ROBIN AMERICA, INC. ROBIN TO W1SCONSJ.N ROBIN
ENGINE MODEL CROSS REFERENCE LIST
ROBIN
EY08 EY15 EY 15V EY20 EY20V EY23 EY28 EY35 EY40 EY45V EY2 I EY44 EY 18-3 EY25 EY27
EHl1 EH12 EHl5 EH17 EH2 1 EH25 EH30 EH30V EH34 EH34V EH43V
EC13V
DY23 DY27 DY30 DY35 DY4 1
WISCONSIN ROBIN - W1-080 W1-145 W1-145V Wl-185 W1-185V W 1-230 w 1-280 W1-340 W 1-390 W 1 -450V EY21W EY44W
EY25W EY27W
EY18-3W
v WO1-115 wo1-120 WO1-150 WOI-170 wo1-210 WO 1-250 WO1-300 WOI-3oov WO1-340 WO 1 -3 40V WO 1 -430V
TWO CYCLE
WT1-125V
DIESEL
WRD 1-230 WRD 1-270 WRD1-300 WRDI-350 WRD1-410
CONTENTS Section Title Page
1 .SPECIFICATIONS. ..................................................................................... 2.PERFORMANCE ........................................................................................
2-1 Maximum Output ............................................................................... 2-2 Continuous Rated Output ..................................................................
1
3 3 3
2-3 ~~~i~~~ T~~~~~ ............................................................................... 3 2-4 performance curves ........................................................................... 4
3.FEATURES ................................................................................................ 6 4.GENERAL DESCRIPTION OF ENGINE COMPONENTS ......................... 6
6 6 7 7
8 8
4-7 Valve Arrangement ............................................................................. 8 8 9
4- 10 Cooling Syst ern .................................................................................. 9 9
10 1 0
10 1 1 1 1 12 14 14 14
15 32 42
6.MAGNETO ................................................................................................. 42 42 43 44
7 . AUTOMATIC DECOMPRESSlON SYSTEM ............................................ 45 8.CARBURETOR. .......................................................................................... 46
46 47
4- 1 Cylinder And Crankcase ..................................................................... 4-2 Main Bearing Cover ........................................................................... 4-3 Crankshaft ......................................................................................... 4-4 Connecting Rod And piston .............................................................. 4-5 Piston Rings ...................................................................................... 4-6 Camshaft ...........................................................................................
4-8 Cylinder Head .................................................................................... 4-9 Governor System ...............................................................................
4- 1 1 Lubrication ......................................................................................... 4- 12 Ignition System ................................................................................. 4- 13 Carburetor ......................................................................................... 4- 14 Air Cleaner ........................................................................................ 4- 15 Balancers ........................................................................................... 4- 16 Decompression System ..................................................................... 4- 17 Sectional View Of Engine ..................................................................
5.DISASSEMBLY AND REASSEMBLY ...................................................... 5- 1 Preparations And Suggestions ........................................................... 5 -2 Special Tools ..................................................................................... 5-3 Disassembly Procedures ..................................................................... 5 -4 Reassembly Procedures ...................................................................... 5-5 Break-in Operation ............................................................................
6- 1 Flywheel Magneto .............................................................................. 6 - 2 Basic Theory ...................................................................................... 6-3 Wiring Diagram ..................................................................................
8- 1 Operation And Construction .............................................................. 8 -2 Disassembly And Reassembly ............................................................
1. SPECIFICATIONS
EH30 Model
EH30B EH30D EH30BS I EH30DS
Type Air-Cooled. 4-Cycle. Single-Cylinder, Horizontal P.T.O. Shaft, Gasoline Engine
Bore X Stroke
8.3 Compression Ratio
291 cc (1 7.76 cu.in.1 Piston Displacement
78 X 61 m m (3.07 X 2.40 in.)
-~
output Cont i nuous
9.0/3600 HP/rpm 9.0/1800 HP/rpm Max.
7.0/3600 HP/rpm 7.0/1800 HP/rpm
Max. Torque I 3-9/1250 kg m/rpm 1.95/2500 kg m/rpm
Direction of Rotation
Forced Air Cooling Cooling system
Counterclockwise As Viewd From P.T.O. Shaft Side
~ ~ ~~
Valve Arrangement
Splash Type Lubrication
Overhead Valve
~~~~ ~ ~ ~
Lubricant
1.2 liters (0.32 U.S. gal.) Capacity of Lubricant
Automobile Oil SAE # 20, # 30 or 1 OW-30
Carburetor
Automobile Gasoline Fuel
Horizontal Draft, Float Type
~ ~~ ~~ ~~
Fuel Consumption Ratio] 230 gr/HP-h At Continuous Rated Output ~~ ~~
Fuel Feed System Gravity Type
Fuel Tank Capacity
Flywheel Magneto (Solid State) Ignition System
6 liters (1.58 U.S. gal.)
Spark Plug NGK BP6ES (CHAMPION N9Y)
Charging Capacity I 12V-1 .3A I - I 12V- 1.3A
Starting System Recoil and Recoil Starter Electric Starter Electric Starter Recoil Starter Recoil and
Speed Reduction I 1/2 Cam Shaft Drive I -
Governor System
Double Element Type Air Cleaner
Centrifugal Flyweight Type
Dry Weight
333mm ( 1 3.1 1 in 363mm ( 1 4.29in.) 333mm (1 3.1 1 in.) 363mm ( 14.29in.) Length
33.0kg ( 72.81 b.) 30.0kg ( 66.1 I b.) 34.0kg ( 75.01 b.) 3 1 .Okg ( 68.31 b.) I
1 Dimensions 395mm (1 5.55 in.) Width
, 482mm ( 1 8.98 in.) Height
Specifications are subject to change without nofice.
- 1 -
Model EH34
EH348 EH340S EH34BS 1 EH34D
Type Air-Cooled, 4- Cycle, Single- Cylinder, Horizontal P.T.O. Shaft, Gasoline Engine ~~~~~
Bore X Stroke
8.3 Compression Ratio
338cc (20.63 cu.in.) Piston Displacement
84 X 61 mm (3.31 X 2.40 in.)
ou tpu t Cont i nwus
1 1.0/3600 HP/rpm 1 1.0/1800 HP/rpm Max.
8.0/3600 HP/rpm 8.0/1800 HP/rpm
Max. Torque
Forced Air Cooling Cooling system
Counterclockwise As Viewd From P.T.O. Shaft Side Direction of Rotation
2.41/2500 kg m/rpm 4.82/1250 kg m/rpm
Valve Arrangement
Splash Type t u brication
Overhead Valve
Lubricant Automobile Oil SAE # 20, # 30 or 1 OW-30
Capacity of Lubricant I ~ ~~
1.2 liters (0.32 U.S. gal.) ~~ ~~ .
Carburetor
Automobile Gasoline Fuel
Horizontal Draft, Float Type
Fuel Consumption Ratio I 230 gr/HP-h At Continuous Rated Output I Fuel Feed System Gravity Type
Fuel Tank Capacity
Flywheel Magneto (Solid State) Ignition System
6 liters (1.58 U.S. gal.)
Spark Plug
12V - 1.3A - 12V - 1.3A - Charging Capacity
NGK BP6ES (CHAMPION N9Y)
Starting System Recoil and Recoil and Recoil Starter Electric Starter Recoil Starter Electric Starter ,
Speed Reduction I 1/2 Cam Shaft Drive I - I Governor System
Double Element Type Air Cleaner
Centrifugal Flyweight Type
Dry Weight
Height
3 1 .Okg (68.31 b.) 33.0kg ( 72.81 b.) 30.0kg ( 66.1 I b.) 34.0kg ( 75.01 b.)
363mm ( 1 4.29in.) 333mm (1 3.1 1 in.)
482mm ( 1 8.98 in.)
395rnm ( 1 5.55 in.)
333mrn (1 3.1 1 in 363mm (1 4.29in.)
Specifications are subject to change without nofice.
- 2 -
2. PERFORMANCE
2-1 MAXIMUM OUTPUT
The maximum output is the output of an engine with its throttle valve fully opened under the condition that all the moving parts are properly worn in after the initial break- in period. A new engine may not produce full maximum output while its moving parts are still not broken -in.
2-2 CONTINUOUS RATED OUTPUT
The continuous rated output is the output of an engine at optimum governed speed which is most favorable from the view point of engine’s life and fuel consumption, When the engine is installed on a certain equipment, it is recommended that the continuous output required from the engine be kept below this continuous rated output.
2-3 MAXIMUM TORQUE
The maximum torque is the torque at the output shaft when the engine is producing maximum output at certain revolution.
- 3 -
2 - 4 PERFORMANCE CURVES
OEHBOD, B
9
8
7
6
5
4
3
2
1
0 2000 2400 2800 3200
(1 000) (1 200) (1 400) ( 1 600) 3600
(1 800)
REVLOUTION- r. p. m.
