check engine light JEEP DJ 1953 Owner's Manual

'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

D

HURRICANE
F4
ENGINE
against the hub of the crankshaft pulley.
Timing

gears are accessible for inspection or replacement

with
the
engine
installed in the vehicle after re­ moving the radiator, belt drive pulley, and timing
cover.

Should
it be necessary to replace the timing gears, attention must be given to the end float of both
the camshaft and crankshaft and to the running

clearance
of both gears. It is also advisable to
check
both the oil jet and oil passage to the
crank­

shaft front bearing to be sure that they are clear.

D-55.
Inspection and
Repair

Check
the general condition of both gears and
inspect for evidence of excessive wear. Replace
excessively worn or damaged gears. Inspect the
cover and replace if bent or damaged. It is recom­ mended that the crankshaft oil seal in the cover
be replaced when the cover is removed to ensure a
good
seal around the crankshaft. To replace this

seal
with the
engine
in the vehicle
requires
removing
the radiator and water pump.

D-56.
Valves, Springs, and Guides

The
exhaust valves seat on the top of the cylinder

block
with the
stems
extending down through
replaceable valve guides. The exhaust valves are actuated by the camshaft through exhaust valve
tappets. The exhaust valve springs are assembled

and
locked on the lower end of the exhaust valve
stems. The retaining locks are the split type, which
fit in a recess on the valve
stems
and into the taper

in
the valve spring retainers.

Adjustment
of exhaust valves is by means of the
adjusting
screw threaded into the upper end of the
exhaust valve tappets. An exhaust valve rotator used as a valve spring retainer is installed on the
lower end of the exhaust valve.
This
valve rotator,
known
as "Roto Cap", is a spring-loaded
ball

bearing
device. On each lift, or opening stroke of
a
valve, the rotator
gives
the valve a slight positive
clockwise rotation.

The
intake valves operate in valve
guides
in the
cylinder
head and are actuated by rocker arms.

The
rocker arms are actuated by valve push rods

and
the intake valve tappets. The intake valve
springs,
the intake valve spring retainers, and the

intake
valve spring retainer locks make up the

remainder
of the valve operating parts. An intake
valve spring retainer oil seal which encircles the

upper
end of the intake valve
between
the valve
locks and the upper end of the valve spring re

tainer,
controls the passage of oil along the valve
stem and guide.

Note:
When
engine
trouble indicates defective
valves as a possible source of trouble, also check

all
vacuum line connections for possible leaks.

D-57.
Inspection of Valves, Springs,
and
Guides

Clean
the valves on a wire wheel, making sure that

all
carbon is removed from the top and the under­
side of the heads and that all gum and varnish
deposits
are removed from the stems.
Polish
the valve
stems
with steel wool or crocus

cloth.
Visually
inspect all valves for warpage,

cracks,
or excessive burning and discard if one of

these
conditions exists. Replace any worn, pitted,

or
corroded valves that cannot be cleaned with a
wire
brush.
Replace any valves when
seats
are pitted, burned, or corroded so badly that they
cannot be cleaned up with a light refacing on a valve refacing machine.

Replace
valves with marks of scoring or abrasion visible on the stem. Replace any valves with bent

stems
which
will
be apparent when the valve is
mounted in the valve refacing machine.

Note:
Use only hard-face exhaust valves for
replacement.

Examine
the
stems
of valves which employ the
ball
bearing rotators.
Wear
marks around the
cir­

cumference of the
stems
indicates that the valve is
rotating satisfactorily.
Vertical
heavy pressure

areas
indicate that the valve is not rotating and the valve spring retainer (Roto
Cap)
should be replaced

if
at fault.
Check
the diameter of the valve stem at two or three places along the length of the stem

with
a micrometer. The intake valve stem diameter is .3733" to .3738" [9,482 a
9,495
mm.]. The
exhaust valve stem diameter is .371" to .372"
[9,423
a
9,449
mm.].

Note:
Exhaust
and intake valve springs are

similar
in appearance. They must not be inter­
changed as they have different spring
charac­

teristics.

Wash
the valve springs thoroughly in solvent.

