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TVS – 811 Series Trap Valve Station Installation, Operation and Maintenance Instructions

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Filed Under (TVS) by admin on 29-04-2012

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In a piston valve, the control of stem and seat leakage is obtained by tightness of the valve sealing rings to the body and valve plug. The bonnet compresses the valve sealing rings against the body and the valve plug. Flexible disc springs automatically assure a tight seal by exerting pressure on the valve sealing rings, keeping them compressed. Opening and Closing the TVS Isolation Valves The isolation valve begins to stop flow when the valve plug enters the lower valve sealing ring. When the isolation valve is completely closed, the valve plug is in contact with the full height of the valve sealing rings, ensuring the best possible seal. In fact, there is no advantage to be gained in torqueing the valve closed. Armstrong recommends that after closing the isolation valves completely, the handwheel should be turned back one half turn. This makes it easy to re-open the valve by avoiding metal to metal seizure. Troubleshooting – Isolation Valves A piston valve will retain its leak tightness for several years without maintenance. In severe service, such as rapid heating and cooling, some field maintenance may be required. Depending on the problem, these simple steps may help: ! ! ! ! ! Isolation Valve leaks, when the valve is closed . First, Check to make sure the valve is actually closed . Check to see if bonnet is seated on the body, if not, tighten the bonnet nuts until the bonnet seats. This recompresses the valve sealing rings against the body and the valve plug. If valve continues to leak, replace the isolation valve assembly

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CYLINDER HEAD REPAIR MANUAL

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Filed Under (Tips and Review) by admin on 28-10-2010

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ADJUSTABLE CYLINDER HEAD STAND Head can be rotated 360 degrees. Stays in any position using a simple locking mechanism. Use on twin or four cylinder heads. Shipping weight: 14 lbs. Adjustable length-10-1/2″ to 20-1/2″ long x 14″ width x 10-3/4″ high. 35-8602 Cylinder Head Stand VALVE GUIDE DRIVERS Use for removal and installation of valve guides into cylinder head. Available in the following sizes: 35-8418 4.5mm YM-4116 35-8416 6mm YM-4064-A 35-8417 5mm YM-4097 35-8414 7mm YM-1225-A 35-8408 5.5mm YM-1122 35-8413 8mm YM-1200 VALVE GUIDE DRIVER SET (REMOVE & REPLACE) Designed for speed and accuracy, this eleven piece set provides the right tool for the job. Driver set includes two valve guide drivers (5.5mm and 6.6mm), four valve guide installers, one cutter, three cutter pilots (5.5mm, 6.6mm, and 7.7mm) and one tap handle extension bar. 35-9445 Valve Guide Driver Set YAMAHA VALVE GUIDE INSTALLERS These installers are used for installation of Yamaha shoulder less valve guides to a specific depth into the cylinder head. To use, position onto the valve guide and drive into the cylinder head until installer makes contact with cylinder head surface. Note: Must use with Valve Guide Driver. Available in the following sizes: 35-8439 4.5mm YM-4117 35-8437 5.0mm YM-4098 35-8419 5.5mm YM-4015 35-8435 6mm YM-4065-A 35-8423 7mm YM-4017 VALVE GUIDE REAMERS Reaming valve guides after installation assures a proper valve stem to valve guide fit. Available in the following sizes: 35-3829 4.5mm YM-4118 35-3851 7mm YM-1227 35-3836 5.5mm YM-1196 35-3852 8mm YM-1211 35-3847 6mm YM-4066 CLOVER VALVE LAPPING COMPOUND KIT The world famous green can with the four leaf clover. For seating valves, mating gears, and sharpening. Sold as a kit with coarse 120 grit (roughing) and 280 fine grit (finishing). 35-0309 Clover Valve Lapping Compound VALVE LAPPING TOOL The ultimate vacuum stick for insuring perfect surfaces on valves and valve seats. Interchangeable cups make unit suitable for use with virtually any size valve. Set includes vacuum stick, 3/4″ and 1/4″ diameter rubber cups. 35-8998 Valve Lapping Too

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1998 YAMAHA YZF-R6 SERVICE MANUAL

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Filed Under (Yamaha) by admin on 25-11-2010

