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PIAGGIO VESPA ACCESSORIES Top Case

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Filed Under (Vespa) by admin on 28-10-2010

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623698M0F2 Gray GTS Top Case 623698M0R7 Dragon Red GTS Top Case 623698M092 Black 94 GTS Top Case 623698M0DE Midnight Blue GTS Top Case 623698M0RI Vintage Red GTS Top Case 602959M GTS Full Chrome Kit 598979 GT/GTS Windscreen 602927M GT/GTS Top Case Bag 602935M0BR GTS Leather Seat 602938M0BR Matching Leather Backrest (for top case)
PIAGGIO VESPA ACCESSORIES – Vespa GTS cont. 23 605108M GT/GTS Flyscreen 602942M Vehicle Lock 602734M GT/GTS Floor Mat 602845M002 Electronic Alarm “E-Power” for GT/GTS

Aprilia Falco Synchronizing the Cylinder Vacuum

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Filed Under (Aprilia) by admin on 26-10-2010

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Motorcycle cylinders work quite independently compared to automobiles. Separate carburation, intake manifolds, exhaust pipes and sometimes even independent air filters allow the cylinders to be tuned so that one may be making more power than another. This can be due to differences in air flow, temperature, injection, or valve adjustment betwen the cylinders. Periodically, the cylinders should be synchronized. This is usually done by comparing intake manifold vacuum beneath each throttle and trimming the mixture until balanced. Some old-timers will tell you it can be done by ear, listening to the air flow in each carb throat through a tube stuck in your ear. Most modern tuners have switched to mercury sticks. Rigid tubes stuck in a bath of mercury are attached to the vacuum source. The vacuum draws the mercury up the sticks in proportion to pressure difference between the manifold and the atmosphere. In order to smooth out the individual vacuum pulses, a damping device is needed. This is nothing more than a small orifice (pin hole) restriction in the lines, placed close to the manifold with an air reservoir (length of tube) behind it. Because there is no real air flow in the gauges, there is no pressure drop across the orifice. But when the manifold vacuum drops there is a delay before the gauge pressure can bleed off and it appears steady and readable. Other types of vacuum gauges include mercury-less versions (that draw metal rods), or traditional needle, or “clock” gauges. The clock gauges are very fast acting (they are designed that way so you can see engine problems such as sticking valves). You will definitely need a damper if you choose a clock gauge. I would recommend using two side by side gauges for checking cylinder synch. The reason is, the cylinders are not perfectly independent. As one cylinder drops strength, the idle drops, and this will change the vacuum in the second cylinder’s manifold. It takes a bit of fooling around to get a cause-and-effect feel when you are turning the screws. Swapping gauges would make this difficult

BMW K1100LT Installing Real Cruise Control

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Filed Under (BMW) by admin on 26-10-2010

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The vacuum reserve canister (VRC) is used to provide adequate vacuum for the cruise control servo unit. It uses the throttle body as a vacuum source and, via the vacuum check valve, stores up vacuum for the servo to use to pull the throttle cable. You can also buy one of these at an auto parts store for about $10-15 but I decided to build my own so I could make one that would fit inside the left front of the main fairing body. If you decide to buy one, make sure you can return it if it doesn’t fit inside the fairing or be prepared to mount it somewhere else like inside the tail cowl. I used 8″ of 2″ diameter PVC tubing because that is the length that would easily fit inside the fairing It is mounted inside the fairing in front of the left “bucket.” I used white PVC tubing but, in hindsight, would use black if possible since it is visible to the rider when mounted in the fairing. I suspect that the cruise control may actually work without the use of the vacuum canister so you might want to try the cruise without a VRC. If you do install the cruise control without a VRC, you’ll want to put a vacuum check valve in the vacuum hose that goes from the throttle body to the cruise control servo unit.
11/30/2005 08:23 PM Installing Real Cruise Control on a BMW K1100 Page 4 of 8 used epoxy for assembling the VRC as it’s my permanent adhesive of choice. Cut an 8″ length of 2″ diameter PVC tubing. Sand the edges. Drill two holes as shown for the check valve and vacuum tee. There’s a vacuum tee in the bags of installation miscellany that come with the cruise control. File the webbing from the right angles before gluing it and the check valve in place. Remember to glue the tee into place before gluing the end caps on. Make sure everything has an airtight seal. I used zip-ties to hold it in place inside the main fairing body in front of the left bucket

Vespa GTS Super Specification

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Filed Under (Vespa) by admin on 11-11-2010

