service indicator JEEP CJ 1953 Service Manual

B

LUBRICATION
B-2.
Special Lubricants

Special
lubricants are required for certain
lubri­
cation points on the 'Jeep' Universal vehicles. The

special
lubricants are necessary for proper function­ ing and maintenance of the vehicle. The
Lubrica­
tion
Chart
(Fig. B-l and B-2)
designates
the spe­
cial
lubricating points and identifies them by type

or
part number.

B-3.
Applying
Fresh
Lubricant

When
servicing or lubricating the vehicle, it is important that all old lubricant and
dirt
be re­ moved from the fitting and/or plugs before servic­
ing and that the recommended type of lubricant be used for the particular item being serviced.
Force
lubricant through the lube fittings until the lubricant being forced out of the joint is fresh

lubricant,
indicating that all old lubricant has
been removed.

B-4.
Engine
Lubrication
System —
Hurricane
F4 Engine

•
Refer to Fig. B-3.

The
engine
oil pressure system is designed to pro­
vide adequate lubrication to all working parts of
the engine. The gear-type oil pump is driven from
the
engine
camshaft. The pump is provided with a
FIG.
B-3—ENGINE
LUBRICATION
SYSTEM
—

HURRICANE
F4
ENGINE
floating, screened intake that prevents the
circula­

tion of any sediment that might accumulate in the

oil
pan. By means of this pump, the main bearing

journals
and crankpins are efficiently lubricated through an oil gallery and passages in the cylinder
block.
Oil
is forced under pressure to the main bear­
ings and through the cheeks of the crankshaft to
the connecting rod bearings. Oil is also force-fed
to the camshaft bearings, timing gears, and intake valve rocker arms. The oil pressure is controlled by

relief
valve located in the oil pump. The valve is
designed to open when excessive pressure
develops
in
the system, relieving the pressure and returning the
excess
oil to the oil pan. The cylinder walls,
piston pins, and tappets are supplied with oil from
spurt
holes
in the connecting rods. A portion of the oil is continually passed through an oil filter
which
effectively removes any foreign matter sus­ pended in the oil. A flanged section on the
rear
of
the crankshaft acts as an oil slinger and, in com­
bination with the
rear
main bearing upper and lower oil seal, prevents the leakage of oil from the

rear
end of the cylinder block. Leakage of oil from
the front end of the cylinder block is controlled by the crankshaft oil slinger and the front oil seal
installed in the timing gear cover. The oil pressure
indicator
light in the instrument panel and the oil level
gauge
or dip stick in the side of the
engine

provide a means for checking the oil pressure and

oil
level.

B-5.
Oil Pressure Gauge or Indicator
On
early
CJ-3B
vehicles an oil pressure
gauge
is
mounted on the instrument panel.
This
gauge
in­ dicates the oil pressure within the
engine
lubri­

cating system.

On
Models
CJ-5,
CJ-5A,
CJ-6,
CJ-6A,
DJ-5, DJ-6

and
later production vehicles of Model
CJ-3B
a
red
telltale lamp, which operates when the ignition
switch is turned on, is lit when there is insufficient
oil
pressure to properly lubricate the engine. When

it
goes
out, operating pressure is achieved. In
normal
operation, the light is lit when the ignition
is first turned on. It
goes
out after the vehicle is

in
motion.

Failure
of the
gauge
or indicator to register normal
oil
pressure may indicate insufficient supply of oil

in
the
engine
crankcase, low or no oil pump pres­
sure,
or a fault in the
gauge
or indicator electrical

circuit.
The
engine
must be stopped immediately to prevent possible damage to
engine
bearings and
the fault corrected before restarting the engine.

B-6.
Engine
Lubrication
System — Dauntless V-6 Engine

The
engine
lubrication system (Fig. B-4) is the
force
feed
type in which oil is supplied under pres­

sure
to the crankshaft, connecting rods, camshaft bearings and valve lifters. Oil is supplied under con­trolled volume to the rocker arm bearings and push

rods.
All other moving parts are lubricated by gravity flow or splash.

The
supply of oil is
carried
in the oil pan which is filled through a filter opening in the right rocker

arm
cover. A removable oil
gauge
rod on the left side of the crankcase is provided to check oil level.

The
oil pump is located in the timing chain cover 10

B

LUBRICATION
B-72.
Powr-Lok
or Trac-Lok
Differential

Refer
to Par. B-53.

B-73.
PARTS
REQUIRING
NO
LUBRICATION

B-74.
Water Pump Bearing,
Clutch
Release
Bearing

The
water pump and clutch release bearings are

prelubricated
for life when manufactured and cannot be relubricated.

B-7S.
Starter
Motor
Bearings

The
starting motor bearings are lubricated at assembly to last
between
normal rebuild periods.

B-76.
Alternator Bearings

The
alternator bearings are lubricated at assembly

and
require no further lubrication.

