service JEEP CJ 1953 Service Manual

BRAKES

12519

FIG.
P-13—DOUBLE
SAFETY MASTER CYLINDER
1— Boot
2— Snap Ming 3"*—Piston Assembly
4—
Backing
Ring 5—
Master
Cylinder Cup 6—
Master
Cylinder Cup
7— Piston
8—
Master
Cylinder Cup 9—
Cup
Protector
10—Spring 11—
Cylinder
Housing
12—
Cover
Gasket
13—
Cover

14—
Washer
Gasket 15—
Washer
16—
Cover
Bolt
17—
Check
Valve Spring 18—
Check
Valve
19—
Tube
Seat
20— Piston Stop
REASSEMBLY

a.
Prior
to reassembly of the master cylinder, dip

all
components
in clean brake fluid and place on
clean paper or in a clean pan.

b.
Install the primary cup washer, primary cup,
cup protector, and return spring on the secondary piston.
c. Install the piston cups in the double
groove
end
of the secondary piston, so the flat j of the cups face each other (lip of cups away from each other).
Install
the cup expander in the lip
groove
of the
end cup.

cL
Coat the cylinder bore and piston assemblies with clean brake fluid
before
installing any parts

in
the cylinder.
e. Install the secondary piston assembly first and then the primary piston which is supplied in the
repair
kit.

f.
Install the push rod assembly, which includes
the push rod,
boot,
and rod retainer, and secure
with the snap ring. Install the primary piston
stop.

g. Place new rubber check valves over the check valve springs and install in the
outlet
holes, spring
first.

Note:
When replacing a
complete
master cylinder
with a service unit, the original push rod must be used. The push rod retainer and snap ring retainer 12617

FIG.
P-14—REMOVING TUBE SEATS 1
—Screwdriver

2— No. 6-32 Self-Tapping Screw

3—
Tube
Seat must be removed and discarded. As the new unit
has the retainers installed it is only necessary to

install
the push rod until a "snap" is heard and the push rod is retained. 332

'Jeep'
UNIVERSAL
SERIES SERVICE
MANUAL

P h.
Install
the tube seats, flat side toward the check

valve,
and press in with tube nuts or the master

cylinder
brake pipe tube nuts.

BLEEDING
a.
Before the master cylinder is installed on the
car,
the unit must be bled.

b.
Support the cylinder assembly in a vise and

fill
both fluid reservoirs with approved brake fluid,

e.
Loosely install a plug in each
outlet
of the

cylinder.
Depress the push rod several times until

air
bubbles cease to appear in the brake fluid.

d.
Tighten the plugs and attempt to depress the piston. The piston travel should be restricted after
all
air is expelled.
e.
Install
the master cylinder on the car and bleed
the hydraulic lines at the wheel cylinder. Refer to
Par.
P-7.

P-21.
Wheel
Cylinder
Reconditioning
•
Refer to Fig. P-15.
Note:
Make sure a replacement brake cylinder
has the same part number as the original cylinder.

FIG.
P-15—WHEEL
BRAKE CYLINDER
1— Boot

2—
Piston

3—
Cylinder
Cup
4—
Cup
Spring
5—
Cylinder

6—
Bleeder
Screw
a.
To remove a wheel cylinder,
jack
up the vehicle

and
remove the wheel, hub, and
drum.
Disconnect
the brake line at the fitting on the brake backing
plate. Remove the brake
shoe
return spring which

will
allow the brake
shoes
at the toe to
fall
clear of the brake cylinder. Remove two screws holding
the wheel cylinder to the backing plate.
b.
Remove the rubber dust covers on ends of

cylinder.
Remove the pistons and piston cups and
the spring.

c.
Wash the parts in clean alcohol.

d.
Examine the cylinder bore for roughness or
scoring.
Check
fit of pistons to cylinder bore.
e. When reassembling the cylinder, dip springs, pistons and piston cups in brake fluid.
Install

spring
in center of the wheel cylinder.
Install

piston cups with the cupped surface towards the

spring
so that the flat surface
will
be against
the piston.
Install
pistons and dust covers.
f.
Install
wheel cylinder to the backing plate and connect brake line and install brake
shoe
return

spring.

g. Replace wheel, hub, and
drum.

h.
Bleed the brake lines (Par. P-7).

