2000 TOYOTA CAMRY dimensions

APPENDIX ± CAMRY
ItemArea
Body Type
Vehicle Grade
Model Code
OverallLength mm (in.)
Width mm (in.)
Height* mm (in.)
Wheel Base mm (in.)
TreadFront mm (in.)
Rear mm (in.)
Effective Head RoomFront mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.) Effective Leg Room
Shoulder Room
Overhang
Min. Running Ground Clearance mm (in.)
Angle of Approach degrees
Angle of Departure degrees
Curb Weight
Gross Vehicle WeightFront kg (lb)
Rear kg (lb)
Total kg (lb)
Front kg (lb)
Rear kg (lb)
Total kg (lb)
Fuel Tank Capacity (US.gal., Imp.gal)
Luggage Compartment Capacity m
3 (cu.ft.)
Max. Speed km / h (mph)
Max. Cruising Speed km / h (mph)
Acceleration
Max. Permissible
Speed
Turning Diameter
(Outside Front)0 to 100 km / h sec.
0 to 400 m sec.
1st Gear km / h (mph)
2nd Gear km / h (mph)
3rd Gear km / h (mph)
4th Gear km / h (mph)
Wall to Wall m (ft.)
Curb to Curb m (ft.)
Engine Type
Valve Mechanism
Bore x Stroke mm (in.)
Displacement cm
3 (cu.in.)
Compression Ratio
Carburetor Type
Research Octane No. RON
Max. Output (SAE-NET) kW / rpm (HP@rpm)
Max. Torque (SAE-NET) N
.m / rpm (lb-ft@rpm)
Battery Capacity (5HR) Voltage & Amp. hr.
Generator Output Watts
Starter Output kW
Clutch Type
Transaxle Type
Transmission Gear
Ratio
Counter Gear Ratio
Differential Gear Ratio (Final)
Brake Type
Parking Brake Type
Brake Booster Type and Size in.
Proportioning Valve Type
Suspension Type
Stabilizer Bar
Steering Gear Type
Steering Gear Ratio (Overall)
Power Steering TypeIn First
In Second
In Third
In Fourth
In Fifth
In Reverse
Front
Rear
Front
Rear
Front
Rear
5
10
15
20
25
30
35
40
45
50
55
60
65
70
Major Dimensions & Vehicle Weights Performance Engine Engine
Chassis
Electrical
U.S.A.
CE
LE 4-Door Sedan
XLE
11 2

CAMRY
SXV20L-CEMDKA SXV20L-CEPDKA SXV20L-A(C)EPNKA SXV20L-A(C)EPGKA
4790 (188.6)



1780 (70.1)

1785 (70.3)
1415 (55.7)



2670 (105.1)



1545 (60.8)



1520 (59.8)



980 (38.6), 950 (37.4)*
1



940 (37.0), 914 (36.0)*1



1102 (43.4)



901 (35.5)



1427 (56.2)



1425 (56.1)



975 (38.4)



1145 (45.1)



130 (5.1)



16



16



810 (1786) 835 (1841) 865 (1907)*
2, 875 (1929)*3870 (1918)*2, 875 (1929)*3
550 (1213) 545 (1202) 540 (1191)*2, 550 (1213)*3545 (1202)*2, 555 (1224)*3
1360 (2999) 1380 (3043) 1405 (3097)*2, 1425 (3142)*31415 (3120)*2, 1430 (3153)*3
965 (2130)
995 (2195)

845 (1860)
900 (1985)

1810 (3990)
1895 (4180)

70 (18.5, 15.4)



0.399 (14.1)



180 (112)



ÐÐÐÐ
ÐÐÐÐ
ÐÐÐÐ
52 (32) 69 (43)


93 (58) 125 (78)


147 (91) Ð Ð Ð
ÐÐÐÐ
11.5 (37.7)



11.0 (36.1)



5S-FE



16-Valve, DOHC



87.0 x 91.0 (3.43 x 3.58)



2164 (132.0)



