1967 CHEVROLET CAMARO wheel

REAR SUSPENSION AND DRIVE LINE 4-23

Fig.
62—Torque Control Arm (Corvette)

2.
Place center clamp plate in position and install four

bolts and washers. Tighten bolts and torque to

specifications.

3.
Raise spring outer end with floor jack until spring

is nearly flat and secure with chain as in Step 3-

Removal.

.4.
Lower jack, align torque control arm with spring

end and insert link bolt, rubber cushions and re-

tainers. Install castellated nut on link bolt and

tighten until cotter pin hole in bolt is visible. In-

sert new cotter pin and bend ends around.

5. Raise spring end with jack under link bolt, and re-

move chain and C clamp when loose.

6. Carefully lower jack, making sure rubber cushions

remain indexed in retainers.

7. Remove jack and repeat on opposite side. Install

wheels and tires, remove frame supports and lower

vehicle to floor.

TORQUE CONTROL ARM (Fig. 62)

Removal

1.
Disconnect spring on side torque arm is to be re-

moved. Follow Steps 1-6, Spring-Removal.

NOTE:
If vehicle is so equipped, disconnect

stabilizer rod from torque arm - refer to

"Stabilizer Rod Replacement".

2.
Remove shock absorber lower eye from strut rod

shaft.

3.
Disconnect and remove strut rod shaft and swing

strut rod down.

4.
Remove four bolts securing axle drive shaft to

spindle flange and disconnect drive shaft.

NOTE:
It may be necessary to force torque

arm outboard to provide clearance to drop drive

shaft.

5. Disconnect brake line at wheel cylinder inlet or

caliper and from torque arm. Disconnect parking

brake cable.

6. Remove torque arm pivot bolt and toe-in shims and

pull torque arm out of frame. Tape shims together

and identify for correct reinstallation.
RETAINER

RETAINER

PLATE

BUSHING

CONTROL ARM

Fig.
63—Torque Control Arm Bushing Cross-Sect ion (Corvette)

NOTE:
For service operations pertaining to

the spindle support assembly, refer to service

operations under Wheel Spindle and Support

earlier in this section.

Repairs (Fig. 63)

1.
Using 11/16" drill, drill out flared end of bushing

retainer (fig. 64).

2.
Remove special retainer plate and tap retainer out

of bushing.

3.
Remove bushings by spreading them apart with a

chisel and tap out of arm (fig. 65).

NOTE:
If bushing diameters are severely

rusted in torque arm, and arm tends to spread

during removal, clamp arm in a C-clamp to

prevent spreading.

Fig.
64—Drilling Out Retainer Flare (Corvette)

CHEVROLET CHASSIS SERVICE MANUAL

REAR SUSPENSION AND DRIVE LINE 4-24

4

i*
5

Fig.
65—Removing Bushings (Corvette)

4.
Lightly oil new bushing diameters (not rubber por-

tion) and start bushings squarely in arm.

5. Install Tool J-7055-1 as shown in Figure 66 and

press bushings into place.

6. When bushings are fully installed, place special

plate over flared portion of new bushing retainer

and insert retainer into bushing.

7. Out of 5/8" thick steel plate 1-1/2" wide make flar-

ing tool support to the dimensions shown in Figure

67 and drill clearance holes as shown for 2
—
1/2"

bolts.

8. Place fabricated back-up plate on flared end of bush-

ing retainer and assembly Tool J-8111-23 to plate

with 2-1/2" bolts 5" long. Make sure threaded hole

in J-8111-23 is centered over unflared end of bushing

retainer and that chambered retainer plate is cen-

tered over retainer tube.

9. Lightly oil pointed end of J-8880-5 screw and thread

into J-
8111-23
until pointed "end contacts bushing

retainer. Continue threading J-8111-23 until retainer

is flared (fig. 68).

Installation

1.
Place torque arm in frame opening.

2.
Place toe-in shims in original position on both sides

of torque arm, install pivot bolt and tighten but do

not torque at this point.
Fig.
67—Flaring Tool Back-Up Plate (Corvette)

3.
Raise axle drive shaft into position and install to

drive flange. Torque bolts to specifications.

