S AV-04 S AV-08 S AV-15 S AV-22 S AV-37 S AV-55 S AV-80

1 2 4 7.5 15 22 37 55 75

0.2 0.3 0.3 0.2 0.2 0.2 0.3 0.2 0.2

0.6 0.6 0.6 0.6 0.6 0.6 0.8 0.8 0.8

0.9 22 22 36 36 36 45 84 84

Motion Delay Time Separate Switchin S witching g Standard Circuit Circuit [sec] [sec] 0.16 0.10 0.14 0.07 0.07 0.04 0.10 0.04 0.15 0.06 0.14 0.05 0.15 0.04 0.20 0.08 0.20 0.08



Braking method: method: Non-exciting Non-exciting

Model

Specified Gap [mm]

Limit Gap [mm]


S BV-01 S BV-02 S BV-04 S BV-08 S BV-15

1 2 4 7.5 15

0.2 0.3 0.3 0.2 0.2

0.6 0.6 0.6 0.6 0.6

0.9 22 22 36 36

Tec T echn hnic ical al Data

Motion Delay Time Separate Switchin S witching g Standard Circuit Circuit [sec] [sec] 0.16 0.10 0.14 0.07 0.07 0.04 0.10 0.04 0.15 0.06

Motor

(for SUMITOMO Motor)

 Brake structure: Dry-type DC electromagnetic brake P ower source: AC200V-50Hz, AC 200V-50Hz, 200/220 200/220V-60Hz V-60Hz

0.4 0.75 1.5 2.2 3.7 5.5 7.5 11

Excitation method: method: Voltage

Rated Tor Torqu que e [N-m]

FB Brake

Motor Capacity [kW]



SBV SBV Brake (for TOSHI SHIBA Motor)  Brake structure: Dry-type DC electromagnetic brake P ower source: AC200V-50Hz, AC 200V-50Hz, 200/220 200/220V-60Hz V-60Hz Motor Capacity [kW]




Model


Specified Gap [mm]

Limit Gap [mm]


FB-05A1 F B-1B F B-2B1 F B-3B F B-5B F B-8B F B-10B F B-15B

4 7.5 15 22 37 55 75 110

0.2  0.35 0.3  0.4 0.3  0.4 0.3  0.4 0.4  0.5 0.4  0.5 0.4  0.5 0.4  0.5

0.5 0.6 0.6 0.7 1 1 1.2 1.2

12 33 38 45 235 235 343 343

Motion Delay Time Standard Braking Quick Braking Circuit Circuit [sec] [sec] 0.1  0.15 0.01  0.015 0.2  0.3 0.01  0.02 0.2  0.3 0.01  0.02 0.3  0.4 0.01  0.02 0.4  0.5 0.01  0.02 0.3  0.4 0.01  0.02 0.7  0.8 0.03  0.04 0.5  0.6 0.03  0.04

For Single-phase Motor

SAV SAVS Br Brake (for TOSHI SHIBA Motor)  Brake Structure: Dry-type DC electromagnetic brake P ower source: AC100/20 AC 100/200V-50/60Hz 0V-50/60Hz Motor Capacity [kW] 0.1 0.2 0.4 0.75

Model S AVS-01 S AVS-02 S AVS-04 S AVS-08

Rated Tor Torqu que e [N-m] 1 2 4 7.5

Excitation method: method: Voltage Specified Gap [mm] 0.2 0.3 0.3 0.2

Limit Gap [mm] 0.6 0.6 0.6 0.6

Braking method: method: Non-exciting Non-exciting Tot Total al Energy [x 107 J ] 0.9 22 22 36

Motion Delay Time Standard Circuit [sec] 0.16 0.14 0.07 0.10 E9


Construction Drawing of Motor Brake F B Brake

(for SUMITOMO Motor)

FB-05A Type 8 7 6 5 4 3 2 1

No. 1 2 3 4 5 6 7 8

P art Name Stationary core Spacer Brake lining Assembling bolt Boss Shaft snap C-ring Cover Fan set bolt

