11A-0-1
ENGINE
4G1 SERIES
CONTENTS
GENERAL INFORMATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-0-3
1. SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-1-1
SERVICE SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-1-1
REWORK DIMENSIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-1-3
TORQUE SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-1-4
NEW TIGHTENING METHOD-BY USE OF BOLTS TO BE
TIGHTENED IN PLASTIC AREA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-1-6
SEALANT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-1-6
FORM-IN-PLACE GASKET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-1-7
2. SPECIAL TOOLS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-2-1
3. ALTERNATOR AND IGNITION SYSTEM . . . . . . . . . . . . . . . . . . . . . . . . 11A-3-1
4. TIMING BELT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-4-1
5. FUEL AND EMISSION CONTROL SYSTEM . . . . . . . . . . . . . . . . . . . . 11A-5-1
6. WATER PUMP AND WATER HOSE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-6-1
7. INTAKE AND EXHAUST MANIFOLD . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-7-1
8. ROCKER ARMS AND CAMSHAFT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-8-1
9. CYLINDER HEAD AND VALVES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-9-1
10. OIL PUMP AND OIL PAN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-10-1
11. PISTON AND CONNECTING ROD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-11-1
12. CRANKSHAFT, CYLINDER BLOCK . . . . . . . . . . . . . . . . . . . . . . . . . . . 11A-12-1
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-0-3
4G1 ENGINE (E-W) - General Information
GENERAL INFORMATION
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-0-4
4G1 ENGINE (E-W) - General Information
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-0-5
4G1 ENGINE (E-W) - General Information
Descriptions
4G13 12-VALVE-CARBURETOR
4G13 12-VALVE-MPI
Type
In-line OHV, SOHC
In-line OHV, SOHC
Number of cylinders
Combustion chamber
Total displacement dm3
Cylinder bore mm
Piston stroke mm
Compression ratio
4
4
Pentroof type
Pentroof type
1,299
1,299
71.0
71.0
82.0
82.0
9.5
9.5
Number of Intake
valves
8
8
Exhaust
4
4
Valve timing
Intake opens
BTDC 14_
BTDC 19_
ABDC 43_
BBDC 60_
ATDC 8_
Intake closes
Exhaust opens
Exhaust closes
ABDC 48_
BBDC 55_
ATDC 13_
Lubrication system
Oil pump type
Pressure feed, full-flow filtration
Trochoid type
Pressure feed, full-flow filtration
Trochoid type
Cooling system
Water pump type
Water-cooled, forced circulation
Centrifugal impeller type
Water-cooled, forced circulation
Centrifugal impeller type
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-0-6
4G1 ENGINE (E-W) - General Information
Descriptions
4G13 16-VALVE-MPI
4G18 16-VALVE-MPI
Type
In-line OHV, SOHC
In-line OHV, SOHC
Number of cylinders
Combustion chamber
Total displacement dm3
Cylinder bore mm
Piston stroke mm
Compression ratio
4
4
Pentroof type
Pentroof type
1,299
1,584
71.0
76.0
82.0
87.3
10
9.5
Number of Intake
valves
8
8
Exhaust
8
8
Valve timing
Intake opens
BTDC 17_
BTDC 17_
Intake closes
Exhaust opens
Exhaust closes
ABDC 39_
ABDC 39_
BBDC 49_
BBDC 49_
ATDC 7_
ATDC 7_
Lubrication system
Oil pump type
Pressure feed, full-flow filtration
Trochoid type
Pressure feed, full-flow filtration
Trochoid type
Cooling system
Water pump type
Water-cooled, forced circulation
Centrifugal impeller type
Water-cooled, forced circulation
Centrifugal impeller type
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-0-7
4G1 ENGINE (E-W) - General Information
Descriptions
4G15-CARBURETTOR
4G15-MPI
Type
In-line OHV, SOHC
In-line OHV, DOHC
Number of cylinders
Combustion chamber
Total displacement dm3
Cylinder bore mm
Piston stroke mm
Compression ratio
4
4
Semi spherical type
Pentroof type
1,468
1,468
75.5
75.5
82.0
82.0
9.0
9.5
Number of Intake
valve
8
8
Exhaust
4
8
Valve timing
Intake opens
BTDC 14_
BTDC 16_
ABDC 40_
BBDC 45_
ATDC 15 _
Intake closes
Exhaust opens
Exhaust closes
ABDC 48_
BBDC 55_
ATDC 13_
Lubrication system
Oil pump type
Pressure feed, full-flow filtration
Trochoid type
Pressure feed, full-flow filtration
Trochoid type
Cooling system
Water pump type
Water-cooled, forced circulation
Centrifugal impeller type
Water-cooled, forced circulation
Centrifugal impeller type
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
NOTES
11A-1-1
4G1 ENGINE (E-W) - Specifications
1. SPECIFICATIONS
SERVICE SPECIFICATIONS
Item
Standard
Limit
Rocker arms, rocker shafts, and camshaft
Camshaft cam
height mm
SOHC 12-VALVE
Intake (primary)
Intake (secondary)
