torque JEEP CJ 1953 Workshop Manual

Fl

EXHAUST
EMISSION CONTROL SYSTEMS The
air distribution manifold should be installed
after the exhaust manifold assembly is torqued
to the cylinder head. The recommended procedure
for exhaust manifold assembly installation is as follows:
Clean
the mating surface of both the
manifold and cylinder head.
Install
the exhaust manifold to the cylinder head using a new gasket.

Tighten
the manifold to cylinder head, attaching
bolts
down evenly.
Finish
torque tightening to 29
to 35 ft. lbs. [3,4 a 4,8 kg-m.].

Fl-23.
REQUIRED
EQUIPMENT

Each
station licensed to perform repair and main­
tenance on the Exhaust Emission Control System
must be equipped with that equipment necessary
for major
engine
tune-up analysis which shall in­ clude at least the following or equivalent.
Ignition Analyzer Oscilloscope
Ammeter
Ohmmeter
Voltmeter Tachometer
2 Vacuum Gages

Pressure
Gage (0-10 psi.)

Cam
Angle Dwell Meter Ignition Timing
Light

Engine
Exhaust Combustion Analyzer Compression Tester

Fl-24.
REPLACEMENT
PARTS

Parts
necessary to repair and/or maintain the

Exhaust
Emission Control System are available through any Jeep
SALES CORPORATION
ware­
house.

Fl-25.
WARRANTY

All
parts of the Exhaust Emission Control System

are
covered by the Manufacturer's Warranty as stated in the Warranty Service and 'Jeep' Quality
Maintenance Plan booklet.

Fl-26.
EXHAUST EMISSION CONTROL
SYSTEM
DIAGNOSIS GUIDE
Pump Noisy

Hoses Touching Other Parts of Engine or Body (Hood).

Note:
The air pump is not completely noiseless.

Under
normal conditions, pump
noise
rises in pitch as
engine
speed
increases. It is also desirable to
allow for normal break-in wear of the pump prior
to replacement for excessive noise.

Pump Seized

Replace
pump.

Leak
In
Hose

Check
for leaks; using
soap
and water — tighten
clamps or replace
hoses.
Pump
Inoperative

Loose Belt — tighten belt — do not pry on housing.

Filter
Plugged — replace.

Exhaust Backfire

Check
for vacuum leaks — correct as necessary.
Check
air filter for excessive
restriction
— replace as necessary.

Check
anti-backfire valve — replace as necessary.

Induction System Backfire

Verify
engine
timing and distributor dwell.

Verify
accelerator pump charge. 146

F2
EXHAUST EMISSION CONTROL SYSTEMS
the throttle
stop
screw to idle the
engine
at 650
to 700 rpm.

F2-17. Carburetor Idle Setting
The
"Lean
Best
Idle"
Method of Idle Setting is as
follows:

a.
Any scheduled service of ignition system should
precede this adjustment

b.
Connect tachometer to engine.

c.
Warm
up
engine
and stabilize temperatures.

d.
Adjust
engine
idle to speed desired, using throt­
tle idle speed adjusting screw.
e.
Turn
idle mixture screws out (counterclockwise)

until
a
loss
of
engine
speed is indicated; then slowly
turn
mixture screws in (clockwise-leaner)
until
maximum speed (rpm) is reached. Continue

turning
in (clockwise) until speed begins to drop;

turn
mixture adjustment back out (counterclock­
wise-richer)
until maximum speed is just regained

at
a "lean as possible" mixture adjustment.

F2-18. Distributor
The
ignition distributor used with the
Exhaust
Emission
Control
System is the same as that used
on
engines
without
Exhaust
Emission
Control.
Check
the distributor cam dwell angle and point
condition.
Check
ignition timing and adjust to specifications shown on the last
page
of this section.

F2-19.
Anti-Backfire
Valve

The
anti-backfire valve remains closed except when
the throttle is closed rapidly from an open position.
To
check the valve for proper operation, accelerate
the
engine
in neutral, allowing the throttle to close

rapidly.
The valve is operating satisfactorily when
no exhaust system backfire occurs. A further check
to determine whether the valve is functioning can
be made by removing from the anti-backfire valve
the large
hose
which connects the valve to the

pump.
With
a finger placed over the open end of
the
hose
(not the valve), accelerate the
engine
and allow the throttle to close rapidly. The valve is
operating satisfactorily if a momentary air rushing
noise is audible.

