1953 JEEP DJ oil change
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'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
Page 79 of 376
'Jeep*
UNIVERSAL SERIES SERVICE
MANUAL
Dl
12710
FIG.
D1
-3—HYDRAULIC VALVE
LIFTER
ASSEMBLY, CROSS-SECTIONAL VIEW
1—
Snap
Ring
6—Ball Retainer
2— Rod
Seat
7—Plunger Spring
3—
Oil
Inlets
8—Lifter
Body
4—
Plunger
9—Bronzed
Cap
5— Feed
Hole
sages
in the block and cylinder head.
The
water cooled system is pressurized to provide efficient
engine
cooling. It consists of a centrifugal-
type water pump, mounted on the timing chain cover, and is driven by the
engine
fan pulley. The
pump provides coolant flow equally to both
cylin
der banks under control of a thermostat. Coolant
flow is around the cylinders and through the
cylinder
head to dispel the heat of combustion in
the engine.
Dl-3.
Engine Mounts
The
engine-transmission unit is mounted to the chassis at three points by rubber pads. The two
front mounts are bolted to the
engine
cylinder
block and the frame members. These mounts sup port most of the
engine
weight, and absorb
vibra
tion which would otherwise be caused by changes
in
engine
output torque. The single
rear
mount is
placed
between
the transmission and the trans mission support. It supports part of the engine'
and
transmission weight, and locates the
rear
of
the
engine
with respect to the centerline of the
vehicle.
Dl-4. ENGINE REMOVAL
To
remove the
engine
from the vehicle follow the
procedurers listed below:
a.
Remove hood. b. Disconnect battery cables from battery and
engine. c. Remove air cleaner.
d.
Drain
coolant from radiator and engine.
e.
Drain
engine
oil.
f. Disconnect alternator wiring harness from con nector at regulator.
cj.
Disconnect the fuel evaporative purge line con nected to the
P.C.V.
valve.
h.
Disconnect upper and lower radiator
hoses
from
the engine.
i.
Remove right and left radiator support
bars,
j.
Remove radiator from the vehicle.
k.
Disconnect
engine
wiring harnesses from con
nectors located on
engine
firewall.
I.
On
engines
equipped with exhaust emission con
trol,
remove the air pump, air distribution manifold,
and
anti-backfire (gulp) valve. See Section F2 for
procedure.
m.
Disconnect battery cable and wiring from en
gine
starter assembly.
n.
Remove
engine
starter assembly from engine,
o.
Disconnect
engine
fuel
hoses
from fuel lines at
right
frame
rail,
p. Plug fuel lines.
q.
Disconnect choke cable from carburetor and cable support bracket mounted on engine,
r.
Disconnect exhaust pipes from right and left
engine
manifolds.
s. Place
jack
under transmission and support trans
mission weight.
f. Remove
bolts
securing
engine
to front motor mounts.
u.
Attach suitable sling to
engine
lifting
eyes
and,
using hoist, support
engine
weight.
v. Remove
bolts
securing
engine
to flywheel housing.
w. Raise
engine
slightly and slide
engine
forward
to remove transmission main shaft from clutch plate spline.
Note:
Engine and transmission must be raised
slightly to release the main shaft from the clutch
plate while sliding the
engine
forward.
x. When
engine
is free of transmission shaft raise
engine
and remove from vehicle,
y. Place
engine
on suitable blocking or
engine
stand and remove sling from engine.
Dl-5.
ENGINE DISASSEMBLY
Engine
disassembly is presented in the sequence to be followed when the
engine
is to be completely
overhauled after removal from the vehicle. Some of the operations of the procedure are also applicable separately with the
engine
in the vehicle,
provided that wherever necessary the part of the
engine
to be worked on is first made accessible by removal of
engine
accessories or other parts.
When
the disassembly operations are performed
with
the
engine
out of the vehicle, it is assumed,
in
this procedure, that all of the accessories have
been removed
prior
to starting the disassembly and
the oil has been drained.
Page 86 of 376
Dl
DAUNTLESS
V-6
ENGINE
Dl-38.
Crankshaft
Cleaning
Clean
the crankshaft thoroughly with a suitable
cleaning solvent.
Clean
drilled oil
passages
in its
journals
with a small rifle brush to remove all
sludge
or gum deposits; dry
passages
with com
pressed air.
Dl-39.