Exhaust
38.78
38.28
38.28
38.60
36.49
36.35
38.28
38.60
-
38.78
39.10
SOHC 16-VALVE
DOHC
Intake
36.99
Exhaust
36.85
Intake
34.67
Exhaust
34.26
Camshaft journal diameter mm
SOHC
45.93-45.94
25.95-25.97
DOHC
-
Cylinder head and valves
Flatness of cylinder head gasket surface mm
0.05 or less
-
-
Cylinder head gasket surface grinding limit (including grinding of
cylinder block gasket surface) mm
0.2
Cylinder head overall height mm
SOHC 12-VALVE
SOHC 16-VALVE
DOHC
106.9-107.1
119.9-120.1
131.9-132.1
-
-
-
-
Cylinder head bolt nominal length mm
Valve margin mm
103.2
0.5
Intake
1.0
Exhaust
SOHC 12-VALVE
SOHC 16-VALVE
DOHC
1.5
1.0
Valve stem diameter mm
6.6
-
5.5
-
5.5
-
Valve stem-to-guide SOHC 12-VALVE
clearance mm
Intake
0.020-0.050
0.050-0.085
0.020 - 0.047
0.030 - 0.062
0.020-0.047
0.030-0.062
45_-45.5_
43.70
0.10
0.15
0.10
0.15
0.10
0.15
-
Exhaust
Intake
SOHC 16-VALVE
Exhaust
Intake
DOHC
Exhaust
Valve face angle
Valve stem projec- SOHC 12-VALVE
tion mm
Intake
44.20
43.80
53.71
54.60
49.30
49.20
Exhaust
Intake
43.30
SOHC 16-VALVE
DOHC
53.21
Exhaust
Intake
54.10
48.80
Exhaust
48.70
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-1-2
4G1 ENGINE (E-W) - Specifications
Item
Standard
Limit
Overall valve length SOHC 12-VALVE
mm
Intake
100.75
101.05
111.56
114.71
106.35
106.85
46.1
100.25
Exhaust
Intake
105.55
SOHC 16-VALVE
DOHC
111.06
Exhaust
Intake
114.21
105.85
Exhaust
Intake
106.35
Valve spring free SOHC 12-VALVE
height mm
45.6
Exhaust
46.8
46.3
SOHC 16-VALVE
DOHC
50.9
50.4
49.1
48.6
Valve spring load/ SOHC 12-VALVE
Intake
226/40.0
284/39.6
216/44.2
177/40.0
2_
-
-
installed height N/
mm
Exhaust
SOHC 16-VALVE
DOHC
-
-
Valve spring squareness
Valve seat contact width mm
Valve guide internal diameter mm
4_
-
0.9-1.3
6.6
SOHC 12-VALVE
SOHC 16-VALVE
DOHC
-
5.5
-
5.5
-
Valve guide projection mm
SOHC 12-VALVE
SOHC 16-VALVE
DOHC
17.0
-
23.0
-
23.0
-
Oil pump and oil pan
Oil pump tip clearance mm
Oil pump side clearance mm
Oil pump body clearance mm
Pistons and connecting rods
Piston outside diameter mm
0.06-0.18
0.04-0.10
0.10-0.18
-
-
0.35
4G13
71.0
-
4G15
75.5
-
4G18
76.0
-
Piston ring side clearance mm
Piston ring end gap clearance
No. 1 ring
No. 2 ring
No. 1 ring
No. 2 ring
Oil ring
0.02-0.06
0.02-0.06
0.20-0.35
0.35-0.50
0.20-0.50
18.0
-
-
0.8
0.8
1.0
-
Piston pin O. D. mm
Piston pin press-in load (at room temperature) N
Crankshaft pin oil clearance mm
4,900-14,700
0.02-0.04
0.10-0.25
-
0.1
0.4
Connecting rod big end side clearance mm
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-1-2a
4G1 ENGINE (E-W) - Specifications
Item
Standard
Limit
Crankshaft and cylinder block
Crankshaft end play mm
0.05-0.18
48.0
0.25
Crankshaft journal diameter mm
Crankshaft pin diameter mm
-
42.0
-
Crankshaft journal oil clearance mm
0.02-0.04
0.05 or less
-
0.1
-
Cylinder block gasket surface flatness mm
Cylinder block gasket surface grinding limit (including grinding of
cylinder head gasket surface) mm
0.2
Cylinder block overall height mm
Cylinder block cylindricity mm
256
-
-
-
-
-
-
0.01
Cylinder block I. D. mm
4G13
4G15
4G18
71.0
75.5
76.0
Piston-to-cylinder clearance mm
0.02-0.04
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-1-2b
4G1 ENGINE (E-W) - Specifications
Intentionally blank
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-1-3
4G1 ENGINE (E-W) - Specifications
REWORK DIMENSIONS
Item
Standard
Limit
Cylinder head and valves
Cylinder head oversize valve guide SOHC 12-VALVE
hole diameter mm
0.05 O. S.
0.25 O. S.
0.50 O. S.
0.05 O. S.
0.25 O. S.
0.50 O. S.
0.05 O. S.
0.25 O. S.
0.50 O. S.
0.3 O. S.
0.6 O. S.
0.3 O. S.
0.6 O. S.
0.3 O. S.
0.6 O. S.
0.3 O. S.
0.6 O. S.
0.3 O. S.
0.6 O. S.
0.3 O. S.
0.6 O. S.
0.3 O. S.
0.6 O. S.
0.3 O. S.
0.6 O. S.
0.3 O. S.
0.6 O. S.
12.050-12.068
12.250-12.268
12.500-12.518
10.550-10.568
10.750-10.768
11.000-11.018
10.550-10.568
10.750-10.768
11.000-11.018
27.300-27.325
27.600-27.625
32.300-32.325
32.600-32.625
35.300-35.325
35.600-35.625
28.300-28.321
28.600-28.621
26.300-26.321
26.600-26.621
30.300-30.321
30.600-30.621
28.300-28.321
28.600-28.621
31.300-31.325
31.600-31.625
27.800-27.825
28.100-28.125
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
SOHC 16-VALVE
DOHC
Oversize valve seat SOHC
ring hole diameter 12-VALVE
mm
Intake (primary)
Intake (secondary)
Exhaust
SOHC
16-VALVE
<4G13>
Intake
Exhaust
SOHC
16-VALVE
<4G18>
Intake
Exhaust
DOHC
Intake
Exhaust
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-1-4
4G1 ENGINE (E-W) - Specifications
TORQUE SPECIFICATIONS
Item
Nm
Alternator and ignition system
Water pump pulley bolt
Alternator brace (alternator side)
Alternator brace (tightened with water pump)
Alternator pivot bolt
Oil level gauge guide
Crankshaft bolt
9
22
23
44
23
125
25
11
10
9
Spark plug
Distributor
Ignition coil
Camshaft position sensor
Camshaft position sensor support
Camshaft position sensing cylinder
Timing belt
13
21
Timing belt cover
11
23
9
Timing belt tensioner
Crankshaft angle sensor (Rear wheel drive)
Engine support bracket (left)
Idler pulley
35
35
88
Camshaft sprocket bolt
Fuel system
Delivery pipe
11
9
Fuel pressure regulator
Throttle body
18
11
22
17
13
21
Fuel pump
Breather tube
Carburetor
Air temperature sensor
EGR valve
Water pump
Water inlet fitting
22
12
12
25
23
23
23
Water inlet pipe assembly
M6
M8
Water inlet pipe
Fitting (Rear wheel drive)
Water outlet fitting (Rear wheel drive)
Thermostat case
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-1-5
4G1 ENGINE (E-W) - Specifications
Item
Nm
Thermo valve
27
11
29
13
Water temperature gauge unit
Water temperature sensor
Water pump
Exhaust manifold and intake manifold
Boost sensor
5
Solenoid valve assembly
Intake manifold
9
17
17
21
29
29
17
29
44
M8
Intake manifold stay (MPI)
M10
Intake manifold stay (carburetor)
Exhaust manifold cover
Exhaust manifold
M8
M10
Oxygen sensor
Rocker arms, rocker shafts, and camshaft
Fuel pump cover
12
4
Rocker cover
Rocker shaft assembly
Adjusting screw
31
15
24
11
Bearing cap
Cylinder head and valves
Cylinder head bolt
20 + 90_ + 90_
Tighten to 49 Nm, then completely loosen and retighten as described.
Oil pump and oil pan
Transmission stay
Oil pan
23
7
Drain plug
39
18
13
44
10
Oil screen
Front case
Relief plug
Oil pump cover
Pistons and connecting rods
Connecting rod nut
17 + 90_ to 100_
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-1-5a
4G1 ENGINE (E-W) - Specifications
Item
Nm
Crankshaft and cylinder block
Flywheel
132
132
10
Drive plate
Rear plate
Bell housing cover
Rear oil seal case
Bearing cap bolt
Oil pressure switch
Knock sensor
10
11
51
18
23
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-1-5b
4G1 ENGINE (E-W) - Specifications
Intentionally blank
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-1-6
4G1 ENGINE (E-W) - Specifications
NEW TIGHTENING METHOD USING PLASTIC REGION TIGHTENING BOLTS
Parts of the engine use plastic region tightening bolts. The tightening procedure for these is different
from that of conventional bolts and is described in relevant parts of this manual. Note that plastic region
tightening bolts have fixed service limits. These limits are indicated in relevant parts of this manual and
must be strictly observed.
D
Plastic region tightening bolts are used for the following applications:
(1) Cylinder head bolts
(2) Connecting rod cap bolts
D
The tightening procedure is basically as follows:
After tightening a bolt to the specified torque, tighten it by a further 90_ + 90_ or by a further 90–100°.
The exact tightening procedure differs depending on the bolt and is described in relevant parts of
this manual.
SEALANTS
Item
Specified sealant
Quantity
Water pump
Mitsubishi Genuine Part No. MD970389 or equivalent As required
Mitsubishi Genuine Part No. MD970389 or equivalent As required
Thermo valve
Engine coolant temperature sensor
3M Nut Locking Part No. 4171 or equivalent
As required
As required
As required
As required
As required
Engine coolant temperature gauge unit 3M ATD Part No. 8660 or equivalent
Camshaft bearing cap
Semi-circular packing
Rocker cover
3M ATD Part No. 8660 or equivalent
3M ATD Part No. 8660 or equivalent
3M ATD Part No. 8660 or equivalent
Front oil seal case
Oil pump
Mitsubishi Genuine Part No. MD970389 or equivalent As required
Mitsubishi Genuine Part No. MD970389 or equivalent As required
Oil pressure switch
3M ATD Part No. 8660 or equivalent
As required
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-1-7
4G1 ENGINE (E-W) - Specifications
FORM-IN-PLACE GASKET
The engine has several areas where the form-in-place gasket (FIPG) is in use. To ensure that the gasket
fully serves its purpose, it is necessary to observe some precautions when applying the gasket. Bead
size, continuity and location are of paramount importance. Too thin a bead could cause leaks. Too thick
a bead, on the other hand, could be squeezed out of location, causing blocking or narrowing of the
fluid feed line. To eliminate the possibility of leaks from a joint, therefore, it is absolutely necessary to
apply the gasket evenly without a break, while observing the correct bead size.
The FIPG used in the engine is a room temperature vulcanization (RTV) type and is supplied in a 100-gram
tube (Part No. MD970389 or MD997110). Since the RTV hardens as it reacts with the moisture in the
atomospheric air, it is normally used in the metallic flange areas. The FIPG, Part No. MD970389, can
be used for sealing both engine oil and coolant, while Part No. 997110 can only be used for engine
oil sealing.
Disassembly
The parts assembled with the FIPG can be easily disassembled without use of a special method. In
some cases, however, the sealant between the joined surfaces may have to be broken by lightly striking
with a mallet or similar tool. A flat and thin gasket scraper may be lightly hammered in between the
joined surfaces. In this case, however, care must be taken to prevent damage to the joined surfaces.
For removal of the oil pan, the special tool “Oil Pan Remover” (MD998727) is available. Be sure to use
the special tool to remove the oil pan. <Except aluminium die-cast oil pans>
Surface Preparation
Thoroughly remove all substances deposited on the gasket application surfaces, using a gasket scraper
or wire brush. Check to ensure that the surfaces to which the FIPG is to be applied is flat. Make sure
that there are no oils, greases and foreign substances deposited on the application surfaces. Do not
forget to remove the old sealant remained in the bolt holes.
Form-In-Place Gasket Application
When assembling parts with the FIPG, you must observe some precautions, but the procedures is very
simple as in the case of a conventional precut gasket.
Applied FIPG bead should be of the specified size and without breaks. Also be sure to encircle the
bolt hole circumference with a completely continuous bead. The FIPG can be wiped away unless it is
hardened. While the FIPG is still moist (in less than 15 minutes), mount the parts in position. When
the parts are mounted, make sure that the gasket is applied to the required area only. In addition, do
not apply any oil or water to the sealing locations or start the engine until a sufficient amount of time
(about one hour) has passed after installation is completed.
The FIPG application procedure may vary on different areas. Observe the procedure described in the
text when applying the FIPG.
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
NOTES
11A-2-1
4G1 ENGINE (E-W) - Special Tools
2. SPECIAL TOOLS
Tool
Number
Name
Use
MB990767
MD998011
MD998054
MD998304
MD998305
MD998713
MD998715
MD998727
MD998735
End yoke holder
Holding camshaft sprocket when loosening or
tightening bolt (used with MD998715)
Crankshaft rear oil Installation of crankshaft rear oil seal
seal installer
Oil pressure switch Removal and installation of oil pressure switch
wrench
Crankshaft front oil Installation of crankshaft front oil seal
seal installer
Crankshaft front oil Guide for installation of crankshaft front oil seal
seal guide
Camshaft oil seal Installation of camshaft oil seal
installer
Pin (2-off)
Holding camshaft sprocket when loosening or
tightening bolt (used with MB990767)
Oil pan remover
Removal of oil pan
Valve spring com- Compression of valve springs
pressor
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-2-2
4G1 ENGINE (E-W) - Special Tools
Tool
Number
Name
Use
MD998760
Valve stem seal Installation of valve stem seals
installer (SOHC 12-VALVE)
MD998780
MB991659
MD998772
MD998440
MD998442
MD998781
MB991671
MB991653
Piston pin setting Removal and press-fitting of piston pins
tool
Guide-D
Guide for removal and press-fitting of piston
pins
Valve spring com- Compression of valve springs
pressor
Leak-down tester
Air bleed wire
Testing of automatic lash adjusters
(DOHC)
Testing of automatic lash adjusters
(DOHC)
Flywheel stopper
Locking flywheel in fixed position
Valve stem
installer
Press-fitting of valve stem seals
(SOHC 16-VALVE, DOHC)
Cylinder head bolt Removal and installation of cylinder head bolt
wrench (10)
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-3-1
4G1 ENGINE (E-W) - Alternator and Ignition System
3. ALTERNATOR AND IGNITION SYSTEM
REMOVAL AND INSTALLATION <SOHC 12-VALVE>
12
12 Nm
13
44 Nm
6
7
10
22 Nm
25 Nm
11
1
5
23 Nm
9 Nm
23 Nm
2
3
9
8
4
123 Nm
Removal steps
1. Oil level gauge
2. Oil level gauge guide
3. O-ring
10. Spark plug cable
11. Spark plug
"AA 12. Distributor
4. Drive belt*
13. O-ring
5. Water pump pulley
6. Alternator brace
7. Alternator
NOTE
*: For details of adjustment, refer to the relevant model’s
chassis workshop manual.
AA" "BA 8. Crankshaft bolt
9. Crankshaft pulley
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-3-1a
4G1 ENGINE (E-W) - Alternator and Ignition System
REMOVAL AND INSTALLATION <SOHC 16-VALVE-FRONT WHEEL DRIVE>
25 Nm
10
12 Nm
12
13
11
44 Nm
22 Nm
6
7
23 Nm
5
1
23 Nm
9
9 Nm
2
3
8
125 Nm
4
Removal steps
1. Oil level gauge
10. Spark plug cable
11. Spark plug
2. Oil level gauge guide
3. O-ring
"AA 12. Distributor
4. Drive belt*
13. O-ring
5. Water pump pulley
6. Alternator brace
7. Alternator
NOTE
*: For details of adjustment, refer to the relevant model’s
chassis workshop manual.
AA" "BA 8. Crankshaft bolt
9. Crankshaft pulley
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-3-1b
4G1 ENGINE (E-W) - Alternator and Ignition System
REMOVAL AND INSTALLATION <SOHC 16-VALVE-REAR WHEEL DRIVE>
10
10 Nm
9 Nm
13
25 Nm
12
14
15
11
6
7
13 Nm
44 Nm
21 Nm
22 Nm
1
5
23 Nm
9 Nm
23 Nm
2
3
8
9
125 Nm
4
Removal steps
1. Oil level gauge
10. Spark plug cable
11. Ignition coil
2. Oil level gauge guide
3. O-ring
12. Spark plug
4. Drive belt*
13. Cam position sensor
5. Water pump pulley
6. Alternator brace
7. Alternator
"CA 14. Cam position sensor support
15. Cam position sensing cylinder
NOTE
AA" "BA 8. Crankshaft bolt
*: For details of adjustment, refer to the relevant model’s
chassis workshop manual.
9. Crankshaft pulley
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-3-2
4G1 ENGINE (E-W) - Alternator and Ignition System
REMOVAL AND INSTALLATION <DOHC>
10
25 Nm
12
11
11 Nm
13
6
44 Nm
7
22 Nm
1
5
23 Nm
9 Nm
23 Nm
2
3
9
8
4
103 Nm
Removal steps
1. Oil level gauge
10. Spark plug cable
11. Spark plug
2. Oil level gauge guide
3. O-ring
"AA 12. Distributor
4. Drive belt*
13. O-ring
5. Water pump pulley
6. Alternator brace
7. Alternator
NOTE
*: For details of adjustment, refer to the relevant model’s
chassis workshop manual.
