torque MITSUBISHI MONTERO 1991 Repair Manual

UPPER CONTROL ARM R & I
REMOVAL
1) Remove shock absorber. Support lower control arm with jack
stand. Remove wheel assembly. Loosen anchor bolt lock nut. See Fig. 1.
2) Mark anchor bolt for reassembly reference. Loosen anchor
bolt to release torsion bar tension. Disconnect and plug brake hose at
frame mount bracket. Remove cotter pin from ball joint stud. Loosen
but DO NOT remove ball joint stud knuckle nut.
3) Using ball joint fork, loosen ball joint from steering
knuckle. Remove ball joint stud nut. Remove rebound stopper and brake
hose support from control arm. Remove upper control arm mounting
bolts. Note direction of bolt installation and location of camber
adjustment shims. Remove control arm.
4) If clearance is inadequate for control arm removal, move
control arm toward rear of vehicle and pull out front part of arm.
Rotate control arm pivot shaft and remove arm. If arm still cannot be
removed, loosen 10 front body mounting nuts. Raise body and remove
arm.
NOTE: On Montero, rotating control arm shaft will alter caster
setting.
INSPECTION
1) Inspect control arm for cracks or deformation. On Montero,
mount control arm in soft-jawed vise using control arm shaft. Attach
spring scale to upper end of control arm, near ball joint.
2) Using spring scale, measure starting torque required to
rotate control arm on the shaft. Replace control arm if starting
torque exceeds 1.4 lbs. (6.5 N).
3) On all models, check ball joints. See BALL JOINT CHECKING
under ADJUSTMENTS & INSPECTION. Inspect ball joint dust cover for
damage and replace as necessary.
INSTALLATION
1) To install, reverse removal procedure. On Montero, ensure
control arm shaft is correctly positioned before installing. Rotate
control arm shaft to obtain correct measurement. See Fig. 6.
Fig. 6: Positioning Upper Control Arm Shaft (Montero)
Courtesy of Mitsubishi Motor Sales of America.
2) On Ram-50 & Pickup, install control arm-to-crossmember
bolts from the inside of crossmember, with nuts against control arm

shaft.
3) On Montero, install control arm-to-crossmember bolts from
the outside of control arm, with nuts against crossmember.
4) Ensure alignment shims are placed in original location.
When installing shock absorber, ensure White paint mark on lower end
of shock faces toward the outside of vehicle. Tighten shock absorber
upper nut until distance from end of threads to nut is .27-.31" (7-8
mm). Install shock lock nut.
5) Tighten bolts to specification. See TORQUE SPECIFICATIONS
table at end of article. Bleed brakes. Adjust anchor bolt to proper
torsion bar setting. See TORSION BAR under REMOVAL & INSTALLATION.
Check wheel alignment and adjust if necessary.
WHEEL BEARINGS R & I
REMOVAL
1) Raise and support vehicle. Remove wheel assembly. Remove
caliper assembly. Remove locking hub. See LOCKING HUB under REMOVAL &
INSTALLATION.
2) Remove lock washer. Using Socket (MB990954), remove lock
nut. Remove front hub assembly from steering knuckle.
3) Remove oil seal and bearings from hub. If bearing races
need to be replaced, drive bearing races from hub using brass drift
and hammer.
INSTALLATION
1) Before installing, lubricate outside surfaces of bearing
outer races with grease. Install bearing outer races in hub. Ensure
bearing races are fully seated.
2) Pack bearings with grease. Install inner bearing in hub.
On Montero, install seal in hub using Seal Installer (MB990955). On
Pickup, use Seal Installer (MB990985).
3) Install seal until seal is even with hub surface. To
complete installation, reverse removal procedure. Adjust wheel
bearings. See WHEEL BEARINGS under ADJUSTMENTS & INSPECTION. Tighten
bolts to specification. See TORQUE SPECIFICATIONS table.
TORQUE SPECIFICATIONS
TORQUE SPECIFICATIONS TABLE