Crankshaft
Inspection
and
Repair
If
the crankshaft has not
been
removed from the
cylinder
block for inspection, disconnect two con necting rods at a time from crankshaft. Inspect
the bearings and crankpin journals. While turning
crankshaft,
it is necessary to temporarily reconnect
the rods to crankshaft to avoid possibility of dam aging the journals through contact with uncon
nected rods.
Inspect the crankpins visually for excessive or ir
regular
wear, and for scoring. Use an
outside
micrometer to check crankpins for out-of-round.
Standard
crankpin
diameter is
2.0000"
[5,080
cm.].
If
crankpins are more than .0015"
[0,0381
mm.]
out-of-round, new bearings cannot be
expected
to
have satisfactory life.
If
the crankshaft has
been
removed from the
cyl
inder
block for inspection support it on V-blocks
at its main bearing journals 1 and 4. Inspect the
main
bearing journals visually for excessive or ir
regular
wear, and for scoring. Standard main bear
ing
journal
diameter is 2.4995"
[6,349
cm.].
Total
indicator readings at each
journal
should not ex
ceed .003"
[0,076
mm.].
Check
run out at all four journals and
note
high
spot
(maximum eccentricity) of each
journal.
High
spot
of each
journal
should
come
at the same
angular
location. If high
spots
do not coincide,
crankshaft
is misaligned and unsatisfactory for
service.
If
crankpin or main bearing journals are scored,
ridged, or out-of-round, the crankshaft must be replaced or reground to a standard undersize bear
ing diameter to ensure satisfactory life of bearings. Slight roughness can be removed with a fine grit
polishing cloth thoroughly
wetted
with
engine
oil.
Burrs
can
be
honed with a fine oil
stone,
so long as
bearing clearances
will
remain within specified
limits.
Dl-40.
Crankshaft
Main
Bearings
A
crankshaft bearing consists of two halves which
are
neither alike nor interchangeable. One half is
carried
in the corresponding main bearing cap; the
other half is located
between
the crankshaft and
cylinder
block. The upper (cylinder block) half
of the bearing is grooved to supply oil to the con necting rod bearings, while the lower (bearing cap)
half
of the bearing is not grooved. The two bearing
halves must not be interchanged. All crankshaft
bearings
except
the thrust bearing and the
rear
main
bearing are identical. The thrust bearing (No. 2) is longer and it is flanged to take
crank
shaft end thrust. When the bearing halves are
placed in cylinder block and bearing cap, the
ends
extend slightly beyond the parting surfaces. When
cap
bolts
are tightened, the halves are clamped
tightly in place to ensure positive seating and to
prevent turning. The
ends
of bearing halves must never be filed flush with parting surface of
crank
case or bearing cap.
Crankshaft
bearings are the precision type which
do not require reaming to size or other fitting.
Shims
are not provided for adjustment since worn
bearings are readily replaced with new bearings of proper size. Bearings for service replacement are
furnished
in standard size and undersizes. Under no circumstances should crankshaft bearing caps
be filed to adjust for wear in old bearings.
Dl-41.
Crankshaft
Main
Bearing
Cleaning
and
Inspection
Clean
main bearing surfaces. Inspect the bearings
visually
for excessive or uneven wear, scoring, and
flaking.
Visibly worn or damaged bearings must
be replaced. It is necessary to check
radial
clear ance of each new or used crankshaft main bearing
before installation.
This
can be
done
by either of two methods, which are described in
Pars.
Dl-42
and
Dl-43.
a.
The desired
radial
clearance of a new bearing
is .0005" to .0021"
[0,0127
a
0,0534
mm.].
b. Replacement bearings are furnished in standard
size, and in several undersizes, including undersizes
for reground journals. If a new bearing is to be installed, try a standard size; then try each under
size in turn until one is found that
meets
the
specified clearance limits.
Note:
Each
undersize bearing half has a number
stamped on its outer surface to indicate amount of undersize. Refer to Fig. Dl-12. 14288
FIG.
Dl-12—LOCATION
OF
UNDERSIZE
MARK
ON
BEARING
SHELL
1—
Tang
2—
Undersize
Mark
Dl-42.
Main
Bearing
Fitting,
Plastigage
Bearing
clearance can be checked by use of Plasti
gage,
Type PG-1 (green) which has a range of
.001" to .003" [0,025 a
0,076
mm.]. Refer to
Fig.
Dl-13.
a.