Kg - m
CONTINUOUS RATED OUTPUT
RECOMMENDABLE \ HORSEPOWER RANGE
- 4 -
*EH34D, B
HP A
52 B w cn 0 I
2000 2400 2800 3200 3600 (1 000) (1 200) (1 400) (1 600) (1 800)
REVLOUTION- r. p. m.
Kg - m
w 3
CONTINUOUS RATED OUTPUT
RECOMMENDABLE HORSEPOWER RANGE
- 5 -
3. FEATURES
1. The overhead valve design offers a compactness, light weight and ideal combustion charastristics
2. The vibration free design with the twin balancer system and lighter reciprocating parts. 3. Such parts as the large capacity muffler, dual element air cleaner, helical type balancer gear
with extralong teeth and the blower housing and muffler cover made of resin laminated "DAMPING SHEET" reduce noise to a minimum.
resulting in more power from less fuel and prolonged engine life.
4. The automatic decompression system offers easy, dependable starting. 5. The muffler and carburetor are located on opposite sides, making the arrangements for cooling
air flow much easier in the design of power equipment.
4. GENERAL DESCRIPTION OF ENGINE COMPONENTS
4-1 CYLINDER AND CRANKCASE
The cylinder and crankcase is single piece aluminum diecasting. The cylinder liner, made of special cast iron, is molded into the aluminum casting. The crankcase has a mounting surface on the output shaft side, where the main bearing cover is attached. (See Fig. 1.)
Fig. 1
4-2 MAIN BEARING COVER
The main bearing cover is an aluminum diecasting, which is mounted on the output shaft side of the crankcase. Remove the main bearing cover to inspect inside of the engine. Pilots and bosses are machined on the cover for direct mounting of the engine onto such machines as generators and pumps. Oil gauge (fillers) are on both sides of the cover for easy maintenance.
f ig . 2
- 6 -
4- 3 CRANKSHAFT
The crankshaft is forged carbon steel, and the crank pin is induction-hardened. The output end of the shaft has a crankshaft gear and balancer gear that are pressed into position. (See Fig. 3.)
4-4 CONNECTING ROD AND PISTON
The connecting rod is forged aluminum alloy, and its large and small ends function as bearings. The piston is an aluminum alloy casting, and carries two compression rings and one oil ring.(See Fig. 4.)
4-5 PISTON RINGS
The Piston rings are made of special cast iron. The profile of the top ring is barrel face and tile S W O J I ~ ring has a tapered face with an m d e r - CUT:.
'l'he oil ring consists of a cutter ring and a coil expander far better sealing and less o i l (xmsumption.
B TYPE / D TYPE
Fig. 3
Fig. 4
.TOP RING
SECOND RING
OIL RING
Fig. 5
- 7 -
4- 6 CAMSHAFT
The camshaft for the D- type engine is made of special cast iron and camshaft gears are casted together in one piece. Both sides of the shaft fit into the plane bearings on the crankcase and main bearing cover. The camshaft for B- type engine is made of forged carbon steel and also functions as PTO shaft. Cam gear is press fitted on the shaft and ball bearings are employed on the both sides for supporting the shaft. (See Fig. 6.1
4- 7 VALVE ARRANGEMENT
The intake valve is located on flywheel side of the cylinder head. Hard alloy valve seats are moIded in the cylinder head and stellite is fused to the exhaust valve face. The cylinder baffle leads cooling air t o the exhaust valve area for the optimum cooling. (See Fig. 7.)
I B TYPE
Fig. 6
VALVE I
Fig. 7
4-8 CYLINDER HEAD
The cylinder head is an aluminum die casting which utilizes wedge type combustion chamber for the highest combustion efficiency. (See -Fig. 8.)
Fig. 8
- 8 -
4- 9 GOVERNOR SYSTEM
The governor is a centrifugal flyweight type which ensures constant operation at the selected speed against load variations. The governor gear with governor weights is installed in the crankcase and driven by the balancer shaft. (See Fig. 9.1
Fig. 9
4- 10 COOLING SYSTEM
The large fins on the flywheel provide sufficient cooling air capacity for the inlet and exhaust area and cylinder. The cylinder baffle helps the cooling air flow efficiently.
4- 11 LUBRICATION
A11 the rotating and sliding parts are splash- lubricated by the oil scraper on the connecting rod. (See Fig. 10.)
I OIL SCRAPER
Fig. 10
- 9 -
4- 12 IGNITION SYSTEM
The ignition system is a transistor controlled magneto ignition system which cosists of a flywheel and an ignition coil with a built in transistor mounted on the crankcase. This system has an ignition timing advance for easy starting. (See Fig. 11.)
4- 13 CARBURETOR
The engines are equipped with a horizontal draft carburetor that has a float controlled fuel system and a fixed main jet. The carburetors are calibrated carefully for the sure starting, good acceleration, low fuel consumption and sufficient output. For the datails, refer to page 46, section "8 CARBURETOR". (See Fig. 12.)
I
Fig. 1 1
Fig. 12
4- 14 AIR CLEANER
The air- cleaner is a heavy - duty type with a dual element system. (See Fig. 13.)
I
Fig. 13
- 1 0 -
4- 15 BALANCERS
Unbalanced inertia force is balanced by the two balancers which rotate at the same speed with the crankshaft to effectively reduce vibration. (See Fig. 14.)
4- 16 DECOMPRESSION SYSTEM
An automatic decompression mechanism which opens exhaust valve before the piston reaches compression top is assembled on the camshaft for easy starting. (See Fig. 15)
BALANCER 1
Fig. 14
AUTOMATIC DECOMPRESSOR SYSTEM
Fig. I5
- 1 1 -
4- 17 SECTIONAL VIEW OF ENGINE
FUEL 1 /FUEL TANK
FLYWHEEL (COOLING FAN) ' MAIN BEARING COVER
- 12 -
PLUG COVER ROCKER ARMS
DRAIN PLUG \BALANCER SHAFT 2
- 13 -
5. DISASSEMBLY AND REASSEMBLY
5- 1 PREPARATIONS AND SUGGESTIONS
1) When disassembling the engine, memorize the locations of individual parts so that they can be reassembed correctly. If yor are uncertain of identifying some parts, it is suggested that tags be attached to them.
2) Have boxes ready to keep disassembed parts by group. 3) To prevent losing and misplacing, temporarily assemble each group of disassembed parts. 4) Carefully handle disassembed parts, and clean them with washing oil if necessary. 5) Use the correct tools in the correct way.
5-2 SPECIAL TOOLS
Tool No. Use Tool
209 - 95004 - 07
For placing piston ring Piston ring compressor 228-95003-07
For pulling off the f l ywhee l Flywheel puller with bolt
PISTON RING COMPRESSOR
/
FLYWHEEL PULLER
Fig. 76
- 14 -
5- 3 DISASSEMBLY PROCEDURES
Step Tool Remarks Procedures Part to remove
1 14mm box wrench Be careful not to lose (1) Remove oil drain plug and drain oil. Oil drain (2) To discharge oil quickly, remove oil the gasket.
gauge.
Fig. 17
- 15 -
Step Part to remove I 2 Air cleaner
Procedures Remarks Tool
(1) Remove air cleaner cover. Be careful not to lose (2) Loosen two wing b o l t s and remove washer and gasket for
(3) Loosen screw on swivel and pull out
(4) Remove two flange nuts and a bolt Pull off breather pipe lonun box wrench
element. wing bolt.
choke knob.
and remove cleaner base. from cleaner base. M6 flange nut .-.- 2pcs. M6 X 12mm bolt and washer * lpce.
M6 FLANGE NUT : 2pcs.
M6 BOLT AND WASHER
CLEANER COVER
CLEANER BASE
WING BOLT
Fig. 18
- 16 -
Step
3 -
Control panel and bracket
Procedures
(1) Unclamp wires from breather cover. (2) Disconnect wires from connectors. (3) Loosen two bolt and remove control
panel. M5 X l O m m bolt and washer -*.. 2pcs.
(4) Loosen. flange bolt and remove bracket.
' M6 x 8mm frange bolt * - 0 . Ipse.
4 Carburetor (1) Close fuel valve. (2) Disconnect fuel pipe from fuel strainer. (3) Remove carburetor carefully unhooking
governor rod and rod spring from governor lever.
Remarks
Be careful not to bend governor rod or stretch rod spring.
Tool
8mm box wrench
l o r n box wrench
KEY SWITCH \
Fig. 19
- 17 -
BRACKET
1 Step ]part to remove1 Procedures I Remarks I Tool I 5 Speed contral
~ lever and ~ governor
lever
(1) Unhook governor spring from governor lever.
(2) Remove clip, wing nut, stop plate, friction plate, and speed control lever.
(3) Loosen the bolt and remove governor lever.
Note governor spring hole on governor lever.