No. 9 10 11 12 13 14 15 16

P art Name Fan (except for FB-01A1 and FB-01A) Le Leaf spring Fixed plate Armature plate Spring E lectromagnetic coil Ball bearing Motor shaft

No. 1 2 3 4 5 6 7 8 9 10

P art Name Stationary core Release fitting Man Manual rele elease ase pr prote otecti ction sp spacer cer Brake release bolt Spacer Gap adjusting shim Assembling bolt Brake lining Leaf spring Boss

No. 11 12 13 14 15 16 17 18 19 20

P art Name Shaft snap C-ring Cover Fan se sett bolt olt Fan Fixed plate Armature plate Spring Electromagnetic coil Ball bearing Motor shaft

No. 1 2 3 4 5 6 7 8 9 10 11

P art Name Stationary core Release fitting St Stud bolt Adjusting washer Man Manual relea elease se prot rotect ection ion spac spacer er Brake release bolt Spring washer Gap adjusting nut Brake lining Boss Shaft Shaft snap snap C-rin C-ring g

No. 12 13 14 15 16 17 18 19 20 21

P art Name

No. 1 2 3 4 5 6 7 8 9 10 11

P art Name Stationary core Release fitting St Stud bolt Adjusting washer Man Manual relea elease se prot rotect ection ion spac spacer er Brake release bolt Spring washer Gap adjusting nut Brake lining Boss Shaft snap C-ring

No. 12 13 14 15 16 17 18 19 20 21 22

G

9

10

11

12

13

14

15

FB-1B, 2B1, and 3B Types 11 10

9 8 7 6 5 4 3 2 1

G

12 13 14

9 8 7 6 5 4 3 2 1

G

12 13 14 15 15 16 17 17 18 18 19 20 21

FB-10B and 15B Types 11 10

 Tec T echn hnic ical al Data Motor

15 16 16 17 18 19 19 20

FB-5B and 8B Types 11 10

16

9 8 7 654 3 21

G

12 13 14 15 16 17 18 19 20 21 22

Cover Spring pin Fan Leaf spring Fixed Fixed plat late Armature plate Spring Electromagnetic coil Ball bearing Motor shaft

P art Name Cover Fan set bolt Fan Leaf spring Fixed Fixed plat late Armature plate Spring Electromagnetic coil Ball bearing Motor shaft Bearing cover

E11 E11


Construction Drawing of Motor Brake For single-phase Motor

SAV SAVS Br Brake 10

1

7

8

E Tec T ech hnical cal Data Motor

E12

(for TOSHI SHIBA Motor) 6

2

5

3

9

4

No. 1 2 3 4 5 6 7 8 9 10

P art Name Field Armature Inner disc Adapter plate Stud bolt Gap adjusting liner Distance collar Actuating spring Hub Hub Fixing nut


Connection 3-phase Motor

Without Brake

Common Common to TOSHIBA TOSHI BA and SUMITOM SU MITOMO O Motors Direct Drive and     11 kW (only for SUMITOMO Motor)

0.1 0.1  7.5kW R S

Direct Drive

  MCM

T

R

S

T

R

S

Startup time Connections MC

T

OLR

MC

After full acceleration Connections

C MC

MCM

LR

Control Panel Motor

LR

Control Panel Motor

W

1( )

Motor

1( ) W1(W)

W2( ) 2( ) W2( Motor

2( )

MC MCM MC MC

ON OFF ON ON ON OFF

MC

Control Panel Motor

U1 V1 W1 V2 W2 U2 (U) (V) (W) (W) (Y) (Z) (Z) (X) Motor

 Tec T echn hnic ical al Data

Inverter Driving 0.1 0.1  7.5kW R S

11 kW (only for SUMITOMO Motor) R S

T

Motor

T

MC

MC

R S

T



Control Panel Motor

W

R S T  W

Control Panel Motor

1 1 W1 ( ) ( ) (W)

W

2 W2 2 ( ) ( ) ( )

Motor

Motor

Single-phase Motor

Without Brake

TOSHIBA TOSHIBA Mot Motor 0.1 0.1  0.75kW R

S

MC

LR

Control Panel Motor Red

lack

rown

lue

* Swap brown and blue to reverse the rotation direction.