Visually
examine the springs and replace any that

are
deformed or obviously damaged. Examine for

corrosion
from moisture or acid etching which might
FIG.
D-19—TESTING
VALVE
SPRING

1—
Torque
Wrench

2—
Spring
Testing
Fixture

3—
Valve
Spring
54

D

HURRICANE
F4
ENGINE

FIG.
D-2
2—REFACING
VALVES
1—
Valve
Refacer

2—
Valve
a
dial
indicator as shown in
Fig.
D-21 after refacing.

The
valve seat should not be out of round more

than
.002"
[0,051
mm.]. A simple check can be
made in the absence of a
dial
indicator by spreading
a
thin coat of pencil lead or bearing-fitting blue on
the valve face and then inserting the valve into the valve seat.
With
hand pressure, rotate the valve

a
quarter
turn
and then remove the valve and ob­
serve the transfer of blue (or pencil lead) to the valve seat. An uneven transfer
will
indicate an

inaccurate
valve and valve seat refacing operation.

After
the seat is ground, check its width with a
seat width scale or a steel scale placed across the
face of the seat. The valve seat width after refacing
should measure [2,3 mm.] and not wider than
y%"
[3,2 mm.]. Valve seat width is
vital.
Too wide

a
seat can cause seat burning as it
tends
to trap

and
hold carbon particles. Seats that are too
narrow

will
not transfer heat to the coolant rapidly enough to keep the valves in proper operating condition.

When
a valve seat has been refaced several times

or
where it must be cut deeply for adequate recon­
ditioning, the seat may
become
too wide for efficient
operation. Narrow the seat without changing its
position in relation to the valve face by using a
valve seat relief counterbore above the seat and a valve seat narrowing cutter below the seat. These
operations are performed only after the valve
seats
have been refaced and then only when necessary.

The
finished valve seat should contact the approxi­mate center of the valve face.
Check
by applying

an
extremely thin coat of pencil lead or bearing-
fitting blue to the seat.
Then
install and rotate the
valve with light pressure. Blue (or pencil
marks)

will
transfer to the face of the valve. If the blue
is near the top
edge
of the valve face, lower the valve seat by using the valve seat relief counter-
bore. If the blue is transferred to the
bottom
edge

of the valve face, raise the seat by using the valve
seat narrowing cutter.

When
the valve seat can no longer be corrected, it
is advisable to investigate installing seat inserts.

D-60.
Exhaust
Valve Seat Insert Replacement

Hardened
valve seat inserts for exhaust valves
will

seldom require replacement. To avoid damaging the blcck, remove an insert with a tool designed for
this purpose.

When
installing a new insert, make certain the
counterbore is clean and smooth. Use a driver that

will
keep the insert in true alignment with the bore.

Cool
the insert and the installing tool with dry ice
for 30 minutes.

Note:
The insert should be sufficiently cooled
to permit installation with light taps; excessive

driving
of the insert may cock it in the counterbore

or
crack the insert.

Make
certain the valve seat is facing out.
Drive

in
the insert with the tool until it
bottoms
in the counterbore. After installation, grind the valve
seat at an angle of 45° and then check with a
dial

indicator
as shown in Fig. D-21.
D-61.
Valve Guide Replacement

Damaged,
loose,
or worn valve
guides
must be re­

placed.
Use valve guide driver W-238 or equivalent
to drive out the old guides. When replacing valve
guides, maximum
engine
performance can be se­

cured
only when the guide is positioned correctly
FIG.
D-23—VALVE
GUIDE
DRIVER

FIG.
D-24—VALVE
GUIDE
POSITIONS

1—Flush
at
this
point
2—One
Inch
[25
mm.
I

56

'Jeep5
UNIVERSAL SERIES SERVICE
MANUAL

D
Driver
W-238 is equipped
with
an
adapter
ring

which
correctly positions the guides. See Fig. D-23. Start a new exhaust valve guide, blunt (nontapered)
end
first,
into
the valve guide bore in the top of the cylinder block. When properly positioned, the
top end of the guide is exactly
1
"
[25,4 mm.] below
the level of the top of the block as shown in Fig.
D-24.
Start
a new intake valve guide, tapered end
first, into position from the
bottom
of the cylinder

head.
When properly positioned, the end of the
guide is just flush with the end of the valve guide
bore in the cylinder head as shown in Fig. D-24.