9.5 : 1



SFI



91



101 / 5200(136@5200),99 / 5200(133@5200)*4


203 / 4400(150@4400),201 / 4400(148@4400)*4



12 - 55, 12 - 48*5



960



1.4



Dry, Single Plate Ð Ð Ð
S51 A140E


3.538 2.810


1.960 1.549


1.250 1.000


0.945 0.706


0.731 Ð Ð Ð
3.153 2.296


Ð 0.945


3.944



Ventilated Disc



L.T. Drum



Drum



Tandem 8º + 9º
Tandem 8.5º + 8.5º*
2, 8º + 9º*3

Dual-P Valve



MacPherson Strut



MacPherson Strut



STD



STD



Rack and Pinion



17.4 : 1



Integral Type



*: Unladed Vehicle *
3: Produced by TMMK
*1: With Moor Roof *4: California Specification Model
*2: Produced by TMC *5: Without Cold Area Specification Model

APPENDIX ± CAMRY
ItemArea
Body Type
Vehicle Grade
Model Code
OverallLength mm (in.)
Width mm (in.)
Height* mm (in.)
Wheel Base mm (in.)
TreadFront mm (in.)
Rear mm (in.)
Effective Head RoomFront mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.) Effective Leg Room
Shoulder Room
Overhang
Min. Running Ground Clearance mm (in.)
Angle of Approach degrees
Angle of Departure degrees
Curb Weight
Gross Vehicle WeightFront kg (lb)
Rear kg (lb)
Total kg (lb)
Front kg (lb)
Rear kg (lb)
Total kg (lb)
Fuel Tank Capacity (US.gal., Imp.gal)
Luggage Compartment Capacity m
3 (cu.ft.)
Max. Speed km / h (mph)
Max. Cruising Speed km / h (mph)
Acceleration
Max. Permissible
Speed
Turning Diameter
(Outside Front)0 to 100 km / h sec.
0 to 400 m sec.
1st Gear km / h (mph)
2nd Gear km / h (mph)
3rd Gear km / h (mph)
4th Gear km / h (mph)
Wall to Wall m (ft.)
Curb to Curb m (ft.)
Engine Type
Valve Mechanism
Bore x Stroke mm (in.)
Displacement cm
3 (cu.in.)
Compression Ratio
Carburetor Type
Research Octane No. RON
Max. Output (SAE-NET) kW / rpm (HP@rpm)
Max. Torque (SAE-NET) N
.m / rpm (lb-ft@rpm)
Battery Capacity (5HR) Voltage & Amp. hr.
Generator Output Watts
Starter Output kW
Clutch Type
Transaxle Type
Transmission Gear
Ratio
Counter Gear Ratio
Differential Gear Ratio (Final)
Brake Type
Parking Brake Type
Brake Booster Type and Size in.
Proportioning Valve Type
Suspension Type
Stabilizer Bar
Steering Gear Type
Steering Gear Ratio (Overall)
Power Steering TypeIn First
In Second
In Third
In Fourth
In Fifth
In Reverse
Front
Rear
Front
Rear
Front
Rear
Major Dimensions & Vehicle Weights Performance Engine Engine
Chassis
Electrical
Canada
XLE 4-Door Sedan
CE
5
10
15
20
25
30
35
40
45
50
55
60
65
70 U.S.A.
LE 4-Door Sedan
11 4
MCV20L-AEPDKK MCV20L-AEPGKK SXV23L-AEPNCA
4790 (188.6)


1780 (70.1) 1785 (70.3) 1780 (70.1)
1420 (55.9)


2670 (105.1)


1545 (60.8)


1520 (59.8)


980 (38.6), 950 (37.4)*
1
980 (38.6)
940 (37.0), 914 (36.0)*1
940 (37.0)
1102 (43.4)


901 (35.5)


1427 (56.2)


1425 (56.1)


975 (38.4)


1145 (45.1)


135 (5.3)
130 (5.1)
16
16
16
16
860 (1896) 920 (2028) 860 (1896)
540 (1190) 545 (1202) 595 (1312)
1400 (3086) 1465 (3230) 1455 (3208)
1040 (2290)
970 (2140)
900 (1985)
950 (2095)
1940 (4275)
1920 (4235)
70 (18.5, 15.4)

135 (35.7, 29.2)*4, 43 (11.4, 9.5)*5
0.399 (14.1)
0.332 m3 *6, 8.921 ft3 *7
210 (130)
180 (112)
Ð
Ð
ÐÐÐ
ÐÐÐ
70 (43)
66 (41)
127 (79)
119 (74)
ÐÐÐ
ÐÐÐ
11.9 (39.0)