E13



With Brakes

TOSHIBA TOSHIBA Mot Motor with ith SAV Type Type Brak Brake e 0.1 kW and 0.2 0.2 kW (Brake Type: SAV-01 SAV- 01 and 02) 200V 50/60Hz220 0 S i m ( u S l t t a a n n d e a o u r s d C S o w i n t n c h e i c n t i g o C n ) i r c u i t

S e p a r a t e S w i t c h i n g C i r c u i t

SBV-010,020 (0.10.2kW) MC OLR U R V S W T YE

Motor

Motor

n v e r t e r

r i v i n g C i r c u i t

E14

MC

SAV-01,02 (0.10.2kW) MC OLR U R V S W T

MC R

Motor

S T

OLR

OLR

U

R

U

V

S

V

Motor

W

Motor

W

T YE

YE

YE

BK

BU

BK PM

Brake BK

SBV-010,020 (0.10.2kW) MC OLR U R V S W T YE

YE

Motor

SB

B1

BU PM SB Brake BK

PM

PM Brake

OLR

U

R

V

S

Motor

Brake BK

B2

MC

SAV-01,02 (0.10.2kW) MC OLR U R V S W T

Motor

W

T

YE YE BK

BU

BK Brake

PM BK

YE

SBV-010,020 (0.10.2kW) MC OLR U I R n v V e S r W t T

R

Motor

S T

Brake BK

I n v e r t e r

OLR

S

V Motor

W YE SB

BU PM SB Brake YE

BK

Brake BK

R

U

BU

BK PM

YE

PM

MC MC

e r

YE

SB

BU PM SB Brake YE BK

E Tec T ech hnical cal Data

0. - 7.5 kW ( rake rake Type: ype: S -0 to 0) 220 200 50 0  220 0

T

I n v e r t e r

OLR

U V Motor

W

YE

BK PM

YE

Brake BK

Technical ata Motor

Connection With rakes

3-phase Motor

T S

Motor with S

Type rake

0.1 0.1 - 1.5 1.5 kW kW ( rake rake Type: ype: S C i r S c u i i m t ( S u l t t a a n n d e o a u r s d C S o w n t i n c e h c i n t i g o n )

S e p a r a t e S w i t c h i n g C i r c u i t

MC

OLR

-G01 -G010 0 to to G15 G150) 0)

U

R

V

S

Motor

W

T YE

YE

BK PM

Brake BK

MC

LR

R S

Motor

W

T

E E K M

rake K

 I n v e r t e r D r i v i n g C i r c u i t

MC R S T

I n v e r t e r

OLR

Technical ata

U V

Motor

W

YE

BK PM

YE

Brake BK

Motor



With Brakes

SUMITOM SU MITOMO O Motor with with FB F B Type Brake Brake Examples of Connection for One Way Rotation 0.75 - 7.5 kW (Brake Type: FB-1B FB -1B to FB-10B) FB- 10B)

0.4 kW (Brake Type: Type: FB-05A1) FB -05A1)

S t a n d a r d B r a k i n g C i r c u i t

R

S

MC LR

E Tec T ech hnical cal Data

R

S

C o n t r o l P a n e l

T

MC OLR

M o t o r

M o t o r

12

W Motor

R Q u i c k B r a k i n g C i r c u i t


T

S

U

M

Rectifier

T


MC R

LR

12

W Motor

Motor

Rectifier

V

W

Motor

rake

R

S

M N

Rectifier

Brake

T


MC R

LR

M o t o r

M

1 23 4

W Motor

rake

11 kW (Brake Type: Type: FB-15B) FB -15B)  

12 Rectifier

M o t o r

M rake

11 kW (Brake Type: FB-15B) FB -15B) Direct Start

R ST

R S t a n d a r d B r a k i n g C i r c u i t

S

T

P lease prepare the following connection parts parts on your side: MC : Electromag Electromagnet netic ic cont contacto actorr

