Jeep*
UNIVERSAL SERIES SERVICE
MANUAL
c
TUNE-UP
Contents
SUBJECT
PAR.
GENERAL
C-l
TUNE-UP
.C-2
Air
Cleaner
C-21
Battery
. C-3
Carburetor
Adjustments
C-2 5
Coil
C-20
Crankcase
Ventilation C-6
Cylinder
Compression C-9
Cylinder
Head(s) .C-5
Dash
Pot Adjustments .C-26
Distributor
Service C-10
thru
C-13
Distributor
Resistance Test C-l6
Fan
Belt
C-2 7
Fuel
Lines
and Screens
C-2
2
C-l.
GENERAL
An
engine tune-up should be performed for all
Jeep Vehicles each 6000 miles [9.600 km.] or at the end of each 250 hours off-the-road operation,
to ensure best possible performance at all times.
The
tune-up should follow the sequence given in
this section.
Because of federal laws limiting exhaust emissions,
it
is even more important that the engine tune-up is
done
accurately, using the specifications listed
on the tune-up sticker found in each engine com
partment.
Note;
To ensure proper operation and effectiveness
of the exhaust emission control system, and to
comply with
Federal
and State requirements, a
recheck
of ignition timing, idle speed and idle mix
ture
and necessary adjustments must be performed
after the first
2,000
miles [3.200 km.] of vehicle
operation.
A
minor engine tune-up should be performed every
6,000
miles [9.600 km.] or at the end of 250 hours
of off-the-road use.
Major
engine tune-up should
be performed every 12,000 miles [19.300 km.].
The
parts of units which affect power and perform
ance may be divided into three groups:
(1) Units affecting compression
(2) Units affecting ignition
(3) Units affecting carburetion
The
tune-up procedure should cover
these
groups
in
the order given. While the items affecting com
pression and ignition may be handled according
to personal preference, correction of items in the
carburetion
group should not be attempted until
all
items affecting compression and ignition have
been satisfactorily corrected.
Note:
To make sure hydro-carbon and carbon
monoxide emissions
will
be within limits, it is very
impotrant
that the adjustments be followed exactly
as listed on the sticker found in each engine compartment.
SUBJECT
PAR.
Fuel
Pump . . C-23
Heat
Control
Valve C-7
Ignition
Cables C-19
Ignition
Timing
. C-14
Ignition
Wires C-l8
Manifold
C-5
Manifold
Vacuum C-24
Point
Dwell C-17
Primary
Circuit
Tests
.................
C-15
Spark
Plugs C-4
Tappets
C-8
ROAD TEST C-2
8
SERVICE
DIAGNOSIS
. : C-29
TUNE-UP SPECIFICATIONS..
C-30
Minor
engine tune-up consists of the following.
Inspect
and correct as required:
Battery
cables and connections.
Alternator
and regulator wiring.
Primary
— Secondary wiring, distributor cap.
Cylinder
head torque.
Contact
point dwell.
Vacuum
and centrifugal advance.
Ignition
timing.
Spark
plugs for correct air gap.
Adjust
idle speed and idle air mixture.
Adjust
all drive belt tensions.
Clean
carburetor air cleaner.
Lubricate
exhaust manifold damper.
Major
engine tune-up includes the following.
Inspect
and correct as required:
Battery
condition and charging
circuit.
Clean,
lubricate
and tighten battery cable connec
tions.
Ingition
system.
Spark
plugs; replace if necessary or clean and gap.
Compression
check.
Primary—Secondary
wiring, distributor cap.
Replace
contact points and condenser.
Lubricate
distributor cam with cam grease.
Adjust
contact points.
Check
vacuum and centrifugal advance. Set ignition timing.
Torque
cylinder head.
Adjust
idle speed and idle air mixture.
Replace
fuel filter element (every 12,000 miles [19.300
km.]).
Adjust
all drive belt tensions.
IMPORTANT: SPECIFICATIONS
FOR EN-
GINE
RPM.
DISTRIBUTOR POINT DWELL,
AND IGNITION TIMING GIVEN
IN
TUNE- UP SECTION
C
REFER
TO
VEHICLES
WITH
AND WITHOUT EXHAUST EMISSION CON
TROL
SYSTEMS.
