> Previous History <<<<<<<< 01/2010 > Revision History > Table
of Contents - 08/2010
> Printable Copy 1.0 GENERAL 1.1
General
1.2
Gage Standards Flow Chart
1.3
Gage Standards Change Procedures
2.0 GAGE DESIGN 2.1
General
2.2
Design Layout Requirements
2.3
Design Status
2.4
Recording Design Revisions
3.0 MANUAL GAGE DESIGN
3.1
General
3.2
Layout Format
3.3
Manual Design Sections
3.4
Manual Design Sheet Numbering
3.5
Detail Identification
4.0 COMPUTER AIDED DESIGN (CAD)
4.1
General
4.2
CAD Format for non-VPM users
4.3
CAD Format for VPM Users
5.0 GAGE BASES
5.1
General
5.2
Base Sizes
5.3
Base Machined Tolerances
5.4
Line Blocks
5.5
Hoist Ring Requirements
5.6
Fabricated Aluminum Base
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6.0 GAGE CONSTRUCTION 6.1
General
6.2
Datums
6.3
Clamping
6.4
Gage PIns
6.5
Flush & Feeler Checks
6.6
Sight Checks
6.7
Hinge/Template Units
6.8
Hand Held Gages
6.9
Statistical Process Checks
6.10
Material Specifications
6.11
Gage Colors
6.12
Gage Stamp Requirements
6.13
CMM Holding Fixtures
6.14
Operation Description Sheets
6.15
CMM Fixture Alignment Procedure
7.0 INSPECTION & CERTIFICATION
7.1
Verification of CMM Inspection Data
7.2
Inspection
7.3
Certification
7.4
Standard Build Tolerances
8.0 GR / GR&R
8.1
General
8.2
GR Study
8.3
GR&R Study
9.0 GA 9.0 GAGE GE BU -O -OFF FF 9.1
Buy-Off Form
9.2
Gage Record Book Requirements
10.0 SHIPPING 10.1
Transit
10.2
Packaging
10.3
Documentation
11.0 DEFINITIONS
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12.0 APPROVED / RECOMMENDED SOURCES 12.1
A. Approved Source Source List
12.2
B. Approved Source List
12.3
C. Approved Verification List
APPENDICES A.
Outside Supplier Gages
B.
Soft-Hard Trim Gages
B2.
S0 Prototype Gages
C.
Optical / Non-Contact Gaging
D.
S0 General Gages
E.
Meisterbock
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ASME/ AME Design and Build Gage Standards –
REVISION HISTORY
GEDOC001 Rev.13.1 8-2010
http://ame.ctc.chrysler.com Revision:
Sec./Paragraph
Change Made:
Date:
Changed point road map from “upon request only” to “must be provided”
7/29/2010
Changed
Rev.13.1 8-2010
Rev.13.0 1-2010
Section 7.3.4 D. Section 12.1.1 A.
Add:
Appendix E
Added Appendix E for Meisterbock Fixtures
- JAY ENN CORP.
7/29/2010 7/29/2010
General Document Section 1.1 Section 2.1.5 Section 4.1
Update website address for supplier access.
1/04/2010
Add “Note” for English stock build & cost applications.
1/04/2010
10 &11 - Update design reference & circle color code.
1/04/2010
Add Fig 4.1 for Design Circle Color Code. Section 4.3
Combine back into 4.2 to follow current work practices.
1/04/2010
Section 5.5.1
Use METRIC hoist rings.
1/04/2010
Section 5.6.4
Defined aluminum 6061 T 651 as “stress-relieved” product.
1/04/2010
Section 7.2.2 F.
Change “…spaced along tangent” to radius.
1/04/2010
Section 8.2
m. GR Study - Update GR% to 6.0 multiplier for 99.73% across “normal” curve.
1/04/2010
Section 12.1.1 A.
Reassign: - D&F Corp. to Section 12.2.1.B.
1/04/2010
Section 12.2.1 B.
Add:
- Independence Tooling
1/04/2010
- Lakeshore Fixture & Gauge - Vendor Code = Tri-Star Remove: - Sky-Tec LLC - Ultimate Tooling - US Gage Section 12.2.2 B. Section 12.3.1 C.
Use any Section 12.1.1 & 12.2.1 Design suppliers for design only. Add:
1/04/2010
- Dynamic Metrology Services
1/04/2010
Remove: - RCO Engineering - US Gage Update: - Metrology South Inc. - Vendor Code + address = Valeo Climate Control
Rev.12.1 7-2009
General Document
Change to Chrysler Group LLC.
7/06/2009
Section 12.1.1 A.
Reassign: - Metro Technologies Ltd.
7/06/2009
- Spec Technologies, Inc. Remove: - Astronetics. Section 12.2.1 B
Add: - Arce Tool vendor code number. (Mexico ONLY)
7/06/2009
- Bermont Gage & Automation - Herramientas (HERSA) (Mexico ONLY) - Magove (Mexico ONLY) - Romeo Technologies Reassign: - Jay-Enn Section 12.2.2 B
GEDOC001 13.1 8-2010
Remove: - Neil Fowler Design Assoc.
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Revision History 8/01/2010
ASME/ AME Design and Build Gage Standards –
REVISION HISTORY
GEDOC001 Rev.13.1 8-2010
http://ame.ctc.chrysler.com Section 12.3.1 C.
Add: - 3C Metrology (Mexico ONLY)
7/06/2009
- Carl Ziess (Mexico ONLY) - Benteler vendor code number. Rev.12.0
General Document
1-2009
Section 12.1.1 A. Section 12.2.1 B.
Removed 2007 Revision History 10.0 & 1 items.
1/05/2009
Remove: - Michigan Gage Specialties, Inc.
1/05/2009
Add: - Clark Fixture (Mexico ONLY)
1/05/2009
- Comau-Pico Pitex (Mexico ONLY) - Costello Enterprises - FFT Mexico (Mexico ONLY) - Vendor Code = Tri-Star Section 12.2.2 B. Section 12.3.1 C.
1/05/2009
Remove: - Michigan Gage Specialties, Inc
1/05/2009
Add: - Vendor Code = ARCE Tool. - Vendor Code = Benteler (Mexico ONLY)
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Revision History 8/01/2010
HELP and INFORMATION First Time User Reference Page: First Time User Page Purpose
The purpose of the AME/ASME Gage Standards is to provide Chrysler personnel and suppliers with a reference source for required design and construction standards for gage fixtures.
Audience
Any current and potential Chr ysler suppliers, Chrysler contractors/employees and the general public. AME/ASME Chrysler Gage Standards m ay be viewed and/or printed from your browser by section.
General Overview
This version of AME/ASME Gage Standards revised 8/01/2010 . A Web Browser, such as Netscape or I nternet Explorer. Software Requirements
It is recommended to use the corporate standard Internet Explorer for intraChrysler access. For content questions please contact: Bill Bielby at (248) 576-0775 {Tie Line 776-0775] Email: mailto:
[email protected]
Chrysler Contacts
To View without frames, select by Chapter below:
1 2 3 4 5 6 7 8 9 10 11 12 Appendix A B B2 C D E These links will launch a new Internet window. Refer back to this page to navigate.
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CHAPTER 1.0 INTRODUCTION To:
All Users
From: Phone: Email:
Bill Bielby, Gage / Process Engineer 248-576-0775 (Tie Line: 776-0775)
[email protected]
1.1 GENERAL This standard provides a common gage standard used by all Chrysler Engineering Departments except Power Train Engineering. This standard supersedes previous releases of the AME Gage Standard (GED0C001) back to Rev.9-98. This standard gives the gage source guidance in the requirements for design, build, inspection and certification of Chrysler gages to check all body-in-white, trim and chassis components. These Chrysler Gage Standards shall be adhered to for ALL gage check fixtures. Chrysler is supporting the Tooling and Equipment Supplement to QS-9000. Supplier must be third-party minimum certified to either QS9000 TE Supplement or ISO9001:2000, unless otherwise agreed to by Chrysler in writing. After December 15, 2006, third party certification for ISO9001:2000 will be required. Suppliers must obtain ISO9001:2000 certification from a TS16949 approved registrar and auditor. A list of TS16949 approved registrars is available at www.iatfglobaloversight.org. Supplier will provide evidence of the certification to Chrysler upon request. Deviations from these standards may be granted from the Chrysler Gage Process Engineer in writing and would be included with the standard as part of a specification package. All quotations shall then state that the gage fixture being quoted will be designed and built to the specification package and/or Chrysler Gage Standard. Design approval shall not constitute a waiver or guarantee of responsibility for any gage purchased by Chrysler. An approved gage design does not constitute a certified or functional gage. The Advance Manufacturing Gage Process Engineer has lead responsibility for all Chrysler user run plant gages. Appendix "A" defines the tasks required to design and build Outside Supplier Gages. The product releasing engineer has lead responsibility for the tasks identified in the Appendix "A". Only Chrysler APPROVED design/build sources shall be used, unless agreed upon by the Chrysler Gage Process Engineer in writing using Waiver or Deviation request form from Chrysler Gage Process Engineer for approval consideration. =>For consideration to supply Chrysler Group gage fixtures, request copy of "Request for Recommended Chrysler Gage Design / Build Source" document form: Request to ADD Gage Source v07 6-04.xls, from supplier's Chrysler Gage Process engineer contact for filing to initiate review process. Follow document's "Req(uest) Procedure" file tab to complete. For outside supplier gages, the Supplier shall notify the Chrysler Gage Process Engineer for authorization if he wishes to use a design / build source that is not on the approved / recommended source list (Refer to Gage Standard Section 12.0).
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1.2 GAGE STANDARDS - ASME Gage Standards & Process responsible to chair and update Chrysler Design and Build Gage Standards. - Updates canvassed from BIW Gage Process, Stamping Gage Process and the Chrysler users plus run plants. - Gage Standards will review revisions to the standards before submitting for review and approval by BIW Gage Process, Stamping Gage Process and the Chrysler users plus run plants. 1.3 GAGE STANDARD CHANGE PROCEDURE: Standards are reviewed semi-annually for update. Gage standards + form change requests are to be submitted in MQAS through the "Document Change Request" (DCR) process form found in the "Released Documents" Lotus Notes database for document GEDOC001xx. All change requests will be s ubmitted by a Gage Process Engineer for review. Addresses for viewing most curr ent Chrysler AME/ASME Design and Build Gage Standards: Intranet Address:
http://ame.ctc.chrysler.com Internet Address:
https://gsp.extra.Chrysler.com/mfg/amedd/gages/index.htm (Contact assigned Chrysler Gage Process Engineers for assistance.)
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CHAPTER 2.0 GAGE DESIGN 2.1 General 2.1.1 All gage designs become the propert y of Chrysler. 2.1.2 Gage designs shall be a Computer Aided Design (CAD). Manual gage designs require approval by Chrysler. Gage designs that are required to be designed in CATIA Solid-E; see the Chrysler Gage Process Engineer for direction and approval. 2.1.3 All CAD gage designs will be f ormatted in CATIA at tim e of delivery. (Chrysler user run plants o nly). 2.1.4 Holding fixtures shall be designed in CATIA Solid-E for Chrysler user plants 2.1.5 All gages shall be designed in m etric. (Note: English units used for where available standard s tock sizes or cost considerations are necessary. ALL designs remain shown with metric equivalent.)
2.1.6 Chrysler Gage Process will conduct a design kick-off/line-up meeting with the gage manufacturer. 2.1.7 The design proposal shall have Chrysler approval at 40%, 90%, and 100% completion. The design source will submit one set of design plots for this review. All gage designs shall be signed-off by Chrysler Gage Process Engineer using the Gage Design Kick-off, Review, and Approval form (GEFM001xx). 2.1.8 a.) ASME: Preliminary Operation Description Sheets (ODS) are to be made available at the 90% design review for approval by Chrysler ASME Gage Process engineer. b.) AAME: Preliminary Automated Manufacturing Planning Sheets ( AMPS) are created by Chrysler AAME Gage Process engineer with AMPS release two (2) weeks prior to V1 build when GR&R reports have been completed & passed using S2 metal for verification of clamping sequence. 2.1.9 The gage shall address all G, D, &T controls and "toleranced" surfaces as shown on the released part model. 2.1.10 Minimum material thickness shall be used for the gage design, construction and CMM programming. 2.1.11 Design Considerations: A. Operator and maintenance personnel saf ety. B. Simplicity in operator part loading without restrictions or interferences.
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C. Free accessibility to all components for ease of maintenance and replacement. D. Rigidity of construction for operation endurance for the life cycle of the vehicle. 2.1.12 After all issues from the 40% and 90% design reviews are r esolved, the gage manufacturer is authorized to begin build. This authorization is documented on the Gage Design Kick-off, Review, and Approval Form (GEFM001xx) and is signed by the lead Chrysler Gage Process Engineer. 2.1.13 Upon shipment of the gage fixture to the Chrysler User Run Plant, the designs are updated and to include gage fixture dimensions and weight. Then, ship designs as directed by Chrysler Gage Process Engineer. 2.2 Design Layout Requirements 2.2.1 The fixture base will be parallel to the X, Y, or Z plane of vehicle. Base orientation will be determined by the Chrysler Gage Process Engineer. 2.2.2 Alignment features shall be sho wn on the gage drawing, targets and t ooling balls. 2.2.3 All gage designs shall be identifie d with Chrysler Gage Num bers as shown on the MEDDS specification for each design. Utilize the standard stock list (Figure 2.2a). 2.2.4 The base height shall be determined by the average inspection height of 1000.0 mm. 2.2.5 All math models required f or the gage design shall be li sted in the space provided. List part number, drawing or layout number, name and latest change (Figure 2.2a). 2.2.6 List name, address, and phone number of manufacturer/supplier of all purchased parts on gage drawing. (Reference: stock list). 2.2.7 List Chrysler commodity codes in the Standard Stock List. (Chrysler Design & Build ONLY. See Chrysler Gage Design or Process Engineer.) 2.2.8 All bases larger than 48 inch x 48 inch will have legs and must be st eel, unless otherwise noted by Chr ysler Gage Process Engineer. 2.3 Design Status 2.3.1 Design status reports are required weekly as directed by the Chrysler Gage Process Engineer. 2.3.2 Reporting Percentage Milestone Criteria:
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10% = Placed. (Supplier has part information. Job has been started.) 40% = Design ready for review and approval. (Job is laid out. Material is being ordered.) 90% = Design ready for final review (complete), buy-off, and ship to build source. 100%=Design complete including any build changes and archived at Chrysler. 2.3.3 New Model Planning Reporting Standards: (MEDOC001 xx) Reporting standards are to reference New Model Planning (NMP) document (MEDOC001 xx) for uniform reporting percentages on gage fixtures. 2.4 Recording Design Revision 2.4.1 Standard stock list sheet shall be the sheet used for all revisions. It shall indicate the latest revision, revision date, and revision authority. The stock list shall accompany design to the build source. 2.4.2 All Revisions will be wri tten clearly and completely. W rite revisions per sub-models aff ected. (Reference Figure 2.2a.) Example: Detail X Sub-model XXXXX Form revise; Hole relocated. 2.4.3 All designs shall be updated to include changes m ade during construction and noted in the change colum n. 2.4.4 Gage design or construction changes are not to be made without Chrysler Gage Process Engineer authorization. If changes are required after the GR / GR&R study is completed, the ODS shall be updated prior to shipment of gage fixture to the user run plant. 2.4.5 Design revision Change Letters: -
First change letter used is "A". All following change letters are used consecutively. No change letter shall be skipped, except the letters "I", "O" and "Q". Design revisions will carry a common change letter on every sheet involved in a particular revision.
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2.4.6 Changes shall reference the manufacturing Change Notice (CN) number and part engineering change (EC) level.