4.
Raise strut rod into position and insert strut rod

shaft so that flat lines up with flat in spindle sup-

port fork. Install nut and torque to specifications.

5. Install shock absorber lower eye and tighten nut

to specifications.

6. Connect spring end as outlined under Spring-

Bistallation, Steps 3-6'.

NOTE:
If vehicle is so equipped, connect sta-

bilizer shaft to torque arm - refer to "Sta-

bilizer Shaft Replacement".

7. Install brake disc and caliper, wheel and tire and

lower vehicle. Tighten torque arm pivot bolt. Bleed

brakes as outlined in Section 5-Brakes.

SUSPENSION CROSSMEMBER

Removal

1.
Disconnect and remove spring as outlined under

Spring-Removal.

2.
Remove differential carrier assembly as outlined

under Differential Carrier-Removal in this section.

3.
Support crossmember, remove bolts securing

crossmember isolation mounts to frame and lower

crossmember (fig. 69).

Fig.
66—Installing Bushings (Corvette)
Fig.
68—Flaring Retainer (Corvette)

CHEVROLET CHASSIS SERVICE MANUAL

REAR SUSPENSION AND DRIVE LINE 4-25

Fig.
69—Removing Crossmember (Corvette)

4.
Remove bolts securing carrier cover to cross-

member.

5.
Inspect rubber isolation mounts for aging and re-

place where necessary.

Repairs—Isolation Mount

1.
Bend back isolation mount tabs to allow mount re-

moval (fig. 70).

2.
Place crossmember on a suitable support and press

mount out of arm using a piece of suitable size pipe

or tubing on outer shell or inner insert.

3.
Place new mount into position on crossmember,

compress outer sleeve and press mount into place

until it is fully and squarely seated.

4.
After installation, bend over locking tabs.

Installation

1.
Install carrier cover to crossmember and torque

bolts to specifications.

2.
Raise crossmember into position and install mount-

ing bolts. Torque bolts to specifications.

3.
Install differential carrier assembly as outlined

under Differential Carrier
-
Installation in this

section.

4.
Install wheels and tires, remove frame supports and

lower vehicle.

STABILIZER SHAFT REPLACEMENT

1.
Raise rear of vehicle and support at frame side rail

with stand jacks.

2.
Disconnect stabilizer shaft at both torque arms (fig.

71).
Remove stabilizer shaft brackets from the

frame and withdraw assembly from vehicle.
ISOLATION MOUNT

CROSSMEMBER

BEND OVER TABS AFTER INSTALLATION

Fig.
70—Crossmember Mount Cross-Section (Corvette)

3.
Inspect bushings for signs of deterioration, and in-

spect shaft for bends, breaks or other defects - do

not attempt to straighten shaft - replace parts as

deemed necessary.

4.
Position bushings on shaft and loosely install shaft

to torque arms and at frame brackets.

5.
Align shaft to assume proper placement when bolts

are torqued, and torque attaching bolts to

specifications.

Fig.
71—Stabilizer Shaft Installation (Corvette)