Run
a reamer (Tool
C-3 8)
through the new
guides

after they have been correctly positioned.

D-62. Tappets
and
Cover

The
valve tappets are lubricated through oil troughs cast in the crankcase. The troughs are
filled by oil sprayed from the connecting rod ends

and
passages are drilled through the tappet
guides
to
carry
the oil to the tappets. A
groove
around the center of the tappet shank carries the oil up and down the guide.

Check
the threads and fit of the exhaust valve ad­

justing
screw in the exhaust valve tappets. The fit of a screw should be such that a wrench is required to
turn
it into or out of the tappet as
these
are of
the self-locking type. Replace the worn part, either
the screw or the tappet, or both, if there is
loose­

ness
between
the parts.
D-63.
Crankshaft Rear Bearing Seal

Oil
leakage through the
rear
main bearing is pre­ vented by a metal supported neoprene lip type

seal
which can readily be installed without remov­
ing the crankshaft.

Should
trouble be experienced with oil leaking

from
the
rear
main bearing there are several points

which
should be checked.

a.
Be sure that the identifying paint daub on the
bearing
cap is the same as that appearing on the
center bearing web.

b.
The bearing to crankshaft clearance must not
exceed .0029"
[0,0736
mm.].

c.
Place sealer on the faces of the
rear
bearing cap

from
the
rear
oil
groove
to the oil seal grooves.

d-
Be sure the rubber oil seals extend about 34" [6 mm.] below the
bottom
face of the cap.

e.
Be sure the oil pan gasket is not leaking.
f.
Check
to be sure the oil leak is not at the cam­
shaft
rear
bearing expansion plug or from the
crankcase.

D-64.
Floating Oil
Intake •
Refer to Fig. D-25 and D-26.

The
floating oil intake is attached to the
bottom

of the crankcase with two screws. The float and
screen causes it to ride, raise and lower with the
amount of oil in the pan.
This
prevents water or
dirt,
which
may have accumulated in the
bottom

of the oil pan, from circulating through the
engine

because the oil is drawn horizontally from the top

surface.
Whenever removed, the float, screen, and
tube should be cleaned thoroughly to remove any
accumulation
of
dirt.
Also clean the oil pan.

Fluctuating
oil pressure can usually be traced to

an
air leak
between
the oil float support and the

crankcase.

Be
sure the float support flange is flat.
Clean
both
the flange and the crankcase surfaces thoroughly
before installing a new gasket. Be sure the retaining
screws are tight.
D-65. Oil
Pump

The
oil pump is located externally on the left side
of the engine. In operation oil is drawn from the

crankcase
through the floating oil intake then passes through a drilled passage in the crankcase
to the pump from which it is forced through

drilled
passages to the crankshaft and camshaft
bearings. When it is necessary to remove an oil
pump,
first remove the distributor cover and
note
the position of the distributor rotor so that the pump may be reinstalled without disturbing the
ignition timing. To install the pump without dis­

turbing
the timing, the pump gear must be cor­

rectly
meshed with the camshaft driving gear to
allow
engagement
of the key on the distributor shaft with the pump shaft slot, without changing the position of the distributor rotor. Distributor
can
be installed only in one position as the slot and

driving
key are machined off-center.

The
oil pump consists of an inner and outer rotor

within
the pump body. An oil relief valve is mounted in the pump body which controls the oil

pressure.
To disassemble the pump, Fig. D-27, first remove the gear which is retained by straight

pin.
It
will
be necessary to file off one end of the
pin
before driving it out with a small drift. By re­
moving the cover the outer rotor and the inner

rotor
and shaft may be removed through the cover opening.
Failure
of the pump to operate at

full
efficiency may usually be traced to excessive
end float of the rotors or excessive clearance be­ tween the rotors. The clearance
between
the outer

rotor
and the pump body should also be checked.
Match
the rotors
together
with one
lobe
of the inner

rotor
pushed as far as possible into the notch of the outer rotor. Measure the clearance
between
the

lobes
of the rotors as shown in
Fig.
D-28.
This
clear­ ance should be .010"
[0,254
mm.] or less.
If
more, replace both rotors. Measure the clearance