B-77.
Springs

The
vehicle springs should not be lubricated. At assembly the leaves are coated with a long-lasting

special
lubricant which is designed to last the life
of the springs. Spraying with the usual mixture of
oil
and kerosene has a tendency to wash this
lubri­

cant
from
between
the leaves, making it necessary
to relubricate
often
to eliminate squeaking.

B-78.
Shock Absorbers

Hydraulic
direct-action shock absorbers are per­ manently sealed and require no periodic
lubrica­

tion service. Shock absorber mounting bushings
are
not to be lubricated.

B-79.
LUBRICATION
REQUIREMENTS
FOR
OFF-HIGHWAY
OPERATION

Adequate lubrication
becomes
increasingly im­ portant when vehicles are used in off-highway
operation. Under
these
conditions all operating
parts
of both the
engine
and chassis are subjected
to unusual pressures. At the same time such operation is usually under abnormal dust and
dirt

conditions making additional precautions neces­

sary.
The importance of correct lubrication for
the conditions of operation cannot be overestimated.

B-80.
Engine
Oil

It
is important, that the oil in a new or rebuilt
engine
be changed after the first
eight
or ten hours
of operation, and for heavy, dusty work, every 50

hours
thereafter. Watch the condition of the oil closely and change it immediately if it appears to
be contaminated.

i-Il.
Engine
Oil
Filter

Replace
the oil filter at the end of the first 100

hours
of service. Under extreme operating con­ ditions, more frequent replacement may be re­
quired.
The condition of the oil is a reliable

indicator
of the condition of the filter element.
If
the oil
becomes
discolored and shows evidence
of contamination, change the filter without delay.
(Refer
to
Par.
B-10, B-ll for the correct procedure
for replacing the oil filter.)

B-82.
Air Cleaner

Care
of the air cleaner is extremely vital to the life of the engine. Pay particular attention to the
amount of dust and
dirt
in the air taken into the

engine
through the air cleaner. When dust is not
noticeable in the air, service the air cleaner each scheduled maintenance period. Whenever the air is
noticeably dusty (for example when the vehicle is

driven
on secondary roads or through fields) then
service the air cleaner more frequently. Under extreme continually dusty and dirty conditions
where the vehicle operates in clouds of dust and

dirt,
service the air cleaner daily. (Refer to Par.
B-24
thru
B-26 for service procedures.)

B-83.
Chassis
Lubrication

The
period of lubrication depends entirely upon the type of work being done. Using the specified

interval
given in the Service Maintenance Schedule as a guide, lubricate at safe intervals required for
the particular type of operation. Under extremely
dusty conditions lubricate
these
points daily. Be

sure
to force enough lubricant into each fitting to force out the old lubricant which might be con­
taminated with grit and which would cause
rapid

wear
if allowed to remain.
Do not place lubricant on the various
ball
and socket joints or pivot points of the lift linkage as
dirt
will
accumulate to form an abrasive mix­

ture.
It is
best
to simply wipe
these
parts clean

with
a cloth.

B-84.
Front
Axle
Shaft Universal Joints

For
off-highway use remove the universal joints twice yearly, thoroughly clean both the housings

and
joints with a suitable solvent, and
refill
the
housings to the
fill
plug opening levels with the

correct
lubricant as given in the
Lubrication
Specifications.

B-85.
Transmission and Transfer
Case

The
combined capacity of the two housings is
small
for economy, making it important that the

lubricant
be changed at regular intervals. For off-highway use
drain
both housings every 300

hours
of operation and
refill
to the
fill
plug opening
levels. Refer to B-35 through B-37 when changing

lubricant.

B-86.
Front and
Rear
Axle
Differentials

Because of the higher pressure developed in the
axle assemblies with heavy duty operation,
drain,

flush,
and
refill
the differential assemblies each 300 hours of operation. Use only flushing oil or light
engine
oil to clean out the housings (except

Powr-Lok
and
Trac-Lok
differentials). Refer to
Par.
B-52 and B-53 for draining and flushing

differential.
18

c

TUNE-UP
C-13. Replacement and Adjustment of

Delco
Distributor Point Set

When
inspection of the contact points show re­ placement to be advisable, the following procedure
should be used. See Fig. C-13.

Note:
The service replacement contact point set
has the breaker spring tension and point alignment
adjusted at the factory.

Removal
of
Contact Point
Set

a.
Remove distributor cap by inserting a screw­

driver
in upper slotted end of cap retainers,
press

down and turn 90° counterclockwise. Push distri­
butor cap aside and remove rotor. Disconnect the condenser and primary leads from their terminal
by loosening the retaining screw. If there is no

retaining
screw, simply slip leads out.
b. Loosen two screws and lock
washers
which hold
the contact point set in place. Then remove point
set.