CHEVROLET CHASSIS SERVICE MANUAL

REAR SUSPENSION
AND
DRIVE LINE
4-26

DRIVE LINE

REAR AXIE

INDEX

Page

General
Description
4-26

Chevrolet,
Camaro,
Chevelle
and
Chevy
II 4-26

Corvette
4-26

Maintenance
and
Adjustments
4-27

Lubricant
4.37

Lubricant'
Leaks
4_27

Axle Bolts
and
Wheel
Nuts
4-27

Rear Axle Noise
Diagnosis
4-29

Gear Noise
4_29

Bearing
Noise
4-29

Failure
Analysis
4^9

Hypoid
Gears
4..3Q

Differential Gears. 4_30

Bearings
....'.
4.30

Component Parts Replacement

(Chevrolet, Chevelle, Camaro and Chevy n ..... 4.30

Axle Assembly ,. . 4_30

Removal 4 30

Installation * ' 4 3Q
Axle Shaft . . . 4-31

Removal 4-31

Wheel Bolt Replacement 4-31

Oil Seal and/or Bearing Replacement. 4-31

Brake Flange Plate Replacement 4-31

Installation 4-32

Pinion Flange, Dust Deflector and/or

Oil Seal Replacement 4-32

Component Parts Replacement (Corvette) 4-34

Axle Driveshaft .- 4-34

Removal 4-34

Repairs 4-34

Installation. . 4-34

Pinion Flange, Dust Deflector and/or Oil Seal. .... 4-35

Removal 4-35

Inspection . 4-35

Installation .- 4-35

Differential Carrier 4-36

Removal 4-36

Installation 4-36

Positraction Differential Unit-On the Vehicle Check . . 4-37

\

GENERAL DESCRIPTION

CHEVROLET, CHEVELLE, CHEVY
I! AND
CAMARO

The rear axle
(fig. 72) is a
semifloating, fabricated

construction type consisting
of a
cast carrier with large

bosses
on
each
end
into which
two
welded steel tubes

are fitted.
The
carrier contains
an
overhung hypoid

pinion
and
ring gear.
The
differential
is a
two pinion

arrangement.

The axle housing
is
made up
of
two steel welded tubes

pressed into
the
crossbore
of the
cast carrier
-
each

tube
is
puddle welded
at
three places
to the
carrier.

Welded-on brackets provide attachment points
for

Chevelle springs,; shock absorbers,
and
lower control

arms.
Chevrolet models have welded-on brackets
for

control arms,
tie
rod, and shock absorbers. The housing

on Chevy II and Camaro has welded brackets
for
mounting

lower spring
pad
and shock absorber.
A
welded flange
is

provided
for
brake flange plate attachment.

The overhung hypoid drive pinion
is
supported
by
two

preloaded tapered roller bearings.
The
pinion shaft
is

sealed
by
means
of a
molded, spring loaded, rubber seal.

The seal
is
mounted
on the
pinion shaft flange which
is

splined and bolted
to
the hypoid pinion shaft.

The hypoid ring gear
is
bolted
to a
one-piece differen-

tial case which
is
supported
by two
preloaded tapered

roller bearings.

CORVETTE

The Corvette rear axle
is of the
type where
the dif-
ferential carrier housing enclosing
the
differential
and

hypoid gears
is
supported
on a
crossmember mounted
to

the chassis frame.
The
differential
is
connected through

universal joints
to the
drive shafts
and
wheels
(fig. 73).

The internal components
of the
carrier
are of
conven-

tional design, incorporating
a
hypoid gear
set
with
an

overhung pinion supported
on two
pre-loaded, tapered

roller bearing assemblies,
and a
two-pinion differential

assembly supported
on
tapered roller bearings. Pinion

mounting distance adjustments
are
made through the
use

of shims,
as are the
differential bearing pre-load
and

backlash adjustments.
The
differential side gears drive

two splined yokes which
are
retained laterally
by
snap

rings located on the yoke splined end. The yokes
are
sup-

ported on caged needle bearings pressed into
the
carrier,

adjacent
to the
differential bearings.
A
lip seal, pressed

in outboard
of
the bearings, prevents
oil
leakage and dirt

entry.
The
carrier cover
is
bolted
to the
carrier and

provides accessibility
to the
internal parts.
The
cover

incorporates two integral, reinforced mounting pads which

serve
as the
carrier attaching point
to the
suspension

crossmember,
and an
attaching point
for the
spring

center section. The filler plug
is
located on the right side

of the cover near the bolting flange.

All service operations allow carrier removal without

removing
the
carrier cover. Cover removal
is
not nec-

essary
in any of the
service procedures except
in
the

case
of
complete carrier housing replacement,
as the

carrier and cover
are
serviced
as
an assembly.

