1953 JEEP DJ maintenance reset
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'Jeep'
UNIVERSAL
SERIES SERVICE
MANUAL
G
cation period. It is
good
preventive maintenance to
replace a badly frayed, worn or cracked fan belt
before it breaks in operation.
To
replace the fan belt,
loosen
the attaching
bolts
at each generator or alternator brace-to-engine mounting and pivot the alternator or generator to
ward
the
engine
to gain slack needed to install the new belt Remove the old belt. Position the new
belt over the fan pulley, over the crankshaft pulley,
then over the generator or alternator pulley.
Pull
the generator or alternator away from the
engine
until
belt tension is
firm.
Then tighten the generator
or
alternator mounting
bolts
and check the tension
as indicated above. Reset the generator or alternator as necessary for correct belt tension.
Finally,
torque
the generator or alternator mounting
bolts
25 to 35 lb-ft. [3,4 a 4,8 kg-m.].
Note:
On the Dauntless V-6
engine
when adjusting
the fan belt tension, the alternator mounting
bolts
should be torqued 30 to 40 lb-ft. [4,14 to 5,53
kg-m.].
If a fan belt tension
gauge
(W-283) is
avail
able, proper tension should be 80 pounds [36,2 kg.].
G-l
9. Engine Overheating
An
engine
will
not be damaged by high coolant
temperatures unless the coolant boils. The pres
surized
cooling system on the 'Jeep' vehicles raises the boiling point of the coolant solution. Should
overheating be encountered, and the fault is be
lieved to be in the cooling system check for the
following:
a.
Proper coolant level. See
Filling
Cooling Sys
tem Par. G-2.
b. Poor air flow.
Check
for dirty radiator core. (See Radiator Par. G-5).
Check
for faulty belt
pulley operation, worn or
loose
fan belt, or dam aged fan.
Clean,
repair, replace or adjust as neces
sary.
c. Foaming coolant.
Check
for air leaks at water
pump,
hose
connection and filler cap. Tighten, re
pair
or replace as necessary.
d.
Surging or "after boil".
Check
pressure cap and
replace if valves or gasket are faulty.
e.
External
leaks.
Check
the following for leaks:
Hoses and clamps, water pump, radiator, head gas
ket, core plugs and drain cocks, as well as the cylin der head or block for
cracks.
f.
Internal
leaks.
Check
for faulty head gasket,
cracked
cylinder head or block.
g. Poor coolant flow.
Check
hose
condition, water pump, fan belt, and repair or replace as necessary. Inspect block for rust or scale, and clean and flush
the system, if necessary.
h.
Check
the temperature
gauge.
169
Page 277 of 376
'Jeep*
UNIVERSAL SERIES SERVICE
MANUAL
m
FRONT fiXLE
Contents
SUBJECT
PAR.
GENERAL.
M-l
4-WHEEL DRIVE FRONT
AXLE.
M-2
Maintenance
Requirements M-3
FRONT AXLE REMOVAL
.M-4
AXLE
SHAFT REMOVAL
M-5
REMOVING
AND
OVERHAULING
DIFFERENTIAL
.M-6
AXLE
SHAFT UNIVERSAL JOINT SERVICE
M-7
STEERING
KNUCKLE SERVICE
M-8
Replacing
Steering
Knuckle
Oil Seal M-10
M-1. GENERAL
The
front axle for all 'Jeep* Universal models,
which
have 4-wheel drive, is described in
Par.
M-2.
The
front axle for all DJ-5, DJ-6 models, which
have 2-wheel drive, is described in
Par.
M-l5.
M-2. 4-WHEEL-DRIVE FRONT AXLE
The
front axle is a live driving unit with hypoid
type
driving gears and spherical steering knuckles mounted m pivot pins which ride on tapered roller bearings for
ease
of steering. The drive is of the
full
floating
type
through axle shafts built integrally
with
cardan cross universal joints which revolve in the steering knuckles. The steering knuckle tie rod
arm
is made integrally with the knuckle. The
knuckles
are connected by a divided tie rod to a steering bell
crank.
A steering connecting rod con
nects
the bell
crank
to the steering gear arm. The
divided
tie rod is adjustable and the
toe-in
of each
front wheel is adjusted independently.
Camber
and
SUBJECT
PAR.
REASSEMBLY
AND
BEARING PRELOAD
M-9
AXLE
SHAFT INSTALLATION
M-ll
FRONT AXLE INSTALLATION........
.M-l2
Turning
Angle Adjustment . .M-14
Steering
Tie Rod and
Beilcrank
M-l3
2-WHEEL DRIVE FRONT AXLE
M-15
Removal
of Solid
Front
Axle M-l6
Steering
Knuckle
Service M-l7
Steering
Knuckle
Pin Replacement. ......M-l8
SERVICE
DIAGNOSIS
M-19
AXLE
SPECIFICATIONS.
M-20
caster
of the front
wheels
is preset.
Camber
cannot
be altered but caster can be adjusted by installing
caster
shims
between
the axle pad and the springs.
For
information on the steering
geometry
see
"Steering
Section."
Service
procedures given in this section include
the removal, installation, disassembly and assembly
of the Model
27AF
front axle assembly, the axle
shafts, steering knuckles, and
universal
joints.
Note:
All service replacement axle assemblies are
shipped from the factory without lubricant in the
differential.
Lubricant
must be added; use grade
and
quantity as specified in the lubrication chart (Section B).