P-22. TROUBLE
SHOOTING

P-23.
Squeaky
Brakes

In
most cases, squeaks are entirely eliminated by

correct
adjustment of the brakes. Squeaks may be
caused however, by glazed linings, lining wore thin
to the point of
exposed
rivets or by vibration. A

drum
will
not vibrate when the brake is securing

uniform
contact over the entire lining surface, ex­
cept when due to improper conditions such as the
linings becoming glazed.
Glazed
surface of the

brake
linings may be removed by a stiff
wire
brush.
Occasionally
squeaks are caused by roughened
sur­

face of the
drum,
which can usually be remedied
by rubbing down with emery cloth and by wiping
the brakings surface clean. In extreme cases it may
be necessary to reface the drum in a lathe. Should
this be done, do not remove a metal thickness greater than .030" [0,762 mm.] - .060" [1,52 mm.]

overall
diameter.

P-24. Rattles
in
Brakes

See that the tension of the springs in the brakes

and
attached to the control system are sufficient to

return
brakes and brake mechanism to their normal
position.
Return
springs are so placed that they
keep all slack out of the control system by tension on all joints.

Brakes
will
not rattle inside the
drum
if the springs
holding the
shoes
are kept at the proper tension. 333

p

BRAKES
P-25.
SERVICE

SYMPTOMS
Brakes Drag
Brake
Shoes
Improperly Adjusted
Piston Cups Enlarged . . •.
«•
Mineral
Oil or Improper Brake
Fluid
in System. . .

Improper
Pedal Adjustment
Clogged Master Cylinder By-Pass Port...

One
Brake Drags
Brake
Shoe
Adjustment Incorrect
v Brake
Hose
Clogged.
Return
Spring Broken
Wheel Cylinder Piston
01
Cups
Defective.........
Loose or Damaged Wheel Bearings

Brake Grabs
—
Vehicle Pulls
to One
Side
Grease
or Brake
Fluid
on
Lining................
Dirt
Between
Lining
and Drum

Drum
Scored or Rough
Loose Wheel Bearings. .
Axle Spring Clips Loose
Brake
Backing Plate Loose

Brake
Lining
..

Brake
Shoe
Reversed
Tires
Under-Inflated -
Tires
Worn Unequally
Glazed
or Worn
Lining

Restricted Brake
Line

Excessive Pedal Travel
Normal
Lining
Wear

Lining
Worn Out ... .

Leak
in Brake
Line.

Scored Brake Drums
Incorrect
Brake
Lining.

Air
in Hydraulic System

Spongy Brake Pedal
Air
in
Lines.
Brake
Shoe
Adjustment Incorrect
Insufficient Brake
Fluid

Excessive Pedal Pressure
Grease
or Brake
Fluid
in
Lining

Shoes
Improperly Adjusted

Warped
Brake
Shoes
Distorted Brake Drums
Glazed
or Worn
Lining

Restricted Brake
Line
Faulty
Brake Cylinder Insufficient Brake
Fluid.

Squeaky Brakes
Shoes
Warped or Drums Distorted
Lining
Loose.....
Dirt
Imbedded in
Lining

Improper
Adjustment.

Oil
or Grease on
Lining
Glazed
or Worn
Lining.