between
the outer rotor and the pump body as
shown in Fig. D-29. Should this clearance exceed .012" [0,305 mm.] the fault is probably in the
pump body and it should be replaced. End float
of the rotors is controlled by the thickness of the cover gasket which is made of special material that

can
be only slightly compressed. Never use other

than
a standard factory gasket.
Check
the cover
to be sure the inner surface is not rough or scored

and
that it is flat within .001" [0,025 mm.]
tested

with
feeler
gauges,
Fig. D-30. Measure thickness of
the rotors which must be within .001" [0,025 mm.]
of each other. Assemble the rotors in the pump body and install the cover without the gasket.
When
the cover screws are tightened to normal
tension, there should be interference
between
the
rotors and the cover making it impossible to
turn
the pump shaft by hand. Remove the cover and re- 57

'Jeep*
UNIVERSAL SERIES SERVICE
MANUAL

D

10262

FIG.
D-26—FLOATING OIL INTAKE AND PAN 1—
Oil
Float

2—
Gasket

3—
Oil
Float Support

4—
Screw and Lockwasher 5—
Oil
Pan Gasket
6—
Oil
Pan 7—
Bolt
and Lockwasher
8—
Drain
Plug
9—
Drain
Plug Gasket
place it with the gasket in position. The rotors
should then rotate freely, providing that end float of the rotors is
less
than the thickness of the gasket
when compressed or .004" [0,102 mm.]. After as­
sembling the gear on the pump shaft, check the
running
clearance
between
the gear and pump body with a feeler
gauge.
This
clearance should be

from
.022" to .051" [0,559 a 1,295 mm.].

Pump
output is controlled by a pressure relief valve.

CAUTION:
The oil pressure relief spring is
cali­

brated.
Never stretch this spring to alter the relief valve pressure setting. Adjust this setting by the use of shims only. Shims are available that can be
added
between
the retainer and the spring to in­
crease pressure. When shims are present, removing
shims
will
decrease pressure.

This
adjustment
will
change the pressure at higher

speeds
but not at idle speed. Safe minimum pres­

sure
is 6 psi. [0,4 kg-cm2] at idle, at which point
the oil pressure light
goes
out; and 20 psi. [1,4
kg-cm2] at
2000
rpm. (32 mph. [51 kph.]).

D-66.
Oil Pan

Examine
the oil pan carefully for evidence of cor­

rosion,
dents, or other damage. Special attention
should be given to the mounting flange to be sure of proper alignment and a tight seal at the cylinder
block, oil pan, and
engine
front plate. Whenever
the oil pan is removed, it is
best
to install a new

oil
pan gasket.

D-67.
Flywheel

The
flywheel is mounted on the
rear
flange of the
crankshaft.
The crankshaft, flywheel, and clutch
assembly are statically and dynamically balanced
separately and as a unit; therefore,
these
com­

ponents
should be assembled in their original
rela­

tive positions to maintain this balance.

D-68.
Flywheel Inspection

Clean
the flywheel thoroughly with cleaning sol­ vent. Inspect the clutch face of the flywheel for

a
burned or scuffed condition or rivet grooves.

Check
the flywheel for run-out or improper mount­
ing according to the installation procedure given

in Par.
D-87.

If
the inner ends of the flywheel ring gear
teeth
are
only slightly burred cr snubbed, remove the burrs
and
reshape the
teeth
using a small emery wheel. 59

D
HURRICANE
F4
ENGINE d.
Remove the intake valve adjusting screw lock-
nuts from each of the rocker arm valve lash ad­

justing
screws. Remove the screws from the rocker
arms.

D-76.
Inspection and
Repair

Run
a round wire brush through the bore of the

rocker
arm shaft and clean out the drilled oil holes.
Clean
out the oil
holes
in the rocker arm shaft

brackets,
and the oil
holes
and
grooves
in the bores
of the rocker arm.
Inspect
the diameter of the shaft at the rocker arm

bearing
areas. Replace the shaft if there are scores

or
abrasion marks along the length of the shaft.
Check
the shaft for alignment by rolling it across

a
smooth level surface. If the shaft
will
not
roll
freely, or if it rolls with a bumping motion, the
shaft is out of alignment and must be replaced.
Inspect
the threads of the adjusting screw
hole
in
the rocker arms and if necessary clean with a

proper
size tap. Replace the adjusting screw lock-
nut or the adjusting screw if either part is damaged

or
deformed.