F2-20.
Check
Valve

The
check valves in the lines to the air distribution manifolds prevent the reverse flow of exhaust
gases

to the pump in the event the pump should, for

any
reason,
become
inoperative or should exhaust

pressure
ever exceed pump pressure.

To
check this valve for proper operation, remove the air supply
hose
from the pump at the check

valve.
With
the
engine
running, listen for exhaust
leakage at the check valve which is connected to
the distribution manifold.

F2-21.
Air
Pump

Check
for proper drive belt tension with belt tension
gauge
W-283. The belt strand tension should be 60 pounds measured on the
longest
accessible span
between two pulleys. DO NOT PRY ON THE

DIE
CAST
PUMP
HOUSING. To
check the pump for proper operation, remove
the air
outlet
hose
at the pump.
With
the
engine

running,
air discharge should be felt at one of
the pump
outlet
openings. The pump
outlet
air
pressure,
as determined by the relief valve, is preset
and
is not adjustable.

The
air pump
rear
cover assembly, housing the pressed in inlet and discharge tubes, and the pres­
sure
relief valve are the only pump components
recommended for service replacement. These parts
are
to be replaced only when damaged as a result
of handling or in the event the relief valve was
tampered with.

F2-22.
Intake Manifold

Intake
manifold leaks must not be overlooked. Air
leakage at the intake manifold may be compen­
sated for by
richer
idle mixture setting, however, this
will
usually cause uneven fuel-air distribution
and
will
always result in
loss
of performance and
exhaust emission control. To check for air leakage
into the intake manifold, apply kerosene or naph­
tha,
on the intake manifold to cylinder head joints

and
observe whether any changes in
engine
rpm

occur.
If an air leak is indicated, check the mani­
fold to cylinder head bolt torque. The correct torque is 25-35 lbs. ft. [3,46 a 4,84 kg-m.]. If the

leak
is
still
evident,
loosen
the manifold assembly

and
torque-tighten the bolts evenly.
Start
from the center and use proper torque values. Replace the
manifold
gasket if the leak
still
exists.
Clean
both
mating surfaces and check for
burrs
or other ir­

regularities.

Always
torque the bolts evenly to the specified
torque value to prevent warpage.

F2-23.
Carburetor
Air
Cleaner
—Oil
Bath

Every
6,000
miles [9,600 km.] disconnect attach­

ing
hoses
and unscrew the wing nut from the top
of the air cleaner and lift it off the carburetor.

Lift
the cover and filter element off the oil sump.

Clean
the inside surface of the sump and
refill
to

indicated
oil level with SAE 40 or 50
engine
oil
above 32 F; SAE 20 below 32 F.
Wash
filter element in kerosene and
drain.
Reassemble the air

cleaner
and install on carburetor.

More
frequent cleaning and replacement are advis­ able when the car is operated in dusty areas or on

unpaved
roads. Accumulated
dirt
restricts air flow,
reducing
fuel economy and performance.

F2-24.
REMOVAL PROCEDURES
The
following paragraphs
give
the procedures for removing the major units of the exhaust emission
control
system and the required equipment needed.

F2-2S.
Air
Pump

Loosen
the air pump mounting bracket bolts. Re­ move the air pump air hose(s). Separate the air pump from its mounting bracket. At time of install­
ation,
torque tighten the air pump mounting bolts
to
30-40
lbs.-ft [4,15 a 5,53 kg-m.].
Adjust
the
belt strand tension to 60 pounds. 156

F2
EXHAUST EMISSION CONTROL SYSTEMS
F2-3L
EXHAUST EMISSION CONTROL SYSTEM
DIAGNOSIS
GUIDE

Pump Noisy
Hoses Touching Other Parts of Engine or Body (Hood).

Note:
The Air Pump is not completely noiseless.

Under
normal conditions, pump
noise
rises in pitch as
engine
speed
increases. It is desirable to allow
for normal break-in wear of the pump prior to re­
placement for
excessive
noise.
Pump Seized
Replace pump.
-
do not pry on housing.
Leak
In Hose

Check
for leaks; using
soap
and water, tighten clamps or replace
hoses.