AA" "BA 8. Crankshaft bolt
9. Crankshaft pulley
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-3-3
4G1 ENGINE (E-W) - Alternator and Ignition System
REMOVAL SERVICE POINT
AA" CRANKSHAFT BOLT REMOVAL
MD998781
(1) Lock the flywheel or drive plate in position using the special
tool shown in the illustration, then loosen the crankshaft
bolts.
INSTALLATION SERVICE POINTS
"AA DISTRIBUTOR INSTALLATION
(1) Turn the crankshaft clockwise until cylinder No. 1 is at
top dead center on its compression stroke.
(2) Align the alignment marks on the distributor housing and
coupling.
(3) Fit the distributor onto the engine, aligning the stud bolts
with the slots in the distributor mounting flange.
Alignment mark
Alignment mark
"BA CRANKSHAFT BOLT INSTALLATION
(1) Lock the flywheel or drive plate in position using the special
tool shown in the illustration, then tighten the crankshaft
bolts.
MD998781
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
NOTES
11A-4-1
4G1 ENGINE (E-W) - Timing Belt
4. TIMING BELT
REMOVAL AND INSTALLATION <SOHC>
12
13
11
88 Nm
11 Nm
1
10
5
23 Nm
35 Nm
8
9
6
3
7
4
9 Nm
2
Removal steps
1. Timing belt upper cover
2. Timing belt lower cover
AA" "CA 3. Timing belt
"BA 4. Tensioner spring
"BA 5. Timing belt tensioner
6. Crankshaft angle sensor
<Rear wheel drive>
7. Crankshaft sprocket
8. Spacer <Rear wheel drive>
9. Sensing blade <Rear wheel drive>
AB" "AA 10. Camshaft sprocket bolt
11. Camshaft sprocket
12. Engine support bracket
13. Timing belt rear cover
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-4-2
4G1 ENGINE (E-W) - Timing Belt
REMOVAL AND INSTALLATION <DOHC>
12
11 Nm
11 Nm
13
3
11 Nm
9
1
88 Nm
8
23 Nm
5
11
10
6
35 Nm
35 Nm
7
4
2
Removal steps
1. Timing belt upper cover
2. Timing belt lower cover
AB" "AA 8. Camshaft sprocket bolt
9. Camshaft sprocket
AA" "DA 3. Timing belt
10. Engine support bracket
AA" "BA 4. Tensioner spring
AA" "BA 5. Timing belt tensioner
6. Idler pulley
11. Timing belt rear cover (lower)
12. Timing belt rear cover (right)
13. Timing belt rear cover (left)
7. Crankshaft pulley
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-4-3
4G1 ENGINE (E-W) - Timing Belt
REMOVAL SERVICE POINTS
AA" TIMING BELT / TENSIONER SPRING / TIMING
BELT TENSIONER REMOVAL
(1) Using pliers, grip the tensioner spring projection (marked
“A” in the diagram)and remove it from the oil pump case
stopper. Then, remove the tensioner spring.
(2) Remove the timing belt tensioner.
(3) If the timing belt is to be reused, chalk an arrow on the
belt to indicate the direction of rotation before removing
it. This will ensure the timing belt is fitted correctly when
reused.
AB" CAMSHAFT SPROCKET BOLT REMOVAL
MD998715
(1) Using the special tools shown in the illustration, lock the
camshaft sprocket in position.
(2) Loosen the camshaft sprocket bolt.
MB990767
INSPECTION
1. TIMING BELT
Check the timing belt closely. Replace the belt with a new
one if any of the following defects is evident:
(1) Hardened backing rubber (the backing rubber is glossy,
non-elastic, and so hard that scratching with fingernails
leaves no mark)
(2) Surface cracks in the backing rubber
(3) Splits in the canvas and/or separation of the canvas and
rubber
(4) Cracks at the bases of teeth
(5) Cracks in the side of the belt
Crack
Crack
Separation
Cracked side
Cracked tooth base
(6) Abnormal wear on the belt’s sides
Rounded edge
NOTE
The sides of the belt are normal if they are sharp as
if cut by a knife.
Abnormal wear
(exposed core wire)
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-4-4
4G1 ENGINE (E-W) - Timing Belt
(7) Abnormal wear on teeth
Initial stage:
Canvas worn exposing
rubber
Canvas worn (fluffy canvas fibers, rubbery texture gone,
white discoloration, canvas texture indistinct)
Missing tooth
Final stage:
Canvas worn, exposing rubber (tooth width reduced)
(8) Missing teeth
2. TENSIONER PULLEY AND IDLER PULLEY
(1) Check that the pulleys turn smoothly without play and
are not abnormally noisy. Replace either or both of the
pulleys if necessary.
INSTALLATION SERVICE POINTS
"AA CAMSHAFT SPROCKET BOLT INSTALLATION
MB990767
(1) Using the special tools shown in the illustration, lock the
camshaft sprocket in position.
(2) Tighten the camshaft sprocket bolt to the specified torque.
MD998715
"BA TIMING BELT TENSIONER / TENSIONER SPRING
INSTALLATION
(1) Lock the timing belt tensioner in the illustrated position.
Timing belt
tensioner
(2) Fit one of the tensioner spring projections over the hooked
portion of the timing belt tensioner and fit the tensioner
onto the oil pump case.
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-4-5
4G1 ENGINE (E-W) - Timing Belt
(3) Grip the other tensioner spring projection and fit it onto
the oil pump case lug as shown in the illustration.
(4) Move the timing belt tensioner in the direction shown
and temporarily tighten the bolt.
"CA TIMING BELT INSTALLATION
(1) Align the camshaft timing mark with the timing mark on
the cylinder head.
(2) Align the crankshaft timing mark with the timing mark
on the front case.
(3) Keeping the tension side of the timing belt tight, fit the
timing belt onto the crankshaft sprocket, camshaft
sprocket, and tensioner pulley in that order.
(4) Loosen the tensioner pulley mounting bolts by 1/4 to
1/2 of a turn and allow the tensioner spring to apply tension
to the timing belt.
(5) Turn the crankshaft twice in the normal rotating direction
(clockwise) and check that the timing marks are correctly
aligned.
Caution
This procedure utilizes the camshaft’s driving torque
to apply tension evenly to the timing belt. Be sure
to turn the crankshaft as described above. Do not
turn the crankshaft in reverse.
(6) Tighten the tensioner pulley mounting bolts.
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-4-6
4G1 ENGINE (E-W) - Timing Belt
"DA TIMING BELT INSTALLATION
(1) Place the camshaft sprocket timing marks at the positions
shown.
NOTE
After aligning the sprocket timing marks, let go of the
sprockets. The exhaust camshaft sprocket will rotate by
one tooth in the direction shown and remain stable in
this position.
(2) Align the crankshaft timing mark with the timing mark
on the front case.
(3) Turn the exhaust camshaft sprocket in the direction shown
and fit the timing belt with the timing marks aligned.
(4) Use a bulldog clip to prevent the timing belt teeth from
jumping.
(5) Fit the timing belt onto the idler pulley, crankshaft sprocket,
and tensioner pulley in that order.
NOTE
When fitting the belt, keep the camshaft sprocket timing
marks correctly aligned and keep the tension side of the
belt tight.
1
1
(6) Loosen the tensioner pulley mounting bolts by /4 to /2
of a turn and allow the tensioner spring to apply tension
to the timing belt.
(7) Remove the bulldog clip.
(8) Turn the crankshaft twice in the normal rotating direction
(clockwise) and check that the timing marks are correctly
aligned.
Caution
This procedure utilizes the camshaft’s driving torque
to apply tension evenly to the timing belt. Be sure
to turn the crankshaft as described above. Do not
turn the crankshaft in reverse.
(9) Tighten the tensioner pulley mounting bolts.
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-5-1
4G1 ENGINE (E-W) - Fuel and Emission Control Systems
5. FUEL AND EMISSION CONTROL SYSTEMS
REMOVAL AND INSTALLATION <SOHC-CARBURETOR>
17 Nm
7
8
9
2
3
10
21 Nm
11
12
4
5
6
11 Nm
22 Nm
1
Removal steps
1. Breather tube
2. Fuel hose
3. Fuel pump
4. Gasket
5. Insulator
6. Gasket
7. Carburetor
8. Upper gasket
9. Spacer
10. Lower gasket
11. EGR valve (vehicles with automatic
transmission for GCC only)
12. Gasket
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-5-2
4G1 ENGINE (E-W) - Fuel and Emission Control Systems
REMOVAL AND INSTALLATION <SOHC-MPI>
11 Nm
3
11
18 Nm
1
6
2
9
21 Nm
10
8
5
4
7
9 Nm
12
13
14
15
18 Nm
Removal steps
1. Throttle body assembly
2. Gasket
"AA 8. Injector
9. O-ring
3. Fuel return pipe
"BA 4. Fuel pressure regulator
5. O-ring
10. Grommet
11. Delivery pipe
12. EGR valve
13. Gasket
14. Air temperature sensor
15. Gasket
6. Insulator
7. Insulator
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-5-2a
4G1 ENGINE (E-W) - Fuel and Emission Control Systems
REMOVAL AND INSTALLATION <SOHC-REAR WHEEL DRIVE>
9 Nm
3
11 Nm
18 Nm
11
1
2
6
5
4
21 Nm
10
8
9
7
9 Nm
12
13
Removal steps
1. Throttle body assembly
2. Gasket
"AA 8. Injector
9. O-ring
3. Fuel return pipe
10. Grommet
"BA 4. Fuel pressure regulator
5. O-ring
11. Delivery pipe
12. EGR valve
13. Gasket
6. Insulator
7. Insulator
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-5-2b
4G1 ENGINE (E-W) - Fuel and Emission Control Systems
Intentionally blank
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-5-3
4G1 ENGINE (E-W) - Fuel and Emission Control Systems
REMOVAL AND INSTALLATION <DOHC>
11 Nm
3
11
18 Nm
1
2
6
9
10
5
4
8
7
9 Nm
Removal steps
1. Throttle body assembly
2. Gasket
7. Insulator
"AA 8. Injector
9. O-ring
3. Fuel return pipe
"BA 4. Fuel pressure regulator
5. O-ring
10. Grommet
11. Delivery pipe
6. Insulator
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-5-4
4G1 ENGINE (E-W) - Fuel and Emission Control Systems
INSTALLATION SERVICE POINTS
"AA INJECTOR INSTALLATION
(1) Fit a new O-ring and grommet onto the injector.
(2) Apply spindle oil or gasoline to the injector O-ring.
(3) Fit the injector onto the delivery pipe, turning it to the
left and right as it goes in.
(4) Check that the injector rotates smoothly.
Caution
If the injector does not rotate smoothly, its O-ring
may be binding. If this occurs, remove the injector
from the delivery pipe, check the O-ring, and re-insert
the injector.
"BA FUEL PRESSURE REGULATOR INSTALLATION
(1) Apply a little new engine oil to the O-ring, then insert
the fuel pressure regulator into the delivery pipe, taking
care not to damage the O-ring.
Caution
Ensure that no engine oil enters the delivery pipe.
(2) Check that the fuel pressure regulator rotates smoothly.
If it does not rotate smoothly, the O-ring may be binding.
If this occurs, remove the fuel pressure regulator, check
the O-ring for damage, then re-insert the regulator into
the delivery pipe.
