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HARLEY DAVIDSON CHROME REAR BRAKE RESERVOIR COVER KIT INSTALLATION MANUAL

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Filed Under (Harley Davidson) by admin on 29-03-2011

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INSTALLATION 1. Remove and discard the screw and washer holding the rear brake master cylinder reservoir to the motorcycle frame. 2. See the Figure 1. Obtain the chrome screw (2) and washer (3) from the kit. Place the washer onto the screw threads. 3. Position the chrome rear brake reservoir cover (1) over the reservoir, lining up the holes. Fasten with the chrome screw and washer using the T27 TORX® key (6) from the kit. Tighten securely. 4. Slowly unscrew the original reservoir cap. Note the orientation of the reservoir gasket and the gasket collar, which may come off with the cap. Discard the original reservoir cap only. Set the gasket and collar aside for re-installation. Direct contact of D.O.T. 5 brake fluid with eyes can cause eye irritation, swelling, and redness. Avoid eye contact. In case of eye contact flush with large amounts of water and get medical attention. Swallowing large amounts of D.O.T. 5 brake fluid can cause digestive discomfort. If swallowed, obtain medical attention. Use in well ventilated area. KEEP OUT OF REACH OF CHILDREN. (00144a) 5. Refer to the Owner’s Manual and follow the procedure to check the brake fluid level. Fill as needed with DOT 5 SILICONE HYDRAULIC BRAKE FLUID. Do not reuse old fluid. Only use DOT 5 hydraulic brake fluid from a sealed container. 6. Set the reservoir gasket back onto the lip of the reservoir and position the gasket collar onto the gasket. 7. Carefully position the new chrome cap (4) over the reservoir and screw it on. Tighten securely. 8. Clean the indented top surface of the new cap with a 50- 50 mixture of isopropyl alcohol and water and let it dry. 9. Peel the paper backing from the Bar and Shield emblem (5). Turn the emblem to the desired orientation and press it firmly into place on the top of the chrome cap. After repairing the brake system, test brakes at low speed. If brakes are not operating properly, testing at high speeds can cause loss of control, which could result in death or serious injury.

2006 Harley Davidson VROD / Screamin' Eagle VROD Installation Manual

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Filed Under (Harley Davidson) by admin on 01-03-2012

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Check top clamp holding on rear heat shield be sure this is mounted forward not in middle of pipe. 2. Slide rear head pipe into collector and leave loose. 3. Mount head pipes into exhaust ports using stock Harley gaskets hand thread nuts onto head studs, leaving play in pipes. 4. Slip muffler onto collector and leave loose. 5. Slide D&D bracket included with kit onto chassis and muffler together. 6. Hand thread nuts onto chassis studs 7. Align muffler flush with bracket, hand thread bolts onto muffler.
8. Push system together tightly, Tighten rear head pipe collector clamp. 9. Holding muffler into place (finger width between shock bolt) tighten down muffler clamp all the way. 10. Snug (do not torque) chassis bracket bolts, snug muffler bolts until all is correctly aligned, then tighten down bolts. 11. Tighten head bolts down using factory torque specs, as you tighten the pipe check muffler clearance. If to close to swing arm push in on head pipe. If to far away push in on head pipe. 12. Once all is tight start bike and check for leaks This system is designed to be used with a high flow air filter and D&D VRDSEDD2.MT4 Race Tuner map.

Toyota and Lexus Clogged Power Steering Reservoir Filter

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Filed Under (Toyota Manuals) by admin on 02-10-2011

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Clogged Power Steering Reservoir Filter – Toyota & Lexus Toyota and Lexus vehicles with power steering. Noise coming from the power steering pump or reduced assist from the power steering system. Noise or reduced assist may be caused by restriction in the power steering fluid reservoir. Most Toyota/Lexus-style reservoirs have a filter screen at the bottom. Over a period of time this filter could get clogged causing the restriction of fluid. Replace any hose that shows signs of cracking or internal deterioration. Thoroughly flush the power steering system; then remove the reservoir for cleaning as follows: 1. Clean the exterior and interior of reservoir with new power steering fluid or suitable solvent. 2. Blow off the filter screen using pressurized air until restriction or clog is removed. 3. Using a flashlight, check to make sure that the filter screen is free of debris. Note: Contamination may be an indication of internal breakdown of hoses, which must be replaced before operating the vehicle. Failure to replace bad hoses could damage both the pump and steering unit. 4. Reinstall reservoir, referring to the service manual for tightening specs and bleeding procedures.