Figure 2.2a Stock List
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CHAPTER 3.0 MANUAL GAGE DESIGN 3.1 General NOTE: Manual gage design requires approval by Chrysler Gage Process Engineer. 3.1.1 Body lines shall be called out and stamped on finish adjacent edges of base, and the units that are mounted to the base. 3.1.2 Use color for all part lines. A different color shall be used for each part. The identification of a part shall be called out at least once on each gage design. 3.1.3 Identify net areas of the gage with cross-hatching. 3.1.4 Identify materials being used in cross sections with cross hatching. 3.1.5 Diamond characteristics identify on appropriate views and section. 3.2 Layout Format 3.2.1 The gage design layout shall conform to and contain the information as contained in Standard Stock List. 3.2.2 Change balloons shall be used with all revisions on layouts, stock list and on borderline. 3.2.3 Use a 10.0 mm diameter balloon for change letters. 3.2.4 The minimum sheet size is "D" size, 24.0 inch x 36.0 inch. 3.2.5 The maximum length of a sheet shall be 12.0 feet, with a maximum width of 42.0 inches. 3.2.6 All sheets shall have a 0.50 in. border all around. 3.2.7 Designs shall be full size, unless otherwise specified. 3.2.8 Major panel designs shall have a key sheet which may be at a reduced scale. 3.2.9 A full plan view of th e part and gage base is required on f ixtures that are symmetrical about the centerline. The gage design shall show and detail the Right Hand side of fixture and any Left Hand only details. GEDOC001 Rev.13.1 8-2010
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3.2.10 Centerline and body lines shall be shown in three planes and in all views and sections. To front "O" line, to centerline of body and to bottom "O" line. 3.2.11 Start dimensions shall be shown in three planes; in full metric dimensions, at the right lower side of plan view for right hand fixtures, and left lower side of plan view for left hand fixtures. 3.2.12 The stock list shall list stock size, not name of detail, except for weldments, which shall be listed as "welded construction". Note: Always use standard manufactured stock sizes. 3.3 Manual Design Sections 3.3.1 The gage design shall show plan, front, end views and all other views and sections necessary to clarify design. 3.3.2 On drawings requiring sections, start with section letter "A" and continue through the alphabet in order. Exceptions shall be for the letters "I", "O", and "Q". Also, list the sheet number where the section can be found. On the sheet with the section, indicate where the section is taken from. 3.3.3 All sections shall be full si ze or larger and noted. An y section that shows sheet metal shall b e identified by part number. 3.3.4 All sections shall be cut norm al to part surface. 3.4 Manual Design - Sheet Numbering 3.4.1 Sheet Numbers & Type of Drawings: Sheet #1 - Key sheet or layout sheet. Sheet #2 - Stock list (standard form) - Sheet #2a, 2b, 2c, etc. = Stock list continuation sheets. Sheet #3 - Additional layout or detail sheets. 3.4.2 Numbering for unitized drawings: Sheet 101 ( unit 1, sheet 1) General Layout. Sheet 102 (unit 1, sheet 2) General Layout or detail. Sheet 103 (unit 1, sheet 3) Bill of Materials (if required). Sheet 104 (unit 1, sheet 4) and higher as required. Sheet 1401 (unit 14, sheet 1) example of unit 14. Sheet 1401 (unit 14, detail #14001, unit 1, detail #1001). GEDOC001 Rev.13.1 8-2010
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3.5 Detail Identification
-Details
symmetrically opposite on separate bases (Use same number .) Detail 17-BRACKET (NORM)
Detail 17-BRACKET (NORM)
1 REQUIRED SAE 1018
1 REQUIRED SAE 1018
WELDED CONSTRUCTION
WELDED CONSTRUCTION SYMMETRICALLY OPPOSITE FOR LH FIXTURE
AS SHOWN FOR RH FIXTURE
-Details not symmetrically opposite (Use separate numbers.) Detail 27-BRACKET (NORM)
Detail 28-BRACKET (NORM)
1 REQUIRED SAE 1018
1 REQUIRED SAE 1018
WELDED CONSTRUCTION FOR RH FIXTURE ONLY
WELDED CONSTRUCTION FOR LH FIXTURE ONLY
-RH
and LH Details on the same base (Use separate numbers.) etail 35-BRACKET (NORM)
Detail 36-BRACKET (NORM)
1 REQUIRED SAE1018
1 REQUIRED SAE 1018
WELDED CONSTRUCTION AS SHOWN FOR RH SIDE
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CHAPTER 4.0 COMPUTER AIDED DESIGN (CAD) for GAGES 4.1 General 4.1.1 The design shall adhere to Chrysler supplied product math model, and the MEDDS / AMPS detailing gage concepts. 4.1.2 Detailing is not required for CAD design, unless requested by Chrysler Gage Process Engineer. 4.1.3 CAD model of compatible references are furnished, when available (for reference only). 4.1.4 Designs shall be broken into sub-models. Each sub-model will consist of one complete stack of gage "fixturing" from product surface to base surface. For DEA flexible tooling, each module assembly shall have its own submodel, using a unitized system. 4.1.5 CAD model shall be 3D & CNC compatible. 4.1.6 Details shall be identified in 3D wire frame model with a 3D number or CATIA attribute. Note a start point indicating orientation of the detail and the appropriate gage symbol indicating net, flush, feeler, etc. 4.1.7 CAD models shall be separable, individual details shall be in separate layers (base, clamps, composite, etc.) 4.1.8 Each CAD model shall be a complete representation of the finished "fixturing" for that sub-model, showing open position of clamps, templates, etc. 4.1.9 Designs may be completed in wire frame or CATIA Solid-E, as specified in process specification package. 4.1.10 When designing in wire frame, tapped holes and dowel holes shall be represented by a circle of the nominal value with color code attributes from hole diameter. The circle color code shall be placed on the face of the detail where screw or dowel would enter. Counter bored holes shall have actual depth shown on the design. (See Figure 4.1) 4.1.11 When designing in CATIA Solid-E, tapped and dowel holes should be represented by nominal tap drill size with circle color code. (See Figure 4.1)
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Figure 4.1 Design Circle Color Code reference for hole attributes. Hole TYPE mm
DWL - SF
DWL - PF
TAP
THRU / CLNC
SIZE/COLOR
RED (2)
PINK (95)
GREEN (3)
BLUE (4)
6
3R
3R
3R
3.5 R
8
4R
4R
4R
4.5 R
10
5R
5R
5R
5.5 R
12
6R
6R
6R
7R
16
8R
8R
8R
9R
20
10 R
10 R
10 R
11 R
Note: All construction holes will be th e Color
GREY (10)
4.1.12 For wire frame designs, provide face definitions for periphery, flush, feeler, and net surfaces. 4.1.13 The gage shall be designed for N/C machining and shall be able to maintain dimensional integrity while being machined. 4.2 CAD File Format for users 4.2.1
Establish the CAD file using the following format:
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Example #1: The file name for an inspection model is given as: S7FTAN55255516AA _AR_S01R_REL. The file name is defined as: S = Stamping Tool Gage. 7 = Model Year of product; 1997. FT = Flexible Tool Gage. AN = Body style. 55255516AA = Part number. AR = Product change level, "AR". SO1R = Sub-model S01 Right Hand. REL = Gage design change level "Release." Example #2: The file name for an inspection model is given as: A7QRS3400_REL_S01_A The file name is defined as: A = Assembly Tool 7 = Cube Tool for 1997 RS Q = Cube Tool fixture. RS = Body style. 3400 = Area number. REL = Product Change Level Release S01 = Sub model S01 A = Tool design Change Level, "A".
4.2.2 When CATIA CAD designs are created for Chrysler checking fixtures, creation of symmetrically opposite models is not required. The following guidelines are examples for symmetrical and asymmetrical fixtures.
Example #1: R1 Stamping Fixture for Panel Door Inner which is right hand shown, left hand symmetrically opposite. Part Info for Example #1: Part #55251234AA Rt. Engineering Change Level "D" Part #55251235AA Lt. Design Change Level "REL" MY/VF 1998 DN Only models for the right hand fixture are required. The file name should contain both right hand and left hand part numbers. "RL" should follow the base and submodel identification, which designate the model as being right hand shown with the left hand symmetrically opposite. S8RDN55251234-5AA_D_STKLIST_REL S8RDN55251234-5AA_D_R1ODS_REL S8RDN55251234-5AA_D_BASERL_REL S8RDN55251234-5AA_D_S01RL_REL GEDOC001 Rev.13.1 8-2010
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Example #2: R1 Stamping Fixture for Panel Rear Qtr. Otr. which is right hand shown, left hand symmetrically opposite except as shown. Part Info for Example #2: Part #55255678AA Rt. Engineering Change Level "C" Part #55255679AA Lt. Design Change Level "REL" MY/VF 1998 DN All models for the ri ght hand fixture are required. Only non- symmetrically opposite models are required for the left hand fixture. The filename should contain both right hand and left hand part numbers. "RL" should follow the sub-model identification, which designate the model as being right hand shown with the left hand symmetrically opposite. "R" should follow the sub-model identification, which designates the model as being right hand only. "L" should follow the sub-model identification, which designates the model as being left hand only. The base sub-model should be followed with the appropriate designation of "RL", "R" or "L". Note: The left hand model should be created on the left hand side. S8RDN55255678-9AA_C_STKLIST_REL S8RDN55255678-9AA_C_R1ODS_REL S8RDN55255678-9AA_C_BASERL_REL S8RDN55255678-9AA_C_S01RL_REL S8RDN55255678-9AA_C_S02R_REL S8RDN55255678-9AA_C_S02L_REL Example #3: R1 Stamping Fixture for Panel Cowl Side which is right hand shown, and left hand is significantly different to justify a separate design. Part Info for Example #3: Part #55253456AA Rt. Engineering Change Level "C" Part #55253457AA Lt. Design Change Level "REL" MY/VF 1998 DN All models for the ri ght hand fixture are required. Filename should contain only the right hand part number for the right hand part. "R" should follow the base and sub-model identification, which designates the model as being right hand only. Filename should contain only the left hand part number for the left hand part. "L" should follow the base and sub-model identification, which designates the model as being left hand only. Note: The left hand model should be created on the left hand side. Both designs require their own stock list and Operational Description Sheet (ODS). S8RDN55253456AA_C_STKLIST_REL S8RDN55253456AA_C_R1ODS_REL S8RDN55253456AA_C_BASER_REL S8RDN55253456AA_C_S01R_REL S8RDN55253456AA_C_S02R_REL S8RDN55253457AA_C_STKLIST_REL S8RDN55253457AA_C_R1ODS_REL S8RDN55253457AA_C_BASEL_REL S8RDN55253457AA_C_S01L_REL S8RDN55253457AA_C_S02L_REL GEDOC001 Rev.13.1 8-2010
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Example #4: R1 Stamping Fixture for Panel Hood Inner which is right hand side shown, left hand side symmetrically opposite. Part Info for Example #4: Part #55259876AA Engineering Change Level "D" MY/VF 1998 DN Design Change Level "REL" Only models for the right hand side of fixture are required. "RL" should follow the sub-model identification, which designate the model as being right hand shown with the left hand symmetrically opposite. "R" should follow the sub-model identification, which designates the model as being right hand only. "L" should follow the sub-model identification, which designates the model as being left hand only. No letter designation is required for base or sub-models which are a center line models. S8RDN55259876AA_D_STKLIST_REL S8RDN55259876AA_D_R1ODS_REL S8RDN55259876AA_D_BASE_REL S8RDN55259876AA_D_S01RL_REL S8RDN55259876AA_D_S02R_REL S8RDN55259876AA_D_S02R_REL S8RDN55259876AA_D_S03_D_REL Example #5: R1 Stamping Fixture for Panel Dash which is non-symmetrical across centerline. Part Info for Example #5: Part #55255432AA Engineering Change Level "D" MY/VF 1998 DN Design Change Level "REL" All models of the fixtur e are required. No letter designation is required for base or sub-models. S8RDN55255432AA_D_STKLIST_REL S8RDN55255432AA_D_R1ODS_REL S8RDN55255432AA_D_BASE_REL S8RDN55255432AA_D_S01_REL S8RDN55255432AA_D_S02_REL 4.3 CAD File Format (See 4.2.) 4.3.1 (Combined with 4.2 for 1/04/2010 release.)
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CHAPTER 5.0 GAGE BASES 5.1 General 5.1.1 The base / frame shall be sized so that all clamps and targets do not overhang the periphery of the base / frame when in the open position. Also, there shall be sufficient surface provided on the base for mounting interchangeable tooling, inspection equipment and a Chrysler identification plate. 5.1.2 The base / frame height shall be determined by the average inspection height of 1000.0mm 5.1.3 The part shall be a minimum of 100.0 mm above base/ frame, except CMM holding fixtures (refer to Section 6.13). 5.1.4 Machined surfaces of bases / frames shall be rust-proofed. 5.1.5 All tooling plate gage bases / f rames shall have jig feet in the f our corners. 5.1.6 Floor bases / frames shall have provisions for leveling, utilizing all base pads include details in stock list. 5.1.7 Sub-base construction with multiple units shall utilize machined corners on the sub-base when units are doweled at assembly. Sub-base corners shall be labeled / stamped. 5.1.8 Base / frame's leg, or cart if base /frame size is less than 48 inches x 48 inches, requirements shall be finalized with the user run plant at the 40% design review and noted in the MEDDS specification. If cart is required, all carts must have a bottom metal shelf located above the casters for part storage. 5.1.9 Legs for bases / frames will be itemized in fixture stock list. 5.1.10 Legs or carts are to be shipped to the user run plant only. Do not ship to die / machine tryout sources. If so released and authorized for shipping, replacement liability will be supplier's responsibility. 5.1.11 All legs will have leveling s crews. And, if casters are supplied for legs or carts as agreed upon in Gage Plan, two (2) of the four (4) casters must have locking mechanisms. 5.1.12 Holes for attached legs shall be provided; legs shall be shipped unassembled from base and not to cause damage to check fixture components. 5.1.13 The material for cast aluminum bases shall be SAE 315 or equivalent; with Brinell hardness of 74. The average yield strength shall be 26,000 PSI and a tensile strength of 35,000 PSI. Supplier shall furnish their own pattern.
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5.1.14 All bases shall be machined on t wo adjacent edges. 5.1.15 All steel bases / fram es shall be stress relieved 5.1.16 All aluminum bases shall be norm alized. 5.1.17 Body Lines shall be scribed and stamped from finish adjacent edges of base. 5.2 Base / Frame Sizes: 5.2.1 Base material, size, and fabrication requirements. Aluminum
Steel
Base Size Base Material (base must fit within parameters in both directions)
Base Size Base Material (base must fit within parameters in both directions)
6.0 in x 6.0 in to 6.0 in x 12.0 in
1.0 in aluminum tooling plate, Blanchard ground flat & parallel to +/- 0.05 mm overall
18.0 in x 0.75 in Thick (clean up) B.P. with Jig 12.0 in to Feet 1.50 in x 1.50 in x 0.44 in 18.0 in x 18.0 in
12.0 in x 8.0 in to 12.0 in x 16.0 in
1.0 in aluminum tooling plate, Blanchard ground flat & parallel to +/- 0.05 mm overall
18.0 in x 24.0 in to 18.0 in x 30.0 in
1.0 in Thick (clean up) B.P. with Jig Feet in x 1.50 x 0.44 in
18.0 in x 12.0 in to 18.0 in x 18.0 in
1.0 aluminum tooling plate, Blanchard ground flat & parallel to +/- 0.05 mm overall with Jig Feet 1.50 in x 1.50 in x 0.44 in
24.0 in x 24.0 in to 24.0 in x 36.0 in
1.0 Thick (clean up) B.P. with 3.0 in Channel all around 24.0 in x 36.0 in 1.50.0 in from edge of plate with (4) 0.75 in. Thick pads on corners
18.0 in x 18.0 in to 48.0 in x 48.0 in
Aluminum Casting
30.0 in x 36.0 in to 30.0 in x 42.0 in 18.0 in x 30.0 in
1.0 in Thick (clean up) B.P. with 4.0 in Channel iron all around 1.50 in from edge of plate with (Use mean thickness of web on channel iron) (4) 0.75 in thick pads on corners
36.0 in x 42.0 in to 36.0 in x 48.0 in
Same as above except that maximum thickness for web channel iron to be used
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48.0 in x 48.0 in to 48.0 in x 84.0 in
1.25 in Thick (clean up) B.P. with 6.0 in channel all around 3.0 in from edge of plate plus sufficient channel braces and (4) 0.75 in thick 7.0 in x 7.0 in pads on corners. Legs and jack screws shall be provided on all four corners plus (1) in center of base
48.0 in x 84.0 in to 48.0 in x 120.0 in
Same as 48.0 in x 48.0 in except use 8.0 in channel iron
48.0 in x 120. 0 in and over
Same as 48.0 x 48.0 in except use 10.0 in channel iron. Provide for (6) legs and jack screws plus (1) in center of base
5.3 Base Machined Tolerances 5.3.1 Overall "square- ness" relationship of machined edges, length, and width shall be +/- 0.08 mm. 5.3.2 Overall parallelism between top and bottom surfaces shall be +/- 0.08 mm. 5.3.3 Bases / frames shall be flat within +/- 0.13 mm 0.13mm per square foot of area with a maximum of +/- 0.10 mm total in any length. 5.3.4 Base surface finish shall not exceed 80.0 micro inches RMS roughness. 5.4 Line Blocks 5.4.1 Bases / frames larger than 24 in. x 24 in. require a removable line block. (See Figure 5.4a). 5.4.2 Chrysler Gage Process Engineer / user run plant determines line block or machine edge preference. 5.4.3 The hole pattern to locate line block around the gage shall have no more than 400.0 mm between locations. 5.4.4 Position line blocks outside of the gage and part. 5.4.5 Dowel holes in base for line blocks shall be reamed in steel bases and bushed in aluminum base construction. (See Figure 5.4a).