CHEVROLET CHASSIS SERVICE MANUAL

REAR SUSPENSION AND DRIVE LINE 4-27

SHIM AND

SERVICE

12

14

Fig.
72—Rear Axle Cross-Section (Chevrolet, Camaro, Chevelle and Chevy II)

1.
Companion Flange

2.
Deflector

3. Pinion Oil Seal

4.
Pinion Front Bearing

5. Pinion Bearing Spacer

6. Differential Carrier

LUBRICANT
7. Differential Case

8. Shim

9. Gasket

10.
Differential Bearing

11.
"Clock

12. Pinion Shaft Lock Bolt
13.
Cover

14.
Pinion Shaft

15.
Ring Gear

16.
Side Gear

17.
Bearing Cap

18.
Axle Shaft
19.
Thrust Washer

20.
Differential Pinion

21.
Shim

22.
Pinion Rear Bearing

23.
Drive Pinion

MAINTENANCE AND ADJUSTMENTS

The lubricant level should be periodically checked and

maintained at level of filler plug with a warm axle. See

the lubrication section of this manual for lubricant

recommendations.

Lubricant Leaks

Lubricant leaks should be checked for at the pinion

flange oil seal, axle wheel bearing seals, lubricant-filler
plug, and carrier cover. Correction of these leaks con-

sists of replacing the defective seals or gaskets involved

as described in this section.

AXLE BOLTS AND WHEEL NUTS

From a safety standpoint, axle housing to rear spring

bolts,
wheel nuts and control arm attaching bolts should

be periodically inspected for secure installation.

CHEVROLET CHASSIS SERVICE MANUAL

REAR SUSPENSION AND DRIVE LINE 4-29

REAR AXLE NOISE DIAGNOSIS

Mechanical failures of the rear axle are relatively

simple to locate and correct. Noise in a rear axle is a

little more difficult to diagnose and repair. One of the

most essential parts of rear axle service is proper

diagnosis.

Ail rear axles are noisy to a certain degree. The

action of transmitting the high engine torque through a

90° turn reducing propeller shaft speed produces noise

in rear axles. This point establishes the need for a line

between normal and abnormal or unacceptable axle

noises.

Slight axle noise heard only at a certain speed or under

remote conditions must be considered normal. Axle noise

tends to "peak" at varying speeds and the noise is in no

way indicative of trouble in the axle.

If noise is present in an objectionable form, loud or at

all speeds, an effort should be made to isolate the noise

as being in one particular unit of the vehicle. Axle noise

is often confused with other noises such as tire noise,

transmission noise, propeller shaft vibration and uni-

versal joint noise. Isolation of the noise as in any one

unit requires skill and experience. An attempt to elimini-

ate a slight noise may baffle even the best of diagnos-

ticians. Such practices as raising tire pressure to

eliminate tire noise, listening for the noise at varying

speeds and on drive, float and coast, and under proper

highway conditions, turning the steering wheel from left

to right to detect wheel bearing noise, will aid even the

beginner in detecting alleged axle noises. Axle noises

fall into two categories: gear noise and bearing noise.

GEAR NOISE

Abnormal gear noise can be recognized since it pro-

duces a cycling pitch and will be very pronounced in the

speed range at which it occurs, appearing under either

"drive," "float" or "coast" conditions. Gear noise

tends to peak in a narrow speed range or ranges, while

bearing noise will tend to remain constant in pitch. Ab-

normal gear noise is rare and usually originates from

the scoring of the ring gear and pinion teeth as a result

of insufficient or improper lubrication in new assemblies.

Side gears seldom give trouble as they are used only

when the rear wheels travel at different speeds.

BEARING NOISE

Defective bearings will always produce a whine that is

constant in pitch and varies with vehicle speed. This fact

will allow you to distinguish between bearing noise and

gear noise.

1.
Pinion bearing noise resulting from a bearing failure

can be identified by a constant rough sound. Pinion

bearings are rotating at a higher speed than differen-

tial side bearings or axle shaft bearings. This

particular noise can be picked up best by testing the

car on a smooth road (black top). However, care

should be taken not to confuse tire noise with bear-

ing or gear noise. If any doubt exists, tire treads

should be examined for irregularities that would

produce such noise.