OLR

MCM


MC

MC

Y

U1 V1W1V2W2U2

1 2 34

MN

Motor

Rectifier

Brake

LR

M o t o r


1 1 W1 2 2 W2

1 2 3 Rectifier

Motor

M rake

M o t o r

S

Q u i c k B r a k i n g C i r c u i t

T

Capacity of Varistor (VR) Brake input power

AC200V  230V

AC380V  460V

Rated voltage of varistor

AC260V  300V

AC510V

Voltage of varistor

430V  470V

820V

FB-0 FB-05 5A1

0.2 Watt or more

0.4 Watt or more

F BB-1B

0.4 Watt or more

0.6 Watt or more

0.6 Watt Watt or more more

1.5 Watt or or more ore

1.0 1.0 Wa Watt or or mo more

1.5 1.5 Wat Watt or or mo more

FB-2B1,3B, 5B,8B FB-1 FB-10B,1 B,15B

MC

OLR

VR : Vari Varistor stor

R a t v e a d r p i s t o w o r e r o f

R S T

R

OLR : Overload protection protection relay

R

MCM

MC

MCM VR

MC

Y

U1 V1W1V2W2U2

12 4

MN

Motor

Rectifier

Brake

C o n t r o l P a n e l M o t o r


LR

1

1 2

W2

Motor

W1 2

1 2 Rectifier

M rake

M o t o r

We can also supply varistors. (Optional items)         fast braking circuit.         circuit, we recommend the DC breaking capacity (for DC coil load) that is more than 5 times of the braking current.         protection relays, or varistors than indicated in these connection diagrams, please consult us.



With Brakes

SUMITOM SU MITOMO O Motor with with FB Type Type Brake Examples xamples of Connect C onnection ion for Operating in Both Direction 0.75 - 7.5 kW (Brake Type: FB-1B FB -1B to FB-10B) FB -10B)

0.4 kW (Brake Type: Type: FB-05A1) FB -05A1) R


S

T

R

F orward

Reverse

U

V

12 4

W

R

Rectifier

S

LR

Motor

T

R

Forward

V

12

W

4

S

C o n t r o l a n e l

FORREV

M

N

rake

T R e v e r s e

orward

R

C o n t r o l

o r R ev ev

a n e l

LR

M o t o r

123

W

Rectifier Brake

Motor

11 kW (Brake Type: Type: FB-15B) FB -15B)  

C o n t r o l a n e l M o t o r

M

Rectifier

VR

OLR

Motor

123

W

Brake

R e v e r s e

U

Reverse

M o t o r

M N

T

orward

a n e l

OLR

Motor


C o n t r o l

S

11 kW (Brake Type: Type: FB-15B) FB -15B) Direct Start Please prepare the following connection parts on your side:

F o r w a r d

R e v e r s e

R

MCM

MC

MC

U1V1W1V2W2U2

Motor

MC : Electromagnetic Electromagnetic contactor

T

S

OLR : Overload protection protection relay

OLR

C o n t r o l

VR : Varistor Varistor

R e v e r s e

o r w a r d

C o n t r o l

LR

a n e l

Y

1234

MM

Rectifier

Brake

a n e l

M o t o r

1 1 W1 2 W2 2

Motor

1 2 3

M

M o t o r

rake

Rectifier

RST


S

R

o r w a r d

MCM

R

C o n t r o l

F o r w a r d

R e v e r s e

VR F o r

R e v

OLR

a n e l

MC

Motor

Brake input power

AC200V  230V

AC380V  460V

Rated voltage of varistor

AC260V  300V

AC510V

430V  470V

820V

FB-0 FB-05 5A1

0.2 Watt or more

0.4 Watt or more

F BB-1B

0.4 Watt or more

0.6 Watt or more



1.0 Watt or or mo more

1.5 1.5 Wa Watt or or mo more

Voltage of varistor

v a r i s t o r

R a t e d p o w e r o f

FB-2B1,3B, 5B,8B

We can also supply varistors.

