DOCSLIB.ORG

ENGINE Internally Lubricated Parts Including

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

Inside5pgFldout 12/14/05 09:43 AM Page 1 ENGINE Internally • Cylinder Heads • Water Pump • Extension Housing • Sprags • Cooling fan clutch DIFFERENTIAL – FUEL – • Center Link lubricated parts • Intake Manifold • Water Pump Pulley Gasket • Springs • Cooling fan electric (Primary Drive) – • Fuel tank and lines • Control Rings including: • Intake Valves • Gears • Sprockets motors • Pinion Bearings • Fuel Sending Unit • Control Valve • Pistons • Intercooler The engine block and • Governor • Stator • Pinion Gear • Fuel Inject Metering • Cups • Piston Rings • Lifters cylinder heads are also • Governor Cover • Stator Shaft SEALS AND GASKETS – • Pinion Flange Pump • Drag Link • Piston Pins • Main Bearing Caps covered if caused by a • Governor Gear • Sun Gear Shell • Head gasket(s) • Propeller Shafts; • Fuel Injectors • Pitman Arm failure of any of the • Crankshaft and Main • Main Bearings • Idler Shaft • Sun Gears • Intake Manifold “U” joints • Fuel Distributor • Pitman Shaft Bearings above covered items. • Oil Cooler • Input Shaft • Synchronizer Hub Gasket • Axle Shafts • Fuel pump housing • Pitman Shaft Adjuster • Camshaft and • Oil Cooler Lines • Inspection Plugs • Synchronizer Key(s) • Upper Plenum Gasket • Axle Bearings & • Diaphragms • Pitman Shaft Seal Bearings TRANSMISSION – Races • Oil Filter Adapter • Intermediate Shaft • Synchronizer Ring • Valve Cover Gasket • Springs O-ring • Timing Chain Automatic or Manual: • Axle Flange • Oil Pan • Main Shaft • Synchronizer Sleeves • Water Pump Gasket • Valves and Actuating • Pump Shaft • Timing Gears • Torque Converter • Axle Shafts • Oil Pan Plug • Manual Valve • Synchronizer Springs • Timing Cover Gasket Lever • Pump Vanes • Intake and Exhaust • Vacuum Modulator • Modulator Valve • Exhaust Manifold • Axle Bearings • Accelerator Cable • Rack Bellows Valves • Oil Pump • Transmission Mounts • Synchronizer(s) • Output Shaft Gasket • CV Joints • Accelerator Linkage • Rack Housing • Valve Springs • Oil Pump Cover • Drive Axle Shafts • Throttle Cable • Pan • Oil Pan Gasket • Carrier Bearing • Accelerator Pedal • Rack Mounts • Valve Guides • Oil Pump Gears • Constant Velocity • Throttle Valve • Throttle Body Gasket • Case Vent • Accelerator Pump • Rack End Seals • Oil Pump Pressure Joints • Parking Gear • Torque Converter • Oil Pump • Differential Pinion • Center Bearings • Relief Valve • Parking Pawl • Turbine • Float, Fuel Fittings • Rack Shaft • Push Rods • Accumulator Rings Gasket • Planetary Gears • Differential Carrier • Fuel Injection • Rack Yoke • Rocker Arms • Oil Pump Screen • Accumulator Seals • Transfer Case Housing Carrier • Axle Seals • Differential Cover Distribution Rails • Relay Rod • Rocker Arm Shafts • Oil Rings • Accumulators • Transfer Shaft • Planetary Gears • Front Crank Seal • Differential Housing • Fuel Injection Pump • Roller Balls • Hydraulic and Solid • Pins • Adjusters • Transmission Case • Pressure Regulator • Valve Guide Seal • Differential Plug(s) • Fuel Injectors • Shims, Snap Rings Lifters • Pistons • Auxiliary Valve Body • Vacuum Modulator Valve • Crankshaft Main • Drive Axle • Fuel Level Sensor Unit • Spool Valve • Intake