Pump Inoperative
Loose Belt — tighten belt
-

Filter
Plugged — replace.

Exhaust
Backfire

Check
for vacuum leaks — correct as necessary.
Check
anti-backfire valve — replace as necessary
Induction System Backfire

Verify
engine
timing and distributor dwell.
Verify
accelerator pump charge.

F2-32.
EXHAUST EMISSION CONTROL SYSTEM MAINTENANCE CHART

Efficient
performance of the Exhaust Emission very important that all of the maintenance require-

Control
System is
dependent
upon precise main-
ments
are performed with extreme care at the
tenance. As indicated in the following chart, it is specific interval indicated.
Thousands of miles* or

OPERATION
number of months whichever occurs first 2 6 12 18 24 30
Inspect engine-driven
belts
for condition and tension R R
Replace positive crankcase ventilation valve
(PCV)
R R

Check
for free operation of exhaust manifold heat control valve O O O O O

Clean
carburetor air cleaner — Oil Bath O O O O O
Replace carburetor air cleaner
element
— Dry Type O
Check
heated air system O O

Engine
tune-up O O

Check
engine
timing R O O O
Adjust
carburetor idle
speed
and mixture R O O O

Perform
factory-recommended road
test
for evaluation of overall performance and handling O O O O O

R
— Required Services O — Recommended Services

*
Miles Kilometers
2,000
—
3,200

6,000
—
9,600

12,000
—
19,200 18,000
—
28,800
24,000
—
38,400
30,000
—
48,000

F2-33.
GENERAL SPECIFICATIONS
Air
Pump Belt Tension 60 lb.

Rotor
Ring Screw Torque . 37 lb-in.
Housing Cover Bolt Torque 10 lb-ft. Speed Ratio, Air Pump to Engine
1
\i to 1

F2-34.
EXHAUST EMISSION CONTROL SYSTEM CARBURETOR SPECIFICATIONS

Make
Rochester Model Designation 2G Code Number
7027082
—
7041185

Choke
Manual
Number of Barrels 2

Throttle
Bore... \W [3,65 cm.]
Main
Metering Jet Production .051" - 60° [1,29 mm.]
High
Altitude — over
5000
ft .049" - 60° [1,24 mm.]
—
over
10,000
ft .047" - 60° [1,19 mm.]

Float
Level
Adjustment* 1%," [2,94 cm.]
Float
Drop Adjustment l%" [4,76 cm.]
Pump Rod Adjustment** 1%" [2,94 cm.]
Engine
Idle
R.P.M.
(In Neutral) 650 to 700

Initial
Idle Speed-screw
setting
3 turns in

Initial
Idle Mixture-screw
setting
2 turns out
Dash
Pot Setting. Y%w [3,75 mm.]
*From
air horn gasket to top of float at toe.

**From
air cleaner ring to top of pump rod.
158

G
COOLING SYSTEM
12761

FIG.
G-10—WATER
PUMP—

CROSS-SECTIONAL
VIEW
—
DAUNTLESS
V-6
1—
Hub

2—
—Shaft
and Bearing
3—
Cover

4—
Impeller

5—
Ceramic
Seal
6—
Seal
Assembly front end of the pump body. Position the seal,

washer,
and pump seal on shaft flush against the ground seat in the water pump body. Place the

impeller
on an arbor press and press the long end
of the shaft into the impeller until the end of the shaft is flush with the hub of the impeller. Support
the assembly on the impeller end of the shaft and
press the pulley hub on the shaft until the shaft end is flush with the pulley hub. Move the shaft

in
the pump body to align the retaining wire
grooves
in the bearing and pump body and place
the bearing retaining wire in position.

G-l
5. Water Pump Removal and Replacement — Dauntless V-6 Engine

Drain
the cooling system. Remove the fan belt and remove the cooling fan and pulley from the hub on
the water pump. Disconnect the
hoses
from the
water
pump. Remove the cap screws that secure
the water pump to the timing chain cover; remove
the water pump. Do not disassemble the water

pump;
it is serviceable only as an assembly. When

replacing
the water pump, torque the water pump cap screws 6 to 8 lb-ft. [0,829 a 1,106 kg-m.].