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-6-1
4G1 ENGINE (E-W) - Water Pump and Water Hose
6. WATER PUMP AND WATER HOSE
REMOVAL AND INSTALLATION <SOHC-CARBURETOR>
22 Nm
1
2
27 Nm
27 Nm
11 Nm
4
12
3
5
6
11
7
8
9
23 Nm
10
12 Nm
14
13
13 Nm
Removal steps
1. Water hose
2. Water hose
3. Water hose
"CA 8. Thermostat
9. Thermostat case
10. Gasket
"FA 4. Thermo valve (engines with EGR)
"FA 5. Thermo valve
"BA 11. Water inlet pipe
"BA 12. O-ring
"DA 6. Water temperature gauge unit
7. Water inlet fitting
"BA 13. O-ring
"AA 14. Water pump
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-6-2
4G1 ENGINE (E-W) - Water Pump and Water Hose
REMOVAL AND INSTALLATION <SOHC-MPI>
22 Nm
11
2
6
7
29 Nm
3
11 Nm
12 Nm
4
8
9
5
23 Nm
10
1
12
13 Nm
Removal steps
1. Water hose
2. Water hose
8. Gasket
"BA 9. Water inlet pipe
"BA 10. O-ring
"EA 3. Water temperature sensor
"DA 4. Water temperature gauge unit
5. Water inlet fitting
"BA 11. O-ring
"AA 12. Water pump
"CA 6. Thermostat
7. Thermostat case
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-6-2a
4G1 ENGINE (E-W) - Water Pump and Water Hose
REMOVAL AND INSTALLATION <SOHC 16-VALVE-MPI-FRONT WHEEL DRIVE>
2
12 Nm
1
9
12 Nm
29 Nm
11
23 Nm
10
3
12
8
7
6
4
5
11 Nm
22 Nm
13 Nm
Removal steps
1. Water hose
8. Gasket
2. Water hose
"BA 9. Water inlet pipe
"BA 10. O-ring
"EA 3. Water temperature sensor
"DA 4. Water temperature gauge unit
5. Water inlet fitting
"BA 11. O-ring
"AA 12. Water pump
"CA 6. Thermostat
7. Thermostat case
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-6-2b
4G1 ENGINE (E-W) - Water Pump and Water Hose
REMOVAL AND INSTALLATION <SOHC 16-VALVE-MPI-REAR WHEEL DRIVE>
12 Nm
23 Nm
2
1
5
6
12 Nm
10
7
11
25 Nm
9
29 Nm
11 Nm
3
8
4
12
23 Nm
13 Nm
Removal steps
1. Water hose
2. Water hose
"CA 7. Thermostat
8. Fitting
"EA 3. Water temperature sensor
9. Gasket
"DA 4. Water temperature gauge unit
5. Water outlet fitting
"BA 10. Water inlet pipe
"BA 11. O-ring
"AA 12. Water pump
6. Gasket
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-6-3
4G1 ENGINE (E-W) - Water Pump and Water Hose
REMOVAL AND INSTALLATION <DOHC>
12 Nm
11
2
1
12 Nm
29 Nm
8
3
22 Nm
7
9
10
6
12
23 Nm
4
5
11 Nm
13 Nm
Removal steps
1. Water hose
2. Water hose
8. Gasket
"BA 9. Water inlet pipe
"BA 10. O-ring
"EA 3. Water temperature sensor
"DA 4. Water temperature gauge unit
5. Water inlet fitting
"BA 11. O-ring
"AA 12. Water pump
"CA 6. Thermostat
7. Thermostat case
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-6-4
4G1 ENGINE (E-W) - Water Pump and Water Hose
INSTALLATION SERVICE POINTS
"AA WATER PUMP INSTALLATION
(1) Apply a 3 mm bead of form-in-place gasket (FIPG) to
the mounting surface.
Specified sealant:
Mitsubishi Genuine Part No. MD970389 or
equivalent.
"BA O-RING / WATER PIPE INSTALLATION
(1) Replace the water inlet pipe O-rings with new ones, then
apply water to the O-rings so that they can be inserted
easily into the water pump and thermostat case.
Caution
1. Do not apply engine oil or any other oily substance
to the O-rings.
2. Secure the water pipe after the thermostat case
has been installed.
"CA THERMOSTAT INSTALLATION
(1) Fit the thermostat such that its jiggle valve is at the top.
"DA WATER
TEMPERATURE
GAUGE
UNIT
INSTALLATION
(1) If the water temperature gauge unit is to be reused, apply
the specified sealant to its thread.
Specified sealant:
3M ATD Part No. 8660 or equivalent.
"EA WATER TEMPERATURE SENSOR INSTALLATION
(1) If the water temperature sensor is to be reused, apply
the specified sealant to its thread.
Specified sealant:
3M Nut Locking Part No. 4171 or equivalent.
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-6-5
4G1 ENGINE (E-W) - Water Pump and Water Hose
"FA THERMO VALVE INSTALLATION
(1) If the thermo valve is to be reused, apply the specified
sealant to its thread.
Specified sealant:
Mitsubishi Genuine Part No. MD970389 or
equivalent.
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
NOTES
11A-7-1
4G1 ENGINE (E-W) - Intake and Exhaust Manifolds
7. INTAKE AND EXHAUST MANIFOLDS
REMOVAL AND INSTALLATION <SOHC-CARBURETOR>
1
3
4
8
17 Nm
7
5
29 Nm
2
30 Nm
17 Nm
6
Removal steps
1. Engine hanger
5. Exhaust manifold cover
6. Engine hanger
2. Intake manifold stay
3. Intake manifold
7. Exhaust manifold
4. Intake manifold gasket
8. Exhaust manifold gasket
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-7-2
4G1 ENGINE (E-W) - Intake and Exhaust Manifolds
REMOVAL AND INSTALLATION <SOHC-MPI>
1
3
4
44 Nm
5
9
17 Nm
7
8
29 Nm
17 Nm
21 Nm
17 Nm
2
6
Removal steps
1. Engine hanger
6. Exhaust manifold cover
7. Engine hanger
2. Intake manifold stay
3. Intake manifold
8. Exhaust manifold
4. Intake manifold gasket
5. Oxygen sensor (vehicles for Hong
Kong only)
9. Exhaust manifold gasket
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-7-2a
4G1 ENGINE (E-W) - Intake and Exhaust Manifolds
REMOVAL AND INSTALLATION <SOHC 16-VALVE-MPI-REAR WHEEL DRIVE>
6
9 Nm
5 Nm
7
1
2
4
17 Nm
5
29 Nm
9
11
10
3
17 Nm
19 Nm
21 Nm
17 Nm
8
29 Nm
Removal steps
1. Boost sensor
7. Solenoid valve assembly <With cat-
alytic converter>
2. Engine hanger
3. Intake manifold stay
4. Intake manifold
8. Engine hanger
9. Exhaust manifold cover
10. Exhaust manifold
11. Exhaust manifold gasket
5. Intake manifold gasket
6. Solenoid valve assembly <Without
catalytic converter>
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-7-2b
4G1 ENGINE (E-W) - Intake and Exhaust Manifolds
REMOVAL AND INSTALLATION <SOHC-CARBURETOR FOR CENTRAL AMERICA>
5
11
8
13 Nm
1
3
54 Nm
9
4
10
7
11 Nm
8
83 Nm
29 Nm
17 Nm
12
6
2
30 Nm
17 Nm
Removal steps
1. Engine hanger
"AA 7. Air pipe
2. Intake manifold stay
3. Intake manifold
"AA 8. Reed valve and bracket
9. Reed valve
4. Intake manifold gasket
5. Air hose
6. Exhaust manifold cover
10. Reed valve bracket “A”
11. Reed valve bracket “B”
12. Exhaust manifold
Mitsubishi Motors Corporation
July 1999
PWEE9520-B
E
Revised
11A-7-3
4G1 ENGINE (E-W) - Intake and Exhaust Manifolds
REMOVAL AND INSTALLATION <DOHC>
1
3
4
17 Nm
8
9
6
44 Nm
17 Nm
5
29 Nm
17 Nm
21 Nm
2
29 Nm
7
Removal steps
1. Engine hanger
6. Exhaust manifold cover
7. Engine hanger
2. Intake manifold stay
3. Intake manifold
8. Exhaust manifold
4. Intake manifold gasket
5. Oxygen sensor
9. Exhaust manifold gasket
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-7-4
4G1 ENGINE (E-W) - Intake and Exhaust Manifolds
INSTALLATION SERVICE POINTS
"AA REED VALVE, BRACKET AND AIR PIPE
Reed valve and bracket
INSTALLATION
Pipe nut (reed valve side)
(1) Insert the lower end of the air pipe into the exhaust
manifold, then tighten the pipe nut temporarily.
(2) Fit the upper end of the air pipe to the reed valve and
bracket assembly, then tighten the pipe nut temporarily.
(3) Attach the reed valve and bracket assembly to the reed
valve bracket “B” and tighten the mounting bolts
temporarily.
Pipe clamp bolt
(4) Tighten the nuts on both ends of the air pipe to the specified
torque.
Air pipe
Caution
Reed valve
bracket “B”
The tightening torque of the reed valve side nut and
that of the exhaust manifold side nut are different
from each other.
Be sure to tighten each nut correctly to the specified
torque.
Pipe nut (exhaust
manifold side)
(5) Tighten the reed valve and bracket mounting bolts to
the specified torque.
(6) Tighten the pipe clamp bolt.
Mitsubishi Motors Corporation
July 1999
PWEE9520-B
E
Added
NOTES
11A-8-1
4G1 ENGINE (E-W) - Rocker Arms and Camshafts
8. ROCKER ARMS AND CAMSHAFTS
REMOVAL AND INSTALLATION <SOHC 12-VALVE>
1
3
6
4
4 Nm
9
2
31 Nm
5
14
7
12
13
11
19
20
21
15 Nm
18
17
22
16
15
Apply engine oil to all
moving parts before
installation.
10
8
Removal steps
1. Breather hose
2. P.C.V. hose
12. Rocker arm spring
13. Rocker arm B
14. Rocker arm shaft
15. Rocker arm C
16. Wave washer
17. Spacer
3. P.C.V. valve
4. P.C.V. valve gasket
5. Oil filler cap
6. Rocker cover
7. Rocker cover gasket
18. Rocker arm D
19. Rocker arm shaft
"FA 8. Camshaft oil seal
"EA 9. Rocker arm and shaft assembly
"EA 10. Rocker arm and shaft assembly
11. Rocker arm A
"CA 20. Adjusting screw
21. Nut
22. Camshaft
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-8-1a
4G1 ENGINE (E-W) - Rocker Arms and Camshafts
REMOVAL AND INSTALLATION <SOHC 16-VALVE>
4
2
1
5
31 Nm
35 Nm
3
10
14
6
11
7
18
13
19
20
12
9 Nm
15
16
9 Nm
17
8
Apply engine oil to all
moving parts before
installation.
21
9
Removal steps
1. Breather hose
2. P.C.V. hose
12. Rocker arm B
13. Rocker arm A
3. Oil filler cap
"DA 14. Rocker arm shaft
"CA 15. Adjusting screw
16. Nut
4. P.C.V. valve
5. P.C.V. valve gasket
6. Rocker cover
7. Rocker cover gasket
8. Oil seal
17. Rocker arm C
"DA 18. Rocker arm shaft
"CA 19. Adjusting screw
20. Nut
"FA 9. Oil seal
"EA 10. Rocker arms and rocker arm shaft
21. Camshaft
IN
"EA 11. Rocker arms and rocker arm shaft
EX
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-8-1b
4G1 ENGINE (E-W) - Rocker Arms and Camshafts
Intentionally blank
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-8-2
4G1 ENGINE (E-W) - Rocker Arms and Camshafts
REMOVAL AND INSTALLATION <DOHC>
Apply engine oil to all
moving parts before
installation.
