AUTOMOTIWE FINAL DRIVE
FINAL DRIVE
A final drive is that part of a power transmission system between the drive shaft and the differential. Its function is to change the direction of the power transmitted by the drive shaft through 90 degrees to the driving axles. At the same time. it provides a fixed reduction between the speed of the drive shaft and the axle driving the wheels.
The reduction or gear ratio of the final drive is determined by dividing the number of teeth on the ring gear by the number of teeth on the pinion gear. In pasnger vehicles, this speed reduction varies from about 3:1 to 5:1. In trucks it varies from about 5:1 to 11:1. To calculate rear axle ratio, count the number of teeth on each gear. Then divide the number of pinion teeth into the number of ring gear teeth. For example, if the pinion gear has 10 teeth and the ring gear has 30 (30 divided by 10), the rear axle ratio would be 3:1. Manufacturers install a rear axle ratio that provides a compromi between performance and economy. The average pasnger car ratio is 3.50:1.
The higher axle ratio, 4.11:1 for instance, would increa acceleration and pulling power but would decrea fuel economy. The engine would have to run at a higher rpm to maintain an equal cruising speed.
The lower axle ratio. 3:1, would reduce acceleration and pulling power but would increa fuel mileage. The engine would run at a lower rpm while maintaining the same speed.
The major components of the final driveinclude the pinion gear, connected to the drive shaft, and a bevel gear or ring gear that is bolted or riveted to the differential carrier. To maintain accurate and proper alignment and tooth contact, the ring gear and differential asmbly are mounted in bearings. The bevel drive pinion is supported by two tapered roller bearings, mounted in the differential carrier. This pinion shaft is straddle mounted. meaning that a bearing is located on each side of the pinion shaft teeth. Oil als prevent the loss of lubricant from the housing where the pinion shaft and axle shafts protrude. As a mechanic, you will encounter the final drive gears in the spiral bevel and hypoid design.
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aragornSpiral Bevel Gear
young15 girl 中国Spiral bevel gears have curved gear teeth with the pinion and ring gear on the same center line. This type of final drive is ud extensively in truck and occasionally in older automobiles. This design allows for constant contact between the ring gear and pinion. It also necessitates the u of heavy grade lubricants.
四强雄蕊Hypoid Gear
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The hypoid gear final drive is an improvement or variation of the spiral bevel design and is commonly ud in light and medium trucks and all domestic rear- wheel drive automobiles. Hypoid gears have replaced spiral bevel gears becau they lower the hump in the floor of the vehicle and improve gear-meshing action. As you can e in figure 5-13, the pinion meshes with the ring gear below the center line and is at a slight angle (less than 90 degrees).
Figure 5-13.—Types of final drives. yixi
This angle and the u of heavier (larger) teeth permit an incread amount of power to be transmitted while the size of the ring gear and housing remain constant. The tooth design is similar to the spiral bevel but includes some of the characteristics of the worm gear. This permits the reduced drive angle. The hypoid gear teeth have a more pronounc
ieaed curve and steeper angle, resulting in larger tooth areas and more teeth to be in contact at the same time. With more than one gear tooth in contact, a hypoid design increas gear life and reduces gear noi. The wiping action of the teeth caus heavy tooth pressure that requires the u of heavy grade lubricants.
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Double-Reduction Final Drive
In the final drives shown in figure 5-13, there is a single fixed gear reduction. This is the only gear reduction in most automobiles and light- and some medium-duty trucks between the drive shaft and the wheels.
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2019高考英语Double-reduction final drives are ud for heavy- duty trucks. With this arrangement (fig. 5-14) it is not necessary to have a large ring gear to get the necessary gear reduction. The first gear reduction is obtained through a pinion and ring gear as the single fixed gear reduction final drive. Referring to figure 5-14, notice that the condary pinion is mounted on the primary ring gear shaft. The cond gear reduction is the result of the condary pinion which is rigidly attached to the primary ring gear, driving a large helical
gear which is attached to the differential ca. Double-reduction final drives may be found on military design vehicles, such as the 5-ton truck. Many commercially designed vehicles of this size u a single- or double-reduction final drive with provisions for two speeds to be incorporated