Place a piece of Plastigage lengthwise along the
bottom
center of the lower bearing half, then 86
Page 90 of 376
DAUNTLESS
V-6
ENGINE
Note:
The rib on
edge
of cap and the conical
boss
on web of connecting rod must be toward
rear
of
engine
in all connecting rod assemblies of left
cyl
inder
bank and toward front of
engine
in all connecting rod assemblies of right cylinder bank.
Dl-50.
Oil
Pump Intake
and
Screen Cleaning
a.
Pry screen from housing and examine for clog
ging due to deposit of sludge or other foreign
material.
b.
Clean
the screen and housing thoroughly in sol
vent; dry with compressed air.
c.
Install
screen in housing.
Dl-51.
Oil Pan Cleaning and Inspection
Inspect
the oil pan for corrosion, dents, leaks, and
other damage. Inspect its mounting flange carefully
for damage or distortion to be certain that it
will
give
a
good
seal.
Dl-52.
Flywheel Cleaning
and
Inspection
Clean
the flywheel with suitable cleaning solvent;
dry
with compressed air. Inspect clutch face for
burned
or scuffed condition and for rivet grooves.
Inspection
for run out or improper mounting is de
scribed
in installation procedure.
Inspect
teeth
of the flywheel
ring
gear for
burrs,
nicks,
and minor distortion. If necessary and pos
sible, use a small emery wheel to remove
burrs
and
reshape teeth. If gear
teeth
are broken,
cracked,
seriously
burred
or deformed, the
ring
gear must be replaced.
Dl-53.
Ring Gear Replacement
a.
Drill
a
hole
between
two
ring
gear teeth; then
split
the gear with a cold chisel. Be careful not to
damage
ring
gear shoulder or seat surfaces of fly
wheel.
b.
Polish several
spots
on the new
ring
gear to be
installed.
With
a hot plate or slowly moving torch,
heat the new
ring
gear until polished
spots
become
blue, about
600°F.
[312°C.].
Caution:
Do not heat the
ring
gear to a temperature
greater than
800°F.
[424°C.].
Excessive heat
will
destroy heat treatment given to
ring
gear during
manufacture.
c.
Quickly
install
ring
gear on flywheel. Chamfered
edge
of
ring
gear must be toward
ring
gear shoulder
of flywheel. Be certain that
ring
gear is seated prop
erly.
Allow
ring
gear to cool slowly, so that it
will
be held tightly in place.
Dl-54.
Flywheel Housing Cleaning and Inspection
Both
flywheel and clutch are enclosed by a fly
wheel housing. Its front surface is bolted to the
engine
cylinder block, and its
rear
surface acts as
front
support to the transmission.
Clean
the fly wheel housing with a suitable cleaning solvent; dry
with
compressed air. Inspect front and
rear
surfaces
for distortion and improper alignment with each
other;
these
planes must be
parallel
to assure
proper
alignment
between
engine
and transmission.
Dl-55.
Camshaft Cleaning
and
Inspection
Clean
both camshaft and camshaft bearing surfaces
with
a suitable cleaning solvent; dry with com
pressed air.
Note:
The steel-backed babbitt-lined camshaft
bearings are pressed into the crankcase.
From
front
to
rear,
each bearing is .030" [0,76 mm.] smaller
in
diameter than the preceding bearing.
From
front
to
rear,
each camshaft
journal
is correspondingly
smaller
in diameter.
The
camshaft bearings must be line reamed to
proper
diameter after being pressed into crankcase.
Since
this operation requires special reaming equip
ment, the original bearings should be retained un
less
they are severly damaged. Slightly scored cam
shaft bearings are satisfactory if the surfaces of camshaft journals are polished, bearings are
polished to remove
burrs,
and
radial
clearance
between
camshaft and bearings is within .0015"
to .004" [0,038 a 0,102 mm.].
Dl-56.
Valve Lifter
and
Push
Rod
Cleaning and Inspection
a.
Examine the cam contact surface at lower end of each valve lifter body. If surface is excessively
worn,
galled, or otherwise damaged, discard the
valve lifter. Also examine the mating camshaft
lobe
for excessive wear or damage.
b.
Disassemble one or two valve lifters, as de
scribed
below, and inspect them for
dirt
or
varnish.
If
they are dirty or have a varnish deposit, clean
and
inspect all twelve valve lifters. Otherwise,
service
only
those
valve lifters which do not operate
properly.
c.