ROD SPRING
GOVERNOR LEVER
I GOVERNOR SPRING
'ER
Fig. 20
- 18 -
Step F
6
7
8
~~
'art to rernovc
Oil sensor (Option)
Oil sensor bracket (Option)
Muffler
Procedures I Remarks I Tool I (1) Unclamp sensor cord from main
sensor unit in any way. (2) Remove oil sensor unit. damage stick and bearing cover. Be very careful not to
Remove oil sensor bracket.
(1 1 Loosen two flange nuts and a bolt. muffler gasket. (2) Remove muffler and muffler cover
12mm box wrench Be careful not to lose
from stud bolts. M8 flange nut 2pcs. M8 X 16mm bolt and washer lpce.
M8 FLANGE NUT : Ppcs.
MUFFLER COVER
Fig. 21 GASKET /
M6 SCREW AND SPRING WASHER : 2 ~ ~ s .
- 19 -
'art to remove( Procedures I Remarks
Electric starter (Option)
Diode rectifier
(1) Remove black wire from electric starter. (2) Loosen two bolts and remove electric
~ ~~~
starter. M8 x 30mm bolt .*.- 2pcs.
M8 spring washer - 2pcs. M8 washer .......... 2pcs.
(1) Disconnect wires. green/white * - * - 2
1 white ........... (2) Remove diode rectifier and bracket
from crankcase. M6 X 12mm flange bolt - . * - lpce.
Reattach terminal nut to starter to keep it from missing.
~~
Magnetic magnetic switch. switch Loosen two flange bolts and remove
M6 X 12mm flange bolt .... 2pcs.
Tool
12mm socket wrench
lOmm box wrench
ELECTRIC STARTER \
Fig. 22
BLACK WIRE
MAGNETIC SWITCH
M6 FLANGE BOLT : 2pcs. /
- 20 -
Step Tool Remarks Procedures Part to remove
12 Wipe off spilt fuel Loosen four flange nuts from bottom of Fuel tank fuel tank and remove fuel tank.
12mm socket M8 flange nut - 0 . - 4pcs. thoroughly.
wrench
FUEL TANK
FUEL STRAINER
Fig. 23
- 21 -
Step Part to remove Procedures Remarks Tool
13 Recoil Remove recoil from blower housing. lOmm box wrench starter M6 X 8mm flange bolt - - 4pcs.
14 Blower Remove blower housing from crankcase. 1 O m m box wrench housing M6 x 8mm flange bolt .-.- 4pcs.
BLOWER HOUSING
\ / 1
Fig. 24
- 22 -
Step Tool Remarks Procedures Part to remove
15 (1) Remove spark plug cap from spark Ignition coil Plug-
M6 x 30mm bolt and washer 1.- * 2pcs. (2) Remove ignition coil from crankcase. lOmm box wrench
Fuel tank Remove the fuel tank bracket
M6 x 8mm flange bolt lpce. baffle lOmm box wrench Remove the cylinder baffle from cylinder. Cylinder
M10 x 25mm bolt and washer . . a - 4pcs. Bracket 14mm box wrench
~ ~~~ ~~ ~ ~~ ~ ~~ ~~ ~~~~ ~
I I I I I
SPARK
M10 FLANGE BOLT : 4pcs.
PLUG CAP
\ I."""'""
CYLINDER BAFFLE
/ M6 FLANGE BOLT
FUEL TANK BRACKET
/MI3 BOLT AND WASHER I
P P C S .
Fig. 25
- 23 -
Step
18
- 19
'art to remove
Flywheel
Charge coil
Procedures
(1) Remove nut from crankshaft.
(2) Remove the starting pulley.
(3) Remove flywheel using flywheel puller.
(4) Remove the key from crankshaft.
M16 nut lpce. (See Fig. 26.)
M8 x 1 2 m bolt - * - - 3pcs.
(See Fig. 28.1
(See Fig. 29.)
Remove the charge coil M6 X 20mm screw - - - - 2pcs. M6 x 1Omm screw --.. lpce.
Remarks
Flywheel can easily be removed by striking the head of the center bolt of the flywheel puller with a hammer.
Be careful not to lose the key.
Tool I 24mm socket wrench 12mm socket wrench
Phillips screwdriver
I Fig. 28 Fig. 29
- 24 -
I Step \Part to removeJ Procedures 1 Remarks I Tool
Exhaust manifold
Intake manifold
Remove exhaust manifold and gasket from cylinder head. M8 flange nut - - - - 2pcs.
Remove intake manifold and gasket from cylinder head. M8 x 28mm bolt and washer - - * * 2pcs.
Remove spark plug from cylinder head.
12mm box wrench
12mm box wrench
I I I I I
, SPARK PLUG
M8 FLANGE NUT : ZPCS.
Fig. 30
- 25 -
'art to remove
Cylinder head
Procedures
(1) Remove rocker cover from cylinder head. M6 x 12mm flange bolt .... 4pcs.
(2) Loosen adjusting bolts on rocker arms. (3) Pull out rocker shaft from the intake
side of the cylinder head. (See FIg. 31.)
(4) Remove the push rods from cylinder. (5) Remove cylinder head and gasket.
M10 X 75mm flange bolt ..*. 4pcs. M10 x 42mm flange bolt - - e - lpce.
Remarks
Mark rocker arms and push rods so they be reinstalled in their original positions.
Tool
10mm box wrench
14mm box wrench
- 26 -
I r Step l ~ a r t to remove1 Procedures
YtZzz exhaust
t (1) Press down spring retainer and slide
it to release from the groove of valve stem, then remove spring retainer and valve spring.(See Fig. 32.)
(2) Remove intake and exhaust valves from cylinder head.
~~ ~~ ~~ ~
Remove breather cover. M6 x 12mm flange bolt *.-. 2pcs. Remove gasket ( Breather cover). breather plate and gasket (Breather plate).
SPRING RETAINER
VALVE SPRING
WASHER
OIL SEAL
VALVE GUIDE
- 27 -
Remarks
Put marks on valves, springs and retainers so they be reinstalled in their original positions. Clean carbon and gum deposit from the valves, valve seats, ports and guides. Inspect valves, valve seats and guides. Be careful of stem seal on intake valve.
Tool
r
Fig. 33
GASKET (BREATHER PLATE)
BREATHER PLATE
BREATHER COVER \
RUBBER PIPE
M6 FLANGE BOLT : 2pcs.
Step Procedures Part to remove
, 2 6 h4ai.n
cover cover on crankcase. bearing
(1) Remove bolts fastening main bearing
M8 x 4Omm bolt and washer *--*7pcs. (2) Remove main bearing cover from
crankcase. (See Fig. 35.)
Remarks
, Be c a r e f u l not to ~ damage the oil seal.
Use a soft hammer and evenly tap around outer surface of cover.
Tool
12mm box wench
I Fig. 35
MAIN BEARING COVER
GASKET
‘ M8 BOLT AND WASHER : 7pcs.
Fig. 36
- 28 -
Step
27
~
c 1 28
Part to remove
Camshaft and tappets
Balancer
Procedures
(1) Remove camshaft from crankcase. (2) Remone tappets from crankcase.
(I) Position piston at top dead center and remove balancer 1 and balancer 2.
Remarks Tool
( I ) To prevent tappets from getting dynages , put crankcase cylinder side down. (See Fig. 37.)
(2) Put marks on tappets to distinguish intake from exhaust.
Fig. 37
Fig. 38
- 29 -
I Step l ~ a r t to remove1 Procedures I Remarks I Tool ~~
29
interfere with removal (2) Turn crankshaft until piston is at top piston deposits that might COMfXting rod cap. rod and Scrape off all carbon (1) Remove connecting rod bolts and CoMfXthg
dead center, push out connecting rod of piston from upper I
I I and piston assembly through top of cylinder.
end of cylinder.
~
lOmm box wrench
30 Piston and piston pin
(1) Remove clips and piston pin to remove connecting rod from piston.
(2) Remove piston rings from piston.
Be careful not to give damages to piston and COMecting rod. Be careful not .to break rjngs by spreading too much or twisting.
Ring expander
I I 1
PISTON RING
PISTON PIN
CONNECTING ROD
CONNECTING
OIL SCRAPER
M8 BOLT : 2pcs.
Fig. 39
- 30 -
Step Tool Remarks Procedures Part to remove
31
(See Fig. 40.) crankshaft to move from crankcase.
(1) Tap lightly on flywheel end of Crankshaft
-
t
Fig. 40
f i g . 41
- 31 -
5- 4 REASSEMBLY PROCEDURES
0 PRECAUTIONS FOR REASSEMBLY 1) Clean parts throughly before reassembly.
2) Scrape off all carbon deposits from cylinder head, piston top and piston ring grooves. 3) Check lip of oil seals. Replace oil seal if the lip is damaged.
Pay most attention to cleanliness of piston, cylinder, crankshaft, connecting rod and bearings.
Apply oil to the lip before reassembly. 4) Replace all the gaskets with new ones. 5) Replace keys, pins, bolts, nuts, etc., if necessary. 6) Torque bolts and nuts to specification refering to the "TORQUE SPECIFICATIONS". 7) Apply oil to rotating and sliding portions. 8) Check and adjust clearances and end plays where specified in this manual.