Manifold • Pushrods • Bands • Valve Body Bearing Seal • Pressure Switches • Drive Axle Bearings • Fuel Pressure • Steering Column • Distributor Shaft and • Rocker Arm Pivots • Bearings • Valve Pack • Pressure Tap Plugs • Camshaft Seal • Drive Shaft Regulator Bearings Housing • Rocker Arm Shaft • Blockers • Washers • Pump Cover • CV boots • Flex Disc • Filler Neck • Steering Column • Harmonic Balancer • Rocker Arms • Boost Valve The case is covered if • Pump Gears • Trans Pan Gasket • Half Shafts • O Ring Coupling • Metal Valve Covers • Rotor Housing • Bushings damage is caused by a • Pump Guide Rings failure of any of the • Pinion Gear • Metal Fuel Lines • Steering Column Shaft • Timing Gear Cover • Rotors • Case Vent • Pump Housing above covered items. TURBO OR SUPER- • Pins • Metering Rods • Steering Fluid Cooler • Air Cleaner • Shims • Center Support CHARGER – • Pump Vanes • Positraction Clutches • Throttle Body • Balance Shaft • Side Cover • Chain –Internal Parts • Range Selector HYBRID – • Positraction Plates • Throttle Linkage SUSPENSION – • Block • Silent Shaft • Check Balls • Vanes • Range Selector Cable • IMA Control Unit for • Positraction Springs • Throttle Plate • Upper and Lower • Cam Button • Sleeves • Clips • Shafts • Retainers battery Electronic • Retainers • Throttle Shaft Control Arms • Cam Plug • Springs • Bearings, and Housing • Clutch Drums • IMA Control Unit for • Ring Gear STEERING • Control Arm Shafts • Ring Gears if damage causes by • Camshaft • Thermostat Housing • Clutch Piston Motor Electronic COMPONENTS – and Bushings • Roll Pins covered component. • Shaft Couplings • Camshaft Bearings • Thermostat Housing • Clutch Plates Manual or Power • Roller Clutches • Cable Assembly • Shims • Upper and Lower • Compression Rings Gasket (Automatic) (motor PDU) • Power Steering Pump Ball Joints • Separate Bell Housing FOUR WHEEL / ALL • Side Gears • Connecting Rod • Timing Belt Tensioner • Clutch Seals • Junction Board • Steering Main and • Steering Knuckles • Separator Plate WHEEL DRIVE – • Slip Joint Bearings • Timing Cover • Clutch Packs Assembly Intermediate Shafts • Stabilizer Shaft and • Servo Rings Transfer Case (and • Spyder Gears • Connecting Rod Bolts • Timing Guides • Control Rings •IMA Motor Stator • Power Cylinder Bushings • Servo Seals internally lubricated • U-Joints • Connecting Rod Caps • Timing chain • Trans. Cooler Assembly Assembly • King Pins and • Servo Sleeves parts); • Yokes • Connecting Rods Tensioners • Counter Shaft • IMA Motor Rotor • Pitman arm Bushings • Shift Cover • Front Differential • Lock Ring • Crankshaft • Turbocharger • Servo Cover Gaskets Assembly • Idler Arm • Strut Bar • Shift Forks • Manual & Automatic • Locknuts • Engine Mounts • Vacuum Pump • Detent Cable • PDU Unit (pre-driver) Locking Hub and • Tie Rods • Strut Bushings • Shift Shafts • Pinion • Exhaust Manifold • Valve Adjusters • Detent Cable O-Ring • PDU Converter Bearing Assembly; • Drag Link • Strut Mounts • Shift Valves (AC-DC) • Pinion Shaft Adjuster • Exhaust Valves • Valve Cover Filler Cap • Detent Cam C/V Axles; Front • Power Steering Cooler • Sway Bar Links • Shifter Shaft The case is covered if • Flex Plate • Valve Cover(s) • Detent Cam Spring Drive Shaft; Front • Control Valve