机械毕业设计英文外文翻译407驱动桥微分

Mechanical engineering1.The porfile of mechanical engineeringEngingeering is a branch of mechanical engineerig,itstudies mechanical and power generation especially power and movement.2.The history of mechanical engineering18th century later periods,the steam engine invention hasprovided a main power fountainhead for the industrialrevolution,enormously impelled each kind of mechznicalbiting.Thus,an important branch of a newEngineering –separated from the civil engineering tools andmachines on the branch-developed together with Birmingham andthe establishment of the Associantion of Mechanical Engineersin 1847 had been officially recognized.The mechanicalengineering already mainly used in by trial and error methodmechanic application technological development into professional engineer the scientific method of which in theresearch,the design and the realm of production used .From themost broad perspective,thedemend continuously to enhance theefficiencey of mechanical engineers improve the quality of work,and asked him to accept the history of the high degreeof education and training.Machine operation to stress not only economic but also infrastructure costs to an absolute minimun.3.The field of mechanical engineeringThe commodity machinery development in the develop country,in the high level material life very great degree is decided each kind of which can realize in the mechanical engineering.Mechanical engineers unceasingly will invent the machine next life to produce the commodity,unceasingly will develop the accuracy and the complexity more and more high machine tools produces the machine.The main clues of the mechanical development is:In order to enhance the excellent in quality and reasonable in price produce to increase the precision as well as to reduce the production cost.This three requirements promoted the complex control system development.The most successful machine manufacture is its machine and the control system close fusion,whether such control system is essentially mechanical or electronic.The modernized car engin production transmission line(conveyer belt)is a series of complex productions craft mechanization very good example.The people are in the process of development in order to enable further automation of the production machinery ,the use of a computer to store and handle largevolumes of data,the data is a multifunctional machine tools necessary for the production of spare parts.One of the objectives is to fully automated production workshop,threerotation,but only one officer per day to operate.The development of production for mechanical machinery must have adequate power supply.Steam engine first provided the heat to generate power using practical methods in the old human,wind and hydropower,an increase of engin .New mechanical engineering industry is one of the challenges faced by the initial increase thermal effciency and power,which is as big steam turbine and the development of joint steam boilers basically achieved.20th century,turbine generators to provide impetus has been sustained and rapid growth,while thermal efficiency is steady growth,and large power plants per kW capital consumption is also declining.Finally,mechanical engineers have nuclear energy.This requires the application of nuclear energy particularly high reliability and security, which requires solving many new rge power plants and the nuclear power plant control systems have become highly complex electroonics,fluid,electricity,water and mechanical parts networks All in all areas related to the mechanical engineers.Small internal combustion engine,both to the type(petrol and diesel machines)or rotary-type(gas turbines and Mong Kerr machine),as well as their broad application in the field of transport should also due to mechanical enginerrs.Throughout the transport,both in the air and space,or in the terrestrial and marine,mechanial engineers created a variety of equipment and power devices to their increasing cooperation with electrical engineers,especially in the development of appropration control systems.Mechanical engineers in the development of military weapons technology and civil war ,needs a similar,though its purpose is to enhance rather than destroy their productivity.However.War needs a lot of resources to make the area of techonlogy,many have a far-reaching development in peacetime efficiency.Jet aircraft and nuclear reactors are well known examples.The Biological engineering,mechanical engineering biotechnology is a relatively new and different areas,it provides for the replacement of the machine or increase the body functions as well as for medical equipment.Artficial limbs have been developed and have such a strong movement and touch response function of the human body.In the development of artificial organ transplant is rapid,complex cardiac machines and similar equipment to enable increasingly complexsurgery,and injuries and ill patients life functions can be sustained.Someenviromental control mechanical engineers through the initial efforts to drainage or irrigation pumping to the land and to mine and ventilation to control the human environment.Modern refrigeration and air-conditioning plant commonaly used reverse heat engine,where the heat from the engine from cold places to more external heat.Many mechanical engineering products,as well as other leading technology development city have side effects on the environment,producingnoise,water and air pollution caused,destroyed land and landscape.Improve productivity and diver too fast in the commodity,that the renewable natural forces keep pace.For mechanical engineers and others,environmental control is rapidly developing area,which includes a possible development and production of small quantities of pollutants machine sequnce,and the development of new equipment and teachnology has been to reduce and eliminate pollution.4.The role of mechanical engineeringThere are four generic mechanical engineers in common to the above all domains function.The 1st function is the understanding and the research mechanical sciencefoundation.It includes the power and movement of the relationship dynamics For example,in the vibration and movement of the relationship;Automaticcontrol;Study of the various forms of heart,energy,power relations between the thermodynamic;Fluidflows; Heat transfer; Lubricant;And material properties.The 2nd function will be conducts the research,thedesing and the development,this function in turn attempts to carry on the essential change to satisfy current and the future needs.This not only calls for a clear understanding of mechanical science,and have to break down into basic elements of a complex system capacity.But also the need for synthetic and innovative inventions.The 3rd function is produces the product and the power,includeplan,operation and maintenance.Its goal lies in the maintenance either enhances the enterprise or the organization longer-tern and survivabilaty prestige at the same time,produces the greatest value by the least investments and the consumption.The 4th function is mechanical engineer’s coordinated function,including the management,theconsultation,as well as carries on the market marking in certain situation.In all these function,one kind unceasingly to use thescience for a long time the method,but is not traditional or the intuition method tendency,this is a mechanical engineering skill aspect which unceasingly grows.These new rationalization means typical names include:The operations research,the engineering economics,the logical law problem analysis(is called PABLA) However,creativity is not rationalization.As in other areas,in mechanicalengineering, to take unexpected and important way to bring about a new capacity,still has a personal,markedcharacteristice.5.The design of mechanical engineeringThe design of mechanical is the design has the mechanical property the thing or the system,suchas:the instrument and the measuring appliance in very many situations,the machine design must use the knowledge of discipline the and so on mathematics,materials science and mechanics.Mechanical engineering desginincludeing all mechanical desgin,but it was a study,because it also includes all the branches of mechsnicalengineering,such as thermodynamics all hydrodynamics in the basic disciplines needed,in the mechanical engineering design of the initial stude or mechanical design.Designstages.The entire desgin process from start to finish,in the process,a demand that is designed forit and decided to do the start.After a lot of repetition,the final meet this demand by the end of the design procees and the plan.Designconsiderations.Sometimes in a system is to decide which parts needs intensity parts of geometric shapes and size an important factor in this context that we must consider that the intensity is an important factor in the design.When we use expression design considerations,we design parts that may affect the entire system design features.In the circumstances specified in the design,usually for a series of such functions must be taken into account.Howeever,to correct purposes,we should recognize that,in many cases the design of important design considerations are not calculated or test can determine the components or systems.Especiallystudents,wheen in need to make important decisions in the design and conduct of any operation that can not be the case,they are often confused.These are not special,they occur every day,imagine,forexample,a medical laboratory in the mechanical design,from marketing perspective,people have high expectations from the strength and relevance of impression.Thick,and heavy parts installed together:to produce a solid impression machines.And sometimes machinery and spare parts from the design style is the point and not theother point of view.Our purpose is to make those you do not be misled to believe that every design decision will need reasonable mathematical methods.Manufacturing refers to the raw meterials into finished products in the enterprise.Create three distinct phases.Theyare:input,processingexprot.The first phase includes the production of all products in line with market needs essential.First there must be the demand for the product,the necessary materials,while also needs such as energy,time,human knowledge and technology resourcess . Finall,the need for funds to obtain all the other resources. Lose one stage after the second phase of the resources of the processes to be distributed.Processing of raw materials into finished products of these processes.To complete the design,based on the design,and then develop plans.Plan implemented through various production processes.Management of resources and processes to ensure efficiency and productivity.Forexample,we must carefully manage resources to ensure proper use of funds.Finally,people are talking about the product market was cast.Stage is the final stage of exporting finished or stage.Once finished just purchased,it must be delivered to the users.According to productperformance,installation and may have to conduct further debugging in addition,someproducts,especially those very complex products User training is necessary.6.The processes of materials and maunfacturingHere said engineering materials into two main categories:metals and non-ferrous,high-performance alloys and power metals.Non-metallic futher divided into plastice,syntheticrubber,composite materials and ceramics.It said the production proccess is divided into several major process,includingshape,forging,casting/founding,heattreatment,fixed/connections ,measurement/ quality control and materalcutting.These processes can be further divide into each other’s craft.Various stages of the development of the manufacturing industry Over the years,the manufacturing process has four distinct stages of development, despite the overlap.These stages are:The first phase is artisanal,the second Phase is mechanization.The third phase is automation the forth Phase is integrated.When mankind initial processing of raw materials into finished products will be,they use manual processes.Each with their hands and what are the tools manusllyproduced.This is totally integrated production take shape.A person needsindentification,collectionmaterials,the design of a product to meet that demand,the production of such products and use it.From beginning to end,everything is focused on doing the work of the human ter in the industrial revolution introduced mechanized production process,people began to use machines to complete the work accomplished previously manual. This led to the specialization.Specialization in turn reduce the manufacture of integrated factors.In this stage of development,manufacturing workers can see their production as a whole represent a specific piece of the part of the production process.Onecan not say that their work is how to cope with the entire production process,or how they were loaded onto a production of parts finished.Development of manufacting processes is the next phase of the selection process automation.This is a computer-controlled machinery and processes.At this stage,automation island began to emerge in the workshop lane.Each island represents a clear production process or a group of processes.Although these automated isolated island within the island did raise the productivity of indivdualprocesses,but the overall productivity are often not change.This is because the island is not caught in other automated production process middle,but not synchronous withthem .The ultimate result is the efficient working fast parked through automated processes,but is part of the stagnation in wages down,causingbottlenecks.To better understand this problem,you can imagine the traffic in the peak driving a red light from the red Service Department to the next scene. Occasionally you will find a lot less cars,more than being slow-moving vehicles,but the results can be found by the next red light Brance.In short you real effect was to accelerate the speed of a red Department obstruction offset.If you and other drivers can change your speed and red light simultaneously.Will advance faster.Then,all cars will be consistent,sommthoperation,the final everyone forward faster.In the workshop where the demand for stable synchronization of streamlined production,and promoted integration of manufacturing development.This is a still evolving technology.Fully integrated in the circumstances,is a computer-controllrd machinery and processing.integrated is completed through computer.For example in the preceding paragraph simulation problems,the computer will allow all road vehicles compatible with the change in red.So that everyone can steady traffic.Scientific analysis of movement,timing and mechanics ofthe disciplines is that it is composed of two pater:statics and dynamics.Statics analyzed static system that is in the system,the time is not taken into account,research and analysis over time and dynamics of the system change.Dynameics from the two componets.Euler in 1775 will be the first time two different branches: Rigid body movement studies can conveniently divided into two parts:geometric and mechanics.The first part is without taking into account the reasons for the downward movement study rigid body from a designated location to another point of the movement,and must use the formula to reflect the actual,the formula would determine the rigid body every point position. Therefore,this study only on the geometry and,morespecifically,on the entities from excision.Obviously,the first part of the school and was part of a mechanical separation from the principles of dynamics to study movement,which is more than the two parts together into a lot easier.Dynamics of the two parts are subsequently divided into two separate disciplines,kinematic and dynamics,a study of movement and the movement strength.Therefore,the primary issue is the design of mechanical systems understand its kinematic.Kinematic studies movement,rather than a study ofits impact.In a more precise kinematic studies position,displacement,rotation, speed,velocity and acceleration of disciplines,foresample,or planets orbiting research campaing is a paradigm.In the above quotation content should be pay attention that the content of the Euler dynamics into kinematic and rigid body dynamics is based on the assumption that they are based on research.In this very important basis to allow for the treatment of two separate disciplines.For soft body,soft body shape and even their own soft objects in the campaign depends on the role of power in their possession.In such cases,should also study the power and movement,and therefore to a large extent the analysis of the increased complexity.Fortunately, despite the real machine parts may be involved are more or less the design of machines,usually with heavy material designed to bend down to the lowest parts.Therefore,when the kinematic analysis of the performance of machines,it is often assumed that bend is negligible,spare parts are hard,but when the load is known,in the end analysis engine,re-engineering parts to confirm this assnmption.机械工程1.机械工程简介机械工程是工程学的一个分支，它研究机械和动力的产，尤其是力和动力。

