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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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POLINI X1 GENERAL INFORMATION AND SPECIFICATIONS

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Filed Under (Polini) by admin on 02-12-2010

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Air cleaner – Clean and reoil daily or after each moto to prevent motor failure and reduced performance. Transmission oil – change after every race, or at end of riding day. Chain – check tension and lubricate before every ride, adjust or replace as needed. Reoil after riding in damp conditions. Clutch – disassemble and clean clutch assembly frequently, every 2-3 races at least. Inspect kickstarter gears at this time. Ignition cover – remove cover and wipe dry after each ride or after washing bike to remove condensation. Piston rings – replace as often as every 3-5 races with expert rider, less often with less aggressive riders. Piston, pin, rod bearing & circlips – replace as often as every 8-10 races with expert rider, less often with less aggressive riders. Coolant – change yearly, make sure there is at least a 50/50 mixture of antifreeze if freezing temperatures are possible. Steering bearings – Check daily for looseness or play. Adjust and regrease as needed. Swingarm – Check often for looseness. Regrease several times a year. Replace bushings if any play is evident. Sprockets – check for worn or curved teeth each time chain is adjusted. Chain roller& wear pads – check roller for free rotation when checking chain. Make sure roller is not bent or damaged. Check chain wear strips on swingarm and chain guide frequently. Replace as needed to prevent chain from damaging motorcycle. Spokes – Check after each race or after each day of riding for looseness or damage. Wheels & tires – check wheels after each race for dents, cracks or other damage. Check tires for cuts, damage or wear. Check tire pressure daily and adjust for riding conditions. Shock – Check shaft area daily for signs of oil leakage or damage. Check swingarm and shock bushings for looseness. Forks – Check forks daily for leaking oil or damage to tubes. Make sure forks are not twisted check for smooth operation. Spark plug – check sparkplug color and condition after each race or end of riding day. Adjust jetting to keep plug from fouling or overheating. Silencer – If bike seems to be getting louder, replace packing and decarbonize inner tube. Expansion pipe – check daily for large dents, damage or leakage. Remove carbon from headpipe when pipe is removed. Have large dents fixed, or any dents within 8″ of the cylinder. Replace o-rings on pipe as needed to maintain a good seal. Footpegs – check daily for proper operation, pegs should spring back into place. Make sure pegs are not bent or overly dull. Handlebars – check bars after any crash for bending. Look for cracks near bar clamps. Replace bars that have been straightened more than 2 or three times, or if bar is badly bent. Aweakened bar can snap suddenly causing injury to rider. Throttle – check throttle for proper operation each time before bike is started. Remove and clean inside of grip and bar as needed. Grips – check grips daily for wear or looseness. Replace as needed. Use grip glue & safety wire to help hold grips in position. Calipers & pads – check pad wear and caliper function daily or after each race. Replace pads and clean calipers as needed. Brake lever – check lever daily for damage or wear. Make sure lever is at proper angle for both seated and standing positions. Leave lever clamp loose enough to allow clamp to rotate during crash rather than breaking lever. Check and adjust freeplay as needed. Brake pedal – Check pedal daily for damage and proper freeplay. Adjust rear caliper as needed. Reeds – Remove and inspect reed block during every ring change. Check reeds for signs of wear, fraying and cracking. Make sure reeds sit flat and seal well. Replace at any sign of wear or damage or at least once a year, more often for expert riders. Nuts & bolts – Check all nuts and bolts regularly. Make sure to check engine mounting bolts and swingarm bolt frequently

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Lambretta UNO50 Owners Manual