5-4- 1 CRANKSHAFT (1) Install crankshaft on crankcase using an oil
seal guide to avoid damage to oil seal. (See Fig. 42.)
(2) Install woodruff key for flywheel on crankshaft.
OIL SEAL GUI
Fig. 42
5-4-2 PISTON AND PISTON RINGS ( I ) Install oil ring first, then second ring and
top ring. Spread ring only far enough to slip over piston and into correct groove. Use care not to distort ring. (See Fig. 43.) Install top ring and second ring with punched mark beside the gap on the top side. (See Fig. 45.)
OPEN ENDS OF PISTON RING
f
Fig. 43
- 32 -
I' .TOP RING
.SECOND RING
'OIL RING
fig. 44
5-4-3 PISTON AND CONNECTING ROD When installing piston on connecting rod on D type engine, match the mark "DF"on thepiston with the mark DF"on connecting rod. On B type engine, match the mark "BF" on the piston with the mark " @ BF"on connecting rod. (See Fig. 46.) Oil small end of connecting rod before installing piston and piston pin. Use clips on the both side of the piston pin to secure piston pin in position.
"N" MARK
Fig. 45
"OF" MARK A
Fig. 46
- 33 -
(2) Install piston and connecting rod assembly into cylinder. Use a piston ring compressor to hold piston rings. The "DF"mark of the connecting rod for "D"type engine or the "BF"mark for "B" type engine is to face flywheel side when assembled. (See Fig. 47.)
-[NOTES]
(1) Apply enough oil to piston rings, connecting rod bearings and cylinder bore before assembly.
(2) Set gaps of the piston rings 90 degrees apart from one another before assembly. (See Fig. 48.1
5-4-4 CONNECTING ROD ( I ) Turn crankshaft to bottom dead center,
lightly tap top of the piston until large end of the rod meet crankpin.
(2) Install connecting rod cap and oil splasher to connecting rod matching alignment marks. (See Fig. 49.) Torque connecting rod bolts to specification. M8 X 46 mm connecting rod bolt - * - 0 2pcs.
I Tightening torque I 225-275 kg cm
22.1 "27.0 N - m
16.3-1 9.9 f t * Ib
(3) Check for free movement of connecting rod by turning crankshaft slowly.
PISTON RING COMPRESSOR
\ CON,NECTlNG ROD
CRANKCASE "-F
(FLYWHEEL SlOC),
Fig. 47
RING
RING
Fig. 48
ALIGNMENT MARK
Fig. 49
- 34 -
5-4-5 BALANCER SHAFT Install balancer shaft 1 (left side) and balancer shaft 2 (right side) to crankcase aligning matching marks of balancer gear and crank gear as shown in Fig. 50. Matching mark for balancer shaft 1 is one dot and that for balancer shaft 2 is two dots. Align the same marks on balancer gears and crankgear.
(1) When installing balancer shaft 2, be sure that governor gears mesh properly to drive gears on balancer shaft.
(2) incorrect timing of the gears will cause malfunction of the engine and may results in damage due to interference of the parts.
f i g . 50
5-4-6 TAPPETS AND CAMSHAFT (1) Oil tappets and install in their original
position. Push in fully to avoid damage during camshaft installation.
(2) Lubricate bearing surfaces of camshaft. Align timing mark on crankshaft gear with timing mark on camshaft and install camshaft in the crankcase. (See Fig. 52.)
Incorrect valve timing will cause malfunction of the engine. Fig. 51
- 35 -
5-4-7 ADJUST CRANKSHAFT AND CAMSHAFT END PLAY (1 ) Measure end play of crankshaft and camshaft.
Adjust end play to the specified values using the proper spacer.
CRANKSHAFT
Type 8 Type D Type B Type D
CAMSHAFT
SIDE CLEARANCE 0-0.2 rnm 0.1 3-0.29 m m 0-0.2 rnm 0-0.2 mm
T = 0.6 mm T = 0.6 mm
T = 0.8 rnrn T = 0.8 mrn T = 1:0 mrn T = 1 .O mm T = 0.7 rnrn T = 0.7 mrn T = 0.8 mm T = 0.8 mm T = 0.6 mm T = 0.6 mm
ADJUSTING SPACER
* Take the thickness of GASKET, BEARING COVER into account as 0.26mm when calculating the side clearance.
CRANKSHAFl
MAIN BEARING COVER \ \ GASKET. BEARING COVER
I SPACER
SPACER
\ \
CRANKCASE
Fig. 52
- 36 -
(2) Lubricate oil seal and bearing surfaces. Add a light film of oil on main bearing cover face to hold gasket in place. Place spacers chosen at procedure (1) on crankshaft and camshaft. Use an oil seal guide when installing main bearing cover to avoid damaging the seal. Tap cover into place with a soft hammer. Main bearing cover M8 X 40 mm bolt and washer * * * e 7 pcs.
Tightening torque
170-190 kg * c m
16.7-1 8.6 N m
12.3-L.13.7 ft 4 Ib 7
5-4-8 BREATHER VALVE Attach breather plate (breather valve) and breather cover to crankcase using proper gaskets. Put breather plate in such position as its reed valve opens outside towards main bearing cover. Replace gaskets with new ones if they are torn or damaged.
5-4-9 CYLINDER HEAD (1) Clean carbon and gum deposits from the valves, seats, ports and guides. Inspect valves, valve
(2) Replace valves that are badly burned, pitted or warped. (3) When installing valves in cylinder head, oil valve stems and insert them into valve guide.
Then place cylinder head on flat table, install washer, valve spring and spring retainer. (4) Valve guides should be replaced when valve stem clearance exceeds specifications (See
"SERVICE DATA" ) . Draw valve guides out and press new guides in. Refer to "SERVICE DATA"for clearance specifications. After replacing valves and guides, lap valves in place until a uniform ring shows around the face of the valve. Clean valves and wash cylinder head thoroughly.
Tighten five flange bolts evenly in three steps by the following tightening torque : Cylinder head M10 X 75 mm bolt 0 4 pcs.
M10x42 mm b o l t * - * - 1 pcs.
seats and valve guides.
(5) Install cylinder head to cylinder with new head gasket.
I Tightening torque 1 I 1st step I 2nd step I final step I
100 k g * c m
33.3-41.2 N m 19.6 N m 9.8 N . m
340-420 kg cm 200 kg * c m
I 7.2 ft * Ib I 14.5 ft - Ib I 24.6-30.4 f t Ib I
5-4- 10 ROCKER ARMS AND PUSH RODS (1) Insert push rods into crankcase.
(2) Apply oil to rocker arms and assemble them to cylinder head using rocker shaft and spacer. Put push rod tip in the hollow of tappet top.
- 37 -
5-4- 11 VALVE CLEARANCE ADJUSTMENT (1) Position piston at top dead center of
compression stroke by matching the mark of flywheel with the mark T of
crankcase. (See Fig. 53.) (2) Loosen lock nut on rocker arm and turn
adjusting screw to adjust the clearance between rocker arm and valve stem end. (See Fig. 54.) Tighten lock nut.
- [NOTE]
Check and adjust valve clearance with engine cold. Check operation of valves by turning crankshaft . Remeasure tappet clearance.
(3) Install rocker cover and gasket. Rocker cover M6 x 12 mm bolt - 0 0 . 4 pcs.
5-4-12 SPARK PLUG Install spark plug to cylinder head. Spark plug : NGK BPGES or CHAMPION N9Y
Tightening toque
New spark plug Retightening
120-150 kg - cm 230-270 kg cm
11.8-14.7 N rn
16.6-1 9.5 f t * Ib 8.7-1 0.9 ft * Ib
22.6-26.5 N r n
5-41 13 INTAKE AND EXHAUST MANIFOLD ( 1 ) Install intake pipe to cylinder head with gasket.
Tighten three bolts.
Fig. 53
Fig. 54
I Tightening toque I 1 100-140 kg - c m 1 9.8- 13.7 N - m I 7.2- 10.1 ft * Ib I ( 2 ) Install exhaust pipe to cylinder head with gasket.
Tighten two flange nuts.
I Tightening toque 1 I 180-220 kg - cm I 17.7-21.6 N - rn I 13.0-15.9 f t Ib 1
- 38 -
(1) Install charge coil to crankcase. Clamp coil wire to crankcase.
I- [NOTE]
Be careful not to pinch coil wire between charge coil and crankcase.
(2) Put woodruff key in keyway of crankshaft. Wipe off oil and grease thoroughly from tapered portion of crankshaft and flywheel center hole.
Tighten flywheel nut with spring washer. (See Fig. 55.)
(3) Install flywheel to crankshaft. Fig. 55
Tightening toque
850-960 kg cm 61.5-68.7 ft Ib 83.4-93.2 N m
(4) Install starting pulley to flywheel.