Driving Axleautomobile driving axleThe driving axle is one of cross bars supporting a vehicle, on which the driving wheels turn .The driving axle includes a housing ,an axle drive ,a differential , tow axle shafts (half axles ),and final drives (if any ) .The axle .or main, drive is a drive-line unit that increases the torque delivered by the transmission and transmits it to the driving wheels, via the differential. In automobiles, the axle drive shaft, usually called the propeller shaft.The axle drive may be a Single or a double-stage type, the former comprising a pair of gears and the latter .tow pairs of gear. Drive pinion I may be made integral with its shaft, or it may be detachable from the shaft. Driving gears and are usually made in the form of detachable gear rings that are bolted or riveted to the differential case .Alex drive bevel pinions and gears are made with helical teeth in order to reduce noise in operation.The tow-stage axle drive consists of a pair of bevel gears and a pair of spur gears. Drive bevel pinion drives bevel gear that is fixed to the flange of the intermediate shaft made integral with 2nd–stage driving spur gear .Gears meshes with driven spur gear which is fastened to the case rotates in taper roller bearings installed in the differential carrier that makes part of the driving axle housing.The differential is a drive-line unit that divides the torque applied to it between the tow axle shafts and allows one driving wheel to turn at a different speed from the other.The differential consists of case, cross or spider pinion .and side gears, also known as axle gears .the differential pinions are freely mounted on the cylindrical arms of the spider, which is held in the differential case, and remain in constant mesh with the differential side gears.When the automobile is moving down a straight and even road, both driving wheels meet with one and the same rolling resistance. In this case, axle driven gear, or differential ring gear, causes the differential case to rotate .when the differential case rotates pinions and their spider arms move around in a circle with tow differential side gears are meshed with the pinions, the side gears must rotate, causing the axle shafts and their associated driving wheels to turn. With equal resistance applied to each wheel, the differential pinions do not rotate. They apply equal torque to the side gears and therefore both driving wheels rotate at one and the same speed is unequal ,the differential pinions rotate on their spider arms as well as drive round with the differential case .supposing that one of the axle shaft is prevented from rotating ,the differential pinions would have to walk around the stationary side gear ,causing the other side gear to rotate at twice its normal speed .You can now see how the differential can allow one driving wheel to turn faster than the other .Whenever the automobile goes around a turn ,the outer driving wheel travels a greater distance than the inner drive wheel .the inner wheel speeds up proportionately ,thanks to the differential pinions that rotate on their spider arms and ,rolling around the slower side gear send more rotary motion to the outside wheel.The differential side gears are splined on to the inner ends of the axle shafts .The other ends of the shafts are attached to the driving wheel hubs by means of flanges .Trucks use full floating axle shafts .Such axle shafts are acted upon by torque only .All the other loads acting on the driving wheels are taken by the driving axle housing, because the wheel hubs are supported by bearings mounted on the housing.Driving axle of general-purpose wheeled tractorGeneral-purpose wheeled tractors are a four-wheel drive type, they have tow driving axles-front and rear .Both axles are similar in construction, expect for the housing. Each driving axle consist if a housing, an axle drive ,a differential ,and final drives .The front and rear-axles drives are interchangeable and comprise a pair of spiral bevel gears . The axle drive pinion is made integral with a shaft that issupported by tow taper roller bearings installed in axle drive pinion carrier .The latter is accommodated in differential carrier and is fixed to it by bolts. The flange of the axle drive pinion carrier is provided with threaded holes to fit puller screws that are used to remove the axle drive pinion carrier from the differential carrier .The position of the drive pinion relative to the centerline of the axle is adjust by means of a pack of shims placed under the flange of the drive pinion carrier Shims palace under the cone of the front bearing are used to adjust the preload on the drive pinion bearings. Splined to adjust the preload on the drive pinion shaft is universal-joint flange .The axle drive gear is bolted to the differential case flange.THE DIFFERENTIAL consists of case, four pinions, and tow side gears .The differential case comprise tow halves that are bolted together and supported by taper roller bearings installed in the differential carrier .Screwed in the bearings housing from the outside are nuts used to adjust the backlash between the ring gear and drive pinion teeth and the side bearing preload.Welded to the top of the driving axle housing at both its ends are spring pads .The housing of both its ends are spring axels are provided with filler ,overflow ,and drain holes closed by plugs .Both housing also have vents ,The rotating components of the driving axles are lubricated with transmission oil .As distinct from the automobiles considered in this text, all tractors include final drives in their power trains .The final drives of general-purpose wheel tractors are referred to as wheel-hub reduction gears.While transmitting power to the driving wheels, wheel-hub reduction can increase their torque .These are planetary reduction gear sets consist of sun gear ,or wheel ,three planet ,or pinion ,gears ,planet or pinion ,carrier .stationary internal ,or ring ,gear ,and housing.The sun gear is splined to the outer end of the axle shaft is splined to the differential side gear .The cylindrical planet gears are in constant mesh with both the sun gear and the ring gear and are free to rotate on roller bearings mounted on shafts that are attached to the planet carrier .The planet carrier is fasted to the reduction gear housing by means of studs and nuts .The flange of housing ,driving wheel brake drum13,and wheel hub are clamped together by bolts .The planet carrier and reduction gear housing form the driven part of the planetary gear set and rotate with the driving wheel of the tractor .The driving gear hub is supported by taper roller bearings mounted on axle shaft housing ,or axle sleeve .The axle sleeve is connected to the stationary ring gear by means of adapter hub that has internal splines and external teeth . The splines are meshed with matching splines on the axle sleeve, and the teeth are meshed with internal teeth ring gear.Wheels and its maintainModern wheeled tractors and automobiles use pneumatic-tired disc wheels. As a result of the driving wheel tires gripping the road, the rotary motion of the wheels is transformed into the translational motion of the tractor or automobile.According to their purpose, wheels are classified as driving .driven steerable, and combination types.Trucks and general-purpose wheeled tractors have all their wheels of one and the same size .Row-crop tractors have their rear wheels larger than the front wheels .The rear wheels carry the major proportion of the load due to the weight of the tractor .The front wheels are loaded lighter and this makes them easier to turn and provide good directional steering stability, which is essential for row-crop work.A TRUCK WHEEL consists of disc and flat base rim that is made integral with it, while the other flange is formed by detachable side ring that is held to the rim by split lock ring on the rim .which doubles as a side ring and a lock ring.The wheel disc is provided with holes for mounting the wheel on the wheel mounting bolts ,or wheel studs ,on the wheel hub ,where it is fixed by nuts .Both the holes and the nuts are tapered to ensure exact location of the wheel on its hub .The rear driving axles of trucks carry tow wheels at each end .The inner wheels are held to the hubs by cap nuts that are threaded both on the inside and on the outside .and the outer wheels are mounted on the cap nuts and fixed in place by taper nuts screwed on the nuts .The wheel nuts on the right side of truck have right-hand threads, whereas the nuts on the left side of the truck are threaded left-hand .The reason is to tighten the nuts, not loosen them, and thus prevent them from working loose on acceleration andbraking.An automobile pneumatic tire consists of casing, inner tube, and flap .The tire casing comprises tread, side walls, and beads .Tires for good roads use small tread patterns, while those for bad roads or cross –country service large tread patterns.The inner tube is made in the form of a hollow elastic rubber doughnut that is inflated with air after it is installed inside the tire and the tire is put on the wheel rim .The inner tube is inflated through tire valve that consists of housing 11,valve inside ,and cap .The valve housing is made of brass in the dorm of a flanged tube that is mounted in the inner tube by means of a washer and a nut and sticks out through a hole in the wheel .Some tire valve housing are of comprise construction :the upper part is made of brass and the lower part ,of rubber that is vulcanized on to the inner tube .The valve inside is a check valve that opens to let air in the inner tube when an air closed ,spring pressure and air pressure inside the tube hold the valve .When the valve is closed ,spring pressure and air pressure inside the tube hold the valve in its seat .It includes core with a rubber ring ,a plunger pin ,and a spring .The valve inside is Screwed in the tire valve housing and is closed by the cap Screwed on the housing.To the construction of the driving and steerable wheels, each wheel comprises hub , disc with rim ,and tire with inner tube .The rim is welded to the disc and the disc is bolted to the hub .The driving wheel tires are of low-pressure type and have heavy tread bars for better traction.The driving wheel hub is keyed to axle shaft and is fixed in place by means of bolted-on insert with worm whose threads mesh with the rack teeth cut in the half axle .By turning the worm one can change the position of the wheel on the axle shaft to obtain the desired track width .Before doing this ,it is necessary to jack up the rear part of the tractor to clear the wheels of the ground and loosen the bolts that hold the inserts to the wheels hubs .Should this adjustment prove insufficient ,the track width can further be increased by placing the wheels with the concaves of their discs facing inwards.On some row-crop tractors ,the rear wheel discs are bolts to lugs welded on the wheel rims .In this case ,the crack width can be changed by bolts the discs in alternative positions to the lugs .Also the concave wheel discs may be used either with the concave facing inwards or outwards.Trouble-free operation of automobiles and wheeled tractors largely depends on the condition of the tires. Therefore, during operation, one should adhere to following rules.Prevent fuel and, or oil from getting onto the tires. Cleans the tires regularly from dirt and remove all foreign articles, such as stones, form the treads. Do not apply brakes sharply, never start away form rest with a jerk, and avoid making sharp turns, for all this causes uneven wear of the tires. Do not allow excessive slipping of the driving wheels. When preparing your tractor or automobile for a long-term storage, jack up the wheels and put trestles under the axles or frame to relieve the tires.The service life of tires is expressed in terms of their mileage. For most bias (ordinary) truck tires, the guaranteed mileage amounts to 50000 km. Observing the above rules will help prolong the useful service life of tires.驱动桥汽车的驱动桥驱动桥是一个支撑车辆的十字交叉的轴，它可以驱动车轮运动。