2
1
3
5
4
6
4 Nm
7
9
24 Nm
8
11 Nm
11
13
12
10
14
15
Removal steps
1. Breather hose
2. P.C.V. hose
"GA 9. Semi-circular packing
"FA 10. Camshaft oil seal
"BA 11. Bearing cap
"AA 12. Camshaft
3. P.C.V. valve
4. P.C.V. valve gasket
5. Oil filler cap
"HA 6. Rocker cover
7. Rocker cover gasket A
8. Rocker cover gasket B
"AA 13. Camshaft
14. Roller rocker arm
15. Lash adjuster
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-8-3
4G1 ENGINE (E-W) - Rocker Arms and Camshafts
INSPECTION
1. CAMSHAFT
(1) Measure the cam heights and replace the camshaft if
any height exceeds the specified limit.
Standard value
mm
Limit mm
Intake
SOHC
12-VALVE
38.78
38.28
SOHC
16-VALVE
36.99
36.49
DOHC
34.67
39.10
34.17
38.60
Exhaust
SOHC
12-VALVE
SOHC
36.85
34.26
36.35
33.76
16-VALVE
DOHC
2. LASH ADJUSTERS
Caution
1. The lash adjusters are precision-engineered
mechanisms. Do not allow them to become
contaminated by dirt or other foreign substances.
2. Do not attempt to disassemble the lash adjusters.
3. Use only fresh diesel fuel to clean the lash
adjusters.
(1) Prepare three containers and approximately five liters
of diesel fuel. Into each container, pour enough diesel
fuel to completely cover a lash adjuster when it is standing
upright. Then, perform the following steps with each lash
adjuster.
To clean
outside
To clean
inside
To fill
diesel fuel
A
B
C
(2) Place the lash adjuster in container A and clean its outside
surface.
NOTE
Use a nylon brush if deposits are hard to remove.
Diesel fuel
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-8-4
4G1 ENGINE (E-W) - Rocker Arms and Camshafts
(3) While gently pushing down the internal steel ball using
special tool MD998442, move the plunger through 5 to
10 strokes until it slides smoothly. In addition to eliminating
stiffness in the plunger, this operation will remove dirty
oil.
Caution
The steel ball spring is extremely weak, so the lash
adjuster’s functionality may be lost if the air bleed
wire is pushed in hard.
Diesel fuel
MD998442
NOTE
If the plunger remains stiff or the mechanism appears
otherwise abnormal, replace the lash adjuster.
(4) Removal the lash adjuster from the container. Then, push
down the steel ball gently and push the plunger to eliminate
diesel fuel from the pressure chamber.
Caution
Make sure the oil hole in the side of the body is pointing
toward container A. Do not point the oil hole at yourself
or other people.
MD998442
Diesel fuel
(5) Place the lash adjuster in container B. Then, gently push
down the internal steel ball using special tool MD998442
and move the plunger through 5 to 10 strokes until it
slides smoothly. This operation will clean the lash
adjuster’s pressure chamber.
Caution
The steel ball spring is extremely weak, so the lash
adjuster’s functionality may be lost if the air bleed
wire is pushed in hard.
Diesel fuel
MD998442
(6) Remove the lash adjuster from the container. Then, push
down the steel ball gently and push the plunger to eliminate
diesel fuel from the pressure chamber.
Caution
Make sure the oil hole in the side of the body is pointing
toward container B. Do not point the oil hole at yourself
or other people.
MD998442
Diesel fuel
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-8-5
4G1 ENGINE (E-W) - Rocker Arms and Camshafts
(7) Place the lash adjuster in container C. Then, gently push
down the internal steel ball using special tool MD998442.
Caution
Do not use container C for cleaning. If cleaning is
performed in container C, foreign matter could enter
the pressure chamber when chamber is filled with
diesel fuel.
MD998442
Diesel fuel
(8) Stand the lash adjuster with its plunger at the top, then
push the plunger downward firmly until it moves through
its greatest possible stroke. Return the plunger slowly,
then release the steel ball and allow the pressure chamber
to fill with diesel fuel.
Diesel fuel
MD998442
(9) Remove the lash adjuster from the container, then stand
the lash adjuster with its plunger at the top. Push the
plunger firmly and check that it does not move. Also,
check that the lash adjuster’s height matches that of a
new lash adjuster.
NOTE
If lash adjuster contracts, perform the operations (7)
through (9) again to fill it with diesel fuel completely.
Replace the lash adjuster if it stillcontracts after performing
these steps.
(10)Set the lash adjuster on the special tool MD998440 (leak
down tester).
Division = 1 mm
MD998440
Lash adjuster
(11)Remove the bolt from the tester, then adjust the height
as illustrated.
(12)After the plunger has moved downward slightly (0.2 to
0.5 mm), measure the time taken for it to move downward
by a further 1 mm.
Nut
Lash
adjuster
Standard value:
3 - 20 second/1 mm [with diesel fuel at 15 - 20_C
(59 - 68_F)]
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-8-6
4G1 ENGINE (E-W) - Rocker Arms and Camshafts
NOTE
Replace the lash adjuster if the time measurement is
out of specification.
(13)Place the lash adjuster in container C again, then gently
push down the internal steel ball using special tool
MD998442.
(14)Stand the lash adjuster with its plunger at the top, then
push the plunger downward firmly until it moves through
its greatest possible stroke. Return the plunger slowly,
then release the steel ball and allow the pressure chamber
to fill with diesel fuel.
Diesel fuel
MD998442
(15)Remove the lash adjuster from the container, then stand
the lash adjuster with its plunger at the top. Push the
plunger firmly and check that it does not move. Also,
check the lash adjuster’s height matches that of a new
lash adjuster.
NOTE
If lash adjuster contracts, perform the operations (13)
through (15) again to fill it with diesel fuel completely.
Replace the lash adjuster if it stillcontracts after performing
these steps.
(16)Stand the lash adjuster upright to prevent diesel fuel from
spilling out. Do not allow the lash adjuster to become
contaminated by dirt or other foreign matter. Fit the lash
adjuster onto the engine as soon as possible.
INSTALLATION SERVICE POINTS
"AA CAMSHAFT INSTALLATION
(1) Apply engine oil to the camshaft journals and cams before
installation. Ensure that the intake-side and exhaust-side
camshafts are not reversed.
Slit
NOTE
There is a 4 mm-wide slot in the rear end of the
exhaust-side camshaft.
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-8-7
4G1 ENGINE (E-W) - Rocker Arms and Camshafts
"BA BEARING CAP INSTALLATION
(1) Position the camshaft dowel pins as shown.
NOTE
With the camshaft dowel pins in this position, the camshaft
notches for tightening cylinder head bolt are correctly
positioned.
(2) Bearing caps Nos. 2 to 5 are the same shape. Be sure
to install them in order of their cap numbers and check
the identification marks to ensure that the intake and
exhaust sides are not reversed.
Identification marks:
I: Intake
E: Exhaust
(3) Apply the specified sealant to the surfaces that are to
mate with the cylinder head. Then, tighten the bearing
cap bolts - for the middle caps first, then for the outer
caps, and soon. Tighten the bolts a little at a time such
that each bolt is tightened to the specified torque in the
final sequence.
Specified sealant:
3M ATD Part No. 8660 or equivalent
(4) Check that the rocker arms are installed correctly.
"CA ADJUSTING SCREW INSTALLATION
1 mm or less
(1) Install provisionally the screw to the rocker arm. Insert
it so that the end of the screw is flush with the edge
of the rocker arm or projects slightly (1 mm or less).
"DA ROCKER ARM SHAFT INSTALLATION
(1) Place the end with the larger chamfered side toward the
flywheel side. <SOHC 12-VALVE>
Place the end with the larger chamfered side toward the
timing belt side. <SOHC 16-VALVE>
Chamfer
NOTE
The rocker arm shaft for intake valves have eight oil holes.
(2) Place the section of the shaft with the oil holes toward
the cylinder head.
Oil holes
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-8-8
4G1 ENGINE (E-W) - Rocker Arms and Camshafts
"EA ROCKER ARM / ROCKER SHAFT ASSEMBLY
SOHC 12-VALVE
Timing belt side
INSTALLATION
(1) Assemble the rocker arms and rocker shaft, paying
attention to the identification marks. Then mount the
assembly on the cylinder head.
Identification mark
SOHC 16-VALVE
Timing belt side
Identification
mark
"FA CAMSHAFT OIL SEAL INSTALLATION
SOHC
MD998713
DOHC
MD998713
"GASEMI-CIRCULAR PACKING INSTALLATION
Sealant
(1) Apply the specified sealant to the area shown.
Specified sealant:
3M ATD Part No. 8660 or equivalent
DEN0053
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-8-9
4G1 ENGINE (E-W) - Rocker Arms and Camshafts
"HA ROCKER COVER INSTALLATION
(1) Apply the specified sealant to the area shown, then fit
the rocker cover.
Specified sealant:
3M ATD part No. 8660 or equivalent
VALVE CLEARANCE ADJUSTMENT
<SOHC 12-VALVE>
Timing belt side
(1) Position the No. 1 cylinder at top dead center on the
compression stroke.
(2) Adjust the valve clearance at the points shown in the
illustration.
(3) Loosen the adjusting screw locknut.
(4) Using a feeler gauge, adjust the valve clearance by turning
the adjusting screw.
Standard value: on cold engine
Intake 0.09 mm
Exhaust 0.17 mm
(5) While holding the adjusting screw with a screwdriver,
tighten the lock nut.
Thickness gauge
(6) Rotate clockwise the crankshaft one complete turn (360_
degree).
Timing belt side
(7) Adjust the valve clearance at points as shown in the
illustration.
(8) Repeat steps (3) to (5) to adjust the valve clearance
of remaining valves.
(9) With the engine mounted on vehicle, warm up the engine.
Then, check for valve clearance on hot engine and adjust
if necessary.
Standard value: on hot engine
Intake 0.20 mm
Exhaust 0.25 mm
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-8-10
4G1 ENGINE (E-W) - Rocker Arms and Camshafts
<SOHC 16-VALVE>
Timing belt side
(1) Position the No. 1 cylinder at top dead center on the
compression stroke.
(2) Adjust the valve clearance at the points shown in the
illustration.
(3) Loosen the adjusting screw locknut.
(4) Using a feeler gauge, adjust the valve clearance by turning
the adjusting screw.
Standard value: on cold engine
Intake 0.09 mm
Exhaust 0.17 mm
(5) While holding the adjusting screw with a screwdriver,
tighten the lock nut.
Thickness gauge
(6) Rotate clockwise the crankshaft one complete turn (360_
degree).
Timing belt side
(7) Adjust the valve clearance at points as shown in the
illustration.
(8) Repeat steps (3) to (5) to adjust the valve clearance
of remaining valves.
(9) With the engine mounted on vehicle, warm up the engine.
Then, check for valve clearance on hot engine and adjust
if necessary.
Standard value: on hot engine
Intake 0.20 mm
Exhaust 0.25 mm
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
4G1 ENGINE (E-W) - Cylinder Head and Valves
11A-9-1
9. CYLINDER HEAD AND VALVES
REMOVAL AND INSTALLATION <SOHC 12-VALVE>
2
1
9
10
11
4
5
22
15
16
18
6
13
14
17
21
12
19
7
20
8
3
Apply engine oil to all
moving parts before
installation.