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Tacoma Power Steering Pump Improving Power Steering Reservoir modification

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Filed Under (Toyota Manuals) by admin on 02-10-2011

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For my SAS I decided to add hydraulic steering assist as it comes in real handy for rock crawling. I got the Redneck Ram setup from the folks at West Texas Off-road that includes rebuilding an earlier IFS steering box along with drilling and tapping the box for the included ram. One of the down sides of adding a ram is that it slows the steering down because the stock steering pump has to supply the added volume for the hydraulic ram. Another is that it creates a fluid volume change in the system reservoir that needs to be compensated for in some way. After doing some reading on the West Texas site about how to go about modifying a Saginaw pump and reading up on earlier Toyota pump mods for steering assist setups on the Pirate board, I decided to give it whirl and see what I could do about the Tacoma pump. Chuck Gardella was kind enough to supply me with a blown pump that I could rebuild and submit to my endless fiddling and tinkering. I plan to give him my pump in return when I get this one done and installed. You need to do something to allow for more room in the reservoir for the standard hydraulic ram assist setup so I decided to tackle the reservoir first. The reason you need the extra space is because the ram is unbalanced. That is there is a rod on one side of the cylinder and not on the other side so the volume of the fluid has to change in the system to account for the volume of the rod as it travels back and forth. I calculated the volume of the rod that I have at full stroke to be about 2 oz or so. This would equate to plus or minus up to 2 oz. in the pump reservoir. Well first off, it’s no wonder why so many folks boil their steering pumps over with heavy wheeling and have so many other steering problems. The stock power steering reservoir doesn’t even rate pint sized

2011 HONDA CBF1000/ CBF1000 ABS Specifications

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Filed Under (Honda) by admin on 18-02-2011

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Press information for 2011 CBF1000 / CBF1000 ABS 7 Specifications – CBF1000 (ED-type) ENGINE Type Liquid-cooled 4-stroke DOHC inline-4 Displacement 998cm3 Bore  Stroke 75  56.5mm Compression Ratio 11.2 : 1 Max. Power Output 79kW/9,000r/min -1 (95/1/EC) Max. Torque 96Nm/6,500r/min -1 (95/1/EC) Idling Speed 1,200min -1 Oil Capacity 3.6 litres FUEL SYSTEM Carburation PGM-FI Throttle Bore 36mm Aircleaner Dry, cartridge-type paper filter Fuel Tank Capacity 20 litres Fuel Consumption 18,4 km/l (WMTC Mode #) ELECTRICAL SYSTEM Ignition System Computer-controlled digital transistorised with electronic advance
Press information for 2011 CBF1000 / CBF1000 ABS 8 Ignition Timing 5° BTDC (idle) ~ 45° BTDC (7,500min -1 ) Sparkplug Type IMR8C-9HES Starter Electric Battery Capacity 12V/8.6AH ACG Output 350W/5,000 rpm Headlights 12V, 55W  1 (low) / 55W  1 (high) DRIVETRAIN Clutch Wet, multiplate with coil springs Clutch Operation Hydraulic Transmission Type 6-speed Primary Reduction 1.6 Gear Ratios 1 2.6 2 1.83 3 1.5 4 1.32 5 1.17 6 1.07 Final Reduction 2.687 (43/16) Final Drive #530 O-ring sealed chain FRAME Type Mono-backbone; cast aluminium
Press information for 2011 CBF1000 / CBF1000 ABS 9 CHASSIS Dimensions (LWH) 2,210  780  1,220mm Wheelbase 1,495mm Caster Angle 26° Trail 110mm Turning Radius 2.9m Seat Height 795mm ±15mm Ground Clearance 135mm Kerb Weight *245kg (F: 120kg; R: 125kg) Max. Carrying Capacity 195kg Loaded Weight *440kg SUSPENSION Type Front 41mm free valve-type telescopic fork & adjustable spring; 120mm stroke Rear Gas-charged HMAS damper & adjustable spring and rebound; 120mm axle stroke WHEELS Type Front Hollow-section 6-spoke cast aluminium Rear Hollow-section 6-spoke cast aluminium Rim Size Front 17M/C  MT3.5 Rear 17M/C  MT5
Press information for 2011 CBF1000 / CBF1000 ABS 10 Tyre Size Front 120/70 ZR17M/C (58W) Rear 160/60 ZR17M/C (69W) Tyre Pressure Front 250kPa Rear 290kPa (290kPa with passenger) BRAKES Type Front 296  4.5mm dual hydraulic disc with 2- piston calipers, floating rotors, sintered metal pads (*3-piston calipers and Combined ABS) Rear 240  5.0mm hydraulic disc with 1-piston caliper, sintered metal pads (*and Combined ABS) *C-ABS version All specifications are provisional and subject to change without notice