.机械专业英语词汇陶瓷ceramics合成纤维synthetic fibre电化学腐蚀electrochemical corrosion车架automotive chassis悬架suspension转向器redirector变速器speed changer板料冲压sheet metal parts孔加工spot facing machining车间workshop工程技术人员engineer气动夹紧pneuma lock数学模型mathematical model画法几何descriptive geometry机械制图Mechanical drawing投影projection视图view剖视图pro标准件standard component零件图part drawing装配图assembly drawing尺寸标注size marking技术要求technical requirements刚度rigidity内力internal force位移displacement截面section疲劳极限fatigue limit断裂fracture塑性变形plastic distortion脆性材料brittleness material刚度准则rigidity criterion垫圈washer垫片spacer直齿圆柱齿轮straight toothed spur gear 斜齿圆柱齿轮helical-spur gear直齿锥齿轮straight bevel gear运动简图kinematic sketch齿轮齿条pinion and rack蜗杆蜗轮worm and worm gear虚约束passive constraint曲柄crank摇杆racker凸轮cams共轭曲线conjugate curve范成法generation method定义域definitional domain值域range导数\\微分differential coefficient求导derivation定积分definite integral不定积分indefinite integral曲率curvature偏微分partial differential毛坯rough游标卡尺slide caliper千分尺micrometer calipers攻丝tap二阶行列式second order determinant逆矩阵inverse matrix线性方程组linear equations概率probability随机变量random variable排列组合permutation and combination 气体状态方程equation of state of gas动能kinetic energy势能potential energy机械能守恒conservation of mechanical energy动量momentum桁架truss轴线axes余子式cofactor逻辑电路logic circuit触发器flip-flop脉冲波形pulse shape数模digital analogy液压传动机构fluid drive mechanism机械零件mechanical parts淬火冷却quench淬火hardening回火tempering调质hardening and tempering磨粒abrasive grain结合剂bonding agent砂轮grinding wheel后角clearance angle龙门刨削planing主轴spindle.主轴箱headstock卡盘chuck加工中心machining center车刀lathe tool车床lathe钻削镗削bore车削turning磨床grinder基准benchmark钳工locksmith锻forge压模stamping焊weld拉床broaching machine拉孔broaching装配assembling铸造found流体动力学fluid dynamics流体力学fluid mechanics加工machining液压hydraulic pressure切线tangent机电一体化mechanotronics mechanical-electrical integration气压air pressure pneumatic pressure 稳定性stability介质medium液压驱动泵fluid clutch液压泵hydraulic pump阀门valve失效invalidation强度intensity载荷load应力stress安全系数safty factor可靠性reliability螺纹thread螺旋helix键spline销pin滚动轴承rolling bearing滑动轴承sliding bearing弹簧spring制动器arrester brake十字结联轴节crosshead联轴器coupling链chain皮带strap精加工finish machining粗加工rough machining变速箱体gearbox casing腐蚀rust氧化oxidation磨损wear耐用度durability随机信号random signal离散信号discrete signal超声传感器ultrasonic sensor集成电路integrate circuit挡板orifice plate残余应力residual stress套筒sleeve扭力torsion冷加工cold machining电动机electromotor汽缸cylinder过盈配合interference fit热加工hotwork摄像头CCD camera倒角rounding chamfer优化设计optimal design工业造型设计industrial moulding design有限元finite element滚齿hobbing插齿gear shaping伺服电机actuating motor铣床milling machine钻床drill machine镗床boring machine步进电机stepper motor丝杠screw rod导轨lead rail组件subassembly可编程序逻辑控制器Programmable Logic Controller PLC电火花加工electric spark machining电火花线切割加工electrical discharge wire - cutting相图phase diagram热处理heat treatment固态相变solid state phase changes.有色金属nonferrous metal陶瓷ceramics合成纤维synthetic fibre电化学腐蚀electrochemical corrosion车架automotive chassis悬架suspension转向器redirector变速器speed changer板料冲压sheet metal parts孔加工spot facing machining车间workshop工程技术人员engineer气动夹紧pneuma lock数学模型mathematical model画法几何descriptive geometry机械制图Mechanical drawing投影projection视图view剖视图pro标准件standard component零件图part drawing装配图assembly drawing尺寸标注size marking技术要求technical requirements刚度rigidity内力internal force位移displacement截面section疲劳极限fatigue limit断裂fracture塑性变形plastic distortion脆性材料brittleness material刚度准则rigidity criterion垫圈washer垫片spacer直齿圆柱齿轮straight toothed spur gear 斜齿圆柱齿轮helical-spur gear直齿锥齿轮straight bevel gear运动简图kinematic sketch齿轮齿条pinion and rack蜗杆蜗轮worm and worm gear虚约束passive constraint曲柄crank摇杆racker凸轮cams共轭曲线conjugate curve范成法generation method定义域definitional domain值域range导数\\微分differential coefficient求导derivation定积分definite integral不定积分indefinite integral曲率curvature偏微分partial differential毛坯rough游标卡尺slide caliper千分尺micrometer calipers攻丝tap二阶行列式second order determinant逆矩阵inverse matrix线性方程组linear equations概率probability随机变量random variable排列组合permutation and combination气体状态方程equation of state of gas动能kinetic energy势能potential energy机械能守恒conservation of mechanical energy 动量momentum桁架truss轴线axes余子式cofactor逻辑电路logic circuit触发器flip-flop脉冲波形pulse shape数模digital analogy液压传动机构fluid drive mechanism机械零件mechanical parts淬火冷却quench淬火hardening回火tempering调质hardening and tempering磨粒abrasive grain结合剂bonding agent砂轮grinding wheelAssembly line 组装线Layout 布置图Conveyer 流水线物料板Rivet table 拉钉机Rivet gun 拉钉枪.Screw driver 起子Pneumatic screw driver 气动起子worktable 工作桌OOBA 开箱检查fit together 组装在一起fasten 锁紧(螺丝)fixture 夹具(治具)pallet 栈板barcode 条码barcode scanner 条码扫描器fuse together 熔合fuse machine热熔机repair修理operator作业员QC品管supervisor 课长ME 制造工程师MT 制造生技cosmetic inspect 外观检查inner parts inspect 内部检查thumb screw 大头螺丝lbs. inch 镑、英寸EMI gasket 导电条front plate 前板rear plate 后板chassis 基座bezel panel 面板power button 电源按键reset button 重置键Hi-pot test of SPS 高源高压测试Voltage switch of SPS 电源电压接拉键sheet metal parts 冲件plastic parts 塑胶件SOP 制造作业程序material check list 物料检查表work cell 工作间trolley 台车carton 纸箱sub-line 支线left fork 叉车personnel resource department 人力资源部production department生产部门planning department企划部QC Section品管科stamping factory冲压厂painting factory烤漆厂molding factory成型厂common equipment常用设备uncoiler and straightener整平机punching machine 冲床robot机械手hydraulic machine油压机lathe车床planer |plein|刨床miller铣床grinder磨床linear cutting线切割electrical sparkle电火花welder电焊机staker=reviting machine铆合机position职务president董事长general manager总经理special assistant manager特助factory director厂长department director部长deputy manager | =vice manager副理section supervisor课长deputy section supervisor =vice section superisor 副课长group leader/supervisor组长line supervisor线长assistant manager助理to move, to carry, to handle搬运be put in storage入库pack packing包装to apply oil擦油to 锉毛刺final inspection终检to connect material接料to reverse material 翻料wet station沾湿台Tiana天那水cleaning cloth抹布to load material上料to unload material卸料to return material/stock to退料scraped |\\'skr?pid|报废scrape ..v.刮;削deficient purchase来料不良manufacture procedure制程deficient manufacturing procedure制程不良.oxidation |\\' ksi\\'dei?n|氧化scratch刮伤dents压痕defective upsiding down抽芽不良defective to staking铆合不良embedded lump镶块feeding is not in place送料不到位stamping-missing漏冲production capacity生产力education and training教育与训练proposal improvement提案改善spare parts=buffer备件forklift叉车trailer=long vehicle拖板车compound die合模die locker锁模器pressure plate=plate pinch压板bolt螺栓administration/general affairs dept总务部automatic screwdriver电动启子thickness gauge厚薄规gauge(or jig)治具power wire电源线buzzle蜂鸣器defective product label不良标签identifying sheet list标示单location地点present members出席人员subject主题conclusion结论decision items决议事项responsible department负责单位pre-fixed finishing date预定完成日approved by / checked by / prepared by核准/审核/承办PCE assembly production schedule sheet PCE组装厂生产排配表model机锺work order工令revision版次remark备注production control confirmation生产确认checked by初审approved by核准department部门stock age analysis sheet 库存货龄分析表on-hand inventory现有库存available material良品可使用obsolete material良品已呆滞to be inspected or reworked 待验或重工total合计cause description原因说明part number/ P/N 料号type形态item/group/class类别quality品质prepared by制表notes说明year-end physical inventory difference analysis sheet 年终盘点差异分析表physical inventory盘点数量physical count quantity帐面数量difference quantity差异量cause analysis原因分析raw materials原料materials物料finished product成品semi-finished product半成品packing materials包材good product/accepted goods/ accepted parts/good parts良品defective product/non-good parts不良品disposed goods处理品warehouse/hub仓库on way location在途仓oversea location海外仓spare parts physical inventory list备品盘点清单spare molds location模具备品仓skid/pallet栈板tox machine自铆机wire EDM线割EDM放电机coil stock卷料sheet stock片料tolerance工差score=groove压线cam block滑块pilot导正筒trim剪外边pierce剪内边drag form压锻差pocket for the punch head挂钩槽slug hole废料孔.feature die公母模expansion dwg展开图radius半径shim(wedge)楔子torch-flame cut火焰切割set screw止付螺丝form block折刀stop pin定位销round pierce punch=die button圆冲子shape punch=die insert异形子stock locater block定位块under cut=scrap chopper清角active plate活动板baffle plate挡块cover plate盖板male die公模female die母模groove punch压线冲子air-cushion eject-rod气垫顶杆spring-box eject-plate弹簧箱顶板bushing block衬套insert 入块club car高尔夫球车capability能力parameter参数factor系数phosphate皮膜化成viscosity涂料粘度alkalidipping脱脂main manifold主集流脉bezel斜视规blanking穿落模dejecting顶固模demagnetization去磁;消磁high-speed transmission高速传递heat dissipation热传rack上料degrease脱脂rinse水洗alkaline etch龄咬desmut剥黑膜D.I. rinse纯水次Chromate铬酸处理Anodize阳性处理seal封孔revision版次part number/P/N料号good products良品scraped products报放心品defective products不良品finished products成品disposed products处理品barcode条码flow chart流程表单assembly组装stamping冲压molding成型spare parts=buffer备品coordinate座标dismantle the die折模auxiliary fuction辅助功能poly-line多义线heater band 加热片thermocouple热电偶sand blasting喷沙grit 砂砾derusting machine除锈机degate打浇口dryer烘干机induction感应induction light感应光response=reaction=interaction感应ram连杆edge finder巡边器concave凸convex凹short射料不足nick缺口speck瑕??shine亮班splay 银纹gas mark焦痕delamination起鳞cold slug冷块blush 导色gouge沟槽;凿槽satin texture段面咬花witness line证示线patent专利grit沙砾granule=peuet=grain细粒grit maker抽粒机cushion缓冲.magnalium镁铝合金magnesium镁金metal plate钣金lathe车mill锉plane刨grind磨drill铝boring镗blinster气泡fillet镶;嵌边through-hole form通孔形式voller pin formality滚针形式cam driver铡楔shank摸柄crank shaft曲柄轴augular offset角度偏差velocity速度production tempo生产进度现状torque扭矩spline=the multiple keys花键quenching淬火tempering回火annealing退火carbonization碳化tungsten high speed steel钨高速的moly high speed steel钼高速的organic solvent有机溶剂bracket小磁导liaison联络单volatile挥发性resistance电阻ion离子titrator滴定仪beacon警示灯coolant冷却液crusher破碎机阿基米德蜗杆Archimedes worm安全系数safety factor; factor of safety 安全载荷safe load凹面、凹度concavity扳手wrench板簧flat leaf spring半圆键woodruff key变形deformation摆杆oscillating bar摆动从动件oscillating follower 摆动从动件凸轮机构cam with oscillating follower 摆动导杆机构oscillating guide-bar mechanism 摆线齿轮cycloidal gear摆线齿形cycloidal tooth profile摆线运动规律cycloidal motion摆线针轮cycloidal-pin wheel包角angle of contact保持架cage背对背安装back-to-back arrangement背锥back cone ；normal cone背锥角back angle背锥距back cone distance比例尺scale比热容specific heat capacity闭式链closed kinematic chain闭链机构closed chain mechanism臂部arm变频器frequency converters变频调速frequency control of motor speed变速speed change变速齿轮change gear change wheel变位齿轮modified gear变位系数modification coefficient标准齿轮standard gear标准直齿轮standard spur gear表面质量系数superficial mass factor表面传热系数surface coefficient of heat transfer 表面粗糙度surface roughness并联式组合combination in parallel并联机构parallel mechanism并联组合机构parallel combined mechanism并行工程concurrent engineering并行设计concurred design, CD不平衡相位phase angle of unbalance不平衡imbalance (or unbalance)不平衡量amount of unbalance不完全齿轮机构intermittent gearing波发生器wave generator波数number of waves补偿compensation参数化设计parameterization design, PD残余应力residual stress操纵及控制装置operation control device槽轮Geneva wheel槽轮机构Geneva mechanism ；Maltese cross 槽数Geneva numerate.槽凸轮groove cam侧隙backlash差动轮系differential gear train差动螺旋机构differential screw mechanism差速器differential常用机构conventional mechanism; mechanism in common use车床lathe承载量系数bearing capacity factor承载能力bearing capacity成对安装paired mounting尺寸系列dimension series齿槽tooth space齿槽宽spacewidth齿侧间隙backlash齿顶高addendum齿顶圆addendum circle齿根高dedendum齿根圆dedendum circle齿厚tooth thickness齿距circular pitch齿宽face width齿廓tooth profile齿廓曲线tooth curve齿轮gear齿轮变速箱speed-changing gear boxes齿轮齿条机构pinion and rack齿轮插刀pinion cutter; pinion-shaped shaper cutter齿轮滚刀hob ,hobbing cutter齿轮机构gear齿轮轮坯blank齿轮传动系pinion unit齿轮联轴器gear coupling齿条传动rack gear齿数tooth number齿数比gear ratio齿条rack齿条插刀rack cutter; rack-shaped shaper cutter 齿形链、无声链silent chain齿形系数form factor齿式棘轮机构tooth ratchet mechanism插齿机gear shaper重合点coincident points重合度contact ratio冲床punch 传动比transmission ratio, speed ratio传动装置gearing; transmission gear传动系统driven system传动角transmission angle传动轴transmission shaft串联式组合combination in series串联式组合机构series combined mechanism串级调速cascade speed control创新innovation creation创新设计creation design垂直载荷、法向载荷normal load唇形橡胶密封lip rubber seal磁流体轴承magnetic fluid bearing从动带轮driven pulley从动件driven link, follower从动件平底宽度width of flat-face从动件停歇follower dwell从动件运动规律follower motion从动轮driven gear粗线bold line粗牙螺纹coarse thread大齿轮gear wheel打包机packer打滑slipping带传动belt driving带轮belt pulley带式制动器band brake单列轴承single row bearing单向推力轴承single-direction thrust bearing单万向联轴节single universal joint单位矢量unit vector当量齿轮equivalent spur gear; virtual gear当量齿数equivalent teeth number; virtual number of teeth当量摩擦系数equivalent coefficient of friction当量载荷equivalent load刀具cutter导数derivative倒角chamfer导热性conduction of heat导程lead导程角lead angle等加等减速运动规律parabolic motion; constant acceleration and deceleration motion等速运动规律uniform motion; constant velocity motion.等径凸轮conjugate yoke radial cam等宽凸轮constant-breadth cam等效构件equivalent link等效力equivalent force等效力矩equivalent moment of force等效量equivalent等效质量equivalent mass等效转动惯量equivalent moment of inertia等效动力学模型dynamically equivalent model底座chassis低副lower pair点划线chain dotted line（疲劳）点蚀pitting垫圈gasket垫片密封gasket seal碟形弹簧belleville spring顶隙bottom clearance定轴轮系ordinary gear train; gear train with fixed axes动力学dynamics动密封kinematical seal动能dynamic energy动力粘度dynamic viscosity动力润滑dynamic lubrication动平衡dynamic balance动平衡机dynamic balancing machine动态特性dynamic characteristics动态分析设计dynamic analysis design动压力dynamic reaction动载荷dynamic load端面transverse plane端面参数transverse parameters端面齿距transverse circular pitch端面齿廓transverse tooth profile端面重合度transverse contact ratio端面模数transverse module端面压力角transverse pressure angle锻造forge对称循环应力symmetry circulating stress对心滚子从动件radial (or in-line ) roller follower对心直动从动件radial (or in-line ) translating follower对心移动从动件radial reciprocating follower对心曲柄滑块机构in-line slider-crank (or crank-slider) mechanism多列轴承multi-row bearing 多楔带poly V-belt多项式运动规律polynomial motion多质量转子rotor with several masses惰轮idle gear额定寿命rating life额定载荷load ratingII 级杆组dyad发生线generating line发生面generating plane法面normal plane法面参数normal parameters法面齿距normal circular pitch法面模数normal module法面压力角normal pressure angle法向齿距normal pitch法向齿廓normal tooth profile法向直廓蜗杆straight sided normal worm法向力normal force反馈式组合feedback combining反向运动学inverse ( or backward) kinematics反转法kinematic inversion反正切Arctan范成法generating cutting仿形法form cutting方案设计、概念设计concept design, CD防振装置shockproof device飞轮flywheel飞轮矩moment of flywheel非标准齿轮nonstandard gear非接触式密封non-contact seal非周期性速度波动aperiodic speed fluctuation非圆齿轮non-circular gear粉末合金powder metallurgy分度线reference line; standard pitch line分度圆reference circle; standard (cutting) pitch circle分度圆柱导程角lead angle at reference cylinder分度圆柱螺旋角helix angle at reference cylinder分母denominator分子numerator分度圆锥reference cone; standard pitch cone分析法analytical method封闭差动轮系planetary differential复合铰链compound hinge复合式组合compound combining复合轮系compound (or combined) gear train.复合平带compound flat belt复合应力combined stress复式螺旋机构Compound screw mechanism复杂机构complex mechanism杆组Assur group干涉interference刚度系数stiffness coefficient刚轮rigid circular spline钢丝软轴wire soft shaft刚体导引机构body guidance mechanism刚性冲击rigid impulse (shock)刚性转子rigid rotor刚性轴承rigid bearing刚性联轴器rigid coupling高度系列height series高速带high speed belt高副higher pair格拉晓夫定理Grashoff`s law根切undercutting公称直径nominal diameter高度系列height series功work工况系数application factor工艺设计technological design工作循环图working cycle diagram工作机构operation mechanism工作载荷external loads工作空间working space工作应力working stress工作阻力effective resistance工作阻力矩effective resistance moment公法线common normal line公共约束general constraint公制齿轮metric gears功率power功能分析设计function analyses design共轭齿廓conjugate profiles共轭凸轮conjugate cam构件link鼓风机blower固定构件fixed link; frame固体润滑剂solid lubricant关节型操作器jointed manipulator惯性力inertia force惯性力矩moment of inertia ,shaking moment 惯性力平衡balance of shaking force 惯性力完全平衡full balance of shaking force惯性力部分平衡partial balance of shaking force 惯性主矩resultant moment of inertia惯性主失resultant vector of inertia冠轮crown gear广义机构generation mechanism广义坐标generalized coordinate轨迹生成path generation轨迹发生器path generator滚刀hob滚道raceway滚动体rolling element滚动轴承rolling bearing滚动轴承代号rolling bearing identification code 滚针needle roller滚针轴承needle roller bearing滚子roller滚子轴承roller bearing滚子半径radius of roller滚子从动件roller follower滚子链roller chain滚子链联轴器double roller chain coupling滚珠丝杆ball screw滚柱式单向超越离合器roller clutch过度切割undercutting函数发生器function generator函数生成function generation含油轴承oil bearing耗油量oil consumption耗油量系数oil consumption factor赫兹公式H. Hertz equation合成弯矩resultant bending moment合力resultant force合力矩resultant moment of force黑箱black box横坐标abscissa互换性齿轮interchangeable gears花键spline滑键、导键feather key滑动轴承sliding bearing滑动率sliding ratio滑块slider环面蜗杆toroid helicoids worm环形弹簧annular spring缓冲装置shocks; shock-absorber灰铸铁grey cast iron.'.