Tightening togue
70-90 kg cm 5.1 -6.5 ft Ib 6.9- 8.8 N m
5-4-15 CYLINDER BAFFLE AND FUEL TANK BRACKET Install cylinder baffle and fuel tank bracket to cylinder head.
5-4- 16 IGNITION COIL Install ignition coil to crankcase. Adjust air gap between ignition coil and flywheel using a thickness gauge and tighten bolts. (See Fig. 56.)
I Air gap
I 0.3-0.5 mm
0.01 2-0.020 in.
Fig. 56
5-4- 17 BLOWER HOUSING AND RECOIL STARTER (1) Attach blower housing to crankcase.
(2) Install recoil starter to blower housing. Tighten four flange bolts.
M6 x 8mm flange bolt - 0 4 pcs.
r [NOTES]
Be careful of pulling direction of starter rope.
- 39 -
5-4-18 FUEL TANK Install fuel tank to fuel tank bracket.
5-4- 19 ELECTRIC STARTER (Optional equipment) (1) Install magnetic switch to crankcase. (2) Install diode rectifier to crankcase. (3) Install electric starter to crankcase. (4) Connect wires referring to the wiring diagram.
5-4-20 MUFFLER hstall muffler to exhaust pipe with muffler gasket.
5-4-21 OIL SENSOR (Optional equipment) (1) Install sensor bracket to crankcase. (2) Install oil sensor unit to sensor bracket. (3) Screw in sensor probe into the oil filler. D TYPE
Type ‘D”engines : Insert sensor probe into the muffler side filler neck.
carburetor side. Type ‘B-engines : Insert sensor probe into
MUFFLER SIDE CARBURATOR SIDE
Fig. 57
5-4-22 GOVERNOR, SPEED CONTROL SYSTEM (1) Install governor lever to governor shaft.
Tighten locking bolt temporarily. (2) Install speed control lever to crankcase with
return spring, friction washer, wing nut, etc. as shown in Fig. 58.
(3) Hook governor spring to proper holes of governor lever and speed control lever. .(See Fig. SI.)
(4) Install insulator and gaskets to intake pipe.
SPEED CONTROL LEVE
STOP PLATE ’ WASHER t fig. 58
- 40 -
(5) Install carburetor to intake pipe hooking governor rod to governor lever and throttle lever of carburetor. Hook rod spring over governor rod. (See Fig. 59.)
to carburetor with gaskets. Tighten two flange nuts and a bolt. Connect breather pipe from tappet cover to cleaner base.
(6) Attach panel bracket and air cleaner base
(7) Adjust governor system. (a) Push speed control lever all the way to
the high speed position and fix it by tightening wing nut. (See Fig. 60.)
(b) Check that governor lever is pulled by governor spring and carburetor throttle valve is fully open.
(c) Turn governor shaft counterclockwise all the way using a screw driver, and tighten lock bolt to secure the lever on the shaft. (See Fig, 60.)
~.
-GOVERNOR R
Fig. 59
Fig. 60
HOOKING POSITION OF THE GOVERNOR SPRING
Rated 3000 rpm (50Hz) applications : 1 - A * Rated 3600 rpm (60Hz) applications : 3- B
Governor spring material : Stainless steel Governor spring material : Zinc plated steel Color : Silver Color : Gold
Fig. 61
- 41 -
(8) Install control panel to bracket.
(9) Put choke knob wire through grommet on cleaner base and fasten to swivel on choke shaft Connect wires.
of carburetor. (10) Put element into air cleaner and fasten with wing bolts.
Install air cleaner cover. - End of the reassembly -
5- 5 BREAK- IN OPERATION
An engine that has been completely overhauled by being fitted with a new piston, rings, valves and connecting rod should be throughly RUN-IN before being put back into service. Good bearing surfaces and running clearances between the various parts can only be established by operating the engine under reduced speed and loads for a short period of time. While the engine is being tested, check for oil leaks. Make final carburetor adjustment and regulate the engine operating speed.
I Steps I Load
6. MAGNETO
6- 1 .FLYWHEEL MAGNETO
The ignition system of the EH30./EH34 is pointless flywheel magneto with automatic advancing characteristic. Being different from the breaker point type ignition system, this system is completely free from such troubles as starting-up failure owing to dirty, burnt or corroded point surface. The electronic automatic advancing ensures extremely easy starts and stable high performance at. operating speed by advancing the ignition timing to the most suitable point.
- 42 -
6-2 BASE THEORY
(1) Revolution of the flywheel generates electricity on the primary side of the ignition coil, and the base current I1 flows to the power transistor. Current I1 turns the power transistor "0N"and the electric current Iz flows.
(2) At lower engine revolution, when the flywheel reached the ignition point the low speed ignition timing controll circuit operates to run the base current 13 to turn the signal transistor A "ON" allowing the current I1 to bypass as current 14.
At this moment the power transistor turns "0FF"and the current I2 is abruptly shut resulting in the high voltage generated in the secondary coil which produces sparks at the spark plug.
(3) At higher engine revolution, the advancing controll circuit operates at the 1 ignition timing to run the base current k to turn the signal transistor B "0N"allowing the current I1 to bypass as current Is. At this moment the power transistor turns "0FF"and the current Iz is abruptly shut resulting in the high voltage generated in the secondary coil which produces sparks at the spark plug. The operating timing of the advancing controll circuit advances in accordance with the increase of engine speed resulting in the advancing of ignition timing as shown in Fig. 62 (b).
ELECTRONIC ADVANCING FLYWHEEL
MAGNETO SYSTEM (B.T.D.C.)
c ,
STEP ADVANCING
500 1000 2000 3000(r.p.m.)
ENGINE REVOLUTION Fig. 62 ( b )
- 43 -
6-3 WIRING DIAGRAM
STANDARD
Spark Plug
775-
Ignition Coil I c
"
-.
!
Flywheel
Stop Button Connector
Black - 1
ElNGlNE WITH ELECTRtC STARTER
I I I I I I I I I I I I I I I I I I I I
\ I DIODE
RECTIFIER I
I r L """""""- 1
l - 1 2VOLT
BATTERY MINIMUM
24 AMP.HR.
Fig. 63
- 44 -
7. AUTOMATIC DECOMPRESSION SYSTEM
The decompression system operates to release compression by lifting up the exhaust valve at starting. The release lever mounted on the camshaft has a flyweight a t one end and a crescent cam at the other end. When starting the engine, the crescent cam juts out from the exhaust cam. The exhaust tappet rides over the crescent cam opening the exhaust valve to release compression.
CRESCENT
EXHAUST
LEVER
Fig. 64
When the crank speed reaches a certain revolution, the flyweight of the release lever moves outward by the centrifugal force turning the release lever to retract the crescent cam. Thus the exhaust valve closes allowing a sufficient compression for the engine to start up.
FLYWEIGHT
RELEASE LEVER
CRESCENT CAM
EXHAUST CAM
CAMSHAFT
Fig. 65
The components of the decompression system are different between “D”type and “B”type engines, however the principle of operation is the same.
- 45 -
8. CARBURETOR
8- 1 OPERATION AND CONSTRUCTION
8-1 - 1 FLOAT SYSTEM The float chamber is located below the carburetor body and, with a float and a needle valve, maintains a constant fuel level during engine operation. (See Fig. 66.) The fuel flows from the fuel tank into the float chamber through needle valve. When the fuel rises to a specific level, the float rises, and when its buoyancy and fuel pressure are balanced, the needle valve closes to shut off the fuel, thereby keeping the fuel at the predetermined level.
Fig. 66
PILOT OUTLET PILOT JET
\ I BY - PASS,, - - - - "- -" ""- """- f"
. "_ - "_ " - - - - - - " - - - - - - \ "
\ I [ [ PILOT AIR JET
\ ! I MAIN AIR JET
MAIN
AT
- \ MAIN JET
Fig. 67
- 46 -
8-1 - 2 PILOT SYSTEM The pilot system feeds the fuel to the engine during idling and low- speed operation. The fuel is fed through the main jet to the pilot jet, where it is metered, and mixed with the air metered by the pilot air jet. The fuel- air mixture is fed to the engine through the pilot outlet and the by- pass. At idling speed, the fuel is mainly fed from the pilot outlet.
8 - 1-3 MAIN SYSTEM The main system feeds the fuel to the engine a t medium- and high-speed operation. The fuel is metered by the main jet and fed to the main nozzle. The air metered by the main air jet is mixed with the fuel through the bleed holes in the main nozzle, and the mixture is atomized out of the main bore. It is mixed again with the air taken through the air cleaner into an optimum fuel-air mixture, which is supplied to the engine.
8- 1 - 4 CHOKE The choke is used for easy start when engine is cold. When the starter is operated with a closed choke, the negative pressure applied to the main nozzle increases and draws much fuel accordingly : thus easily start up the engine.