Installation
of
Contact Point
Set.

a.
Slide contact point set over
boss
on breaker
plate and under the two screw heads. Tighten two
screws and lock washers.

b.
Install
condenser and primary leads.

Note:
Leads must be properly positioned so they

will
not
come
in contact with
bottom
of weight
base or rotor.

c.
If
engine
does
not start readily, position contact

arm
rubbing block on peak of cam lobe, insert
V%"
[3,86 mm.] Allen wrench in adjusting screw and

turn
screw in (clockwise) until contact points

just
close. Then back screw out (counterclockwise)
V2
turn
(180°)
to obtain a point gap of approxi­
mately .016" [0,406 mm.] for a preliminary setting.

Adjustment
of
Contact Points
—
Engine Running
Note:
When adjusting contact point dwell angle,
always follow the instructions which
come
with the

dwell
meter.

a.
Connect dwell tester leads: red to distributor
side of coil, black to ground.

b. Turn
selector switch to position for
6-lobe
cam.

Turn
ignition switch on.

c.
Start engine.
Lift
adjustment window and insert
Vs"
[3,86 mm.] Allen wrench in adjusting screw.
Set dwell angle at 30 degrees. See Fig. C-14.

d.
After adjusting dwell angle, always check
ignition timing.

C-14.
Check
Ignition
Timing

a.
Hurricane F4 Engine.
If
a neon timing light is available, use it to check
igntion timing following the instructions of the
timing light manufacturer.

In
the absence of a timing light, remove No. 1

spark
plug and turn the
engine
over until No. 1
piston is on compression stroke as indicated by
air
being forced from No. 1 spark plug opening.
Turn
the
engine
slowly until the specified
degree
mark
on the timing gear cover is in alignment with
FIG.
C-l6—HURRICANE
F4
ENGINE

TIMING
MARKS
the notch on the crankshaft pulley. Fig. C-l6 shows
the timing pointer arrangement of the Hurricane
F4
engine. Refer to Ignition Timing Specifications
Par.
C-30. When the piston is positioned 5°
BTC,

timing is correctly set if the distributor rotor arm
points to No. 1 terminal in the distributor cap and
the distributor points are just ready to break. See
Fig.
C-12. Timing may be altered by loosening the

distributor
mounting clamp and turning the distri­
butor.
Turn
the distributor clockwise to advance
the timing and counterclockwise to retard the tim­
ing.
Do not overtighten the mounting clamp screw.
FIG.
C-l7—DISTRIBUTOR ROTATION
AND

FIRING
ORDER,
F4
ENGINE b.
Dauntless V-6 Engine.

Check
timing with a timing light connected to the

spark
plug of No. 1 cylinder (front cylinder, left

bank).
Yellow timing
mark
on the vibration damper must align with the specified
degree
mark

on the timing indicator (Fig.
C-18).
Refer to
Igni­

tion Timing Specifications Par. C-30. With the
engine
running at correct idle speed and the vacu­

um
advance
hose
disconnected from the distributor

and
the line plugged, check for correct timing
set­

ting. If necessary,
loosen
the distributor clamp bolt

and
rotate the distributor until proper alignment of timing marks is attained. Tighten mounting

screw.
After correct setting is made, unplug the

vacuum
line and reconnect it, operate the
engine
and
check operation of the vacuum advance.

Note:
Turn
the distributor counterclockwise to ad­
vance timing; turn clockwise to retard timing. 28

HURRICANE
F4
ENGINE

D-1.
GENERAL

This
section describes service and repair of the
F4
engine. The
engine
code
number shown in Fig.
A-3
is provided to identify the four cylinder engine.
The
meaning of the coded letters and numbers that

are
stamped on the water pump boss, at the front of the cylinder block, is given below.
Letter
to
Designate
Market

M
—
Military
E
—
Export

D
— Domestic
I
—
Industrial
&
Marine

Letter
to
Designate
Engine
Letter
to
Designate
Year
Built
R
— 1969

S
— 1970

T
— 1971
U—
1972

V
— 1973

W
— 1974

Numbers
to Designate
Compression
Ratio

F
— F4-134
Engine
63
67
•

71
-
6.3 to 1

•
6.7 to 1

-
7.1 to 1

Market
-
D
S F

(Domestic)

(1970)

Engine-
EXAMPLE

123 A B S
(F4-134)

Day- "L

Compression
Ratio

(6.7)
-
Service Engine (S)
Short
Block
(R)

-.010*
Oversize Pistons

(123rd)
-.010*
Undersize
Main

and
Rod Bearings
All
disassembly and assembly procedures are
presented in logical order, assuming a complete

engine
overhaul with
engine
removed from the vehicle. However, many of
these
procedures can
also be performed as on-vehicle services if vehicle
or
engine
components are removed to gain access
to parts involved.