Removal steps
AA" "DA 1. Cylinder head bolt
2. Cylinder head assembly
3. Cylinder head gasket
12. Exhaust valve
AC" "AA 13. Valve stem seal
14. Valve spring seat
AC" "AA 15. Valve stem seal
16. Valve spring seat
AB" "CA 4. Retainer lock
5. Valve spring retainer
"BA 6. Valve spring
17. Intake valve guide
18. Exhaust valve guide
7. Intake valve (primary)
8. Intake valve (secondary)
AB" "CA 9. Retainer lock
10. Valve spring retainer
"BA 11. Valve spring
19. Intake valve seat (primary)
20. Intake valve seat (secondary)
21. Exhaust valve seat
22. Cylinder head
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-9-1a
4G1 ENGINE (E-W) - Cylinder Head and Valves
REMOVAL AND INSTALLATION <SOHC 16-VALVE>
1
8
9
4
5
10
14
6
15
17
12
2
13
16
20
19
11
18
3
7
Apply engine oil to all
moving parts before
installation.
Removal steps
AA" "DA 1. Cylinder head bolt
11. Intake valve
2. Cylinder head assembly
3. Cylinder head gasket
AC" "AA 12. Valve stem seal
13. Valve spring seat
AB" "CA 4. Retainer lock
AC" "AA 14. Valve stem seal
15. Valve spring seat
5. Valve spring retainer
"BA 6. Valve spring
16. Exhaust valve guide
17. Intake valve guide
18. Exhaust valve seat
19. Intake valve seat
7. Exhaust valve
AB" "CA 8. Retainer lock
9. Valve spring retainer
"BA 10. Valve spring
20. Cylinder head
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
4G1 ENGINE (E-W) - Cylinder Head and Valves
11A-9-1b
Intentionally blank
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-9-2
4G1 ENGINE (E-W) - Cylinder Head and Valves
REMOVAL AND INSTALLATION <DOHC>
2
1
8
9
10
14
4
20
15
5
17
6
12
13
16
19
11
18
7
3
Apply engine oil to all
moving parts before
installation.
Removal steps
AA" "DA 1. Cylinder head bolt
2. Cylinder head assembly
3. Cylinder head gasket
AB" "CA 4. Retainer lock
5. Valve spring retainer
"BA 6. Valve spring
11. Exhaust valve
AC" "AA 12. Valve stem seal
13. Valve spring seat
AC" "AA 14. Valve stem seal
15. Valve spring seat
16. Intake valve guide
7. Intake valve
17. Exhaust valve guide
18. Intake valve seat
AB" "CA 8. Retainer lock
9. Valve spring retainer
"BA 10. Valve spring
19. Exhaust valve seat
20. Cylinder head
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
4G1 ENGINE (E-W) - Cylinder Head and Valves
11A-9-3
REMOVAL SERVICE POINTS
SOHC
AA" CYLINDER HEAD BOLT REMOVAL
MB991653
DOHC
MB991653
AB" RETAINER LOCK REMOVAL
SOHC
MD998772
(1) Tag removed valves, springs, and other components,
noting their cylinder numbers and locations to facilitate
reassembly. Store these components safely.
DOHC
MD998772
MD998735
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-9-4
4G1 ENGINE (E-W) - Cylinder Head and Valves
AC" VALVE STEM SEAL REMOVAL
INSPECTION
1. CYLINDER HEAD
(1) Before cleaning the cylinder head, check it for water leaks,
gas leaks, cracks, and other damage.
(2) Remove all oil, water scale, sealant, and carbon. After
cleaning the oil passages, blow air through them to verify
that they are not blocked.
(3) Check for distortion in the cylinder head gasket surface
using a straight edge and thickness gauge. If distortion
exceeds the specified limit, grind the gasket surface to
specification.
Gasket surface distortion
Standard value: 0.05 mm or less
Limit: 0.2 mm
Grinding limit: 0.2 mm
Cylinder head height (specification when new):
SOHC 12-VALVE: 106.9 - 107.1 mm
SOHC 16-VALVE: 119.9 - 120.1 mm
DOHC: 131.9 - 132.1 mm
Caution
No more than 0.2 mm of stock may be removed from
the cylinder head and cylinder block mating surfaces
in total.
2. VALVES
(1) Check the valve face for correct contact. If contact is
uneven or incomplete, reface the valve seat.
(2) If the margin is less than specified, replace the valve.
Contact (must
be in center of
face)
Standard value:
Intake: 1.0 mm
Exhaust: 1.5 mm
Limit:
Margin
Intake: 0.5 mm
Exhaust: 1.0 mm
6EN0542
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
4G1 ENGINE (E-W) - Cylinder Head and Valves
11A-9-5
(3) Measure the valve’s total length. If the measurement is
less than specified, replace the valve.
Standard mm
SOHC 12-VALVE 100.75
SOHC 16-VALVE 111.56
DOHC 106.35
Limit mm
100.25
Intake
111.06
105.85
100.55
114.21
106.35
Exhaust
SOHC 12-VALVE 101.05
SOHC 16-VALVE 114.71
DOHC
106.85
3. VALVE SPRINGS
Squareness
(1) Measure the valve spring’s free height. If the measurement
is less than specified, replace the spring.
Standard mm
46.1
Limit mm
45.6
Free height
SOHC
Intake
12-VALVE
Exhaust
46.8
46.3
50.4
48.6
SOHC 16-VALVE
DOHC
50.9
49.1
1EN0264
(2) Measure the squareness of the spring. If the measurement
exceeds the specified limit, replace the spring.
Standard value: 2_ or less
Limit: 4_
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-9-6
4G1 ENGINE (E-W) - Cylinder Head and Valves
4. VALVE GUIDES
(1) Measure the clearance between the valve guide and valve
stem. If the clearance exceeds the specified limit, replace
either or both components.
Valve
guide
Standard mm
Limit mm
Intake
SOHC 12-VALVE 0.020 - 0.050 0.10
SOHC 16-VALVE 0.020 - 0.047 0.10
Stem O. D.
DOHC
0.020 - 0.047 0.10
Guide I. D.
1EN0279
Exhaust
SOHC 12-VALVE 0.050 - 0.085 0.15
SOHC 16-VALVE 0.030 - 0.062 0.15
Valve stem end
DOHC
0.030 - 0.057 0.15
Valve projection
5. VALVE SEATS
(1) Assemble the valve, then measure the valve stem
projection between the end of the valve stem and the
spring seating surface. If the measurement exceeds the
specified limit, replace the valve seat.
Spring seating
surface
Standard mm
43.70
Limit mm
44.20
SOHC
Intake
12-VALVE
Exhaust
Intake
43.30
43.80
53.71
54.60
49.30
49.20
SOHC
16-VALVE
53.21
Exhaust
Intake
54.10
DOHC
48.80
Exhaust
48.70
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
4G1 ENGINE (E-W) - Cylinder Head and Valves
11A-9-7
0.9 - 1.3 mm
65
VALVE SEAT CORRECTION SERVICE POINTS
0.9 - 1.3 mm
_
(1) Before correcting the valve seat, check the clearance
between the valve guide and valve. If necessary, replace
the valve guide.
65
_
(2) Using the appropriate special tool or seat grinder, correct
the valve seat to achieve the specified seat width and
angle.
(3) After correcting the valve seat, lap the valve and valve
seat using lapping compound. Then, check the valve stem
projection (refer to 5. VALVE SEATS in INSPECTION).
44
_
15
_
44
_
15
_
0.5 - 1.0 mm
VALVE SEAT REPLACEMENT SERVICE
POINTS
(1) Cut the valve seat to be replaced from the inside to reduce
the wall thickness. Then, remove the valve seat.
(2) Rebore the valve seat hole in the cylinder head to match
the selected oversize valve seat diameter.
Cut away
0.5 - 1.0 mm
Valve seat diameters
Standard mm
1EN0274
SOHC
In-
Primary
0.30 O.S. 27.300 - 27.325
0.60 O.S. 27.000 - 27.625
0.30 O.S. 32.300 - 32.325
0.60 O.S. 32.600 - 32.625
0.30 O.S. 35.300 - 35.325
0.60 O.S. 35.600 - 35.625
0.30 O.S. 28.300 - 28.321
0.60 O.S. 28.600 - 28.621
0.30 O.S. 26.300 - 26.321
0.60 O.S. 26.600 - 26.621
0.30 O.S. 30.300 - 30.321
0.60 O.S. 30.600 - 30.621
0.30 O.S. 28.300 - 28.321
0.60 O.S. 28.600 - 28.621
0.30 O.S. 31.300 - 31.325
0.60 O.S. 31.600 - 31.625
0.30 O.S. 27.800 - 27.825
0.60 O.S. 28.100 - 28.125
12-VALVE
take
Secondary
Exhaust
Intake
Valve seat
height
SOHC
16-VALVE
<4G13>
Exhaust
Intake
Oversize hole I. D.
1EN0275
SOHC
16-VALVE
<4G18>
Exhaust
Intake
DOHC
Exhaust
(3) Prevent galling of the cylinder head bore by cooling the
valve seat with liquid nitrogen before press-fitting it.
(4) Correct the valve seat to achieve the specified width and
angle (refer to VALVE SEAT CORRECTION SERVICE
POINTS).
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-9-8
4G1 ENGINE (E-W) - Cylinder Head and Valves
VALVE GUIDE REPLACEMENT SERVICE
POINTS
(1) Using a press, push the valve guide out toward the cylinder
block side.
(2) Rebore the valve guide hole in the cylinder head to match
the oversize valve guide that is to be fitted.
Caution
Do not install a valve guide of the same size again.
Valve guide hole diameters (SOHC 12-VALVE)
0.05 O.S.: 12.050 - 12.068 mm
0.25 O.S.: 12.250 - 12.268 mm
0.50 O.S.: 12.500 - 12.518 mm
Valve guide hole diameters (SOHC 16-VALVE, DOHC)
0.05 O.S.: 10.550 - 10.568 mm
0.25 O.S.: 10.750 - 10.768 mm
0.50 O.S.: 11.000 - 11.018 mm
(3) Press-fit the valve guide until it projects by the specified
amount.
Standard value:
SOHC 12-VALVE: 17 mm
SOHC 16-VALVE, DOHC: 23 mm
Caution
1. The valve guide must be installed from the upper
side of the cylinder head.
2. The valve guides differ in length on the intake
and exhaust sides.
3. After press-fitting the valve guide, insert a new
valve and check that it slides smoothly.
Projec-
tion
INSTALLATION SERVICE POINTS
SOHC 12-VALVE
"AA VALVE STEM SEAL INSTALLATION
(1) Install the valve spring seat.
MD998760
(2) Install a new valve stem seal using the special tool shown
in the illustration.
Caution
1. Valve stem seals cannot be reused.
2. The valve stem seal must be installed using the
correct special tool. Incorrect installation could
result in oil leaking past the valve guide.
SOHC 16-VALVE, DOHC
MB991671
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
4G1 ENGINE (E-W) - Cylinder Head and Valves
11A-9-9
"BA VALVE SPRING INSTALLATION
Spring
retainer
(1) Install the valve spring such that its painted end is on
the rocker arm side.
Painted
end
Stem seal
Spring seat
"CA RETAINER LOCK INSTALLATION
SOHC
MD998772
DOHC
MD998772
MD998735
"DA CYLINDER HEAD BOLT INSTALLATION
(1) Beforereusingthecylinderheadbolt, checkthat itsnominal
length does not exceed the specified limit. Replace the
bolt if this measurement exceeds the limit.
