idle adjusting tool for 2011 fatboy

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Adjusting the Pekar K68 for Dnepr or Ural

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

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1. Make sure the ignition timing is correct 2. Adjust the valves as necessary to ensure proper operation 3. Run the engine to warm it up a bit 4. Adjust the float setting. To do this, remove the carburetors (leave the throttle cables attached), remove the bowl and turn the carburetor upside down (fuel will spill). The float should look like this: Adjust as necessary by bending the float support (#37 in Figure 1). Reinstall Installation and idle adjustment 1. First you must adjust the idle. It is acceptable per the manual to adjust the idle by using the idle adjust screws (11). This usually involves screwing them then backing out 1 to 1.5 turns. Or you can adjust looking at the sliders 2. If installing the carburetors: a. Remove the cover (2) b. Reomve the slider (3) c. Place the throttle cable through the guide (18) with the spring (4) on the cable. d. Route the cable through the slide catch (6) e. Insert the slide assembly into the chamber and make sure it easily slides up and down. Direct the needle (8) into the opening of the diffuser (angled side visible). f. Screw assembly together and verify via throttle movement that slide moves freely. Attach fuel delivery lines to (12). 3. Using the idle set screw (11) raise the slider so the lower edge is 1-2 mm. 4. Assemble to engine using the proper gaskets (paper – felt – paper). 5. Using the locknut (26) adjust the free play of the throttle cable (2-3 mm) 6. Adjust the idle mixture screw – turn in completely then out 1 to 1.5 turns. * Starting using the K68′s (cold weather) 1. Verify fuel flow. Apply choke (pull 52 in Fig1). 2. Using the ticklers (13) allow fuel to enter the bowl until fuel drains from (14) 3. With the ignition off, kick 1 or 2 times 4. Turn ignition on, and as soon as engine is warmed up (maybe sooner) push choke mechanisms to open choke Idle Adjustment (engine running and warm) 1. Remove one of the spark plug caps, and with the cap shorted, adjust (11) to decrease RPM’s to a point of being minimally steady. 2. Adjust the mixture (15) out until RPM’s decrease. Turn in until RPM’s increase slightly. Then turn in screws ¼ to 1/3 revoultion. 3. Do the same for the second carburetor with the first spark plug cap shorted. 4. With both cylinders, adjust each idle (11) on each carburetor the same amount each until it’s at a steady, minimal RPM. Use small changes. (at this point you can use your airflow tool to check). 5. Sharply increase, then decrease throttle. Then engine must return to low RPMs smoothly. If the engine goes below limits, readjust (11) from step 4. Synchronization of the K68 Note: Rather than using the opposite cylinder shorted to test the pull of the live cylinder carburetor, you can use something like a Twinmax connected to the test ports (27 Fig 1). Or, if you have a model without these ports, use a Synchrometer (Appendix 2) held against the face of the carburetor. These tools merely show airflow passing through each carburetor (which is dependent on the position and wear on the slide). If using these tools, it’s not necessary to do the following steps. You wil want to use a throttle guide (Appendix 1), to show airflow at various throttle settings. Using the flow meter of your choice make sure each carburetor is the same at the various throttle settings. 1. Place the motorcycle on the center stand ensuring the rear wheel is suspended 2. Make sure you have large area to work with (safety issues here) 3. Shift into the highest gear with the engine running 4. Short one spark plug cap to the cylinder (using a nail or something in the fins) 5. Increase the speed to 40-50 km/hr 6. Fix the throttle using the throttle (maybe using a throttle stop screw under the throttle housing). 7. Reconnect other cylinder and using the opposite carburetor determine the speed which should be the same as the first. 8. Adjust the position of this slide to achieve the referenced speed using the locknut at the top of the carburetor.

