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1984-1995 Honda Civic/ CRX Positive Crankcase Ventilation (PCV) System Repair Manual

The PCV system is designed to prevent blow-by gas from escaping to the atmosphere by drawing it directly into the intake manifold. The PCV valve contains a spring-loaded plunger which is lifted in proportion to intake manifold vacuum. Under high vacuum, blow-by is returned directly to the manifold through the breather chamber and PCV valve with fresh air. When intake manifold vacuum decreases (wide open throttle) and vacuum in the air cleaner increases, the PCV valve closes and the blow-by is returned through the cylinder head cover breather hose and into the air cleaner. The PCV valve also acts as a check valve when the engine backfires to prevent crankcase explosion. Fig. 1: PCV system components-1984-87 1.5L engines Fig. 2: PCV system components-1988-91 1.6L engines Fig. 3: PCV system components-1992-95 engines Fig. 4: PCV system components-1984-87 carbureted engines SERVICE Positive Crankcase Ventilation (PCV) Valve For PCV valve removal, refer to Routine Maintenance of this information. 1. Locate the PCV valve. With the engine running at idle, use pliers to pinch the PCV hose between the valve and the intake manifold. It should be possible to hear the spring loaded valve click shut. 2. If no click is heard, remove the valve from the engine but leave it connected to the intake manifold. A hissing sound should be heard and vacuum should be felt at the valve inlet. 3. If no vacuum is felt, remove the valve from the intake manifold hose. The engine should stall or almost stall. This will indicate a stuck valve or clogged hose. Check the breather hose for clogging or leaks and replace any defective parts. Exhaust Gas Recirculation (EGR) System FUEL INJECTED ENGINES General Information See Figure 3 The Exhaust Gas Recirculation (EGR) system is used to control emissions measured at the tailpipe. Components included are the EGR valve and controls. The EGR system uses a poppet type valve to regulate the amount of exhaust gas flowing into the intake manifold. The flow path is cast into the cylinder head and does not use any external tubing. A control solenoid valve regulates the amount of vacuum to the EGR valve. A Constant Volume Control (CVC) valve provides a constant amount of vacuum to the control solenoid valve over a wide range of engine vacuum. When servicing or repairing any part of the emissions system, it is absolutely essential to check for any obvious mechanical faults or failures. Remember, a trouble code only indicates which sensor or circuit is affected by the problem. Simple mechanical faults such as a vacuum leak or poor electrical connection can cause a fault code. The EGR valve is not simply open or closed but is modulated by controlling the amount of engine vacuum to the valve diaphragm, up to a maximum of 8 in. Hg of vacuum. The EGR valve has a sensor in the top of the valve that reports valve lift to the ECU (same as ECM, 1992-95). The ECU modulates the position of the control solenoid valve to control the EGR valve lift according to an internal program. Upstream of the control solenoid valve, the CVC provides a constant supply of vacuum so EGR control is precise under all manifold vacuum conditions

REV / SPEED METER Vehicle Specific Wiring Diagram Installation

Installation Precautions ?Do not use electro taps in the installation of this product. Electro taps can become loose over time causing the unit to malfunction. This can also lead to vehicle and product damage. Be sure to use wire crimpers and the included splices for a secure connection. ?Be sure that the harness is not exposed to metal. Always wrap all connections with electrical tape. ?How to use the Fittings Strip 5mm from wire Insert sleeve over wire Bend back exposed wire Place male fitting over This ECU terminal arrangement diagram is viewed from the direction of the arrow. The direction of the ECU varies depending upon the vehicle. Perform the installation work after confirming the connector shape and the number of pins. ?If any abnormal noise or abnormal smell is sensed during the installation work of this product stop the work immediately and contact the distributor or your nearest A*PEX business office Continuing the installation under such conditions may cause an electric shock or fire causing damage to electric devices.