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

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brakes: Inspect brake cables/hoses/linkage for correct mounting, chafing, leaks and damage. Check and adjust both front and rear brakes. If hydraulic, check fluid level and correct if necessary (DOT 4 fluid only). Engine: Check and correct the engine oil level. Fuel system: Check fuel tank, carburetor, fuel valve and all hoses for leaks. Throttle system: Check for correct throttle cable routing. Throttle operates smoothly and self-returns to idle from all handlebar positions. Wheels/tires: Check wheels, tires and valve stem for damage, etc. Check and adjust tire pressures. 11 Suspension: Check for smooth suspension operation. Lubricate all grease points using correct specification grease. Check for correct suspension adjustments. Inspect fork and shock seals for leaks. Steering: Check for smooth steering operation and handlebar bearings for proper adjustments. Electrical Systems: Check for correct function of all side, headlight (high/low beam) and taillights, turn indicators, brake lights, warning lights and instrument illumination. Check for correct horn operation. Check harnesses for correct routing. Check for correct function of starter lockout system. Check for correct engine stop switch operation. Check for correct function of the low oil warning light. (2 stroke only) Emission Systems: Check connections and hoses for routing and kinks.
12 Fastening hardware: Check front and rear axle nut and bolt torque. Check torque of drain plug and oil filter bolt. Check torque of all brake system nuts and bolts. Check torque of all steering system mounting hardware. Check torque of exhaust mounting hardware. Check torque of all remaining nuts, bolts & screws. Road test Front and rear brake operation. (approx. 10km): Check cold engine start performance. Evaluate performance, handling and braking. After road testing: Check hot engine starting. Check and adjust idle speed. Check for oil and fuel leaks. Make necessary adjustments and repair any defects seen or observed before, during and after test drive. Retest as necessary. Clean the vehicle prior to deliver

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PRO-CYCLE AND PRO-CYCLE XLT 1,000-Lbs. Capacity Motorcycle Lift

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Filed Under (Tips and Review) by admin on 27-11-2010

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1. Always inspect the lift for freight damage and make note of any damage on the bill of lading. 2. In case of freight damage, call the truck line immediately and report the damage as a freight claim. Final Set-Up for model Pro-Cycle This lift is more than 90% factory pre-assembled. The following steps will guide you through the final set-up. IT WOULD BE EASIER FOR TWO MEN TO COMPLETE FOLLOWING STEPS. 1. Unpack the lift from the shipping skid. With the lift table up side down, connect the air hose to the air cylinder (Part # 26). 2. After tightening the hose to the cylinder, flip the lift over with the table surface up. 5 3. Lift up the table manually to the first lock position to make sure the lift is rising freely. Lubricateing the joints again before use will ensure a better performance of the lift. 4. Connect the other end of the air hose to the foot-operated valve. Then connect the foot- operated valve to 100 PSI air supply. DO NOT USE AIR SUPPLY WITH PRESSURE MORE THAN 100 PSI. 5. Release the safety bar by pushing the handle down. Operate the foot valve by stepping on the footpad forward to raise the lift. The safety bar should engage the ladder automatically while lift is rising. Step on the footpad again to set the pad in middle position to stop the lift when it reaches the desired height. ALWAYS LOWER LIFT IN THE NEAREST LOCKED POSITION BEFORE BEGINNING WORK. NEVER USE THE LIFT UNLESS YOU ARE IN A LOCKED POSITION. The lift should never be left unattended while attached to air pressure. Disconnect the air pressure when lift is not attended by qualified persons. 6. Install the vise using bolts and nuts supplied with the lift (part # 6 to 12). See fig #1. 7. Install the approach ramp by dropping it into the holes punched on the rear edge of the table. The final Set-Up for the Pro-Cycle model is complete

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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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AIR / HYDRAULIC MOTORCYCLE LIFT REMOVABLE INSPECTION PLATE

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Filed Under (Tips and Review) by admin on 19-11-2010