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2011 HONDA NT700V Specifications/ Press Information

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Filed Under (Honda) by admin on 18-02-2011

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Press information for 2011 NT700V 5 Specifications – NT700V (ED-type) ENGINE Type Liquid-cooled 4-stroke 8-valve SOHC 52° V- twin Displacement 680cm 3 Bore  Stroke 81  66mm Compression Ratio 10 : 1 Max. Power Output 48.3kW/8,000min -1 (95/1/EC) Max. Torque 66.2Nm/6,500min -1 (95/1/EC) Idling Speed 1,200min -1 Oil Capacity 3.2 litres FUEL SYSTEM Carburation PGM-FI electronic fuel injection Throttle Bore 40mm Aircleaner Dry, cartridge-type paper filter Fuel Tank Capacity 19.7 litres (including 3.5-litre reserve) Fuel consumption 20.1 km/l (WMTC Mode #) ELECTRICAL SYSTEM Ignition System Digital transistorised with electronic advance Ignition Timing 10° BTDC (idle) ~ 45° BTDC (8,900min -1 ) Sparkplug Type CPR8EA-9 (NGK) Starter Electric Press information for 2011 NT700V 6 Battery Capacity 12V/11.2AH ACG Output 438W Headlight 12V; 55W  1 (low) / 55W  1 (high) DRIVETRAIN Clutch Wet, multiplate with coil springs Clutch Operation Mechanical; cable-actuated Transmission Type 5-speed Primary Reduction 1.763 (67/38) Gear Ratios 1 2.571 (36/14) 2 1.688 (27/16) 3 1.300 (26/20) 4 1.084 (29/27) 5 0.923 (24/26) Final Reduction 3.091 (34/11) Final Drive Enclosed shaft FRAME Type Diamond; steel twin-spar CHASSIS Dimensions (LWH) 2,218  810  1,320mm (Raised windscreen: 1,491mm) Wheelbase 1,476mm Caster Angle 28° 50′ Trail 115mm
Press information for 2011 NT700V 7 Turning Radius 3.2m Seat Height 805mm Ground Clearance 156mm Kerb Weight 254kg (F: 112kg; R: 142kg) *257kg (F: 113kg; R: 144kg) Max. Carrying Capacity 197kg Loaded Weight 451kg *454kg SUSPENSION Type Front 41mm telescopic fork, 115mm axle travel Rear Single damper with adjustable preload, 122.5mm axle travel WHEELS Type Front S-section triple-spoke cast aluminium Rear S-section triple-spoke cast aluminium Rim Size Front 17  MT3.5 Rear 17  MT4.5 Tyre Size Front 120/70 ZR17 (58W) Rear 150/70 ZR17 (69W) Tyre Pressure Front 250kPa Rear 290kPa (290kPa with passenger) BRAKES Type Front 296  4.5mm dual hydraulic disc with Combined 3-piston calipers and sintered metal pads Press information for 2011 NT700V 8 Rear 276  6mm hydraulic disc with dual-piston caliper and sintered metal pads (*and Combined ABS) *Combined-ABS version

2011 HONDA XL1000V Specifications / Press Information

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Filed Under (Honda) by admin on 18-02-2011