2007-2009 Toyota FJ Cruiser Banks Monster Exhaust System Installation Manual

1. Before starting work, familiarize yourself with the installation procedure by reading all of the instructions. 2. The exploded view (Figure 2) provides only general guidance. Refer to each step and section diagram in this manual for proper instruction. 3. Throughout this manual, the left side of the vehicle refers to the driver’s side, and the right side to the passenger’s side. 4. Disconnect the negative (ground) cable from the battery (or batteries, if there are two) before beginning work. 5. Route and tie wires and hoses a minimum of 6″ away from exhaust heat, moving parts and sharp edges. clearance of 8″ or more is recommended where possible. 6. When raising the vehicle, support it on properly weight-rated safety stands, ramps or a commercial hoist. Follow the manufacturer’s safety precautions. Take care to balance the vehicle to prevent it from slipping or falling. When using ramps, be sure the front wheels are centered squarely on the topsides; put the transmission in park; set the hand brake; and place blocks behind the rear wheels. Caution! Do not use floor jacks to support the vehicle while working under it. Do not raise the vehicle onto concrete blocks, masonry or any other item not intended specifically for this use. 7. During installation, keep the work area clean. Do not allow anything to be dropped into intake, exhaust, or lubrication system components while performing the installation, as foreign objects will cause immediate engine damage upon start-up. Tools Required: • 1? 2 ” and 3? 8 ” drive ratchets with standard and metric sockets and 1 ? 2 ” and 3? 8 ” drive extension • Standard and metric combination or open-end wrenches • Standard screwdriver • Clean shop towels or rags • Pry-bar Highly recommended tools and supplies: • Foot-pound torque wrench • Penetrating oil or light lubricant spray General Installation Practices 97083 v.2.0 3 Monster Exhaust SySTEM INSTallaTIoN 1. Disconnect the negative (ground) cable from the battery (if there is more than one battery, disconnect both negative cables). Secure the cable so it cannot accidentally come in contact with the post. 2. Raise the vehicle and support it securely with properly weight-rated safety stands, ramps or a commercial hoist. Take care to balance the vehicle to prevent it from slipping or falling. When using ramps, be sure the wheels are centered squarely on the topsides. Place the transmission in park (automatic), set the parking brake and securely block the wheels that are on the ground. CaUTIoN: Do NoT WoRK UNDER aNy VEHIClE SUPPoRTED oNly By a JaCK. SEVERE INJURy May RESUlT. 3. From under the vehicle remove the factory exhaust starting at the 2-bolt flange in front of the muffler. Remove the two (2) bolts, two (2) washers, and two (2) springs from the flange and retain for re-use. NOTE: Remove the factory gasket from the 2-bolt flange. The exhaust system will be hanging by the exhaust hanger pins. 4. Liberally apply an aerosol lubricant on all the hanger pins. Remove the exhaust system from the vehicle by removing each hanger pin from the rubber grommet. NOTE: Remove hanger pins from the front of the vehicle to the rear. 5. Drop the exhaust system to the floor and move out of the way. You will not be reusing any components from the exhaust system. 6. Install the Banks conical gasket onto the vehicle’s 2-bolt flange. 7. Install the hanger pin on the intermediate pipe into the corresponding rubber grommet. Install the Banks intermediate pipe onto the factory 2-bolt intermediate pipe outlet using the factory hardware. See Figure 1. When tightening the