FOR
VEHICLES
EQUIPPED WITH EXHAUST
EMISSION CONTROL SYSTEMS ALSO
REFER
TO
SECTION
Fl (F4-134
ENGINE)
AND
F2 (V6-225
ENGINE).
19
'Jeep*
UNIVERSAL
SERIES
SERVICE
MANUAL
C
FIG.
C-2
7—FAN
BELT
—
DAUNTLESS
V-6
ENGINE
e. Adjust mixture by turning idle mixture screws
out (counterclockwise) until a loss of engine speed
is indicated; then, slowly
turn
both mixture screws
in
clockwise (leaner) until maximum speed (RPM)
is reached. Continue turning in (clockwise) until a slight drop in speed (RPM) is noted. Make certain
both mixture screws are adjusted equally.
This
will
ensure a "lean as possible" mixture adjustment.
Readjust
idle
stop
screw to idle engine at the
specified
R.P.M.
Note:
This
method of adjusting idle mixture must
be used to keep hydrocarbon and carbon monoxide
emissions to a minimum.
Note:
No fast idle speed adjustment is required.
Fast
idle is controlled by the curb idle speed ad justment screw. If the curb idle speed is correctly set, the fast idle speed
will
be correct.
C-26.
Dash
Pot
Adjustment
Refer
to Section
E, Par.
E-44 for proper carburetor
dash
pot adjustment procedure.
C-27.
Check
Fan
Belt
The
fan belt drives the fan, alternator, and water
pump.
See Fig. C-27.
Inspect
the fan belt for serviceability and proper
tension. The tension should be checked with the
Belt
Tension Gauge, W-283. The correct tension on a used belt is 70 to 80 pounds [31,7 a 36,2 kg.]
and
on a new belt 110 to 120 pounds [49,8 a 54,5 kg.]. When preparing for delivery of new car,
the belt strand tension should be 80 to 110 pounds [36,2 a 49,8 kg.]. When installing a new belt, adjust
the strand tension 110 to 120 pounds [49,8 a 54,5 kg.].
Adjust
the fan belt tension by loosening the clamp
bolt on the alternator brace and swinging the alter
nator
away from the engine until proper belt ten
sion is obtained.
Then
tighten the clamp bolt.
Note:
If no
gauge
is available approximate correct
tension is obtained when the thumb pressure mid
way between the pulleys causes the belt to flex
y%
inch
[IV4
cm.].
C-28.
ROAD TEST VEHICLE
After
completing the tune-up, road
test
the vehicle for power and overall performance. Make neces
sary
adjustments.
Note:
Engine run on or "dieseling" is a condition
in
which combustion continues to take place after
the normal ignition
spark
from the distributor has
been shut off by turning off the ignition switch. It is generally caused by excessive engine idle speed
in
combination with retarded ignition timing, en gine heat soak or the use of low octane fuel.
Should
engine dieseling (engine running after igni
tion key is turned off) be experienced on V-6 engine equipped vehicles, installation of Idle Stop
Valve
Kit
Part
No. 991722
will
correct the
difficulty.
33
TUNE-UP
C-29.