Note:
Some
engines
are equipped with an exhaust
emission control system. Service information on
the components of this system is given in Section

F-l.
D-2.
Description

The
Hurricane
F4-134
engine
is an F-head, four-
cyiinder
engine
of combination valve-in-head and valve-in-block construction.
Large
intake valves
mounted in the head allow
rapid,
unobstructed
flow of fuel and air to the combustion chambers through short, water-jacketed intake passages.The
intake valves are operated by push rods through

rocker
arms. The exhaust valves are mounted

in
the block with through water jacketing to provide
effective
cooling. The exhaust valves are
operated by conventional valve tappets.
The
engine
is pressure lubricated. An oil pump

driven
from the camshaft forces the lubricant
through oil channels and drilled passages in the

crankshaft
to efficiently lubricate the main and
connecting rod bearings.
Lubricant
is also force
fed to the camshaft bearings, rocker arms, timing
gears, etc.
Cylinder
walls and piston pins are

lubricated
from spurt
holes
in the "follow" side of
the connecting rods.
Circulation
of the coolant is controlled by a
thermostat in the water
outlet
elbow cast as part
of the cylinder head.

The
cylinder head assembly when installed on the

engine
consists of the inlet valve guides, inlet valves, inlet valve springs, rocker arm and shaft assemblies, spark plugs, temperature indicator
fitting, water
outlet
fitting, and other assembled

parts.
The carburetor and air cleaner assembly
bolt to the top of the cylinder head. The rocker

arm
cover is attached to the top of the head to
enclose
the inlet valve mechanism.
The
engine
is equipped with a fully counterbalanced
crankshaft
supported by three main bearings. To better control balance, the counterweights are in­
dependently forged and permanently attached to
the crankshaft with dowels and cap screws that are tack-welded.
Crankshaft
end play is adjusted by
shims placed
between
the crankshaft thrust washer

and
the shoulder on the crankshaft.
The
exhaust manifold is a separate unit. The intake
manifold is cast as an integral part of the cylinder
head and is completely water jacketed.
This
con­
struction transfers heat from the cooling system
to the intake passages and assists in vaporizing
the fuel when the
engine
is cold. Therefore, there
is no heat control valve required in the exhaust manifold. Individual exhaust ports in the cylinder
block direct
gasses
into the exhaust manifold for unobstructed flow through the exhaust system.

The
pistons have an extra
groove
directly above
the top ring which acts as a heat dam or insulator.
As
is common practice with manufacturers,
some

engines
are built with oversize cylinder bores or undersize crankshaft journals. These
engines
are
considered standard as replacement parts of the

correct
sizes are supplied. Before ordering parts or
doing any work with a particular engine, it is important to check the
engine
code
number to
determine if oversize or undersize parts are re­

quired.
Definite identification is given by a letter
stamped after the
engine
code
number. See Fig.

A-5
for location. The letters used and their mean­ ings are given here:

A
— .010*
[0,254
mm.] undersize main and
connecting rod bearings.

B
— .010"
[0,254
mm.] oversize pistons.

AB
—
Combination
of A and B.

S
—
Service
engine.

R
—
Short
Block.
Detailed specifications for the
Hurricane
F4
engine

are
at the end of this section.
Torque
specifications
for
engine
service are at the end of this manual in Section U. When adjustments are necessary, refer to
these
specifications so that factory clearances

are
maintained.

D-3.
Engine Mountings

The
front of the
engine
is supported by two rubber
Text continued on
page
41. 38

'Jeep*
UNIVERSAL SERIES SERVICE
MANUAL

FIG.
D-4—F4-134
ENGINE

1— Dowel Bolt
2— Bolt
3— Flywheel Ring Gear
4— Flywheel 5—
Clutch
Pilot Bushing
6— Lockwasher
7— Nut
8— Flywheel Housing
9—
Cable

10— Engine Plate (Rear)
11— Woodruff Key
12— Camshaft Thrust Plate
13— Spacer
14— Camshaft Gear
15— Washer
16—
Crankshaft
Shim (.002 *)
17—
Crankshaft
Thrust Washer
18—
Crankshaft
Gear
19— Spacer
20—
Oil
Slinger
21—
Crankshaft
Oil Seal
22— Packing Ring
23—
Gear
Cover Gasket
24—
Gear
Cover
25—Pulley

26—
Crankshaft
Pulley Nut
27—
Timing
Indicator
28— Engine Support Front Insulator
29—
Front
Engine Plate
30— Bolt 31—
Front
Plate Gasket 14251
43

'Jeep'
UNIVERSAL
SERIES
SERVICE
MANUAL

D
satisfactory bearing replacement cannot be made

and
it
will
be necessary to regrind the crankshaft.