G-16.
Antifreeze Solutions

When
water freezes it expands approximately 9%

in
volume. When water, confined in a cooling sys­
tem, freezes it exerts tremendous pressures causing
serious damage. To prevent freezing, antifreeze can
be added to the water to lower its freezing point.

The
two
types
of antifreeze commonly used today have either a methanol or ethylene glycol base,

and
contain corrosion inhibitors. The only anti­
freeze recommended for the cooling system of

'Jeep'
vehicles is ethylene glycol (permanent type).

Methanol
base antifreeze evaporates with the water
when the vehicle is operated at warmer tempera­
tures and requires more attention to avoid
loss
of
protection. Ethylene glycol base antifreeze seldom
evaporates at normal operating temperatures.

Methanol
solution is injurious to vehicle finishes.
Should
any be spilled on the vehicle, it should be
washed off immediately with a
good
supply of cold water without wiping or rubbing. Under ordi­

nary
conditions, ethylene glycol is not injurious to
vehicle finishes.

Warning.*
Drinking
ethylene glycol antifreeze or its
solutions can be harmful or fatal. Do not use anti­
freeze containers for
food
or beverages.

A
table in Par.
G-2
2
gives
the protection obtained
by the addition of various amounts cf ethylene glycol.
Before installing antifreeze, inspect the cooling sys­
tem to be sure it is clean, leak-proof, and otherwise

in
proper operating condition.
Drain
the cooling system, see Par. G-3. Pour in 3 quarts [3 ltr.] of

clean
water, add the required quantity of anti­ freeze, then add clean water to within 1" [2,54 cm.] of the top of the overflow pipe to allow for expan­
sion when hot. Run the
engine
until it is
warm.

Then
recheck the solution level.
Check
the anti­
freeze protection with a hydrometer reading.

G-l7.
Inhibited Coolant Solutions

All
'Jeep5 vehicles equipped with either the
Hur­
ricane
F4 or Dauntless V-6
engine
should use only

inhibited
year-round, permanent-type
engine
cool­
ant
solutions that are formulated to withstand two

full
calendar years of normal operation without

draining
or adding inhibitors. The
engine
cooling
system should be completely drained and the
rec­
ommended coolant installed every two years. Be-
fo
a
installing the permanent-type solution, inspect the cooling system to be sure it is clean, leakproof,

and
in proper operating condition.

Note:
Water alone, methanol, or alcohol-type anti­
freeze is definitely not recommended for 'Jeep*
Vehicles.

G-l8.
Fan Belt

The
fan, water pump, generator or alternator are
driven
by a V-belt. The drive of the V-belt is on
the side of the V. A fan belt that is too tight
will

cause
rapid
wear of the alternator or generator and
water
pump bearings. If the belt is too
loose,
it may
slip
preventing the water pump from properly cool­
ing the
engine
or the generator or alternator from
properly
charging the electrical
circuit.
Use fan belt
tension
gauge
Tool W-283 to properly adjust belt.

The
fan belt is properly adjusted when it can be
deflected Vi" [13 mm.] with strong thumb pres­

sure
applied midway
between
the fan and alter­

nator
pulleys.
Check
this adjustment and inspect the condition of the fan belt at each
engine
lubri-
168

'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

H

ELECTRICAL
SYSTEM

FIG.
H-21—GROWLER
end so it rests on the pulley with the commutator
end up.

While
holding brushes clear of commutator with
the thumbs, place generator housing and field coils assembly in position, turning front end

bracket
so the dowel pin in housing enters
hole
in
end head. Place commutator end plate on shaft

and
install long frame screws.

When
reinstalling the generator on the engine, the

bracket
bolt torque wrench reading is 25 to 35 lb-ft. [3,4 a 4,8 kg-m.].

H-41.
CURRENT-VOLTAGE REGULATORS •
F4 Engine

H-42.
Description and
Operation
For
replacement,
voltage
regulator and generator must be matched for
voltage
and capacity, polarity,

and
common source of manufacture. Otherwise,
either a
loss
of ampere capacity or a burned out generator
will
result.

