附录二外文资料原文Design of driving axleAs the car to safety,energy saving,the constant attention to environmental protection, vehicle after vehicle bridge as a key component,the quality of their products on the safe use of cars and car performance of a very large,so the car after Bridge Effectively optimize the design and calculation is very necessary.Drive axle powertrain at the end of their basic function is to increase the transmission came from the drive shaft or torque,and a reasonable distribution of power to the left and right wheel,in addition to acting on the road and under the frame or body legislation between the vertical,longitudinal and lateral force.General from the main drive axle reducer, differential,gear wheels and drive axle housings and other components.The design of the Drive axle:Whether the design of the drive axle directly affects the performance of the vehicle is good or bad.so that,Drive axle should be designed to meet the basic requirements are as follows:(1)Select the main reduction ratio should be able to ensure the car has the best power and fuel economy.(2)Smaller size,to ensure that the necessary ground clearance.(3)Gear and other pieces of the work of a smooth transmission,and small noise.(4)In a variety of speed and load with a high transmission efficiency.(5)In ensuring adequate strength and stiffness conditions,should strive for the quality of small,especially under the mass-spring should be as small as possible in order to improve vehicle ride comfort.(6)And suspension movement-oriented coordination of steering drive axle,but also with the coordination of steering movement.(7)The structure of simple,good processing,manufacturing,easy disassembly,to facilitate adjustment.Drive axle classificationAt non-drive axle disconnect disconnect-style-type with two broad categories.1.disconnect-type drive axleDrive the use of independent suspension bridge,that is the main reducer shell fixed on the vehicle chassis,on both sides of the axle and wheel in the horizontal plane as opposed to relative movement of the body is referred to as drive off the bridge.In order to match with independent suspension,the main reducer shell fixed at the frame (or body),the drive axle housing sub connected through the hinge,or in addition to the main reducer shell outside the shell is no longer driven to other parts of the bridge.Wheel in order to meet the needs of independent jump up and down,between the differential and the wheel axle of the above connection between the use of universal joints.2.Non-disconnect-type drive axleNon-disconnect-type drive axle also known as integrated drive axle,the axle casing and the main shaft reducer with shell shell and connected to a rigid beam,which on both sides of the axle and wheel related to swing through the flexible connected with the frame components. It consists of drive axle housing1,the main reducer,differential and axle components.The design for medium duty truck drive axle design.Due to the non disconnect type drive axle and disconnect type drive axle compared,the utility model has the advantages of simple structure,low cost,reliable work,maintenance and adjustment is also very simple,the driven wheel and the non independent suspension,so the design by non disconnect type drive axleDrive axle componentsDriven mainly by the main bridge reducer,differential,axle and drive axle housings and other components.1.Main reducer assemblyUsed to change the main drive reducer general direction,to reduce speed and increase torque,and ensure there is sufficient car drivers and the appropriate speed skin.More types of the main reducer,a single-stage,dual-class,two-speed,such as Wheel Speed Reducer.1.1single-stage main reducerReduction gear by a slowdown in the realization of the devices,called single-stage reducer.Its structure is simple,light weight,such as Dongfeng BQl090type light andmedium-sized trucks on a wide range of applications.1.2two-stage main reducerLarger number of heavy-duty trucks,require a larger reduction ratio,the main use of a single-stage reducer drive,moving from gear to be larger in diameter will affect the drive axle of the ground clearance,so the use of two slowdown.Often referred to as two-stage reducer. There are two sets of two-stage reduction gear reducer,speed the realization of the two by twisting.In order to enhance the meshing gear pair taper and strength of a smooth,slow down the first-class pair of spiral bevel gear is.Gears2is inclined gear teeth due to prop.Take the initiative to rotate bevel gear,gear driven rotary driven round silver,thus completing a slowdown.Active second stage cylindrical gear reducer and the driven bevel gear coaxial with the rotation,and drive gear driven rotating cylinder,a second-class speed. Due to the driven gear mounted on the cylindrical shell on the differential,so that when the driven gear rotating cylinder,through the differential and drive axle that is,the rotation of the wheels.2.DifferentialDifferential is designed to connect the axle around,on both sides of the