and • Spindles and Spindle • Valve Guides • Side Cover ENGINE COOLING – U-joints damage is caused by a Cylinder Steering Supports • Flywheel • Detent Valve failure of any of the • Snap Rings • Water pump • 4x4 Engagement Box (gear) or Rack • Wheel Bearings • Freeze Plugs • Valve Keepers • Dip Stick above internal covered • Valve Retainers • Shift Solenoids • Radiator Actuator/Motor and and all internally • Track Bar • Front Crank Pulley • Dip Stick Tube items. lubricated parts Bolt • Valve Seals • Speedometer Drive • Thermostat enhanced labor time • Electronic Height • Dip Stick Tube O-Ring for obstructive parts • Pump Reservoir • Harmonic Balancer • Valve Seats Gear • Oil cooler Level Control Air • Extension Housing • Ball Guides Compressor • Ball Nut Inside5pgFldout 12/14/05 09:43 AM Page 2 Nationwide Protection - Coverage is effective whenever you drive, even if you are away from your home area, arrangements BRAKE SYSTEM – AIR CONDITIONING / • Rear Hatch Wiper • Power Sun/Moon • Camshaft Positioning • Fuel Gauge Sensor can be made to have your vehicle repaired by • Brake Master Cylinder HEATING Motor Roof Motor Sensor • Refrigerant Temp. any authorized facility in the U.S. or Canada. • Brake Power Assist • Heating Core • Alternator • Sunroof Motor Switch • Mass Air Flow Sensor Sensor Boosters and Valves • Blower Motor • Alternator Bearings • Power Convertible • BAP Sensor • Yaw Rate Sensor • Wheel Cylinders • Blower Motor Resister • Alternator Brushes Top Motor • MAP Sensor • Humidity Sensor Toll Free Assistance - Help is just a free • Brake Calipers • A/C Clutch • Alternator Diodes • Upstream Oxygen • Evaporator Temp. phone call away. Trained personnel are • Combination Valve • A/C Pulley • Alternator Field Coil MODULES – Sensor Sensor standing by to solve any problem quickly and • Steel Lines and • A/C Condenser • Alternator Housing • Cruise Control • Downstream Oxygen • Cabin Temp. Sensor get you on your way. Fittings • A/C Evaporator • Alternator Mounting Module Sensors • Backing Plates • A/C Orifice Tube Bracket • Engine Control • Heated Oxygen CAR RENTAL Module Sensor Transferable Protection - If you sell your • Power Brake Piston • A/C Expansion Valve • Alternator Pulley REIMBURSEMENT – • Accumulator • Alternator Rotor • Transmission Control • Throttle Positioning If covered component vehicle, your Continental Warranty Inc., • A/C Pressure Cutoff Module Sensor • Backing Plate Switches • Backup Light Switch takes more than 7.0 plan is transferable for a modest fee. This • Body Control Module • Engine Coolant hours of labor guide • Brake Adjusters • A/C Muffler • Defroster Switch increases the resale value of your vehicle to • HVAC Control Module Temperature Sensor time – Rental reim- • Brake Pedal • A/C Compressor • Interior Door Lock • Intake Air Temp. bursement may be a potential buyer. Switch • Traction Control • Brake Pedal Apply Pin • A/C Compressor Module Sensor authorized up to one • Brake Pedal Lever Clutch • Glove Box Light • Neutral or Park calendar week. Switch • Suspension Control Affordable and Convenient - Continental • Brake Pedal Pivot • A/C Compressor Coil Module Position Sensor • Headlight Switch Warranty Inc.,
Recommended publications
  • Harrop Camshaft Grind Specifications