8- 2 DISASSEMBLY AND REASSEMBLY Apart from mechanical failures, most of carburetor troubles are caused by an incorrect mixing ratio, which may arise mainly due to a clogged up air or fuel passage in jets, or fuel level variations. In order to assure proper flow of air and fuel, the carburetor must be kept clean at all times. The carburetor disassembly and reassembly procedures are as follows : (See Fig. 68.)
8-2-1 THROTTLE SYSTEM (1) Remove the philips screw (1) and throttle 1 2 3
valve (2), and pull out the throttle-> shaft (3) . (2) The spring (4) can be taken out by removing
the throttle stop screw (5). *Exercise care not to damage throttle valve
ends.
8-2-2 CHOKE SYSTEM (1) Remove the philips screw (6) and choke valve
(2) When reassembling the choke shaft, make sure @“---- 23
(71, and pull out the choke shaft (8).
that the cutout in the choke valve faces the main air jet. 19
Meantime, when reassembling set the rings (9) and (10) at the right position.
l7”--- i LZ2 16
8-2-3 PILOT SYSTEM ( 1 ) Remove the pilot jet (1 l)., using correct tool
(2 ) Reassembly to avoid damage to it.
Tighten the pilot jet securely. Otherwise, the fuel may leak, causing engine malfunction.
13 <a 18 & 12 “--&
Fig. 68
- 47 -
8-2-4 MAIN SYSTEM (1) Remove the bolt (12) and take out float chamber body (13). (2) From the body (14) remove the main nozzle (15), and then remove the main jet (16) and
(3) Reassembly guide holder (17) from the main nozzle (15).
a) Fasten the main jet securely to the body. Otherwise, the fuel may become too rich and cause
b) The bolt tightening torque is 70kg - cm. Be sure to set the gasket (19) and washer (18) for engine malfunction.
chamber ( 13).
8-2-5 FLOAT SYSTEM (1) Pull out the float pin (20) and remove the float (21) and then remove the clip (22) and needle
valve (23). If the needle valve need to be replaced, replace it with rubber needle.
When cleaning the jets, use neither a drill nor a wire (because of possible damage of the orifice which will adversely affect fuel flow). Be sure to use compressed air to blow them clean.
(2) When removing the needle valve and float, gently tap the reverse side using the rod more slender than the float pin and remove, since the float pin is calked to the carburetor body.
- 48 -
9. STARTING SYSTEM
9-1 RECOIL STARTER
When repairing recoil starter, disassemble and reassemble in the following procedures. Tools : Socket wrench, Needle nose pliers, Screw driver
[NOTE]
The following explanation is applicable to the recoil starter for “D” type engines. For “B” type models, reverse the direction of rotation to achieve proper service work.
9-1 - 1 HOW TO DISASSEMBLE (D Type) (1) Remove recoil starter from engine. (2) Pull starter knob and pull out starter rope
for 30-40cm to line up notch on reel with outlet hole for starter rope. Hold reel with thumb and pull starter rope inside the starter case with screw driver. (See Fig. 69.) Rewind reel clockwise until the rotation stops. When rewinding the reel, control the rotation by holding starter rope using the notch on the reel and pressing the reel with thumb.
(3) Remove parts in the following order.
1. Center screw 2. Friction plate 3. Friction spring 4. Ratchet 5. Ratchet spring
TARTER ROPE
I
Fig. 69
4,
Fig. 70
- 49 -
(4) Remove reel from starter case as shown in Fig. 71. Take out reel slowly turning it lightly toward left and right to remove spring from the hook. Do not remove the reel quickly or the spring may escape from the starter case. Untie starter rope from the knob and remove.
9- 1 - 2 HOW TO REASSEMBLE (D Type) ( 1 ) Put starter rope through starter knob and
tie it as shown in Fig. 72. (Tie the rope tightly for the safety sake.) Put the opposite side of the rope through starter case and reel. Tie i t in the same way as starter knob end and put the knot in the reel complely.
(2) Check that spring is securely set in the reel. Adjust the position of inner end of the spring so it hooks on hook in the starter case securely. The shape of starter spring inner end can be adjusted with plier if necessary.
p g ' STARTER CASE
Fig. 71
Fig. 72
OUTER END OF SPRING
SPRING KEEPER
BEARING REEL INNER END OF SPRING
Fig. 73
- 50 -
starter rope in reel for 2.5 turns in the arrowhead direction as shown in Fig. 74. Then let the rope out of reel from the notch on reel. Line up the hook with inner end of spring and install reel in starter case. Check that the inner end of spring is securely hooked onto the hook.
(3) Prior to installing reel in starter case, wind
(4) Reassemble parts in reverse order of disassembly. Check that ratchets are pushed by ratchet springs toward the center of recoil. Install friction plate with its two bosses set inside of the bent portion of rachets. Apply small amount of lock- tight to center screw and torque it.
1 Thightening torque
4.0 kg cm
3.9 N m
2.9 ft Ib
(5) Hold starter rope as shown in Fig.76 and turn reel 4 times in the arrowhead direction. Firmly press the reel not to allow reverse turn and pull starting knob t o let starter rope out of starter case. Return knob slowly to let starter rope rewind in reel.
Fig. 75
Fig. 76
- 51 -
(6) Test operation of recoil starter to see if rope recoils satisfactorily and ratchets project and retract properly. Mount recoil starter to the engine.
(7) If spring escapes from reel when disassembling recoil, hook the outer end of spring onto the notch of reel and rewind the spring into the housing.
(8) Lubricate the rotating parts, sliding parts and spring with heat resistant grease or mobile oil when reassembling recoil and prior to long term storage.
9-2 ELECTRIC STARTING MOTOR (OPTION)
9- 2 - 1 DISASSEMBLY (1) The 6mm terminal nuts (2pcs.)
Remove the 6mm terminal nuts. (Zpcs.)
I Fig. 77
(2) "M" terminal bush No,l (3) The 5mm through bolts (Zpcs.)
Remove the "M" terminal bush No, 1. The rear cover is disassembled by removing the 5mm through bolts. (2pcs.I
Fig. 78
- 52 -
(4) The rear cover Remove the rear cover.
(5) The (6) The (7) "M"
The mov
4mm screws (2pcs.I brush holder. terminal bush No, 2. brush holde is disassembled by re-
,ing the 4 mm screws. (Zpcs.) Remove the "M" terminal bush No, 2.
(8) Yoke assembly. Remove the yoke assembly.
4
Fig. 79
6 7
Fig. 80
f i g . 81
- 53 -
(9) The pinion stopper clip. The pinion stopper clip is removed with a standard screwdriver while the pinion stopper is pushed toward the pinion.
(1 0) Pinion stopper. (I 1) Pinion return spring. (1 2) Pinion assembly.
The pinion stopper, pinion return spring and the pinion assembly can be dis - assembled once the pinion stopper clip has been removed.
(13) Armature. (14) Thrust washers (4pcs.) (15) Front cover.
The armature, thrust washers (4pcs.). front cover and the yoke assembly can be disassenbled once the rear cover.
Fig. 82
11
12
\
Fig. 83
-
15
J
Fig. 84
- 54 -
9 \L 1 1 12 15 14 13 14
I
'2 2 0 d3 nlmml
8 9 5 6 \ 4
Fig. 85
1. The 6 m m terminal nuts (2pcs.) 2. "M" terminal bush No,1 3. The 5mm through bolts (2pcs.) 4. The Rear cover 5. The 4 m m screws (2pcs.) 6. The brush holder 7. "M" Terminal bush No, 2 8. Yoke assembly
9. The pinion stopper clip 10. Pinion stopper 1 1. Pinion return spring 12. Pinion assembly 13. Armature 14. Thrust washers (4pcs.) 15. Front cover
- 55 -
9-2-2 INSPECTION AND REPAIR (1 ) ARMATURE
a) Check the diameter of the commutator. If the out side diamaeter of the commu- tator is below the minimum Iimit then replace it.
Unit : mm
I Standard (New) I Limit (Used) I 30 29
b) Continuity test for the armature coil. Use a tester to check for continuity between parallel points on the commutator. If There is continuity, the armature is still good. No continuity : (Disconnected coil)
Replace the arma ture.
c) Insulation test for the armature coil. Use a tester to check for continuity between a point on the commutator and the shaft or the core. If There is no continuity, the armature is still good.
- Continuity exists : (Short circuited coil) Replace the armature.
Fig. 86
TESTER
Fig. 87
TESTER
,o, Fig. 88
- 56 -
d) Check for Surface Distortion on the Arma- ture and the Commutator. Use a dial gauge to measure the distortion of the out side surfaces of the armature core and the commutator. If it is above the limit, then repair or replace it.
Unit : mm
I I Standard (New) 1 Limit (Used) 1 I Armature I 0.05 (Max.) [ 0.1- ( M a x 7
Commutator I 0.05 (Max.) 1 OK (Max.) 1
Q 0 COMMUTATOR
I
Fig. 89
e) Check the Surface of the Commutator. If the commutator surface is rough, then please use No, 500-600 sandpaper to make it smooth.