2.
Wheel bearing noise may be confused with rear axle

noise. To differentiate between wheel bearings and

rear axle, drive the vehicle on a smooth road at

medium-low speed. With traffic permitting, turn
Fig.
74—Scored Hypoid Ring Gear

the vehicle sharply right and left. If noise is caused

by wheel bearings, it will increase in the turns be-

cause of the side loading. If noise cannot be isolated

to front or rear wheel bearings, inspection will be

necessary.

3.
Side bearings will produce a constant rough noise of

a slower nature than pinion bearings. Side bearing

noise will not fluctuate in the above wheel bearing

test.

Failure Analysis

The most common types of rear axle failures are

hypoid gear tooth scoring and fracture, differential gear

fracture. and/or differential bearing failure, and axle

shaft bearing failure.

Fig.
75-Cracked Hypoid Ring Gear

CHEVROLET CHASSIS SERVICE MANUAL

REAR SUSPENSION AND DRIVE LINE 4-30

Fig.
76—Differential Gear Failure

Hypoid Gears

Hypoid gear tooth scoring (fig. 74) is caused generally

by improper break-in, incorrect lube, insufficient gear

backlash or improper 'ring/pinion gear alignment. The

scoring will progressively lead to complete erosion of

the gear tooth, or gear tooth pitting and eventual fracture

with possible attendant damage to bearings, if the initial
scoring condition is not diagnosed in time and corrected.

Hypoid gear scoring is easily recognized by its char-

acteristic loud whine in either drive, coast or under both

conditions. Another cause of hypoid tooth fracture (fig.

75) is extended overloading of the gear set which will

produce fatigue fracture, or shock loading which will

result in sudden failure.

Differential Gears

Common causes of differential gear failure are shock

loading, extended overloading leading to fatigue failure,

and overheating of gear thrust surfaces resulting from

excessive wheel spin and consequent lubrication break-

down. Overheating will lead to seizing of thrust surfaces

or tooth failure (fig. 76).

Bearings

• Failure of axle tapered roller bearings is due pri-

marily to excessive wear caused by long service or

foreign materials in the oil. The second most common

cause of bearing failure is too tight or too loose pre-

load adjustment leading to spalling and eventual failure.

This failure may also lead to hypoid gear scoring due to

the resultant misalignment of the hypoid gear set.

COMPONENT PARTS REPLACEMENT

(Chevrolet, Cheveile, Chevy II and Camaro)

AXLE ASSEMBLY

Removal

1.
Raise vehicle to a height that will permit axle as-

sembly to hang freely and position supports under

both frame side rails.

2.
Disconnect wheel cylinder inlet lines. Disconnect and

remove brake hose and brake line retaining bracket

by removing retaining bolt from carrier cover.

3.
Loosen parking brake equalizer adjusting nut and

disconnect both rear cables at frame bracket and at

control arms. See Section 5 for detail of parking

brake cable removal.

4.
Remove two trunnion bearing "U" bolts from the

rear yoke and separate rear universal joint. Wire

propeller shaft to frame side rail and tape trunnion

bearing cups.

5. Support arid secure axle assembly with an adjustable

lifting device. On Chevrolet and Cheveile models,

loosen upper and lower control arm attaching bolts

at axle housing. (On Chevrolet models, disconnect

tie rod at axle bracket.)

6. Disconnect shock absorbers at axle brackets. Refer

to Shock Absorber Removal procedures outlined in

this section.

7. On Chevrolet and Cheveile models, lower axle as-

sembly until suspension reaches end of travel, then

disconnect spring retainers and withdraw springs

from vehicle.

8. On Chevy II and Camaro models, remove four nuts

securing lower spring seat to axle housing, then

remove spring front eye bolts or spring attaching

bracket and swing spring to rear so that it does not

interfere with axle.

9. On Chevrolet and Cheveile models, disconnect upper

and lower control arm attaching bolts at axle housing*
10.
Lower axle assembly and remove from under vehicle.