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Camshafts Drive system Camshaft cap inside diameter Camshaft journal diameter Camshaft-journal-to-camshaftcap clearance Intake camshaft lobe dimensions Measurement A Measurement B Measurement C Exhaust camshaft lobe dimensions Measurement A Measurement B Measurement C Max. camshaft runout Chain drive (right) 23.000 23.021 mm 22.967 22.980 mm 0.020 0.054 mm 33.05 33.15 mm 25.14 25.24 mm 7.81 8.01 mm 32.55 32.65 mm 25.07 25.17 mm 7.38 7.58 mm 0.08 mm 33.0 mm 25.09 mm 32.50 mm 25.02 mm 0.06 mm
2-5 ENGINE SPECIFICATIONS SPEC Head Diameter Face Width Seat Width Margin Thickness Item Standard Limit Timing chain Model/number of links Tensioning system RH2015/120 Automatic Valves, valve seats, valve guides Valve clearance (cold) Intake Exhaust Valve dimensions 0.11 0.20 mm 0.21 0.30 mm Valve head diameter A Intake Exhaust Valve face width B Intake Exhaust Valve seat width C Intake Exhaust Valve margin thickness D Intake Exhaust Valve stem diameter Intake Exhaust Valve guide inside diameter Intake Exhaust Valve-stem-to-valve-guide clearance Intake Exhaust Valve stem runout Valve seat width Intake Exhaust 24.9 25.1 mm 21.9 22.1 mm 1.14 1.98 mm 1.14 1.98 mm 0.9 1.1 mm 0.9 1.1 mm 0.6 0.8 mm 0.6 0.8 mm 3.975 3.990 mm 3.960 3.975 mm 4.000 4.012 mm 4.000 4.012 mm 0.010 0.037 mm 0.025 0.052 mm 0.9 1.1 mm 0.9 1.1 mm 1.6 mm 1.6 mm 0.5 mm 0.5 mm 3.950 mm 3.935 mm 4.042 mm 4.042 mm 0.08 mm 0.1 mm 0.04 mm 1.6 mm 1.6 mm
2-6 ENGINE SPECIFICATIONS SPEC Item Standard Limit Valve springs Free length Intake (inner) (outer) Exhaust Installed length (valve closed) Intake (inner) (outer) Exhaust Compressed spring force (installed) Intake (inner) (outer) Exhaust Spring tilt Intake (inner) (outer) Exhaust Winding direction (top view) Intake Exhaust 37.0 mm 38.4 mm 41.7 mm 30.0 mm 32.5 mm 36.1 mm 69 79 N (7.0 8.0 kgf) 114 132 N (11.6 13.4 kgf) 160 184 N (16.3 18.7 kgf) Clockwise Clockwise 35 mm 36.5 mm 39.5 mm 2.5/1.6 mm 2.5/1.7 mm 2.5/1.8 mm Cylinders Cylinder arrangement Bore stroke Compression ratio Bore Max. taper Max. out-of-round Forward-inclined, parallel 4-cylinder 65.5 45.5 mm 12.4 : 1 65.50 65.51 mm 0.05 mm 0.05 mm

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2009 GAS GAS TXT PRO TECHNICAL SPECIFICATIONS AND OWNER'S MANUAL

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Filed Under (Gas Gas) by admin on 28-11-2010

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ENGINE 2 stroke, single cylinder, direct reed valve crankcase induction. Liquid cooled. 125 cc. engine Cylinder size 124,8 cc. Bore and stroke 54 x 54.5 mm. 200 cc. engine Cylinder size 175,3 cc. Bore and stroke 64 x 54,5 mm. 250 cc. engine Cylinder size 247,7 cc. Bore and stroke 72,5 x 60 mm. 280 cc. engine Cylinder size 272,2 cc. Bore and stroke 76 x 60 mm. 300 cc. engine Cylinder size 294,1 cc. Bore and stroke 79 x 60 mm. Carburettor, diameter of the diffusor 26 Lubrication system Mixture (50:1)(2%) Ignition system Digital magnetic flywheel CDI TRANSMISSION Transmission type 6 gears, Four / Six system by GAS GAS* (Patented). Clutch type Hydraulic command, 1/3 discs, variable progressive with diaphragm system by GAS GAS* (Patented). Driving system By chain Gear ratio 1st. 2,996 (35x27x28/16x24x23) 2nd. 2,571 (36/14) 3th. 2,187 (35/16) 4st. 2,112 (36x23x24/14x28x24) 5st. 1,125 (27/24) 6th. 0,821 (23/28)
-11- Primary reduction ratio 2,777 (75/27) Final reduction ratio 3,818 (42/11) Overall drive ratio 8,704 (6th. gear) Transmission oil Capacity 550 cc. Type 10W40 API SF o SG. FRAME Type Tubular profile made with Cr-Mo. Tyres Front 2,75 x 21″ Trial Rear 4,00 x 18″ Trial tubeless. Suspension Front Adjustable tele-hydraulic fork ø 40 mm. (125 / 200). Adjustable tele-hydraulic fork ø 40 mm with aluminium bars (250 / 280 / 300) Rear Variable progressive system with mono-shock multiadjustable. Suspension stroke Front 177 mm. Rear 164 mm. Front fork oil SAE 5. Front fork oil level ø 40 mm.(125 / 200) 180 mm. air chamber steel bar ø 40 mm. (250 / 280 / 300) 160 mm. air chamber aluminium bar BRAKES Type Disc brake. Disc diameter Front ø185 mm. 4 piston calipers. Rear ø150 mm. 2 piston calipers. DIMENSIONS Overall height 1180 mm. Overall width 820 mm. Seat height 650 mm. Ground clearance 315 mm. Wheelbase 1330 mm. Fuel tank capacity 3,1 liters.