Drum
Scored
DIAGNOSIS

PROBABLE
REMEDY

Adjust
Flush
all
lines
with Alcohol. Install new cups in wheel and Master Cylinders

Adjust
Master Cylinder Eye Bolt
Clean
Master Cylinder

Adjust
Replace Replace
Replace
Adjust
or Replace
Replace
Lining

Clean
with Wire Brush

Turn
Drum and Replace
Lining

Adjust
Tighten Tighten
Different Kinds on Opposite Wheels

Forward
and
Rear
Shoes
misinstalled
Inflate
Replace or Rotate Replace Linings

Locate
and Repair

Adjust

Replace
Locate
and Repair Replace or Regrind Replace

Fill
Master
Cylinder
— Bleed Lines
Bleed Lines
Adjust

Fill
Master Cylinder
Replace
Lining
Major
Adjustment
Replace
Replace or Regrind Replace Linings * .

Locate
and Repair
Repair
or Replace
Fill
Master Cylinder Replace
Replace
Wire
Brush or Replace

Adjust
Replace Linings Replace Linings

Turn
Drum and Replace Linings 334

'Jeep'
UNIVERSAL
SERIES SERVICE
MANUAL

WHEELS

Contents

SUBJECT PAR.

GENERAL
Q-l Wheel Balancing. Q-2

WHEEL BEARING SERVICE.
......
Q-3
Checking
Front Wheel Bearings Q-4

Checking
Rear Wheel Bearings.
.......
.
Q-7

Front
Wheel Bearing Adjustment. Q-5
Rear
Wheel Bearing Adjustment — Flanged Axle Q-6

Rear
Wheel Bearing Adjustment —

Tapered
Axle Q-8 SUBJECT PAR.

REAR WHEEL
MOUNTING
.Q-9

BRAKE
DRUM
SERVICE.
......
. . .Q-10

TIRE
SERVICE.
.................
.Q-ll
Tire
Care
Q-l2
Tire
Removal and Installation. Q-l3

SPECIFICATIONS
. .Q-14

Q-l.
GENERAL
Each
front wheel of a Jeep vehicle is carried on
two
opposed
tapered roller bearings as shown in

Fig.
Q-l and Q-2. Rear
wheels
are carried on a
single
tapered roller bearing
mounted
on each axle
shaft as shown in Fig. Q-3, Q-4 and Q-5. These bearings are adjustable for wear and their satis­
factory operation
depends
upon periodic
attention
and correct lubrication.

Q-2.
Wheel Balancing
Wheel balancing with the wheel on the vehicle is 18 17
10731

FIG.
Q-l—FRONT
WHEEL ATTACHING PARTS — 4-WHEEL-DRIVE 1— Hub Cap
2— Snap Ring
3—
Drive
Flange
4— Gasket 5— Nut
6—
Lockwasher
7—
Lockwasher

8— Cone and Rollers 9—
Cup

10— Hub and Drum 11—
Oil
Seal
12—
Left
Front Brake 13— Spindle and Bushing
14—
Left
Knuckle and Arm
15—
Thrust
Washer
16—
Universal
Joint Shaft
17—
Lockwasher

18—Bolt 19— Screw
20— Nut
21—
Lockwasher

22— Bolt 335

Q

WHEELS
FIG.
Q-2—FRONT
WHEEL

ATTACHING
PARTS —
2-WHEEL-DRIVE

1—
Steering
Knuckle

2—
Brake

3— Hub
Grease
Seal
4—
Inner
Bearing
Cone

5—
Inner
Bearing
Cup
6—
Hub
and
Drum

7—
Outer
Bearing
Cup
8—
Outer
Bearing
Cone
9—
Tongued
Washer

10— Nut
11—
Cotter
Pin

12—
Grease
Cap

13— Nut
14—
Lockwasher
15—
Bolt
j
10703
is ir 10730
FIG.
Q-3—REAR
WHEEL
ATTACHING PARTS —
4-WHEEL-DRIVE
TAPERED
AXLE