SERVICE
DIAGNOSIS
POOR
FUEL ECONOMY Ignition Timing Slow or Spark Advance Stuck
Carburetor
Float High
Accelerator Pump Not Properly Adjusted High Fuel Pump Pressure
Fuel
Leakage
Leaky
Fuel Pump Diaphragm Loose Engine Mounting Causing High Fuel Level in Carburetor
Low
Compression
Valves Sticking
Spark
Plugs Bad
Spark
Plug Cables Bad
Weak
Coil
or Condenser Improper Valve Tappet Clearance
Carburetor
Air Cleaner Dirty
High Oil Level in Air Cleaner Dragging Brakes
Front
Wheels Out of Alignment
Tires
Improperly Inflated Inaccurate Odometer
Faulty
Fuel Tank Cap
Clogged
Muffler or Bent Exhaust Pipe Sticking Exhaust Manifold Valve
LACK
OF POWER
Low
Compression Ignition System (Timing Late)
Improper Functioning Carburetor
or Fuel Pump
Fuel
Lines
Clogged
Air
Cleaner Restricted Engine Temperature High Improper Tappet Clearance
Sticking Valves
Valve Timing Late
Leaky
Gaskets
Muffler
Clogged
Bent Exhaust Pipe Sticking Exhaust Manifold Valve —
Dauntless V-6 Engine
LOW
COMPRESSION
Leaky
Valves Poor Piston Ring Seal Sticking Valves
Valve Spring Weak or Broken
Cylinder
Scored or Worn
Tappet Clearance Incorrect Piston Clearance too Large
Leaky
Cylinder Head Gasket
BURNED
VALVES AND SEATS Sticking Valves or too Loose in Guides
Improper Timing
Excessive Carbon Around Valve Head and Seat Overheating
Valve Spring Weak or Broken
Valve Tappet Sticking
Valve Tappet Clearance Incorrect
Clogged
Exhaust System
Defective
Valve
Lifter
— Hydraulic
VALVES
STICKING
Warped Valve Improper Tappet Clearance Carbonized or Scored Valve
Stems
Insufficient Clearance Valve Stem to Guide
Weak or Broken Valve Spring Valve Spring Cocked Contaminated Oil
OVERHEATING
Inoperative Cooling System
Theromstat Inoperative Improper Ignition Timing
Improper Valve Timing
Excessive Carbon Accumulation
Fan
Belt too Loose
Clogged
Muffler or Bent Exhaust Pipe
Oil
System Failure Scored or Leaky Piston Rings
Sticking Exhaust Manifold Valve — Dauntless V-6 Engine
POPPING-SPITTING-DETONATION
Improper Ignition Improper Carburetion
Excessive Carbon
Deposit
in
Combustion Chambers
Poor Valve Seating Sticking Valves
Broken Valve Spring Tappets Adjusted too Close
Spark
Plug Electrodes Burned
Water or Dirt in Fuel
Clogged
Lines Improper Valve Timing
Clogged
Fuel Filter Sticking Exhaust Manifold Valve —
Dauntless V-6 Engine
EXCESSIVE
OIL CONSUMPTION Piston Rings Stuck in Grooves, Worn or Broken Piston Rings Improperly Fitted or Weak Piston Ring Oil Return
Holes
Clogged
Excessive Clearance, Main and
Connecting Rod Bearings
Oil
Leaks at Gaskets or Oil Seals
Excessive Clearance, Valve Stem
to Valve Guide (Intake)
Cylinder
Bores Scored, Out-of-
Round or Tapered
Too Much Clearance, Piston to Cylinder Bore
Misaligned Connecting Rods
High Road
Speeds
or Temperature
Crankcase
Ventilator Not Operating
BEARING
FAILURE
Crankshaft
Bearing Journal Out-of-Round
Crankshaft
Bearing Journal Rough
Lack
of Oil
Oil
Leakage
Dirty
Oil
Low
Oil Pressure or Oil Pump Failure
Drilled
Passages
in Crankcase or Crankshaft
Clogged
Oil
Screen Dirty
Connecting Rod Bent 34
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
'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
D
HURRICANE
F4
ENGINE
D-112.