wheels can rotate at different angular torque transfer at the same time.To ensure the normal scroll wheel.Some multi-bridge-driven cars,in the sub-actuator type or in the transmission through the shaft is also equipped with a differential,known as the bridge between the differential.Its role is to turn in the car or on uneven road surface,so that drive wheels before and after the differential between the role.The differential is part of the rear-axle-housing assembly,which includes the differential, rear axles,wheels,and bearings.If the car were to be driven in a straight line without having to make turns,then no differential would be necessary.However,when the car rounds a turn, the outer wheel must travel farther than the inner wheel.The differential permits the two rear wheels to rotate different amounts when the car goes around a turn,while still delivering power to both rear wheels.The rear axles are attached to the wheels and have bevel side gears on their inner ends.The differential case is assembled on the left axle but can rotate on a bearing independently of the axle.The differential case supports the differential-pinion gear on a shaft,and this gear meshes with the two bevel gears.The ring gear is attached to the differential case so that the case rotates with the ring gear when the later is driven by the drive pinion.The driving power enters the differential through the drive pinion on the end of the propeller shaft.The drive pinion is meshed with a large ring gear so that the ring gear revolves with the pinion.Attached to the ring gear(through the differential case)is a differential-pinion shaft on which are assembled two differential-pinion gears.Each rear car wheel has a separate axle, and there are two side gears splined to the inner ends of the two wheel axles.The two differential-pinion gears mesh with these two side gears.When the car is on a straight road, the two differential-pinion gears do not rotate on the pinion shaft,but they do exert pressure on the two side gears so that the side gears turn at the same speed as the ring gear,causing both rear wheels to turn at the same speed,also.The differential case is supported in the carrier by two tapered-roller side bearings.This assembly can be adjusted from side to side to provide the proper backlash between the ring gear and pinion and the required side bearing preload.This adjustment is achieved by threaded bearing adjusters on some units and the placement of selective shims and spacers on others.The differential case is supported in the carrier by two tapered-roller side bearings.This assembly can be adjusted from side to side to provide the proper backlash between the ring gear and pinion and the required side bearing preload.This adjustment is achieved by threaded bearing adjusters on some units and the placement of selective shims and spacers on others.Transaxle final drive gears provide the means for transmitting transmission output torque to the differential section of the transaxle.The differential section of the transaxle has the same components as the differential gears in a RWD axle and basically operate in the same way.The power flow in transversely mounted power trains is in line with the wheels and therefore the differential unit does not need to turn the power90degrees.When the car rounds a curve,the outer wheel must turn faster than the inner wheel.To permit this,the two pinion gears rotate on their pinion shaft,transmitting more turning movement to the outer side gear than to the inner side gear.Thus,the side gear on theouter-wheel axle turns more rapidly than the side gear on the inner-wheel axle.This permits the outer wheel to turn more rapidly while the car is rounding the curve.There are two basic types of axle:dead axles and live axle.The dead axle does not rotate;the wheel rotates on it.A common example is the axle on a horse-drawn wagon.Live axles are attached to the wheel so that both the wheel and the axle rotate together.Live axles are classified according to the manner in which they are supported:semi-floating,three-quarter-floating,and full-floating.Propeller Shaft and Universal JointThe propeller shaft is a drive shaft to carry the power from the transmission to the rear-wheel axles.It connects the transmission main,shaft carries through the propeller shaft to the differential at the rear axles.Rotary motion of the transmission main shaft carries through the propeller shaft to the differential,causing the rear wheels to rotate.The propeller-shaft design must take two facts into consideration.First,the engine and transmission are more or less rigidly attached to the car frame.Second,the rear-axle housing (with wheels and differential)is attached to the frame by springs.As the rear wheels encounter irregularities in the road,the springs compress or expand.This changes the angle of drive and the distance between the transmission and the differential,and the propeller shaft may take care of these two changes.That is to say,as the rear axle housing,with differential