MC MCM

1 1 W1 2 W2 2

Capacity of Varistor (VR)

FB-1 FB-10 0B,1 B,15B

T

R e v e r s e

LR

Motor

rake

R S T


Tec T echn hnic ical al Data

M o t o r

M

Rectifier



12 Rectifier

MM rake

M o t o r

(Optional items) C o n t r o l a n e l

V1

U1 V2

W2

W1 U2

Motor

1 2

4

Rectifier

M

N

Brake

M o t o r

        quick braking circuit.         circuit, we recommend the DC breaking capacity (for DC coil load) that is more than 5 times of the braking current.         protection relays, or varistors than indicated in these connection diagrams, please consult us.

Technical ata Motor


With rakes

S M T M Motor with

Type ra rake

Examples of Connection for nverter nver ter riving 0.2 0.2 kW ( rake rake Type: ype: R

S

R

T

S t a n d a r d

a n e l

Inverter

U

V

R

Technical ata Motor

S

-10 )

T


MC

Inverter

M o t o r 1 2

W

Motor

E

C o n t r o l

MC

r a k i n g C i r c u i t

0. - 5.5 5.5 kW ( r ak ake Type: -1 t o

-05 -05 1)

4

Rectifier

S

M

U

N

R

T


MC VR

Inverter

V

1 2 3 4

W

Motor

Brake Brake

u i c k


M o t o r

Rectifie ifier r

S

M

N

Brak Brake

T

C o n t r o l

MC

a n e l

VR

Inverter

M o t o r

M o t o r U

V

1 2

W

Motor

4

Rectifier

M

S

V

W

Motor

Brake Brake

7.5 7.5 kW ( rake rake Type: ype: R

U

N

1 2 3 4 Rectifie ifier r

M

N

Brak Brake

-15 -15 ) lease prepare the following connection parts on your side:

T

MC : Electromagn Electromagnetic etic contactor contactor MCB

S t a n d a r d


LR:

verload protection relay

R :

ari arist stor or

MC

Capaci Capacity ty of aristo aristorr ( R) C o n t r o l

Inverter

V2

rake input power Rated voltage of varistor

a n e l

U1 V1 V1 W1 W2 U2

Motor

1234

MN

Rectifier

Brake

v a r i s t o r

R a t e d p o w e r o f

S

C510

0

30  30  70

20

0.2 Watt or more

0. Watt or more

-1

0. Watt or more

0. Watt or more

0. Watt att or or mor more e

1.5 1.5 Wat Wattt or or mor more e

1.0 Watt or more

1.5 Watt or more

-2 1,3 , 5 , -10 ,15

R

C3 0 

C2 0  300

-05 1

oltage of varistor

M o t o r

C200  C200  230

T

We can also supply varistors. ( ptio ptiona nall items items)) MCB

      

u i c k


with the inverter, please refer to the instruction

VR

Inverter MC

C o n t r o l a n e l M o t o r

V2

U1 V1 V1 W1 W2 U2

Motor

1 2 3 4 Rectifier

M

N

Brake

manual or guide manual of the inverter. inverter.          quick braking circuit. 

s the contact capacity for the quick braking circuit, we recommend the C breaking capacity (for C coil load) that is more than 5 times of the braking current.

         protection relays, or varistors than indicated in these connection diagrams, please consult us.

Technical ata Motor

Connection Single-phase Motor

T S

With rakes

Motor with S

S Type rake

0.1 0.1 kW kW and and 0.2 0.2 kW kW ( rake rake Type: ype: S 100 50 0

S-01 S-01 and and 02) 02)

0. kW and 0. 75 75 kW ( rake Type: S S -0 -0 and 0 ) 2 100 50 0  200 50 0

BU MC S i m u l t a n e o u s S w i t c h i n g C i r c u i t

OLR

RD BK

AC100V

Motor

BN

ot recommended because the response time will become unstable. BU

BU

YE PM BK

Brake

BK

YE

or the rotation direction of the motor, refer to the name plate.



100 V BU

MC

OLR

YE BK

100V

BN

SAVS-01,02 (0.10.2kW)

LR

C100 S e p a r a t e S w i t c h i n g C i r c u i t

BU

R

PM

BU BK

YE YE

Motor

K

Motor

GY

AC

MC

Technical ata

RD

Brake

BK

For the rotation direction of the motor, refer to the name plate.