回程 return回转体平衡 balance of rotors 混合轮系 compound gear train 积分 integrate机电一体化系统设计 mechanical-electrical integration system design 机构 mechanism机构分析 analysis of mechanism 机构平衡 balance of mechanism 机构学 mechanism机构运动设计 kinematic design of mechanism 机构运动简图 kinematic sketch of mechanism 机构综合 synthesis of mechanism 机构组成 constitution of mechanism 机架 frame, fixed link机架变换 kinematic inversion 机器 machine 机器人 robot机器人操作器 manipulator 机器人学 robotics技术过程 technique process技术经济评价 technical and economic evaluation 技术系统 technique system 机械 machinery机械创新设计 mechanical creation design, MCD 机械系统设计 mechanical system design, MSD 机械动力分析 dynamic analysis of machinery 机械动力设计 dynamic design of machinery 机械动力学 dynamics of machinery机械的现代设计 modern machine design 机械系统 mechanical system 机械利益 mechanical advantage 机械平衡 balance of machinery 机械手 manipulator机械设计 machine design; mechanical design 机械特性 mechanical behavior机械调速 mechanical speed governors 机械效率 mechanical efficiency机械原理 theory of machines and mechanisms 机械运转不均匀系数 coefficient of speed fluctuation 机械无级变速 mechanical stepless speed changes 基础机构 fundamental mechanism 基本额定寿命 basic rating life基于实例设计 case-based design,CBD 基圆 base circle基圆半径 radius of base circle基圆齿距 base pitch基圆压力角 pressure angle of base circle 基圆柱 base cylinder 基圆锥 base cone急回机构 quick-return mechanism 急回特性 quick-return characteristics 急回系数 advance-to return-time ratio 急回运动 quick-return motion 棘轮 ratchet棘轮机构 ratchet mechanism 棘爪 pawl极限位置 extreme (or limiting) position极位夹角 crank angle between extreme (or limiting) positions计算机辅助设计 computer aided design, CAD计算机辅助制造 computer aided manufacturing, CAM计算机集成制造系统 computer integrated manufacturing system, CIMS计算力矩 factored moment; calculation moment 计算弯矩 calculated bending moment 加权系数 weighting efficient 加速度 acceleration加速度分析 acceleration analysis 加速度曲线 acceleration diagram 尖点 pointing; cusp尖底从动件 knife-edge follower 间隙 backlash间歇运动机构 intermittent motion mechanism 减速比 reduction ratio减速齿轮、减速装置 reduction gear 减速器 speed reducer减摩性 anti-friction quality 渐开螺旋面 involute helicoid 渐开线 involute渐开线齿廓 involute profile 渐开线齿轮 involute gear渐开线发生线 generating line of involute 渐开线方程 involute equation 渐开线函数 involute function 渐开线蜗杆 involute worm渐开线压力角 pressure angle of involute 渐开线花键 involute spline简谐运动 simple harmonic motion 键 key键槽 keyway.'.交变应力 repeated stress交变载荷 repeated fluctuating load 交叉带传动 cross-belt drive交错轴斜齿轮 crossed helical gears 胶合 scoring角加速度 angular acceleration 角速度 angular velocity角速比 angular velocity ratio角接触球轴承 angular contact ball bearing角接触推力轴承 angular contact thrust bearing 角接触向心轴承 angular contact radial bearing 角接触轴承 angular contact bearing 铰链、枢纽 hinge校正平面 correcting plane 接触应力 contact stress 接触式密封 contact seal阶梯轴 multi-diameter shaft 结构 structure结构设计 structural design 截面 section 节点 pitch point节距 circular pitch; pitch of teeth 节线 pitch line 节圆 pitch circle节圆齿厚 thickness on pitch circle 节圆直径 pitch diameter 节圆锥 pitch cone节圆锥角 pitch cone angle 解析设计 analytical design 紧边 tight-side 紧固件 fastener径节 diametral pitch 径向 radial direction径向当量动载荷 dynamic equivalent radial load 径向当量静载荷 static equivalent radial load径向基本额定动载荷 basic dynamic radial load rating径向基本额定静载荷 basic static radial load tating 径向接触轴承 radial contact bearing 径向平面 radial plane径向游隙 radial internal clearance 径向载荷 radial load径向载荷系数 radial load factor 径向间隙 clearance 静力 static force静平衡 static balance静载荷 static load 静密封 static seal局部自由度 passive degree of freedom 矩阵 matrix矩形螺纹 square threaded form 锯齿形螺纹 buttress thread form矩形牙嵌式离合器 square-jaw positive-contact clutch绝对尺寸系数 absolute dimensional factor 绝对运动 absolute motion 绝对速度 absolute velocity均衡装置 load balancing mechanism 抗压强度 compression strength 开口传动 open-belt drive 开式链 open kinematic chain 开链机构 open chain mechanism 可靠度 degree of reliability 可靠性 reliability可靠性设计 reliability design, RD 空气弹簧 air spring空间机构 spatial mechanism 空间连杆机构 spatial linkage 空间凸轮机构 spatial cam空间运动副 spatial kinematic pair 空间运动链 spatial kinematic chain 空转 idle宽度系列 width series 框图 block diagram雷诺方程 Reynolds‘s equation 离心力 centrifugal force 离心应力 centrifugal stress 离合器 clutch离心密封 centrifugal seal 理论廓线 pitch curve理论啮合线 theoretical line of action 隶属度 membership 力 force力多边形 force polygon力封闭型凸轮机构 force-drive (or force-closed) cam mechanism 力矩 moment力平衡 equilibrium 力偶 couple力偶矩 moment of couple 连杆 connecting rod, coupler 连杆机构 linkage.'.连杆曲线 coupler-curve 连心线 line of centers 链 chain链传动装置 chain gearing链轮 sprocket sprocket-wheel sprocket gear chain wheel联组 V 带 tight-up V belt联轴器 coupling shaft coupling 两维凸轮 two-dimensional cam 临界转速 critical speed 六杆机构 six-bar linkage龙门刨床 double Haas planer 轮坯 blank轮系 gear train 螺杆 screw螺距 thread pitch 螺母 screw nut螺旋锥齿轮 helical bevel gear 螺钉 screws 螺栓 bolts 螺纹导程 lead螺纹效率 screw efficiency 螺旋传动 power screw 螺旋密封 spiral seal螺纹 thread (of a screw) 螺旋副 helical pair螺旋机构 screw mechanism 螺旋角 helix angle螺旋线 helix ,helical line绿色设计 green design design for environment 马耳他机构 Geneva wheel Geneva gear 马耳他十字 Maltese cross脉动无级变速 pulsating stepless speed changes 脉动循环应力 fluctuating circulating stress 脉动载荷 fluctuating load 铆钉 rivet迷宫密封 labyrinth seal 密封 seal密封带 seal belt 密封胶 seal gum密封元件 potted component 密封装置 sealing arrangement面对面安装 face-to-face arrangement面向产品生命周期设计 design for product`s life cycle, DPLC名义应力、公称应力 nominal stress模块化设计 modular design, MD 模块式传动系统 modular system 模幅箱 morphology box 模糊集 fuzzy set模糊评价 fuzzy evaluation 模数 module 摩擦 friction摩擦角 friction angle 摩擦力 friction force摩擦学设计 tribology design, TD 摩擦阻力 frictional resistance 摩擦力矩 friction moment摩擦系数 coefficient of friction 摩擦圆 friction circle磨损 abrasion wear; scratching 末端执行器 end-effector 目标函数 objective function 耐腐蚀性 corrosion resistance 耐磨性 wear resistance挠性机构 mechanism with flexible elements 挠性转子 flexible rotor 内齿轮 internal gear 内齿圈 ring gear 内力 internal force 内圈 inner ring 能量 energy能量指示图 viscosity逆时针 counterclockwise (or anticlockwise) 啮出 engaging-out啮合 engagement, mesh, gearing 啮合点 contact points啮合角 working pressure angle 啮合线 line of action啮合线长度 length of line of action 啮入 engaging-in 牛头刨床 shaper凝固点 freezing point; solidifying point 扭转应力 torsion stress 扭矩 moment of torque 扭簧 helical torsion spring 诺模图 NomogramO 形密封圈密封 O ring seal 盘形凸轮 disk cam盘形转子 disk-like rotor 抛物线运动 parabolic motion 疲劳极限 fatigue limit.'.疲劳强度 fatigue strength 偏置式 offset偏 ( 心 ) 距 offset distance 偏心率 eccentricity ratio 偏心质量 eccentric mass 偏距圆 offset circle 偏心盘 eccentric偏置滚子从动件 offset roller follower偏置尖底从动件 offset knife-edge follower偏置曲柄滑块机构 offset slider-crank mechanism 拼接 matching评价与决策 evaluation and decision 频率 frequency 平带 flat belt平带传动 flat belt driving 平底从动件 flat-face follower 平底宽度 face width 平分线 bisector平均应力 average stress平均中径 mean screw diameter 平均速度 average velocity 平衡 balance平衡机 balancing machine 平衡品质 balancing quality 平衡平面 correcting plane 平衡质量 balancing mass 平衡重 counterweight 平衡转速 balancing speed 平面副 planar pair , flat pair 平面机构 planar mechanism平面运动副 planar kinematic pair 平面连杆机构 planar linkage 平面凸轮 planar cam平面凸轮机构 planar cam mechanism 平面轴斜齿轮 parallel helical gears 普通平键 parallel key其他常用机构 other mechanism in common use 起动阶段 starting period 启动力矩 starting torque气动机构 pneumatic mechanism 奇异位置 singular position起始啮合点 initial contact , beginning of contact 气体轴承 gas bearing 千斤顶 jack嵌入键 sunk key强迫振动 forced vibration切齿深度 depth of cut 曲柄 crank曲柄存在条件 Grashoff`s law曲柄导杆机构 crank shaper (guide-bar) mechanism曲柄滑块机构 slider-crank (or crank-slider) mechanism曲柄摇杆机构 crank-rocker mechanism 曲齿锥齿轮 spiral bevel gear 曲率 curvature曲率半径 radius of curvature 曲面从动件 curved-shoe follower 曲线拼接 curve matching 曲线运动 curvilinear motion 曲轴 crank shaft 驱动力 driving force驱动力矩 driving moment (torque) 全齿高 whole depth 权重集 weight sets 球 ball球面滚子 convex roller 球轴承 ball bearing 球面副 spheric pair球面渐开线 spherical involute 球面运动 spherical motion 球销副 sphere-pin pair球坐标操作器 polar coordinate manipulator 燃点 spontaneous ignition热平衡 heat balance; thermal equilibrium 人字齿轮 herringbone gear冗余自由度 redundant degree of freedom 柔轮 flexspline柔性冲击 flexible impulse; soft shock柔性制造系统 flexible manufacturing system; FMS 柔性自动化 flexible automation 润滑油膜 lubricant film润滑装置 lubrication device 润滑 lubrication 润滑剂 lubricant三角形花键 serration spline 三角形螺纹 V thread screw三维凸轮 three-dimensional cam 三心定理 Kennedy`s theorem砂轮越程槽 grinding wheel groove 砂漏 hour-glass少齿差行星传动 planetary drive with small teeth。

AppendixChina in the first half of 2008 about 93 million trucks accumulative total sales of cars, vans 61 million vehicles, year-on-year growth of 20.2%, visible light car in commercial car production has a large proportion. And driving axle is very important in the vehicle driving axle is the important car auto bearing assembly, auto frame and integral by suspension of body vertical force, to lead the longitudinal forces, transverse force and torque, and impact load; Driving axle also delivers the transmission, the maximum torque reaction is under.Automobile driving axle structure and design parameters in addition to the reliability of the automobile and durability have important influence on the outside, also for the automobile driving performance such as power, economy, smooth, through sex, mobility Automobile driving axle design involves the mechanical parts and components is widely to these varieties, spare parts, components and assemblies manufacturing also almost want to design to all modern machinery manufacturing process, design a simple structure, reliable operation and low cost, can greatly reduce the drive axle of the total cost of the vehicle production, promote economic development, and car to drive through the car studying and designing practice, can better learning and mastery of the modern car design and mechanical design of the comprehensive knowledge and skills, and the overall thinking and operation skill check, drawing, is the very important link, so ontology of a structure design of fine vans axles has certain Automobile driving axle is one of the main parts car, its basic function is to enlarge the shaft or by the torque transmission spread, then torque distribution to drive wheels, and make about driving wheel has about vehicle movement required differential function; Axles in the end of powertrain system, choose proper Lord slowdown, ensure cars than with sufficient ground clearance is achieved, gear and other transmission job need to ensure smooth are the parameters, and even bear effect on the pavement drive axle and frame or carrying body vertical force, the lead between transverse and longitudinal force and torque force. Driving axle quality, performance will have a direct impact on the vehicle's safety, economy, comfort and reliability. After the car driving axle design can make the students' comprehensive by using their This thesis research aims to overall matching car by driving axle Lord finish design of gear reducer, differential component such as type of design and calculation, and complete checking and comprehensive design single main reducer, then the batch Through the design of the vehicle driving axle should also master the understanding, including each component interaction between the body and the electricalsystem, the influence and cooperate to drive axle of the process and therefore more familiar with vehicle mastery. That in the future the production and living effectly use.附录我国2008年上半年货车累计销售约93万辆，其中轻型货车61万辆，同比增长20.2%，可见轻型汽车在商用汽车生产中占有很大的比重。

中英文文献翻译-驱动桥AppendixChina in the first half of 2008 about 93 million trucks accumulative total sales of cars, vans 61 million vehicles, year-on-year growth of 20.2%, visible light car in commercial car production has a large proportion. And driving axle is very important in the vehicle driving axle is the important car auto bearing assembly, auto frame and integral by suspension of body vertical force, to lead the longitudinal forces, transverse force and torque, and impact load; Driving axle also delivers the transmission, the maximum torque reaction is under.Automobile driving axle structure and design parameters in addition to the reliability of the automobile and durability have important influence on the outside, also for the automobile driving performance such as power, economy, smooth, through sex, mobility Automobile driving axle design involves the mechanical parts and components is widely to these varieties, spare parts, components and assemblies manufacturing also almost want to design to all modern machinery manufacturing process, design a simple structure, reliable operation and low cost, can greatly reduce the drive axle of the total cost of the vehicle production, promote economic development, and car to drive through the car studying and designing practice, can better learning and mastery of the modern car design and mechanical design of the comprehensive knowledge and skills, and the overall thinking and operation skill check, drawing, is the very important link, so ontology of a structure design of fine vans axles has certain Automobile driving axle is one of the main parts car, its basic function is to enlarge the shaft or by the torquetransmission spread, then torque distribution to drive wheels, and make about driving wheel has about vehicle movement required differential function; Axles in the end of powertrain system, choose proper Lord slowdown, ensure cars than with sufficient ground clearance is achieved, gear and other transmission job need to ensure smooth are the parameters, and even bear effect on the pavement drive axle and frame or carrying body vertical force, the lead between transverse and longitudinal force and torque force. Driving axle quality, performance will have a direct impact on the vehicle's safety, economy, comfort and reliability. After the car driving axle design can make the students' comprehensive by using their This thesis research aims to overall matching car by driving axle Lord finish design of gear reducer, differential component such as type of design and calculation, and complete checking and comprehensive design single main reducer, then the batch Through the design of the vehicle driving axle should also master the understanding, including each component interaction between the body and the electricalsystem, the influence and cooperate to drive axle of the process and therefore more familiar with vehicle mastery. That in the future the production and living effectly use.附录我国2008年上半年货车累计销售约93万辆，其中轻型货车61万辆，同比增长20.2%，可见轻型汽车在商用汽车生产中占有很大的比重。