1—
Oil
Seal

2—
Cone
and
Rollers

3— Cup
4—
Shims
5—
Bearing
Retainer
6—
Brake
Backing
Plate
7—
Gasket

8—
Grease
Retainer

9—
Grease
Protector

10—Bolt
11— Hub
and
Drum

12—
Shaft
Key

13—
Washer

14—
Nut
15—
Cotter
Pin
Ifi—Hub
Cap

17—Nut

18—
Ixick
Washer

19—Bolt

FIG.
Q-4—REAR
WHEEL

ATTACHING
PARTS —
2-WHEEL-
DRIVE-TAPERED
AXLE

1—
Oil
Seal

2—
Bearing
Cone

3—
Bearing
Cup
4—
Shim
Set
5—
Retainer
and
Seal

6—
Brake
7—
Nut

8—
Hub
and
Drum

9—
Axle
Shaft Key

10—
Washer

11— Nut
12—
Cotter
Pin
13—
Lockwasher

14—
Bolt

recommended with the exception that
rear
wheels

on vehicles having
Trac-Lok
or
Powr-Lok
axles
should always be removed for balancing.

Q-3. WHEEL
BEARING
SERVICE

Adjustment
of the wheel bearings is
critical
be­ cause it establishes the running clearance of the wheel bearings. Wheel bearing adjustment that is
too
tight
preloads the bearings and causes them
to run hot. Loose wheel bearings permit the drum hub to shift its position on the bearings as thrust loads
vary
with acceleration,
braking,
and cornering.

Loose
bearings also cause
erratic
braking.
To check
the wheel bearings for adjustment, brakes must
be free and in fully released position. 336

'Jeep'
UNIVERSAL
SERIES SERVICE
MANUAL

FIG.
Q-5—REAR
WHEEL

ATTACHING
PARTS —
FLANGED
AXLE

1—
Brake
Backing Plate

2—
Retainer
Ring

3—
Unit-Bearing

4—
Oil
Seal
5—
Retainer
Plate 6—
Brake
Drum
7—
Cup
Plug
8—
Flanged
Axle Shaft
14284

Q-4. Checking
Front
Wheel Bearings

Raise
the front end of the vehicle with a
jack

so that the tires clear the floor.

Grip
the tire and
test
sidewise shake of the wheel.

If
bearings are correctly adjusted, shake of the
wheel
will
be just perceptible and wheel
will
turn

freely with no drag.

If
bearing adjustment is too tight, the rollers may

break
or
become
overheated. Loose bearings may cause
excessive
wear and noise.

If
this
test
indicates bearing adjustment is neces­

sary,
follow
the procedure given in Par. Q-5. Loose
bearings
will
cause sidewise shake that is evident

around
the entire circumference of the wheel. A shake that is evident only when gripping the
wheels
in
a plane parallel to the ground, but not evident

around
the entire circumference, probably indicates
looseness
in the steering linkage.

Q-5.
Front Wheel Bearing Adjustment
With
the vehicle on the
jack,
the following proce­

dure
should be followed to adjust the front wheel
bearings on four wheel-drive vehicles.
a. Remove the hub cap, snap
ring,
capscrews, and
washers that attach the driving
flange
to the hub.

b.
Using the
Front
Axle Shaft Drive Flange Puller

W-163,
pull
the driving flange.
c. Bend the lip of the nut lock washer so that the

locknut
and lock washer may be removed.

d.
Rotate the wheel and tighten the adjustment nut until the wheel binds.

Note:
Front
tire and wheel must be rotated by

hand
as the adjusting nut is
tightened
to ensure positive seating of the bearing.

Then
back off the adjusting nut about one-sixth
turn
making sure that wheel rotates freely without
sidewise shake.
e. Replace the lock washers and locknut. Bend
over the lock washer lip.
f.
Check
the adjustment (Par. Q-4). Reassemble the driving
flange
and hub cap. Make certain the
gasket is properly installed
between
the hub and
the flange.