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HARLEY DAVIDSON LOCKING FUEL FILLER CAP KIT REMOVAL AND INSTALLATION INSTRUCTIONS

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Filed Under (Harley Davidson) by admin on 11-02-2011

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INSTALLATION 1. Prior to installing the gas cap on the vehicle, insert the key into the lock. Firmly grasp the chrome top of the fuel cap and turn the key until it stops. On right hand threaded fuel caps, turn the key counter-clockwise until it stops. On left hand threaded fuel caps, turn the key clockwise until it stops. This assures an unlocked position for the gas cap. Allow the key to return to the neutral position. 2. Remove the key and install the fuel cap on the vehicle. is00770 Figure 1. Right Hand Threaded Fuel Cap Installation NOTE When installing the fuel cap, rotate the cap one full turn past the audible click. This automatically positions gas cap to lock position. A properly locked/installed gas cap will rotate freely in both directions. Failure to do so will give an incorrect assumption that the fuel cap does not work properly. REMOVAL On right hand threaded fuel caps, insert key, and while holding the gas cap in place with hand, turn key counterclockwise until it stops, return key to original position. Gas cap must rotate 270 degrees counter-clockwise before mechanism engages to allow gas cap removal. Continue to rotate counterclockwise to fully remove gas cap. On left hand threaded fuel caps, insert key and while holding the gas cap in place with hand, turn key clockwise until it stops, return key to original position. Gas cap must rotate 270 degrees clockwise before mechanism engages to allow gas cap removal. Continue to rotate clockwise to fully remove gas cap. REPLACEMENT KEYS Record the 4 digit key number stamped on the back of the key opposite the Harley-Davidson logo, in the area provided below. If a replacement key is needed, see your Harley-Davidson Dealer with the 4 digit number to order a replacement

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BUELL ACCESSORY GAS CAP KIT INSTALLATION MANUAL

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Filed Under (Buell) by admin on 29-03-2011

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Installation NOTE When performing the following Steps, use the Fuel Tank Vent Valve Installation Kit (Part Number 91432-96Y). This kit consists of: * Fuel Tank Vent Valve Installation Aid * Fuel Tank Vent Valve Fitting Socket To protect against shock and accidental start-up of vehicle, disconnect the battery cables, negative cable first, before proceeding. Inadequate safety precautions could result in death or serious injury. Always disconnect the negative battery cable first. If the positive battery cable should contact ground with the negative cable installed, the resulting sparks may cause a battery explosion which could result in death or serious injury. 1. Disconnect battery cables, negative cable first. An open flame or spark may cause a fuel tank explosion if all traces of fuel are not purged from the tank. Use extreme caution when servicing fuel tanks. Gasoline is extremely flammable and highly explosive. Do not smoke or allow open flame or sparks anywhere in the area when working on fuel system components. Inadequate safety precautions could result in death or serious injury. 2. Remove gas cap. 3. Carbureted Models: Drain fuel tank. Disconnect hose clamp and fuel supply hose from fuel supply valve and drain fuel into suitable, clean container. See applicable Service Manual, Section 4 for complete, detailed procedure. Fuel Injected Models: Relieve pressure from fuel system. See applicable Service Manual, Section 4 for complete, detailed procedure. Drain fuel tank. a. Using suitable external fuel pump, such as a Gas Caddy, pump fuel from tank and into a suitable, clean container. b. See instructions for external fuel pump for correct use. 4. See Figure 1. Cut cable tie securing vent hose to fitting and remove vent hose from fuel tank. Even with the fuel tank completely drained, a small amount of gasoline may leak from the bore when the fuel supply valve is loosened or removed. Thoroughly wipe up any fuel immediately and dispose of rags in a suitable manner. Gasoline is extremely flammable and highly explosive. Inadequate safety precautions could result in death or serious injury. 5. If the fuel supply valve requires cleaning or repair, refer to applicable Service Manual, Section 4, for complete, detailed procedures. 6. See Figure 1. Remove the fuel filler cap and O-ring. 7. Remove the eight self-tapping screws from fuel clamp flange and remove fuel cap flange