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HARLEY DAVIDSON PUSHROD COVER RETAINER INSTALLATION AND REMOVAL TOOL

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Filed Under (Harley Davidson) by admin on 31-03-2011

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Figure 1. Pushrod Cover Retainer Installation and Removal Tool There are no Service Parts available with this kit. REMOVAL 1. See Figure 2. Insert the pin of the pushrod cover retainer tool into the retainer loop with the back of the tool towards the cylinder fins. Rotate the tool towards the cylinder to remove the pushrod cover retainer. INSTALLATION 2. See Figure 3. Load the pushrod cover retainer into the tool as shown in figure 3. Place the top edge of pushrod cover against top edge of push rod. 3. See Figure 4. Place the tool on top of the spring cover. Pivot the tool upward to install the pushrod cover retainer is05892a Figure 2. Removing Pushrod Cover Retainer is05895a Figure 3. Loading Pushrod Cover Retainer in Tool is05893a Figure 4. Pushrod Cover Retainer Installation

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HARLEY DAVIDSON SOFTAIL LEFT SIDE LEATHER TOOL BOX KIT INSTALLATION MANUAL

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Filed Under (Harley Davidson) by admin on 19-04-2011

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Installation While handling and installing tool box, be careful not to scratch surface. 1. See Service Parts Illustration. Install tool box (1) to mounting bracket (6) using button head screws (2) and washers (5). Screws (2) should be inserted through mounting holes on inside of tool box (1) and then inserted through bracket (6) holes and threaded into weld nuts attached to bracket. 2. Remove and save the two screws that secure left rear fender support to motorcycle frame. 3. Remove two bolts, nuts, and washers that secure debris deflector to motorcycle frame. This will allow you to move debris deflector out of the way when installing new passenger footpeg support bolt. Save hardware for reinstallation. 4. For 1990 to 1999 Softails: If tool box is being installed with passenger footpeg, remove the hex head bolt and left passenger footpeg. Retain footpeg and lockwasher for reinstallation. Discard bolt . If tool box is being installed without passenger footpeg, remove hex head bolt and left passenger footpeg. Discard footpeg. Retain bolt and lockwasher. For 2000 and later Softails: See page 3 . Remove footrest from clevis. Remove clevis from frame by removing cap screw from center of clevis. If tool box is installed with footpegs, keep all hardware. If toolbox is to be installed with footboards, discard hardware. 5. Slide top of mounting bracket (6) between rear fender support and frame. Align top holes in bracket with fender support holes. Align lower bracket hole with footpeg mounting hole in frame. Install the two screws, removed in Step 2, in fender support. Do not tighten screws at this time. 6. For 1990 to 1999 Softails: Place lockwasher retained in step 4 on footpeg support hex head bolt (3) from kit. CAUTION 1 of 3 For 2000 and later Softails with footpegs: Install kit 49352-00 according to instructions included in this kit. Footpeg must fold up at a 45°angle (from vertical) toward rear of motorcycle. This angle allows footpeg to fold up if, by accident, it strikes the ground surface when making a sharp turn. Failure to set footpeg to the proper fold-up angle could result in death or serious injury. 7. For 1990 to 1999 Softails: Position footpeg so it folds up and back at a 45°angle. Install bolt (3) from kit through frame, tool box bracket (6), and spacer (4), into footpeg, as shown. NOTE If vehicle is equipped with saddlebag support bracket, Part No. 90346-90 or 90346-94, position saddlebag support bracket between tool box bracket and spacer.

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Ural carburetors Installation and idle adjustment

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Filed Under (Ural) by admin on 02-11-2010