Install
the bearing lower
half
and the connecting

rod
cap and draw the cap bolt nuts down equally
and
only slightly tight. Move the connecting rod
endwise, one way or the other, on the crankshaft to be sure the bearing is not tight.
Pull
the nuts tighter, first one then the other, a little at a time,

and
keep trying the fit of the rod on the crankshaft by hand until the recommended torque of 35 to 45 lb-ft. [4,8 a 6,2 kg-m.] is reached. If the
bearings are of the correct size, and have been
properly
lubricated with light
engine
oil before in­

stallation,
the connecting rod should be easy to
slide back and forth parallel to the
crankpin.
If
the connecting rod is tight on the crankshaft, a

larger
bearing is required. If there is no binding

or
tightness, it is
still
necessary to check clearance
to guard against too
loose
a fit. The use of "Plasti­

gage"
or shim stock of the proper size to measure .001" [0,025 mm.] clearance is recommended for

checking
connecting rod bearing clearances.
This

is the same material recommended for checking
crankshaft
main bearings and the method of check­
ing is
similar.
Refer to
Par.
D-45 or D-46. Connect­
ing rod bearings are fitted to the same clearance as the main bearings but the torque specified for con­
necting rod cap
bolts
is different.

D-50.
Connecting
Rod
Side Play

Check
the connecting rod side play with a feeler
gauge
as shown in Fig. D-l8. The side clearance is .004" to .010"
[0,101
a
0,254
mm.].

D-51.
Camshaft and Bearings

The
camshaft is supported at four points in the

cylinder
block. The front is supported in a re­ placeable, steel-shell, babbit-lined bearing. The

bearing
is pressed into place The other three bear-
FIG.
D-18—CONNECTING
ROD
SIDE
PLAY
ing surfaces are precision machined in the cylinder
block. The camshaft bearings are pressure
lubri­

cated through drilled passages in the crankcase.

End
thrust of the camshaft is taken by a thrust plate bolted to the crankcase. The camshaft is

driven
by a silent helical-cut
tooth
timing gear at
the front of the engine. A worm gear, integral with
the camshaft, drives the oil pump and distributor.

The
fuel pump is actuated by an eccentric forged

onto
the camshaft.

Clean
the camshaft thoroughly in cleaning solvent.
Inspect
all camshaft bearing surfaces to determine

if
they are scored or rough. The cam faces must be
perfectly smooth throughout their contact face

and
must not be scored or worn.

D-52.
Camshaft
Front Bearing Replacement

Use
a suitable driver to remove the camshaft front
bearing
from the cylinder block. To install a new
bearing,
align the oil
hole
in the bearing with the
bored oil
hole
in the cylinder block and drive the

bearing
in until the front end of the bearing is

flush
with the front surface of the cylinder block.

Make
sure the oil
hole
is open and clear. It is not
necessary to line-ream the bearing after installation because bearings for replacement are precision
reamed
to the finished size. Do not stake the

bearing.

D-53-
Camshaft End Play

End
play of the camshaft is determined by running
clearance
between
the
rear
face of the camshaft gear and the thrust plate and is established by the

spacer
thickness. The standard clearance is .004"
to .007"
[0,101
a 0,178 mm.] and can be measured by a
dial
indicator. As a general rule this clearance

will
change but little through wear or when a new gear is installed. To predetermine the correct end
float with the gear, spacer, and thrust plate re­
moved, measure the thickness of both the thrust
plate and spacer with a micrometer. The thickness
of the spacer should be approximately .006" [0,152 mm.] greater than that of the thrust plate.

When
this is correct and the parts are assembled

and
drawn tightly
together
by the gear retaining

screw,
the end play should
come
within standard
limits.

D-54.
Timing Gears
and
Cover

The
timing gears are mounted at the front of the
engine. Camshaft drive is through helical-cut
timing gears; a steel gear on the crankshaft and a
pressed fiber gear on the camshaft. The gears are keyed to their respective shafts. The camshaft

driven
gear is secured on the front end of the
camshaft by means of a capscrew and a plain

washer.
The crankshaft gear is secured on the
front end of the crankshaft by a nut threaded
onto
the front end of the crankshaft holding the
crank­

shaft pulley, crankshaft oil slinger, and the
crank­

shaft drive gear spacer. The timing gears are

lubricated
through a jet threaded into the
crank­
case directly above the gear contact and oil supplied
through a drilled passage from the front main

bearing.
The timing gears are enclosed by the
sealed timing cover. The oil seal in the cover bears 53

'Jeep'
UNIVERSAL
SERIES SERVICE
MANUAL

develop
into surface cracks and cause failure.

Measure
the over all free length of the springs and
replace any that do not measure to standard: 1%" [35,7 mm.] for intake valve springs and 2j^"
[63,5 mm.] for exhaust valve springs. If possible,
check each valve spring in a valve spring testing
fixture C-647 or equivalent as shown in Fig. D-l9.
Test
each spring when compressed to the two
different spring lengths given (representing valve closed and valve open spring length). If any spring
fails to register spring tension equal to or greater
than
the minimum load limit in pounds specified for that spring length, replace the spring.