附录A 外文文献The present situation of theory research on Drive axle design and analysisWith the development of testing technology and improved driving axle in the design process to test the introduction of new technology and a variety of test equipment dedicated to carry out scientific experiments, all aspects of product structure, performance and strength of parts and components, life testing At the same time, extensive use of modern mathematical physics analysis, and assembly of products, parts and components to carry out a full technical analysis, research, and thus drive the development of bridge design theory to scientific experiments and technical analysis is based on the stage.(1) Computer Supported drive axle design and analysis of the theoretical innovation:Computer in the engineering design of the popularization and application, so that the bridge design theory-driven and technology leap in the development of completely different design process. Drive axle structure parameters and the optimization of performance parameters such as selection and matching, the intensity of components accounting and life prediction, simulation of the relevant products or simulation analysis of the art form that is more so on the choice of design and shape, design drawings Drawing will be conducted on the computer. The use of computer tools for analysis, because of its fast computing and large data capacity, we can use more accurate mathematical model of multi-degree of freedom to simulate the driving axle of the campaign in a variety of conditions, the use of modern advanced mathematics methods of analysis, can be obtained more accurate results, which analyzed for a variety of programs designed to work creatively to provide a great convenience. At present, due to the external computer equipment and the achievements of human-computer links, can be the computer's rapid calculation and logic to determine the capacity, high-capacity data storage and efficient data-processing capacity, the calculation results of dynamic image display function and creativity thinking ability and experience, the realization ofhuman-computer dialogue-style semi-automatic design, or product design expert systems, design automation. The design process can be computer-related products on a large amount of data, data retrieval, on the design of the design of high-speed computing, computer screen displays graphics and design calculations; designers can also be used up pen and direct man-machine dialogue language graphic changes to achieve the best design options, and then by computer graphics equipment line drawings drawn products. This use of computers and external devices product design methods, collectively referred to as computer-aided design. CAD and CAM will be the future into CADMAT system will show the usefulness of its huge.(2) basic studies to support the drive axle design and analysis of the theoretical innovation:With the computer design of drive axle in the popularization and application, a number of modern methods of mathematical physics and the basis for new theoretical achievements in the automotive design has become more widely used. The design of modern drive axle, in addition to traditional methods, computer-aided design methods, but also the introduction of the most optimal design, reliability, design, finite element analysis of computer simulation or simulation analysis, modal analysis and other modern design methods and analytical tools. Bridge design and analysis of drive to achieve the current high level of theory, especially the past three decades is more than a century of basic science, applied technology, materials and manufacturing processes result of continuous development and progress as well as design, production and use of long-term accumulation of experience. It is based on the production of large-scale practice, the basis of the theory as a guide to reflect the achievements of contemporary science and technology-driven bridge design software and hardware as a means to meet the needs of society for the purpose, through the use of materials, technology, equipment, tools, testing equipment, test the technical and business achievements in the field of management, continuous development and progress.(3) reverse engineering theory and methods widely used:Driving axle in the field of automated manufacturing, and often involve an enormous amount of complex design and manufacturing and testing surface. Under normal circumstances, first of all applications on the computer computer-aided design and manufacturing technology for the design of product model, and thengenerate code for processing. With the traditional processing model, compared to reverse engineering a CAD model of characterization of non-existing methods of product design, but through a variety of ways from the physical model was taken from the data re-engineering development models of a product amend. Drive the design and manufacture of axle housing is a very typical reverse engineering methods.(4) the application of rapid prototyping technology :Product innovation is designed to give full play to the designer's creative imagination, using the technical knowledge and skills to carry out the innovative ideas that the principle of a practice, its aim is to creatively design a rich and advanced new products. In the development of traditional design, the process is divided into program design, technical design, process design and product manufacturing. With the development of information technology, product design and development of the scope of the content from the traditional extended to product planning, manufacturing, testing, testing , marketing, as well as the whole process of recovery. Traditional design, the extension of the product development cycle. Rapid prototyping technology is the complete CAD model solid model layer by layer manufacturing technology, rapid prototyping technology to rid itself of the traditional processing methods, the growth of a new processing method to the complex three-dimensional processing is decomposed into a simple combination of two-dimensional processing. Therefore it does not need the use of traditional machine tools and processing tool, and only 10% of traditional processing methods of a 30% and 20% of the working hours of a 30% of the cost of products will be able to directly create and mold samples. Product innovation in the design and development application of rapid prototyping technology, with modern high-tech tools and technology to transform traditional methods of product design and development, to promote design innovation, product innovation, process innovation and management innovation to form a digital, virtual and intelligent , integrated in order to bring about a revolution in product design and development.(5) the application of concurrent engineering to product management and development:Drive Axle Industries has launched a worldwide competition designed to shorten a new product development time, reduce costs, improve quality, increasemarket competitiveness, manufacturers are increasingly becoming the most important issue to consider. Concurrent Engineering as a modern, advanced product design and development model to address these problems is a good way for countries to the automotive industry has been used. The so-called concurrent engineering, is the integrated, concurrent design of products and related processes of systems engineering, it takes from concept to product design, shape design, manufacture, use, maintenance of the entire process until the end of life of all the relevant factors that can solve the out of touch the design and manufacturing process design changes caused by frequent and long development time, cost of Higher contradictions can be designed to maximize the quality and development efficiency, and increase market competitiveness. Concurrent engineering, the key is the process of the product and its associated parallel implementation of integrated design, manufacturing and assembly-oriented design is an important aspect of concurrent engineering in product development throughout the entire process of design is the key. Innate quality of the product design decisions. Statistics show that products, including raw materials, manufacture, use, maintenance and other costs that 70% of the generalized cost is a decision from the design stage. The objectives of concurrent engineering is as much as possible early in the design stage on the introduction of the manufacture and assembly of the binding process, such as material selection, manufacturing processes, and assembly of such constraints, design changes to make as much as possible in the early stage of product development, and from manufacturing to assembly to reduce the occurrence of adverse situations, when to make a successful product design, product development to avoid the late change in design due to the enormous waste, which on the drive axle design and subAnalysis of the objectives of the theory put forward more demands.附录B外文文献的中文翻译驱动桥设计与分析的理论研究现状随着测试技术的发展与完善，在驱动桥设计过程中引进新的测试技术和各种专用的试验设备，进行科学实验，从各方面对产品的结构、性能和零部件的强度、寿命进行测试，同时广泛采用近代数学物理分析方法，对产品及其总成、零部件进行全面的技术分析、研究，这样就使驱动桥设计理论发展到以科学实验和技术分析为基础的阶段。

附录附录ADrive axle/differentialAll vehicles have some type of drive axle/differential assembly incorporated into the driveline. Whether it is front, rear or four wheel drive, differentials are necessary for the smooth application of engine power to the road.PowerflowThe drive axle must transmit power through a 90°angle. The flow of power in conventional front engine/rear wheel drive vehicles moves from the engine to the drive axle in approximately a straight line. However, at the drive axle, the power must be turned at right angles (from the line of the driveshaft) and directed to the drive wheels.This is accomplished by a pinion drive gear, which turns a circular ring gear. The ring gear is attached to a differential housing, containing a set of smaller gears that are splined to the inner end of each axle shaft. As the housing is rotated, the internal differential gears turn the axle shafts, which are also attached to the drive wheels.Fig 1 Drive axleRear-wheel driveRear-wheel-drive vehicles are mostly trucks, very large sedans and many sports car and coupe models. The typical rear wheel drive vehicle uses a front mounted engine and transmission assemblies with a driveshaft coupling the transmission to the rear drive axle. Drive in through the layout of the bridge, the bridge drive shaft arranged vertically in the same vertical plane, and not the drive axle shaft, respectively, in their own sub-actuator with a direct connection, but the actuator is located at the front or the back of the adjacent shaft of the two bridges is arranged in series. Vehicle before and after the two ends of the driving force of the drive axle, is the sub-actuator and the transmission through the middle of the bridge. The advantage is not only a reduction of the number of drive shaft, and raise the driving axle of the common parts of each other, and to simplify the structure, reduces the volume and quality.Fig 2 Rear-wheel-drive axleSome vehicles do not follow this typical example. Such as the older Porsche or Volkswagen vehicles which were rear engine, rear drive. These vehicles use a rear mounted transaxle with halfshafts connected to the drive wheels. Also, some vehicles were produced with a front engine, rear transaxle setup with a driveshaft connecting the engine to the transaxle, and halfshafts linking the transaxle to the drive wheels.Differential operationIn order to remove the wheel around in the kinematics due to the lack of co-ordination about the wheel diameter arising from a different or the same rolling radius of wheel travel required, inter-wheel motor vehicles are equipped with about differential, the latter to ensure that the car driver Bridge on both sides of the wheel when in range with a trip to the characteristics of rotating at different speeds to meet the requirements of the vehicle kinematics.Fig 3 Principle of differentialThe accompanying illustration has been provided to help understand how this occurs.1.The drive pinion, which is turned by the driveshaft, turns the ring gear.2.The ring gear, which is attached to the differential case, turns the case.3.The pinion shaft, located in a bore in the differential case, is at right angles to the axle shafts and turns with the case.4.The differential pinion (drive) gears are mounted on the pinion shaft and rotate with the shaft .5.Differential side gears (driven gears) are meshed with the pinion gears and turn with the differential housing and ring gear as a unit.6.The side gears are splined to the inner ends of the axle shafts and rotate the shafts as the housing turns.7.When both wheels have equal traction, the pinion gears do not rotate on the pinion shaft, since the input force of the pinion gears is divided equally between the two side gears.8.When it is necessary to turn a corner, the differential gearing becomes effective and allows the axle shafts to rotate at different speeds .Open-wheel differential on each general use the same amount of torque. To determine the size of the wheel torque to bear two factors: equipment and friction. In dry conditions, when a lot of friction, the wheel bearing torque by engine size and gear restrictions are hours in the friction (such as driving on ice), is restricted to a maximum torque, so that vehicles will not spin round. So even if the car can produce more torque, but also need to have sufficient traction to transfer torque to the ground. If you increase the throttle after the wheels slip, it will only make the wheels spin faster.Limited-slip and locking differential operationFig 5 Limited-slip differentialDifferential settlement of a car in the uneven road surface and steering wheel-driven speedat about the different requirements; but is followed by the existence of differential in theside car wheel skid can not be effective when the power transmission, that is, the wheel slipcan not produce the driving force, rather than spin the wheel and does not have enoughtorque. Good non-slip differential settlement of the car wheels skid on the side of the powertransmission when the issue, that is, locking differential, so that no longer serve a usefuldifferential right and left sides of the wheel can be the same torque.Limited-slip and locking differential operation can be divided into two major categories：(1) mandatory locking type in ordinary differential locking enforcement agencies toincrease, when the side of the wheel skid occurs, the driver can be electric, pneumatic ormechanical means to manipulate the locking body meshing sets of DIP Shell will be withthe axle differential lock into one, thus the temporary loss of differential role. Relatively simple structure in this way, but it must be operated by the driver, and good roads to stop locking and restore the role of differential.(2) self-locking differential installed in the oil viscosity or friction clutch coupling, when the side of the wheel skid occurs when both sides of the axle speed difference there, coupling or clutch friction resistance on the automatic, to make certain the other side of the wheel drive torque and the car continued to travel. When there is no speed difference on both sides of the wheel, the frictional resistance disappeared, the role of automatic restoration of differentials. More complicated structure in this way, but do not require drivers to operate. Has been increasingly applied in the car. About non-slip differential, not only used for the differential between the wheels, but also for all-wheel drive vehicle inter-axle differential/.Gear ratioThe drive axle of a vehicle is said to have a certain axle ratio. This number (usually a whole number and a decimal fraction) is actually a comparison of the number of gear teeth on the ring gear and the pinion gear. For example, a 4.11 rear means that theoretically, there are 4.11 teeth on the ring gear for each tooth on the pinion gear or, put another way, the driveshaft must turn 4.11 times to turn the wheels once. The role of the final drive is to reduce the speed from the drive shaft, thereby increasing the torque. Lord of the reduction ratio reducer, a driving force for car performance and fuel economy have a greater impact. In general, the more reduction ratio the greater the acceleration and climbing ability, and relatively poor fuel economy. However, if it is too large, it can not play the full power of the engine to achieve the proper speed. The main reduction ratio is more Smaller ，the speed is higher, fuel economy is better, but the acceleration and climbing ability will be poor.附录B驱动桥和差速器所有的汽车都装有不同类型的驱动桥和差速器来驱动汽车行驶。