•
Model DJ-5, DJ-6

On
two-wheel drive vehicles, remove the hub cap
and
the wheel retaining nut cotter pin. Rotate the
wheel and tighten the wheel retaining nut until the wheel binds.
Then
back off nut about one-sixth
turn
or more if necessary making sure wheel ro­

tates
freely without sidewise shake. Replace the cotter pin and hub cap.

Q-6.
Rear
Wheel Bearing Adjustment —

Flanged
Axle Shaft

Vehicles
equipped with the
flange
type
rear
axle
shaft require no wheel bearing adjustment. The flanged axle shaft is equipped with a single row,

pre-adjusted,
tapered roller unit-bearing capable of
accepting thrust in either direction. The unit-

bearing
adjustment is built in at the factory mak­
ing shimming or bearing adjustment unnecessary.

Refer
to Fig. Q-6.

Q-7.
Checking
Rear
Wheel Bearings —
Tapered
Axle

Raise
wheel on which adjustment is to be made
by placing a
jack
under the axle housing.
With
hands,
test
sidewise shake and in and out play
of the wheel. If bearings are correctly adjusted,
shake of wheel
will
be just perceptible and the 337

Q

WHEELS

FIG.
Q-6—REAR
WHEEL,
FLANGED
AXLE
AND
BEARING
ASSY.

1—
Retainer
Plate

2— Oil
Seal

3—
Unit
Bearing

4—
Retaining
Ring
5—
Axle
Shaft
wheel
will
turn
freely with no drag. If adjustment
is necessary, follow the procedure given in Par. Q-8.

Q-8.
Rear Wheel Bearing Adjustment
—
Tapered Axle

The
bearing adjusting shims are placed
between
the brake backing plate and axle flange as shown

in
Fig. Q-7.

With
wheel raised on
jack,
the following procedure
should be used to make the
rear
wheel bearing
adjustment.

a.
Remove the hub cap with hub cap puller, the
cotter pin, axle shaft nut, and washer. Remove the
wheel hub and drum with a wheel puller.

b.
Disconnect hydraulic brake line at wheel

cylinder.

c.
Remove the
bolts
holding the brake dust shield, grease and bearing retainer, and the brake backing
plate.

d.
Remove or install shims to adjust the bearings
to provide .001" to .006" [0,025 a 0,152 mm.]
end float of the axle shaft.

Note:
Before reassembly of the wheel make certain
the backing plate nuts are tight and torqued at 25 to 35 lb-ft [3,4 a 4,8 kg-m.].
e. Reassemble the wheel, adjust brakes, and check
the bearing adjustment (Par. Q-7).

0-9.
REAR WHEEL MOUNTING
—
TAPERED AXLE

Proper
axle shaft key installation is accomplished by placing the hub and drum on the axle shaft
taper and then inserting the axle shaft key in the
FIG.
Q-7—REAR
WHEEL
AND HUB
BEARING
—

TAPERED
AXLE
SHAFT

1—-Adjusting
Shims
2—Inner
Seal
3—Outer
Seal
keyway.
Never install the key in the keyway before

placing
the hub and drum assembly on the axle
shaft. Be sure that the axle shaft nut is torqued
to a minimum of 150 lb-ft. [20,7 kg-m.].
O-10.
BRAKE
DRUM
SERVICE
On
rear
wheels, the hub fits inside the brake drum
(Fig.
Q-3). On front wheels, the hub is attached
to the outside of the brake drum (Fig. Q-l). The

brake
drums are attached to the wheel hubs by
five serrated bolts. These
bolts
are also used for
mounting the wheels on the hub. To remove a

brake
drum,
press or drive out the serrated
bolts
and
remove the drum from the hub. When placing
the drum on the hub, make sure that the contacting
surfaces are clean and flat.
Line
up the
holes
in
the drum with
those
in the hub and put the drum
over the shoulder on the hub. Insert five new
serrated
bolts
through the drum and hub and drive
the
bolts
into place solidly. Place a round head of the bolt in a vise. Next, place the hub and drum
assembly over it so that the bolt head rests on it.