Limit: 103.2 mm
(2) Fit the washer as shown.
(3) Apply engine oil to the bolt’s thread and washer.
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-9-10
4G1 ENGINE (E-W) - Cylinder Head and Valves
(4) Tighten the bolts in the sequence shown until each is
Timing belt side
torqued to 49 Nm.
(5) Completely loosen the bolts.
(6) Retighten the bolts in the sequence shown until each is
torqued to 20 Nm.
8
6
1
2
3
5
9
7
10
4
(7) Apply paint marks to the cylinder head bolt heads and
cylinder head as shown.
90
_
(8) In accordance with the tightening sequence, tighten each
bolt by 90_.
(9) Tighten each bolt by a further 90_ and check that the
paint markson the bolt head and cylinder head are aligned.
Caution
If the bolts are tightened by an angle of less than
90_, they may not hold the cylinder head with sufficient
strength.
90
_
Paint mark
If the bolts are tightened by an angle exceeding 90_,
completely remove them and carry out the installation
procedure again.
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-10-1
4G1 ENGINE (E-W) - Oil Pump and Oil Pan
10. OIL PUMP AND OIL PAN
REMOVAL AND INSTALLATION
Apply engine oil to all
moving parts before
installation.
10 Nm
12
14
13
13 Nm
5
7
6
15
16
18 Nm
10
9
11
7 Nm
8
44 Nm
4
1
3
2
39 Nm
23 Nm
Removal steps
"EA 1. Oil filter
2. Drain plug
10. Relief plunger
"BA 11. Front oil seal
"AA 12. Front case
13. O-ring
"DA 3. Gasket
4. Transmission stay
(Rear wheel drive)
14. Oil pump cover
15. Oil pump outer rotor
16. Oil pump inner rotor
AA" "CA 5. Oil pan
6. Oil screen
7. Gasket
8. Relief valve
9. Relief valve spring
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-10-2
4G1 ENGINE (E-W) - Oil Pump and Oil Pan
MD998727
MD998727
REMOVAL SERVICE POINTS
AA" OIL PAN REMOVAL
(1) Remove the oil pan mounting bolts.
(2) Knock the special tool between the oil pan and cylinder
block as shown in the illustration.
(3) Tapping the side of the special tool, slide the tool along
the oil pan/cylinder block seal and thus remove the oil
pan.
INSPECTION
1. OIL PUMP
(1) Fit the rotor into the front case.
(2) Check the tip clearance using a thickness gauge.
Standard value: 0.06 - 0.18 mm
(3) Check the side clearance using a straight edge and
thickness gauge.
Standard value: 0.04 - 0.10 mm
(4) Check the body clearance using a thickness gauge.
Standard value: 0.04 - 0.10 mm
Limit: 0.35 mm
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-10-3
4G1 ENGINE (E-W) - Oil Pump and Oil Pan
INSTALLATION SERVICE POINTS
"AA FRONT OIL SEAL CASE INSTALLATION
(1) Clean the sealant application surfaces on the cylinder
block and front oil seal case.
(2) Apply a 3 mm bead of form-in-place gasket to the entire
circumference of the oil pan flange.
Specified sealant:
Mitsubishi Genuine Part No. MD970389 or
equivalent.
"BA FRONT OIL SEAL INSTALLATION
(1) Place the special tool on the crankshaft’s front end and
apply engine oil to the its outer circumference.
MD998305
(2) Apply engine oil to the oil seal lip, then push the oil seal
along the guide by hand until it touches the front case.
Tap the oil seal into place using the special tool.
MD998304
"CA OIL PAN INSTALLATION
(1) Clean the mating surfaces of the cylinder block and oil
pan.
(2) Apply a 4 mm bead of form-in-place gasket to the outer
circumference of the oil pan flange.
Specified sealant:
Mitsubishi Genuine Part No. MD970389 or
equivalent.
"DA DRAIN PLUG GASKET INSTALLATION
(1) Replace the drain plug gasket with a new one. Fit the
new gasket as shown.
Oil pan side
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-10-4
4G1 ENGINE (E-W) - Oil Pump and Oil Pan
"EA OIL FILTER INSTALLATION
(1) Clean the filter mounting surface on the front case.
(2) Apply engine oil to the oil filter’s O-ring.
(3) Screw on the oil filter until the O-ring is seated on the
mounting surface. Then, give the oil filter one further
turn such that it is torqued to approximately 14 Nm.
Caution
The oil filter must be tightened using a commercially
available filter wrench. If the filter is tightened by hand
only, it will be insufficiently torqued, resulting in oil
leaks.
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-11-1
4G1 ENGINE (E-W) - Pistons and Connecting Rods
11. PISTONS AND CONNECTING RODS
REMOVAL AND INSTALLATION
6
7
8
9
10
4
12
11
5
Apply engine oil to all
moving parts before
installation.
3
2
1
Removal steps
"GA 1. Connecting rod nut
AA" "FA 2. Connecting rod cap
"EA 3. Connecting rod bearing
"CA 7. Piston ring No. 2
"BA 8. Oil ring
AB" "AA 9. Piston pin
"DA 4. Piston and connecting rod assem-
bly
10. Piston
11. Connecting rod
12. Bolt
5. Connecting rod bearing
"CA 6. Piston ring No. 1
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-11-2
4G1 ENGINE (E-W) - Pistons and Connecting Rods
REMOVAL SERVICE POINTS
AA" CONNECTING ROD CAP REMOVAL
(1) Mark the cylinder number on the side of the connecting
rod big end to facilitate reassembly.
Cylinder No.
DEN0050
AB" PISTON PIN REMOVAL
Push rod
(1) Insert the Push Rod (special tool) from the front arrow
mark side, then fit guide D.
(2) Mount the piston and connecting rod assembly on the
Piston Pin Setting Base (special tool) with the piston’s
front mark pointing upward.
(3) Remove the piston pin using a press.
Front mark
Front
mark
NOTE
After removing the piston pin, keep the piston, piston
pin, and connecting rod together. Do not allow pistons,
piston pins, and connecting rods from different cylinders
to become mixed up.
Guide D
Base
INSPECTION
1. PISTON RINGS
(1) Check the piston ring side clearance. If the clearance
exceeds the specified limit, replace the ring or piston,
or both.
Standard values:
No. 1 ring: 0.03 - 0.07 mm
No. 2 ring: 0.02 - 0.06 mm
Limits:
No. 1 ring: 0.1 mm
No. 2 ring: 0.1 mm
(2) Insert the piston ring into the cylinder bore and push
it down with a piston. Ensure that the piston’s crown
is in contact with the ring such that the ring is at 90_
to the cylinder wall. Then, measure the end gap with
a thickness gauge. If the gap is too large, replace the
piston ring.
7EN0475
Standard values
mm
Limits mm
No. 1 ring
No. 2 ring
Oil ring
0.20 - 0.35
0.35 - 0.50
0.20 - 0.50
0.8
0.8
1.0
Push in with piston
SOHC
12-VALVE,
DOHC
SOHC
16-VALVE
0.10 - 0.40
1.0
End gap
Piston ring
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-11-3
4G1 ENGINE (E-W) - Pistons and Connecting Rods
2. CRANKSHAFT PIN OIL CLEARANCE (PLASTIC
GAUGE METHOD)
(1) Wipe all oil off the crankshaft pin and connecting rod
bearing.
(2) On the pin, place a plastic gauge that is cut to the same
length as the bearing’s width. The plastic gauge must
be centered on the pin in parallel with the pin’s axis.
(3) Gently place the connecting rod cap in position and tighten
the bolts to the specified torque.
(4) Remove the bolts and gently remove the connecting rod
cap.
(5) Measure the compressed part of the plastic gauge at
its widest point using the scale printed on the plastic
gauge bag.
Standard value: 0.02 - 0.04 mm
Limit: 0.1 mm
INSTALLATION SERVICE POINTS
"AA PISTON PIN INSTALLATION
(1) Measure the following lengths (as shown):
A: Piston boss-to-piston boss outside dimension
B: Piston boss-to-piston boss inside dimension
C: Piston pin length
D
C
D: Connecting rod small end eye thickness
(2) Enter the measured values into the following formula:
Connecting rod
Piston pin
(A-C) - (B-D)
L=
Piston
2
(3) Insert the Push Rod (special tool) into the piston pin,
then fit Guide A (special tool).
(4) Fit the piston and connecting rod together such that their
front marks are on the same side.
(5) Apply engine oil to the outside of the piston pin.
(6) Into the front-mark side of the piston, insert the Guide
A, piston pin, and Push Rod, starting with guide A.
B
A
(7) Screw guide B into guide A. Leave a gap between the
two guides of 3 mm plus the value (L) calculated in step
(2).
3 mm + L
Guide B
Guide A
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-11-4
4G1 ENGINE (E-W) - Pistons and Connecting Rods
(8) Mount the piston and connecting rod on the Piston Pin
Push Rod
Piston pin
Front mark
Setting Base (special tool) with the piston’s front mark
pointing upward.
(9) Install the piston pin using a press. If the press-fitting
load is out of specification, replace the piston pin and
piston assembly or the connecting rod, or both.
Standard value: 4,900 - 14,700 N
Front
mark
Guide A
Base
Guide B
"BA OIL RING INSTALLATION
Side rail
(1) Fit the oil ring spacer into the piston ring groove. Then,
fit the upper and lower side rails.
NOTE
(1) The spacer and side rails may be fitted in either
direction. No distinction is made between top and
bottom.
(2) Spacer and side rail sizes are color-coded as follows:
Spacer
Size
Color
None
Blue
1EN0277
STD
0.50 mm O. S.
1.00 mm O. S.
End of side rail
Yellow
(2) To install a side rail, fit one end of the rail into the groove
then press the rest of the rail into position by hand as
shown.
Caution
Do not fit side rails using a piston ring expander since
they may break.
(3) After installing the side rails, check that they move
smoothly in both directions.
7EN0451
Mitsubishi Motors Corporation
Nov. 1995
PWEE9520
E
11A-11-5
4G1 ENGINE (E-W) - Pistons and Connecting Rods
"CA PISTON RING No. 2 / PISTON RING No. 1
INSTALLATION
(1) Using piston ring expander, fit No. 2 and No. 1 piston
ring into position.
NOTE
Piston ring expander
1. The ring end is provided with identification mark.
Item
Identifica-
tion mark
No. 1 ring With catalytic converter
Without catalytic converter
1T
T
7EN0452
Identification mark
Identification mark Size mark
No. 2 ring With catalytic converter
Without catalytic converter
2T
T2
2. Install piston rings with identification mark facing up,
to the piston crown side.
3. Size marks on piston rings are as follows.
No. 1
No. 2
Size
Size mark
None
25
STD
ALL
0.25 mm O. S.
0.50 mm O. S.
1.00 mm O. S.
4G18
50
ALL
100
4G13, 4G15
"DA PISTON AND CONNECTING ROD ASSEMBLY
Side rail
No. 1 ring
INSTALLATION
(1) Apply oil to the piston, piston rings, and oil ring.
(2) Align the gaps of the piston rings and oil ring (side rails
and spacer) as shown.
(3) With the piston crown’s front arrow mark pointing toward
the timing belt side, press the piston and connecting rod
assembly into the cylinder from the top of the cylinder.
Piston pin
Side rail
No. 2 ring and
spacer
6EN0549
(4) Compress the piston rings tightly with a suitable ring
compression tool, then press the piston and connecting
rod fully into the cylinder. Do not strike the piston hard
since the piston rings may break and the crank pin may
be nicked.