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Figure 5.4a Line Block
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5.5 Hoist Ring Requirements 5.5.1 Supplier shall provide swivel clevis type METRIC hoist rings at the four (4) fixture corners if heavier than 60 pounds. 5.5.2 Hoist rings must have the load capacity to lift maximum weight of fixture plus 25%. Eye bolt size shall be determined by maximum load of eye bolts at a 60 degree pull angle. 5.5.3 The eye bolt size shall be stamped near the hole on the base. 5.5.4 Use Helicoil screw locks for aluminum bases. 5.6 Standards for FABRICATED Aluminum Bases 5.6.1 General - Aluminum Derived from Cast Aluminum Specifications. 5.6.2 All bases that are 36” square an d under will require four (4) base pads and the center support will be machined on the same plane as the pads. Any base that exceeds 36” in one direction and is under the 48 square inches will require six (6) base pads and the center supports are machined on the same plane. (See example Figures 5.6a and 5.6b.) 5.6.3 The overall height of the base cannot exceed 6” and will be no less than 5”. 5.6.4 Material Specifications - Aluminum The following rules apply for the construction of the bases: (A) The main base plate will be made out of 6061 T651, stress relieved, 1” thick aluminum. (B) (4 or 6) 2” x 2” x 3 x ¼” wall stock 6061 aluminum tubing at each corner for bases with (4 or 6) base pads. The tubes will require a 1/8” drilled thru gas release hole on one of the outside faces. (See example Figures5.6a and 5.6b.) The tubes will consist of 2” x 2” x ¼” w/s x 3 ¼”lg for bases 5” thick and 4 ¼” lg. for bases 6” thick. The base pads will consist of ¾” x 4” x 4”. (5/8” finished approx). (C) The base skirting and under surface structure for the “X” pattern will consist of 5/8” x 3” x length to suit. (See example Figures 5.6a and 5.6b.)
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5.6.5 Weld Specifications - Aluminum Refer to example Figures5.6a and 5.6b for locations and type of weld. (A) Bases will have a stitch weld in the middle of the base to the tooling plate and skirting approximately 6” long on all (4) sides and spaced approximately 4” apart. (B) The tubes & base pads will be 100% all around the under surface of the base. (C) The “X” pattern & parameter of the base will consist of a stitch weld approximately 6” long and spaced approximately 4” apart. 5.6.6 Tolerance and Machining Specifications - Aluminum The following rules apply for the certification of bases. 1. Top and bottom surfaces shall be “blanchard” ground.
2. Overall parallelism between top and bottom surfaces shall be +/- 0.08 mm. 3. Overall "square- ness" relationship of machined edges, length, and width shall be +/- 0.08 mm. 4. Bases shall be flat within +/- 0.13 mm 0.13mm per square foot of area with a maximum of +/- 0.10 mm total in any length. 5. Base surface finish reference Section 5.3.4. 6. All fixture base’s steel or aluminum will have all of the pertinent certification reports contained with the gage certification package. a. Final Base Inspection Report. b. Base Flatness Certification Report.
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Figure 5.6a Base construction specifications, small to medium.
C
B
3/4 TYP.
3/4 TYP.
A
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Figure 5.6b Base construction specifications, large. (Refer to example Figure5.6a for weld, machining, and tube placement specifications.)
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CHAPTER 6.0 GAGE CONSTRUCTION 6.1 General 6.1.1 Fixtures will be NC machined to math data per machining symbols. (Figure 6.1a & 6.1b) 6.1.2
No shims or adjustability shall be allowed in any gage. Chrysler Gage Process Engineer approval required for the use of grind spacers. 6.1.3 All units mounted directl y to a fixture base shall be built using dowel hole construction. Dowel at assembly is permitted on the details / units that are indirectly mounted to the base. 6.1.4 6.0 mm diameter dowels shall be used unless dictated by a purchased component's dowel requirements. 6.1.5 Adequate protective safety devices shall be provided for protection of personnel and equipment, including sto ps for drop assemblies and clamps. 6.1.6 Provide every gage with a gage certification tag (84-206-0020) supplied by Chrysler Gage Process Engineer. (Figure 6.1c)
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= Flush Check C = Flush Check Constant
MT =
FLUSH CHECK CAD/CAM
Flush Check Plus Metal Thickness
DESIGN SIDE
FLUSH CHECK CAD
Flush Check Constant C MT = Plus Metal Thickness
CAM
DESIGN SIDE CAM
= 3mm Feeler Check C
= 3mm Feeler Check Constant
CL
= 3mm Feeler Clear
CAD
DESIGN SIDE FEELER CHECK MT =
3mm Feeler Check Plus Metal Thickness
C
MT =
3mm Feeler Check Constant Plus Metal Thickness
CL
MT =
3mm Feeler Clear Plus Metal Thickness
CAM CAD
DESIGN SIDE
FEELER CHECK C
& C
= Constant for full length of gage bar/check surface.
Figure 6.1a Machining Symbols.
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CAD/CAM
= Net Surface
NET
DESIGN SIDE MT =
Net Surface Plus Metal Thickness
CAD NET
DESIGN SIDE
CAM
CAD
= Sight Check (3mm Cl ear)
SIGHT CHECK
DESIGN SIDE
3mm CLEAR
CAM
MT =
Sight Check (3mm Clear) Plus Metal Thickness
CAD SIGHT CHECK DESIGN SIDE
3mm CLEAR CAM
SD
= Shown Depth (May be used with any symbol)
CAD/CAM
SHOWN DEPTH 3mm CLEAR
Figure 6.1b Machining Symbols.
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GAGE NO.
YR/VEH
PART NO. PART NAME RUN PLANT
BUILD SOURCE
ALSO CHECKS NIC
E/C
DATE
CERTIFIED BY
INSP.DATA VERIFIED GAGE CERTIFICATION NIC
E/C
DATE
NIC
CERTIFIED BY
E/C
DATE
CERTIFIED BY
84-206-0020
Figure 6.1c Certification Tag (84-206-0020). 6.1.7 Provide on every gage fixture a GR/GR&R Tag (84-206-0021) supplied by Chrysler Gage Process Engineer. (Figure 6.1c). Chrysler Gage Process Engineer provides tag for each Chrysler user run plant stamping and assembly gage.
GAGE NO. E/C
DATE
CERTIFIED BY
GAGE REPEATABILITY (GR) PASSED GAGE REPEATABILITY & REPRODUCIBILITY (GR&R) PASSED 84-206-0021
Figure 6.1d GR/GR&R Tag (84-206-0021). GEDOC001 Rev.13.1 8-2010
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6.2 Datums 6.2.1 The datum’s as indicated in the part model G, D & T sheet shall be utilized as locators. (Ref: Design Kick-Off Form, GEFM001 xx). 6.2.2 Identify locating points; i.e. datum, locating holes or surfaces; as shown in CAD model & on operation description sheets. 6.2.3 All 2-way and 4-way PLP locating stab pins will be made to MMC condition unless otherwise directed by Chrysler Gage Process Engineer. Note: A 2-way locating Pin going into a round hole should be able to slide in the non-locating direction. 6.2.4 All datum pads shall be m ade the same size as shown in G, D & T . 6.3 Clamping 6.3.1 All clamping units must have ergonomic handles to elim inate pinch points and be approved by Chrysler Gage Process Engineer. 6.3.2 Clamp units are to be mounted to the fixture base. Do not mount clamps to fixture plank material. 6.3.3 All toggle clamping shall be 90 degrees to surface of metal . 6.3.4 All clamps shall be inside the edge of base when in the open position. To minimize base size, if clamp does overhang base in full open position, provide a stop pin. 6.3.5 The clamp contact point shall be centered to the net block. 6.3.6 Dowel all clamps, especially the clamping on non-planer surfaces requires dowels. Chrysler Gage Process Engineer to determine product necessity and functional requirements for dowel elimination at time of design review. 6.3.7 Stops shall be added when required to prevent pinch points. 6.3.8 All clamps and movable units shall be sh own in open and closed position. Arc of travel and clearance t o adjacent units shall also be indicated. (Figure 6.3a)
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SINGLE NET
PLACE CLAMP SO CLAMP FORCE IS PERPENDICULAR TO EXTENSION LINE THROUGH CL AMP ARM PIVOT.
DUAL NET INSIDE CORNER
DUAL NET OUTSIDE CORNER
Figure 6.3a Gage Clamping. GEDOC001 Rev.13.1 8-2010
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6.4 Gage Pins 6.4.1 All detail gages to have sight check s or pin checks for all holes as determ ined by application. 6.4.2 All holes with a positional t olerance of 1.0 mm or less shall be pin checked for location, unl ess otherwise specified. 6.4.3 All locating holes shall be G o/No-Go pin checked, (Figure 6.4a), unless otherwise specified b y Chrysler Gage Process engineer for program. 6.4.4 When a hole size TOTAL tolerance range is 0.25 mm or less, the hole shall be checked with a Go-No Go pin. (Figure 6.4a) 6.4.5 For checking hole locations, use the nominal hole size minus the hole size tolerance and location tolerance to determine the gage pin diameter.
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RECOMMENDE D GAGE CHECK PIN CONFIGURATION
CARR LANE GAGE HANDLE
SIZED TO SELECTED GAGE HANDLE A
1.5 x 45º BOTH ENDS
GAGE CHECK PIN
17.0
19.0
G G
RECEIVER BUSHING
SAE OIL HARDEN & GRIND R/c 58-60
19.0
SIZED TO SELECTED RECEIVER BUSHING
Use the following example to calculate gage pin diameter 'A'. 10.00 ±0.25 1.0 M A B M C M
10.00 -.25 9.75 -1.00 8.75
Hole diameter. Minus minimum tol of hole size. = Maximum material condition (Lo Limit of Hole) Minus hole location toerlance. = Gage pin diameter 'A'
For pierce and weld nuts. Use appropriate internal minor diameter listed in chart below and subtract location tolerance to obtain gage pin diamter 'A'. NUT SIZE M5 X 0.8 - 6H M6 X 1.0 - 6H M8 X 1.25 - 6H M10 X 1.5 - 6H M12 X 1.75 - 6H
INTERNAL MINOR DIA. ' A' 4.134 4.917 6.647 8.376 10.106
Figure 6.4b Gage Pin Configuration. Note: All hole locations and trim dimensions will be established from CAD math model.
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6.4.6 For a threaded hole pin, use minor diameter of thread minus ""locational"" tolerance for the pin size. Length of pin shall be equal to projected tolerance zone specified on the part model G, D & T sheet. 6.4.7 See Figure 6.4c for construction information when using a double ended stab pin as a datum locator. 6.4.8 All blind hole checks shall have scribe pin ca pability. (Figure 6.4d) 6.4.9 All gage pins shall slip fit into standard size bushings. Bushings shall be press fit in nom inal position in the gage. Lock-Tite shall not be used.
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36.0 19.0
GO PIN
NO-GO PIN
G
G CARR LANE GAGE HANDLE
SHAPE OF SLOT -TOL. SAE OIL HARDEN & GRIND R/c 58-60
ROUND +TOL.
GO NO-GO PIN FOR (2) WAY DATUM SLOT 42.0 25.0 12.5
G G
CARR LANE GAGE HANDLE
STEPPED GO/NO-GO PIN SAE OIL HARDEN & GRIND R/c 58-60
GO NO-GO PIN FOR ± 0.12 OR LESS
GO PIN
36.0 19.0
G ROUND -TOL.
NO-GO PIN
G
1.5 X 45º BOTH ENDS
SAE OIL HARDEN & GRIND R/c 58-60
CARR LANE GAGE HANDLE
SHAPED +TOL.
GO NO-GO PIN FOR (4) WAY DATUM HOLE Use the following example to calculate GO and NO -GO pin diameters.
10.00 Hole diameter -0.05 Minus Minim um hole tol. 9.95 GO pin diameter
10.00 ±0.05
10.00 Hole diameter +0.05 Minus Minimum hole tol. 10.05 NO-GO pin diameter
Figure 6.4a Go/No-Go Pins.
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RFS LOCATING PIN
MMC LOCATING PIN B
B
F
1.5 x 45º BOTH ENDS
C
1.5 x 45º BOTH ENDS
G
17.0 61.0 25.0
G G
19.0
G G
19.0
A S.F.
D or E
A S.F.
Use 'D' when pin is used with RFS pin in double ended holder.
15º INCL.
Use 'E' when pin is used alone in single ended holder.
FOR GAGE HOLES WITH SIZE TOLERANCE OF +/- 0.05 GAGE HOLE A B C D E F 9.00 .250 .312 8.95 25.0 19.0 7/16 13.00 .250 .312 12.95 25.0 19.0 5/8 19.00 .250 .312 18.95 25.0 19.0 7/8 25.00 .375 .625 24.95 25.0 19.0 1-1/8
G 7.0 4.0 3.0 1.5
SAE OIL HARDEN & G RIND Rc 58-60
Figure 6.4c Locating 6.4c Locating Pins.
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RECOMMENDED SCRIBE PIN CONFIGURATION
CARR LANE GAGE HANDLE
SIZED TO SELECTED GAGE HANDLE SIZED TO SELECTED RECEIVER BUSHING
SCRIBE PIN
1.5 X 45º
RECEIVER BUSHING 30º
G
40.0
G
19.0
75.0 SAE OIL HARDEN & GRIND R/c 58-60
LEAVE SHARP 'A'
Use the following example to calculate scribe pin diameter 'A'. 10.00 ±0.25 1.0 M A B M C M
10.0 0.00 -.25 -.25 9.75 9.75 -1.00 -1.00 8.75 8.75
Hol Hole dia diamet meter. er. Minus Minus minimum minimum tol tol of hole hole size. size. = Maximu Maximum m materi material al condi conditio tion n (Lo Limit Limit of Hole) Hole) Minus Minus hole locatio location n toerla toerlance nce.. = Scrib Scribe e pin diamete ameterr 'A' 'A'
Figure 6.4d Scribe 6.4d Scribe Pins.
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GRADUATION SET
0
0
GRADUATIONS 10.0 LONG 1.00 SPACING TYP.
0
ZERO LINE 20.0 LONG TANGENT TO CHECK PIN FLANGE DIA. TO SUIT D 1.5 x 45º
62.0 GAGE HANDLE 5.0
40.0 20.0 STUD CHECK PIN DIA. B TO SUIT CLEARANCE HOLE
A STUD CHECK PIN SAE OIL HARDEN & GRIND Rc 5 8-60 D = GAGE HAND LE COLLET DIA.
ST UD SI ZE M 5 X 0.8 - 6G M6 X 1.0 - 6G M8 X 1.25 - 6G M10 X 1.5 - 6G M12 X 1.75 - 6G
MAJ OR DIA. A 4.9 76 5.974 7.972 9.968 11.966
Figure 6.4e Stud 6.4e Stud Check Pin with Graduation Marks.