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HARLEY DAVIDSON CLUTCH CABLE ASSEMBLY INSTALLATION MANUAL

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Filed Under (Harley Davidson) by admin on 05-03-2011

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36753-87A This kit fits 1987 and later FXLR model motorcycles. 36755-87A This kit fits 1987 and later FXRS/SP model motorcycles. 38601-89 This kit fits 1988 and later FLTC, FLTC-Ultra, FLHS, FLHTC FLHTC-Ultra and FLHTP model motorcycles. 38606-87A This kit fits 1987 and later FXR, FXRS and FXRT model motorcycles. 38607-87A This kit fits 1987 and later FLST, FXST, FXSTC, FXRP, FLTC, FLHT, FLHTP and FLHTC model motorcycles. 38617-95 This kit fits 1995 and later FXSTSB model motorcycles. 38647-98 This kit fits 1998 and 1999 FXSTB model motorcycles. 38661-00 This kit fits2000 and later FXDL, FXDS-CONV and FXDWG model motorcycles. 38664-00 This kit fits2000 and later FXSTD model motorcycles. 38665-00 This kit fits2000 and later FXSTB model motorcycles. 38666-00 This kit fits2000 and later FXSTS, FLSTS, FLSTC, FLSTF, FXDX, FXD and FXST model motorcycles. 38667-00 This kit fits 2000 and later FLTR, FLTRI, FLHT, FLHTC, FLHTCI, FLHTCUI, FLHR, FLHRI, FLHRCI and FLHP model motorcycles. 38672-01 This kit fits 2001 and later FXDWG2 model motorcycles. Kit Contents: QTY DESCRIPTION 1 O-ring, rubber 1 Cable, clutch 1 Pin, cable pivot 1 Grommet (Kit no. 38607-87A, 38660-00A and 38667-00 only) Installation NOTE A Service Manual for your motorcycle is available from your Harley-Davidson dealer. A SERVICE MANUAL IS NEEDED TO INSTALL THIS KIT. The rider’s safety depends upon the correct installation of this kit. If the procedure is not within your capabilities or you do not have the correct tools, have your Harley-Davidson dealer perform the installation. Improper installation of this kit could result in death or serious injury. 1. Refer to the Service Manual for your motorcycle model. Screw the cable adjuster all the way in to allow for maximum cable free play. 2. Remove clutch hand lever from hand-lever bracket at pivot pin. Remove original clutch cable from hand lever and transmission. Retain anchor pin bushings. 3. See Figure 1. Install lever end of new clutch cable. Position cable eyelet in clutch lever slot. Retain with new cable pivot pin through original bushings. NOTE See Figure 2. When routing cable on models where clutch cable passes through inner fairing (FLHTC, FLHTC-U and FLHTP with fairing), clutch cable eyelet may be too large to pass through clutch cable access hole in fairing. If this is the case, use the template supplied with this sheet to file out a hole to accommodate the new eyelet. Place the grommet included with kit no. 38607-87A, 38660-00A, and 38667-00 in the hole after filing. 4. Secure the clutch lever in the lever bracket with the lever pivot pin and retaining ring. 5. Follow steps outlined in the applicable Service Manual and install the transmission-end of the new cable with O- ring. 6. Adjust clutch cable according to procedure in Service Manual.