    Harrop Camshaft Grind Specifications

    Harrop Engineering Australia Pty Ltd www.harrop.com.au ABN: 87 134 196 080 Phone: +61 3 9474 - 0900 96 Bell Street, Preston, Fax: +61 3 9474 – 0999 Melbourne, VIC, 3072, Australia Email: [email protected] Harrop Camshaft Grind Specifications Harrop HO1 Camshaft 226/232 .607”/.602” @ 112 LSA Great NA camshaft Lumpy idle but acceptable driveability, Great power and torque Manual or auto standard gear ratios are ok but 3.7 or 3.9 would be preferred. Automatic may require stall converter. Could be used in boosted application but due to low LSA Would require smaller pulley to be increase boost. Harrop HO2 camshaft 224/232 .610” / .610” @ 114 LSA Great blower camshaft offering acceptably lumpy idle and great drivability, this camshaft will give great power through the mid to high RPM range. As this camshaft is more aggressive then the H05. Normally this would require a stall converter, it can be run on a standard converter but it may push on it slightly. Sound clip: https://www.youtube.com/watch?v=NvOGohRd7-k Harrop H03 Camshaft 232/233 .610” / .602” @ 112 LSA Will give great lumpy cammed affect, Low LSA would take boost out of a forced induction motor. Largest recommend camshaft for a 5.7 N/A , Acceptable in 6.0L and 6.2L square port engines, Must have 3.7 (square port) or 3.9 (LS1) for the best results in a manual car. Auto would require stall converter. 1 / 2 File: Harrop Letter Head “Commercial in Confidence” Issue:12th January 2018 designdevelop deliver Print: Friday, 25 September 2020 ` Harrop HO4 camshaft 234/238 .593” / .595” @ 114 LSA The H04 is designed with Forced induction in mind but can be used as a naturally aspirated camshaft as well.
  • Mr. Gasket Catalog

    Mr. Gasket Catalog

    Restore. Restyle. Relive. PRODUCT CATALOG THE MR. GASKET STORY Back in 1964, Joe Hrudka was a drag racer in Northern Ohio who was looking to solve a problem that parts manufacturers had not addressed. Using his own 1957 Chevy drag race car as a test vehicle, he created a line of engine gaskets and fasteners proven to seal and withstand extreme temperatures, pressures and stresses created by high performance engines. This product line that was developed by a drag racer would evolve into a brand of legendary proportions over the next 50 years. Mr. Gasket started with Joe’s ‘57 Chevy and has continued to advance and expand with application coverage and even more new products for muscle cars. Head gaskets, exhaust gaskets and oil pan gaskets were just the beginning. The Mr. Gasket brand develops and distributes a variety of performance parts for your vehicle including: carburetor and fuel accessories, chrome-plated accessories, cooling system accessories, engine components, fuel additives, shifter accessories, specialty tools, suspension and driveline components. Located in Cleveland, Ohio, the Mr. Gasket team continues to design, develop, manufacture and distribute products that bring back the luster and performance that everyone remembers to a variety of auto projects. It may have started with a Chevrolet, but when you are ready to Restore, Restyle and Rebuild your car, Mr. Gasket is who you can trust to have the parts and advice you need to complete your project. Find out about all of the Mr. Gasket products and applications at www.mr-gasket.com www.mr-gasket.com TABLE OF CONTENTS CHEMICALS .......................................................................
  • Camshaft / Balance Shaft Belt Information

    Camshaft / Balance Shaft Belt Information

    ENG-04, Camshaft Belt / Balance Shaft Belt - General Information, Maintenance Intervals, Part Numbers Maintenance Intervals Timing belts have long been the source of many heated discussions and much heartache for 944 owners. Every new or potential 944 owner should read Jim Pasha's article, 944 Timing Belts and Water Pumps in the August 1994 issue of Excellence Magazine. Due to the history of changes in the factory recommendations for timing belt replacement, you'll find a number of different recommendations being given. The recommendations below are based on the most recent factory recommendations with some additional guidance based on personal experience. 944 Mileage Maintenance 2000 Inspect and retension timing and balance shaft belts. 15000* Inspect and retension timing and balance shaft belts. 30000 Inspect and retension timing and balance shaft belts Replace timing and balance shaft belts. Inspect rollers and replace if 45000 necessary. * For vehicles which see limited service, I recommend inspecting the belts after two years if 15000 miles has not been reached and annually thereafter. 968 Mileage Maintenance 15000 Inspect timing and balance shaft belts. 30000* Inspect timing and balance shaft belts. 45000 Inspect timing and balance shaft belts Replace timing and balance shaft belts. Inspect rollers and replace if 60000 necessary. * For vehicles which see limited service, I recommend inspecting the belts after two years if 15000 miles has not been reached and annually thereafter. Parts For highlighted items choose one of the parts based on specific model. Page 1 of 3 Based on my own experience of a tensioner stud failure and reports of similar occurrences from other owners, I recommend replacing the cam belt tensioner mounting stud at each timing belt replacement.
  • Mean Value Modelling of a Poppet Valve EGR-System