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RECOMM ENDED GAGE HANDLE S & BUSH INGS FOR GAGE HOLE LOCATING PINS CARR LANE GAGE HANDLE
MMC CONDITION
RFS CONDITION
GAGE HOLE
CARR LANE HANDLE
CARR LANE HANDLE BUSHING (2 REQ'D)
CARR LANE RECIEVER BUSHING
9.00 13.00 19.00 25.00
CL-4-GHD CL-4-GHD CL-4-GHD CL-6-GHD
CL-4W-321 CL-4W-321 CL-4W-321 CL-6W-563
P-26-12 (.2500 IN. ID) P-26-12 (.2500 IN. ID) P-26-12 (.2500 IN. ID) P-40-12 (.3750 IN. ID)
CARR LANE GAGE HANDLE
RFS CONDITION
MMC CONDITION
GAGE HOLE
CARR LANE HANDLE
CARR LANE HANDLE BUSHING (1 REQ'D)
CARR LANE RECIEVER BUSHING
9.00 13.00 19.00 25.00
CL-4-GHS CL-4-GHS CL-4-GHS CL-6-GHS
CL-4W-321 CL-4W-321 CL-4W-321 CL-6W-563
P-26-12 (.2500 IN. ID) P-26-12 (.2500 IN. ID) P-26-12 (.2500 IN. ID) P-40-12 (.3750 IN. ID)
P-26-12 BUSHING 13/32 IN. OD X 3/4 IN. LG. P-40-12 BUSHING 5/8 IN. OD X 3/4 IN. LG.
Figure 6.4f Gage Handles and Bushing.
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6.5 Flush & Feeler Checks 6.5.1 All check elements shall be norm al to part surface, except flush ch ecks. They may be within 10 degrees perpendicular to base. 6.5.2 Flush checks shall have a minimum of 20.0 mm flush surface (Figure 6.5a); 25.0 mm where possible. 6.5.3 Flush pin type checks may be used only upon approval by the Chrysler Gage Process Engineer. 6.5.4 All Stamping Assembly gages for closure panels shall have complete peripher y gage bars. All cut line feeler checks shall be 3.0 mm (Figure 6.5a). Fixture material type will be identified in MEDDS specification and at lineup meeting. 6.5.5 Gage bar supports shall be provided on all gage bars with 50.0 mm or more overhang. 6.5.6 Keep brackets below checking area, wherever possible. NOTE: Tolerance groove, 1mm deep, with painted bottom, may be used in place of flush checks only upon approval by the Chrysler Gage Process Engineer.
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INCORRECT SURFACE. DO NOT FOLLOW MATING PART.
CORRECT SURFACE. 0º EXTENSION TO CHECKED SURFACE. 90º
3.0 FEELER CHECK
GAGE BAR PANEL - FENDER OUTER
90º
3.0 FEELER CHECK CORRECT SURFACE. 0º EXTENSION TO CHECKED SURFACE.
GAGE BAR
20.0 MIN. TYP. FLUSH CHECK
3.0 FEELER CHECK
20.0 TYP. FEELER CHECK GAGE BAR
Figure 6.5a Gage Bars.
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6.6 Sight Checks 6.6.1 All sight checks shall be 3.0 mm clear from part surface with a minimum depth of 3.0 mm. Sight checks shall be made to virtual condition; maximum material condition (MMC) minus "locational" tolerance, or least material condition (LMC) plus "locational" tolerance if a sight check hole becomes less than 1.5 mm diameter. (See Gage Standards Chapter 2 Design Requirements.) 6.6.2 All holes not pin checked will be s ight checked. (Ref. Figure 6.1b) 6.7 Hinge/Template Units 6.7.1 Use Chrysler approved standard commercial angle brackets, risers, hinge drops, template drops, etc. Fabricated or refurbished units may be used with Chrysler Gage Process Engineer approval. 6.7.2 All fabricated drop units sh all use bushings at pivot points and bushings when lock pins are used. (Figure 6.7a) 6.7.3 All drop units shall have ste el thumb screws locks when lock pins are not used. 6.7.4 Provide stops for all gates, slides, clamps, gage bars, targets, drop templates, etc., in retracted position. 6.7.5 Hinge / template drops shall be steel "T- pinned" and bushed in the bracket / swing units when using SPC and datum nets. 6.7.6 All templates are to be normal to check surface. 6.7.7 All templates are to be co ntour type, NC machined, and not profiled. 6.7.8 All contour template checks shall be specified as 6.35mm stock - SAE 1018. 6.7.9 Hinge/template drops shall have all sharp edges removed.
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USE SELF RETAINED L-PIN FOR OPEN AND CLOSED POSITIONS.
Figure 6.7a Bushings and retained T-Pins or L-pins. 6.8 Hand Held Gages 6.8.1 Hand gages shall be designed as small and light as possible. Weight for hand gages shall not exceed 25 pounds for one operator and 60 pounds for two operators. The total weight shall be calculated and indicated on the stock list if over 25lbs and weight stamped on hand gage fixture. 6.8.2 Fixtures without a base (G) and hand templates shall have body line blocks, or a reference origin. 6.8.3 All removable details, whic h are not mounted on swing tem plates shall be secured to the gage and stamped with the tool number.
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6.8.4 Fastening cables and / or a storage box shall be provided as required for all loose details when not in use on the gage. 6.9 Statistical Process Checks 6.9.1 All critical characteristics require variable data gather ing capability, unless specified b y Chrysler Gage Process Engineer. 6.9.2 Identify numerically all transducer points in operation description sheets with tags on the gage. 6.9.3 SPC bushings shall be set to math data. 6.9.4 SPC bushings shall have heads, be press fit, and not threaded. (Figure6.9a) 6.9.5 Adequate protection must be provided f or all fixture mounted t ransducers. 6.9.6 The (2 in 1) flush and gap transducer should be used for design clearance conditions. 6.9.7 LMI flush and feeler blocks shall be mounted normal/parallel to all features checked. (Figure 6.9a)
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LMI 200-S PROBE TRANSDUCER
HEAD P.F. BUSHING H-40-12 (.3750 ID) (DO NOT USE ADJUSTABLE LMI THREADED BUSHING) 90º
31.00 SET-UP
24.00 FLUSH CHECK POINT FLUSH CHECK ON RAIL HOOD ASSY LMI 776 MTG BLOCK GAGE BAR
3.0 FEELER CHECK
19.00 SET-UP
CENTER OF LOCATING DOW EL
Figure 6.9a Transducer Set-Up.
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6.10 Material Specifications 6.10.1 All gages shall be constructed of steel, aluminum, or composite material as determ ined by Chrysler Gage Process Engineer. 6.10.2 Large fabrications shall be made with welded tubing that has a minimum wall thickness of 6.35 mm (unless otherwise specified by Chrysler Gage Process Engineer) and shall be normalized. 6.10.3 Cast details may be used (except for standard angle brackets and bases), with approval from Chrysler Gage Process Engineer. 6.10.4 All "weldments" shall be no rmalized (aluminum) and str ess relieved (steel) prior t o machining. 6.10.5 When aluminum gage bars are utilized, they shall be anodized hard coated. 6.10.6 Minimum surface roughness requirement for gage rings / rails will be 70 microns or better, unless otherwise approved by Chrysler Gage Process Engineer. 6.10.7 Description a. b. c. d.
of Minimum urethane fixture board requirements: Color = Gray / Grey Hardness (Shore D) @ 75 degree F = 70-75 Flexural Modulus, psi = 200,000 Thermal Expansion coefficient = -22 to 86 degree F, in/in/degree F= 30 x 10-6 -30 to 30 degree C, mm/mm/degree C = 54 x 10-6
Supply applied urethane fixture board material specifications at time of fixture Design review for Chrysler Gage Process Engineer records. No exceptions, unless otherwise documented & approved by Chrysler Gage Process Engineer. 6.11 Gage colors: 6.11.1 Paint all gage bases light blue, NPVP 2.5 PB 7/6; Chrysler commodity code #65-153-4770. 6.11.2 Paint all non-check elements above base light blue, NPVP 2.5 PB 7/6; Chrysler commodity code # 65-153-4770. 6.11.2a Stanchions used on / with CUBE MEASUREMENT SYSTEM shall be: •
•
Base and raw aluminum components, Black anodized or color, to be determined by Gage Process engineer for multiple models used in cross loading of assembly plants. Standard hard aluminum risers, etc., may remain coated as received and will not be required to be painted light blue.
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6.11.3 Black oxide all steel check details; i.e. nets, pins. All lettering on black oxide details shall be white. 6.11.4 Paint all non-check elements on hand apply fixtures light blue, NPVP 2.5 PB 7/6; Chrysler commodity code #65153-4770. 6.11.5 Consult AME0010 Chrysler Color Identification of Capital Equipment, Dies, Fixtures, Tools, and Machinery document for paint series identification requirements. Document available through Gage Process Engineer. 6.11.6 For painting of welded clamp handles REFERENCE document AME0010 Chrysler Color Identification of Capital Equipment, Dies, Fixtures, Tools, and Machinery available through Gage Process Engineer.. 6.11.7 For painting of sight check holes REFERENCE document AME0010 Chrysler Color Identification of Capital Equipment, Dies, Fixtures, Tools, and Machinery available through Gage Process Engineer. . 6.11.8 For painting of feeler checks REFERENCE document AME0010 Chrysler Color Identification of Capital Equipment, Dies, Fixtures, Tools, and Machinery available through Gage Process Engineer. 6.11.9 The gage construction source will be responsible for filling out the Chrysler supplier regulated substance certification report form, ETI-103, for their program fixtures requiring compliance. (See Chrysler Gage Process Engineer for documentation.) 6.12 Gage Stamp Requirements 6.12.1 Gages that check different assemblies and details shall clearly identify the interchangeability for each part. Stamp the part number clearly and paint with the proper color identification code. 6.12.2 Stamp datum surface identification on fixtures and on N.C. blocks. 6.12.3 Stamp as indicated by the gage design, feeler, flush, and clearance on sight checks. 6.12.4 Stamp body coordinates of start dimensions on base surfaces. 6.12.5 Stamp gage pin diameter, detail number and tool number on all gage pins. 6.12.6 Stamp tool number, detail number and sub-model number on all details.
6.13 CMM Holding Fixtures
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6.13.1 The part shall fit within the envelope of the CMM machine with enough clearance for the CMM machine to reach any point with a part loaded. Measurement head configuration and CMM parameters shall be provided by the user run plant. 6.13.2 Maximum weight for holding fixtures shall be determined by the user run plant. 6.14 Operation Description Sheets (ODS) 6.14.1 Operation Description Sheets describe the initial set-up of checking fixture, the loading of the part, the sequence of clamping operation and clear instructions for all feature inspections. (See Figure 6.18 a,b,c,d). Chrysler Gage Process Engineer to provide CAD model example of ODS sheets.) 6.14.2 The ODS sheets created in AMPS by Chrysler AME / BIW will follow the gage standard format in section 6.14. In Chrysler ASME, ODS templates and specifications will be referenced as a supplement to section 6.14 of the gage standards. 6.14.3 The clamping sequence shown in the operation description sheets will be determined at the 40% design review and updated after a successful GR&R study. This sequence will be labeled on the fixture with tags attached to the clamp or the clamp units. 6.14.4 All transducer checks, with t heir SPC check sequence number, and the X, Y, Z nominal coordinate of the checkpoint will be shown. Include any engineering identification number or letter, if any. (i.e."M" points.) 6.14.5 Usage of any removable details will be clarified, storage must be provided & labeled. 6.14.6 The last page of operation description sheets (ODS) package will be a Pin chart showing detail number, Hole Size, Hole Size Tolerance, pin size, and pin usage. This chart will include PLP pins, Go/NoGo pins, Scribe pins, and Feeler Gages. 6.14.7 The ODS shall be plastic laminated and attached to the base of fixture.
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Figure 6.14a Sample Operation Description Sheet (ODS).
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Figure 6.14b Sample Operation Description Sheet (ODS).
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Figure 6.14c Sample Operation Description Sheet (ODS).
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Figure 6.14d Sample operation description sheet (ODS). 6.15 CMM Fixture Alignment Procedure 6.15.1 Targets (points on edge of base) shall be used for fixture alignment. Two (2) are required on long edge of fixture base and one (1) on short edge and (3) points on base surface. Identify target locations with a scribed circle and provide a tag to cover target location for protection. 6.15.2 (This section eliminated by Chrysler Gage committee, 10/2002.) 6.15.3 Fixtures using Tooling Balls or 12mm I.D. Head Press Fit Metric Bushings require three (3) for alignment. The X, Y, Z coordinates shall be stamped on a tag and mounted on fixture base next to the tooling ball. (Figure 6.15b)
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6.15.4 When a dual arm CMM is being used, five (5) tooling balls or head press fit metric bushings with covers are required; two (2) for each arm and one (1) to be shared by both arms. (Figure 6.15a)
TOOLING BALL SET-UP FOR DUAL ARM CM M M ACHINE 3 TOOLING BALLS FOR ARM 2 ALIGNMENT
ARM 2
COMMON TOOLING BALL FOR ARM 1 AND ARM 2
ARM 1
3 TOOLING BALLS FOR ARM 1 AL IGNMENT
Figure 6.15a CMM Fixture Alignment. (NOTE: Tooling Balls or Head Press Fit Metric Bushing may be used for alignment.)
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TOOLING BALLS TOOLING BALL E&E EEM-12-SCB ( 12.0mm )
TOOLING BALL COVER CARR LANE CL-2-COVER (OR EQUIV.)
TOP OF BASE
Figure 6.15b Tooling Balls. (NOTE: Tooling Balls or Head Press Fit Metric Bushing may be used for alignment.)
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CHAPTER 7.0 GAGE INSPECTION and VERIFICATION 7.1 Verification of CMM Inspection Data 7.1.1 The Gage Supplier shall verify CMM inspection data to the latest product CATIA model. A second party (not the author of the CMM check program) shall perform the verification. This can be done internally by the Gage Manufacturer or by an outside third party source. The third party source (See Section 12.C of Gage Standards) selection shall be determined and/or approved by Chrysler Gage Process. 7.1.2 The Gage Supplier will have a documented procedure showing how the verification process is to be accomplished. 7.1.3 Verification of the CMM inspection program requires a minimum of one (1) point checked on each block compared to CATIA data. Flush and feeler rails will be checked with two (2) points on each end (total of eight points) compared to CATIA data 7.2 Inspection 7.2.1 Gage Supplier shall adhere to the requirements for certification and calibration as stated in Element 4.10, Inspection and Testing and Element 4.11, Control of Inspection, Measuring, and Test Equipment in the QS-9000 manual. 7.2.2 Point Spacing: A. Maximum distance between inspect ion point is not to exceed 100.0mm . B. Minimum distance from a tangent is 3mm. C. For curved surfaces, reduce point spacing to 15-25mm. D. For radius up to 20mm, generate three (3) points - both ends of tangent and at center for the radius. E. For radius 20 to 40mm, generate five (5) points - both ends of tangent and three (3) equally spaced on the radius. F. For radius 40mm and larger, generate ten (10) points - both ends of tangent and eight (8) equally spaced along the radius. 7.2.3 Generating Inspection Points A. Net Blocks - generate f ive (5) points; one (1) at each corner and center. B. Flush & Feeler Check Rails - make rows of points at 5mm and 13mm from hard corner edge. C. (Eliminated, 10/2002, by Chrysler Gage committee.) D. Template (contour edge) - make two (2) rows of data; 1mm from each side of blade.
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E. Sight Check (irregular shaped hole) - make one (1) row of data; 3mm from top surface. F. Sight Check (round or slot holes) - make one (1) row of data; 3mm from top surface to check size and location, if it's a slot check the angle. Project check nominal to part surface. G. Plug Check (round or slotted holes) - make two (2) depths of cylinder check points to determine size and location. Check the angle normal to surface if it's a slot, check the angle. Project check nominal to surface. H. All fixture features inspected MUST be clearly identified in the gage inspection report.