Car drive axle design1 IntroductionThe structure form of the main reducer is based on the type of the gear and the way of the active gear and the driven gear.2 drive axleDrive axle in the tail end of the power transmission system, its basic function is to increase the torque came by the drive shaft or transmission, the reasonable distribution of power to the left and right driving wheels, and also bear role of road and the frame or body between vertical and longitudinal force and lateral force. The drive axle is composed of a main reducer, a differential, a wheel drive device and a drive axle housing.Reducer is the original motivation and independent of the working machine between the closed transmission, used to reduce speed and increase torque to meet the needs of a variety of working machinery. According to transmission form can be divided into three different for the gear reducer, worm reducer and planetary reducer; in accordance with the transmission of the series can be divided into single and multistage speed reducer; according to transmission layout situation can be divided for expansion, shunt type and coaxial type reducer. Gear reducer transmission efficiency and high reliability, long service life, maintenance is simple, and therefore the scope of application is very wide.2.1 main reducerThe main reducer gear has the spiral bevel gear type, the type of the double curved surface gear type, the type of the cylindrical gear and the worm gear and so on. At present, the main reducer gear of the automobile drive axle adopts spiral bevel gear. When the load is high, the work is stable, the noise is small, and the contact load on the tooth surface is low. So the use of single bevel gears.2.1.2 main reducer drive, driven bevel gear support formThe car driving axle design, so the use of cantilever installation. The using of the cantilever installation, ensure that the gear stiffness, active gear shaft neck should be increased, so that the distance between the two bearings than the distance of the cantilever high at least 2.5 times.3 the differential designCar in the exercise of the security, about two wheels at the same time the roll over the journey is often not equal, around two in the pressure is not equal, and the tread wear uneven, two wheel load is uneven and cause the wheel rolling radius does not match; the wheels touch the pavement conditions about different, exercises the resistance range, on the one hand will increase tire wear, power and fuel consumption, on the other hand will divert too difficult, through and handling stability is bad. Therefore, the left and right wheels of the drive axle are provided with a wheel differential mechanism.Differential is a differential transmission mechanism, used in the two output shaft torque distribution, and ensure two output shaft may rotate at different angular velocities, to ensure the driving wheels in various kinds of sports under the condition of power transmission, to avoid slipping between the tire and the ground. Differential according to its structural characteristics can be divided into gear type, convex wheel, worm wheel type and teeth embedded in a variety of forms, such as free wheel.4 half shaft For semi axis diameternot less than the diameter of the rod, the end part of the processing done slightly thicker, and appropriate to reduce spending less of the keyway depth, the tooth number must be a corresponding increase in, usually take 10 teeth (car half axle) to 18 teeth (truck half axle). The failure mode of the half shaft is basically too fatigue failure. The rod part of the axle shaft of the heavy duty truck is thicker, the outer end flange is relatively large, and the two ends of the shaft can be used as the half shaft structure with connection when no larger forging equipment is adopted, and the process is simplified by taking the same parameters. In the modern automobile half shaft, theis used quite widely, but also has the structure form of the rectangle or the trapezoidal .Shaft is one of the main parts of the machine, and all of the transmission parts of rotary motion must be installed on the axis to carry out the movement and power transmission. So the main function of the shaft is to support the rotating parts and the transmission of motion and power. According to the different load bearing, the shaft can be divided into shaft, mandrel and shaft of the third class, the relay under bending moment and bearing torque becomes the shaft. This type of shaft in the machine in the most common, only to withstand the bending moment and does not bear the torque a mandrel, the mandrel is divided into rotation and fixed mandrel mandrel two. Shaft which is only subjected to torque and does not bear the bending moment becomes the drive shaft.5 the bridge shell and the bridge shell accessories designThe main function of the drive axle housing is to support the quality of the vehicle, and is affected by the road surface reaction force and torque transmitted by the wheel, and the suspension is passed to the body. The drive shaft shell is a force transmitting member and the carrier, so the axle housing should meet the following requirements:1) with sufficient strength and stiffness, to ensure that the reducer gear mesh is normal anddoes not cause additional bending stress.2) under the premise of ensuring sufficient rigidity, as far as possible to reduce the car to improve the ride comfort.3) to ensure sufficient ground clearance.4) the structure craft is good, the cost is low.The bridge shell is a cross beam, the pivot point is located in the center of the tire, the load function in the steel plate spring seat, the average truck is used to improve the overall carrying capacity of the truck, the distance between the pivot point of the twin shaft is calculated according to the distance between the two.The maximum stress of the drive axle housing occurs near the steel plate spring. The force that causes the bending moment of the bridge shell is: the carrying capacity of the vertical load G2, the traction force F and its reaction torque M. And car shift when the tire lateral force Y2 external force in the drive axle housing, in order to simplify the calculation, just never sideslip BRDF is moving in a straight line calculated, and in terms of safety coefficient due consideration.The bending stress of the malleable cast iron bridge should not exceed 300m^2. The bending stress should not exceed 500m2 on the half shaft bushing and wheel axle of medium carbon alloy steel, and the shear stress should not exceed 250N/mm^2.Combines the actual situation of the vehicle, considering the overall expansion forming welding axle, so the material to consider ductility . We choose 16Mn.6 summaryThrough this design, it is now to design a product, only to feel that their knowledge is far from enough. There is a saying: it is never too late to learn. That's a bit of a point! Is my teacher, all my knowledge to learn!Through this design, the ability to check the manual has been greatly improved. Now, through the guidance of teachers, through their own practice, you can now go to the library to check the information, but also to look at what aspects of the information, the psychological is very clear, not so much as before.In other areas also have a lot of harvest, this graduation design makes me develop a meticulous work method. Before doing homework always give a lick and a promise, didn't have a bit of patience, sitting in the stool is not an under the heart, always with a fickle attitude to treat their own thing, now, I can very calm, very serious has been able to carry on. This may be to do the course design for me to leave things, this will be of great benefit to me later in the community.All in all, this design has made me a lot! thank you！轿车驱动桥设计1引言驱动桥处于动力传动系尾端，其基本功能是增加由传动轴或变速器传来的转矩，将动力合理分配给左、右驱动轮，且还承受作用路面和车架或车身之间的垂立、纵向力和横力。

附录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: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. 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 housing 1, the main reducer, differential and axle components.2. disconnect-type drive axle.Drive the use of independent suspension bridge, that is the main reducer shell fixedon 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.Drive 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) single-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 BQl090 type light and medium-sized trucks on a wide range of applications.2) two-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. Gears 2 is 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 thedifferential, 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.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.1) full-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, the axle 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.2) semi-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. License Hongqi CA7560 icon for the type of drive axle limousine. Axle from the inner end of its moment, out client has to bear all the moment, so called semi-floating bearing.3) 3 / 4 floating axle3 /4 floating 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, M20 vehicles.4. Automobile axle housing:1) the 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.2) sub-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.驱动桥处于动力传动系的末端，其基本功能是增大由传动轴或变速器传来的转矩，并将动力合理的分配给左、右驱动轮，另外还承受作用于路面和车架或车身之间的垂直立、纵向力和横向力。

A new driver based on dual-mode frequency and phase control for traveling-wave type ultrasonic motorTien-Chi Chen a,*,Chih-Hsien Yu a ,Mi-Ching Tsai ba Department of Engineering Science,National Cheng Kung University,Tainan,Taiwan bDepartment of Mechanical Engineering,National Cheng Kung University,Tainan,Taiwana r t i c l e i n f o Article history:Received 6August 2007Accepted 24March 2008Available online 12May 2008Keywords:Ultrasonic motorFrequency and phase modulation controla b s t r a c tA mode conversion rotary traveling-wave ultrasonic motor (TWUSM)has potential applications in min-iature robotics.However,its electrical drive circuit presents unique challenges,particularly in producing a high frequency (about 40kHz),high voltage (400V peak-to-peak)signal input to a low impedance capacitive motor,while achieving high efficiency.A novel driving circuit is proposed to provide two-phase balance voltage for a TWUSM.This paper describes the design of TWUSM drive circuit,intended for simultaneously employs both the driving frequency and phase modulation control scheme.The oper-ating principles and a detailed analysis of the proposed driving circuit,consisting of voltage-controlled oscillator (VCO),voltage-controlled phase-shifter circuit and power amplifier circuit,are introduced.To drive the USM effectively a two-phase power amplifier converter using non-resonant technique was designed to provide a balanced two-phase voltage source,and the two-phase output driving voltages could be maintained at the same peak voltage value at the driving frequency under varying phase-mod-ulation processes.Detailed experimental results are provided to demonstrate the effectiveness of the pro-posed driving circuit.Crown Copyright Ó2008Published by Elsevier Ltd.All rights reserved.1.IntroductionThe ultrasonic motor (USM)has many excellent performance features,including high-retention torque,high torque at low speed,silence,compactness in size,and no electromagnetic inter-ference.The USM has been used in a number of industrial,medical,space,robotic,and automotive applications.The driving principles of the USM are high-frequency mechani-cal vibrations and frictional force and its mathematical model is thus difficult to derive.As a result,a lumped motor model of the USM is presently unavailable [1].Moreover,the control character-istics of the USM are complicated and highly nonlinear,as motor parameters are time-varying,owing to increases in temperature and changes in motor-drive operating conditions,such as driving frequency,source voltage and load.Basically,the speed of the TWUSM can be manipulated by con-trolling the frequency,phase difference and the voltage amplitude of the two sinusoidal voltage waveforms which input to the TWUSM.Many researchers have opted for the frequency of the sinusoidal voltage waveforms as the control variable [2–5].It can easily be controlled digitally and spans the entire allowable speed range of the TWUSM.Most TWUSMs contain a two-phase half-bridge series-resonant inverter with an approximated unityswitching frequency (f s )to resonant frequency (f o )ratio.According to the description in the previous paragraph,the quality factors of the two phases are different and time varying.Moreover,when the frequency ratio (f s /f o )of a series-resonant inverter approaches unity,the voltage gain varies severely with the variation of the quality factor [6].Thus,the two-phase sinusoid output voltages are unbalanced under the same switching frequency.Conse-quently,good dynamic performance of the USM is difficult to ob-tain due to the variation in the unbalanced peak values of the two-phase voltages.By contrast,a voltage amplitude control strat-egy using additional boost choppers was employed in [7].Each chopper–inverter driving circuit is composed of one boost chopper cascading with one half-bridge series-resonant parasitic load impedance inverter.Since the two phase constructions of the USM are coupled mechanically and the reaction from the electrical to the mechanical part is unbalanced for both phases,the equiva-lent two-phase loads of the rotor are unbalanced and varied for dif-ferent rotating directions,rotor speeds,load torque,applied voltages and static pressure force between stator and rotor.In addition,the internal two-phase blocking capacitors of the USM are unbalanced and will vary in value under different rotational directions.As a result,it is difficult maintain the two-phase sinu-soid output voltages at the same constant peak value at the same switching frequency.However,a driving circuit proposed by Lin and Kuo [8]operates within working limits where the inverter voltage gain is greatly affected by the variation of the quality0196-8904/$-see front matter Crown Copyright Ó2008Published by Elsevier Ltd.All rights reserved.doi:10.1016/j.enconman.2008.03.023*Corresponding author.E-mail address:tchichen@.tw (T.