200 V E E

M

K

rake

MC

K

R E G K

LR

C 200

Motor


E E

M

K K

rake


Motor


Inverter Driving P recautions recautions for Inverter Driving Driving 1. Constant torque torque operation operation Constant torque operation needs a special motor for inverter. Consult us, especially when operation is in the frequency range less than 6 Hz.                   (for details, refer to pages E21 and E22).

2. Operation over the base frequency (60 Hz) The rat rated outp output ut ope opera rattion is carrie carried d out over over the the base base freq freque uency ncy.. Theref Therefore ore,, the the torq torque ue will will decr decrease ease a ass the the speed speed incre increase ases. s. S elect elect an an appropriate motor capacity according to the machine load characteristics. The out output put torqu orque e bec becom omes es llow ower er than han tha thatt of the stan standa dard rd base base fre frequ quen ency cy (60 (60 Hz), Hz), when when the const constan antt torqu orque e ope opera rattion ion is is carr carrie ied d out out by sett setting ing the base frequency to over 60 Hz and setting V/f.               Do not change the base frequency value unless under the reduced load characteristics.

3. V/f V/f mode operation operation of general-purpose general- purpose inverter In the case of multiple operation of motors or V/f operation with an inverter that has no sensorless function, it is necessary to adjust the boost value in compensation for the startup torque and slow-speed torque. The products are usually shipped with the standard factory settings, but overcurrent may occur depending on the load or acceleration/deceleration condition. In such a case, change the value appropriately as follows:

E Tec T ech hnical cal Data Motor

a. In the case of a small capacity motor and a small load, a large boost setting may cause overexcitation of the motor, leading to overcurrent. In such a case, lower the boost to keep the normal value. b. In cases where a load is large and overcurrent during startup or slow-speed operation easily causes tripping, increase the boost to lower the current value. However, if no improvement is observed after boost adjustment, it is necessary to examine the motor capacity.

Output frequency [Hz]

Base frequency frequency

Boost Base voltage voltage Output voltage [V]

4. Operat Operation ion by sensorless sensorles s vector inverter inverter Some latest high-performance inverters are equipped with a sensorless vector operation function. This function is basically valid only when a motor and an inverter are operated in one-to-one correspondence. The function is not suited to multiple operation or pole-change operation. P roducts with the auto-tuning function automatically automatically controls co ntrols the motor characteristics and do not need adjustment as in the case case of the V/f operation. They carry out the vector operation on the basis of the motor data read by the inverter, and the operation is controlled instantaneously in accordance with the load condition to continue optimal operation. Note that when the wiring distance between the motor and inverter is long (20 m or more), compensation may be necessary according to the line                 

5. Output torque characteristics of motor  Tot Total al out outpu putt/tor /torqu que e char charac actterist eristic icss curv curve e whe when n a motor otor for for inv inver ertter

When a general-purpose motor is operated with an inverter, the reduced torque operation characteristics will appear as shown below. The startup torque is also reduced by 40-60 % relative to an AF motor.

and V/f controlled inverter are operated in combination      Torque Output Torque

100 100

100 100

95100 100 8090

Torqu Torque e cur curve ve Output curve

80

220V440V

Torqu Torque e

For inverter

200V400V

 4060 3545

50 50

General-purpose motor

20 0 6

60

120

Figure D-1


6

2030

60

120


Note: Constant Cons tant torque operation is possible from 1 Hz when an axial fantype is used.

6. Motor temperature rise When a general-purpose motor is combined with an inverter for variable-speed operation, the motor temperature rise may be slightly greater than operated by a commercial power supply. Possible causes include:     ……………… ……… ……………… ……… Unlike a commercial commercial power supply, supply, the output waveform waveform of an inverter is not a complete complete sine wave but includes includes harmonics. Therefore, motor loss will increase and the temperature rises slightly higher. Less Les s motor cooling cooli ng effect during slow-speed slow- speed operation A motor is cooled by its own fan. Therefore, Therefor e, when the motor speed is decreas decreased ed by an inverter, the cooling air quantity decreases, reducing the cooling effect.