Inspect
the threads in the tapped
hole
in the top
of the rocker arm shaft brackets and if necessary

clean
with a proper size tap. Replace the bracket

if
either side is worn or scored.

D-77.
Reassembly

a.
Install
two rocker arm shaft plugs, one in each
end of the shaft. Slide two
rocker
arm
shaft brackets
onto
the center of the shaft. Align the tapped
holes

in
the brackets with the drilled
holes
in the top of
the shaft and install the rocker arm shaft lock
screws,
making sure the points of the screws enter
the drilled
holes
in the shaft.

b.
Screw the intake valve adjusting screws into
the rocker arms and install the locknuts.

c.
The rocker arms are paired; that is, two of the
arms
are angled to the right and two are angled to
the left. One of each type is used on each end of
the rocker arm shaft. Slide a rocker arm with the

adjusting
screw end of the rocker arm angling

away
from the bracket
onto
the shaft so that the
adjusting
screw is on the same side of the shaft
as the mounting
hole
in the bracket.

d.
Temporarily
secure the end bracket in place by
installing
a rocker arm cover stud in the tapped
opening in the top of the support.
e. Assemble the parts on the
opposite
end of the
rocker
arm shaft repeating
steps
c and d above.

D-78. ENGINE REASSEMBLY
The
engine
reassembly procedure in the following

paragraphs
is given in the sequence to be followed
when the
engine
is being completely overhauled.
Individual
inspection,
repair,
and fitting operations
previously covered in detail are made throughout
the reassembly procedure. The reassembly pro­
cedure
does
not cover accessories. If a new cylinder

block
fitted with pistons is used, many of the
operations
will
not be required.
Mount
the cylinder block in an
engine
repair stand.
If
an
engine
stand is not available, perform the fol­
lowing reassembly operation in a manner designed to protect personnel against an accident and the

engine
and its parts against damage.

Note:
During
engine
reassembly, use Perfect Seal

Aerosol
Spray
Sealer
Part
No.
994757
on all
engine
gaskets to ensure against vacuum, oil, gasoline and

water
leaks. Apply to head gaskets, valve covers,
water
pumps, oil pan gaskets, radiator and heater
hose
connections, felt gaskets, gasoline and oil line
connections, stud bolts,
spark
plug threads, and
grease retainer washers. Refer to manufacturer's in­
structions on container for proper application pro­
cedure.

D-79.
Install
Oil
Gallery
Plug

Coat
plug threads with a suitable sealing compound

and
install the plugs in the front and
rear
ends of
the oil gallery in the cylinder block and the
rear

end of the cylinder head. Torque the plugs 20 to 25 lb-ft. [2,8 a 3,4 kg-m.].

There
is also a pipe plug
(}/g,f
[3,2 mm.] slotted, headless) in the opening in the main oil gallery inside the cylinder block at No. 2 cylinder and another pipe plug
(}/g
"
square-head) in the opening

in
the oil passage directly below the oil pump intake
passage. If
these
two pipe plugs were removed,
make
certain they are reinstalled in the locations
described above or the counterweight of the

crankshaft
might strike the projecting head of the
square-head
plug.

D-80.
Install
Tappets

Turn
the block upside down. Beginning at the

rear
end of the cylinder block, install the intake

and
exhaust valve tappets in the tappet bores in the cylinder block in the following order: one
exhaust, two intake, two exhaust, two intake, and
finally
one exhaust valve tappet.

Check
the tappet to bore fit of each tappet as it
is installed in the block. If the stem-to-block

clearance
tolerance of .0005" to .002" [0,0127 a
0,051 mm.] is
exceeded
install a new tappet fitting
within
this tolerance or ream the bore to accomo­ date the next oversize tappet which is available

in
.004" oversize.