    Mean Value Modelling of a Poppet Valve EGR-System

    Mean value modelling of a poppet valve EGR-system Master’s thesis performed in Vehicular Systems by Claes Ericson Reg nr: LiTH-ISY-EX-3543-2004 14th June 2004 Mean value modelling of a poppet valve EGR-system Master’s thesis performed in Vehicular Systems, Dept. of Electrical Engineering at Linkopings¨ universitet by Claes Ericson Reg nr: LiTH-ISY-EX-3543-2004 Supervisor: Jesper Ritzen,´ M.Sc. Scania CV AB Mattias Nyberg, Ph.D. Scania CV AB Johan Wahlstrom,¨ M.Sc. Linkopings¨ universitet Examiner: Associate Professor Lars Eriksson Linkopings¨ universitet Linkoping,¨ 14th June 2004 Avdelning, Institution Datum Division, Department Date Vehicular Systems, Dept. of Electrical Engineering 14th June 2004 581 83 Linkoping¨ Sprak˚ Rapporttyp ISBN Language Report category — ¤ Svenska/Swedish ¤ Licentiatavhandling ISRN ¤ Engelska/English ££ ¤ Examensarbete LITH-ISY-EX-3543-2004 ¤ C-uppsats Serietitel och serienummer ISSN ¤ D-uppsats Title of series, numbering — ¤ ¤ Ovrig¨ rapport ¤ URL for¨ elektronisk version http://www.vehicular.isy.liu.se http://www.ep.liu.se/exjobb/isy/2004/3543/ Titel Medelvardesmodellering¨ av EGR-system med tallriksventil Title Mean value modelling of a poppet valve EGR-system Forfattare¨ Claes Ericson Author Sammanfattning Abstract Because of new emission and on board diagnostics legislations, heavy truck manufacturers are facing new challenges when it comes to improving the en- gines and the control software. Accurate and real time executable engine models are essential in this work. One successful way of lowering the NOx emissions is to use Exhaust Gas Recirculation (EGR). The objective of this thesis is to create a mean value model for Scania’s next generation EGR system consisting of a poppet valve and a two stage cooler.
  • MGB Alternator Conversion Installation Instructions for MGA & 1962 to 1967 MGB PART# 130-078, 130-088, 130-098 440 Rutherford St

    MGB Alternator Conversion Installation Instructions for MGA & 1962 to 1967 MGB PART# 130-078, 130-088, 130-098 440 Rutherford St

    MGB Alternator Conversion Installation Instructions For MGA & 1962 to 1967 MGB PART# 130-078, 130-088, 130-098 440 Rutherford St. Goleta, CA 93117 1-800-642-8295 • FAX 805-692-2525 • www.MossMotors.com Scan the code to watch Moss's Generator to Alternator Conversion Video Or search “Moss TV generator to alternator conversion” on YouTube. Tools required: Vehicle Preparation: Positive Ground to Negative Ground Conversion • Small and medium flat blade screwdriver 1. Remove the battery cover behind the seats using a • Phillips head screwdriver screwdriver to release the dzus fasteners. Disconnect and remove the battery, or both batteries if still • 11/32" wrench, 7/16" wrench, 1/2" wrench, configured for a dual 6 volt set up, using a 1/2" 5/8" wrench wrench. • 7/16" socket with extension, 1/2" socket, 5/8" socket, 22mm socket 2. Disconnect the Yellow/Green and Yellow wires from the generator. If the generator uses ring type • Center punch connectors use a 5/16" and 7/16" wrench. • Hammer 3. For the installation of the Lucas alternator the ignition • 1/4" drill bit, electric drill coil will have to be relocated to the engine bay side • Deadblow hammer of the right fender well. Remove the coil from the generator using a 7/16" socket. Locate a new place • Air impact gun for the coil and mark the hole locations. Using a • Pry bar center punch and hammer, make two dimples at the center of the marks to insure that the drill bit will not • Wire cutters walk around when the holes are being started.
  • Small Engine Parts and Operation