1. All reports will be divided into SECTIONS by FEATURES. 2. All inspections will have a header ident ifying the Sub-Model & t ype of inspection. 3. Each page of the report to carry header consisting of Fixture TOOL Number, DATE & PAGE number of total pages. 4. All HOLE inspections will re port SIZE & LOCATE. EXAMPLE for 7.2.3.H.: (Items in BOLD are added elements for 2004+ Gage inspection repor ts.) Tool #S4RLX-5055022
Page 1 - 3
1-05-2004
SUB-05 C/L of 5.25 SIGHT CHECK DIM D79 = LOCATION OF CIRCLE CIR7 AX
NOMINAL
X
UNITS=MM
MEAS
+ TOL
- TOL
DEV
1993.330
1993.514
0.200
0.200
0.184
0.000
Y
902.520
902.494
0.200
0.200
-0.026
0.000
Z
1140.530
1140.670
0.200
0.200
0.140
0.000
D
5.250
5.274
0.200
0.200
0.024
OUTTOL
0.000
7.3 Certification 7.3.1 The gage must be certified prior to performing GR&R and buy-off for shipping to the user run plant. 7.3.2 (Eliminated, 10/2002, by Chrysler Gage committee.) 7.3.3 The inspector will certify that the gage has been built dimensionally correct within the acceptable tolerances.
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7.3.4 Supplier shall have available for the Chrysler Gage Process Engineer the following items: A. An approved gage design and stock list. B. Verification of the CMM inspection program. C. Inspection data. D. A road map showing the location of the inspection points must be provided. E. Latest product model, including math data and G, D&T. F. The program Chrysler Gage Design and Build Standards. 7.3.5 Upon completion of an approved certification, the certification tag will be stamped with supplier's/construction stamp next to the latest engineering change. This stamp indicates that the gage has been certified to the inspection data and has met the dimensional requirements. 7.3.6 The certified inspection data will be sent via electronic format to the Chrysler's CATIA file. Certification data will be stored with gage design. 7.3.7 The certification inspection data and the road map will be included in the gage history book and shipped with the gage. (Refer to Gage Standards Section 10.0 Shipping.)
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7.4 Standard Build Tolerances All product math data is as sumed basic, unless otherwise noted. 7.4.1 Tolerances for Checking Fixtures. Feature
Location
Size
Locating Pins
+/- 0.05mm
+0.0 /0.02mm
Net Surface
Surface
+/- 0.05mm
+/-1.0mm
Flush Check
+/-0.15mm
3.0mm Feeler Check
+/-0.12mm
3.0mm Clear
+/-0.25mm
Pin Checks
+/- 0.10mm
Boundary Location or Non-working Axis
+0.0/ 0.02mm
Go Pin
+0.0/ 0.02mm
No Go Pin
+0.02/ 0.0mm
Sight Checks
+/- 0.20mm
SPC Transducer Bushing
+/- 0.05mm Normal to Surface
+/-0.50mm
SPC Flush and Feeler Block
+/- 0.05mm Normal to Surface
+/-0.50mm
Drilled and/or Tapped
+/- 0.13mm
Dowel Holes for items mounted to Fixture Base
+/0.013mm
Units or SubBases to be held
+/-0.05mm from Start
Fixture Base
+/0.12
See Sect. 5.3
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7.4.2 Tolerances for DEA Flexible Tool Fixtures Feature
Location
Size
Surface
Boundary Location or Non-working Axis
(1) Net Ball
+/-0.125mm
+/- 0.20mm
(2) Nets or more on (1) unit
+/-0.125mm & +/-0.05mm to each other
+/-0.20mm for second or third datum.
Flat Form Net
+/- 0.125mm
Locating Pins
+/- 0.125mm
Final Machine Placement of Module
+/- 0.10mm
+/-0.05mm Flatness +0.0/-.02mm
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CHAPTER 8.0 GAGE REPEATABILITY (GR) / GAGE REPEATABILITY & REPRODUCIBILITY (GR&R) 8.1 General 8.1.1 All gages shall pass an approved GR&R pr ocedure as outlined in the Chr ysler Quality Assurance Work Instruction, GEOP011. The GR&R study shall be performed by the gage supplier and approved by Chrysler Gage Process Engineer prior to shipment to the user run plant. The Chrysler Gage Process Engineer is responsible for the GR&R study for Chrysler ASME / AME gages. 8.1.2 A passed Gage GR/GR&R study tag sh all be supplied by Chrysler Gage Process Engineer. This tag will be stamped with the engineering change level, GR&R completion date and the Chrysler Gage Process Engineer stamp to indicate the fixture passed the GR&R study. 8.1.3 The Chrysler Gage Process Engineer shall provide parts to the gage build supplier to conduct GR / GR&R study. The gage construction supplier shall notify the Chrysler Gage Process Engineer prior to conducting study. 8.1.4 If detail parts/assemblies are not available for a GR&R study, a GR study shall be performed. A GR study is an expedient method of demonstrating a measure of gage repeatability. 8.2 GR Study a.) Fixture must be inspected and certified prior to performing GR study. b.) To perform a GR study, one part/assembly and one operator is required. c.) A complete GR study requires that the same part/assembly is loaded, measured and unloaded ten (10) sequential times. This part / assembly must be loaded by the same operator ten (10) sequential times. d.) Pre-determined points will be measured each of the ten (10) times the part / assembly is loaded. Method of data collection may be done either by CMM machine or hand held electronic data collector. A minimum of two (2) “Up / Down” locations; two (2) “Fore / Aft” locations; and two (2) “Cross-Car ” point locations required. (Laser or vision system measurement devices may be used, only if approved by the Chrysler Gage Process Engineer. ) e.) For each of the ten (10) times a part / assembly is to be measured, follow steps (f) through (k). f.) Ensure that the fixture is set-up in accordance with the ODS / AMPS for the part / assembly that is being measured. g.) Operator loads part / assembly into fixture according to ODS / AMPS. h.) Measure pre-determined points. k) Operator unloads part/assembly.
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m.) After data has been collected, input measured results into GR worksheet in GEFM010xx. To calculate GR study results. If GR worksheet in GEFM010xx is not available, use the following table and formulas to calculate GR study results:
Table - GR Study Worksheet X X ( X − X )
n
( X − X ) 2
1 2 3 4 5 6 7 8 9 10 Tot ( X − X ) 2 GR
%=
MR d 2
=
n −1
0.972
×
6.00 / Tolerance × 100 =
n.) Resulting values that are considered passing values for a GR study are as follows: 1. Under 20% error is required for critical product characteristics. 2. 20% to 30% error may be acceptable based upon the importance of the application; i.e. non-critical product characteristics, cost of gage, cost of repair, etc. Acceptability shall be determined by the Chrysler Gage Process Engineer. 3. Over 30% error, the measurement system needs improvement. Identify the problems and have them corrected. 8.3 GR&R Study: a.) Fixture must be inspected and certified prior to performing GR&R study. b.) To perform a GR&R study, five (5) parts / assemblies and two (2) operators are required . c.) A complete GR&R study requires that each part/assembly is loaded, measured and unloaded twice. Operator A will randomly load each part / assembly once. Operator B will load each part / assembly once in the same order as Operator A. (5-2-1 Method) d.) Pre-determined points will be measured each time the part / assembly is loaded. Method of data collection may be done either by CMM machine or hand held electronic data collector. Laser or Vision System measurement devices may be used only if approved by the Chrysler Gage Process Engineer.
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e.) Steps “f.)” through “k.)” are to be repeated once for each of the five (5) times Operator A loads / unloads a part / assembly and once for each of the five (5) times Operator B loads / unloads the same part / assembly. (5-2-1 Method) f.) Ensure that the fixture is set-up in accordance with the ODS / AMPS for the part / assembly that is being measured. g.) Operator loads part / assembly into fixture according to ODS / AMPS. h.) Measure pre-determined points. k.) Operator unloads part/assembly. m.) After data has been collected, input measured results into GR&R worksheet in GEFM010xx to calculate GR&R study results. If GR&R worksheet in GEFM010xx is not available, use the following table and formulas to calculate GR&R study results.
Part 1 2 3 4 5
Table - GR&R Study Worksheet Operator A Operator B Range (A-B)
Sum of Ranges AverageRan ge ( R ) =
∑ R = 5
5
=
GageError (GRR ) = 4.33( R ) =
GRR as a % of Tolerance =
(GRR) (100%)
Tolerance
=
× 100%
=
n.) Resulting values that are considered passing values for a GR&R study are as follows: 1. Under 20% error is required for critical product characteristics. 2. 20% to 30% error may be acceptable based upon the importance of the application; i.e. non-critical product characteristics, cost of gage, cost of repair, etc. Acceptability shall be determined by the Chrysler Gage Process Engineer. 3. Over 30% error , the measurement system needs improvement. Identify the problems and have them corrected.
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CHAPTER 9.0 GAGE BUY-OFF 9.1 Buy-Off Form Upon completion of certification and GR/GR&R studies, a gage fixture buy-off is required. Use Form GEFM009xx supplied by Chrysler Gage Process Engineer to conduct gage buy-off. 9.2 Gage Record Book – Electronic File Structure Requirements A Gage Record book or electr onic project file with lik e folder structure for accessing and loading of documents to Chrysler record storage location with the following information is required prior to gage fixture buy-off: 1. MEDDS Specification Detail report. 2. MEDDS Manufacturing Change Notice (MCN) report(s), if required. 3. Design Kick-Off, Review and Final Approval (Form GEFM001xx). 4. G, D & T data sheets from design file, if applicable. 5. Operation Description Sheets (ODS) for ASME / AMPS sheets for AAME CORE. 6. CMM Calibration certification for ASME. (Supplier sheet.) 7. Fixture Inspection Data results. (Also, sent to CATIA.) 8. GR / GR&R study reports (Form GEFM010 xx). 9. Tool Inspection report / Inspection data for AAME CORE, only. 10. Gage Buy-Off Form (GEFM009 xx). 11. Calibration Sign-Off (Form APFM352) for AAME CORE, only. 12. Completed Environmental form ETI-103. (Required for all programs after 2004.)
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CHAPTER 10.0 GAGE SHIPPING 10.1 Transit Gage jack screws, legs, leveling plates, etc., shall be secured to the base for storage during transit and in such fashion to not damage checking fixture or supports. Liability is shipping originator / carrier. 10.2 Packaging All gages shall be adequately covered & pr otected with a minimum being skidded, lubricated and wrapped i n a waterproof protective covering. The part and gage number shall be stenciled with two inch high lettering on all four sides of container or skid. 10.3 Documentation A plastic envelope shall be perm anently attached to the fixture. The envelope will contain the gra phic sketch showing the diamond part and its characteristics, the ODS / AMPS (covered in plastic), the part model GD&T sheet(s), if applicable, and the certification report. This documentation shall be part of the gage record at all times. The gage fixture weight and dimensions will be stenciled / stamped on fixture for shipping. Contact Chrysler Gage Process engineer for details.
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CHAPTER 11.0 DEFINITIONS ACCURACY: Difference between the "master" or actual measurement value and that recorded by a gage. ATTRIBUTE DATA: Qualitative data that tells only whether or not a part meets specifications. ATTRIBUTE GAGE: Checking fixture that compares a production part to its nominal shape. AIAG: Automotive Industry Action Group; a consortium made up of Ford, Chrysler and General Motors working with ASQC to provide guidelines for assessing the Quality of a Measurement System. BODY-IN-WHITE (BIW): Bare metal shell of the body including doors, deck lid, front fenders and hood prior to paint and trim operations in the assembly plant. CAD: Computer Aided Design. CALIBRATION. Adjusting a measurement device for accuracy. CERTIFICATION: The process of checking that a gage conforms to design and dimensional specifications including preparation of documents recording conformance. CHECK DETAIL: Detail for verifying part to product intent. CHECKING FIXTURES: Production inspection tools that use attribute data to evaluate parts to specifications. CMM: Coordinate Measuring Machine. COMPOSITE: Any material that consists of two or more components; typically one or more of high strength and one adhesive binder. CONSTRUCTION TOOLING BALLS: Used for alignment, construction and dimensional certification. CUBE FIXTURE, (Q) Gage: Modular checking fixture system used to hold panels for CMM inspection. The modules are assembled on a universal block known as a cube. DATUM: A part feature that locates a part, panel or assembly, for the purpose of measuring other features on the part. The datum can be a surface, hole, slot or other feature. DATAMYTE: Brand name for hand-held data collection device used in conjunction with variable data input devices; (e.g. hand -held transducers or encoders). DESIGN SIDE OF METAL: The side of material that is the basis of the math data for a part. FEELER CHECK: Gap check of a part to a checking fixture detail. FT GAGE: Flexible Tooling checking fixture for DEA system 5.. GAGE R&R: Gage repeatability and reproducibility. GD&T: Geometric Dimensioning and Tolerancing; a method of identifying critical dimensions on a part drawing by means of a standard set of symbols. GEDOC001 Rev.13.1 8-2010
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(G) GAGE: Template, plug gage, contour block or portable lightweight gage. (H) GAGE: CMM holding fixture for CMM use. Fixture to hold part, panel or assembly for measurement on CMM. LINEARITY: Accuracy of a gage over its measuring range. LOCATORS: Check fixture features that locate the part datums relative to a known system (base, CMM etc.) for the purpose of measuring the features of the part. MANUFACTURING CHANGE NOTICE (MCN): A formal process for initiating, communicating and implementing engineering changes. MAXIMUM MATERIAL CONDITION (MMC): State or condition of a part when maximum material is present; (i.e. holes at minimum size, part boundaries at maximum). NON-CONTACT GAGING: A process for imaging product & features then converting a series of 2-dimensional digital images into an accurate 3-dimensional representation and measurement data. QUALITY: Fitness of part / assembly for use as measured by conformance to specifications and workmanship standards compatible with customer expectations. RELIABILITY: The probability that a gage will adequately perform its intended function, in customer use, at a target time or interval. REPEATABILITY: Variation in measurements from one operator using a gage several times to measure identical characteristics on the same part. REPRODUCIBILITY: Variations in average measurements from different operators using a gage several times to measure identical characteristics on the same parts. REGARDLESS OF FEATURE SIZE (RFS): The term used to indicate that a geometric tolerance or datum reference applies at any increment of size of the feature within its size tolerance. RMS (ROOT MEAN SQUARE - Rq): Method of calculating an average roughness value. This is obtained by squaring each value and then taking the square root of the mean. (R) GAGE: Attribute checking fixture qualified for production parts. (S0) GAGE: Stamping soft-tool checking fixture. SIGHT CHECK: Simplest visual method for verifying part features by pattern comparison. Normally this check is used for non-critical features. STABILITY: Variation of a gage's measurements over time. TEMPLATES: Checking fixture details made from thin material to check localized part forms / features. VARIABLE DATA: Quantitative data that specifies actual part measurements. VERIFICATION: Confirmation of the certification data (inspection program) back to the CATIA model data. Third party requirement for gages. Confirm that the gage is designed and built to the Chrysler Gage Standard. VISION SYSTEMS: Cameras used for in-line process trend analysis. GEDOC001 Rev.13.1 8-2010
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CHAPTER 12.0 APPROVED / RECOMMENDED SOURCE LIST The following list shall be used for all fixtures at Chrysler user run plants. Any gage design/build source NOT on the following list requires Chrysler Gage Committee waiver approval prior to sourcing of gage fixture work. (Request blank Waiver form STFM005xx from Gage Process engineer for filing approval determination of non-approved selection.) 12.1.1- A. Approved Source List - Gage Design and Build SUPPLIER:
ADDRESS
PHONE NO.#
FUTURAMIC
24680 Gibson Drive Warren, MI 48092
586-758-2200 586-497-8850
38454
Design & Build.
JAY ENN CORP.
33943 Dequindre Rd. Troy, MI 48084
248-588-2393
53393
Design & Build.
1462 East Big Beaver Road
248-528-9240
96145
Design & Build.
A.
METRO TECHNOLOGIES Ltd.
44208 Phoenix Drive Sterling Heights, MI 48314
586-323-9700
77457
Design & Build.
A.
STANDARD COMPONTENTS, Inc.
A.
SHARP MODEL CO.
70745 Powell Road Romeo, MI 48065
586-752-3099
52186
Design & Build.
SMITH BROTHERS TOOL
50600 Corporate Drive Shelby Twp., MI 48315
586-726-5756
54537
Design & Build.
SPEC TECHNOLOGIES, Inc.
51455 Schoenherr Road Shelby Twp., MI 48315
586-726-0000
40750
Design & Build.