Toyota V6 Adapter Plate Installation Manual

Apply silicone to face of single or dual transfer case assembly. Install adapter plate on face of transfer case, using 4 M10-1.25×35 bolts (provided). We recommend applying blue LocTite® to threads before installation. Torque four plate bolts to 30 ft. lbs. Step 2 Install M-10-1.25×30 allen head bolt using blue Loc- Tite® torque to 30 ft. lbs. Step 3 Remove rear transmission seal using a seal remover or claw hammer. Step 4 Step 5 Install M-10-1.25x 35 bolt using blue LocTite® torque to 30 ft. lbs. Using degreaser, clean the rear transmission seal sur- face. Step 6
Ensure two dowels are in place in the transmission. If dowels are in the transfer case move them to the trans- mission. Step 8 Step 11: Apply silicone to rear face of transmission Slide coupler into place on the back of the transmis- sion. Step 7 Step 9 Step 10 Apply silicon to smaller end of seal adapter Install Seal Adapter into rear of transmission. Gently seat seal adapter into place using rubber mallet Step 11 After Assembling Adapter Plate & T/Case(s): Install replacement v6 dual transfer case crossmember Reconnect 4 wheel drive indicator (This may require cutting and splicing connector from original case) 1988-1991 Application, reconnect speedometer cable (Use speedometer extension cable for dual case applications) 1992-1995 Application will need a replacement VSS for the transfer case Reattach front and rear drive shafts (drive shaft lengths may need to be changed) Fill transfer case with 90W GL5 gear oil, check gear oil level in transmission Reinstall transfer case shifter and boot Drain and replace transfer case oil after first 1,000 miles and every 30,000 thereafter Full synthetic gear oil may be used. Step 12 Using 6 of the 9 stock bolts, 1 allen head bolt and 2 M10-1.25×35 bolts, attach transfer case to transmission. Use blue LocTite® on all bolts. Tighten bolts to 30 ft. lbs. The second allen head bolt should be installed in position shown on the upper right (passenger) side. Step 13 These instructions are designed as a general installation guide. Installation of many Trail-Gear Products require specialized skills such as metal fabrication, welding and mechanical trouble shooting. If you have any questions or are unsure about how to proceed, please contact our shop at 559-252-4950 or seek help from a competent fabricator. Using fabrication tools such as welders, torches and grinders can cause serious bodily harm and death. Please operate equipment carefully and observe proper safety procedures. Rock crawling and off-road driving are inherently dangerous activities. Some modifications will adversely affect the on-road handling characteristics of your vehicle. All products sold by Trail-Gear Inc are sold for off road use only. Any other use or application is the responsibility of the purchaser and/or user. Some modifications and installation of certain aftermarket parts may under certain circumstances void your original dealer warranty. Modification of your vehicle may create dangerous conditions, which could cause roll-overs resulting in serious bodily injury or death. Buyers and users of these products hereby expressly assume all risks associated with any such modifications and use.

How To Build a High Performance Cummins Diesel

CEO/ Diesel Injection of Pittsburgh Keep in mind while reading this document that it is a gathering of all the articles Bruce has written over the last ten years. There may be some old prices discussed so, to get the latest pricing, check the main page. If you have any questions feel free to call us at 724-274-4080 and we can discuss your horsepower needs. Please have your CPL#. If you are looking for upgrades for your Electronic Celect/Celect Plus Cummins engine visit our Pittsburgh Power site at HOW TO BUILD A HIGH-PERFORMANCE CUMMINS DIESEL ENGINE This is a very controversial subject and 99% of the mechanics who build diesel engines will disagree with what we have to say and will probably refuse to build the engine for you. For the owner-operator who loves horsepower do not give up when you speak to the negative mechanic. There are a few good shops throughout the states that will build the ultimate performance engine. Or you can build it yourself as long as you have mechanical knowledge and tools. BUILDING THE ENGINE: In order to have the engine live with high horsepower and run efficiently you must have the right combination of compression ratio, fuel, air and timing. Please do not try to get extreme power simply by increasing the fuel pressure on a stock engine. You will obtain some horsepower, however your compression ratio, air and timing will be wrong. The best time to obtain horsepower is during a rebuild. Since you are going to buy new parts anyway you might as well buy the right combination that produces horsepower and generally the price of the high performance parts is the same as the stock parts. NOW TO THE NUTS AND BOLTS : The compression ratio of the pistons and the timing must go together. High compression pistons belong only in gasoline engines that are naturally aspirated. Turbocharged diesel engines must have low compression pistons in order to produce high horsepower. The lower the compression ratio the less wear on rod bearings and the lower the internal pressure will be when the injector fires. High internal pressure is very detrimental to the life of a piston. When you see a piston with a hole burned through, it’s not the fault of the injector it is a result of internal pressure. To control the pressure we lower the compression ratio and retard the timing. If you compare the compression ratio and timing of an NTC 290 versus an NTC 400 you will see the difference. Where do you think we have to be on the timing to produce 700 horsepower from an NTC?