    Small Engine Parts and Operation

    1 Small Engine Parts and Operation INTRODUCTION The small engines used in lawn mowers, garden tractors, chain saws, and other such machines are called internal combustion engines. In an internal combustion engine, fuel is burned inside the engine to produce power. The internal combustion engine produces mechanical energy directly by burning fuel. In contrast, in an external combustion engine, fuel is burned outside the engine. A steam engine and boiler is an example of an external combustion engine. The boiler burns fuel to produce steam, and the steam is used to power the engine. An external combustion engine, therefore, gets its power indirectly from a burning fuel. In this course, you’ll only be learning about small internal combustion engines. A “small engine” is generally defined as an engine that pro- duces less than 25 horsepower. In this study unit, we’ll look at the parts of a small gasoline engine and learn how these parts contribute to overall engine operation. A small engine is a lot simpler in design and function than the larger automobile engine. However, there are still a number of parts and systems that you must know about in order to understand how a small engine works. The most important things to remember are the four stages of engine operation. Memorize these four stages well, and everything else we talk about will fall right into place. Therefore, because the four stages of operation are so important, we’ll start our discussion with a quick review of them. We’ll also talk about the parts of an engine and how they fit into the four stages of operation.
  • Property of ICOM North America

    Property of ICOM North America

    Property of ICOM North America First: Propane can reduce emissions by up to 60% & ZERO Particular matter Second: The USA and CANADA have abundant Propane and Natural Gas Resources! Third: NO WARS!!! Energy Security Fleets can often dramatically reduce their fuel costs by using propane autogas! $$$savings$$$ $$$ Substantial fuel cost savings as compared to gasoline or diesel Reduce emissions of toxins by up to 30-90% compared to gasoline Domestic – Propane is produced in North America, with large reserves in the U.S. and Canada $$$ Lower maintenance cost Greenhouse gas emissions are reduced approximately 20% Maintains the torque, horsepower, and drivability you would feel in a gasoline vehicle Courtesy of PERC For some more information on propane please visit the U.S. Department of Energy, Energy Efficiency and Renewable Energy website or contact your local American Lung Association office. What is Propane? Propane is liquefied petroleum gas that consists of propane, propylene, butane, and butylenes in various mixtures. In the United States, propane is the primary ingredient. Propane is a by-product of natural gas processing and petroleum refining and it is stored under moderate pressure to maintain its liquid state. Why is Propane a Clean Air Choice? Propane vehicles produce less tailpipe emissions of virtually all pollutants associated with automobile vehicles that use gasoline or diesel. According to the U.S. Environmental Protection Agency, a typical four-horsepower gasoline lawnmower engines generates almost six times as much volatile organic compound (VOCs) per hour of use as a typical car. Converting small utility engines such as lawnmowers to burn propane can reduce emissions of ozone precursors by one third and increase fuel economy by 14 percent.
  • Installation Instructions Two Barrel, Throttle Body Fuel Injection for Oldsmobile V­8 Engines in Gmc Motor Homes

    Installation Instructions Two Barrel, Throttle Body Fuel Injection for Oldsmobile V­8 Engines in Gmc Motor Homes