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1. First you must adjust the idle. It is acceptable per the manual to adjust the idle by using the idle adjust screws (11). This usually involves screwing them then backing out 1 to 1.5 turns. Or you can adjust looking at the sliders 2. If installing the carburetors: a. Remove the cover (2) b. Reomve the slider (3) c. Place the throttle cable through the guide (18) with the spring (4) on the cable. d. Route the cable through the slide catch (6) e. Insert the slide assembly into the chamber and make sure it easily slides up and down. Direct the needle (8) into the opening of the diffuser (angled side visible). f. Screw assembly together and verify via throttle movement that slide moves freely. Attach fuel delivery lines to (12). 3. Using the idle set screw (11) raise the slider so the lower edge is 1-2 mm. 4. Assemble to engine using the proper gaskets (paper – felt – paper). 5. Using the locknut (26) adjust the free play of the throttle cable (2-3 mm) 6. Adjust the idle mixture screw – turn in completely then out 1 to 1.5 turns 1. Remove one of the spark plug caps, and with the cap shorted, adjust (11) to decrease RPM’s to a point of being minimally steady. 2. Adjust the mixture (15) out until RPM’s decrease. Turn in until RPM’s increase slightly. Then turn in screws ¼ to 1/3 revoultion. 3. Do the same for the second carburetor with the first spark plug cap shorted. 4. With both cylinders, adjust each idle (11) on each carburetor the same amount each until it’s at a steady, minimal RPM. Use small changes. (at this point you can use your airflow tool to check). 5. Sharply increase, then decrease throttle. Then engine must return to low RPMs smoothly. If the engine goes below limits, readjust (11) from step 4. Synchronization of the K68 Note: Rather than using the opposite cylinder shorted to test the pull of the live cylinder carburetor, you can use something like a Twinmax connected to the test ports (27 Fig 1). Or, if you have a model without these ports, use a Synchrometer (Appendix 2) held against the face of the carburetor. These tools merely show airflow passing through each carburetor (which is dependent on the position and wear on the slide). If using these tools, it’s not necessary to do the following steps. You wil want to use a throttle guide (Appendix 1), to show airflow at various throttle settings. Using the flow meter of your choice make sure each carburetor is the same at the various throttle settings. 1. Place the motorcycle on the center stand ensuring the rear wheel is suspended 2. Make sure you have large area to work with (safety issues here) 3. Shift into the highest gear with the engine running 4. Short one spark plug cap to the cylinder (using a nail or something in the fins) 5. Increase the speed to 40-50 km/hr 6. Fix the throttle using the throttle (maybe using a throttle stop screw under the throttle housing). 7. Reconnect other cylinder and using the opposite carburetor determine the speed which should be the same as the first. 8. Adjust the position of this slide to achieve the referenced speed using the locknut at the top of the carburetor.

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KTM 990 SUPER DUKE 950 SUPERMOTO 950 SUPER ENDURO REPAIR MANUAL

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Filed Under (KTM) by admin on 22-11-2010

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Adjusting the position of the compression and rebound damping Rebound damping: -Turn in the adjusting screw 1 in a clockwise direction all the way to the stop. -Turn back the respective number of clicks in a counterclockwise direction. Compression damping, low speed: -Turn in the adjusting screw 2 in a clockwise direction all the way to the stop. -Turn back the respective number of clicks in a counterclockwise direction. Compression damping, high speed: -Turn in the adjusting screw 3 in a clockwise direction all the way to the stop. -Turn back the respective number of clicks in a counterclockwise direction. Adjusting the spring preload NOTE: the spring preload is the difference between the unloaded and preloaded length of the spring. -Tighten the adjusting nut 4 with the special tool T106 until you have the prescribed spring preload. -Tighten the lock screw on the adjusting nut Disassembling the shock absorber -Write down the spring preload. -Write down the rebound and compression damping settings, counting the clicks or number of turns while turning in a clockwise direction. -Unscrew all of the adjusting screws in a counterclockwise direction. -Clamp the upper part of the shock absorber in a vise as shown in the photo, using protective jaws. -Loosen the lock screw 1 (AH 4 mm), loosen the adjusting nut 2 using the special tool T106 3 and relieve the spring. NOTE: mark the position of the lock screw. -Press the spring down with the special tool T101S and pull out the spring retainer 4 . -Remove the washers 5 and spring 6 . 4-2 Repair manual WP Shock absorber 990 Super Duke, 950 Supermoto, 950