Length
Minimun
Load

Intake
valve spring. . .
1.660"
[4,216 cm.] 66 lb. [29,9 kg.]
1.400"
[3,556 cm.] 140 lb. [63,5 kg.]

Exhaust
valve spring. 2.109" [5,356 cm.] 47 lb. [21,3 kg.]
1.750"
[4,445 cm.] 110 lb. [49,9 kg.]

Note:
When using a spring checking fixture C-647

or
equivalent as shown in Fig. D-l9, it is necessary
to convert the torque wrench reading which is in pounds-feet to the static pound pressure specified above according to the instructions furnished with
the wrench. For example, should the torque wrench reading be 50 lb-ft. and the wrench is two
feet
long
the static pressure of the spring
will
be 50 x 2 or 100 lbs.

Clean
the valve
guides
with a standard valve guide
cleaner or a wire
brush.
Check
the valve
guides
in the cylinder block. Replace valve
guides
which are

broken
or worn enough to cause excessive valve

stem-to-guide
clearance. See Par. D-61.
Standard
intake valve clearance is .0007" to .0022"

[0,0178
a
0,0559
mm.] and the exhaust valve
clearance is .0025" to .0045" [0,0635 a
0,1143
mm.].

Excessive
clearance
between
the valve
stems
and
guides
will
cause improper seating and burned
valves. When there is a tendency to draw oil vapor
through the guide causing excessive oil consump­ tion, fouled
spark
plugs, and poor low-speed per­
formance. To check the clearance of the valve stem
to the valve guide, take a new valve and place in
each valve guide.
Check
the clearance with a
suitably mounted
dial
indicator or feel the clearance by moving the valve stem back and forth. If this
check shows excessive clearance it
will
be necessary to replace the valve guide.
D-58.
Refacing Valves

Re
face the valves with a valve refacer. The valve

refacer
manufacturer's instructions should be fol­
lowed carefully to ensure a valve face concentric

with
the valve stem. Reface both intake and ex­
haust valves to an angle of 46°.
Take
off only the
minimum
of metal required to clean up the valve faces.

If
the thickness of the
edge
of the valve head is
reduced to
less
than
J^>"
[0>8 mm.] replace the valve.

Note:
Cocked or deformed valve springs or im­

properly
installed or missing locks can be responsible
for valve problems.

D-59.
Valve Seat Inspection
and
Refacing

Inspect the valve
seats
for
cracks,
burns, pitting,
ridges, or improper angle.
During
any general

engine
overhaul it is advisable to reface the valve

seats
in both the cylinder block and head regardless
of their condition. If the valve
guides
are to be re­ placed, this must be
done
before refacing the valve
seats.
Note
that later
engines
have hardened
exhaust valve seat inserts.

Valve
seat inserts must be concentric with finish

ream
of valve stem
guides
(exhaust) within .002"
[0,051
mm.] total indicator reading.

When
necessary to reface the valve seats, use a
valve seat grinder in accordance with the grinder
manufacturer's
instructions. Any grinding of valve

seats
should be preceded by touching up the
grinding
stone
so that their angles are accurate and
the
stone
is not
clogged.
Grind
each valve seat to

a
true 45° angle. Never grind any more than is necessary to clean up pits, grooves, or to correct
the valve seat runout.
Check
the valve
seats
with
10465

FIG.
D-20—VALVE
WITH
ROTO
CAP
FIG.
D-21—GAUGING
VALVE
SEATS

55

'Jeep'
UNIVERSAL SERIES SERVICE
MANUAL

D
is .004" to .007"
[0,102
a 0,178 mm.] as measured
by a dial indicator. Should a check
show
too little
end play, place a shim of suitable thickness
between

the camshaft shoulder and the spacer. Too much
end play may be corrected by removing shims or
dressing off the spacer a slight amount. See Fig. D-33.
D-82. Install Crankshaft and Bearings

Fit
the three upper main bearings
into
their
respective
locations
in the cylinder block. Fit the
three lower main bearings
into
their respective
bearing caps.