    6201 Industrial Way * Marine City, MI 48039 * Phone 810­765­5100 * Fax 810­765­1503 INSTALLATION INSTRUCTIONS TWO BARREL, THROTTLE BODY FUEL INJECTION FOR OLDSMOBILE V­8 ENGINES IN GMC MOTOR HOMES KIT COMPONENTS: 1. Two barrel TBI unit with integral TPS and Idle Air Control. 2. Electronic control Module (ECM) GM PN 1227747. 3. Howell wiring harness connecting engine to vehicle ECM. 4. Calibration Prom matching TBI to Olds 455 or 403 engine. 5. Cal­pack (V­8), for limp­home operation. 6. Manifold vacuum sensor (MAP). 7. Engine coolant sensor & 3/8” to ½” NPT bushing adaptor. 8. Exhaust Oxygen sensor & 18MM mounting bung. 9. Electric fuel pump—high pressure, in­line. 10. High flow fuel filter, in­line. 11. Fuel line kit. 12. Fuel pump relay. 13. Small parts kit for routing and mounting components. 14. Service manual­basic troubleshooting and operating information. THIS SYSTM IS BASED ON THE PRODUCTION GM (Chevrolet or GMC) THROTTLE BODY FUEL INJECTION AND ELECTRONICS USED FROM 1987­1989, ON 454 CID V­8 ENGINES. ALL BACKUP SYSTEMS AND “ON VEHICLE” DIAGNOSTICS FUNCTION SIMILAR TO THOSE MODEL YEAR PACKAGES. THIS SYSTEM DOES NOT CONTROL SPARK TIMING AS ON 87­89 GM ENGINES, BUT RELIES ON A TACH SIGNAL FROM THE PRODUCTION OLDS HEI ELECTRONIC IGNITION FOR RPM INPUT TO THE ECM. Installation procedure will be separated into the following categories: 1. Preparation of motor home for TBI installation. 2. Removal of non­required parts from carbureted engine. 3. Installation of TBI and engine hardware. 4. Installation of Electronic components and wiring harness. 5.
  • Executive Order D-425-50 Toyota Racing Development

    Executive Order D-425-50 Toyota Racing Development

    State of California AIR RESOURCES BOARD EXECUTIVE ORDER D—425—50 Relating to Exemptions Under Section 27156 of the California Vehicle Code Toyota Racing Development TRD Supercharger System Pursuant to the authority vested in the Air Resources Board by Section 27156 of the Vehicle Code; and Pursuant to the authority vested in the undersigned by Section 39515 and Section 39516 of the Health and Safety Code and Executive Order G—14—012; IT IS ORDERED AND RESOLVED: That the installation of the TRD Supercharger System, manufactured and marketed by Toyota Racing Development, 19001 South Western Avenue, Torrance, California, has been found not to reduce the effectiveness of the applicable vehicle pollution control systems and, therefore, is exempt from the prohibitions of Section 27156 of the Vehicle Code for the following Toyota truck applications: Part No. Model Year Engine Disp. Model PTR29—34070 2007 to 2013 5.7L (3UR—FE) Tundra PTR29—00140 2014 to 2015 5.7L (3UR—FE) Tundra PTR29—34070 2008 to 2013 5.7L (3UR—FE) Sequoia PTR29—00140 2014 to 2015 5.7L (3UR—FE) Sequoia PTR29—60140 2008 to 2015 5.7L (3UR—FE) Land Cruiser/LX570 PTR29—35090 2005 to 2015 4.0L (1GR—FE) Tacoma PTR29—35090 2007 to 2009 4.0L (1GR—FE) FJ Cruiser PTR29—35090 2003 to 2009 4.0L (1GR—FE) 4—Runner PTR29—00130 2010 to 2014 4.0L (1GR—FE) FJ Cruiser PTR29—00130 2010 to 2015 4.0L (1GR—FE) 4—Runner The 5.7L Supercharger System includes a Magnuson supercharger (rated at a maximum boost of 8.5 psi.) with a 2.45 inch diameter supercharger pulley and the stock crankshaft pulley, high flow injectors to replace the stock injectors, a new ECU calibration, intercooler, intake manifold, an air bypass valve, and a new replacement fuel pump which is located in the fuel tank.
  • Small Engine Technology