D-81.
Install
Camshaft and
Thrust
Plate

Lubricate
all camshaft bearings and cam surfaces generously with clean, light
engine
oil.
Carefully,

so not to damage or score the camshaft front bear­
ing,
install the camshaft, locating it properly in the bearings. Do not allow the
rear
end of the cam­shaft to strike sharply against the expansion plug

installed
in the
rear
end of the bore.
Install
the camshaft thrust plate. Slide the thrust
plate spacer
onto
the end of the camshaft with the
beveled inner
edge
of the spacer facing the cam­
shaft. If the same camshaft is being reinstalled,
install
any shims previously removed. These shims
are
placed
between
the camshaft shoulder and the

spacer.
Torque the thrust plate attaching
bolts
20
to 26 lb-ft. [2,8 a 3,6 kg-m.].

End
play of the camshaft is determined by running
clearance
between
the
rear
face of the camshaft
gear and the thrust plate. The standard clearance 62

'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

D

HURRICANE
F4
ENGINE

FIG.
D-40—TIMING
GEARS Be
sure
to install a new rubber oil
seal
ring on each

intake
valve stem before installing the retainer

locks.
With
the retainer and spring compressed position a
seal
ring
on the valve stem just above the

lock
recess, then install the locks and release the
spring.

Adjust
the valve tappets to the proper specified

clearance.
Refer to Par. D-108, and specifications
at the end of this section for specifications and
adjustment procedure.

D-91.
Install
Camshaft
Timing
Gear

Turn
the camshaft or crankshaft as necessary so
that the timing marks on the two gears
will
be
together
after the camshaft timing gear is installed.

Refer
to Fig. D-40.
Install
the woodruff key in the key way on the front end of the camshaft.
Start
the large timing gear on the camshaft with the timing

mark
facing out. Do not drive on the camshaft gear, or the camshaft may
dislodge
the plug at the

rear
of the cylinder block causing an oil leak.
Install
the camshaft gear retaining screw and
torque it 30 to 40 lb-ft. [4,1 a 5,5 kg-m.] drawing
the gear
onto
the camshaft in the process. Standard
running
tolerance
between
the timing gears is .000" to .002" [0 a 0,051 mm.] which should be
checked with a
dial
indicator.

D-92.
Install
Timing
Gear
Oil Jet

Install
the timing gear oil jet in the tapped
hole

in
the front of the cylinder block. Position the oil

hole
in the side of the oil jet so that it
will
direct the

oil
stream against the camshaft driven gear just
ahead
of the point of
engagement
with the
crank­
shaft drive gear.

D-93.
Install
Oil Pump

The
oil pump is driven from the camshaft by means of a
spiral
(worm) gear. The distributor, in

turn,
is driven by the oil pump by means of a

tongue
on the end of the distributor shaft which
engages
a slot in the end of the oil pump shaft.
Because the
tongue
and the slot are both machined off center, the two shafts can be meshed in only
one position. Since the position of the distributor shaft determines the timing of the engine, and is
controlled by the oil pump shaft, the position of the oil pump shaft with respect to the camshaft is

important.

Turn
the crankshaft to bring
together
the timing
marks
on the crankshaft and camshaft gears. See

Fig.
D-4 0.
Install
the oil pump mounting gasket on
the pump.
With
the wider side of the shaft on top
(nearer
the top of the cylinder block), start the

oil
pump drive shaft into the opening in the left side of the cylinder block with the mounting
holes
in
the body of the pump in alignment with the
holes
in
the cylinder block. Insert a long-blade screw­

driver
into the distributor shaft opening in the

opposite
side of the block and
engage
the slot in the oil pump shaft.
Turn
the shaft so that the slot is positioned at what would be roughly the nine-

thirty
position on a clock face. Remove tne screwdriver and, looking down the

distributor
shaft
hole
with a flashlight, observe the position of the slot in the end of the oil pump shaft
to make certain it is properly positioned. Replace the screwdriver and, while turning the screw­

driver
clockwise to guide the oil pump drive shaft
gear into
engagement
with the camshaft gear, press
against the oil pump to force it into position. Remove the screwdriver and again observe the
position of the slot. If the installation was properly made, the slot
will
be in a position roughly equiva­
lent to eleven o'clock position on a clock face with
the wider side of the shaft
still
on the top. If the
slot is improperly positioned, remove the oil pump
assembly and repeat the operation.