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Application Ft. Lbs. (N.m)
Anchor Bolt Lock Nut ............. 29-36 (39-49)
Automatic Hub Cover .............. 13-25 (18-34)
Ball Joint Nut
Lower ....................... 87-130 (118-176)
Upper .......................... 43-65 (58-88)
Ball Joint-to-Lower
Control Arm Bolt ............... 39-54 (53-73)
Caliper Bolt ..................... 58-72 (79-98)
Control Arm-to-Frame Bolt
Lower ................. ( 1) 101-116 (137-157)
Upper ......................... 72-87 (98-118)
Locking Hub-to-Hub/Rotor Bolt .... 36-43 (49-58)
Manual Hub Cover Bolt .................. 10 (14)
Shock Absorber Lower Mount Bolt
Montero ........................ 11-16 (15-22)
Ram-50 & Pickup ...................... 10 (14)

Shock Absorber Shaft Nut ......... 10-13 (14-18)
Tie Rod Nut ............................ 33 (45)
Torque Arm Bolt ................. 69-87 (94-118)
INCH Lbs. (N.m)
Stabilizer Bar Clamp Bolt ........ 84-108 (8-12)
( 1) - Tighten with vehicle at normal operating
height.









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(chunking),
exposing cord .......... A ............ Require replacement.
Tread missing pieces
(chunking), not
exposing cord .......... 1 ............ Suggest replacement.
Tread separations A ............ Require replacement.
Tube in tubeless tire 3 .... (4) Suggest removal of tube.
Weather-checking ........ .. ......... No service required or
suggested.
Worn to tread wear
indicators ............. B ............ Require replacement.
( 1) - Determine and correct cause of irregular tire wear.
( 2) - If radials and bias or bias-belted ply tires are on the
same vehicle, the radials must be on the rear axle,
except for high-pressure temporary spares.
( 3) - Excessive is defined as enough to contribute to
performance problems. Match mounting may correct
run-out. If not, require replacement of appropriate
part. Refer to manufacturer's specifications.
( 4) - Most manufacturers do not recommend tubes in tubeless
tires. Inspect tire and wheel assembly to determine
the reason for a tube in tubeless tire. Recommendation
for repair or replacement should be based upon condition
of tires and/or wheel listed in these guidelines.









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VALVE STEMS
VALVE STEM INSPECTION








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Condition Code Procedure
Bent .................... 1 ........... Suggest replacement.
Broken .................. A ........... Require replacement.
Cut, but not leaking .... 1 ........... Suggest replacement.
Deteriorated
(cracking, dry rot) .... 1 ........... Suggest replacement.
Leaking ................. A . Require repair or replacement.
Missing ................. C ........... Require replacement.
Threads damaged ......... A . Require repair or replacement.
Threads stripped ........ A ........... Require replacement.
Valve cap missing ....... C .... Require replacement of cap.
Weather-checking ........ 1 ........... Suggest replacement.
Won't take air .......... A . Require repair or replacement.









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WHEEL ATTACHMENT HARDWARE
For conditions noted below, also check conditions of wheel
stud holes.
CAUTION: Proper lug nut torque is essential. Follow recommended
torque specifications and tightening sequence. DO NOT
lubricate threads unless specified by the vehicle
manufacturer.
WHEEL ATTACHMENT HARDWARE INSPECTION









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Condition Code Procedure
Bent .................... A ............ Require replacement.
Broken .................. A ........ ( 1) Require replacement.