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Gts super 300 ie Gts super 125 ie s 125cc s 50cc Gts 250 ie Gts 125cc LX 125cc LX 50cc 2 stroke Engine Single-cylinder, catalised, QUASAR 4 stroke, 4 valve electronic injection Single-cylinder LEADER 4 stroke with electronic injection Single-cylinder LEADER 4 stroke Single-cylinder HI-PER 2 stroke Single-cylinder, catalised, QUASAR 4 stroke, 4 valve electronic injection Single-cylinder, catalised, LEADER 4 stroke, 4 valve Single-cylinder LEADER 4 stroke Single-cylinder HI-PER 2 stroke Capacity 278cc 124cc 124cc 50cc 249cc 124cc 124cc 49cc Power 16.4 kW / 7500 rpm 10.5 Kw / 9500 rpm 7.65 Kw / 8250 rpm 3.2 Kw / 7500 rpm 15.7 Kw / 8500 rpm 7.65 Kw / 8250 rpm 7.65 Kw / 8250 rpm 2.5 Kw / 8500 rpm Max Torque 22Nm / 6500 rpm 12 Nm / 8000rpm 9.6 Nm / 7250 rpm 4.4 Nm / 6500 rpm 20.1 Nm / 6500 rpm 9.6 Nm / 7250 rpm 9.6 Nm / 7250 rpm 3.3 Nm / 6500 rpm Cooling Liquid Liquid Forced Air Forced Air Liquid Liquid Forced Air Forced Air Starter Electric Electric Electric and kick starter Electric and kick starter Electric Electric Electric and kick starter Electric and kick starter Transmission Automatic twist and go Automatic twist and go Automatic twist and go Automatic twist and go Automatic twist and go Automatic twist and go Automatic twist and go Automatic twist and go Front Suspension Single arm, dual chamber hydraulic shock absorber with coaxial spring Single arm link with coil spring and double hydraulic shock absorber Single arm link with coil spring and double hydraulic shock absorber Single arm link with coil spring and double hydraulic shock absorber Single sided trailing link with hydraulic shock absorber Single sided trailing link with hydraulic shock absorber Single sided trailing link with hydraulic shock absorber Single sided trailing link with hydraulic shock absorber Rear Suspension Two dual effect shock absorbers with adjustable preload Coil spring and double hydraulic shock absorber Coil spring and double hydraulic shock absorber Coil spring and double hydraulic shock absorber Twin hydraulic shock absorbers with preload adjuster Twin hydraulic shock absorbers with preload adjuster Hydraulic shock absorbers with preload adjuster Hydraulic shock absorber Front Brake ø 220mm disc brake 220mm disc brake ø 200mm disc brake ø 200mm disc brake ø 220mm disc brake ø 220mm disc brake ø 200mm disc brake ø 200mm disc brake Rear Brake ø 220mm disc brake 220mm disc brake ø 110mm drum brake ø 110mm drum brake ø 220mm disc brake ø 220mm disc brake ø 110mm drum brake ø 110mm drum brake Front Tyre Tubeless 120/70-12″ Tubeless 120/70 – 12″ Tubeless 110/70 – 11″ Tubeless 110/70 – 11″ Tubeless 120/70-12″ Tubeless 120/70-12″ Tubeless 110/70 – 11″ Tubeless 110/70-11″ Rear Tyre Tubeless 130/70-12″ Tubeless 130/70 – 12″ Tubeless 120/70 – 10″ Tubeless 120/70 – 10″ Tubeless 130/70-12″ Tubeless 130/70-12″ Tubeless 120/70 – 10″ Tubeless 120/70-10″ Running weight 158kg 158kg 114kg 96kg 151kg 145kg 114kg 96kg Length/Width/Height 2230mm / 755mm / 1170mm 1930mm / 755mm / 1930mm 1770mm / 740mm / 1140mm 1755mm / 740mm / 1140mm 1930mm / 755mm / 1170 mm 1940mm / 755mm / 1180 mm 1770mm / 740mm / 1140mm 1755mm / 740mm / 1140mm Fuel Tank Capacity 9 litres 9 litres 8.5 litres 8.5 litres 9.2 litres 10 litres 8.5 litres 8.5 litres Emmissions Euro 3 Euro 3 Euro 3 Euro 2 Euro 3 Euro 3 Euro 3 Euro 2 Colours Rosso Dragon Nero Lucido Montebianco Rosso Dragon Nero Lucido Montebianco Taormina Nero Lucido Montebianco Taormina Nero Lucido Montebianco Marrone Terra Di Toscana Bronzo Perseo Nero Vulcano Blu Midnight

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Aprilia – General Scottoiler Installation Manual

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Filed Under (Aprilia) by admin on 26-10-2010