11.4 (37.4)


1MZ-FE
5S-FNE
24-Valve, DOHC
16-Valve, DOHC
87.5 x 83.0 (3.44 x 3.27)
87.0 x 91.0 (3.43 x 3.58)
2995 (182.7)
2164 (132.0)
10.5 : 1
11.0 : 1
SFI


91 or higher
130
145 / 5200 (194@5200)
88 / 5200 (118@5200)
283 / 4400 (209@4400)
178 / 2400 (131@2400)
12 - 55


960


1.4


ÐÐÐ
A541E
A140E
2.810
2.810
1.549
1.549
1.000
1.000
0.735
0.706
ÐÐÐ
2.296




0.945
3.933
4.176
Ventilated Disc


Solid Disc
L.T. Drum
Drum


Tandem 8º + 9º
Tandem 8.5º + 8.5º*2, 8º + 9º*3Tandem 8º + 9º
Dual-P Valve


MacPherson Strut


MacPherson Strut


STD


STD


Rack and Pinion


17.4 : 1


Integral Type


*: Unladed Vehicle *
4: Water Volume
*1: With Moon Roof *5: Equivalent Gasoline Capacity
*2: Produced by TMC *6: VDA
*3: Produced by TMMK *7: SAE Suitcase

CAMRY - MAJOR TECHNICAL SPECIFICATIONS
1st Gear km / h (mph) Angle of Approach degrees
Angle of Departure degrees
ItemArea
Body Type
Vehicle Grade
Model Code
OverallLength mm (in.)
Width mm (in.)
Height*
1mm (in.)
Wheel Base mm (in.)
TreadFront mm (in.)
Rear mm (in.)
Effective Head RoomFront mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.) Effective Leg Room
Shoulder Room
Overhang
Min. Running Ground Clearance mm (in.)
Curb Weight
Gross Vehicle WeightFront kg (lb)
Rear kg (lb)
Total kg (lb)
Front kg (lb)
Rear kg (lb)
Total kg (lb)
Fuel Tank Capacity (US.gal., lmp.gal)
Luggage Compartment Capacity m
3 (cu.ft.)
Max. Speed km / h (mph)
Max. Cruising Speed km / h (mph)
Max. Permissible
Speed
Turning Diameter
(Outside Front)2nd Gear km / h (mph)
3rd Gear km / h (mph)
4th Gear km / h (mph)
Wall to Wall m (ft.)
Curb to Curb m (ft.)
Engine Type
Valve Mechanism
Bore x Stroke mm (in.)
Displacement cm
3 (cu.in.)
Compression Ratio
Carburetor Type
Research Octane No. RON
Max. Output (SAE-NET) kW / rpm (HP@rpm)
Max. Torque (SAE-NET) N
.m / rpm (lb-ft@rpm)
Battery Capacity (5HR) Voltage & Amp. hr.
Generator Output Watts
Starter Output kW
Clutch Type
Transaxle Type
Transmission Gear
Ratio
Differential Gear Ratio (Final)
Brake Type
Parking Brake Type
Brake Booster Type and Size in.
Proportioning Valve Type
Suspension Type
Stabilizer Bar
Steering Gear Type
Steering Gear Ratio (Overall)
Power Steering TypeIn First
In Second
In Third
In Fourth
In Fifth
In Reverse
Front
Rear
Front
Rear
Front
Rear
5
10
15
20
25
30
35
40
45
50
55
60
65
70
Major Dimensions & Vehicle Weights Performance Engine Engine
Chassis
Electrical
U.S.A.
4-Door Sedan
CEXLE
0 to 100 mph sec.
0 to 400 m sec. Acceleration
Counter Gear RatioLE
4
MAJOR TECHNICAL SPECIFICATIONS
SXV20L-CEMDKA SXV20L-CEPDKA SXV20L-A(C)EPNKA SXV20L-A(C)EPGKA
4790 (188.6)



1780 (70.1)

1785 (70.3)
1415 (55.7)



2670 (105.1)



1545 (60.8)



1520 (59.8)



980 (38.6), 950 (37.4)*
2



940 (37.0), 914 (36.0)*2



1102 (43.4)