To disassemble each valve lifter, depress the
push
rod seat with a push rod, and remove the
plunger retainer from the valve lifter body with
a
retainer remover. Remove push rod seat and
plunger from valve lifter body. If plunger sticks
in
valve lifter body, place body in large end of
a
plunger remover tool, with plunger downward.
While
holding lifter with thumb, rap the open end
of remover against a block of wood with just enough force to jar the plunger from body. Refer to
Figs.
Dl-20, Dl-22 and Dl-23.
d.
Drain
oil from valve lifter and remove the check
valve retainer,
ball,
valve spring, and plunger
spring.
e. Keep all parts of each valve lifter separated
during
part cleaning and inspection. The valve
lifter
body and plunger are selectively fitted to each other and must not be interchanged with parts
of other valve lifters.
f. Rinse all valve lifter parts in kerosene to remove as much oil as possible.
This
will
reduce contamina
tion of the cleaning solvent. Immerse all parts in cleaning solvent for approximately one hour. The
time required
will
depend on varnish
deposits
and
effectiveness
of the solvent. After the varnish has
dissolved or has
softened
sufficiently to permit re
moval
by wiping, allow parts to
drain.
Varnish
can
then be cleaned from the valve lifter body
with
a
brush.
Rinse the parts in kerosene to dissolve 90
Page 92 of 376
Di
DAUNTLESS
V-6
ENGINE
12721
FIG.
D1-22—REMOVAL
AND
INSTALLATION
OF
VALVE
LIFTER
RETAINER
RING
A—Removal'
1—
Push
Rod
2—
Tool
3-
B-
-Retainer
-Installation
T)
0
© ©
6
FIG.
D1-23—HYDRAULIC
VALVE
LIFTER
1—
Body
2—
Spring
3—
Ball
Retainer
4—
Ball
5— -Plunger
6—
Push
Rod
Seat
7—
-Retainer
rinse
and
install
the
check valve
ball,
check valve
spring,
check valve retainer, plunger spring,
and
valve lifter body over
the
plunger. Rinse push
rod
seat and retainer ring in kerosene. Place
these
parts
in
end of
body and depress with
a
suitable tool
to
cause retainer
to
engage
groove
in
valve lifter body.
o.
Wrap
the
valve lifter
in
clean paper,
or
other
wise protect
it
from
dirt,
during cleaning
and in
spection
of the
other valve lifters.
Dl-57.
Hydraulic Valve
Lifter
Leak-down
Test
Check
leak-down rate
of
hydraulic valve lifters
with
valve lifter pliers W-324
or
equivalent.
Im
merse
the
valve lifter
in
kerosene
and
grasp
the
valve lifter with
the
pliers,
as
shown
in
Fig. Dl-24, so that
the
push rod
of the
pliers
engages
the
push
rod
socket
of
the lifter. Squeeze and hold
the
pliers,
checking
the
time required
for
leak-down.
Leak-
down should take
between
12 and 60
seconds.
Check
a
doubtful valve lifter three
or
four times.
Replace
valve lifters that
do not
have
a
proper
leakdown rate.
FIG.
Dl-24—VALVE
LIFTER
TEST
Dl-58.
Rocker
Arm
Disassembly
This
engine
has two
rocker arm assemblies, each of which
is
associated with
one of its two
cylinder
banks.
Each
rocker arm assembly
is
disassembled as follows:
a.
Remove cotter pin, flat washer, spring retaining
ring,
and one
rocker
arm
from each
end of the
rocker
arm shaft.
b.
Withdraw
two
bolts
from outer shaft supports
and
rocker arm shaft. Remove outer supports,
two
rocker
arms, two spacer springs, and
two
remaining
rocker
arms from shaft. Withdraw bolt from center
support
and
remove support from shaft.
Dl-59.
Rocker
Arm Cleaning and
Inspection
a.
With
a
wire brush and suitable cleaning solvent,
clean
any
sludge
or
dirt
from hollow core
and
oil
ports
of the
rocker
arm
shaft, from bores
of
shaft supports, and from
oil
passage
in
each rocker
arm.
Dry
these
parts with compressed
air.
Clean
all
other parts with cleaning solvent and dry with
compressed
air.
b.
Inspect
the
rocker
arm
shaft
for
scoring
or
abrasion
at the
rocker arm bearing areas and, with
a
surface plate, check
for
bent
or
distorted condi
tion. Inspect
the
rocker arms
for
excessive wear,
scoring,
or
abrasion
of
bearing surfaces.