Coat
the threads of the capscrews with gasket
cement and secure the oil pump in place with two
lockwasher-equipped capscrews installed through the body of the oil pump and into the cylinder block

and
one lockwasher-capscrew installed through
the oil pump mounting flange.

D-94.
Install
Timing
Gear
Cover

Apply
a thin coat of gasket paste to the timing
gear cover. Position the gasket on the cover and

carefully
locate the cover on the front of the front mounting plate. Attach the cover and timing

indicator
and tighten the bolts.

D-95.
Install
Pistons and Connecting Rods
Before installing each piston and connecting rod assembly in the cylinder block, generously lubricate
the entire assembly with
engine
oil. Space the ring
gaps
around the piston so that no two
gaps
are
aligned vertically and are not located over the
T-slot
in the piston
skirt.
Insert the assembly in
the correct cylinder with the connecting rod
identifying number toward the camshaft side of
the cylinder block. When installing each assembly, rotate the crankshaft so that the
crankpin
is in
the down position. Fit a piston ring compressor
tightly around the piston rings. Reach up from the
bottom
of the cylinder block and guide the end of
the connecting rod over the crankshaft
journal
as
the piston is tapped down into the cylinder bore

with
hammer handle. 66

D
HURRICANE
F4
ENGINE
D-101.
Install
Manifold

If
manifold studs were removed for replacement,
apply sealer on the stud threads
before
installing
a
new stud.
See Section Fl for exhaust emission controlled

engines.
Make
certain that no foreign objects are inside the manifold and that all
passages
are clear. Place a
new set of manifold
gaskets
in position on the side
of the cylinder block.
Then,
carefully slide the manifold
onto
the studs and against the cylinder block being careful not to damage the gaskets.
Torque
all manifold attaching nuts evenly 29 to
35 lb-ft. [4,0 a 4,8 kg-m.].
D-102.
Install
Oil
Filler
Tube

When
installing the oil filler tube, be sure that the
beveled lower end is away from the crankshaft.
Place a
piece
of
hard
wood
over the top of the
tube

to prevent damage to the cap gasket seat.
D-103.
Install
Water Pump

Make
certain that the mating surfaces of the water pump and the cylinder block are clean and smooth.
Install
the gasket on the
flange
of the pump and

install
the pump in position on the cylinder block.
Torque
the water pump attaching
bolts
alternately

and
evenly 12 to 17 lb-ft. [1,7 a 2,3 kg-m.].
D-104.
Install
Water Outlet Fitting

Install
the thermostat and the water
outlet
fitting.
Torque
the water
outlet
fitting attaching
bolts
20
to 25 lb-ft. [2,8 a 3,4 kg-m.].
FIG.
D-42—INSTALLING HURRICANE F4 ENGINE
IN
VEHICLE

1—
Lifting
Sling
2— Hoist
Cable

3—
Hurricane
F4 Engine
4— Dowel Bolt
5—
Flywheel
Housing
D-105.
ENGINE INSTALLATION
a.
Install
lifting sling to
engine
and using suitable hoist raise the
engine
from its blocking or stand

and
then slowly lower it
into
the
engine
compart­ment of the vehicle.

Note:
When installing the
Hurricane
F4 Engine,
two % x 4 inch
guide
bolts
or
dowels
should be
used to properly
guide
and align the
engine
to the
flywheel housing (See Fig. D-42).
b. Slightly tilt the
engine
downward and at the
same time slide the
engine
rearward
while lining up the transmission main gear shaft with the clutch
throw-out bearing and disc spline.

Note
:The
engine
crankshaft may have to be turned
slightly to align the transmission main gear shaft
with the clutch disc spline.
c. Remove the
guide
bolts
or
dowels
and secure
the
engine
to the housing.

d.
Secure the front
engine
mounts to the frame brackets and
bolt
ground cable to
engine.

e. Remove lifting sling from
engine.

f. Connect exhaust pipe to
engine
manifold flange.
g. Connect throttle and choke cables to carburetor.
h.
Install
fan to water pump pulley.
i.
Connect fuel pump line to main fuel line,

j.
Replace starting motor assembly. k. Connect
engine
wiring harness connectors at
front of cowl.