901 (35.5)



1427 (56.2)



1425 (56.1)



975 (38.4)



1145 (45.1)



130 (5.1)



16




16




810 (1786) 835 (1841) 865 (1907)*
3, 875 (1929)*4870 (1918)*3, 875 (1929)*4
550 (1213) 545 (1202) 540 (1191)*3, 550 (1213)*4545 (1202)*3, 555 (1224)*4
1360 (2999) 1380 (3043) 1405 (3097)*3, 1425 (3142)*41415 (3120)*3, 1430 (3153)*4
965 (2130)
995 (2195)

845 (1860)
900 (1985)

1810 (3990)
1895 (4180)

70 (18.5, 15.4)



0.399 (14.1)



180 (112)



ÐÐÐÐ
ÐÐÐÐ
ÐÐÐÐ
52 (32) 69 (43)


95 (58) 125 (78)


147 (91) Ð Ð Ð
ÐÐÐÐ
11.5 (37.7)



11.0 (36.1)



5S-FE



16-Valve, DOHC



87.0 x 91.0 (3.43 x 3.58)



2164 (132.0)



9.5 : 1



SFI



91 or Higher



99 / 5200 (133@5200)



201 / 4400 (148@4400)



12-55, 12-48*
5



960



1.4



Dry, Single Plate Ð Ð Ð
S51 A140E


3.538 2.810


1.960 1.549


1.250 1.000


0.945 0.706


0.731 Ð Ð Ð
3.153 2.296


Ð 0.945


3.944



Ventilated Disc



L.T. Drum



Drum



Tandem 8º + 9º
Tandem 8.5º + 8.5º*
3, 8º + 9º*4

Dual-P Valve



MacPherson Strut



MacPherson Strut



STD



STD



Rack and Pinion



17.4 : 1



Integral Type



*
1: Unladed Vehicle *4: Produced by TMMK
*2: With Moor Roof *5: Without Cold Area Specification Model
*3: Produced by TMC

CAMRY - MAJOR TECHNICAL SPECIFICATIONS
1st Gear km / h (mph) Angle of Approach degrees
Angle of Departure degrees
ItemArea
Body Type
Vehicle Grade
Model Code
OverallLength mm (in.)
Width mm (in.)
Height*
1mm (in.)
Wheel Base mm (in.)
TreadFront mm (in.)
Rear mm (in.)
Effective Head RoomFront mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.) Effective Leg Room
Shoulder Room
Overhang
Min. Running Ground Clearance mm (in.)
Curb Weight
Gross Vehicle WeightFront kg (lb)
Rear kg (lb)
Total kg (lb)
Front kg (lb)
Rear kg (lb)
Total kg (lb)
Fuel Tank Capacity (US.gal., lmp.gal)
Luggage Compartment Capacity m
3 (cu.ft.)
Max. Speed km / h (mph)
Max. Cruising Speed km / h (mph)
Max. Permissible
Speed
Turning Diameter
(Outside Front)2nd Gear km / h (mph)
3rd Gear km / h (mph)
4th Gear km / h (mph)
Wall to Wall m (ft.)
Curb to Curb m (ft.)
Engine Type
Valve Mechanism
Bore x Stroke mm (in.)
Displacement cm
3 (cu.in.)
Compression Ratio
Carburetor Type
Research Octane No. RON
Max. Output (SAE-NET) kW / rpm (HP@rpm)
Max. Torque (SAE-NET) N
.m / rpm (lb-ft@rpm)
Battery Capacity (5HR) Voltage & Amp. hr.
Generator Output Watts
Starter Output kW
Clutch Type
Transaxle Type
Transmission Gear
Ratio
Differential Gear Ratio (Final)
Brake Type
Parking Brake Type
Brake Booster Type and Size in.
Proportioning Valve Type
Suspension Type
Stabilizer Bar
Steering Gear Type
Steering Gear Ratio (Overall)
Power Steering TypeIn First
In Second
In Third
In Fourth
In Fifth
In Reverse
Front
Rear
Front
Rear
Front
Rear
5
10
15
20
25
30
35
40
45
50
55
60
65
70
Major Dimensions & Vehicle Weights Performance Engine Engine
Chassis
Electrical
Canada
4-Door Sedan
CE LE
0 to 100 km / h sec.
0 to 400 m sec. Acceleration
Counter Gear RatioXLE
U.S.A.
6
MCV20L-AEPDKK MCV20L-AEPGKK SXV23L-AEPNCA
4790 (188.6)