Check
for
loose
or
damaged valve stem
or
push
rod
inserts.
Inspect
the
spacer springs
for
breaks, deformity,
and
loss
of
tension. Replace
any
visibly worn
or
damaged parts. Inspect
the
mounting
bolts
for
damage.
Repair
damaged threads
or
replace
as
necessary.
c.
Measure rocker
arm
shaft diameter
and
bore
diameters
of
rocker arms.
This
clearance should be .0017"
to
.0032"
[0,0432
a
0,0812
mm.]. If
necessary, replace worn rocker arms, shaft,
or
both.
Dl-60.
Rocker
Arm Assembly
Note:
All three shaft supports
of
each rocker arm
assembly are identical and interchangeable. In
the
description
to
follow, "center"
and
"outer" refer only
to
their position
on the
shaft.
Caution:
There
are two
different
types
of
rocker
arms,
three
of
each type,
in
each rocker arm shaft
assembly. They
are not
interchangeable. One face
of each rocker arm
has a
notch; when installed
on
the shaft, this notched face must touch
a
shaft support.
92
Page 96 of 376
Dl
DAUNTLESS
V-6
ENGINE
Note:
During
engine
reassembly, use Perfect Seal
Aerosol
Spray Sealer
Part
No.
994757
on all en
gine
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 manufac
turer's
instructions on container for proper appli
cation procedure.
Dl-72.
Cylinder
Block
and Crankshaft
Rear
Oil Seals
Braided
fabric seals are pressed into
grooves
of
cylinder
block and
rear
main bearing cap, to
rear
of the oil collecting groove, to seal against oil leak age at the crankshaft. Refer to Fig. Dl-32.
FIG.
Dl-32—INSTALLING
CRANKSHAFT REAR
OIL
SEAL
1—Neoprene
Seal
2—Fabric
Seal
A
neoprene composition (stick) seal is installed in
grooves
in the sides of the
rear
main bearing cap
to seal against leakage in the joints
between
the
cap and cylinder block. The neoprene composition
expands in the presence of oil and heat.
This
seal
is undersize when newly installed. Refer to Fig.
Dl-32.
a.
The braided fabric seal can be installed in the
cylinder
block only when the crankshaft is re moved; however, the seal in the cap can be replaced
whenever the cap is removed. Remove oil seal and place new seal in groove, with both ends projecting
above parting surface of cap. Force seal into
groove
by rubbing down with hammer handle or smooth
stick
until seal projects above the
groove
not more
than
[1,59 mm.]. Cut ends off flush with
sur
face of cap, using sharp knife or razor blade.
Lubricate
the seal with heavy
engine
oil just before
installation.
Caution:
The
engine
must be operated at slow
speed when first started after new braided seal
has been installed.
b. The neoprene composition seal is slightly longer
than
the
grooves
in the bearing cap. The seal must
not be cut to length. The seals are installed after the bearing cap is installed in the block and torqued
firmly
in place. Dip the neoprene seals in kerosene
approximately IV2 minutes, then install seals into
bearing cap grooves. The protruding ends of the seals are, again, squirted with kerosene, wiped off,
and
peaned over with a hammer to be sure of a
seal
at the upper parting line
between
the cap and
cylinder
block.
Dl-73.
Main
Bearing and Crankshaft
Installation
Refer
to Fig. Dl-6.
This
procedure assumes that crankshaft main bear
ings have been inspected and proven satisfactory,
or
that new crankshaft main bearings of appropriate size have been selected. If necessary, check or select
main
bearings as described in Par. Dl-41 and
Pars.
Dl-42 and Dl-43.
a.
Install
four upper main bearing halves in
seats
of cylinder block so that prong of each bearing half
fits into corresponding notch of seat. Flanged thrust
bearing must be installed in the second seat from
front of engine.
Install
a new upper crankshaft
rear
oil seal in the cylinder block as described in
Par.
Dl-72.
Caution:
Upper main bearing halves have an oil groove, while lower halves are plain. They must
not be interchanged.
b. Apply
engine
oil to upper bearing surfaces.
Install
the crankshaft so that its four journals rest
in
the upper bearing halves.
c. Seat all four lower main bearing halves in cor
responding bearing caps.
Install
a new lower
crank
shaft
rear
oil seal and cylinder block
rear
oil seal
described in
Par.