Fig. 90
f> Check the Depth of the Insulating Material from the Commutator Surface. If the depth of the insulating material from the commutator segments is less than the limit, then please repair it by filing it down.
Unit : mm
Standard (New) Limit (Used)
0.5-0.8 0.2 (Min.) A
INSULATOR
?n+ 0.5-0.8 mrn
COMMUTATOR SEGMENTS
CORRECT
1R-T INCORRECT
Fig. 91
- 57 -
(2) BRUSH Measure the length of the brushes and if they are under the limit, replace them.
Unit : mm
Brush
Positive side brush
Negative side brush
Fig. 92
(3) BRUSH HOLDER a> Insulation Test for the Brush Holder.
Check for continuity between the brush holder's top (Positive side) and its base (Negative side). If there is no continuity then i t is still good. Continuity Exists : (Unsatisfactory
Insulation) Replace the brush hold- er.
b) Inspection of the Brush Springs. Check the weight of the brush springs.
Fig. 93
I Fig. 94
- 58 -
(4) PINION CLUTCH Inspection of the pinion clutch. Rotate the pinion manually. While rotating it in the direction of normal operation, smoothly reverse the direction of rotation to confirm that it locks. In the event of any irregularity, replace it.
Fig. 95
9-2-3 REASSEMBLY Reassembly is in the revrse order of disassembly, however please note the following points. (1) The Places to Apply Grease :
The sliding surfaces of the pinion and the shaft’s spline. The metals holding the shaft at the front and rear covers.
- 59 -
10. TROU8LESHOOTtNG
The following three conditionts must be fulflled for satisfactory engine start. 1. The cylinder filled with a proper fuel- air mixture. 2. Good compression in the cylinder. 3. Good spark, properly timed, to ignite the mixture. The engine cannot be started unless these three conditions are met. There are also other factors which make engine start difficult, e. 8.. a heavy load on the engine when it is about to start at low speed, and a high back pressure due to a long exhaust pipe. The most common causes of engine troubles are given below :
10- 1 STARTING DIFFICULTIES
10-1 - 1 FUEL SYSTEM ( 1 ) No gasoline in the fuel tank ; or the fuel co*ck closed. (2) The carburetor is not choked sufficiently especially when the engine is cold. (3) Water, dust or gum in the gasoline iterfering the fuel flow to the carburetor. (4) Inferior grade gasoline or poor quality gasoline not vaporized enough to produce the correct
fuel - air mixture. (5) The carburetor needle valve is heldopen by dirt or gum. This trouble can be detected as
the fuel flows out of the carburetor when the engine is idling.(Overflow) This trouble may be remedied by lightly tapping the float chamber with the grip of a screwdriver or the like.
(6) If the carburetor overflows, excessive fuel runs into the cylinder when starting the engine, making the fuel-air mixture too rich to burn. If this happens, remove the spark plug, and turn the starting pulley a few turns in order to let the rich fuel-air mixture out of the spark plug hole into the atmosphere. Keep the choke valve open during this operation. Dry the spark plug well, screw it into place, and try to start again.
10- 1 - 2 COMPRESSION SYSTEM If starting difficultes and loss of power are not due to the fuel system or ignition system, the followings must be checked for possible lack of compression. (1) Engine inside is completely dried up because of a Iong period of storage. (2) Loose or broken spark plug. This causes a hissing noise made by mixture gas running out
(3) Damaged head gasket or loose cylinder head. A similar hissing noise is produced during
(4) -Incorrect Valve clearance
of cylinder in compression stroke during cranking.
compression stroke.
If the correct compression is not obtained even after remedying the above, disassemble the engine and check further as follows : a) Valve stuck open due to carbon or gum on the valve stem. b) If the piston rings are stuck on the piston, remove the piston and connecting rod from
the engine. Clean or replace the parts.
- 60 -
10- 1 - 3 IGNITION SYSTEM Check the followings for lack of sparks. (1) Wires of the ignition coil, spark plug or contact breaker disconnected. (2) Ignition coil damaged and shorted. (3) Spark plug cable wet or soaked with oil. (4) Spark plug dirty or wet. (5) Spark plug electrode gap incorrect. (6) Spark plug electrodes are connected or bridged. (7) Incorrect spark timing.
10- 2 ENGINGE MISFIRES
(1) Incorrect spark plug electrodge gap. Adjust it to anywhere between 0.7 and 0.8mm. (2) Ignition cable worn and leaking. (3) Sparks weak. (4) Ignition wire connections loose. (5) Water in gasoline. (6) Insufficient compression.
10-3 ENGINE STOPS
(1) Fuel tank empty. Water, dirt, gum, etc. in gasoline. (2) Vapor lock, i. e., gasoline evaporating in the fuel lines due to overheat around the engine. (3) Vapor lock in the fuel lines or carburetor due to the use of too volatile winter gas in the
(4) Air vent hole in the fuel tank cap plugged. (5) Bearing parts seized due to lack of oil. (6) Magneto or ignition coil faulty.
hot season.
10- 4 ENGINE OVERHEATS
(1) Crankcase oil level low. Add oil immediately. ( 2 ) Spark timing incorrect. (3) Low grade gasoline is used, or engine is overloaded. (4) Cooling air circulation restricted. (5) Cooling air path misdirected causes loss of cooling efficiency. (6) Cylinder head cooling fins clogged up with dirt. (7) Engine operated in an enclosed space without sufficient cooling air. (8) Exhaust gas discharge restricted, or carbon deposits in the combustion chamber. (9) Engine running on low-octane gaoline detonates due to heavy load at low speed.
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10-5 ENGINE KNOCKS
(i) Poor quality gasoline. (2) Engine operating under heavy load at low speed. (3) Carbon or lead deposits in the cylinder head. (4) Spark timing incorrect. (5) Loose connecting rod bearing due to wear. (6) Loose piston pin due to wear. (7,) Cuases of engine overheat.
10- 6 ENGINE BACKFIRES THROUGH CARBURETOR
(1) Water or dirt in gasoline, or low- grade gasoline. (2) Intake valve stuck. ( 3 ) Valves overheated, or hot carbon particles in the combustion chamber. (4) Engine cold.
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11. INSTALLATION
Engine life, ease of maintenance and inspection, frequency of checks and repairs, and operating cost all depend on the way in which the engine is installed. Review the following instructions carefully for installing the engine.
11 - 1 INSTALLING
When mounting the engine, carefully examine its position, the method of connecting it to a machine, the foundation, and the mehtod of supporting the engine. When determining its mounting position, in particular, make sure that gasoline and oil can easily be supplied and checked, the spark plug can easily be checked, the air cleaner can easily be serviced, and that the oil can easily be discharged.
11 - 2 VENTILATION
Fresh air is necessary for cooling the engine and burning the fuel. In the case the engine is operated under a hood or in a small room, temperature rise in the engine room can cause vapor lock, oil deterioration, increased oil consumption, loss of power, piston seizure, shorter engine life, etc., making it impossible to operate the engine properly. It is necessary, therefore, to provide a duct or baffle to guide cooling air to the engine to prevent recirculation of he hot air used for engine cooling, and temperature rise of the machine. Keep the engine room temperature below 50°C even in the hottest period of the year.
11 - 3 EXHAUST GAS DISCHARGE
Exhaust gas is noxious. When operating the engine indoors, be sure to discharge the exhaust gas outdoors. If a long exhaust pipe is used in such a case, the internal resistance increases causing loss of engine power. Thus pipe inside diameter must be increased in proportion to exhaust pipe length.
Exhaust pipe :Less than 3m long, pipe inside diameter 30mm, Less than 5m long, pipe inside diameter 33mm.
11 - 4 POWER TRANSMISSION TO DRIVEN MACHINES
11 -4- 1 BELT DRIVE Take the following notes into consideration. * V- belts are preferable to flat belts. * The driving shaft of the engine must be parallel to the driven shaft of the machine. * The driving pulley of the engine must be in line with the driven pulley of the machine. * Install the engine pulley as close to the engine as possible. * If possible, span the belt horizontally. * Disengage the load when starting the engine. If no clutch is used, use a belt tension pulley or the like.
11 -4 -2 FLEXfBLE COUPLING When using a flexible coupling, runout and misalignment between the driven shaft and engine shaft must be minimized. Runout and misalignment tolerance are specified by the coupling manufacturer.
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12. SERVICE DATA
12- 1 CLEARANCE DATA AND LIMITS
Unit : mm (in)
ITEM
CYLINDER HEAD Flatness
Valve seat contact width
Valve guide inside dia.
IN. EX.
T ~EH%/EH34
i Limit
0.05 (0.002)
0.1 (0.004)
0.7-1 .O (0.028-0.039)
2.0 (0.079)
6.600-6.622 (0.260-0.261 1
6.75 (0.266)
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Unit : mm (in)
I EH30 I EH34
CYLlNDER 0 Inside dia.
Roundiness after reboring.