NOTE:
It is
possible
to incorrectly install the front main bearing. The bearing is properly installed in
the cap with the narrower of the two radial oil

grooves
toward the front
edge
of the cap. If this
bearing is not properly installed, the oil
grooves
in
the two halves of the bearing will not match at the
parting line and premature failure of the bearing

will
result.
Lubricate
all bearing surfaces
generously
with
clean, light
engine
oil. Place the crankshaft in

position
in the cylinder block and install the main
bearing caps. Torque the
bolts
65 to 75 lb-ft.
[9,0 a 10,4 kg-m.] rotating the crankshaft after
each bearing cap is
tightened

D-83. Check Crankshaft End-Play

End
play of the crankshaft is set by the running
clearance
between
the crankshaft thrust washer
and the front
face
of the front main bearing. The
standard end play is .004" to .006"
[0,102
a 0,152
mm.] which is controlled by .002"
[0,051
mm.]
shims placed
between
the thrust washer and the
shoulder on the crankshaft. Check the end play
with a dial indicator as shown in
Fig.
D-34. If clear­ ance is incorrect, adjustment is made by adding or
removing shims.
Install
the thrust washer with the
beveled
inner

edge
toward the front bearing.
10668

FIG.
D-33—VALVES, CAMSHAFT,
AND
TIMING GEARS
1— Nut
2—
Left
Rocker Arm
3—
Rocker
Arm Shaft Spring
4—
Rocker
Shaft
Lock
Screw 5—
Rocker
Shaft
6— Nut 7—
Right
Rocker Arm
8—
Rocker
Arm Shaft Bracket
9—
Intake
Valve Tappet Adjusting Screw
10—
Intake
Valve Upper Retainer
Lock

11—
Oil
Seal
12—
Intake
Valve Spring Upper Retainer 13—
Intake
Valve Spring
14—
Intake
Valve Push Rod 15—
Intake
Valve
16—
Intake
Valve Tappet
17—
Camshaft

18—
Camshaft
Front Bearing
19—
Camshaft
Thrust Plate Spacer
20—
Camshaft
Thrust Plate
21— Bolt and Lockwasher
22— Bolt 13—Lockwasher
24—Camshaft
Gear
Washer 25—
Crankshaft
Gear

26—
Camshaft
Gear

27— Woodruff Key No. 9
28—
Exhaust
Valve Tappet
29— Tappet Adjusting Screw
30—
Spring
Retainer
Lock

31— Roto Cap Assembly
32—
Exhaust
Valve Spring
33—
Exhaust
Valve
34—
Rocker
Shaft Support Stud
35—
Washer

36—
Rocker
Arm Cover Stud 63

'Jeep'
UNIVERSAL
SERIES
SERVICE
MANUAL

D

FIG.
D-38—CHECKING
FLYWHEEL
RUN-OUT
place the flywheel on the mounting
bolts
in the

crankshaft.
When installing a new crankshaft or
flywheel, replace the tapered dowel
bolts
with
straight snug-fitting special
bolts
provided using

Flywheel
Dowel Bolt Installing Tool Kit W-231 as shown in Fig. D-35 and D-36. Assemble the

crankshaft
and flywheel in proper relation; then in­

stall
the straight
bolts
previously used and tighten
securely. Next, use the [13,9 mm.]
drill
to
enlarge the tapered holes. Ream the
holes
with the 5fo" [14,3 mm.] straight reamer and install the
two special flywheel
bolts
with nuts and lock­
washers in place of the two tapered dowel
bolts
formerly
used.
This
procedure overcomes the
necessity of reaming special tapered holes.

Tighten
the nuts alternately and evenly until each
is tightened 35 to 41 lb-ft. [4,8 a 5,7 kg-m.].

After
installation check the run-out of the flywheel

with
a
dial
indicator attached to the
engine
plate
as illustrated in
Fig.
D-38. Mount the
dial
indicator

with
the contact button of the indicator resting against the clutch face of the flywheel. Set the

indicator
at zero and rotate the flywheel. Maximum
allowable run-out is .008"
[0,203
mm.] near the
outer
edge
of the
rear
face of the flywheel.
With
the flywheel housing installed temporarily,
the alignment can be checked with a
dial
indicator. Without the clutch installed on the flywheel, a

dial
indicator can be mounted on one of the flywheel bolts. Set the
dial
indicator with the button resting
against the
rear
face of the flywheel housing. Ro­
tate
the flywheel, noting the run-out on the
indi­

cator.
Maximum allowable run-out is .005" [0,127
mm.].
Relocate the
dial
indicator so that the
button is against the side of the
rear
opening to
check the
radial
run-out. Rotate the flywheel and
note
the run-out which should not exceed .006" [0,152 mm.].

D-88.
Install
Flywheel Housing

Be
certain that the mating surfaces of the flywheel housing and cylinder block are clean and smooth.

Place
the flywheel housing in position and attach to the cylinder block and
engine
rear
plate. The
long
bolts
through the lugs on the
engine
crankcase
and
those
below are installed with the nuts on the
flywheel housing side.
Install
the other
bolts
from
the
rear
except the screw used to attach the top
side of the starting motor. Tighten securely.

D-89.
Install
Clutch

To
install the clutch assembly with the
engine
out
of the vehicle use a clutch plate aligning arbor.

Place
the clutch driven plate in position against
the flywheel. Insert the arbor into the clutch driven plate and clutch shaft bushing and expand the arbor

in
the bushing to hold it in place. Hold the clutch
pressure plate assembly in position against the
clutch
driven plate and install the attaching
bolts

and
washers, tightening the
bolts
alternately and
evenly. Remove the arbor.

