1999 MITSUBISHI LANCER EVOLUTION VI stop start

ENGINE – Starter Motor11-83
STARTER MOTOR
DISASSEMBLY AND REASSEMBLY
1 23
4 5
6
789
10 1112 13 14
15
16 17
18 19
202122
23
Disassembly steps
1. Cover
2. Screw
A3. Magnetic switch
4. Screw
5. Through
6. Rear bracket
7. Brush holder
8. Brush
9. Rear bearing
B10. Armature
11. Yoke assembly
B12. Ball13. Packing A
14. Packing B
15. Plate
16. Planetary gear
17. Lever
CA18. Snap ring
CA19. Stop ring
20. Overrunning clutch
21. Internal gear
22. Planetary gear holder
23. Front bracket

ENGINE – Starter Motor11-84
DISASSEMBLY SERVICE POINTS
AMAGNETIC SWITCH REMOVAL
Disconnect field coil wire from “M” terminal of magnetic switch.
BARMATURE / BALL REMOVAL
Caution
When removing the armature, take care not to lose the
ball (which is used as a bearing) in the armature end.
CSNAP RING / STOP RING REMOVAL
(1) Press stop ring off snap ring with a suitable socket.
(2) Remove snap ring with snap ring pliers and then remove
stop ring and overrunning clutch.
STARTER MOTOR PARTS CLEANING
(1) Do not immerse parts in cleaning solvent. Immersing the
yoke and field coil assembly and/or armature will damage
insulation. Wipe motor assembly with a cloth only.
(2) Do not immerse drive unit in cleaning solvent. Overrunning
clutch is pre-lubricated at the factory and solvent will wash
lubrication from clutch.
(3) The drive unit may be cleaned with a brush moistened
with cleaning solvent and wiped dry with a cloth.
Magnetic
switch“S” terminal
“B” terminal
Field coil wire “M” terminal
Stop ringSocket
Pinion gear
Overrunning
clutch
Armature
Snap ring
Pinion gear
Overrunning
clutchSnap ring pliers
Armature

ENGINE – Starter Motor11-85
REASSEMBLY SERVICE POINTS
ASTOP RING / SNAP RING INSTALLATION
Using a suitable pulling tool, pull overrunnig clutch stop ring
over snap ring.
INSPECTION
COMMUTATOR CHECK
(1) Place the armature in a pair of “V” blocks and check
the runout with a dial indicator.
Standard value: 0.05 mm
Limit: 0.1 mm
(2) Measure the commutator outer diameter.
Standard value: 32.0 mm
Limit: 31.4 mm
(3) Check the undercut depth between segments.
Standard value: 0.5 mm
BRUSH HOLDER CHECK
Check the continuity between brush holder plate and brush
holder.
If there is no continuity, the brush holder is in order.
Stop ringOverrunning
clutchStop ring
Snap ring
Undercut
Segment
Mica
Brush holder

MPI – Troubleshooting
Vehicle
speedInitial accel-
erator pedal
depression
NormalHesitation
Sag
Time
(Figure 1)(Figure 2)
Normal
Initial accel-
erator pedal
depression
IdlingStumble
TimeVehicle
speed
13-19
PROBLEM SYMPTOMS TABLE (FOR YOUR INFORMATION)
ItemsSymptom
StartingWon’t startThe starter is used to crank the engine, but there is no combustion within the
cylinders, and the engine won’t start.
Fires up and diesThere is combustion within the cylinders, but then the engine soon stalls.
Hard startingEngine starts after cranking a while.
Idling
stability
HuntingEngine speed doesn’t remain constant; changes at idle.
stability
Rough idleUsually, a judgement can be based upon the movement of the tachometer
pointer, and the vibration transmitted to the steering wheel, shift lever, body, etc.
This is called rough idle.
Incorrect idle speedThe engine doesn’t idle at the usual correct speed.
Engine stall
(Die out)The engine stalls when the foot is taken from the accelerator pedal, regardless
of whether the vehicles is moving or not.
Engine stall
(Pass out)The engine stalls when the accelerator pedal is depressed or while it is being
used.
DrivingHesitation, Sag“Hesitation” is the delay in response of the vehicle speed (engine speed) that
occurs when the accelerator is depressed in order to accelerate from the speed
at which the vehicle is now traveling, or a temporary drop in vehicle speed
(engine speed) during such acceleration. Serious hesitation is called “sag”.
(Refer to Figure 1.)
Poor accelerationPoor acceleration is inability to obtain an acceleration corresponding to the
degree of throttle opening, even though acceleration is smooth, or the inability
to reach maximum speed.
StumbleEngine speed increase is delayed when the accelerator pedal is initially
depressed for acceleration. (Refer to Figure 2.)
ShockThe feeling of a comparatively large impact or vibration when the engine is
accelerated or decelerated.
SurgeThis is repeated surging ahead during constant speed travel or during variable
speed travel.
KnockingA sharp sound like a hammer striking the cylinder walls during driving and which
adversely affects driving.
StoppingRun on
(“Dieseling”)The condition in which the engine continues to run after the ignition switch is
turned to OFF. Also called “Dieseling”.