List
A.
A.
A.
A.
SUPPLIER CODE NO.#
Troy, MI 48083-1904
SECTION 12.1.1 NOTE: A. Any SECTION 12.1.1 A. supplier may also provide either Design or Build separately.
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12.2.1 B. Approved Source List - Gage Design and Build The following approved source list, should be used for outside supplier gages. If a supplier selects a source that is not on the approved source list, then the supplier shall notify the Chrysler Gage Process Engineer for waiver approval. (Refer to Gage Standards Appendix "A"). ADDRESS
PHONE NO.#
22760 Macomb Ind. Dr. Clinton Twp., MI 48036
586-463-2800
(None)
Design & Build.
B.
ADVANTAGE DESIGN & TOOL, Inc.
B.
ADVANTAGE INDUSTRIES, Inc.
2196 Port Sheldon Road Jenison, MI 49428
616-669-2400
(None)
Design & Build.
190 Washburn Drive Unit #2 Kitchner, ON N2R 1S2
519-748-00790
(None)
Design & Build.
B.
ANSWER PRECISION TOOL, Inc.
705 S. Girls School Rd. Indianapolis, IN 46231
317-243-4225
32264
B.
APPLIED COMPOSITES ENGINEERING
GLASS checking fixtures, ONLY. Design & Build.
B.
ARBOR MODEL & TOOLING, Inc.
203 Logan S.W. Grand Rapids, MI 49503
616-454-8266
(None)
Design & Build.
5 Ote. 210 Col. Centro San Andr’es Cholula Puebla, México C.P. 72810
(011-52) 222261-0971
62060
Mexico Gages ONLY. Design & Build.
AUTOMOTIVE GAGE & FIXTURE
2155 North Talbot Windsor, Ont. N9A 6J3
519-737-2922
(None)
Design & Build.
4000 Delduca Drive RR #1 Old Castle, ON N0R 1N0
519-737-7677
(None)
Design & Build.
B.
A-V GAUGE & FIXTURE, Inc.
664 Bishop Street Cambridge, ON N3H 4V6
519-653-2977
(None)
Design & Build.
B.
AXIS TOOL & GAUGE
34500 Klein Road Fraser, MI 48026
586-296-1103
(Shares RCO#) 81097
Design & Build.
B.
BERMONT GAGE & AUTOMATION
924 Jaime Benavides Pompa Blvd. Fraccionaminento Villas del Nogalar
844-490-5555 ext. 103
(None)
Mexico Gages ONLY. Design & Build.
List
SUPPLIER:
ARCE TOOL B.
B.
B.
CLARK FIXTURE Technology Mexico S. de R.L de C.V.
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844-490-5557 (fax)
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Ramos Arizpe, Chahulia, México C.P. 25900
B.
COMAU-PICO Pitex S. de R.L. de C.V.
Av. Acceso lotes 12 y 13 Fraccionamiento Ind. El trébol 2a Secc. Tepotzotian Edo de, México
(011 52) 555899-6919
58388
Mexico Gages ONLY. Design & Build.
(011 52) 555-8996933 (fax)
CP 54610
B.
COSTELLO Enterprises
56358 Precision Drive Chesterfield Twp., MI 48051
586-749-0136
(None)
Design & Build.
CP INDUSTRIES
12767 Industrial Drive Granger, IN 46530
574-273-3000
49899
GLASS checking fixtures ONLY. Design & Build.
D & F CORP.
42455 Merrill Road Sterling Hgts, MI 48314
586-254-5300
30003
Design & Build.
EXPRESS GAUGE
42265 Yearego Sterling Hgts., MI 48314
586-323-9800
(None)
Design & Build.
FFT MEXICO SA de C.V.
Calle L #3 Parque Ind. Puebla 2000 Puebla Pue, México
(011 52) 222223-2213
29870
Mexico Gages ONLY. Design & Build.
B.
B.
B.
B.
72226 GAGE PATTERN & MODEL Inc.
32070 Townley Madison Hgts., MI 48071
248-585-9352
24060
Design & Build.
HERRAMIENTAS
Jacarandas 5 Col. Satelite
Cuernavaca Morelos, México 62460
(011 52) (777) 316-9160
50521
Servicios Automotrices S.A. de C.V. (HERSA)
Mexico Gages ONLY. Design & Build.
HI-TECH MOLD ENGINEERING
2775 Commerce Drive Rochester Hills, MI 48309
248-852-6600
(None)
Design & Build.
B.
INDEPENDENCE Tooling
2427 John R. Road Troy, MI 48083
248-250-7715
(None)
Design & Build
B.
INSPECTION AIR GAUGE Ltd.
3298 Riberdy Road Windsor, Ont. N8W 379
519-966-1232
52094
Design & Build.
JAY-ENN
33943 Dequindre Road Troy, MI 48084
248-588-2393
53393
Design & Build.
JEMAR TOOL, Inc.
51268 Fischer Park Drive Shelby Twp, MI 49316
586-726-6960
(None)
Design & Build.
LAKESHORE Fixture & Gauge
5355 Brendan Lane Old Castle, ON N0R 1LD
519-737-2635
(None)
Build
B.
B.
B.
B.
B.
B.
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B.
LASARD
528 Blanchard park Tecumseh, ON N8N 2L9
519 727-4009
(None)
Design & Build.
MAGOVE
Prolongacion Miguel Allende 11 Fracc. Ind. Tultitlan Estado
(011-52) 555888-0028
61054
Mexico Gages ONLY. Design & Build.
B.
de México 54900 METROCAL, Inc.
4700 Barden Court Kentwood, MI 49509
616-698-3124
(None)
Design & Build.
B.
MP COMPONENTS Inc.
8499 Centre Industrial Dr.
616-878-9710
(None)
Design & Build.
B.
MP COMPONENTS Inc.
1805 Lemon Farris Road
800-456-4509 931-525-1600
(None)
Design & Build.
B.
PETERSON JIG & FIXTURE
301 Rockford Park Rockford, MI 49341
616-866-8296
(None)
Design & Build.
B.
PINNACLE GAGE & TOOL
45 Cox Drive Gilbertsville, KY 42004
270-362-4763
(None)
Design & Build.
PRIMA TECH, Inc.
24837 Sherwood Ave. Centerline, MI 48015
586-759-0250
72578
Design & Build.
PROTOTYPE SYSTEMS Inc.
35835 Stanley Drive Sterling Hgts., MI 48312
586-795-3690
20907
Design & Build.
QCR TECH LLC
1605 East Avis Drive Madison Hgts., MI 48071
248-597-3984
24444
Design & Build.
B.
RCO ENGINEERING Inc.
29200 Calahan Roseville, MI 48066
586-771-8400
81097
Design & Build.
B.
REKO Fixture & Gauge
5390 Brenda Lane Old Castle, ON N0R IL0
519-737-6974
(None)
Design & Build.
B.
ROMEO TECHNOLOGIES
101 McLean Drive Romeo, MI 48065
586-336-5015
50513
Design & Build.
B.
SCHWAB INDUSTRIES, Inc.
50850 Rizzo Drive Shelby Twp., MI 48315
586-566-8090
33414
Design & Build.
SELECT TOOL
4125 Del Duca Drive Old Castle, ON N0R IL0
519-737-6406
(None)
Design & Build.
SUPERIOR CONTROLS
14925 Galleon Court Plymouth, MI 48170
734-454-0500
60017
Exhaust component check fixtures, ONLY.
B.
B.
B.
B.
B.
B.
Byron Center, MI 49315
Cookeville, TN 38506
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TRI-STAR ENGINEERING
35640 Beattie Drive Sterling Hgts, MI 48312
586-978-0435
66055
Design & Build.
B.
5355 Outer Dr. R.R.#1 Windsor, ON. N9A 6J3
519-737-9075
(None)
Design & Build
B.
TRI-TECH MODELS & FIXTURES
B.
UNIQUE MODEL Inc.
2500 Walker N.W. Grand Rapids, MI 49533
616-791-0966
(None)
Design & Build.
VALIANT Machine Tool & Gage
6465 Hawthorne Ave. Windsor, Ont. N8T 3G6
519-974-5200
36567
Design & Build.
B.
(aka GLOBAL I.E.M., Inc.)
12.2.2 B. Approved Source List - Gage Design
ONLY
NOTE: Any SECTION 12.2.1 B. supplier may also provide either Design or Build separately.
12.3.1 C. Approved Third Party Verification List The following Third Party Verification source list, should be used for verification of another supplier source's gage. The Third Party Verification supplier shall NOT have a vested interest in the design / build of gage being verified. If a supplier selects a source that is not on the approved source list, then the supplier shall notify the Chrysler Gage Process Engineer for waiver approval. SECTION 12.3.1 NOTE: THIRD PARTY Certification requirements apply for Chrysler Group Assembly Plant Gages ONLY . A. Third party as applied to Section 12.1.1-A Design & Build Suppliers: 1. Third party certification NOT required for Chrysler end item gages. 2. Third party certification NOT required for all tier 1 & 2 supplier gages. B. Third party as applied to Section 12.2.1-B Design & Build Suppliers: 1. Third party certification is required for ALL Chrysler supplier gages. 2. Third party certification must be completed by "12.3.1 C. Approved Third Party Verification List" supplier listed in current release of GEDOC001 Chrysler AME/ASME Gage Standards.
SUPPLIER:
ADDRESS
List
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PHONE NO.#
SUPPLIER CODE NO.#
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C.
Rio Lerma 143-202 Col. Cuauhtémoc, México DF 06500
555-514-0188
60689
Mexico Gages ONLY. Third Party Verify ONLY.
ACCU-TECH
43718 Utica Road Sterling Hgts., MI 48314
586-323-1181
(None)
Third Party Verify ONLY.
BENTELER
Defesores De La Republica N99 Aona Industrial Norte C.P. 72260 Puebla, Pue. México
(011-52) 222-2232174
11959
Mexico Gages ONLY. Third Party Verify ONLY.
3C METROLOGY S.A. de C.V.
C.
C.
C.
CARL ZEISS de México S.A. de C.V.
Miguel Angel de Quevedo 496 Col. Sta Catarina. México
(011-52) 442-2290171
92988
Mexico Gages ONLY. Third Party Verify ONLY.
CLARK FIXTURE TECHNOLOGIES
924 Jaime Benavides Pompa Blvd. Fraccionaminento Villas del Nogalar Ramos Arizpe, Chahulia, México C.P. 25900
(011-52) 844-4905555
(None)
Mexico Gages ONLY. Third Party Verify ONLY.
COSTELLO
56358 Precision Drive Chesterfield Twp., MI 48051
586-615-6307
(None)
Third Party Verify ONLY.
DYNAMIC METROLOGY Services
2565 Van Ommen Dr.
616-836-3524
(None)
Third Party Verify ONLY.
GAGE CHEK -
32082 Townley Madison Hgts, MI 48071
248-585-2476
24060
Third Party Verify ONLY.
(011-52) 722-1996743
60552
Mexico Gages ONLY. Third Party Verify ONLY.
519-737-2667
(None)
Third Party Verify ONLY.
C.
C.
C.
C.
Gage Pattern & Model, Inc.
Holland, MI 49424
GESTAMP
Av. Independencia S/N, esquina con Av. Lenardo Da Vinci Manzana #2, Lote#1. Col. Zona Industrial Toluca Toluca, Edo. de México C.P. 50030
INSPECT X
5575 Roscon Industrial Drive Old Castle, ON N0R IL0
C.
C.
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C.
C.
C.
C.
C.
C.
METROLOGY South, Inc.
205-280-1455
MICHIGAN MEASUREMENT SERVICES
345 West Girard Street Madison Hgts, MI 48071
248-577-1886
(None)
Third Party Verify ONLY & Laser Tracking.
MICRO PRECISION METROLOGY Inc.
2010 Fasan Drive Oldcastle, ON N0R 1LO or 125 Turnbull Court Unit#9 Cambridge, ON NIT 1H8
519-737-9626
(None)
Third Party ONLY.
Verify
RT PRECISION MEASUREMENT Inc.
2679 Howard Windsor, ON N8X 3X2
519-969-7785
Third Party ONLY.
Verify
SPEC CHECK –
51455 Schoenherr Road Shelby Twp., MI 48315
586-726-0000
54779
Third Party Verify.
SUPERIOR MEASURING
1605 East Avis Madison Hgts., MI 48071
248-616-4607
(None)
Third Party Verify ONLY.
TSI INSPECTION
13429 West Star Drive Shelby Twp., MI 48313
586-739-5203
(None)
Third Party SUPPLIER Gages ONLY. ISO/IEC17025:1999
VALEO
Manzana 4 Lote 1 Parque Industrial Exportec II Toluca, Estado de Mexico C.P. 50200
(011-52) 722-2794000 ext 4086
14949
Mexico Gages ONLY.
SPEC TECHNOLOGIES, Inc.
C.
C.
GEDOC001 Rev.13.1 8-2010
Copyright © 2010 Chrysler Group LLC
(None)
Third Party ONLY.
90 Bama Lane Clanton, AL 35045
205-280-0155 (fax)
Verify
519-621-7454 (None)
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Third Party Verify ONLY.
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APPENDIX A. - OUTSIDE SUPPLIER FLOW CHART
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START Outside Supplier Program RESPONSIB ILITY:
Product Supplier
Product Team
1.
Develop Timing Schedule
2. Approve
Datum Sc heme
Product Supplier
3.
Select Gage Supplier
Gage Engineer
4.
Review Gage Designs
Product Supplier & Gage Engineer A. Kick-Of f B. 40% Design Review
Gage Engineer
Gage Manufacturer
Product Supplier
5. Record Status into Tracking System
6.
7.
C. 90 / 100% Design Review
Begin build
Create CMM Inspection Program Product Supplier Send CMM Data to Lead Chrysler engineer 9.
Gage Manufacturer
8.
Check Gage on CMM
Product Supplier
11.
Product Supplier
12.
Product Team
13.
Team reviews CMM Data
Team reviews GR /GR&R Data
Gage Buy -Off . Schedule & supply form 14.
Product Supplier
15.
Gage Engineer
16.
Gage Engineer
10.
Send GR /GR&R data to Lead Chrysler engineer
Gage Engineer
Gage Engineer
Perform GR / GR&R
Create Gage Record Book or electronic transfer media
Issue the Chyrsler Certification Tags
17. All
c hanges recorded & c ertified
Ship & Maintain engineering change levels 18.
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APPENDIX A OUTSIDE SUPPLIER GAGES A.1 GENERAL All "End Item" Parts require a gage designed & built to AME / ASME Gage Standards and be approved by the Chrysler Product Team. A.1.1 Product Team The Chrysler Product Team consists of : 1. Product Releasing Engineer (Lead Engineer & Product Team Leader), 2. Product Supplier, 3. Gage Process Engineer, 4. Dimensional Control Engineer, 5. Supplier Quality Engineer . The Product Team Leader may ask for other team members to participate, when appropriate. A.1.2 Product Team tasks: 1. 2. 3.
4.
Product Supplier develops a Timing & Progress schedule for designing & building of gages and documents issues, resolutions, etc., with meeting minutes. The Product Team approves the datum scheme for the gage. The Product supplier is to select a Gage Manufacturer from the recommended source list (Gage Standards Chapter 12) to design / build the gage. If he wishes to select a gage source that is not on the recommended list, he must first obtain written permission from the assigned Chrysler AME/ASME Gage Process Engineer. The Product Supplier is to schedule the following Gage design review meetings, inviting all team members:
A. Kick-off Review 1. Discuss basic concept, GD&T, & Chrysler requirements. (Note: This step may be omitted by the team.) B. 40% Complete Review: 1. 2. 3. 4.
The design is to include all the necessary views & sections to show gage functionally. The design is to incorporate all requirements within these Gage standards All changes or additions the team requires to be made, are to be recorded on page 2 of the design approval form by the Gage Process Engineer. Chrysler AME/ASME Gage Process Engineer will issue the Gage Design Approval Form (GEFM001), with a 40% design review sign-off.