D-90.
Install
Valves and Springs

Oil
the valve stems. Insert all intake and exhaust valves in the valve
guides
from which they were
removed.

Install
one exhaust valve spring and exhaust valve

spring
retainer (Roto Cap) for each exhaust valve.

Slip
the top end of the spring
onto
the
bottom
end
of the valve guide and, with a large screwdriver,
snap the spring and retainer over the tappet ad­

justing
screw. Make certain that the two closely wound coils of each spring are at the top (placed up to seat against the block.) See Fig. D-39.

Turn
the crankshaft as necessary to bring each
exhaust valve tappet to its lowest position. Using a
valve spring lifter, compress each exhaust valve

spring,
while holding the valve down, so that the
stem
extends
through the valve spring retainer
far
enough to permit installation of the valve

spring
locks. Heavy lubricating oil or grease
placed on the inside surface of the valve locks
will

help to hold the locks on the valve stem until the valve spring lifter can be removed. When installa­
tion of exhaust valves is complete, remove any
cloths used to block the valve compartment floor
openings.
Install
the intake valves and springs in the cylinder head placing the ends of the springs
having the closed coils down against the cylinder
head.
FIG.
D-39—VALVE
TAPPETS
AND
SPRINGS

65

'Jeep9
UNIVERSAL
SERIES
SERVICE
MANUAL

h.
Check
ignition (distributor) timing; reset if
necessary.

i.
Check
carburetor
adjustments; reset if necessary,

j.
With
engine
fully warmed up, tighten cylinder
head and manifold
bolts
and nuts to specified
torque.
Check
cylinder head gaskets and
bolts
for
air
or coolant leaks.

Note:
Tightness of cylinder head
bolts
should be
checked and corrected after 500 to 600 miles [800

a
960 km.] of normal operation.

k.
Check
fan belt tension; adjust if necessary.

I.
Check
for and correct any oil leak, fuel leak or
coolant leak.
D-107.
VALVE
ADJUSTMENT

Proper
valve adjustment is important to prevent
burning
of valves and poor
engine
performance.

This
adjustment consists of obtaining a specified

lash
in the valve mechanism. The exhaust valve
tappets and the intake valve rocker arms should be adjusted to the proper clearance with the
engine

cold (at room temperature). Valve clearance can
be properly adjusted only when the tappet is on the
heel or low portion of the cam.
INTAKE

OPENS

9°
BTC?

FIG.
D-43-
10270

-VALVE
TIMING
D-108. Valve Adjustment Procedure

The
exhaust valve tappets are adjusted by turning
the adjusting screw in or out of the tappet as neces­
sary
to obtain the proper clearance. Where special
wrenches can be obtained, they should be used to facilitate the adjustment. The proper clearance is .016" [0,406 mm.]
between
the end of the adjusting
screw and the
bottom
of the exhaust valve.

Crank
the
engine
over to
close
a valve and check
the clearance with a feeler
gauge.
To adjust, hold
the tappet with one wrench and
turn
the adjusting

screw,
with the other.
Check
and adjust each of
the tappets in proper sequence.

Adjust
each intake valve by adjusting the rocker
arm
screw at the push rod to obtain .018" [0,457 mm.] clearance
between
the rocker arm and the
valve stem with tappet on the heel of the cam.
D-109.
Check
Valve
Timing

To
check the valve timing, carefully set the intake
valve rocker arm adjustment for No. 1 cylinder to .026"
[0,6604
mm.]
between
the rocker arm and the
valve stem. Rotate the crankshaft clockwise until
the piston in No. 1 cylinder is ready for the intake stroke. The intake valve
opens
9° before top center
(BTC).
Note
the distance
between
the
"TC"
and
"5°"
marks on the indicator on the timing gear
cover and estimate the 9° before top center position.
See
Fig.
D-43.
With
the crankshaft in this position, timing is correct if the rocker arm is just tight
against the intake valve stem. Do not overlook resetting the rocker arm adjustment to the correct

running
clearance.
D-110. Positive
Crankcase
Ventilation

Be
sure there are no air leaks at the tube connec­
tions
between
the air cleaner and the oil filler tube,

and
that the oil filler tube cap gasket is in
good

condition. Always keep the cap locked securely in
place. When tuning the
engine
or grinding valves, remove the control valve and clean it thoroughly.
If
the valve is blocked with carbon, the ventilating
system
will
not operate and, should the valve

fail
to seat, it
will
be impossible to make the
engine

idle satisfactorily. Refer to Par. C-6 for servicing.
D-111. Oil
Filter

The
engine
is equipped with a throw-away type

oil
filter.
This
oil filter must be serviced periodi­
cally
as outlined in the
Lubrication
Section. 69