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The vacuum connection is the same for the Aprilia RST Futura & Capo Nord models. On the left hand side of the bike (sitting on the bike) are two pipes from the airbox. Cut into one of these pipes & insert the special T-Piece (not included in the Mk 7 kit), as shown left. Then press the Damper Elbow, part number 4 from the Scottoiler kit, onto the third leg of the tee. The vacuum connection on the RSV Mille and Falco models is different from above. For 1998 models, underneath the tank is a vacuum pipe, as shown left. Cut into this pipe, and insert the special T-Piece (not included in the Mk 7 kit). Push the Damper Elbow, part number 4, onto the third leg of the tee. Vacuum connection for 2000 models, there is a rubber bung over a spigot on the inlet tract, as shown left. Remove the rubber bung and replace it with the Damper Elbow, part number 4 from the Scottoiler kit, as shown below. You may need to gently heat the Damper Elbow ease fitting it onto the spigot. Once you’ve fitted part number 4, push the vacuum tubing into the end of the Damper Elbow and route neatly along the bike towards the RMV position, as shown later in this document. The picture on the left shows the vacuum connection on later models of Aprilia Mille, 2004 onwards. Cut the tube shown, and insert the standard tee piece from the Scottoiler kit. Push the vacuum damper elbow, part number 4, onto the third leg of the tee piece, and fit the vacuum tubing into the damper elbow by pushing in securely. Route vacuum tubing along bike to RMV position

VESPA GTS 250 i. e. EXHAUST MANIFOLD REPLACEMENT

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Filed Under (Vespa) by admin on 11-11-2010

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VE SPA GTS 250 i. e. EXHAUST MANIFOLD REPLACEMENT To replace the exhaust manifold, order part number 872659 as spare part following standard proceedings. OPERATION PROCEDURE The above picture references the old exhaust flange and the replacement exhaust flange kit part number 872659. Replacement Old Page 5 of 16 With the complete exhaust system removed from the vehicle remove the lambda sensors. Refer to page 88 and 89 of your Vespa GTS workshop manual for exhaust removal. Loosen the 13 mm bolt to loosen the clamp. Bolt Remove lambda sensor Page 6 of 16 Remove the header pipe from the exhaust box. Remove the exhaust packing and clamp. Remove exhaust manifold Gasket Clamp Page 7 of 16 Once all packing is removed check and make sure all surfaces are clean. This will help the installation of the exhaust gasket. Install the new clamp supplied with the kit, but do not tighten down at this point. Fit the exhaust gasket onto the new manifold. Push the new exhaust gasket in with the manifold until fitted all the way down to the flange. Check surfaces. Manifold Gasket Clamp Flange Page 8 of 16 Replace the lambda sensor and tighten down to 40- 50 Nm (29.5 -36.8 ft lbs. ) .

2000 Celica GTS REPAIR MANUAL CORRECTION: VALVE CLEARANCE ADJUSTMENT

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Filed Under (Toyota Manuals) by admin on 07-06-2011

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Repair Manual corrections have been made to the Valve Clearance Adjustment procedures for the 2000 model year Celica GTS with the 2ZZ–GE engine to allow effective use of the Special Service Tool. For more information on replacement of the SST Swing Arm refer to TSB SS002–00, Valve Clearance Adjusting compressor Swing Arm Retrofit – ’00 Celica GTS

HI-4 DUAL FIRE MOTORCYCLE IGNITION INSTALLATION INSTRUCTIONS

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Filed Under (Yamaha) by admin on 09-11-2010