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For best service, you should incorporate an oiler, regulator, and inline filter, as shown in the diagram on the next page. Hoses, couplers, oilers, regulators, and filters are all available at Harbor Freight Tools. NOTE: If an automatic oiler is not used, put 3-5 drops of pneumatic Tool Oil (not included) in the Motorcycle Lift’s Quick Coupler (38A) before each use. (See Figure B, next page.) To Check The Level Of Hydraulic Oil: 1. The Motorcycle Lift already contains some hydraulic oil in its Hydraulic Pump Reservoir (32P). Even so, it is recommended that you check the oil level in the Reservoir and, if necessary, top off the Reservoir with the proper amount of 15/40 hydraulic oil (not included). (See Assy. Diagram, page 15.) 2. Make sure to screw the two Adjusting Screws clockwise enough to lift the two Caster Wheels (14) off the floor so as to provide stability for the Motorcycle Lift. (See Figure A.) 3. To check the level of hydraulic oil, remove the Sliding Plate (36) from the Platform (35) to expose the Hydraulic Pump Reservoir (32P). (See Assy. Diagrams, pages 13 and 15.) 4. Remove the rubber Filler Plug (33P) located on the top of the Reservoir (32P). If necessary, top off the Reservoir with hydraulic oil. (See Assy. Diagram, page 15.) 5. Connect the air compressor’s hose to the to the Air Motor assembly. Then turn on the air compressor and set its regulator at 120 PSI. (See Assy. Diagram, page 14.) 5. Insert the Lift Foot Pedal (11) onto the Pump Piston Spindle (9), and slowly pump the Lift Foot Pedal until a slight amount of hydraulic oil begins to leak out of the Reservoir (32P). Discontinue pumping the Lift Foot Pedal. Then, replace the Filler Plug (33P) on the top of the Reservoir. (See Assy. Diagram, page 15.) REGULATOR OILER FILTER TO QUICK COUPLER (38A) OF MOTORCYCLE LIFT FIGURE B 6. Insert the Release Foot Pedal (10) onto the Release Valve Spindle (5). Pump the Lift Foot Pedal (11) until the Platform (35) of the Motorcycle Lift reaches its maximum height. Then press down slightly on the Release Foot Pedal until the Platform is fully collapsed to the floor. Repeat this procedure several times to ensure the Motorcycle Lift is operating properly. (See Figure E, page 10.)

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1500 XLT MOTORCYCLE / ATV LIFT INSTALLATION, OPERATION, AND MAINTENANCE MANUAL

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Filed Under (Tips and Review) by admin on 29-11-2010

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1. Load should not exceed rated capacity for this lift – 1500lbs 2. 70-160PSI shop air needed. 3. Make sure the handle is in the down position and the safety plate is set in the safety lock while the lift is in the raised position. 4. Move the lift only when it is lowered. 5. Do not ride vehicle onto lift. 6. Only trained people should operate the lift. 7. Air/Hydraulic pump should be at least 3 feet away when operating. Remain clear of the lift when raising or lowering. 8. Indoor use recommended. 9. Do not move lift while loaded. 10. Keep hands, tools and other extremities from under carriage and moving parts.. 11. Maintain a safe working environment. The work area should be clean, dry, clutter free, and sufficiently lit. 12. Wear proper ANSI-approved safety attire. Do not wear loose fitting clothing while operating lift, long hair and sleeves should be secured. 13. Keep children and bystanders away from work area. Do not let children operate or play on lift. 14. Do not use if under the influence of drugs or alcohol. Operator must be alert at all times when using heavy lift equipment. 15. Never operate the lift with someone on it. 16. Do not adjust safety valve. 17. Use this lift only for the work it is intended. Do not use this product for an application for which it was not designed. Misuse can lead to personal injury and/or property damage. 18. Industrial applications must follow OSHA requirements. 19. Do not use for aircraft purposes. 20. Have your lift serviced by a qualified repair person using only identical Titan Lifts® replacement parts and attachments. This will ensure that the safety of the lift is maintained.