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Specifications – XL1000V / XL1000V ABS (ED-type) ENGINE Type Liquid-cooled 4-stroke 8-valve DOHC 90° V- twin Displacement 996cm 3 Bore  Stroke 98  66mm Compression Ratio 9.8 : 1 Max. Power Output 69kW/7,500min -1 (95/1/EC) Max. Torque 98Nm/6,000min -1 (95/1/EC) Idling Speed 1,300min -1 Oil Capacity 4.1 litres FUEL SYSTEM Carburation PGM-FI electronic fuel injection Throttle Bore 42mm Aircleaner Viscous, cartridge-type paper filter Fuel Tank Capacity 25 litres (including 4-litre warning light reserve) ELECTRICAL SYSTEM Ignition System Computer-controlled digital transistorised with electronic advance Ignition Timing 15° BTDC (idle) ~ 55° BTDC (5,100min -1 ) Sparkplug Type IJR8B9 (NGK) Press information for 2011 XL1000V 6 Starter Electric Battery Capacity 12V/18AH ACG Output 434W Headlight 12V 60W  2 (low) / 55W  2 (high) DRIVETRAIN Clutch Wet, multiplate with coil springs Clutch Operation Mechanical; cable-actuated Transmission Type 6-speed Primary Reduction 1.682 (44/74) Gear Ratios 1 2.571 (14/36) 2 1.684 (19/32) 3 1.292 (24/31) 4 1.100 (30/33) 5 0.969 (32/31) 6 0.853 (34/29) Final Reduction 2.938 (16/47) Final Drive O-ring sealed chain FRAME Type Steel tube CHASSIS DIMENSIONS Dimensions (LWH) 2,300  930  1,465mm Wheelbase 1,560mm Caster Angle 27° 30′ Press information for 2011 XL1000V 7 Trail 110mm Turning Radius 2.58m Seat Height 838mm Ground Clearance 181mm Kerb Weight 268.7kg (F: 126.3kg; R: 142.4kg) *276.7kg (F: 130kg; R: 146.7kg) Max. Carrying Capacity 201kg Loaded Weight 469.7 kg *477.7 kg SUSPENSION Front 43mm telescopic fork, 155mm axle travel Rear Pro-Link damper, 145mm axle travel WHEELS Type Front Hollow-section triple-spoke cast aluminium Rear Hollow-section triple-spoke cast aluminium Rim Size Front 19M/C  MT2.50 Rear 17M/C  MT4.00 Tyre Size Front 110/80 R19M/C (59H) Rear 150/70 R17M/C (69H) Tyre Pressure Front 250kPa Rear 250kPa (with passenger: 280kPa) Press information for 2011 XL1000V 8 BRAKES Front 296  4.5mm dual hydraulic disc with Combined 3-piston calipers (*ABS) and sintered metal pads Rear 256  5mm hydraulic disc with Combined 3- piston caliper (*ABS) and sintered metal pads * Combined-ABS version All specifications are provisional and subject to change without notice

2003 SUZUKI SV 1000 Service Manual

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

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HOW TO USE THIS MANUAL TO LOCATE WHAT YOU ARE LOOKING FOR : 1. The text of this manual is divided into sections . 2. The section titles are listed in the GROUP INDEX . 3 . Holding the manual as shown at the right will allow you to find the first page of the section easily . 4. The contents are listed on the first page of each section to help you find the item and page you need . COMPONENT PARTS AND WORK TO BE DONE Under the name of each system or unit, is its exploded view . Work instructions and other service information such as the tightening torque, lubricating points and locking agent points, are provided . Example: Front wheel SYMBOL Listed in the table below are the symbols indicating instructions and other information necessary for servicing. ENGINE OIL SUZUKIrecommends the use of SUZUKI PERFORMANCE 4 MOTOR OIL or an oil which is rated SF or SG under the API (American Petroleum Institute) service classification. The recommended viscosity is SAE 1 OW-40 . If an SAE 1 OW-40 oil is not available, select an altematice according to the right chart . BRAKE FLUID Specification and classification: DOT 4 A WARNING Since the brake system of this motorcycle is filled with a glycol-based brake fluid by the manufacturer, do not use or mix different types of fluid such as silicone-based and petroleum-based fluid for refilling the system, otherwise serious damage will result . Do not use any brake fluid taken from old or used or unsealed containers . Never re-use brake fluid left over from a previous servicing, which has been stored for a long period. FRONT FORK OIL Use fork oil L01 or an equivalent fork oil . GENERAL INFORMATION 1-5 ENGINE COOLANT Use an anti-freeze/engine coolant compatible with an aluminum radiator, mixed with distilled water only . WATER FOR MIXING Use distilled water only . Water other than distilled water can corrode and clog the aluminum radiator . ANTI-FREEZE/ENGINE COOLANT The engine coolant perform as a corrosion and rust inhibitor as well as anti-freeze . Therefore, the engine coolant should be used at all times even though the atmospheric temperature in your area does not go down to freezing point. Suzuki recommends the use of SUZUKI COOLANT anti-freeze/engine coolant. If this is not available, use an equivalent which is compatible with an aluminum radiator . LIQUID AMOUNT OF WATER/ENGINE COOLANT