These
regulators are used with shunt-type gen­

erators
and have three units each with a separate function to perform. These units are the circuit

breaker
unit, the
voltage
regulator unit, and the

current
limiting regulator unit.

H-43.
Circuit
Breaker

It
consists of
an
electromagnet and a set of contacts.

The
contacts are mounted with one on a stationary

bracket,
and the other on a movable armature

which
is controlled by the electromagnet. The movable contact is mounted on a spring arm so that as the contacts open and
close
a slight wiping
action is produced.

The
electromagnet of the circuit breaker has two
windings, one, the shunt coil which is connected across the generator output like a voltmeter and
the other a series coil connected in series with the
generator output like an ammeter.These two coils

are
wound in the same direction so that when the
generator is charging the battery, the magnetism
of the series coil increases the total magnetism.

When
the battery discharges back through the generator, the magnetism of the series coil is re­ versed and the magnetism of the two coils is
opposed.
This
results in a decreased
pull
on the

armature
and spring action
opens
the contacts.
10240

FIG.
H-22—PRESTOLITE VOLTAGE REGULATOR
1—
"ARM"
Terminal

2—
"FLD"
Terminal

3— "BAT"
Terminal
The
sequence of operation of the circuit breaker is
as follows:

When
the generator is not running, the contacts
are
open. When the generator is started, the
voltage
builds up at the armature terminal and in the shunt

coil
and as
soon
as it reaches the value for which
the circuit breaker is calibrated, there is sufficient magnetism created by the shunt coil to
pull
down
the armature, closing the contacts which auto­
matically
connects the generator to the battery.

With
the contacts thus closed the current in the
series coil is flowing from the generator to the battery or in the same direction as the current in
the shunt coil, so that the
pull
on the armature is

increased
by the magnetism of the series coil.

When
the
engine
is stopped and the generator
loses

speed, the
voltage
falls, and as
soon
as the gener­
ator
voltage
drops below the battery terminal vol­
tage,
the current flows from the battery to the generator, reversing the direction of current in the
series coil so that the magnetism created by the series coil
opposes
and reduces the magnetism of
the shunt
coil.
This
reduces the
pull
on the
armature

to a point where spring action
opens
the contacts.

H-44.
Voltage
Regulator

The
function of the
voltage
regulator is to hold
the generated
voltage
at a predetermined value as 190

H

ELECTRICAL
SYSTEM

FIG.
H-42—GROWLER
d.
Install
the armature in starter motor frame,
using care to align the four brushes and brush
springs on the commutator so that they are free to
move
and are square on the commutator.

e.
Install
the thrust washer on the shaft.
Lubricate

the plug and bearing in the end plate.
Install
the
end plate.
Install
the two through
bolts
and tighten securely.

f.
On Prestolite V6 starting motors, check pinion position by measuring from the centerline of the
pinion housing mounting bolt
holes
to the outside

edge
of the pinion.
Correct
measurement with the
Bendix
drive retracted is [19,05 mm.] to
%"
[22,23 mm.]; with drive extended, 1%"

[34,93
mm.] to 1^" [38,10]. Adjust by installing

thrust
washers just inside the commutator end
head or intermediate bearing as required. The
Bendix
drive retaining pin must not project
beyond the outside diameter of the pinion
sleeve.

H-104.
Bench Test

The
motor should first be checked to see that the
free running
voltage
and current are within specifi­ cations. To
test,
connect the motor to a battery,
ammeter and voltmeter. If the current is too high
check
the bearing alignment and end play to make

sure
there is no binding or interference. Using a

spring
scale and torque arm check the stall torque to see that the motor is producing its rated
crank­

ing power. The stall torque
will
be product of the

spring
scale reading and the length of the arm

in
feet.
If the torque is not up to specifications

check
the seating of the brushes on the commutator
and
the internal connection of the motor for high
resistance. The Bendix
Folo-Thru-Drive
should be checked for correct operation. The Bendix pinion
should be checked to see that it shifts when the motor is operated under no load.

H-105.
Bendix Folo-Thru Drive (Prestolite)
The
Bendix
Folo-Thru
Drive is designed to over­

come
premature demeshing of the drive pinion
from
the flywheel ring gear until a predetermined

engine
speed is reached. See Fig. H-43. No repairs or adjustments are possible on this

drive
and a
complete
new unit must be installed

if
trouble develops.