M-3.
Maintenance Requirements
A
spring-loaded breather is located on the top of
the differential housing.
Each
time the differential
lubricant
is checked, the breather should be
Page 315 of 376
'Jeep'
UNIVERSAL
SERIES SERVICE
MANUAL
O Note:
If the steering-gear-to-frame
bolts
are not
properly
torqued, they
will
eventually
loosen
dur
ing operation of the vehicle. Loose
bolts
will
result
in
elongated
bolt
holes
making maintenance of bolt torque difficult, and may allow position of the
steering columns to be misaligned. Therefore,
proper
torquing is extremely important.
Do not tighten the steering gear to dampen out
steering trouble. Adjust the steering gear only to
remove lost motion or play within the unit.
0-5. Steering
Gear
Adjustment
The
cam and lever steering gear is illustrated in
Fig.
0-2. It consists of a
spiral
cam, and a cross shaft and lever assembly with two lever studs.
When
the steering wheel is turned, the cam
moves
the studs, causing rotary movement of the cross
shaft, which in
turn
causes angular movement of
the*steering arm.
Two
adjustments of the steering gear are necessary:
up and down play of the steering shaft, and adjustment of the lever studs (tapered pins) in the
cam
groove.
Adjustment
of the
ball
thrust bearings to eliminate up and down play of the steering shaft is ac
complished by removing shims which are installed
between
the steering gear housing and the upper
cover. Before making this adjustment
loosen
the
housing side cover adjusting screw to free the pins
in
the cam groove. Loosen the housing cover to
cut and remove a shim or more as required.
Install
the screws and tighten. Adjustment should be
made to have a slight drag but allow the steering
wheel to
turn
freely with thumb and forefinger
lightly gripping the rim.
Shims
installed for adjustment are .002*, .003", and .010"
[.0508,
.0762
and .254 mm.] in thickness.
Adjustment
of the tapered pins in the cam
groove
is accomplished by adjusting screw. Unlock the
adjusting
screw and
turn
it in until a very slight
drag
is felt through the mid-position when turning
the steering wheel slowly from one extreme position
to the other.
Backlash
of the pins in the
groove
shows up as
end play of lever shaft, also as backlash of steer ing arm.
The
cam
groove
is purposely cut shallow in the
straight
ahead driving position for each pin.
This
feature permits a
close
adjustment for normal
straight
ahead driving and provides precision steer ing and permits take up of backlash at this point
after the wear occurs without causing a bind else
where.
Always
adjust within the high range through
the mid-position of pin travel. Do not adjust off
"straight
ahead" position.
Backlash
in turned posi
tions is not objectionable.
0-6.
Front
Wheel Alignment Adjustments
To
ensure correct alignment, a definite procedure
for inspection of the steering system is recom mended. It is
suggested
that the following sequence
be used:
a.
Equalize
tire pressures and level vehicle.
b.
Check
steering gear to steering column align
ment.
c.
Inspect steering knuckle pivots, spindle, and
wheel bearing
looseness.
d.
Check
wheel runout.
e.
Test wheel balance and bearing adjustment.
f.
Check
for spring sag.
g.
Inspect brakes and shock absorbers.
h.
Check
steering gear assembly adjustment and
steering connecting rod.
i.
Check
caster,
j.
Check
toe-in.
k.
Check
toe-out
on turns.
I.
Check
camber.
m.
Check
tracking of front and
rear
wheels,
n.
Check
frame alignment.
The
factors of alignment, caster, camber, and toe-
in,
are all interrelated and if one adjustment is
made, another adjustment may be affected.
There
fore, after an alignment job is completed, make a
complete recheck of all the adjustments to be sure
the
settings
are within the limit. Be sure all front
suspension and steering system nuts and
bolts
are
all
properly torqued before taking wheel alignment readings.
Proper
alignment of front wheels must be main
tained in order to ensure
ease
of steering and satisfactory tire life.
The
most important factors of front wheel alignment are wheel camber, axle caster and wheel
toe-in.
Wheel
toe-in is the distance the wheels are closer
together
at the front than at the
rear.
Wheel
camber is the amount the wheels incline out
ward
at the top from a vertical position.
Front
axle caster is the amount in
degrees
that the
steering pivot pins are tilted towards the front or
rear
of the vehicle. Positive caster is inclination of
the top of the pivot pin towards the
rear
of the ve
hicle.
Zero caster is the vertical position of the
pivot pin. Negative or reverse caster is the in
clination
of the top of the pin towards the front
of the vehicle.
These
points should be checked at regular inter
vals,
particularly when the front axle has been
subjected to a heavy impact. When checking wheel alignment, it is important that wheel bearings and
knuckle
bearings be in proper adjustment. Loose bearings
will
affect instrument readings when
checking
the camber, pivot pin inclination and
toe-in.
To
accurately check camber and caster, use a wheel
aligning fixture.
Camber
and caster of the front
wheels are both preset.
Camber
cannot be altered
but caster can be adjusted by installing caster shims
between
the axle pad and the springs. Wheel toe-in
may
be adjusted. To measure wheel toe-in, use a
wheel aligning fixture or follow the procedure given
in Par.
0-8.
0-7.
Front Wheel Toe-in
Toe-in
as illustrated in
Fig.
0-3, is necessary to
off
set the
effect
of camber as shown in Fig. Q-4. 315