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Turn ignition switch off and disconnect battery ground cable. 2. Refer to Figure 3. Remove OE ignition module and wire harness (items 1-4). You will disconnect two wires at the coil (15), a wire going to the VOES (Vacuum Operated Electrical Switch) (18), a black ground wire at the ignition module, and the 3 pin plug (20) that connects to the sensor plate (11). Refer to shop manual for locations. 3. Remove ignition cover plates and gasket (items 5- 9). This will require drilling out two rivets. The rivets will later be replaced with two supplied self- threading screws. 4. In order to remove the sensor plate cable, the cable plug (20) must be removed first. Use needle nose pliers to pull the terminals out of the plug. Then pull the cable through the exit hole at the bottom of the timing cover. 5. Note location of sensor plate (11). There is a V notch in the sensor plate used for alignment. When you install the HI-4, you should align the V notch in the same location. This should set the timing close enough to start the engine. Remove and save the two standoffs and washers (10). Remove the sensor plate (11). HI-4 INSTALLATION Refer to Figure 4. The HI-4 requires use of the OE timing rotor P/N 32402-83 (used only on 1985 and newer models). If you have an older model or are not sure, check the rotor (9) for the correct part number. For models prior to 1980, use the supplied 10-32 x ¾”bolt and washer to mount the rotor. 1. Install the HI-4 system in place of the OE breaker or sensor plate. Rotate the HI-4 about 90 degrees to give better access to the cable exit hole. Install the HI-4 first, then push the cable through the hole. On some early models it may be necessary to enlarge the wire harness exit hole in the gear cover. Align the V notch on the HI-4 same as the OE plate you removed. Use the OE standoffs to secure the HI-4. You must use lockwashers under the standoffs for proper clearance between the HI-4 and cover plate. Do not fully tighten the standoffs until the timing has been set. 2. Route the HI-4 wire harness along the frame rails up to the coil. Make sure that harness will not be chafed or burned by exhaust heat. Secure harness with tie wraps. Do not install timing cover. HI-4 HOOKUP Crimp terminals and hardware are supplied for your convenience. Use the ring terminals for coil hookup. Use male-female quick disconnects for connections to the tach and vacuum switch (VOES). Tape up any unused wires. 1. Circuit Breaker Cover Screws (2) 2. Circuit Breaker Cover 3. Circuit Breaker Cover Gasket 4. Breaker Plate Screws (2) 5. Breaker Plate Screw Lockwashers & Washers (2 each) 6. Retainer (1971 to early 1972) 7. Circuit Breaker Cam Bolt 8. Breaker Plate Assembly 9. Breaker Cam 10. Advance Assembly 11. Gear Case Cover 11 10 9 8 7 6 5 4 3 2 1 NOTE: Damage will result if the brown tach wire comes in contact with +12V. Figure 1. Harley-Davidson®OE Points System
9000-4002A REV A 3 2/05 1. Identify switched +12 volt wire and tach wire (if equipped) going to the coil. Refer to your service manual, or reconnect the battery and use a test light or voltmeter. The switched +12 volt wire will be hot when the ignition key is turned on. 2. Refer to Figure 5. Connect the HI-4 red wire and switched +12 volt wire to Coil positive. 3. The HI-4 white wire is not used and should be taped. 4. Connect the HI-4 black wire to the Coil negative terminal. 5. Connect the HI-4 green wire to the vacuum switch (Figure 3, item 18), if used. 6. Connect the HI-4 brown wire to the tach wire, if equipped with tach. Tape up if unused. 7. The HI-4 is grounded via the timing housing; a separate ground connection is not required. 8. Reconnect battery ground cable. Verify proper ground connections to the frame and engine. VOES HOOKUP The OE vacuum switch (VOES) is normally an open circuit. Above 3-5 inch-Hg vacuum, the VOES closes and grounds the vacuum input on the OE ignition module. This increases the total advance generated by the OE ignition module. Vacuum advance improves part throttle 17 16 1. Cover Screws (2) 2. Ignition Timer Cover 3. Ignition Module 4. Timer Plate Screws (2) 5. Washers (2) 6. Screws & Washers (2 each) 7. Shield 8. Sensor 9. Trigger Rotor Bolt 10. Timer Plate 11. Trigger Rotor 12. Advance Assembly 13. Gear Case Cover 14. Ignition Coil 15. Spark Plug Wires (2) 16. Ignition Coil Terminal (FX) 17. Ignition Coil Terminal (FL) 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 NOTE: Most motorcycle coils do not have terminals marked. Use either terminal for Coil+ (positive) and the other one for Coil- (negative). Warning: The HI-4 (8-1100) Dual Fire ignition will not work with 2 plugs per head, dual coil application. Damage will result if attempted. Use the HI-4 (8-2100) single fire ignition for 2 plugs per head applications

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Vespa GTS 250 exhaust system SERVICE INSTRUCTIONS

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Filed Under (Vespa) by admin on 28-10-2010

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to replace the exhaust manifold, order part number 872659 as spare part following standard proceedings. OPERATION PROCEDURE The above picture references the old exhaust flange and the replacement exhaust flange kit part number 872659. Replacement Old
Page 5 of 16 With the complete exhaust system removed from the vehicle remove the lambda sensors. Refer to page 88 and 89 of your Vespa GTS workshop manual for exhaust removal. Loosen the 13 mm bolt to loosen the clamp. Bolt Remove lambda sensor
Page 6 of 16 Remove the header pipe from the exhaust box. Remove the exhaust packing and clamp. Remove exhaust manifold Gasket Clamp Page 7 of 16 Once all packing is removed check and make sure all surfaces are clean. This will help the installation of the exhaust gasket. Install the new clamp supplied with the kit, but do not tighten down at this point. Fit the exhaust gasket onto the new manifold. Push the new exhaust gasket in with the manifold until fitted all the way down to the flange

Yamaha TDM900 Installing and removal the Vacuum Actuator

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Filed Under (Yamaha) by admin on 28-12-2011

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Attach the cable adjuster to the bracket. Position the adjuster so that it is screwed all the way in. Do not tighten the lock nuts on the adjuster yet. • Route the new ‘carburettor’ cable around and out the RHS of the bike under the frame rail as shown in the following photos. Installing the Vacuum Actuator • Mount the actuator on the RHS fairing support using the bracket provided and two bolts, nuts and flat washers. The mounting bracket fits on the inside face of the fairing bracket. The small plate fits on the outside and clamps the actuator to the faring frame.