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-11-6
4G1 ENGINE (E-W) - Pistons and Connecting Rods
"EA CONNECTING ROD BEARING INSTALLATION
4G18
4G13, 4G15
Color code positions
No. 4
No. 1
No. 1
No. 4
No. 3
No. 3
No. 2
No. 2
Identification mark positions
No. 2
No. 4
A
B
No. 3
A No. 1
B
P
P
No. 1
No. 2
No. 4
No. 3
(1) Select bearings according to crankshaft and connecting
rod identification marks or color codes, referring to the
following table.
Identification color
Crankshaft
identification
mark
Connecting rod identification
color
Bearing
identification
mark
I, Yellow
II, None
III, White
White
None
Yellow
White
None
Yellow
White
None
Yellow
1
1
2
1
2
3
2
3
3
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-11-7
4G1 ENGINE (E-W) - Pistons and Connecting Rods
"FA CONNECTING ROD CAP INSTALLATION
(1) Aligning the marks made during disassembly, fit the
bearing cap onto the connecting rod. If the connecting
rod is new and has no index mark, ensure that the bearing
locking notches are both on the same side.
Cylinder No.
Locking notch
DEN0051
(2) Check that the connecting rod big end side clearance
confirms with specifications.
Standard value: 0.10 - 0.25 mm
Limit: 0.4 mm
1EN0276
"GACONNECTING ROD CAP NUT INSTALLATION
Caution
To fit the connecting rod cap nuts with the cylinder
head in place, the spark plugs must be removed
beforehand.
(1) The connecting rod bolts and nuts utilize the plastic region
tightening method. The bolts must therefore be checked
for stretching before reuse. To check a bolt for stretching,
screw the nut down the entire length of the thread by
hand. Unless the nut turns smoothly all the way, the bolt’s
threaded section is stretched and the bolt must be
replaced.
Paint mark
(2) Before fitting the nuts, apply engine oil to their threads
and seating surfaces.
90 - 100
_
_
Paint
mark
(3) Fit the nuts onto the bolts and turn them until they are
finger-tight. After this, the nuts must be tightened
alternately to ensure correct fitting of the cap.
(4) Tighten the nuts to a torque of 17 Nm.
(5) Make a paint mark on the top of each nut as shown.
(6) Make paint marks on the bolts 90 to 100_ clockwise from
the paint marks on the nuts.
Bolt
Nut
(7) Turn the nuts until their paint marks are aligned with the
paint marks on the bolts.
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-11-8
4G1 ENGINE (E-W) - Pistons and Connecting Rods
Caution
1. If the nuts are turned by less than 90_, the cap
may not be held on with sufficient strength.
2. If the nuts are turned by more than 100_, loosen
them completely and carry out the tightening
procedure again.
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-12-1
4G1 ENGINE (E-W) - Crankshaft and Cylinder Block
12. CRANKSHAFT AND CYLINDER BLOCK
REMOVAL AND INSTALLATION
22 Nm
Apply engine oil to all
moving parts before
installation.
132 Nm
23
10 Nm
1
12
18 Nm
11 Nm
16
22
14
24
2
13
132 Nm
15
5
4
3
10 Nm
6
21
7
132 Nm
20
8
A
9
19
18
51 Nm
11
10
17
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-12-2
4G1 ENGINE (E-W) - Crankshaft and Cylinder Block
Removal steps
1. Flywheel bolt
2. Flywheel
"DA 14. Rear oil seal
15. Rear oil seal case
3. Flywheel bolt
4. Adapter plate
5. Flywheel
16. Rear oil seal case gasket
"CA 17. Bearing cap bolt
"CA 18. Bearing cap
6. Adapter plate
7. Crankshaft bushing
8. Drive plate bolt
9. Adapter plate
10. Drive plate
11. Crankshaft bushing
12. Rear plate
13. Bell housing cover
"BA 19. Crankshaft bearing (lower)
20. Crankshaft
"BA 21. Crankshaft bearing (upper)
AA" "AA 22. Oil pressure switch
23. Knock sensor
<4G13, SOHC 16-VALVE>
24. Cylinder block
Caution
On the flexible flywheel equipped engines, do not remove any of the bolts “A” of the flywheel
shown in the illustration.
The balance of the flexible flywheel is adjusted in an assembled condition. Removing the bolt,
therefore, can cause the flexible flywheel to be out of balance, giving damage to the flywheel.
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-12-3
4G1 ENGINE (E-W) - Crankshaft and Cylinder Block
REMOVAL SERVICE POINTS
MD998054
AA" OIL PRESSURE SWITCH REMOVAL
(1) Disconnect the oil pressure switch terminals.
(2) Using the special tool, remove the oil pressure switch.
Caution
The thread is coated with sealant. Take care not to
bend it when removing the oil pressure switch.
INSPECTION
1. CRANKSHAFT OIL CLEARANCE
Plastic
gauge
The crankshaft oil clearance can be measured easily
using a plastic gauge.
To check the crankshaft oil clearance with a plastic gauge,
carry out the following procedure:
(1) Wipe all oil off the crankshaft journal and the bearing’s
inside surface.
(2) Install the crankshaft.
(3) Cut the plastic gauge such that its length matches the
width of the bearing, then place it on the journal along
the journal’s axis.
6EN0550
(4) Gently fit the crankshaft bearing cap and tighten the bolts
to the specified torque.
(5) Remove the bolts and gently remove the crankshaft
bearing cap.
(6) Using the scale printed on the plastic gauge bag, measure
the plastic gauge’s crushed section at its widest point.
Standard value: 0.02 - 0.04 mm
Limit: 0.1 mm
1EN0271
NOTE
Fillet-rolled section
The crankshaft pins and journals are fillet-rolled and must
not be machined to undersize dimensions.
2. CYLINDER BLOCK
(1) Visually check for cracks, rust, and corrosion, and inspect
the cylinder block using a flaw detecting agent. Rectify
defects where possible or replace the cylinder block.
(2) Ensure that the top surface is free of gasket chips and
other foreign material. Check the cylinder block’s top
surface for distortion using a straight edge and thickness
gauge.
Standard value: 0.05 mm
Limit: 0.1 mm
(3) Check the cylinder walls for cracks and seizure marks.
If defects are evident, bore all the cylinders to oversize
or replace the cylinder block.
Mitsubishi Motors Corporation
Dec. 1998
E
PWEE9520-A
Revised
11A-12-4
4G1 ENGINE (E-W) - Crankshaft and Cylinder Block
(4) Using a cylinder gauge, measure each cylinder’s bore
and cylindricity. If any cylinder is severely worn, bore
all the cylinders to oversize and replace the piston and
piston rings accordingly. Take measurements at the points
shown.
Standard value:
12
mm
Cylinder bore:
4G13 engine: 71.0 mm
4G15 engine: 75.5 mm
4G18 engine: 76.0 mm
Cylindricity: 0.01 mm or less
6EN0553
3. BORING CYLINDERS
(1) Oversize pistons to be used should be determined on
the basis of the cylinder with the largest bore.
(2) Oversize pistons are available with the following oversize
dimensions: 0.25 mm, 0.50 mm, and 1.00 mm. Measure
the diameter of the piston to be used. Boring must be
carried out such that the piston-to-cylinder clearance
complies with the standard value. The piston’s diameter
should be measured at the points shown.
Thrust
direction
Piston O. D.
(3) Calculate the boring finish dimension based on the piston
diameter dimension.
6EN0554
D
[Boring finish dimension]
=
[piston O.D.]
+
[piston-to-cylinder clearance (0.02 – 0.04 mm)] -
[honing margin (0.02 mm)]
(4) Bore each cylinder to the calculated boring finish
dimension.
Caution
To prevent distortion caused by heat increases during
boring bore the cylinders in the following order: No.
2, No. 4, No. 1, No. 3.
(5) Hone the cylinders to the final finish dimension (piston
O. D. + piston-to-cylinder clearance).
(6) Check the clearance between the pistons and cylinders.
Standard value: 0.02 - 0.04 mm
INSTALLATION SERVICE POINTS
"AA OIL PRESSURE SWITCH INSTALLATION
MD9988054
(1) Apply the specified sealant to the thread, then fit the
oil pressure switch using the special tool shown in the
illustration.
Specified sealant:
3M ATD Part No. 8660 or equivalent
Caution
Apply sealant
1. Apply sealant such that none is squeezed out
past end of the thread.
2. Do not over-tighten the oil pressure switch.
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-12-5
4G1 ENGINE (E-W) - Crankshaft and Cylinder Block
"BA CRANKSHAFT BEARING INSTALLATION
4G13, 4G15
4G18
Color code positions (type 1)
No. 4
No. 4 No. 3
No. 3
No. 1
No. 1
No. 5
No. 2
No. 5
No. 2
Color code positions (type 2)
No. 3
No. 2
No. 3
No. 2
No. 5
Identification mark positions
No. 1
No. 4
No. 1
No. 4
No. 5
No. 2
No. 5
No. 3
No. 2
No. 1
No. 4
No. 5
No. 1
No. 3
No. 4
(1) Select bearings according to the crankshaft identification
marks or color codes, referring to the following table.
If they are not identifiable, measure the crankshaft journals
and choose bearings to match the measurements.
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Revised
11A-12-6
4G1 ENGINE (E-W) - Crankshaft and Cylinder Block
Crankshaft journal
Cylinder block Bearing
bearing diameter
Range
1
Color code
Yellow
Identification
mark
Journal diameter Identification
Identification
mark
mm
mark
1
2
3
47.995 - 48.000
0
1
2
0
1
2
0
1
2
1
2
3
2
3
4
3
4
5
2
3
None
White
47.985 - 49.995
47.980 - 48.985
(2) Identification marks showing the cylinder block bearing
bore diameter are stamped in the position shown, with
No. 1 at the front of the engine. Bearings must be selected
and installed in accordance with these identification marks.
(3) Based on the identification markings verified in steps (1)
and (2), select bearings from table above. See the
following example:
Timing belt side
1. If the measured crankshaft journal diameter is 48.000
mm, this corresponds to classification 1 in the above
table.
2. If the identification mark on the cylinder block bearing
hole is “1”, select a bearing with an identification mark
of “2”.
Cylinder block journal
bore diameter
(4) Except for the center bearing, all the upper bearings are
grooved. The center bearings are grooveless and have
flanges. The center bearings are the same at the top
and bottom.
Grooved
Grooveless
Upper bearing (Nos.
1, 2, 4, and 5)
(5) The lower bearings are all grooveless.
Lower bearing (Nos.
1, 2, 4, and 5)
Grooveless
Upper and lower
bearings (center) (No. 3)
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
11A-12-7
4G1 ENGINE (E-W) - Crankshaft and Cylinder Block
"CA BEARING CAP INSTALLATION
Cap No.
Arrow indicating front
of engine
(1) On the bottom surface of each bearing cap is the cap’s
number and an arrow. Starting at the timing belt side,
fit the bearing caps in numerical order. Ensure that the
arrows point toward the timing belt side.
3EN0174
(2) After fitting the bearing caps, measure the end play in
the crankshaft. If the measurement exceeds the specified
limit, replace the crankshaft bearings.
Standard value: 0.05 - 0.18 mm
Limit: 0.25 mm
"DA REAR OIL SEAL INSTALLATION
Oil seal
MD998011
(1) Press-fit the rear oil seal using the special tool shown
in the illustration.
Oil seal case
Mitsubishi Motors Corporation
Dec. 1998
PWEE9520-A
E
Added
NOTES
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