Dl-72, a and b.
Lubricate
all lower
main
bearing surfaces with
engine
oil. Position bear ing caps to cylinder block and crankcase journals.
Install
two cap bolts,
loosely,
at each cap.
d.
It is necessary to align thrust surfaces of the
second main bearing whenever it has been removed
from
the engine. To do this, pry the crankshaft
back
and forth several times, throughout its entire end travel, with cap
bolts
of second main bearing
only finger tight.
e. Tighten alternate cap
bolts
of each main bearing
cap,
a little at a time, until they have been tight ened to 80 to 110 lb-ft. [11,1 a 15,2 kg-m.] torque.
D1-74. Crankshaft End Play Check
To
measure crankshaft end play, mount a dial
indicator
on the cylinder block and index its plung
er
to either a front or
rear
face of one crankshaft
counterweight. Pry the crankshaft to one limit
of its end travel and adjust the dial indicator to
zero. Pry the crankshaft to its
opposite
end travel
limit
and
note
end play as indicated by the dial
indicator.
Crankshaft end play tolerances are .004"
to .008" [0,102 a
0,204
mm.]. If end play is too great, it can be corrected only by replacement of
the second main (thrust) bearing.
Dl-75.
Piston and Connecting Rod
Installation
This
procedure assumes that connecting rod bear ings have been inspected and proven satisfactory,
or
that new connecting rod bearings of appropriate 96
Page 156 of 376
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
Page 183 of 376
'Jeep*
UNIVERSAL
SERIES SERVICE
MANUAL
H
|
13399
FIG.
H-10—DELCO
DISTRIBUTOR—
DAUNTLESS
V-6
ENGINE
1—
Rotor
8—Vacuum
Unit
2—
Window
9—Breaker Cam
3—
All
Weather Cap
10—Drive
Gear
4—
Cap
Latch
11—Primary Lead 5—
Rotor
Mounting
Screw 12—Contact Set
6—
Lock
Washer 13—Condenser
7—
Advance
Mechanism
by
built-in
centrifugal weights, and by a vacuum
advance
system. Contact point opening is adjusted
through
a window in the distributor cap
while
the engine is
idling.
Some
parts
of the distributor may be checked or replaced
with
the distributor mount
ed on the engine, but it is
best
to remove it periodi
cally
for a thorough check. Information on
parts
which
can be serviced without removal is given
below.
Note:
Prestolite and Delco distributors are inter
changeable
on V-6 engine equipped vehicles.
H-21.
Distributor Cap
The distributor cap should be inspected for cracks,
carbon runners and evidence of arcing. If any of
these
conditions exist, the cap should be replaced. Clean any corroded high tension terminals.
H-22.
Rotor
Inspect the rotor for cracks or evidence of
exces
sive burning at the end of the metal strip.
After
a distributor rotor has had normal use, the
end of the rotor
will
become
burned. If burning is
found
on top of the rotor it indicates the rotor is too short and
needs
replacing. Usually when this
condition
is found the distributor cap
segment
will
be burned on the horizontal face and the cap
will
also
need
replacing.
H-23.
Condenser
The
condenser
prolongs the
life
of the distributor
points by preventing arcing at the contacts. It
also
provides a hotter spark by creating a
reverse
surge
of
current
which
rapidly
breaks
down the magnetic
field
of the
coil
by demagnetizing the core. Should
the
ccnaenser
be leaky a weak spark
will
result. Check the
condenser
lead for broken wires or
frayed
insulation.
Clean and tighten the connections
on
the terminal
posts.
Be
sure
the
condenser
is mounted
firmly
on the distributor for a good ground
connection.
Should
a
condenser
tester
be available the capacity
should check
from
.18 to .23 microfarads. In the
absence
of a
tester
check by substituting new con
denser.
H-24. Distributor Points
a-
Examine distributor points. Using
Tool
C-4094, check point contact spring
pressure,
should be 19 to 23 oz. [0,538 a 0,652 kg.]. Install new points
if
they are
worn,
pitted,
mate
poorly, or show
signs
of
metal transfer. Should premature
ignition
point
failure
occur
because
of dust entering the
distri
butor cap and causing
excessive
wear to the
ignition
point
fiber block, perform the
following
correc
tions after installing new distributor points.
FIG. H-l
1—SEALING
DISTRIBUTOR
CAP
1—Caulking
Compound
183