-C.Chen).Energy Conversion and Management 49(2008)2767–2775Contents lists available at ScienceDirectEnergy Conversion and Managementj ou r na l h om e pa ge :w w w.e lse vi e r.c om /lo c at e /en c on manfactor.Moreover,to resolve the difficulty of the amplitude varia-tion in the output voltages of the parallel-resonant inverter,an ex-tra energy feedback circuit is added to reduce the quality factors in the parallel-resonant circuit.However,the energy feedback circuit increases the complexity of the driving circuit.In addition to the use of a boost converter,a voltage amplitude control strategy may also be implemented using pulse-width mod-ulation(PWM).In[9],the voltage amplitude was adjusted by the forward and backward PWM method for position control of the TWUM.In[10],the voltage amplitude was adjusted by the ON–OFF PWM method for speed control.Both methods essentially adopted the same principle in which the modulation was used to control the ratio of the number of ultrasonic cycles within the for-ward-direction or on-time duration to the total number of ultra-sonic cycles,including the backward-direction or off-time duration.Such control methods cause intermittent operation of the TWUM,leading to the creation of severe audible noise.In order to suppress this audible noise,the PWM should be applied to each ultrasonic cycle[11].Given these limitations,a specific drive circuit control tech-nique is required.Hence,it is desirable to develop a novel drive system that solves these issues while supplying the necessary power with high efficiency.Compared to work on drive circuit design for TWUSM based on the phase difference between the two-phase voltages,less research has been done in other areas of drive circuit design for TWUSM. Only the phase difference control strategy offers the advantage of bidirectional rotation,while the other two parameters of the con-trol scheme,frequency and voltage amplitude,need the assistance of phase-shift change between p/2toÀp/2.In the design of modern drive circuits with adjustable phase dif-ferences,a low-cost and simple phase shifter circuit providing two-phase signals of two-phase voltage source is a critical design issue. The motivation of this study is to design a novel driving scheme that simultaneously employs both the driving frequency and phase difference as dual-mode control variables to handle system nonlin-earities and parameter variations.In order to reduce the system hardware size and cost,the proposed phase shifter circuit is imple-mented by using a voltage-controlled resistance(VCR)and all-pass filter circuit that can provide piecewise-linear phase control over the entire speed range.In the conventional series and parallel resonant converter archi-tecture,two inductances must be inserted in parallel or series with the load for each phase,respectively,in order to become resonant with the inherent two-phase parasitic capacitances of the USM. Moreover,the motor parameters of the USM are dependent on the operating temperature,the running time,and the load.In addi-tion,the equivalent two-phase loads of the rotor are also unbal-anced and the equivalent resistor values vary for different operating conditions.Therefore the quality factors of the resonant inverters in two-phase are unequal and time-varying,resulting in the consumption of time to determine suitable RLC tank compo-nents.In contrast with conventional series and parallel resonant converters with two reactive components,the power amplifier circuit in this study is implemented to build high-frequency two-phase high drive voltages for USM(e.g.400V peak to peak) and is not in need of additional reactive components or a compli-cated energy feedback circuit.Although the quality factors of the two RLC tanks vary at different rotating speeds and are not equal, the output driving voltage of the proposed power amplifier circuit in two-phase can be maintained at the same peak voltage value when the driving frequency is operated close to the resonant frequency.In this paper,the design of a novel phase shifter circuit for applying TWUSM driving is presented.For a USM prototype,the operating principles and characteristics at the operating conditions will be also briefly described.Next,the novel driving circuit for the TWUSM,which contains VCO,VCR,voltage-controlled phase shif-ter,and power amplifier driving circuit,is introduced.The results of experiments investigating the effectiveness of the proposed dri-ver are given in Section4.Finally,a discussion and conclusions are provided in Section5.2.Operating principle and characteristicIn the operation of the TWUSM,a two-stage energy conversion is formed.Thefirst stage consists of the electro-mechanical energy conversion where the electrical energy is converted into mechani-cal energy.This is achieved by excitation of the piezoelectric cera-mic by ultrasonic range frequency.The second stage comprises mechanical energy conversion where the mechanical vibrations are converted to linear or rotary motion by the friction force gen-erated in the stator–rotor interface.Fig.1illustrates the operating principles of the TWUSM.The stator,designed with comb-tooth surface,is attached above the sectors of piezoelectric elements. The piezoelectric elements are divided into sectors instead of form-ing a complete ring so that they can be applied with different voltages.The rotor is pressed against the stator by means of a pressure spring disc.It should be noted that the spring as shown is for illus-tration only,since in reality it is not a normal spring,but a pressure disc.The operating principle of the TWUSM is based on the mechanical vibrations of the piezoelectric elements.As a result of voltages applied to them,they produce a traveling wave in the sta-tor.The surface interaction between the stator and the rotor cre-ates a driving torque in the rotor.As shown in Fig.1, piezoelectric elements are positioned at an appropriate distance from one another.One is produces a mechanical vibration by being fed by the phase-A voltage source V m sin x t,while the other is fed by the phase-B voltage source V m sin(x t+U),generating another vibration,where V m is the amplitude,x=2p f is the angular version of frequency f,and U is the phase difference of the two driving volt-age sources.Each voltage source generates a mode of vibration throughout the stator,and the superposition of them forms a trav-eling wave that propagates along the stator.Depending on which phase of the voltage leads the other,the traveling wave will travel in either a right or left direction.Elliptical motion can be observed at the wave peak of the surface of the stator.Such motion produces a tangential force at the contact surface between the stator and the rotor.With a spring disc to keep the rotor in pressure contact with the stator,the rotor can be driven to travel in the opposite direc-tion from the traveling wave by this tangential force at the contactsurface.Fig.1.TWUSM operating principle[1].2768T.-C.Chen et al./Energy Conversion and Management49(2008)2767–2775The speed of the USM is controlled by:Frequency of two-phase voltages.Amplitude of two-phase voltages.Phase difference between two-phase voltages.3.Drive circuit designFig.2shows actual configuration view of a typical USR-60circu-lar traveling wave type motor(from Shinsei of Japan),in which the specification is a40kHz,0.32Nm,3W,120rev/min type motor. The operation of a mode conversion USM is based on the torque generated by piezoelectric ultrasonic vibrations.An optimal supply voltage for the USM is a sinusoidal voltage with frequency near the mechanical resonance frequency of the stator–rotor assembly. Since this USM presents a large capacitive load and requires a high operating frequency(40kHz),its equivalent impedance could be extremely low.This USM also requires a high drive voltage (400V peak-to-peak),which leads to a large drive current.The goals for drive circuit design are to satisfy these require-ments,as well as achieve high power efficiency and reduce the sys-tem hardware size and cost.In the design of modern drive circuit with adjustable phase difference,the key technology is a low-cost and simple phase shifter circuit,provided two-phase signals from a two-phase voltage source.The purpose of this study is to design a novel driving scheme that simultaneously employs both the driv-ing frequency and phase difference as the dual-mode control vari-ables to handle system nonlinearities and parameter variations. The block diagram of the driving circuit is shown in Fig.3.This cir-cuit is composed of voltage-controlled oscillator(VCO),voltage-controlled phase shifter,power amplifier,and transformer.The design procedures of the proposed drive system are described in detail below.3.1.Voltage-controlled oscillatorThe ICL8038waveform generator is a monolithic integrated cir-cuit capable of producing high accuracy sine,square,triangular, sawtooth,and pulse waveforms with a minimum of external com-ponents[12].The frequency(or repetition rate)can be selected externally from0.001Hz to more than300kHz using either resis-tors or capacitors,and frequency modulation and sweeping can be accomplished with an external frequency-modulated voltage(V f). The frequency of the waveform generator is a direct function of the DC voltage at Terminal8,shown in Fig.4.By altering this volt-age,frequency modulation is performed by means of a voltage-controlled oscillator(VCO).To clarify the relation between the frequency-modulated voltage and the magnitude of the single fre-quency,experimental measurements were made at different volt-age values in Fig.5.Fig.5shows that this characteristic is quite linear.In this study,motor speed is controlled at40–44kHz,which may be considered the linear frequency range.3.2.Voltage-controlled phase shifterFig.6shows afirst-order all-passfilter with a junctionfield-effect transistor(JFET)used as a variable resistor to control the pole and zero time constants in thefilter transfer function.Let VCR R eq be the resistance of the JFET.If we assume that this is a linear resis-tor,the transfer function isTðsÞ¼V oi¼s sÀ1ð1Þwhere the time constant s is given by s=R eq C.By varying the gate-source voltage of JFET(V GS),i.e.the phase-modulated voltage(V p)in Fig.3,the resistance of the JFET can be varied,which in turn changes the time constant s.For s=j x,the phase difference of the transfer function is therefore\Tðj xÞ¼À2tanÀ1x R eq Cð2ÞFig.2.The photograph of experimentalsetup.The magnitude of the transfer function (j T (j x )j )is 1for all fre-quency x .The phase displacement not only depends on the oper-ating frequency of the TWUSM but is also affected by the timeconstant (s ).At different frequencies,between 41and 44kHz,the voltage signal (V i )applied to the USM,the VCR (R eq )drifting through the control voltage (V GS ),and the relationship between them were measured (Table 1).At a specific resonant frequency (f o =41kHz),the goals for phase shifter circuit designed to adjust the phase differential from Àp /2to Àp rad.Fig.6shows a general all-pass filter circuit.The circuit is composed of a resistor,a capac-itor,and an operational amplifier.The frequency of the input signalfor the circuit has to be near the resonant frequency of the TWUSM.We inset the VCR instead of the resistor,and adjusted the proper-ties of the circuit components (R =10k X ,C =0.01l F).As a result,when the operating frequency equal the resonant frequency (f o )and the control voltage minimizes as zero (V GS =0),the phase dis-placement reaches Àp /2rad,i.e.x R eq C =1.Conversely,if the R eq is increased in small increments,the phase difference gradually diminishes.3.3.Voltage-controlled resistanceVoltage-controlled filter,voltage-controlled oscillators,and voltage-to-time period/frequency converters have been applied in many instrumentation and measurement situations.A simple way to realize such circuits is to start from known circuits and then replace resistors by voltage-controlled resistances (VCR).Schemes to construct such VCR using FET’s are known in literature [13].Fig.4.A voltage-controlled oscillatorcircuit.Fig. 5.The measured relation between controlled voltage and output single frequency.Table 1Measurement results of V GS versus R eq V GS (V)0À0.2À0.4À0.6À0.8À1.0R eq (X )357.1416.7471.7531.9617.3746.3V GS (V)À1.2À1.4À1.6À1.8À2.0À2.2R eq (X )943.4128219233846291661Fig.8.FET output characteristics (K30A).2770T.-C.Chen et al./Energy Conversion and Management 49(2008)2767–2775The VCR configuration is shown in Fig.7.A routine analysis of the circuit shows that when the FET is confined to operate in a non-saturated region under the same constraints as in [13,14],the output characteristic of the FET may be represented by a qua-dratic function given by I DS ¼I DSS V p½2ðV GS ÀV p ÞV DS ÀV 2DSð3Þwhere I DSS and V p are saturation current and pinch-off voltage,respectively.The implementation of the voltage-tunable resistance can be simplified by neglecting the V 2DS term of Eq.(3),in which case R eq would be R eq¼V DS DS %V 2pDSS GS p ;providedV DS <j 0:5jð4ÞA typical set of characteristics obtained experimentally for an n-channel JFET (K30A)is shown in Fig.8.The range of values includes those prescribed in [14]as well as larger values,to show the nonlinear nature of these curves.Clearly if thisfield-effectFig.9.Phase displacement against controlvoltage.Fig.10.Measured results of the divergent index coefficient under difference ope-rating control voltage.Fig.12.Generated signals of phase-shifted circuit.(a)Phase difference set at p /2rad (b)p /3(c)p /6(d)0(e)Àp /6(f)Àp /3(g)Àp /2.Fig.13.Measured results of the phase shifter circuit under difference operating driving frequency.T.-C.Chen et al./Energy Conversion and Management 49(2008)2767–27752771transistor(FET)is to be used as a bidirectional linear resistor,j V DS j should be kept low,at least less than500mV,particularly for prac-tical circuit applications.For the relationship between the phase displacement angle(U) and the control voltage(V GS),the analysis of the phase shifter cir-cuit should yield the following results by observing the phase dis-placement versus control voltage curve in Fig.9x R eq C%tanðaV GSþbÞð5ÞUsing Eq.(5)to simplify Eq.(2),the following relationship results:\T¼À2ðaVGSþbÞð6Þwhere the constants a and b are calculated to define as a=À0.3865, b=p/4,and were used in the verifications below.Note that,as ex-pected,even nonlinearities do not appear in Eq.(6),as they are can-celed out.In the following,we test the divergence between the theoretical formula and experimental data and also define the divergent index coefficient D(the ratio of the phase value according to Eq.(6)di-vided by the actual phase displacement relating to Eq.(2)of exper-imental data)asD¼À2ðaV GSþbÞÀ2tanÀ1ðx R eq CÞð7ÞTo illustrate the difference between(2)and(6),actual and esti-mated UÀV GS curves using both schemes are presented in Fig.9. The measured index coefficient(D)of the divergence as the input control voltage swing during different operating values is shown in Fig.10.As thisfigure shows,a reasonably good correspondence is observed between the two sets of data,confirming the validity of the above supposition property regarding Eq.(6).A phase shifter circuit was designed to provide two-phase sig-nals of two-phase driving voltage sources with a phase difference ranging from p/2toÀp/2.To design a low-cost,simple phase shifter circuit for a TWUSM,we constructed a phase-regulating driving circuit for the USM by utilizing the VCR and all-passfilter circuit.The proposed phase shifter circuit,shown in Fig.11, has dual complementary channels,in which the sinusoid output signals have angles complementary to each other (\A+\B=90°).The driving voltage signals with the phase difference from the phase shifter circuit for the resonance frequency of TWUSMsetFig.14.A Push–pull class-B amplifier with Darlingtonpairs.Fig.15.Rotational speed versus driving frequency under freeloading.Fig.16.Two-phase output voltages of phase-modulation driving circuit for drivingfrequency set at41kHz:the phase regulated as equal value.2772T.