that all of the engine control systems are operating as they were
designed to. Therefore, they are not the cause of the driveability
problem.
The following additional items can not be overlooked as possible
causes of a driveability problem.
1. THROTTLE VALVE AREA - Dirt or ice buildup causing rough idle and
stalling.
2. ENGINE IGNITION TIMING - Must be set with timing terminal
grounded.
3. ENGINE VACUUM - Must be normal for your altitude.
4. ENGINE VALVE TIMING - To specifications.
5. ENGINE COMPRESSION - To specifications.
6. ENGINE P.C.V. SYSTEM - Must flow freely.
7. ENGINE EXHAUST SYSTEM - Must be free of any restrictions.
8. POWER BRAKE BOOSTER - No internal vacuum leaks.
9. TORQUE CONVERTER CONDITION - May cause very low power at breakaway
or high speed (Only 1 condition at a time).
10. FUEL CONTAMINATION - High alcohol or water content.
11. FUEL INJECTORS - Rough idle may be caused by injector wiring not
connected to correct injector.
12. ENGINE SECONDARY IGNITION CHECK - Abnormal scope patterns.
13. TECHNICAL SERVICE BULLETINS - Any that apply to vehicle.
14. All air intake piping and vacuum hoses must be in place and
secure. The proper air filter element must be used.
15. FUEL PRESSURE - Must be correct.
Specification: With no vacuum at the regulator:
48 PSI on V6 & non-turbo 4 Cyl. engines
36 PSI on turbo engines
NS-1: TESTING IGNITION CIRCUIT - 1.6L
Fig. 75: Circuit Diagram NS-1 (1.6L)

The following additional items can not be overlooked as
possible causes of a driveability problem.
1. ENGINE IGNITION TIMING - Must be set with timing terminal
grounded.
2. ENGINE VACUUM - Must be normal for your altitude.
3. ENGINE VALVE TIMING - To specifications.
4. ENGINE COMPRESSION - To specifications.
5. ENGINE P.C.V. SYSTEM - Must flow freely.
6. ENGINE EXHAUST SYSTEM - Must be free of any restrictions.
7. POWER BRAKE BOOSTER - No internal vacuum leaks.
8. TORQUE CONVERTER CONDITION - May cause very low power at breakaway
or high speed (Only 1 condition at a time).
9. FUEL CONTAMINATION - High alcohol or water content.
10. FUEL INJECTORS - Rough idle may be caused by injector wiring not
connected to correct injector.
11. ENGINE SECONDARY IGNITION CHECK - Abnormal scope patterns.
12. TECHNICAL SERVICE BULLETINS - Any that apply to vehicle.
13. All air intake piping and vacuum hoses must be in place and
secure. The proper air filter element must be used.
14. FUEL PRESSURE - Must be correct.
Specification: With no vacuum at the regulator:
48 PSI on V6 & non-turbo 4 Cyl. engines
36 PSI on turbo engines
NS-VER: NO START VERIFICATION PROCEDURE - 1.6L
Fig. 168: Flow Chart NS-VER (1.6L)
DR-VER: DRIVEABILITY VERIFICATION PROCEDURE - 1.6L

2. ENGINE IGNITION TIMING - Must be set with timing terminal
grounded.
3. ENGINE VACUUM - Must be normal for your altitude.
4. ENGINE VALVE TIMING - To specifications.
5. ENGINE COMPRESSION - To specifications.
6. ENGINE P.C.V. SYSTEM - Must flow freely.
7. ENGINE EXHAUST SYSTEM - Must be free of any restrictions.
8. POWER BRAKE BOOSTER - No internal vacuum leaks.
9. TORQUE CONVERTER CONDITION - May cause very low power at breakaway
or high speed (Only 1 condition at a time).
10. FUEL CONTAMINATION - High alcohol or water content.
11. FUEL INJECTORS - Rough idle may be caused by injector wiring not
connected to correct injector.
12. ENGINE SECONDARY IGNITION CHECK - Abnormal scope patterns.
13. TECHNICAL SERVICE BULLETINS - Any that apply to vehicle.
14. All air intake piping and vacuum hoses must be in place and
secure. The proper air filter element must be used.
15. FUEL PRESSURE - Must be correct.
Specification: With no vacuum at the regulator:
48 PSI on V6 & non-turbo 4 Cyl. engines
36 PSI on turbo engines
NS-1: IGNITION CHECK FLOW CHARTS - 2.0L
Fig. 235: NS-1 Flow Chart & Circuit Diagram (2.0L) (1 of 5)