C. 90% / 100% Review: 1. 2. 3.
The completed design is to identify all G, D & T and all checks. Confirm that all changes requested by the team at the 40% design review are completed. All design title blocks are to contain the following information:
a. Chrysler Gage number. b. Part Number & change level. c. Model year & body style. GEDOC001 Rev.13.1 8-2010
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d. Part name. e. Supplier Name. f. Design & Build source name. 4. 5.
All designs to include an Operation Description Sheet (ODS). Chrysler AME/ASME Gage Process Engineer will re-issue the Gage Design Approval Form (GEFM001 xx), and will sign for 100% design approval. (Note: This is the suppliers authorization to begin build.) - Attendance for Chrysler AME/ASME Gage Process Engineer, Product Engineer and Design source representative required to hold design review meeting . - Signature approvals from the Chrysler AME/ASME gage Process Engineer and Product Engineer required.
5. 6. 7. 8.
9.
A. B. C. D.
Chrysler AME/ASME Gage Process Engineer to enter all information into the Chrysler fixture tracking system "EnGage". Gage manufacturer begins build NC cutting fixture to latest Product model. Gage fixture supplier to create a CMM Inspection Program. (Ref. Gage Standard Chapter 7.) Gage Manufacturer to certify gage on CMM. (Ref. Gage Standard Chapter 7.) A. The gage must be dimensionally correct within the acceptable toler ances. (Ref. par. 7.4) B. Provide surface I, J, K vectors. C. Third part audit required upon Gage Process Engineer's request for data verification. Gage fixture supplier to send Inspection Data to the Team Leader. Data must include: Graphic that identifie s all points checked. Nominal dimension, measured dimension, deviation of each point, and surface I, J, K vectors. Part Number. Part Engineering Change (E/C) Level.
10. A designated team member (Chrysler Product Engineer, Dimensional Control Engineer or Gage Process Engineer) will review the inspection data. 11. Gage fixture supplier performs Gage Repeatability & Reproducibility (GR&R) study. A. Refer to Chapter 8.0 of GEDOC001 Gage Standards for GR&R in tent.0 EXCEPTION 8.c.) & 8.e.). [ 1. For APPENDIX A only , a complete GR&R study requires that each part/assembly is loaded, measured and unloaded twice by both operators. (Operator A will randomly load each part / assembly twice. Operator B will load each part / assembly twice in the same order as Operator A. (5-2-2 Method)) 2. For APPENDIX A only , steps are repeated twice for each of the five (5) parts. (Operator A loads / unloads a part / assembly twice and Operator B loads / unloads the same part / assembly twice for each of the five (5) parts. (5-2-2 Method)) A. Team Members must witness t he GR&R study. ( NOTE : A. If required number of parts for a GR&R are
not available,
then a Gage Repeatability (GR) study may be passed.)
B. Passing a GR does not relieve the gage fixture supplier from completing & passing a GR&R study, if requested. 12. Gage fixture supplier to send GR / GR&R data to Team Leader. The GR&R study data must include:
A. B. C. D.
Graphic identifying all points check ed. Nominal dimension, measured dimension, deviation of each point, and surface I, J, K vectors. Part Number. Part Engineering Change (E/C) Level.
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13. A designated team member (Product Engineer, Dimensional Control Engineer or Gage Process Engineer) will review data.
(Note: Upon approval the Gage Process Engineer will issue a Chrysler GR&R Certification Tag, 84-2060021.) 14. Product Supplier to schedule a Gage Buy-Off meeting, inviting all team members. Criteria for Buy-Off are: A. Gage supplier to schedule Gage bu y-off meeting at gage build source, inviting all team members. B. The following items must be available prior to buy-off meeting: 1. Gage Record Book (or PSO book) with required documents. (Ref. Gage Standard Appendix A. Item 14.) 2. Print of the gage design and stock list. 3. CATIA print of the latest product model. 15. Gage fixture supplier creates a Gage Record Book: A. B. C. D. E. F. G. H.
Signed Gage design approval form s. GD&T sheets. Operation Description Sheets (ODS). Inspection data & road map. CMM fixture alignment report. GR / GR&R reports. Tool Inspection Report. Print of the gage design and stock list.
I. CATIA print of the latest product model. J. Third Party Audit Report. (NOTE: These all may be supplied in the Process Sign-Off (PSO) book.) 16. Gage Process Engineer will issue a Gage Buy-off form (GEFM009 xx). 17. Upon final approved certification, Gage Process Engineer will issue a Chrysler Gage Certification Tag, 84-206-0020. (NOTE: The Gage fixture supplier will stamp the required information on the tag, as directed by the Chrysler AME/ASME Gage Process Engineer.) 18. Chrysler AME/ASME Gage Process Engineer finalizes all information into the Chrysler fixture tracking system "EnGage". This consists of the following: A. Input of Certification Data. B. Input of GR&R study report data. 19. The gage fixture is the property of Chrysler. The gage fixture supplier along with the Chrysler Product Engineer is responsible for keeping the gage fixture current to the latest data level by the following tasks: A. All design changes are to be documented on t he gage design and approved by the Chrysler AME/ASME Gage Process Engineer. B. All fixture changes made are to be certified and documented on the fixture attached Chrysler Gage Certification tag, 84-206-0020.
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APPENDIX B. – SOFT and HARD TRIM GAGES
SOFT and HARD TRIM GAGES
B.1.
General a. b.
B.2.
All soft/hard trim Gages to be constructed per current release of AME/ASME Gage Standards and the following guidelines. All suppliers’s to follow procedure's as outlined in Gage Standards Appendix A.
Datums a. b.
Functional datums (where mating part would support) can also be used (Per approval of the Product Team. See Gage Standards Appendix A.) All functional datums must be able to swing clear of part.
Swing Templates
B.3. a. b.
B.4.
Swing templates simulating the mating part are to be used at all significant "Gap" areas. Swing templates can also duplicate as functional datums.
Materials a. b. c.
Recommended build material is die planking. Recommended composite type check fixtures to be made of 60% carbon fiber and 40% epoxy. Build material to be approved by the product team.
Statistical Process Control (SPC)
B.5. a.
Fixed scales may be used for collecting variable data. All variable data collecting devices must be approved by the product team.
Grid Lines
B.6. a. b.
B.7.
Grid lines are to be incorporated in all soft trim tub gages every 200mm (F/A direction only). Grid Lines are to be used for reference only.
Tolerancing Tolerance on all net surfaces shall be +/-0.05; all other fixture details will be +/- 10% of the parts smallest tolerance of the area being checked. b. A tolerance band representing the inner most and outer most dimensions of periphery of part is to be NC machined approximately 1mm deep in all fixtures and painted GREEN. a.
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APPENDIX B2. – S0 (S-Zero)
PROTOTYPE GAGES
B2.1.0 GENERAL Appendix B is not intended to be used for production gages. It is not to be used for SO gages that will be used for production (production pull ahead gages). It is intended for S0 program gages only. B2.1.1 Sourcing Detail check gage will be placed with the soft tool stamping source and be built by a Chrysler approved gage source. B2.1.2 Design A gage concept drawing or CAD m odel shall be submitted to and approved b y the Chrysler Dimensional Control Team prior to the construction of the fixture. The drawing shall define a male or a female representation, and show part orientation. The drawing shall indicate the position of the locators, datums, and bases. Bases shall be called out on whole body grid lines i.e. 100X, 275Y, and 325Z. Rails, pin checks, sight checks, clear surfaces and clamps shall be shown. The clamping sequence shall be identified. Supplier shall include a protected copy of the G, D & T sheets (in a plastic sleeve, three ring binder, etc.) pertaining to the subject part. B2.1.3 Construction Fixtures shall be constructed from a stable material which has minimal dimensional movement due to environmental changes. (Reference Gage Standards Section 6.2, Datums) Fixtures shall allow access for feeler gages in areas identified as feeler check surfaces. Fixtures shall allow access for CMM measurement at locations identified as CMM measurement points. All datum pads shall be constr ucted from brass or cold rolled s teel. Chrysler supplied G, D & T sheets will determine the location of the datums. Unless otherwise specified, a datum size of 25.00 mm square will be considered standard. All net pads shall be net t o the surface of the part exce pt at internal and external a ngles of net pads. Clearance to the described angles shall be incorporated. Locating pins shall be in accordance with the part model GD&T sheet. Trim lines shall be checked in accordance with supplied GD&T sheet. A machined flush check is required for all trim edges. A scribe line check may also be acceptable with approval of the Chrysler Dimensional Control Team. GEDOC001 Rev.13.1 8-2010
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A machined sight check is required for all non-critical holes, sl ots, and cut outs. A stab pin is required f or all critical holes. A scribe pin and bushing may also be acceptable to check critical holes with approval of the Chrysler Dimensional Control Team. A Go/ NoGo pin check is r equired to check all PLP and datum features of size. Drop templates or CMM inspections at a number of points as specified by the Chrysler Dimensional Control Team shall be required to check all mating surfaces. A protected copy of the GD&T sheet (in a plastic sleeve, thre e ring binder, etc.) pert aining to the subject part shall be attached to the fixture. B2.1.4 Certification Surface of the fixture shall be three millimeters (3.00 mm) less than the full part feature surface. Net pads shall only be incorporated at all surface GD&T datum callouts per part model. All fixtures shall under go a repeatability (GR) study prior to part shipm ent to Chrysler. In-process fixtures are the responsibility of the supplier. Chrysler shall provide funding for detail/assembly fixture only. Fixture shall be certified prior to initial part submission and after engineering revisions. B2.1.5 Fixture Certification Tolerances All product math data is as sumed basic (nominal), unless other wise noted. Hold fixture flush checks to +/- 0.20 mm from nominal and within +/- 0.10 mm over length of surface being checked. All net surface and locating pin positional tolerances to m ath model shall be +/- 0.10 mm . Hold 3.0 mm feeler checks to +/- 0.12 mm from nominal and within +/- 0.10 mm over length of surface being checked. Datum locating pin diameter tolerance: + 0.00 /- 0.02 mm. Datum net blocks in the non-critical axis to the math model within +/- 1.0 mm unless otherwise approved by the Chrysler Dimensional Control Team. Pin check location tolerance: +/- 0.10 mm. Sight check tolerance: +/- 0.20 mm. 3.0 mm clear area tolerance: +/- 0.50 mm. B2.1.6 Datum Pad Certification Five (5) points per PLP pad shall be certified by CMM data. The five (5) check points are specified per the G, D & T sheet and are included in the CATIA math model.
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B2.1.7 Pin Certification Pins shall be certified by locating a minimum of three (3) equally spaced points around the diameter of the pin to determine centerline relative to master datums. B2.1.8 Repeatability Certification The gage supplier will contact the Chrysler Dimensional Control Team to oversee a fixture repeatability study (GR) prior to part shipment to Chrysler. B2.1.9 Certification Data The gage supplier shall have certification data containing the component name, component part number, engineering change level, design check point data and measured data (actual) for review by the Chrysler Gage Process Engineer. B2.1.10 Identification Tag A metal tag (84-206-0020) will be supplied by Chrysler Gage Process Engineer and secured to the fixt ure with the part name, part number, engineering change level, certification date and fixture fabricator by the gage supplier.
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APPENDIX C. – OPTICAL / NON-CONTACT GAGING C.0.0 General NON-CONTACT Gaging This appendix standard provides a common NON-CONTACT GAGING standard for use with a dimensional control strategy using non-contact three-dimensional (3-D) measurement technology, for use by Chrysler Engineering Departments except Power Train Engineering. C.0.1 Non-Contact Gaging Requirement This standard gives the non-contact gage engineering source guidance in the design, build, inspection and certification of non-contact gage fixtures and for applying optical measurement to inspect closure assembly product components. C.0.2 QS-9000 Requirement Chrysler supports the Tooling and Equipment (TE) Supplement to QS-9000. This Supplement with the QS-9000 manual, along with the Quality System Assessment, Tooling & Equipment (QSA-TE) and the Reliability & Maintainability Guideline (from SAE & NCMS) will provide the necessary building blocks to construct a quality system that will continually improve the quality, reliability, maintainability and uniform application of optical gages for product components supplied to Chrysler. C.0.3 Deviation to Standard Written request for waiver or deviation from these standards will be reviewed by the Chrysler Gage Process engineer. An approved request will be included along with the standard as supplement part of the specification package. C.0.3.1 Quotation Requirement All quotations shall state th at the non-contact gage fixture being quoted will be designed and built to the specification package and/or Chrysler/Chrysler Group Non-Contact Gaging Standard plus supplements. C.0.4 Authorization Qualifications Authorization of a non-contact gage application shall not constitute a waiver or guarantee of responsibility for any non-contact optical gage measurement equipment purchased by Chrysler Corporation. An approved non-contact gage fixture design does not constitute a certified or functional optical gage. C.0.5 Non-Contact Gaging Environment Non-contact gages must be capable of operating in either a clean environment or manufacturing environment and are not intended to be used as qualifying tools or weld fixtures during product build. C.0.6 Build Sources Chrysler approved/recommended design/build sources shall be used Chrysler Gage Process engineer.
unless prior
approval is given by the
(Reference GEDOC001 Chapter 12.) C.1.0 OPTICAL GAGING Fixture Design C.1.1 General – Design Property (Apply GEDOC001 Chapter 2.1.1.) C.1.2 Non-Contact Gage Design (Apply GEDOC001 Chapter 4.0.) Non-contact gage fixture designs shall be a Computer Aided Design (CAD).
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C.1.2.1 Metric Design (Apply GEDOC001 Chapter 2.1.5.) C.1.3 Kick-off, etc., Meetings Chrysler Gage Process engineer will conduct a design kick-off/ review/ approval meeting with the non-contact gage fixture supplier/ manufacturer prior to the construction of the holding fixture. C.1.3.1 Design Release All non-contact gage designs shall be signed-off by Chrysler Gage Process engineer using the Gage Design Kickoff, Review, and Approval form (GEFM001 xx) supplied by Chrysler Gage Process engineer. C.1.4 GD&T Surfaces (Apply GEDOC001 Chapter 2.1.9.) C.1.5 Material Thickness (Apply GEDOC001 Chapter 2.1.10.) C.1.6 Design Considerations (Apply GEDOC001 Chapter 2.1.11) A. Magnetic nets are acceptable. Clamping requirement det ermined by Gage Process Engineer, as product’s need arises. B. Non-contact gage fixtures shall allow access into areas identified as measurement point and feature checks. Minimum clearance parameters for a specific non-contact optical measurement equipment type will be detailed in the program’s specification documentation C. If there are NO locating holes, other selected datums will be agreed upon with Gage Process Engineer. C.1.7 Design Layout Requirements: (Apply GEDOC001 Chapter 2.2.1.) C.1.8 Alignment Features (Apply GEDOC001 Chapter 2.2.2.) A. Common alignment m ethods include using 3-2-1, hole, slot and surface points, and alignm ent by edge points and surface points. The fixture should allow measurement access to these critical features. C.1.9 Part Orientation The non-contact gage fixture design shall default to body position for part orientation. Orientation in an out-ofbody position is by Gage process engineer approval only. C.1.10 Base Call out Bases shall be aligned to whole body grid lines i.e. 100X, 275Y, and 325Z. C.2.0 Non-Contact GAGING Fixture Construction
(Apply GEDOC001 Chapter 6.0.)
C.2.1 Base Fixture base should be made of welded tubular construction or 1/2” aluminum tooling plate. C.2.2 Gage Materials Non-contact gage fixtures shall be constructed from NAAMS components.
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C.2.6 Gage Pins Locating pins shall be in accordance with the part model GD&T sheet. Go / No-Go size pins are required for PLP hole inspection, unless otherwise specified by Chrysler Gage Process engineer for program. C.2.6 Clamping (Apply GEDOC001 Chapter 6.3.) Apply Magnetic Nets which m ust have a holding force of 20 pounds minim um. C.2.7 Operation Description Sheets (ODS) (Apply GEDOC001 Chapter 6.14.) Operation Description Sheets required with each non-contact gage fixture describe the initial set-up of checking fixture, the loading of the part, the sequence of operation and clear instructions for all feature inspections. C.2.8 Color Consideration Improved optical contrast for a non-contact gage fixture must be considered in design and build. Black matte fixture surfaces reduce reflectivity and improve imaging. C.3.0 Non-Contact GAGING Fixture Certification C.3.1 CMM Inspection Data of Optical Gage Fixture The non-contact gage fixture supplier shall verify CMM inspection data to the latest product CATIA model. A second party (not the author of the CMM check program) shall perform the verification. This can be done internally by the gage manufacturer or by an outside third party source. (Reference GEDOC001 Chapter 7.) C.3.2 Requirements for Certification & Calibration Non-contact gage fixture supplier shall adhere to the requirements for certification and calibration as stated in Element 4.10, Inspection and Testing and Element 4.11, Control of Inspection, Measuring, and Test Equipment in the QS-9000 manual. C.3.3 Inspection Point Spacing (Apply GEDOC001 Chapter 7.2.) C.3.4 Generating Inspection Points (Apply GEDOC001 Chapter 7.2.3; F. from GEDOC001 Chapter 7.2.3 for this Optical Gage fixture.).