Then
swage
the bolt into the countersunk section of the hub or drum with a punch. The runout of
the drum face should be within .030" [0,76 mm.]
total indicator reading. If the runout is found to be greater than .030" it
will
be necessary to reset
the
bolts
to correct the condition.
0-11.
TIRE SERVICE
Refer
to Fig. Q-8.

One
of the most important factors of safe vehicle
operation is systematic and correct tire mainte­ nance.
Tires
must sustain the weight of a loaded vehicle, withstand more than ordinary rough serv- 338

'Jeep'
UNIVERSAL
SERIES
SERVICE
MANUAL

Q
ice, provide maximum safety over all
types
of

terrain,
and furnish the medium on which the
vehicle can be maneuvered with ease. Although
there are other
elements
of tire service, inflation maintenance is the most important and in many
instances the most neglected. The tire pressure should be maintained for safe operation. An under- inflated tire is dangerous as too much flexing can
cause breakage of the casing. Overinflation in time
may
cause a blowout.

Upon
careful inspection of tires, it may be found
that improper wheel alignment, balance, grabbing
brakes,
poor driving habits, fast cornering or other
conditions are the cause of wear. Such conditions
should be corrected.

a.
UNDERINFLATION

Underinflation
distorts the normal contour of the
tire
body and the tire
bulges
or "bellies out" with

an
extreme flexing action.
This
wears the tread at the
edges
more than the center and generates
excessive internal heat, weakening the cords and
resulting
in bruises, broken cords or ply separation.

Underinflation
also leads to rim bruises as in­ sufficient resistance is provided to prevent the tire

from
being jammed against the rim and crushed
or
cut when the tire strikes a
curb,
rock, or rut.

b.
OVERINFLATION

When
a tire is
overinf
lated,
increased tension caused by excessive pressure prevents proper deflection of
the sidewalls.
This
results in wear in the center of the tread and the tire also
loses
its ability to absorb

road
shocks. Under this increased
strain,
cords in the tread area eventually snap under impact, caus­ing a casing break.

c.
MISALIGNMENT
WEAR
Excessive
wheel camber causes the tires to run at an angle to the road when camber is incorrect

it
will
cause excessive wear on one side of the
tire
tread.

Front
wheels should be straight ahead or toe-in slightly. When there is excessive toe-in or
toe-out,

tires
will
revolve with a side motion and scrape
the tread rubber off.
Front
tires
will
show wear on the outside with too great a toe-in condition
and
on the inside with a
toe-out
condition.

d.
BALANCE
Cupping
and bald spotting of tires is associated

with
wear on a vehicle driven mostly at high-way
speeds
without the recommended tire rotation and

with
unbalance conditions.

Q-12.
Tire
Care
Note;
For satisfactory 4-wheel drive operation, a
4-wheel drive vehicle
MUST
be equipped with the same size tires of equal circumference on all
four wheels. The tires must then be inflated to

proper
factory recommended pressures at all times.

Tire
pressure, tire rotation, wheel balance, and wheel alignment are the four vital factors that in­
fluence the
extent
of tire life and the
ease
and safety of vehicle control.
Four
of the most common

tire
troubles are:

a.
Excessive wear around the outer
edges
resulting

from
underinflation.

b.
Excessive wear in the center of the tread re­
sulting from overinflation.

c.
Tire
tread worn on one side indicating wheels
need realigning.
d.
Cuplike
depressions on one side of the tread

indicating
wheels need balancing.

If
the vehicle normally carries a
full
load, two to
four psi. [0,14 a 0,28 kg-m2] can be added to the
recommended air pressures. But, remember that adding air with a light load means a harsher ride,

doesn't
help tires, and wears out shock absorbers. Rotate the tires as shown in Fig. Q-9 for correct
rotation system.