Inverter Driving Inverter Operation of General-Purpose Motor TOSHIBA Motor Motor



Standard tandard Gearm Gearmotors otors

Gearmotors are designed to be driven by a sinusoidal source such as a commercial power supply. When a gearmotor is driven by an inverter, the loss will increase compared to when it is driven by a sinusoidal source because the power source contains harmonic components. Therefore, it is necessary to reduce the continuous operation torque for a inverter driven gearmotor.               Condition

974 x Motor output [kW] (1) 100% torque = [Nm] 1800 [r/min] (2) The v/f pattern of the inverter is the base frequency 60 Hz. 100(%)

v

Torque ( ) 100 0

ote: The output becomes constant constant over the output frequency 0 .

70 50 30

0

60

(Hz)

f

(3) For over 60 Hz operation, keep the allowable maximum frequency shown in (2).

0

0

10

20

30

0

50

0

70

0

0 100 110 120 utput frequency

3On the system that runs 400 V class gearmotors by a voltage-type PWM inverter with an ultra high-speed switching device (ex. IGBT), Avoid a high speed operation over 60 Hz as far as possible due to the insulation degradation of the motor winding may be occurred by a more noise or temperature rise, or shorter oil seal life. surge voltage which is dependent on the cable laying method or cable Tabl Table e 1 Allow Allowab able le Maxim Maximum um Freq Frequenc uency y of A Serie Seriess constants. In this case, the following measures are suggested: Motor Out Output [kW] Allowable Maximum Fre Frequency [Hz] Use an enhanced insulation type gearmotor. Suppress the surge voltage by installing an AC reactors or surge 0.4 120        0.75 100 4For models with brakes, in the simultaneous switching circuit the 1.5 80 startup voltage is so low that the brake cannot be released. Therefore, 2.2 80 connect the brake circuit on the power source side of the inverter (refer 3.7 80 to related section). The maxim aximum um safet safety y spee speed d for for the brak brake e is 180 1800 0 r/m r/min in.. Please Please use use 5.5 70 it at 60 Hz or less. 7.5 70 5An explosion-proof gearmotor must be authorized together with an            body of the inverter is not explosion-proof. It should be installed in an explosive gas-free place.

lowing ng tabl table show showss the the allowab owable le maxim aximum um freq freque uency ncy of A series series.. 2 The followi

 Tec T echn hnic ical al Data Motor


Inverter Driving Inverter Operation of General-Purpose Motor

SUMITOMO Motor Motor                      following characterist characteristics ics is possible possible in combinat combination ion with a SUMI S UMITOM TOMO O general-purpose motor motor.. This This ena enabl bles es a st standa andarrd fr frame ame si size ze mot motor or to be be use used d wit with h an an app applilica cattion ion whe wherre a mot motor or for for inv inver ertter (AF mot motor or)) has has bee been n use used d wit with ha            

Note:1. To select a gearmotor, it is necessary to consider the lubrication method and torque during the slow speed operation or rated output operation. Be sure to notify us of the inverter operation when placing an order. 2. Consult Consult us for 400 V class model because insulation measures are necessary for the inverter inverter operation. operation. 3. When a motor motor with brakes is to to be be operated for a long time at slow speed, the cooling effect of the the fan will will decrease and the brake temperature will rise substantially. Consult us for details. 4. Consult Consult us for for details when a general-purpose general-purpose motor motor is to be operated operated at constant torque torque under the V/F control                [kW]

Motor Frame Size

Therm Thermal al Class

E

0.4

F 71M

E

Tec T ech hnical cal Data

0.75 1.5 2.2 3.7 5.5 7.5

F 80M F90L F 100L F 112M F 132S F 132M

11

F 160M

Motor

Available Frequency

Constant Torque Range 6  60Hz (1:10)

Rated Output Range

Applicable Inverter HF-320  Sensorless

6  120Hz B

control

60  120Hz

20  60Hz (1:3)

