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Published byMorris Lawrence Modified over 9 years ago
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Automotive Drivetrains Connect/disconnect engines power to the drive wheel(s) allow for different speed ratios provide for reverse power control for safe turning torque multiplication 2 Purpose:
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Automotive Drivetrains Transmission Axle assembly Transaxle (fwd) Drive Shaft(s) related components 3 Components:
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Automotive Drivetrains The turning effort of the crankshaft measured in pounds per foot maximum torque is produced within a narrow RPM range (torque curve) 4 Engine torque:
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Engine Torque 6
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Automotive Drivetrains = work performed at the rate at which it is being done = torque X RPM / 5252 7 Horsepower
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Engine Horsepower 8
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Automotive Drivetrains Used to apply torque to other rotating parts of the drivetrain used to multiply torque in automobiles 10 Gears
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Automotive Drivetrains Spur gear (most basic) Helical gear (helix = form a curve) Herringbone gear = 1 gear w/2 helical gears w/teeth angles reversed Bevel gear - cone w/top cutoff hypoid gear - similar to above planetary gear(set) 11 Gear Types
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Automotive Drivetrains 12 Spur gear
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Automotive Drivetrains 13 Helical Gear
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Automotive Drivetrains 14 Straight Bevel Gearset Gears must be perpendicular to each other
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Automotive Drivetrains 15 Spiral Bevel vs. Hypoid
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Worm Gear 16
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Automotive Drivetrains 17 Planetary Gear
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Automotive Drivetrains Backlash - the clearance between two meshed gears – measured with a dial indicator end play - axial or end-to-end movement of a gear – also measured with a dial indicator 18 Gear Measurements
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Torque Multiplication Torque is calculated by multiplying force X distance OR the center of the shaft times (X) the point where the force is exerted 20
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Automotive Drivetrains 21 Gears Continued:
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Automotive Drivetrains 22 Gears continued:
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Automotive Drivetrains As torque is multiplied power remains unchanged 23
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Automotive Drivetrains The mathematical relationship of one gear to another expresses the amount of torque multiplication between two gears ratio = # of teeth of DRIVEN gear / # of teeth of drive gear - OR - ratio = outside diameter of DRIVEN gear/ O.D. of drive gear 24 Gear Ratios:
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Gear Ratio 25
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Automotive Drivetrains = a reduction in the driven gears speed = an increase in the driven gears torque 26 Gear Reduction
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Automotive Drivetrains 27
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Automotive Drivetrains If the DRIVING gear in the previous example is producing 250 ft.-lb. of torque how much torque is the DRIVEN gear producing? 28 4 X 250 = 1000 ft.-lb. torque
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Automotive Drivetrains Bearings 29 Used to attach a shaft to a common component AND allow for movement or rotation friction reduction
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Automotive Drivetrains Bushing (simplest type) also called a plain type bearing ball bearing - balls used for friction reduction roller bearing tapered roller 30 Bearing Types
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Bushing (simplest type) also called a plain type bearing 31
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Ball Bearing 32
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Roller Bearing 33
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Needle Roller Bearing 34
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Tapered Roller Bearing 35
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Automotive Drivetrains radial or journal bearing thrust bearing 36 Bearing Usage
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Automotive Drivetrains Bearing preload - the amount of torque- load on a bearing – measured with a torque wrench 37 Bearing Measurements
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Automotive Drivetrains CLUTCH 38 The engine produces torque Torque is transferred to the drive wheels through a series of gears and shafts How do we disconnect engine power from the drive wheels?
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