8 Cylindricity after reboring.
PISTON Q Piston size (At skirt in thrust
direction)
I STD
78.000-78.01 9 (3.071 "3.072)
STD
I 1 s t 78.250-78.269
reboring (3.081 -3.082)
2nd 78.500-78.51 9 reboring (3.091 -3.092)
0.0 1 (0.004)
0.01 5 (0.0006)
77.96-77.98 (3.069-3.070)
STD
78.21 -78.23 (3.079-3.080)
st O''
I 2nd o/s
78.46-78.48 (3.089-3.090)
Lmit
To be rebored when the difference between max. and min. of diameter reached to 0.1 (0.004).
SBD
84.000-84.022 (3.307-3.308)
Ditto 84.250-84.272 (3.31 7-3.31 8)
84.500-84.522 (3.327-3.328)
0.01 (0.004)
0.0 1 5 (0.0006)
77.87 83.96-83.98 (3.066) (3.305-3.306)
78.1 2 84.21 -84.23 (3.076) (3.31 5-3.31 6)
78.37 84.46-84.48 (3.085) (3.325-3.326)
Lmit
To be rebored when the difference between max. and min. of diameter reached t o 0.1 (0.004).
Ditto
83.87 (3.302)
84.1 2 (3.31 2)
84.37 (3.322)
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Unit : mm (in)
EH30 EH34 ITEM
Ring groove side clearance Limit STD Limit STD
0.05-0.09 (0.002-0.0035)
0.1 5 (0.006)
0.05-0.09 (0.002-0.0035)
0.1 5 (0.006) TO D
0.03-0.07 '0.001 2-0.0028:
0.93-0.07 0.001 2-0.0028>
0.1 5 (0.006)
0.1 5 (0.006)
0.1 5 (0.006)
2nd
Oil ring 0.01 -0.065 0.0004-0.0026:
0.1 5 (0.006)
0.01 -0.065 :0.0004--0.0026:
20.995-21.008 '0.8266-0.8271:
Pis ton pin hole
2 1.035 (0.8281
20.995-21.008 0.8266-0.8271
2 1.035 (0.828 1
Pistcm pin outsldn dta.
20.960 (0.8251 )
20.991 -21 .OOO 0.8264-0.8268;
20.960 (0.825 1 )
20.99 1 " 2 1 .OOO :0.8264--0.8268:
0.025--@.@64 :0.001 G-".0025
0.2-0.4 (0.0079-0.01 57
-
0.1 -4.3
Clearance between piston and cylinder at skirt area.
U.rJ25."-,0.067 :0.0010-0.0026:
0.25 (0.0098)
1.5 io.0091
_. . _. . . "
1.5 (0.0591
i
-1- I
, /
i i 'I
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Unit : mm (in)
1 STD
CONNECTING ROD Big end inside dia.
Clearance between big end and crankpin
Small end inside dia.
Clearance between small end and piston pin
Big end side clearance
I
CRANKSHAFT
38.000-38.01 6 ( 1 -496 1 - 1 -4967)
0.030-0.060 (0.00 1 2-0.0024)
21.010-21.023 (0.8272-0.8277)
0.01 0-0.032 (0.0004-0.001 3)
0.1 -0.3 (0.0039-0.01 18)
37.956-37.970 (1 -4943- 1.4949)
34.986-34.997 (1.3774- 1.3778)
I Clealance between I 1 journal and main bearing
. . ..: . ,
.. .
- 0.009-0.01 4 (- 0.00035-0.00055)
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Limit
0.2 (0.0079)
21.080 (0.8299)
0.1 2 (0.0047)
1 .O (0.0394)
37.85 (1.4902)
Unit : mm (in)
T EH30/EH34
I ITEM STD Limit
CAMSHAFT 0 Cam height 36.1 "36.3
(1.4213-1.4291) 35.95 (1.41 54)
IN.EX. cams
19.967- 19.980 (0.7861 -0.7866)
19.950 (0.7854)
6.450 (0.2539)
VALVE * Valve stem outside dia. 6.535-6.550
(0.2573-0.2579) IN.
6.522-6.544 (0.2568-0.2576)
6.450 (0.2539) EX.
Clearance between valve guide
valve stem dia. and
0.050-0.087 (0.0022-0.0034)
~ - .
. .
0.30 (0.01 1 8) IN.
EX. 0.056-0.1 00
(0.0022-0.0039) 0.30 (0.01 1 8)
IN./EX. (cold)
0.085-0.1 15 (0.0034-0.0045)
Unit : mm (in)
ITEM r
TAPPET 0 Stem outside dia.
Guide inside dia.
0 Tappet guide clearance
ROCKER ARM
Rocker arm hole dia.
Rocker arm shaft clearance
VALVE SPRING FREE LENGTH
EH30/EH34 STD
8.960-8.975 (0.3528-0.3533)
9.00-9.01 5 (0.3543-0.3549)
0.025-0.055 (0,001 0-0.0022)
1 1.986-1 1.994 (0.471 9-0.4722)
1 2.006- 1 2.024 (0.4727-0.4734)
0.01 2-0.038 (0.0005-0.001 5)
39.5 (1.5551 )
1 Limit
8.93 (0.351 6)
9.08 (0.3575)
0.1 5 (0.0059)
1 1.92 (0.4693)
12.07 (0.4752)
0.1 5 (0.0059)
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Unit : mm (in)
ITEM
VALVE SEAT ANGLE (IN. EX.) 0 Valve cutter angle (a) 0 Valve contact width (b)
12- 2 TORQUE SPECIFICATIONS
EH30/EH34 STD
a : 90" b : 0.7-1.0
(0.028-0.039)
Limit
2.0 (0.079)
~
DESCRIPTION
~~~
TIGHTENING TORQUE
kg cm I I N m f t Ib ~~ ~~
Cylinder head bolts
61.5-68.7 83.4-93.2 850-950 Flywheel nut
16.3- 19.9 22.1 -27.0 225-275 Connecting rod cap bolts
24.6-30.4 33.3-4 1.2 340-420
~ ~~~ ~ ~~~~ ~~
Main bearing cover bolts
16.6- 19.5 22.6-126.5 230-270 Retightening
8.7- 10.9 1 1.8- 14.7 120-150 New spark plug
12.3-13.7 16.7-18.6 170- 190
Spark plug
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12-3 OIL GRADE CHART
Specified Lubricant aualitv
Single grade
Multi- grade
Comparison between oil viscosity and temparature t
- 20 - 10 0 10 20 30 4oT - 4 14 32 50 68 86 104°F
Use oil classified as SC or higher. Multi-grade oil tends to increase its consumption at high ambient temperature.
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13. MAINTENANCE AND STORAGE
The following maintenance jobs apply when the engine is operated correctly under normal conditions. The indicated maintenance intervals are by no means guarantees for maintenance free operations during these intervals. For example, if the engine is operated in extremely dusty conditions, the air cleaner should be cleaned every day instead of every 50 hours.
13- 1 DAILY MAINTENANCE
MAINTENANCE
1) Clean away dust and chaff from engine.
2) Check fuel leakage from fuel system. If any, retighten fasteners or replace necessary parts.
3) Inspect for loose hardwares and retighten if necessary.
4) Check oil level and add to full mark.
REMARKS
Governor linkage is especially sensitive to dust.
Loose bolts and nuts may come off and result in breakage of other parts.
13-2 INITIAL 20 HRS. MAINTENANCE
MAINTENANCE
To remove sludge from run- in operation. 1) Change crankcase oil.
REMARKS
13-3 EVERY 50 HRS. (10 DAYS) MAINTENANCE
I MAINTENANCE REMARKS
1) Change crankcase oil.
2) Clean air cleaner.
Contaminated oil quickens wear.
If dirty, wash in gasoline or polish w i t h emery paper. 3) Check and clean spark plug.
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13-4 EVERY 1 OQ"280 HRS. (MONTHLY) MAINTENANCE
REMARKS I ~~~ ~
1) Clean fuel filter and fuel tank.
2) Inspect cooling system and remove Remove blower housing and clean up between fins and dirt and chaff. housing.
43-5 EVERY 500-600 HRS. MAINTENANCE
I MAINTENANCE REMARKS I I head. I power. I
2) Disassemble and clean carburetor
13- 6 EVERY 1000 WRS. (YEARLY) MAINTENANCE
I MAINTENANCE REMARKS
I 1) Overhaul engine. Clean and correct parts. Replace piston rings and other necessary parts.
I 2) Replace fuel lines once a year. I Avoid hazards caused by fuel leakage.
(1) Perform the above 13- 1 and 13 - 2 maintenance jobs. (2) Drain fuel from the fuel tank and carburetor float chamber. (3) To prevent rust in the cylinder bore, apply oil through the spark plug hole and turn the
(4) Turn the starting pulley by hand and leave i t where the resistance is the heaviest. (5) Clean outside of the engine with oiled cloth. (6) Put a plastic cover or the like over the engine and store the engine in dry place.
crankshaft several turns by hand. Reinstall the plug.
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Industrial Engines