OMITTING Items
B., C., D., E., &
C.3.5 Certification (Apply GEDOC001 Chapter 7.3.) C.3.6 Tolerances for Checking Fixtures (Apply GEDOC001 Chapter 7.4.1. Apply to features callout) C.3.7 Gage Repeatability/Gage Repeatability and Reproducibility (GR/GR&R) Apply non-contact optical m easurement system equipment as alternate method of collecting part data for GR study, 1 operator with same part ten (10) times, and GR&R study, 2 operators with same part five (5) times, using non-contact gage fixture for product support. (Reference GEDOC001 Chapter 8.0. for data criteria.)
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C.4.0 Non-Contact GAGING Fixture Buy-off and Shipping C.4.1 Buy-off Form (Apply GEDOC001 Chapter 9.1) C.4.2 Document Required at Buy-Off 1. Current GD&T sheets from design file. 2. Operation Description Sheets (ODS). 3. CMM Calibration certification. 4. Fixture Inspection Data results. (Also, sent by CATIA.) 5. GR/GR&R study report. All supplier generated docum entation to be electronically delivered to the Gage Process engineer in a pr intable format. C.4.3 Fixture Data A plastic envelope shall be perm anently attached to the gage fixture. The envelope will contain the OD S (covered in plastic), the part model GD&T sheet(s), and the certification report. This documentation shall be part of the fixture at all times. C.4.4 Gage Delivery Non-contact gage fixture suppliers are responsible to deliver the gage fixture to the location of the final user in the same condition as recorded at the time of non-contact gage fixture buy-off. C.5.0 OPTICAL GAGING Application for Product Validation C.5.1 Validation Criteria Follow MQGR (90-Series) Procedure, 90-67xx, Dimensional Buy-Off Procedure for Upgrading Stamped Parts During Die/Tool Development, supplied by Die or Tool Process engineer, as specified at issue time of purchase order. In each stage, the responsible non-contact optical measurement system equipment REPORT supplier shall verify in written report, in conjunction with the Buyoff Team, the level of quality as compared to each interim target, analyze causes for non-conformance, determine appropriate counter measures and submit results to Chrysler Process engineer. Slightly different target quality requirements may be established to recognize the distinction among closure panels and body-in-white/dimensional parts as well as the stages of development.
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APPENDIX D. – S0 GENERAL GAGE
D.0.0 S0 General This appendix standard provides a common S0 gage standard used by all Chrysler Engineering Departments except Power Train Engineering. References in this Appendix D to other chapters of GEDOC001 that contain text of “... Chrysler Gage Process Engineers…” are to be replaced with “… Chrysler Dimensional Control Team …” for items pertaining to Appendix D. D.0.1 S0 Gage Requirements This standard gives the S0 gage source guidance in the requirements for design, build, inspection and certification of Chrysler S0 gages to check all body-in-white, trim and chassis components. These Chrysler Gage Standards shall be adhered to for all S0 gage fixtures. D.0.2 QS-9000 Requirement Chrysler supports the Tooling and Equipment (TE) Supplement to QS-9000. This Supplement with the QS-9000 manual, along with the Quality System Assessment, Tooling & Equipment (QSA-TE) and the Reliability & Maintainability Guideline (from SAE & NCMS) will provide the necessary building blocks to construct a quality system that will continually improve the quality, reliability, maintainability and durability of the S0 gages supplied to Chrysler. S0 Gage suppliers to Chrysler shall comply with the requirements in the TE Supplement to QS-9000. D.0.3 Deviation to Standard Deviations from these standards may be granted from the Chrysler Dimensional Control Team in writing and would be included with the standard as part of a specification package. D.0.3.1 Quotation Requirement All quotations shall then sta te that the S0 gage fixture being quoted will be designed and built t o the specification package and/or Chrysler S0 Gage Standard. D.0.4 Approval Qualifications S0 Design approval shall not constitute a waiver or guarantee of responsibility for any S0 gage purchased by Chrysler Corporation. An approved S0 gage design does not constitute a certified or functional S0 gage. D.0.5 S0 Gage Environment S0 gages must be used in a clean environment and cannot be used as qualifying tools or weld fixtures during the S0 build. D.0.6 Build Sources Chrysler approved/recommended design/build sources shall be used Chrysler Dimensional Control Team . (Reference GEDOC001 Chapter 12.)
unless prior
approval is given by the
D.1.0 S0 Gage Design D.1.1 General – Design Property (Apply GEDOC001 Chapter 2.1.1.) D.1.2 S0 Gage Design S0 gage designs shall be a Computer Aided Design (CAD).
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D.1.2.1 Metric Design (Apply GEDOC001 Chapter 2.1.5.) D.1.3 Kick-off, etc., Meetings Chrysler Dimensional Control Team will conduct a design kick-off/ review/ approval meeting with the S0 gage supplier/ manufacturer prior to the construction of the fixture. D.1.3.1 Design Release All S0 gage designs shall be signed-of f by Chrysler Dimensional Control Team using the Gage Design Kick -off, Review, and Approval form (GEFM001 xx) supplied by CHRYSLER Dimensional Control Team. D.1.4 GD&T Surfaces (Apply GEDOC001 Chapter 2.1.9.) D.1.5 Material Thickness (Apply GEDOC001 Chapter 2.1.10.) D.1.6 Design Considerations (Apply GEDOC001 Chapter 2.1.11;
OMITTING items
C. & D.)
A. Operator and maintenance personnel safety. B. Simplicity in operator part loading without restrictions or interferences. D.1.7 Design Layout Requirements: Base Orientation (Apply GEDOC001 Chapter 2.2.1.) D.1.8 Alignment Features (Apply GEDOC001 Chapter 2.2.2.) D.1.9 Part Orientation The S0 design shall define a male or a female representation, and show part orientation. The drawing shall indicate the position of the locators, datums, and bases. D.1.10 Base Call out Bases shall be called out on whole body grid lines i.e. 100X, 275Y, and 325Z. Rails, pin checks, sight checks, clear surfaces and clamps shall be shown. D.1.11 Clamping Sequence The clamping sequence shall be identified.
D.2.0 S0 Gage Construction D.2.1 Base S0 Fixture Bases should be made of cast aluminum or 1” aluminum tooling plate. This is required to avoid warping. The fixture base size should be approximately 250 mm larger than the periphery of the part. D.2.2 Gage Materials S0 Gages shall be constructed from red or gray REN plank. They must be handled, used and stored in a manor appropriate for precision tools.
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A
PART SECTION
A 3.0 FEELER
CHECKING FIXTURE
Figure D.2.A D.2.3 Feeler Check S0 Fixtures shall allow access for feeler gages in areas identified as feeler check surfaces. The feeler check surface should be CNC cut exactly 3.0mm from the product surface. This surface should extend around the entire periphery of the part. If the profile tolerance is equal to or larger that +/- 3.0 mm, the surface should be CNC cut to 6.0 mm from the product surface. (See figure D.2.A.) D.2.4 CMM Access S0 Fixtures shall allow access for CMM measurement at locations identified as CMM measurement points. D.2.5 Datum Pad All datum pads shall be constr ucted from 3.0 mm brass or cold r olled steel. Chrysler supplied GD&T sheets will determine the location of the datums. These net pads are screwed to the fixture plank. D.2.5.1 Datum Pad Clamp Every datum pad will have a clamp, unless otherwise specified. Clamps will NOT be attached to REN plank. All clamps must fasten to the aluminum base. D.2.5.2 Datum Size Unless otherwise specified, a datum size of 25.00 mm square will be considered standard. D.2.5.3 Net Pads All net pads shall be net t o the surface of the part exce pt at internal and external a ngles of net pads. Clearance to the described angles shall be incorporated. D.2.6 Gage Pins Locating pins shall be in accordance with the part model GD&T sheet.
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D.2.6.1 Locating Holes (Apply GEDOC001 Chapter 6.4.3. See GEDOC001 Figure 6.4a D.2.6.2 Pin Bushings All S0 gage pins shall slip f it into standard size bushings. The bushings shall be press fit in n ominal position in the gage. Lock-Tite material is not allowed. D.2.6.3 PLP pins’ size and configuration (Refer to GEDOC001 Figure 6.4c, 6.4d.)
D.2.6.4 Holes with Positional Tolerance 1.0mm or less (Apply GEDOC001 Chapter 6.4.2.) D.2.6.5 Holes with Size Tolerance 0.25mm or less (Apply GEDOC001 Chapter 6.4.4. See GEDOC001 Figure 6.4a) D.2.6.6 Checking Hole Locations (Apply GEDOC001 Chapter 6.4.5 See GEDOC001 Figure 6.4.a D.2.6.7 Gage Pin Examples: (See GEDOC001 Figure 6.4a through 6.4f.) D.2.7 Trim Check Trim lines shall be checked in accordance with supplied GD&T sheet. A machined flush check is required at all trim edges. (See Figure D.2.B.) A scribe line check may also be acceptable with approval of the Chrysler Dimensional Control Team.
A
PERIPERY CUT AT FLANGE
A
PART SECTION
3.0 FEELER
CHECKING FIXTURE
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Figure D.2.B D.2.8 Sight Check A machined sight check is required for all non-critical holes, sl ots, and cutouts. A scribe pin and bushing may also be acceptable to check critical holes with approval of the Chrysler Dimensional Control Team. For the scribe pin and bushing configurations, refer to GEDOC001 Figure 6.4b. D.2.9 Drop Template Drop templates or CMM inspections at a number of points as specified by the Chrysler Dimensional Control Team shall be required to check all mating surfaces. D.2.10 Operation Description Sheets (ODS) Operation Description Sheets describe the initial set-up of checking fixture, the loading of the part, the sequence of clamping operation and clear instructions for all feature inspections.
D.3.0 S0 Gage Certification D.3.1 CMM Inspection Data The S0 Gage Supplier shall verify CMM inspection data to the latest product CATIA model. A second party (not the author of the CMM check program) shall perform the verification. This can be done internally by the S0 Gage Manufacturer or by an outside third party source. (Reference GEDOC001 Chapter 12.) D.3.2 Requirements for Certification & Calibration S0 Gage Supplier shall adhere to the requirements for certification and calibration as stated in Element 4.10, Inspection and Testing and Element 4.11, Control of Inspection, Measuring, and Test Equipment in the QS-9000 manual. D.3.3 Inspection Point Spacing (Apply GEDOC001 Chapter 7.2.2.) D.3.4 Generating Inspection Points (Apply GEDOC001 Chapter 7.2.3; OMITTING Items B. B. & & C. for S0 Gage fixtures.) A. Net A. Net Blocks - generate a minimum a minimum five five (5) points; one (1) at each corner and center. (OMIT Items Items B. B. & & C. C. from from GEDOC001 Chapter 7.2.3 for S0 Gage fixtures.) D. Template D. Template (contour edge) - make two (2) rows of data; 1mm from each side of blade. E. Sight E. Sight Check (irregular shaped hole) - make one (1) row of data; 3mm from top surface. F. Sight F. Sight Check (round or slot holes) - make one (1) row of data; 3mm from top surface to check size and location, if it's a slot check the angle. Project nominal to part surface. G. Plug G. Plug Check (round or slotted holes) - make two (2) depths of cylinder check points to determine size and location. Check the angle normal to surface if it's a slot, check the angle. Project nominal to part surface. D.3.5 Gage certified (Apply GEDOC001 Chapter 7.3.1.)
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D.3.6 Build dimensionally correct (Apply GEDOC001 Chapter 7.3.3.) D.3.7 Supplier items (Apply GEDOC001 Chapter 7.3.4.) D.3.8 Approved certification tag (Apply GEDOC001 Chapter 7.3.5.) D.3.9 S0 Supplier CMM Data All S0 Gage suppliers must suppliers must be capable of sending CMM data to data to Chrysler SPC database through web through web based CMM upload interface. D.3.10 Certification inspection data (Apply GEDOC001 Chapter 7.3.7.) D.3.11 Tolerances for Checking Fixtures (Apply GEDOC001 Chapter 7.4.1.)
D.4.0 S0 Gage Buy-off and Shipping D.4.1 Buy-off Form (Apply GEDOC001 Chapter 9.1.) D.4.2 Document Required at Buy-Off 1. Design Kick-Off, Review and Final Approval (Form GEFM001 xx, supplied by CHRYSLER Dimensional Control Team). 2. G,D&T data sheets from design file, if applicable. 3. Operation Description Sheets (ODS). ODS). 4. CMM Calibration certification. 5. Fixture Inspection Data results. (Also, sent by CATIA.) 6. GR study reports (Form GEFM010xxGR, GEFM010xxGR , supplied by CHRYSLER Dimensional Control Team ). detail process of GR in Appendix 11.6 of CHRYSLER Dimensional Quality Plan.
Refer to the
7. Gage 7. Gage Buy-Off Form (GEFM009 (GEFM009 xx, supplied by CHRYSLER Dimensional Control Team ). D.4.3 Fixture Data A plastic envelope shall be perm anently attached to the S0 gage fixtur e. The envelope will contain th e graphic sketch showing the diamond part and its characteristics, the ODS (covered in plastic), the part model GD&T sheet(s), if applicable, applicable, and the certification report. This documentation shall be part of the S0 Gage record at all times. D.4.4 S0 Gage Delivery S0 Gage suppliers are responsible to deliver the S0 gage to the location of the final users with the same condition as recorded at the time of S0 Gage fixture Buy-off.
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APPENDIX E. Meisterbock E.1.0 Definition A holding fixture, designed with m ultiple GD&T strategies, used for holding several parts and/or assemblies. This fixture has known ‘X’, ‘Y’, and ‘Z’ tooling spheres for the purpose of setting up measuring alignments. It also is equipped with adjustable locators and spacers, for the purpose of moving parts and assemblies away from design position, for root cause analysis. E2.0 Meisterbock Team The Chrysler Meisterbock Team consists Team consists of: 1. Product Releasing Engineer (Product Team Leader or his designate.) 2. Supplier’s Gage Engineer. 3. Program Dimensional Lead (Or his his designate.) 4. Metrology Systems Lead (Or his his designate.) 5. Chrysler Gage Engineer E2.1 Meisterbock Team Tasks 1.
The Metrology Systems Lead picks a ‘Design and Construct’ supplier from the recommended list (Gage Standards Chapter 12) to design and construct the fixture.
2.
Supplier’s Gage Engineer develops a Timing Chart for the design and construction of the Meisterbock, along with developing and managing an open issues list. The timing chart will be stored in ProjectWise.
3.
The Program Dimensional Lead, with the Product Team Leader, will develop and maintain a CAD file directory. This directory will contain the currently released CAD product files for the design and construction of the Meisterbock. This data will be transferred to the Supplier after ‘CAD- Step 3’ and individual files will be re- sent if any CAD product files are updated.
4. The Chrysler Gage Engineer will schedule the required design review and buyoff meetings. E3.0 Buyoff Requirements 1. A list of part numbers and Engineering Change (E/C) levels for each part. (This list will match the currently provided list referenced in APPENDIX E.2.2; Step 3 of this appendix.) This list will be stored in ProjectWise 2. At the Buyoff meeting, the Supplier will be required to provide: i) Signed Fixture Design review forms ii) Inspection data and graphical roadmap. iii) Fixture GD&T sheets. iv) Operation Description Sheets or equivalent. v) Print of Fixture design and stock list. vi) Fixture 3D CAD models 3. GR / GR&R are not required for a Meisterbock
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