Q-13.
Tire
Removal
and
Installation

To
remove a tire from a drop center rim, first
WEAR
AT SHOULDERS

WEAR
AT CENTER

WEAR
ON ONE
SIDE
FEATHERED
EDGE
BALD
SPOTS

/1TTDN

i

UNDER
INFLATION
OVER
INFLATION
EXCESSIVE
CAMBER

INCORRECT
TOE
WHEEL
UNBALANCED

liF
11

ADJUST
PRESSURE TO
SPECIFICATIONS
WHEN
TIRES ARE
COOL
ADJUST
CAMBER
TO

SPECIFICATIONS
ADJUST
FOR

TOE-IN
DYNAMIC
OR
STATIC

BALANCE
WHEELS

FIG.
Q-8—TIRE
WEAR
PATTERN
339

'Jeep'
UNIVERSAL
SERIES
SERVICE
MANUAL

R
FRAME

Contents

SUBJECT
PAR.

Draw
Bar
R-6

Frame
Alignment
.R-2

Frame
Dimensions
.R-3
Front
Axle Alignment.
R-5

Straightening
Frame
R-4

R-1.
GENERAL
equipped with V6 engines, refer
to
measurements

The
frame
is the
structural center
of
the vehicle,
B£?wn
in
FiB-
R"f
, _ , r' .
for in addition
to
carrying
the load,
it
provides and The inost convenient method
of
making this check,
maintains
correct relationship
between
other units
Particularly
when
the
body
is on the
chassis,
is by

to assure their normal functioning. marking
on the
floor
all
dimensional points from

Of
rugged design, the frame
is
constructed of heavy
fhlch
measurements should
be
taken.
This
is

channel
steel side
rails
and cross-members.
Brack-
known
a\
Plumb-bobbing
the
frame Select
a

ets and diagonal braces
are
used
to
maintain
the
?Pace
on the
floof
^hlch
»
extr«nely
level If
work-
proper
longitudinal position
of the
side
rails
rela-
ing Pn
a.,fPen^
c*ean
* s°
that
the fha*k

tive
to
each other, and
at the
same time provide
*****
Jl!*
be
vJs.lble
underneath
the
frame
to be

additional
resistance
to
torsional strains. Fig. R-1, checked
If
workmg
on a
wooden
floor
it is ad-
R-2,
and R-3 illustrate
the
subject models. disable
la^
f f * V
Underneath
*he ve"

Vehicles
that have been
in an
accident
of any
hide
and
carefully tack them
m
place. Drop
a

nature,
which
may
result
in a
swayed
or
sprung gumb-bob from each point indicated
in
Figures

frame,
should always
be
carefully checked
for ^
an?
L'maJkl?g the uflo?r
Meetly underneath

proper
frame alignment, steering geometry,
and the
point. Satisfactory checking depends entirely
axle alignment.
on the
accuracy
of the
marks
in
relation
to the

frame.
To
check points that have been marked, carefully

move
the vehicle away from the layout on the floor,

R-2.
Checking
Frame
Alignment
anci
proceed
as
follows:

The
most efficient
and
satisfactory method
of a.
Check
the
frame
at
front
and
rear
end
using

checking
frame alignment
is
with
a
frame aligning corresponding marks
on the
floor.
If
widths
cor-

fixture
which
is
equipped with bending
tools
for
respond
to
frame specifications, draw
a
center line
straightening frame parts. In the absence
of
such
a the
full
length
of
the vehicle, halfway
between
the
fixture,
frame
alignment
may be
determined
by
marks indicating front and
rear
widths.
If
frame
using the
"X"
or diagonal method of checking from width
is not
correct and
the
center line cannot
be

given points
on
each side
rail.
Figs.
R-1 and R-2
laid
out
from checking points
at the
end
of
frame,

illustrate
this method
of
checking
the
frame.
it
can
be
drawn through intersections
of
any
two
When
checking frame alignment
on
vehicles
pair
of
equal diagonals.
FIG.
R-1—FRAME
ASSEMBLY
—
MODEL
CJ-3B

341

'Jeep*
UNIVERSAL
SERIES
SERVICE
MANUAL

R
frame.
This
could cause the already aligned sec­
tions of the frame to
become
misaligned or weak­ ened.