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Suzuki SV1000 COOLING AND LUBRICATION SYSTEM REPAIR MANUAL

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Filed Under (Suzuki) by admin on 25-02-2011

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At the time of manufacture, the cooling system is filled with a 50 :50 mixture of distilled water and ethylene glycol anti-freeze . This 50:50 mixture will provide the optimum corrosion protection and excellent heat protection, and will protect the cooling system from freezing at temperatures above -31 °C (-24 °F) . If the motorcycle is to be exposed to temperatures below -31 °C (-24 °F), this mixing ratio should be increased up to 55 % or 60 % according to the figure. CAUTION • Use a high quality ethylene glycol base anti-freeze, mixed with distilled water . Do not mix an alcohol base anti-freeze and different brands of anti-freeze. • Do not rut in more than 60%anti-freeze or less than 50 %. (Refer to the right figure.) • * Do not use a radiator anti-leak additive. A WARNING COOLING AND LUBRICATION SYSTEM 5-3 20 40 60 80100 0 10 20 30 40 50 60 Density (%) Fig .2 Engine coolant density-boiling point curve • * You can be injured by scalding fluid or steam if you open the radiator cap when the engine is hot . After the engine cools, wrap a thick cloth around cap and carefully remove the cap by turning it a quarter turn to allow pressure to escape and then turn the cap all the way off . • * The engine must be cool before servicing the cooling system . • * Coolant is farmful; • * If the comes in contact with skin or eyes, flush with water. • * If swallowed accidentally, induce vomiting and call physician immediately . • * Keep it away from children . Anti-freeze density Freezing point 50% -31 °C (-24 °F) 55% -40 °C (-40 °F) 60% -55 °C (-67 °F) 50 % engine coolant including reservoir tank capacity Anti-freeze 1 100 ml (2.3/1 .9 US/Imp-pt) Water 1 100 ml (2.3/1.9 US/Imp.pt) Density (%) Fig.1 Engine coolant density-freezing point curve (°F) (°C) 302 150 (kgf/cm2) 284 140 1.5 c Q 266 130 0.9 0) a) :0 248 120 0.5 0) m Z3 230 110 0 (7 212 100 (F) (C) 32 0 14 -10 -4 -20 C 0 Q -22 -30 O) C N -40 -40 a) a) U- -58 -50 -76 -60 -94 -70 5-4 COOLING AND LUBRICATION SYSTEM COOLING CIRCUIT THERMOSTAT RESERVOIR TANK RADIATOR NO. 1 CYLINDER HEAD NO . 1 CYLINDER NO. 2 CYLINDER NO. 2 CYLINDER HEAD WATER PUMP INSPECTION Before removing the radiator and draining engine coolant, inspect the cooling circuit for tightness. • * Remove the body cowling. (=6-6) • * Remove the radiator cap ® . • * Connect the tester 02 to the filler. A WARNING Do not remove the radiator cap when the engine is hot. • * Give a pressure of about 110 kPa (1.1 kgf/cm 2, 15 .6 psi) and see if the system holds this pressure for 10 seconds. • * If the pressure should fall during this 10-second interval, it means that there is a leaking point in the system. In such a case, inspect the entire system and replace the leaking component or part. A WARNING When removing the radiator cap tester, put a rag on the filler to prevent spouting of engine coolant. CAUTION Do not allow the pressure to exceed the radiator cap release pressure, or the radiator can be damaged

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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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