SERVICE
DIAGNOSIS
Poor
Fuel
Economy Ignition Timing Slow or Spark Advance Stuck
Carburetor
Float High
Accelerator Pump Not Properly Adjusted
High
Fuel
Pump Pressure
Fuel
Leakage
Leaky
Fuel
Pump Diaphragm
Loose Engine Mounting Causing High
Fuel
Level
in
Carburetor
Low
Compression Valves Sticking
Spark
Plugs Bad
Spark
Plug Cables Bad Weak
Coil
or Condenser Improper Valve Tappet Clearance
Carburetor
Air Cleaner Dirty
High Oil Level in Air Cleaner Dragging Brakes
Front
Wheels Out of Alignment
Tires
Improperly Inflated Inaccurate Odometer
Faulty
Fuel
Tank
Cap
Clogged
Muffler or Bent Exhaust Pipe
Lack
of Power
Low
Compression Ignition System (Timing Late)
Improper Functioning Carburetor or
Fuel
Pump
Fuel
Lines
Clogged
Air
Cleaner Restricted
Engine Temperature High Improper Tappet Clearance
Sticking Valves Valve Timing Late
Leaky
Gaskets
Muffler
Clogged
Bent Exhaust Pipe
Defective
Spark Plugs—Clean or Replace
Defective
Breaker Points—Replace
Points
Incorrect Breaker Point Gap—Reset
Points
Defective
Condenser or Coil—Replace
Loose Electrical Connections—Locate and Tighten
Broken Valve Spring—Replace Spring Broken Piston or Rings—Replace
Defective
Head Gasket—Replace Gasket
Cracked
Distributor Cap—Replace Cap
Low
Compression
Leaky
Valves
Poor Piston Ring Seal Sticking Valves
Valve Spring Weak or Broken
Cylinder
Scored or Worn
Tappet Clearance Incorrect
Piston Clearance too Large
Leaky
Cylinder Head Gasket
Burned Valves and
Seats
Sticking Valves or too Loose in Guides Improper Timing
Excessive Carbon Around Valve Head and Seat Overheating
Valve Spring Weak or Broken Burned Valves and Seats—Continued
Valve Tappet Sticking
Valve Tappet Clearance Incorrect
Clogged
Exhaust System
Valves Sticking Warped Valve Improper Tappet Clearance
Carbonized or Scored Valve
Stems
Insufficient Clearance Valve Stem to Guide
Weak or Broken Valve Spring Valve Spring Cocked Contaminated Oil
Overheating Inoperative Cooling System
Thermostat Inoperative Improper Ignition Timing
Improper Valve Timing
Excessive Carbon Accumulation
Fan
Belt too Loose
Clogged
Muffler or Bent Exhaust Pipe
Oil
System Failure
Scored or Leaky Piston Rings
Popping-Spitting-Detonation
Improper Ignition
Improper Carburetion
Excessive Carbon
Deposit
in Combustion
Cham
bers
Poor Valve Seating Sticking Valves
Broken Valve Spring Tappets Adjusted too Close
Spark
Plug Electrodes Burned
Water or Dirt in
Fuel
Clogged
Lines Improper Valve Timing
Excessive Oil Comsumption Piston Rings Stuck in Grooves, Worn or Broken Piston Rings Improperly Fitted or Weak Piston Ring Oil Return
Holes
Clogged
Excessive Clearance, Main and Connecting Rod
Bearings
Oil
Leaks at Gaskets or Oil Seals
Excessive Clearance, Valve Stem to Valve Guide (Intake)
Cylinder
Bores Scored, Out-of-Round or Tapered Too Much Clearance, Piston to Cylinder Bore
Misaligned Connecting Rods
High Road
Speeds
or Temperature
Crankcase
Ventilator Not Operating
Bearing Failure
Crankshaft
Bearing Journal Out-of-Round
Crankshaft
Bearing Journal Rough
Lack
of Oil
Oil
Leakage
Dirty
Oil
Low
Oil Pressure or Oil Pump Failure
Drilled
Passages
in Crankcase or Crankshaft
Clogged
Oil
Screen Dirty Connecting Rod Bent 70
'Jeep'
UNIVERSAL SERIES
SERVICE
MANUAL
Dl
DAUNTLESS
V-6
ENGINE
Contents
SUBJECT
PAR.
SUBJEC
GENERAL
.... . . Dl-1 Oil Pump Cl(
ENGINE DESCRIPTION
D1-2
Engine
Mounts Dl-3
ENGINE REMOVAL
Dl-4
ENGINE DISASSEMBLY
Dl-5
Alternator
and Fan Belt Dl-11
Camshaft
.... Dl-26
Cooling Fan and Water Pump.
......
.Dl-12
Crankshaft
Front Oil Seal .Dl-21
Crankshaft
Pulley D1-17
Crankshaft
Vibration Damper Dl-18
Cylinder
Head Assembly Dl-24
Distributor
Dl-9
Exhaust
Manifold .Dl-8
Flywheel
Dl-28
Flywheel
Housing and
Clutch
Dl-27
Fuel
Pump. ... . .Dl-10
Intake
Manifold and
Carburetor
Assembly.
.............
.Dl-7
Main
Bearing and Crankshaft. Dl-32 Mounting Engine on Engine Stand. . . . .Dl-6
Oil
Dipstick. Dl-16
Oil
Filter
Dl-13
Oil
Pan.. ...
.......