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2003 SUZUKI SV 650 FUEL SYSTEM AND THROTTLE BODY SERVICE MANUAL

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Filed Under (Suzuki) by admin on 26-02-2011

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FUEL PUMP The electric fuel pump is mounted at the bottom of the fuel tank, which consists of the armature, magnet, impeller, brush, check valve and relief valve . The ECM controls its ON/OFF operation as controlled under the FUEL PUMP CONTROL SYSTEM . When electrical energy is supplied to the fuel pump, the motor in the pump runs and together with the impel- ler . This causes a pressure difference to occur on both sides of the impeller as there are many grooves around it . Then the fuel is drawn through the inlet port, and with its pressure increased, it is discharged through the outlet port . The fuel pump has a check valve to keep some pressure in the fuel feed hose even when the fuel pump is stopped . Also, the relief valve is equipped in the fuel pump, which releases pressurized fuel to the fuel tank when the outlet of the fuel pressure has increased up to 450 -600 kPa (4.5- 6.0 kgf/cm2,64- 85 psi) . Relief valve Brush , ∎ I,’ Check valve Magnet L Armature When the impeller is driven by the motor, pressure differential occurs between the front part and the rear part of the blade groove as viewed in angular direction due to fluid friction . This process continuously takes place causing fuel pressure to be built up . The pressurized fuel is then let out from the pump chamber and discharged through the motor section and the check valve . FUEL SYSTEM AND THROTTLE BODY 5- 3 Inlet port I I Impeller 5-4 FUEL SYSTEM AND THROTTLE BODY FUEL PRESSURE REGULATOR The fuel pressure regulator consists of the spring and valve . It keeps absolute fuel pressure of 300 kPa (3.0 kgf/cm2,43 psi) to be applied to the injector at all times . When the fuel pressure rises more than 300 kPa (3 .0 kgf/cm2, 43 psi), the fuel pushes the valve in the regulator open and excess fuel returns to the fuel tank . 90 Spring 02 Valve FUEL INJECTOR The fuel injector consists of the solenoid coil, plunger, needle valve and filter . It is an electromagnetic type injection nozzle which injects fuel in the throttle body according to the signal from the ECM. When the solenoid coil of the injector is energized by the ECM, it becomes an electromagnet and attracts the plunger. At the same time, the needle valve incorporated with the plunger opens and the injector which is under the fuel pressure injects fuel in conic dispersion . As the lift stroke of the needle valve of the injector is set constant, the volume of the fuel injected at one time is determined by the length of time during which the solenoid coil is energized (injection time)

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FLEXIBLE GAS PIPING DESIGN GUIDE and INSTALLATION INSTRUCTIONS

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Filed Under (S&S) by admin on 29-10-2010

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Definitions: Grounding : The process of making an electrical connection to the general mass of the earth. This is most often accomplished with ground rods, ground mats or some other grounding system. Low resistance grounding is critical to the operation of lightning protection techniques. Bonding : The process of making an electrical connection between the grounding electrode and any equipment, appliance, or metal conductor: pipes, plumbing, flues, etc. Equipment bonding serves to protect people and equipment in the event of an electrical fault. Equipotential Bonding : The process of making an electrical connection between the grounding electrode and any metal conductor: pipes, plumbing, flues, etc., which may be exposed to a lightning strike and can be a conductive path for lightning energy towards or away from the grounding electrode. 2. The National Fuel Gas Code NFPA 54/ANSI Z223 states, “Each above ground portion of a gas piping system upstream from the equipment shutoff valve shall be electrically continuous and bonded to any grounding electrode, as defined by NFPA 70, National Electrical Code ( ANSI/NFPA 70 1999 Edition.) 3. The TracPipe® gas piping system shall be bonded in accordance with the National Fuel Gas Code, NFPA 54/ANSI Z223. The piping system is not to be used as a grounding conductor or electrode for an electrical system. 4. For bonding of the TracPipe® system, a bonding clamp must be attached to the brass AutoFlare®fitting adapter (adjacent to the pipe thread area – see Figure 4-21) or to a black pipe component (pipe or fitting) located in the same electrically continuous gas piping system as the AutoFlare®fitting. The corrugated stain- less steel portion of the gas piping system SHALL NOT be used as the bonding attachment point under any circumstances. Bonding electrode conductor sizing shall be in accordance with Article 250 (Table 250-66) of ANSI/NFPA 70. The bonding is a requirement of the National Electrical Code

Lilac LS-18 Motorcycle Maintenance Standards

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Filed Under (Lilac) by admin on 25-11-2010