I.
Connect wires to starting motor assembly, water
temperature and oil pressure sending units and alternator.

NOTE:
ON
ENGINES EQUIPPED WITH EX­

HAUST
EMISSION CONTROL,
REPLACE
THE
AIR
PUMP,
AIR
DISTRIBUTOR
MANI­

FOLD,
AND
ANTI-BACKFIRE (DIVERTER)
VALVE.
SEE
SECTION
Fl.
m. Replace radiator and radiator grille support
rods and connect coolant
hoses
to
engine.

Note:
Replace heater
hoses
if vehicle is equipped
with hot water heater.

n. Fill
radiator with coolant and
engine
with oil
(see
Lubrication
Chart).

o.
Install
air cleaner and connect carburetor air
hose.

p. Connect battery cables and start
engine,

q.
Install
hood
and road
test
vehicle.
D-103.
FINAL
IN-VEHICLE
ADJUSTMENTS
a.
Clean
battery terminals and check battery. b.
Check
ignition terminals and check battery.
c. Service carburetor air cleaner.

d.
Service positive crankcase ventilation valve.
e.
Check
fuel lines. f. Gap and install new
spark
plugs.
g.
Check
distributor
points
and capacitor; replace
if
necessary. 68

'Jeep'
UNIVERSAL SERIES SERVICE
MANUAL

Dl

©©©©©©©©©

12697

FIG.
Dl-1—DAUNTLESS
V-6
ENGINE, SIDE SECTIONAL VIEW

1—
Fan
Blade
2—
Fan
Spacer

3—Fan
Pulley
4—
Water
Pump 5—
Timing
Chain
Cover
6—
Camshaft
Sprocket
7—
Thermostat
Bypass Hose
8—
Thermostat
Housing
9—
Thermostat

10—
Carburetor

11—
Intake
Manifold
12—
Rocker
Arm Cover 13—
Cylinder
Block 14—
Push
Rod
15—
Camshaft

16—
Flywheel
17—
Clutch
Pressure Plate
18—
Clutch
Driven Plate
19—
Clutch
Pilot Bearing
20—
Oil
Seal Packing
21—
Rear
Main
Bearing Shell
22— Connecting Rods
23—
Rear
Center
Main
Bearing Shell
24—
Oil
Screen
25—
Oil
Screen Pipe and Housing
26—
Oil
Pan 27—
Front
Center
Main
Bearing Shell
28—
Crankshaft

29—
Front
Main
Bearing Shell
30—
Timing
Chain

31—
Crankshaft
Sprocket
32—
Oil
Slinger
33—
Oil
Shedder 34 Oil Shedder Packing
35—
-Woodruff
Key
36—
"Vibration
Damper
37—
Crankshaft
Pulley
38—
Fan
Belt matic adjuster, to prevent lash in the valve operat­
ing linkage. Hydraulic valve lifters also provide

a
cushion of oil to absorb operating shocks. As shown in Fig. Dl-3, all parts of a hydraulic lifter

are
housed in the body, which is the cam follower.

At
the beginning of valve operation, the valve lifter body rests on the camshaft base circle.

Plunger
spring tension prevents lash clearances in the valve linkage.

As
the camshaft forces the valve lifter body up­

ward,
both oil in the lower chamber and check

ball
spring
tension firmly seat the check ball against the plunger to prevent appreciable
loss
of oil from
the lower chamber. Oil pressure forces the plunger
upward,
with the body, to operate the valve linkage.

As
the camshaft rotates to closed-valve position, the valve spring forces the linkage and lifter down­

ward.
When the
engine
valve seats, the linkage

parts
and plunger stop, but the plunger spring forces
the body downward .002" to .003"
[0,050
a
0,076
mm.] until it again rests on the camshaft base

circle.
Oil pressure then forces the check ball away

from
its seat and allows passage of oil past the check ball into the lower chamber.
This
replaces
the slight amount of oil lost by leakage. During
the valve opening and closing operation, a very
slight amount of oil escapes
between
plunger and body, and returns to the crankcase.
This
slight
loss
of oil (leak-down) is beneficial. It provides a
gradual
change of oil in the valve lifter; fresh oil
enters the lower chamber at the end of each cycle
of operation. 77