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Harley-Davidson Six Speed Transmissions FLH 2009 Up Champion Reverse Gear Installation Instructions

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Filed Under (Harley Davidson) by admin on 17-02-2011

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Preparation Remove Original Parts From Vehicle. 2.1 Purchase a small tube of Loctite #262 (red) for use later. 2.2 To torque the large gear: 2.2.1 Purchase Snap-On (or equivalent) filter tool. Part #: FWA62121. OR 2.2.2 Purchase Champion special tool – Part # RG-100-100 2.3 Drain the transmission oil. 2.4 Remove front and rear exhaust header pipe. 2.5 Remove the clutch release cover (right side). 2.6 Remove throw out bearing assembly. (to be reinstalled later without modification) 2.7 Remove the two nuts from the main and counter transmission shafts. WARNING : Do not attempt to push shafts into gearbox or remove the trap door – This can cause spacers inside the gearbox to be miss-aligned and lock up the gearbox when gears are installed and tightened. 2.8 Remove clutch push rod (to be replaced w/ Champion supplied rod) Note: For hydraulic clutch bikes, obtain Champion Part # RG-100-082, a longer push rod) Snap-On Part No: FWA62121 Snap-On Part No: FWA62121 Champion Part No: RG-100-100 Reverse Gear Installation Instructions Harley-Davidson Six Speed Transmission HD FLH 2009 Up Page 3 of 5 Revision 2 Boring Tool 3 Installation 3.1 Thoroughly clean threads of main and counter shafts using a silicon remover. 3.2 Apply the green thread locking compound (supplied) to main shaft threads and screw the small gear onto the main shaft. Figure 1 3.3 Install the supplied (ear)plug into the main shaft hole. To be removed later. 3.4 Install the supplied special tool to the small gear. Ensure the holes of the special tool align with the holes in the small gear. Figure 2 3.5 Install torque wrench to special tool and torque the small gear to 80 lb. ft. 3.6 Remove torque wrench from special tool. Do not remove special tool from small gear. 3.7 Using the supplied boring tool and the special tool as a guide, drill the main shaft through two holes of the special tool as shown. Stop when cutter contacts bearing race. Figure 3 3.8 Remove special tool, leaving main shaft plug in place, and thoroughly clean out the holes. Use care to ensure debris does not enter transmission. 3.9 Remove plug from main shaft hole. Figure 1 Figure 2 Figure 3 Note: To prevent gears from rotating during torque procedures, engage transmission into 1st gear and apply brakes Note: Frequently stop cutting and remove bit from hole to clean bit and vacuum debris from hole

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RACE TECH SUSPENSION SERVICE TOOLS

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Filed Under (Tips and Review) by admin on 01-12-2010

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SHOCK SEAL BULLET TOOL “Bullet Tools” make seal head installation onto shafts quick and easy. 35-8677 TSSB12512.5 x 10mm Shock Seal Bullet 35-8678 TSSB1414 x 12mm Shock Seal Bullet 35-8679 TSSB1616 x 12mm Shock Seal Bullet FORK CAP WRENCH 46/50MM Black Oxidized steel construction for superior strength. Multiple applications (46/50mm): Honda CR250 (97-00), Suzuki RM125/250 (96-00), and removes compression adjuster assembly on Suzuki RM125/250 (98-00). Sold each. 35-8670 TFCW4650 Fork Cap Wrench SHAFT HOLDING TOOL Holds fork damping rods, cartridges, shock shafts, etc. while servicing. (aluminum) 35-8672 TFSH10 Shaft Holding Tool 10, 12, 12.5, & 14mm (Dampning Rods) 35-8673 TFSH14 Shaft Holding Tool 14, 16, & 18mm (Shock Shafts) 35-8674 TFSH20 Shaft Holding Tool 20, 24, & 29mm (20 & 25mm Fork Cartridges) 35-8675 TFSH32 Shaft Holding Tool 32 & 35mm (28 & 32mm Fork Cartridges) ULTRA SLICK SEAL GREASE Race Tech Ultra-Slick Grease provides maximum lubrication and minimum friction for all seal and bushing needs. Available in 1 oz. container. 35-8682 Ultra Slick Seal Grease SHOCK SEAL HEAD SETTING TOOL Allows easy removal and installation of all 40 – 46mm integral shock seal head assemblies. 35-8676 TFSH32 Shock Seal Head Setting Tool SAG MASTER™ The Sag Master is a tool that makes measuring “Race Sag”a snap because you read it directly. No more subtracting! Also useful in determining proper spring rates and monitoring linkage and seal drag. Comes with complete instructions and, doubles as a tape measure. 35-8681 TSSM01 Sag Master Race Sag Setting Tool FORK SPRING COMPRESSOR TOOL This unique fork spring compressor is designed to work on most current sport bikes and road racers. It allows the spring to be compressed while the fork cap is removed from the rod. It can be used on or off the bike on most models. 35-8680 TFSC01 Fork Spring Compressor Tool