R-3.
Frame Dimensions
Points for measuring frame alignment on vehicles
equipped with the F4
engine
are shown in
Fig.
R-l
and
R-2.
The correct measurements for each model

are
given in the table. Point A is at the front of the

frame.

A-B
and C-D are the distances
between
spring
shackle
bolt and spring pivot bolt frame centers
measured
on a line parallel with the frame center-

line.
E and F show the shackle bolt centers in
rela­

tion (above or below) to the pivot bolt centers.

On
vehicles equipped with V6
engines
the frame dimensions are shown in Fig. R-3.

CJ-3B

A-B
44.31"
[112,55
cm.]

C-D
. . . . . .48.48"
[123,14
cm.]
Width
Front
29%" [74,3 cm.]

Width
Rear
29M" [74,3 cm.]

"E"
above .3W [8,18 cm.]

"F"
above 4%* [10,56 cm.]

CJ-5,
CJ-5A,
CJ-6,
CJ-6A,
DJ-5, DJ-6

A-B
.47.08"
[119,58
cm.]

C-D.
52.37"
[133,02
cm.]

Width
Front
2934"
[74,3 cm.]
Width
Rear
29j|" [74,3 cm.]

"E"
above 3%" [8,18 cm.]
"F"
above. .5%" [15,0 cm.]

R-4.
Straightening Frame

In
case the bending or twisting of the frame is not
excessive, it may be straightened.
This
should be
done
cold, as excessive heat applied to the frame

will
weaken it. For this reason it is recommended that badly damaged frame parts be replaced.

Note:
A technique known as "controlled heat" can
be utilized where a frame section is "squashed" and must be brought out without "tearing" or excessive

stretch
to the metal.
R-5.
Front
Axle
Alignment

After
it has been determined that the frame is prop­

erly
aligned, the front axle alignment with the

frame
can be checked. The front axle is square

with
the frame if the distance
between
the front

and
rear
axle is the same on both sides. The dis­
tance from the spring upper bushings to the front
axle on both sides should be equal.

Note:
Always inspect the springs for broken spring
center
bolts
when checking the frame and axle
alignment.
R-6. Draw Bar

Fig.
R-4, shows method of attachment and bracing of the Jeep draw bar. The braces and the reinforce­
ment installed in the frame
rear
cross-member

channel
provide even distribution of the stresses
when moving a heavy load.

The
draw bar plate may be shifted to any one of
nine positions for alignment on the draw bar and

may
be used with the
offset
up or down to change
the height of attachment.
Check
the attaching

bolts
periodically to be sure they are tight at all
times.
FIG.
R-4—DRAW
BAR
MOUNTING

R-7.
FRflME
SPECIFICATIONS

Type
— All Models j
Ladder
with Steel
Channel

Side
Members

Vehicle
Number
of

Cross
Members
Overall

Length
Width

Front
Rear
Section

Modulus

CJ-3B
i

CJ-5,
CJ-5A,
DJ-5 1

j

4 Intermediate j

•
Front
Bumper Bar
Rear
K-member 122%'
[311,55 cm.]
128%'

[326,23
cm.] 29^*
[74,3 cm.]
[74,3 cm.]
29M'

[74,3 cm.]
[74,3 cm.] 1.493 in. cu.
1.493 in. cu.

CJ-6,
CJ-6A,
DJ-6
|
J
1

I

r
\mw t

[377,03
cm.]
29M'

[74,3 cm.]
29M'

[74,3 cm.] 1.493 in. cu.
343