HEATER AND MANUAL AIR CONDITIONER – On-vehicle Service55-8
12. Evacuate to a vacuum reading of 100 kPa or higher (takes
approx. 10 minutes).
Start evacuation
Approx. for 10 minutes up to
100 kPa
Stop evacuation
Refrigerant charging
(until saturated pressure is reached)
Wait for 5 minutes
Air-tight checkIf faulty
Refrigerant charging
Gas leak check*If faultyRetighten connections
*: If the leaking point cannot be located even after
performing a gas leak check, ask an expert for
checking the system.
13. Return the handle of the adapter valve 1 to the original
position (valve closed), turn off the vacuum pump adapter
switch and leave as it is for 5 minutes.
14. Carry out a leak test. (Good if the negative pressure
does not drop.)
15. With the handle turned back all the way (valve open),
install the charging valve to the service can.
16. Remove the adaptor valve 1 from the gauge manifold
and install the service can.
17. Tighten the handle of the charging valve (valve closed)
and puncture the service can.
18. Turn the handle of the charging valve back (valve open)
and tighten the handle of the adaptor valve 1 (valve open)
to charge the system with refrigerant.
19. If the refrigerant is not drawn in, turn the handle of the
adaptor valve 1 back all the way (valve closed).
20. Check for gas leaks using a leak detector.
Caution
The leak detector for R134a should be used.
21. Start the engine.
22. Operate the A/C and set to the lowest temperature (MAX.
COOL).
23. Fix the engine speed at 1,500 r/min.
24. Tighten the handle of the adaptor valve 1 (valve open)
to charge the required volume of refrigerant.
Caution
If the service can is inverted, liquid refrigerant may
be drawn into the compressor damaging it by liquid
compression. Keep the service can upright to ensure
that refrigerant is charged in gas state.
25. After charging with refrigerant, turn the handle of the
adaptor valve 1 back all the way (valve closed).
26. Tighten the charging valve handle (valve closed).
Charging
valveAdapter valve
(for low pressure)
Charging hose
(blue)
R134a
Service
can
Quick joint
(for low pressure)
Low-
pressure
service
valveHigh-
pressure
service
valve
Air conditioning system

HEATER AND MANUAL AIR CONDITIONER – On-vehicle Service55-12
Caution
(1) To connect the quick joint, press section “A” firmly
against the service valve until a click is heard.
(2) When connecting, run your hand along the hose
while pressing to ensure that there are no bends
in the hose.
5. Start the engine.
6. Set the blower switch to HI (Fast) position
7. Set the A/C switch to ON position
8. Set the temperature control to Max. cooling position
9. Set the mode selection to Face position
10. Set the air selection to Recirculation position
11. Fix engine speed to 1,500 r/min.
12. Check that the high-pressure side pressure is 1,667 –
1,765 kPa.
NOTE
If the pressure is not within this range, adjust it as follows;
cool down the condenser using a cooling fan if the
pressure is higher, and cover the condenser to protect
it from ventilation air if it is lower.
13. Set a dry-bulb/wet-bulb thermometer at the air inlet, and
set a dry-bulb thermometer at the air outlet.
Caution
(1) Set the dry-bulb thermometer at a position where
the temperature sensing section can be directly
blown with cooled air.
(2) Place the dry-bulb/wet-bulb thermometer at a
position where it is not exposed to cooled air
blown out.
14. After the temperature of the air blown out from the air
outlet has been stabilized (10 – 15 minutes after starting),
read the dry-bulb thermometer set at the air outlet and
the wet-valve thermometer set at the air inlet.
15. The air conditioning system is considered in good
condition if the intersecting point of the measurements
obtained in Step (14) is below the performance evaluation
reference line on the graph.
Caution
Do not remove the quick joint immediately after the
performance test has been completed. Stop the engine
and wait until the high-pressure side pressure of the
gauge manifold has been lowered sufficiently.
Dry-bulb ther-
mometer
Dry-bulb/wet-bulb
thermometer
Reading of wet-bulb thermometer
set at air inlet (°C)
Performance
evaluation
reference line
In order
Not in order
0Reading of dry-bulb
thermometer set at air outlet
(°C)
15 20 25 30 5 10 15 20 25