H-106.
Lubrication
of
Folo-Thru Drive
A
periodic cleaning and relubrication of the drive is advisable, the frequency of which
will
depend on
the type of service to which the vehicle is sub­
jected and the locale of operation.

a.
Remove the starting motor from the
engine
and take off the outboard housing. The pinion and

barrel
assembly
will
be in the demeshed position
on the screwshaft. Do not
move
it forward
until
after
that portion of the armature shaft ahead
of the pinion has been cleaned. If accidentally ro­
tated to the outer end of the screwshaft it
will

lock
in that position and cannot be forced back.

b.
Do not disassemble the drive for any reason.

c.
Do not dip or wash the drive in any cleaning solution.

d.
Do not remove the drive from the armature
shaft. Remove
excess
oil, grease or foreign matter
from
the armature shaft by wiping it with a clean cloth.
3
10859
FIG.
H-43—BENDIX
FOLO-THRU DRIVE

Dampen
the cloth with kerosene if necessary. A
light film of
SAE
10 oil may then be applied to the shaft.

e.
Now rotate the pinion and
barrel
assembly to the
fully
extended position, thereby exposing the screw­ shaft triple threads. Use a cloth dampened with
kerosene to wipe them clean. Do not use
gaso­
line
or any
commercial cleaner.
If the dirt is

thick
and gummy, apply the kerosene with a small

brush.
Tilt
the starting motor so that a small
amount
will
run under the control nut. Relubricate

with
a thin film of
SAE
10 oil. Use SAE 5 at ex­ tremely low temperatures.

f.
Reassemble the starting motor to the
engine
with the drive in the extended position.
Carefully
mesh the pinion with the flywheel ring gear before
tightening the starter motor mounting bolts. It may 206

'Jeep'
UNIVERSAL SERIES SERVICE
MANUAL

H
H-152.
ELECTRICAL
SPECIFICATIONS
MODEL HURRICANE
F4 ENGINE DAUNTLESS
V-6
ENGINE

BATTERY:
Make
Model Hour Rating.

Voltage
Terminal
Ground

SPECIFIC
GRAVITY:
Fully
Charged
Recharged At
Location

GENERATOR:
Make.
Model

Ground
Polarity
Controlled Output

Control

Armature End Play
Brushes

Brush
Spring Tension

REGULATOR:
Make
Model:
For
GJP
7202,
GJP
7402A

Type
Cutout Relay: Closing
Voltage
@
Generator rpm..........
Reverse Current to Open.
Regulated
Voltage

Regulated Current

ALTERNATOR:
Make
Model
Ground
Polarity
Rated Output
Rated Field
Coil
Draw

At
70°F.
and
10-volt

Capacitor Capacity

REGULATOR:
Make
Model
Type

STARTING
MOTOR:
Make
Model
Brush
Spring Tension

LOCK
TEST:
Temperature
Amp.
(Max.)
Volt
Stall
Torque (Min.)

NO LOAD TEST:
Tempesature

Amp.
(Max.)
Volt
Rpm.
(Min.)

DRIVE:
Type

COIL:
Make.
Model

Primary
Resistance Secondary Resistance
Prestolite

HS
11-50
50 Ampere-hour
12-volts

Negative

1.260
1.225
Engine Compartment- Right Rear

Prestolite

GJP-7402A
Negative
35 amp.

CV
Regulator .003" to .010"

[0,076
a 0,25 mm.] 2
18 to 36 oz.
[510 a 1020 gr.]

Prestolite

VBO-4201E-4A
Vibrator

12.6 to 13.6 @ 1325 3 to 5 amp. 14.2 to 14.4
36 amp. max.
Motorola
A12 NW 526
Negative
35 amp.
1.7 to 2.3 amp. .1 mfd.
Motorola
R-2-K-1

Transistor

Prestolite

MDU-7004
32 to 40 oz. [907 a 1134 gr.]

70°F.
[21°C] 295 4
6 lb-ft. [0,83
kg-m.]