1780 (70.1) 1785 (70.3) 1780 (70.1)
1420 (55.9)


2670 (105.1)


1545 (60.8)


1520 (59.8)


980 (38.6), 950 (37.4)*
2
980 (38.6)
940 (37.0), 914 (36.0)*2
940 (37.0)
1102 (43.4)


901 (35.5)


1427 (56.2)


1425 (56.1)


975 (38.4)


1145 (45.1)


135 (5.3)
130 (5.1)
16

16

16

16

860 (1896) 920 (2028) 860 (1896)
540 (1190) 545 (1202) 595 (1312)
1400 (3086) 1465 (3230) 1455 (3208)
1040 (2290)
970 (2140)
900 (1985)
950 (2095)
1940 (4275)
1920 (4235)
70 (18.5, 15.4)

135 (35.7, 29.2)*5, 43 (11.4, 9.5)*6
0.399 (14.1)
0.332 m3 *7, 8.921 ft3 *8
210 (130)
180 (112)
Ð
Ð
ÐÐÐ
ÐÐÐ
70 (43)
66 (41)
127 (79)
119 (74)
ÐÐÐ
ÐÐÐ
11.9 (39.0)


11.4 (37.4)


1MZ-FE
5S-FNE
24-Valve, DOHC
16-Valve, DOHC
87.5 x 83.0 (3.44 x 3.27)
87.0 x 91.0 (3.43 x 3.58)
2995 (182.7)
2164 (132.0)
10.5 : 1
11.0 : 1
SFI


91 or higher
130
143 / 5200 (192@5200)
88 / 5200 (118@5200)
281 / 4400 (207@4400)
178 / 2400 (131@2400)
12-55


960


1.4


ÐÐÐ
A541E
A140E
2.810
2.810
1.549
1.549
1.000
1.000
0.735
0.706
ÐÐÐ
2.296




0.945
3.933
4.176
Ventilated Disc


Solid Disc
L.T. Drum
Drum


Tandem 8.5º + 8.5º


Dual-P Valve


MacPherson Strut


MacPherson Strut


STD


STD


Rack and Pinion


17.4 : 1


Integral Type


*
1: Unladed Vehicle *5: Water Volume
*2: With Moon Roof *6: Equivalent Gasoline Capacity
*3: Produced by TMC *7: VDA
*4: Produced by TMMK *8: SAE Suitcase

2. CALCULATE AMOUNT TO BORE CYLINDERS
(a) Using a micrometer, measure the piston diameter at
right angles to the piston pin center line, 23.5 mm
(0.925 in.) from the piston head.
(b) Calculate the amount of each cylinder is to be rebored
as follows:
Size to be rebored = P + C±H
P = Piston diameter
C = Piston clearance
0.14 ± 0.18 mm (0.0055 ± 0.0063 in.)
H = Allowance for honing
0.20 mm (0.0008 in.) or less
3. BORE AND HONE CYLINDER TO CALCULATED
DIMENSIONS
Maximum honing:
0.02 mm (0.0008 in.)
NOTICE: Excess honing will destroy the finished round±
ness.
CYLINDER BORING
HINT:
wBore all the 4 cylinders for the oversized piston
outside diameter.
wReplace all the piston rings with ones to match
the oversized pistons.
1. KEEP OVERSIZED PISTONS
Oversized piston diameter:
O/S 0.50
87.35 ± 87.38 mm (3.4390±3.4402 in.)
± 5S±FE ENGINEENGINE MECHANICALEG1±114

Component to be alignedSection of repair manual
for relevant model year
Front Wheels
Suspension and Axle (SA) section
Rear Wheels
Suspension and Axle (SA) section

Before repairing the body, remove the SRS parts if, during repair, shocks are likely to be applied to
the sensors due to vibrations of the body or direct tapping with tools or other parts.