Installation

1.
Place axle assembly under vehicle and raise into

position.

2.
On Chevrolet and Cheveile models, install, but do not

tighten, upper and lower control arm attaching bolts

at axle housing.

3.
On Chevrolet models, position coil springs in upper

seats so that end of spring is indexed in seat.

4.
On Chevrolet models, install lower end of spring on

axle bracket or control arm and secure by installing

retainer and bolt. Install lock washer and retainer

nut.

5. On Cheveile pry lower pigtail of spring over vertical

flange of the axle bracket spring seat.

6. On Chevy II and Camaro models, install spring seat

pads and swing springs up into spring seats on axle

housing, making sure upper seat pads are aligned in

axle housing bracket.

7. Install spring front eye bolt and tighten, then install

spring seat lower mounting bracket and retaining

nuts.

8. Raise axle assembly to allow shock absorber and tie

rod installation. Position shock absorber in axle

bracket. Torque nut as outlined in Shock Absorber

Installation procedures.

9. Install brake hose and brake line retaining bracket

to carrier and connect wheel cylinder inlet lines.

Connect parking brake cable to frame bracket and

at control arm. Adjust parking brake and bleed

brakes as outlined in Section 5.

10.
Reassemble rear universal joint to companion flange.

11.
Support vehicle at axle and remove supports from

beneath the frame side rails.

12.
Remove supports and lower vehicle to floor. Torque

all affected parts to specifications.

CHEVROLET CHASSIS SERVICE MANUAL

REAR SUSPENSION AND DRIVE LINE 4-31

Fig.
77—Differential Pinion Shaft Removal

AXLE SHAFT

Removal

1.
Raise vehicle to desired working height and remove

wheel and tire assembly and brake drum.

2.
Clean all dirt from area of carrier cover. *

3.
Drain lubricant from carrier by removing cover.

4.
Remove the differential pinion shaft lock screw and

the differential pinion shaft (fig. 77).

5. Push flanged end of axle shaft toward center of

vehicle and remove "C" lock from button end of

shaft.

6. Remove axle shaft from housing, being careful not

to damage oil seal.

Wheel Bolt Replacement .

Press bolts out of axle shaft flange (as illustrated in

Figure 78) and press new bolts into place, making sure

that they are tight and square with flange.

Off Seal and/or Bearing Replacement

•1.
Remove the oil seal by using the button end of the

axle shaft - insert the button end of the shaft behind

the steel case of the oil seal, then pry seal out of

bore being careful not to damage housing.

2.
Insert Tool J-8119 into bore and position it behind

bearing so that tangs on tool engage bearing outer

x race. Remove bearing, using slide hammer as shown

in Figure 79. Figure 80 shows a detail of axle

housing outer end.

3.
Lubricate new bearing with wheel bearing lubricant,

and install bearing so that it bottoms against
Fig.
79—Wheel Bearing Removal

shoulder (fig. 81). To install bearing use Tool

J-21491 for the Chevelle, Camaro and Chevy JI

light-duty axle and Tool J-21051 for all Chevrolet

models and also for Chevelle, Camaro and Chevy tl

models with heavy-duty axle.

Pack cavity between the seal lips with a high melting

point wheel bearing lubricant; position seal on tool

(Use J-21491 for the Chevelle, Camaro and Chevy II

light-duty axle and J-21051 for all Chevrolet models

and also for Chevelle, Camaro and Chevy II models

with heavy-duty axle) and position seal in axle

housing bore, tap seal into place so that it bottoms

against bearing (fig. 81).

Brake Flange Plate Replacement

1.
Remove "brake line at wheel cylinder inlet and dis-

assemble brake components from flange plate. Refer

to Section 5 for brake disassembly procedure.

2.
Remove 4 nuts securing flange plate to axle housing.

3.
Install new flange plate to axle housing and torque

nuts to specifications.

Fig.
78—Wheel Bolt Replacement
Fig.
80-Axle Housing Detail

CHEVROLET CHASSIS SERVICE MANUAL