70°F.
[21°C.;
50
10

5300

Bendix Folo-Thru
Prestolite
200691

3.9 to 4.2
ohms

9400
to
11,700
ohms
Prestolite

HS
11-50
50 Ampere-hour
12-volts

Negative

1.260
1.225
Engine Compartment- Right Rear

Prestolite

GJP-7402A
Negative
35 amp.

CV
Regulator .003" to .010"

[0,076
a 0,25 mm.] 2
18 to 36 oz.
[510 a 1020 gr.]

Prestolite

VBO-4201E-4A
Vibrator

12.6 to 13.6 @ 1325 3 to 5 amp. 14.2 to 14.4
36 amp. max.
Motorola
A12 NW 528
Negative
35 amp.
1.7 to 2.3 amp. .1 mfd.
Motorola
R-2-K-1

Transistor
Delco-Remy

1107391,
1108366,
1108375

32 to 40 oz. [907 a 1134 gr.]
Not Applicable Not Applicable

70°F.
[21°C] 75
10.6

6200

Overrunning Clutch Delco-Remy
1115247

1.28 to 1.42
ohms

7200
to
9500
ohms
Prestolite

MHA-7008
32 to 40 oz. [907 a 1134 gr.]

70°F.
[21°C] 200 4
3 lb-ft. [0,41
kg-m.]

70°F.
[21°C] 43
10.0

9000

Bendix Folo-Thru

Prestolite
201700

4.25 to 4.60
ohms

5200
to 6100
ohms
223

CLUTCH

FIG.
1-14—LIFTING
LEVER
AND
EYEBOLT FROM PRESSURE PLATE
1—
Lever

2—
Eyebolt

3—
Fulcrum
A Pressure Plate
lever and the upper end of the
eyebolt
are as
near
together
as possible. Keep the
eyebolt
pin seated in its socket in the lever as shown in Fig.
1-13.
Lift
the fulcrum over the ridge on the end of the lever.
Lift
the lever and
eyebolt
off the
pressure plate as shown in Fig. 1-14.
1-19.
Inspect
Pressure Plate and Disc
Inspect the pressure plate to make sure that it is not cracked or scored.
Check
on a surface plate
for a warped condition, as a pressure plate out of alignment
will
result in clutch chatter.
Machin­

ing or grinding the face of a warped pressure
plate is not recommended. If a warped condition
exists, replace the pressure plate. A new plate
should be installed if the plate or cushion springs appear to be defective. The cushion springs must
not be bent out of shape or flattened.

The
clutch discs for the nine or twelve spring clutches are designed for operation with their
respective clutches. Difference in general appear­ ance of the discs may be noted in the method of
housing the six torque dampening springs and in the
hub design.

After
removal of the clutch assembly, the disc should be inspected. The presence of grease or oil
on the friction facing can cause the clutch to chatter

and
grab during
engagement
and slip at higher speeds. If this condition is evident, the facings or
disc should be replaced and the cause of oil ac­
cumulation corrected. Excessively worn facings
should be replaced. The clutch disc must be in­ stalled with the long end of the hub toward the

transmission.
1-20.
Inspect Transmission Clutch
Shaft

Slide
the clutch driven plate
onto
the transmission

clutch
shaft to make sure that it is free on the
splines. If the splines on the transmission clutch
shaft are
burred,
remove the
burrs
with a fine file or
stone.
If the movement of the clutch driven
plate is not free on the splines, the result
will
be
clutch
drag and
hard
shifting of transmission gears.
1-21.
CLUTCH
PRESSURE
PLATE ASSEMBLY AND
ADJUSTMENT

1-22. Assemble
Clutch
Levers

Prior
to assembly, apply a small amount of petro­

latum
to each slide of the pressure plate lug.

a.
Lay the pressure plate on the block in the
press.
b. Assemble a lever,
eyebolt,
and pin holding the
lever and
eyebolt
as
close
together
as possible.