.Dl-29
Oil
Pressure Sending Unit Dl-15
Oil
Pump Dl-19
Oil
Pump Intake Pipe and Screen Dl-30
Piston and Rod Assembly. Dl-31
Push
Rod and Valve
Lifter.
.Dl-25
Rocker
Arm Cover Dl-23
Starter
Motor Dl-14
Timing
Chain
and Sprocket Dl-22
Timing
Chain
Cover Dl-20
ENGINE CLEANING, INSPECTION AND REPAIR
. . ... .Dl-33
Camshaft
Cleaning and Inspection Dl-55
Connecting Rod Bearing Inspection
and
Fitting .Dl-49
Crankshaft
Cleaning Dl-38
Crankshaft
Inspection and Repair Dl-39
Crankshaft
Main Bearing Cleaning
and
Inspection Dl-41
Crankshaft
Main Bearings. Dl-40
Crankshaft
Pulley Inspection. Dl-70
Crankshaft
Vibration Damper Inspection. D1-69
Cylinder
Block .Dl-34
Cylinder
Block Cleaning Dl-35
Cylinder
Block Inspection Dl-36
Cylinder
Block Repair. .Dl-37
Cylinder
Head and Valve Repair .Dl-63
Cylinder
Head and Valve Cleaning
and
Inspection.. . .Dl-62
Flywheel
Cleaning and Inspection Dl-52
Flywheel
Housing Cleaning
and
Inspection Dl-54
Hydraulic
Valve
Lifter
Leakdown Test. .Dl-57
Main
Bearing Fitting or
Shim
Stock Dl-42, Dl-43
Oil
Pan Cleaning and Inspection .Dl-51
PAR.
and
Inspection. .... .Dl-68
Oil
Pump Intake and Screen Cleaning. . .Dl-50
Piston and Rod Assembly.
...........
.Dl-48
Piston and Rod Cleaning and Inspection.D1-45
Piston and Rod Disassembly Dl-44
Piston Fitting Dl-46
Piston Ring Fitting. .Dl-47
Ring
Gear
Replacement. .Dl-53
Rocker
Arm Assembly. Dl-60
Rocker
Arm Cleaning and Inspection. . .Dl-59
Rocker
Arm Cover Cleaning
and
Inspection D1-65
Rocker
Arm Disassembly .Dl-58
Timing
Chain
and Sprocket Inspection. . .Dl-66
Timing
Chain
Cover Cleaning
and
Inspection.. . Dl-67
Valve
Installation D1-64
Valve
Lifter
and Push Rod
Cleaning
and Inspection. . Dl-56
Valve
Removal Dl-61
ENGINE REASSEMBLY
Dl-71
Alternator
and Fan Belt Dl-96
Camshaft
Dl-80
Clutch
and Flywheel Housing Dl-79
Cooling Fan.. . .Dl-95
Crankshaft
End Play Check. . Dl-74
Crankshaft
Front Oil Seal Dl-85
Crankshaft
Pulley Dl-89
Crankshaft
Vibration Damper Dl-88
Cylinder
Block and Crankshaft
Rear
Oil Seals Dl-72
Cylinder
Head Assembly .Dl-82
Distributor
Dl-99
Exhaust
Manifold Dl-98
Flywheel
.Dl-78
Fuel
Pump.. .. . Dl-97
Intake
Manifold and Carburetor Assembly Dl-101
Main
Bearing and
Crankshaft
Installation
.
Dl-73
Oil
Filter
Dl-93
Oil
Level
Dipstick Dl-90
Oil
Pan Dl-77
Oil
Pressure Sending Unit Dl-91
Oil
Pump.. .Dl-87
Oil
Pump Intake and Screen Assembly. .Dl-76
Piston and Rod Installation Dl-75
Rocker
Arm Cover. Dl-83
Spark
Plugs.. Dl-100
Starter
Motor Dl-92
Timing
Chain
and Sprocket.
..........
.Dl-84
Timing
Chain
Cover Dl-86
Valve
Lifter
and Push Rod Dl-81
Water
Pump. Dl-94
ENGINE INSTALLATION
Dl-102
FINAL
IN-VEHICLE
ADJUSTMENTS.
D1-103
SERVICE
DIAGNOSIS
Dl-104
ENGINE SPECIFICATIONS
. .Dl-105 75
'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