KTM 250/ 300/ 380 SX,MXC,EXC ENGINE REPAIR MANUAL

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Filed Under (KTM) by admin on 12-11-2010

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Repair manual KTM 250 / 300 / 380 Art No 3206004 -E 2-2C main jet jet needle jet needle air control screw idle adjusting screw idle jet throttle valve Idling range A Operation with closed throttle valve. This range is influenced by the position of the air control screw 1 and the idle adjusting screw 2 . Only make adjustments when the engine is hot. To this end, slightly increase the idling speed of the engine by means of the idle adjusting screw. Turning it clockwise produces a higher idling speed and turning the screw counterclockwise produces a lower idling speed. Create a round and stable engine speed using the air control screw (basic position of the air control screw = open by 1.5 turns). Then adjust to the normal idling speed by means of the idle adjusting screw. Opening up B Engine behavior when the throttle opens. The idle jet and the shape of the throttle valve influences this range. If, despite good idling-speed and part-throttle setting, the engine sputters and smokes when the throttle is fully opened and develops its full power not smoothly but suddenly at high engine speeds, the mixture to the carburetor will be too rich, the fuel level too high or the float needle is leaking. Part-throttle range C Operation with partly open throttle valve. This range is only influenced by the jet needle (shape and position). The optimum part-throttle setting is controlled by the idling setting in the lower range and by the main jet in the upper range. If the engine runs on a four-stroke cycle or with reduced power when it is accelerated with the throttle partly open, the jet needle must be lowered by one notch. If then the engine pings, especially when accelerating under full power at maximum engine revs, the jet needle should be raised. If these faults should occur at the lower end of the part throttle range at a four-stroke running, make the idling range leaner; if the engine pings, adjust the idling range richer. Full throttle range D Operation with the throttle fully open (flat out). This range is influenced by the main jet and the jet needle. If the porcelain of the new spark plug is found to have a very bright or white coating or if the engine rings, after a short distance of riding flat out, a larger main jet is required. If the porcelain is dark brown or black with soot the main jet must be replaced by a smaller one. mixture too rich: too much fuel in proportion to air mixture too lean: not enough fuel in proportion to air 1 2 OPERATING RANGES OF THE CARBURETOR 2-3C Carburetor adjustment Basic information on the original carburetor setting The original carburetor setting was adapted for an altitude of approx. 500 meters (1600 ft.) above sea level, and the ambient temperature of approx. 20°C (68°F), mainly for off-road use and central European premium-grade fuel (ROZ 95 MOZ). Mixing ratio 2-stroke motor oil : super fuel 1:40 – 1:60. Basic information on a change of the carburetor setting Always start out from the original carburetor setting. Essential requirements are a clean air filter system, air-tight exhaust system and an intact carburetor. Experience has shown that adjusting the main jet, the idling jet and the jet needle is sufficient and that changes of other parts of the carburetor will not greatly affect engine performance. RULE OF THUMB:

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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

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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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