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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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Daytona 675 Motorcycle Race Kit Installation Manual

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Filed Under (Triumph) by admin on 29-10-2010

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Remove the existing cylinder head gasket in line with the procedures detailed in the Daytona 675 service manual. 2. Fit the chosen race kit cylinder head gasket following the procedures detailed in the Daytona 675 service manual. Caution The use of the following race kit cylinder head gaskets will require changes to the fuelling settings. To alter fuelling settings a third party programmable control unit will be required. Item Description Qty 1 Head gasket (t = 0.65mm) 1 1 Head gasket (t = 0.60mm) 1 1 * Page 7 of 29 © Triumph Designs Ltd 2007. Cams, Valve Spring & Sprocket Kits Parts Supplied Camshaft Inlet Kit – A9618055 Camshaft Exhaust Kit – A9618056 Valve Spring Kit – A9618058 Camshaft Sprocket Kit – A9618057 Warning The race kit must be fitted as a complete set. If it is not fitted as a complete set a failure may result which could cause loss of motorcycle control and an accident. Caution The use of the Camshaft, Valve spring & Sprocket race kits detailed below will require changes to the fuelling settings. To alter fuelling settings a third party programmable control unit will be required. 5 5 4 1 3 2 4 3 Item Description Qty 1 Cam assy, inlet, race 1 Item Description Qty 2 Cam assy, exhaust, race 1 Item Description Qty 3 Valve spring, 14.4id, race12 Item Description Qty 4 Sprocket, camshaft, 34T 2 5 Socket head cap screw, Encapsulated, M6x10 4
Page 8 of 29 © Triumph Designs Ltd 2007. NOTE •The standard inlet cam is 9.25mm max lift and 258.50o duration. The race kit inlet cam is 9.25mm max lift and 268.74o duration. •The standard exhaust cam is 8.5mm max lift and 246o duration. The race kit exhaust cam is 8.5mm max lift and 262.21o duration. •The race kit valve spring must be used in conjunction with the standard spring platforms and retainers. The fitted length of the race springs is the same as the standard spring. 1. The race kit valve springs should be assembled in the same manner as the standard valve springs. Follow the procedure detailed in section 3 of the Daytona 675 service manual. Ensure the springs are installed with the close wound, colour coded end of the springs facing downwards, towards the piston. 2. The race kit camshafts should be assembled in the same manner as the standard camshafts. Follow the procedure detailed in section 3 of the Daytona 675 service manual. 3. The race kit cam sprockets should be mounted and secured to the camshafts using the slotted holes in the sprocket. The slotted holes allow adjustment of the valve timing. The circular holes in the sprockets are for Triumph service tool T3880102 and should not be used to mount the sprockets to the camshafts. NOTE •No timing marks are included on the race sprockets. Race engines will typically have different depths skimmed off the cylinder head and, therefore require specific individual timing. 4. The camshafts should be timed using cam degreeing equipment which typically consists of a degree wheel, pointer, dial indicator and piston stop. Optimum cam timing will depend on the exact specification of the engine, but a recommended starting point is 104o IMOP (Inlet Maximum Opening Point) and 104o EMOP (Exhaust Maximum Opening Point). 5. Always check the inlet and exhaust piston to valve clearance for the timing selected to use, before running the engine. You must ensure both clearances are adequate. As a guide, the standard nominal piston to valve clearance is 1.3mm inlet & 1.5mm exhaust

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Honda CB 750 SOHC 8v Performance and Racing Camshafts Installation

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Filed Under (Honda) by admin on 18-11-2011

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Upon installation of your WEB-CAM camshaft, check the following. These operations are very important to engine
life, please follow instructions! If your cam is described as a bolt-in in the WEB-CAM catalog, you may skip 1-5
below. Check piston to valve clearance. Provide the necessary clearance by removing material from the piston Minimum .050″ intake, .080″ exhaust.1. Check valve to valve clearance. It may be necessary to remove material from the valves or sink valve seat height in head. 2. Check the valve spring retainer to valve guide clearance at maximum lift. Remove material from the top,of valve guides to provide a minimum of .030″ clearance. 3. Check for valve spring coil bind at maximum valve lift. Clearance at every coil should be at least .015″4. Be certain that cam and/or rocker arms rotate
freely in head or block. Remove material from head,block, or rocker arms where necessary.5. Engine and cam life depend on proper installation. New or reground followers should be used when installing WEB-CAM profiles. Apply the provided
assembly lube to cam lobe and follower surfaces

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