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CYLINDER AND CYLINDER HEAD MAINTENANCE ITEM STANDARD REPAIR LIMIT METHOD REMARKS Cylinder Bore 54 -0.01 54.1 Boring After boring honing should be performed Ovality 0.01 0.05 Boring After boring honing should be performed Taper 0.01 0.05 Boring After boring honing should be performed Oversize 0.25 steps 55 max. Do R and L cylinders at same time / 4 steps Valve Seat Width 0.8 – 1.0 1.3 Adjust Use a cutter Angle 45∞ Combustion Chamber Volume 18.2cc -0.5cc Remove carbon if heavy accumulation Compression Ratio 7.8:1 Head Gasket Thickness 1.0 Cylinder Head Nut Torque 3.0 kg/m (22 ft.-lb.) Out standard Adjust 8mm nut Intake and Exhaust Ports Port Wall SurfaceMust be smooth Remove carbon Intake and Exh. Valve GuidesOD 12 +0.09 +0.1 ID 7 +0.01 -0.0 7.06 Exchange Intake Valve Stem Diameter 7 -0.02 -0.03 6.9 Exchange Head Thickness 1 0.7 Exchange Exhaust Valve Stem Diameter 7 -0.02 -0.03 6.9 Exchange Head Thickness 1 0.7 Exchange Intake and Exhaust Valve Seat Face Width Range 0.8~1.0 1.3 Use valve seat cutter Intake Valve Guide Clearance 0.02~0.04 0.08 Replace valve or guide Exhaust Valve Guide Clearance 0.06~0.08 0.12 Replace valve or guide Valve Spring (Large) Installed Load 10.2 kg 8.7 kg Replace Fitted length 31.5 Free Length 36.5 34.7 Replace Tilt 1.5/100 3/100 Replace Valve Spring (Small) Installed Load 5.48 kg 4.65 kg Replace Fitted length 29.5 Page 4 of 10 Free Length 33.5 31.8 Replace Tilt 1.5/100 3/100 Replace Rocker Arm ID 12 +0.00 +0.02112.07 Replace Rocker Shaft OD 12 -0.06 -0.024 11.92 Replace Arm and Shaft Clearance 0.045~0.006 0.10 Replace arm or shaft Tappet Clearance 0.05 Out standard Adjust Measure cold at TDC Rocker Arm Ball Surface 1.8îR -0.006 -0.024 Replace if severe wear Pushrod Bend 0.1 0.5 Straighten Over 100mm (2) CRANKSHAFT, PISTON AND CONROD MAINTENANCE ITEM STANDARD REPAIR LIMIT METHOD REMARKS Piston OD @ Top 53.65 -0.02 Max Diameter 53.95 -0.015 53.85 Replace Ovality 0.1 Piston and Cylinder Clearance 0.04~0.05 0.15 Replace Piston Ring Groove Clearance 0.03~0.07 0.10 Replace Piston Oversize Step 0.25 4 steps Top Ring and 2nd Ring Thickness 2 -0.01 -0.03 1.92 Replace Width 2.5 -0.01 0.55kg Tension 0.85 – 1.15kg 1 Replace End Gap 0.15 – 0.35 Replace Oil Ring Thickness 3.2 -0.01 -0.03 3.12 Replace Width 2.5 -0.1 Tension 1.0~1.3kg 0.65kg Replace End Gap 0.15~0.35 1 Replace Ring Gap Position 120∞ 3 equal spacesOut standard Adjust Avoid Piston Pin Axis Ring Oversizes 0.25 steps 4 steps Piston Pin OD 15 -0.0 +0.006 14.95 Replace Pin Hole in Piston ID 15 +0.012 -0.015.05 Replace Pin and Piston Clearance -0.006 ~ +0.012 0.06 Replace Hand push fit piston at 100∞C Conrod Small End Bush ID 15+0.027+0.016 15.07 Replace bush Conrod and Piston Pin Clearance 0.01~0.027 0.07 Replace Crankpin OD 24.94 +0.0+0.0124.90 Replace Crankpin Roller OD 5 (+0.001+0.003) Refer to conrod ID Replace 3Sizes; 52 per assembly for selective fit 5 (+0.0 -0.002) 5 (-0.003 -0.005) Conrod ID 34.95+0.03+0.02435.02 Axial Play 0.2~0.4 0.5 Adjust Radial Play 0.026~0.036 0.06 Replace

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