and wheels,moves up and down,the angel between the transmission output shaft changes. The reason the propeller shaft shortens as the angel increases is that the rear axle and differential move in a shorter arc than the propeller shaft.The center point of the axle-housing arc is the rear-spring or control-arm attachment to the frame.In order that the propeller shaft may take care of these two changes,it must incorporate two separate types of device.There must be one or more universal joints to permit variations in the angel of drive.There must also be a slip joint that permits the effective length of the propeller shaft to change.The propeller shaft may be solid or hollow,protected by an outer tube or exposed.Some applications include bearings at or near the propeller shaft center to support the shaft.The two-section propeller is supported by a center bearing and coupled together by universal joints.A universal joint is essentially a double-hinged joint consisting of two Y-shaped yokes,one on the driving shaft and the other on the driven shaft,and across-shaped member called the spider.The four arms of the spider,known as trunnions,are assembled into bearings in theends of the two shaft yokes.The driving shaft causes the spider to rotate,and the other two trunnions of the spider cause the driven shaft to rotate.When the two shafts are at an angel to each other,the bearings in the yokes permit the yokes to swing around on the trunnions with each revolution.A variety of universal joints have been used on auto mobiles,but the types now in most common use are the spider and two-yoke,the constant-velocity,and the ball-and-trunnion joints.A slip joint consists of outside splines on one shaft and matching internal splines in the mating hollow shaft,the splines cause the two shafts to rotate together but permit the two to move endwise with each other.This accommodates any effective change of length of the propeller shaft as the rear axles move toward or away from the car frame.At present,China-made cars and other types of vehicles in the basic use of symmetric ordinary differential bevel gear.Symmetric by the planetary bevel gear differential gear,axle gears,planetary gear axis(cross-axis or a direct-axis)and the differential composition of the shell and so on.At present the majority of planetary gear-type motor vehicles using differential and ordinary differential bevel gear cone by two or four planet gears,planetary gear shaft,the two cone axle differential gear,and about the composition of the shell and so on.3.Auto semi-axleAxle is the differential torque and then came to the wheels,drive wheels spin,promote the solid axle car.As a result of the installation of wheel structure,and the forces of the axle are also different.Therefore,divided into full-floating axle,semi-floating,3/4,three types of floating.3.1full-floating axleGenerally large and medium-sized used car floating the whole structure.Axle with the inner end of the spline axle with the differential gear connected to the outer end of the axle forging a flange with bolts and wheel hub to connect.Wheel away from the more distant of two tapered roller bearings for the text on the axle casing.Rear axle shell casing pressure and one pair to form the drive axle housing.Supporting the use of such forms,axle and axle housing no direct link so that only bear the drive axle torque without bearing any moment,theaxle referred to as"full-floating"axle.The so-called"floating",meaning not subject to bending load axle.Full-floating axle,the outer end flange plate for one made with the axis.But there are also a number of trucks to make a separate flange parts,and by nested spline outer end in the axle.Thus,at both ends of the axle spline,you can use for the first.3.2semi-floating axleSemi-floating axle with the inner end of the same floating,not subject to bending and torsion.Away from direct client support through a bearing in the axle of the inner shell.This approach will support the outer end axle bearing moment.Therefore,this short-sleeve in addition to transfer torque,but also to sustain the local moment,it is known as the semi-floating axle.This structure is mainly used in small passenger cars.3.33/4floating axle3/4floating axle is affected by the degree of bending between the short semi-floating and full floating between.At present the application of this type halfshaft few pickup truck only on individual applications such as Warsaw,M20vehicles.4.Automobile axle housing:4.1the overall shell-style bridgeBridge shell due to the overall strength and stiffness performance,ease of main reducer installation,adjustment and maintenance,and are widely used.Integral axle housing due to different manufacturing methods can be divided into the overall foundry type,pressed into the middle of casting steel pipe and welded steel plate,such as stamping.4.2sub-type drive axle housingSub-type axle housing will generally be divided into two sections,from two sections of a connecting bolt.Sub-type axle housing casting and processing easier.。