HF-430 Sensorless control

             S hort time maximum torque

200 200

) 150 150 % ( e u q r o100 T100

) 150 150 % ( e u q r o100 T100

Continuous operation torque

80

80

50 40

50 40

0

6

20 20

Short time maximum torque

200 200

40

60

120

0

Continuous operation torque

6

20 20

40

60

Frequency [Hz]

0.2 - 0.4 kW

120 Note: Frequency [Hz]

0.75 - 11 kW

Combination - The output torque presupposes that the 60 Hz rating of the motor is 100%. Continuous operation torque The The allo allow wable able tor torq que value alue for for cont contin inu uous ous oper operat atio ion n of of th the mot motor or wit with h the the tempe empera ratture rise rise kep keptt wit with hin the

standard value. Short time time maximum maximum torque : The maximum torque value emitted emitted by the the motor operated by an inverter. inverter. It can be operated for a short time (one minute) at this torque value.

Warranty Standard Warranty Standard Warranty Period

The warra arran nty per perio iod d for for the new new Produ Product shal shalll be be 18 18 mont onths fro from m fact factor ory y ship shipm ment ent dat date e or 12 mont onths fro from m the first Product P roduct operation, operation, whether comes comes first. firs t.

Warranty Condition

In case cas e that any Product Product failures occ occur ur during the "Warranty "Warranty Period" Pe riod" although the Product Produc t is appropriately installed, connected, and maintained in accordance with the instruction manual and is properly operated under the conditions as described in the catalogue or otherwise as agreed upon in writing, Sumitomo Heavy Industries, Ltd. will provide, at our sole s ole discretion, disc retion, appropriate appropriate repair or replacement replac ement on the Product P roduct without without charge, except as stipulated s tipulated in the the "Exception "Exception for Warranty" Warranty" as described desc ribed below. However, in the event that the the Product P roduct is connected to your other equipments, Sumitomo Heavy Industries, Ltd. shall not reimburse the costs for removal/ re-installation of the Product P roduct from/to from/to the equipments equipments or other incidental engineering or shipping s hipping costs related thereto, and any opportunity loss, loss of profit or any other incidental losses or damages incurred by you.

Exception for Warranty

Notwithstanding the above warranty, the warranty as set forth herein shall not be applied to the problems, troubles troubles or o r damages on the Product P roduct which which are caused c aused by: 1. the problems of the installation or connection to other equipments equipments of the P roduct 2. the insufficient maintenance or improper operation, such that the the P roduct is not appropriately maintained maintained in accordance with the maintenance manual provided by us 3. the improper use or operation operation of the Product Product which are not informed to us, including, incl uding, without limitation, limitation, the customers' operation of the Product not in conformity with with the the specifications, spec ifications, or o r use of o f the lubrication oil in the P roduct which is not recommended by us 4. the problems of any equipment which which the Product P roduct is connected connec ted to, or any specifications speci fications particular particula r to the equipments 5. any modification or reconstruction on the the Product P roduct 6. any parts in the Product P roduct which which are supplied s upplied or designated by you you 7. earthquake, fire, flood, sea-breeze, gas, thunder, or any other reasons beyond the control 8. natural wear and tear, tear, exhaustion, or deterioration on the parts parts of the Product P roduct such as bearing and oil seal, in spite of proper use 9. any other troubles, problems probl ems or damages on the Product Pro duct which are not attributable attributable to us

1

Warning SAFETY SAFET Y PRECA PR ECAUT UTIO ION NS                     Facilities, Extension Rules, Plant Explosion guidelines, Building Standards Law, etc.).                    if it is not handy. The maintenance manual must reach the actual user.                             escalators, and dumb waiters.                   sufficient sufficient for for ha ardous ardous locations. locations.                          used to drive motor.                          sensitive applications such as food processing and clean rooms.

To Contribute to the Environment We encourage you to recycle the packaging materials in order to protect the global environment. or the packaging materials of the roduct, ask for their recycling recycling to recycling recycling manufactures manufactures or industrial waste disposers in your your neighborhoo neighborhood. d.            without package. lease consult our distributor, dealer, or     

2

SKK Gearmotor MFG500 Series A Series cataloq

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