Do not expose the SRS parts directly to hot air or flames
NOTICE:
1) The maximum ambient temperature tolerance is 120
°C (248°F) for the front airbag sensor,
105
°C (221°F) for the center airbag sensor assembly and 93°C (200°F) for the steering wheel
pad, and front passenger airbag assembly. If it is possible that the ambient temperature may
reach or exceed the temperature limit, remove the sensors and the steering wheel pad from the
vehicle or protect them with a hot insulation material before staring work.
2) Prior to welding, remove adjacent, SRS parts form tire vehicle or protect them with fire±proof
covers.

If the vehicle is damaged, visually inspect for damage to the steering wheel pad using the inspection
procedures described in section RS of the repair manual for the relevant model year.

When removing or handling the steering wheel pad, and front passenger airbag assembly keep the
pad upper surface facing upward. Also, lock the lock lever of the twin lock type connector at the rear
of the pad and take care not to damage the connector.
(Storing the pad or front passenger airbag assembly with its metallic surface up may lead to a seri-
ous accident if the airbag inflates for some reason.)

Store the steering wheel pad and the front passenger airbag assembly where the ambient tempera-
ture remains below 93°C (200°F), without high humidity and away from electrical noise.

Be careful not to let painting materials contact the SRS parts.

Information labels are attached to the periphery of the SRS components. Follow the NOTICES.

Store the airbag assembly where the ambient temperature remains below 93°C (200°F), without
high humidity and away from electrical noise.
2. BRAKE SYSTEM
The brake system is one of the most important safety components. Always follow the directions and
notes given in section BR of the repair manual for the relevant model year when handling brake sys-
tem parts.
NOTICE: When repairing the brake master cylinder or TRAC system, bleed the air out of the TRAC
system.
3. DRIVE TRAIN AND CHASSIS
The drive train and chassis are components that can have great effects on the running performance
and vibration resistance of the vehicle. After installing components in the sections listed in the table
below, perform alignments to ensure correct mounting angles and dimensions. Particularly accurate
repair of the body must also be done to ensure correct alignment.
HINT: Correct procedures and special tools are required for alignment. Always follow the directions
given in the repair manual for the relevant model year during alignment and section DI of this manual.
INTRODUCTIONIN-7

200 mm (7.87 in.) 100 mm (3.94. in.)70 mm (2.76 in.) 85 mm (3.35 in.)
Attachment dimensions
Align the cushion gum ends of the plate
with the attachment lower ends (A, C).

Align the attachment upper end (B) with
the front jack supporting point (
). Front and rear set positionPlace the vehicle over the center of the lift. Left and right set position
HINT:
Attachment
PLATE TYPE LIFTINTRODUCTION
IN-15

GENERAL INFORMATION
1. BASIC DIMENSIONS
(a) There are two types of dimensions in the diagram.
(Three±dimensional distance)

Straight±line distance between the centers of two
measuring points.
(Two±dimensional distance)

Horizontal distance in forward/rearward between
the centers of two measuring points.

The height from an imaginary standard line.
(b) In cases in which only one dimension is given, left
and right are symmetrical.
(c) The dimensions in the following drawing indicate
actual distance. Therefore, please use the dimen-
sions as a reference.
2. MEASURING
(a) Basically, all measurements are to be done with a
tracking gauge. For portions where it is not possible
to use a tracking gauge, a tape measure should be
used.
(b) Use only a tracking gauge that has no looseness in
the body, measuring plate, or pointers.
HINT:
1. The height of the left and right pointers must be equal.
2. Always calibrate the tracking gauge before measuring or
after adjusting the pointer height.
3. Take care not to drop the tracking gauge or otherwise
shock it.
4. Confirm that the pointers are securely in the holes.
(c) When using a tape measure, avoid twists and
bends in the tape.
(d) When tracking a diagonal measurement from the
front spring support inner hole to the suspension
member upper rear installation hole, measure
along the front spring support panel surface.
Center±to±center
straight±line
distance Three±dimensional
distance
Front Spring Support Inner Hole
Tape Measure
Along Body
Surface
Front Suspension Member Rear Side
Upper Installation HoleMaster Gauge PointerPointer LoosenessBody LoosenessPlate Looseness Two±dimensional
distanceCenter±to±center
Horizontal distance in
forward/rearward
Vertical distance
in lower surface Vertical distance
in center
Imaginary Standard Line
WrongCorrect
Pointer
BODY DIMENSIONSDI-2