determined that all of the engine controls systems are operating as
they were designed to. Therefore, they are not the cause of the
driveability problem. The following additional items should be checked
as possible causes:
1) ENGINE VACUUM - Must be at least 13 inches in neutral.
2) ENGINE VALVE TIMING - Set to specifications.
3) ENGINE COMPRESSION - To specifications.
4) EXHAUST SYSTEM - Free from any restrictions.
5) PCV SYSTEM - Must flow freely.
6) DRIVE SPROCKETS - Camshaft and crank shaft.
7) TORQUE CONVERTER STALL SPEED - To specifications.
8) POWER BRAKE BOOSTER - No internal vacuum leak.
9) FUEL CONTAMINATION - High alcohol and water content.
10) FUEL INJECTORS - Rough idle may be caused by injector
control wire not connected to correct injector.
11) TECHNICAL SERVICE BULLETINS - Any that may apply to
vehicle.
12) ENGINE SECONDARY IGNITION CHECK - Any abnormal scope
pattern.
13) TECHNICAL SERVICE BULLETINS - Any that apply to vehicle.
14) All air intake piping and vacuum hoses must be in place
and secure. The proper air filter element must be used.
15) FUEL PRESSURE - Must be correct.
Specification: With no vacuum at the regulator:
48 PSI on V6 & non-turbo 4 Cyl. engines
36 PSI on turbo engines
DR-VER: DRIVEABILITY VERIFICATION TEST - 2.0L
Fig. 300: DR-VER Flow Chart (2.0L)
SUMMARY

OUTPUT SHAFT ASSEMBLY (RAM-50)
Disassembly
1) Remove snap ring from rear of output shaft. Remove high-
low synchronizer hub by hand or when low speed gear is pressed off.
Remove bearing spacer and needle bearing. Remove staking from lock nut
on rear output shaft. See Fig. 5. Remove lock nut. Remove ball bearing
from below lock nut. Remove sprocket spacer and steel ball.
2) Remove drive sprocket, 2 needle bearings, sprocket sleeve
and steel ball. Remove 2WD-4WD synchronizer sleeve, hub, stopper plate
and ball bearing.
Reassembly
1) Press ball bearing and stopper plate on front output
shaft, pushing against inner race. After fitting, ensure bearing
rotates smoothly. Install 2WD-4WD synchronizer hub and sleeve. Ensure
hub and sleeve face correct direction. Install steel ball (for
sprocket sleeve positioning) on rear output shaft. Install sprocket
sleeve.
2) Install 2 needle bearings on outer circumference of
sprocket sleeve. Install drive sprocket. Install steel ball and
sprocket spacer. Install ball bearing (press may not be needed as
bearing may be loose). Check for smooth rotation.
3) Tighten sprocket retaining lock nut to specification. See
the TORQUE SPECIFICATIONS table. Stake lock nut with punch. After lock
nut is tightened, ensure drive sprocket rotates smoothly. Install
needle bearing, thrust washer and low speed gear on rear of rear
output shaft.
4) Install needle bearing, thrust washer and low speed gear
on rear output shaft. Mount high-low synchronizer hub. Ensure hub
faces correct direction.
5) Mount high-low synchronizer hub snap ring on front end of
rear output shaft. Selective fit snap rings are available in 5
thicknesses. Use thickest snap ring that will fit into output shaft
groove. Acceptable clearance is 0-.003" (0-.08 mm). See Fig. 5.
Fig. 5: Exploded View Of Output Shaft Assembly (Ram-50)
Courtesy of Mitsubishi Motor Sales of America.
TRANSFER DRIVE SHAFT (MONTERO)

Disassembly & Reassembly
Separate center differential case front from rear case.
Remove pinion shaft, pinions, thrust washers and dowel pins. Inspect
for excessive wear and replace parts as needed. Align dowel pins and
match marks on outer case circumferences. Assemble front and rear
center differential cases. See the TORQUE SPECIFICATIONS table. Also,
see Fig. 7 .
Fig. 7: Exploded View Of Center Differential (Montero)
Courtesy of Mitsubishi Motor Sales of America.
2WD-4WD SYNCHRONIZER (MONTERO)