With
the other hand, grasp the fulcrum as shown
in
Fig. 1-15.

c.
Insert the fulcrum in the
slots
of the pressure
plate lug.
Lower
slightly and tilt the lower
edge

until
it touches the vertical milled surface of the
lug.
Insert the lower end of the
eyebolt
in the

hole
in the pressure plate. The short end of the lever
will
then be under the hook of the lug and

near
the fulcrum.

d.
Slide the fulcrum upward in the
slots
of the

lug.
Lift
it over the ridge on the short end of the
lever and drop it into the
groove
in the lever
(Fig.
1-15).
1-23.
Assemble
Clutch
Spring and
Cover

a.
After all levers are installed, place the felt grease pads over the eyebolts.
Lubricate
pads

sparingly
with light
engine
oil.
Then
place the
clutch
pressure springs in a vertical position on
the spring
bosses.
FIG.
1-15—INSTALLING
CLUTCH LEVERS

1—
Lover

2—
Eyebolt

3—
Fulcrum

4—
Pressure
Plate
232

'Jeep'
UNIVERSAL
SERIES
SERVICE
MANUAL

I thickness: .285"
[0,724
cm.], .305"
[0,775
cm.].

Each
spacer should be hardened and ground to size, and then have the dimensional thickness
stamped thereon.

c.
From
flat bar stock at least Vfe" [3 mm.] thick,
make a
gauge
as shown in Fig. 1-22. Harden, grind
to size, and stamp sizes on the
gauge.

1-27.
Clutch Installation

a.
Very
sparingly, apply wheel bearing lubricant
to inner surface of pilot bushing in crankshaft.

Caution:
If
excessive
lubricant is applied to pilot bushing, it
will
run out on face of flywheel when
hot and
ruin
the driven plate facings.
b. Make sure that splines in the driven plate hub
are
clean; apply a light coat of lubricant to splines
of hub and transmission drive gear shaft. Slide plate over gear shaft several times; remove plate
from shaft and wipe off
excess
lubricant.

Caution:
Driven plate facings must be kept clean

and
dry.

c.
Fill
groove
in throwout bearing collar with wheel bearing lubricant. See Fig. 1-23. Make sure
that front bearing retainer of transmission is clean;
apply a light coat of wheel bearing lubricant. Slide
throwout bearing over bearing retainer several times. Remove bearing from retainer and wipe off

excess
lubricant.

12736
FIG.
1-23—LUBRICATION
POINTS
—

CLUTCH
THROWOUT
BEARING
COLLAR

1—Coat
This
Groove 2—Pack
This
Recess
d.
Clean
and apply wheel bearing lubricant to ball
stud in flywheel housing and to the
seat
in clutch

fork.

e.
If disassembled, install pressure plate in the cover assembly, lining up the
groove
on its
edge

with the
groove
on the
edge
of the cover.
Install

pressure plate retracting springs, and the three
drive
strap-to-pressure plate
bolts
and lock washers.

Torque
bolts
11 lb-ft. [1,51 kg-m.].

Note:
The diaphragm
type
clutch assembly is fac­
tory calibrated and requires no adjustment
before
installation. Refer to Par. 1-14 to adjust Borg and

Beck
coil spring
type
clutch assembly.
f.
Install
the pressure plate and driven plate on
flywheel. Support both assemblies with a spare
main
drive gear.

Note:
Be certain that
mark
on clutch cover is
aligned with the
mark
made on the flywheel during
clutch removal.
g.
Install
clutch attaching
bolts
and tighten alter­ nately so that clutch is drawn squarely
into
position
on flywheel.
Each
bolt
must be
tightened
one turn at a time to avoid bending the clutch cover flange.

Torque
bolts
30 to 40 lb-ft. [4,1 a 5,5 kg-m.].

h.
Lubricate
the ball stud and clutch fork with
wheel bearing lubricant and install clutch fork.

Note:
Be certain that fork retaining spring is
tight

on pivot ball stud.

i.
Install
flywheel housing on
engine
cylinder
block.

Caution:
Be certain that dowel pins are installed

in
cylinder block.

j.
Lubricate
the recess on the inside of the throw-
out bearing collar. Be careful not to use too much
lubricant.
See Fig. 1-23.

Caution:
Make certain that the lips of the spring
retainer (attached to the clutch fork) are in
groove
of the bearing. See Fig. 1-24.
k.
Install
throwout bearing assembly and connect
clutch linkage.
I.
Install
transmission as described in Section J. m. Adjust clutch for %"
[19,05
mm.] free travel,
see
Par.
1-3. 235