    Small Engine Technology

    Small Engine Technology Code: 5277 Version: 01 Copyright © 2012. All Rights Reserved. Small Engine Technology General Assessment Information Blueprint Contents General Assessment Information Sample Written Items Written Assessment Information Performance Assessment Information Specic Competencies Covered in the Test Sample Performance Job Test Type: The Small Engine Technology assessment is included in NOCTI’s Teacher assessment battery. Teacher assessments measure an individual’s technical knowledge and skills in a proctored prociency examination format. These assessments are used in a large number of states as part of the teacher licensing and/or certication process, assessing competency in all aspects of a particular industry. NOCTI Teacher tests typically oer both a written and performance component that must be administered at a NOCTI-approved Area Test Center. Teacher assessments can be delivered in an online or paper/pencil format. Revision Team: The assessment content is based on input from subject matter experts representing the following states: Idaho, Maine, Michigan, Pennsylvania, and Virginia. CIP Code 47.0606- Small Engine Career Cluster 16- 49-3053.00- Outdoor Power Mechanics and Repair Transportation, Distribution, Equipment and Other Technology/Technician and Logistics Small Engine Mechanics NOCTI Teacher Assessment Page 2 of 10 Small Engine Technology Wrien Assessment NOCTI written assessments consist of questions to measure an individual’s factual theoretical knowledge. Administration Time: 3 hours Number of Questions:
  • Understanding Overhead-Valve Engines Once Unheard of These Engines Now Supply the Power for Nearly All of Your Equipment

    Understanding Overhead-Valve Engines Once Unheard of These Engines Now Supply the Power for Nearly All of Your Equipment

    Understanding Overhead-Valve Engines Once unheard of these engines now supply the power for nearly all of your equipment. By ROBERT SOKOL Intertec Publishing Corp., Technical Manuals Division You've all heard about overhead valves when shopping Valve-Design Characteristics for power equipment, but what do they mean to you? Do The valves consist of a round head, a stem and a groove you need overhead valves? Do they cost more? What will at the top of the valve. The head of the valve is the larger they do for you? Twenty years ago, overhead valves were end that opens and closes the passageway to and from the unheard of in any type of power equipment. Nowadays, it combustion chamber. The stem guides the valve up and is difficult to find a small engine without them. down and supports the valve spring. The groove at the top In an engine with overhead valves, the intake and of the valve stem holds the valve spring in place with a exhaust valve(s) is located in the cylinder head, as opposed retainer lock. The valves must open and close for the air- to being mounted in the engine block. Many of the larger and-fuel mix to enter, then exit, the combustion chamber. engine manufacturers still offer "standard" engines that Proper timing of the opening and closing of the valves is have the valves in the block. Their "deluxe" engines have required for the engine to run smoothly. The camshaft con- overhead valves and stronger construction. Overhead trols valve sequence and timing.
  • Leburg Electronic Ignition System EI10A Installation Manual

    Leburg Electronic Ignition System EI10A Installation Manual

    Leburg Electronic Ignition System EI10A Installation Manual For Aero VW’s - Or Any 2 Or 4 Cylinder 4 Stroke Engine Skycraft Ltd Telephone: 01406 540777 Riverside House Bloodfold Farm Website: www.skycraft.ltd Ravens Bank Saturday Bridge Email: [email protected] Holbeach Lincolnshire Facebook: @skycraftlimited PE12 8SR © Skycraft Ltd 2013 Leburg EI10A Manual—July 2020 Page 1 Contents 1. Read This First 2. The VW As An Aero Engine 3. Ignition System Performance 4. Principles Of Operation 5. Set Up 6. Power Supplies 7. Fitting A Honda CBR 600 Alternator 8. Manufacture & Assembly Notes 9. Wiring Notes 10. Wiring Up The Spark Plugs 11. Drawings © Skycraft Ltd 2013 Leburg EI10A Manual—July 2020 Page 2 1. Read This First By virtue of the techniques, design, components used and the care taken in building and testing, each ignition controller is believed to be highly reliable. The risk of failure is thus low, but it is finite. Therefore, this system is only made available on the basis that the user agrees to implement a Dual Ignition System. The Leburg system is the dual system, with the power supply system described in this manual. If any change from this is intended, you will need to check with the LAA that they will accept it. If a different alternator or power system is used, again, you will need to check with the LAA that they will accept it. The benefits of smooth running and getting the maximum power are obtained when the system is installed as described in this manual, with dual controllers, dual ignition spark plugs, both firing at the same time at the optimum advance angle.