-C.Chen et al./Energy Conversion and Management49(2008)2767–2775at 40kHz are shown in Fig.12.Even if the phase in the phase shifter circuit was slightly affected by the operating driving frequency,the output signals in phase A and B can still maintain symmetrical amplitude and the range of phase difference reaches ±p /2rad.By observing the characteristics of the measured phase difference angle versus the phase-modulated voltage (V p ),shown in Fig.13,we found that the relationship between the phase difference angle (U )and phase-modulated voltage (V p )is highly linear over a wide operating range under different driving frequencies.3.4.Power amplifiers and transformerA practical circuit using ClassB elements is a complementary pair or push–pull arrangement.Here,complementary devices are used to each amplify the opposite halves of the input signal,which is then recombined at the output.This arrangement gives excellent efficiency,but can suffer from the drawback of a small glitch at the joins between the two halves of the signal,a problem known as crossover distortion.A solution to this is to bias the devices just on,rather than off altogether,when they are not in use.One way to greatly boost the current gain (A I )of a Class B push–pull ampli-fier is to use Darlington pairs instead of single transistors,shown in Fig.14.Since this USM presents a large capacitive load and requires a high operating frequency,its equivalent impedance could be extre-mely low.This USM also requires a high drive voltage,which leads to a large drive current.Hence,a ferrite-core transformer which features high efficiency,small size,and light weight,was chosen to isolate and boost the high frequency AC voltage.The non-reso-nant power amplifier circuits are designed in order to provide two-phase,phase A and B,sinusoid output voltages V A and V B with the same amplitude under the variable frequency and phase con-trol.According to experiment test in Section 4,the amplitude of the output voltage will not be affected by the variation of the qual-ity when the driving frequency is operated closely to the resonant frequency of the TWUSM.The phase B power amplifier circuit is designed using the same method as for phase A.4.Experimental resultsA prototype of power driver for a TWUSM was built and tested.Based on the circuit design of TWUSM driver discussed above,mo-tor performance was measured by experimental results.There are three basic input signals for the TWUSM:frequency,independence amplitude,and phase.It is important to confirm the driving char-acteristics for eachparameter.Fig.17.Experimental results of phase-modulation driving circuit for driving frequency set at 41kHz,10l s/div.(a)Two-phase output voltages with phase difference p /6for CW rotation.(b)Two-phase output voltages with phase difference p /6for CCWrotation.Fig.18.Experimental results of phase-modulation driving circuit for driving frequency set at 41kHz,10l s/div.(a)Two-phase output voltages with phase difference p /3for CW rotation.(b)Two-phase output voltages with phase difference p /3for CCW rotation.T.-C.Chen et al./Energy Conversion and Management 49(2008)2767–27752773First,we measured the rotational speed in relation to the driv-ing frequency in Fig.15.The mechanical resonant frequency of the USM (USR-60)ranges from 39to 40kHz in the ultrasonic fre-quency range.The switching frequency of the voltage-controlled oscillator,which is designed to vary between 40.5and 44kHz,should be higher than the resonant frequency of the mechanical vibration.The highest rotational speeds around the phase differ-ence p /2were roughly 229and 221rpm in the direction of CW and CCW,respectively.The frequency,at around 40.5kHz,is nearly the same as the natural resonance frequency of TWUSM as de-scribed above.This characteristic is the same as that of a conven-tional single-frequency-mode control ultrasonic motor.The vibration velocity becomes high near the resonant frequency of the stator,which means the rotational velocity of the rotor reaches its maximum value.Subsequently,we tested the rotational speed in relation to the phase difference.The phase shifter circuit worked as mentioned above.The control input to the drive circuit (V p )is calculated by the control algorithm.According to the control input,the phase dif-ference (U )is regulated by means of the designed phase shifter cir-cuit.The phase shifter circuit is designed for the two-phase power amplifier to provide two-phase output voltages V A and V B with var-iable phase difference,where the rotational direction (CW or CCW)can be controlled by allowing either V A or V B to lead.In order to as-sess the performance and stability of the proposed phase-mode driver for TWUSM,the phase differences of two-phase AC outputvoltage has been regulated from 0to ±p /2rad,shown in Figs.16–19,respectively.The two-phase sinusoid output V A and V B can thus be maintained at the same constant peak value at the switching frequency under varying phase-modulation processes.The driving phase difference of the designed phase-shifter circuit is the major control variable,and balanced two-phase sinusoid output voltages with the same amplitudes and variable-phase control results in satisfactory control performance of the TWUSM servo drive.Fig.20shows the experimental results of the Speed versus phase difference curves under variable operating driving frequencies.Experimental results confirm that the rotor could be rotated using the design driving circuit.By comparison,the phase-mode driving can offer a much wider controllable range,which verifies that the proposed driver circuit can successfully adapt the change of com-mand signals.In addition to these advantages,only the phase shift parameter can control the rotational direction of a rotor,which the phase-shift varies between p /2and Àp /2.5.ConclusionsUSMs are potentially interesting for a number of industry appli-cations,such as miniature robotics.Their electrical drive circuits present unique challenges,particularly in producing signals of several hundred volts and tens of kilohertz with variable phase dif-ferences,inputted to a low impedance capacitive motor,whileFig.20.Rotational speed versus phase difference under difference operating drivingfrequency.Fig.19.Experimental results of phase-modulation driving circuit for driving frequency set at 41kHz,10l s/div.(a)Two-phase output voltages with phase difference p /2for CW rotation.(b)Two-phase output voltages with phase difference p /2for CCW rotation.2774T.-C.Chen et al./Energy Conversion and Management 49(2008)2767–2775。

附录附录ADriver introductions Bridge1. Features:Drive Bridge at the end of powertrain, and the basic function of which is to increase came from the drive shaft or transmission of torque, and a reasonable distribution of power to the left and right driving wheel, and also bear in the role of the frame or the road and Legislative body between the vertical, horizontal and vertical of power. Driven by the general bridge reducer, differential, wheels, transmission and drive axle housings and other components.2. The bridge design driver:（1） Drive bridge design should meet the following basic requirements:（1）. Choice of the reduction ratio should be able to guarantee that vehicles have the power and the best fuel economy.（2）. Dimensions small to ensure that the necessary ground clearance.（3）. Transmission gears and other pieces of work stable and noise.（4）. Under various load and speed with high transmission efficiency.（5）. Guarantee sufficient strength, rigidity conditions, should strive for quality small, particularly unsprung mass should be as small as possible to improve vehicle ride comfort.（6）. Oriented suspension and coordination of movement, to the drive axle, and the steering mechanism should be coordinated with campaigns.（7）. Simple structure, and processing of, and easy to manufacture, enables easy adjustment.3. Drive Bridge Category3.1 non-driving axle-disconnectDisconnect-general non-driving axle, simple structure, low cost, reliable, widely used in a variety of truck, bus and the bus, in the majority of off-road vehicles and some cars also adopt this structure. Their specific structure, in particular the shell structure while the bridge is not the same, but there is one common characteristic is that Shell is a bridge support in the drive wheel about the rigid hollow beam, and the half-axle gear transmission components, such as installation of one of them. Then the whole drive axle, drive shaft driven wheel and some are in unsprung mass, larger vehicles unsprung mass, which is one of its shortcomings.Drive Axle size depends primarily on the outline of the main types reducer. In the tire size and drive underneath the minimum ground clearance has been determined by circumstances, it defines the diameter of the driven gear reducer size. Ratio of a given condition, if the single-stage reducer can not meet the requirements of ground clearance, with the dual-class structure. In the two-stage reducer, the two usually on a main gear reducer shell reducer, can also slow gear as a second-class round-reducer. The round-reducer: In order to improve cross-country motor vehicle ground clearance, can be a spur gear consisting of round-gear reducer initiatives under its follower of the vertical top gear; buses to reduce vehicle height and the center of mass of train floors height, so as to enhance stability and the convenience of the passengers get on and off, can be round-gear reducer initiatives under its vertical driven gear beneath some double-decker bus in order to further reduce the compartment floor height in a round-Gear reducer At the same time, the main reducer and differential assembly also moved to the driver's side wheel.In a few large-scale high-speed bus engine, multi-bridge drive vehicle and ultra-heavy laden car, and sometimes used for the worm reducer, it not only has the quality of small, compact size of circumstances can be large and transmission ratio Smoothing the merits of silent work, and the overall layout of the car is very convenient.3.2-drive axle disconnectDisconnect-drive axle different from the non-driving axle-disconnect the obvious characteristics of a connection is that the former does not drive the wheels about the rigidity of the overall casing or beam. Disconnect drive bridge is the bridge sub-shell, and can be done between the relative motion, such as off-the bridge. In addition, it always match with independent suspension, it is also known as the independent suspension bridge driver. The middle of this bridge, the main reducer and differential, are mounting in the frame beamsinside or on the floor, or backbone of the frame. Lord reducer, and the driveshaft and differential wheel drive part of the quality of transmission quality on all spring. As both sides of the drive wheel independent suspension can be used to the site relative to each other frame for the upper and lower compartments or swing, with a corresponding demand on the drive wheel and the gear casing or casing for the corresponding swing.The hoisting of the type of vehicle assembly and elastic damping device components and characteristics of the work is to determine vehicle ride comfort of the main factors, and the quality of auto parts spring the size of their ride also have a marked impact. Disconnect-drive axle unsprung mass smaller, independent suspension with the match, which drive the wheels of contact with the ground and on all-terrain better adaptability, which can greatly reduce car running on uneven road vibration and the tilt train, travelling to the vehicle's ride and the average driving speed, reducing the wheels and axles on the dynamic load and parts, increasing its reliability and service life. However, due to disconnect the drive Bridge and the independent suspension with the match of the complex structure, this structure is mainly seen on the ride comfort of the higher part of sedans and some off-road vehicle, and the latter more than a light following riders Bridge drive vehicles or heavy-duty off-road vehicle.3.3 Bridge over drive layoutIn order to improve loading and adoption of some medium - and heavy-duty vehicles and all over the use of off-road vehicles are driven more bridge, and often used 4,6 × 4 × 8 × such as 6,8-driven type. Multi-Bridge driver in the circumstances, the driving force at the drive actuator pass in the way the two bridges. The two corresponding power transmission, the Multi-Bridge drive vehicle driving axle layout patterns into non-hollow and hollow. The former in order to force the pass at the drive actuator bridge to the actuator from the drive axle by its own dedicated power transmission drive shaft, not only to increase the number of drive shaft, and the cause of the drive axle Bridge parts in particular Shell, and other major parts Semiaxle not universal. On the 8 × 8 vehicle, this non-drive-through bridge is even more inappropriate, but also a difficult layout.In order to solve the above problems, modern bridges are used in cars driven through the drive axle-type layout.In the drive-through layout of the bridge, the bridge driveshaft layout in the same vertical longitudinal plane, and were not the driving axle drive shaft and use their own sub-actuator directly connected, but in front of the actuator or the back of the two adjacent bridge driveshaft is the tandem arrangement. The two ends of the car after driving axle impetus by the actuator and transmission through the middle of the bridge. The advantage is not only reduce the number of drive shaft, but also increase the driving axle parts of the mutual general, and to simplify the structure, reducing the size and quality. This vehicle design (such as car variant), manufacturing and maintenance, convenient4. Drive axle componentsDriven mainly by the main bridge reducer, differential, half-axle and drive axle housings and other components.1. Lord reducerReducer to change the general direction of transmission, reduce speed and increase torque to ensure that there are sufficient vehicles and the driving force of the appropriate speed Paper. Reducer more main types, single-stage, two-stage, two-speed, such as round-reducer.(1) single-stage main reducerBy achieving a gear reducer deceleration devices, known as a single-stage reducer. Its structure is simple, light weight, Dongfeng BQl090 type light, widely used on medium-duty truck.( 2) Two-stage main reducerSome of the larger truck load for a slowdown than larger, single-level main reducer drive, moving from the diameter of gear must be increased, it will affect the drive axle ground clearance, a two-reducer . Often referred to as the two-stage reducer. There are two double-reducing gear reducer, to the two-twisting by deceleration.To enhance the meshing of gears cone smooth and strength, the first vice-gear reducer is spiral bevel gears. Two helical gear is the result of Vice gear.Active bevel gear rotation, led a round-driven rotary gear, thus completing a slowdown. Second-class deceleration initiative Gear Driven and bevel gear and a rotating coaxial, and driven gear driven rotary cylinder, a second-class deceleration. Driven by cylindrical gear installed in the differential case, therefore, when the follower cylinder gear rotates, and through the half axle differential rotation that drive the wheels. 2. DifferentialAbout half axle differential to connect, to enable both sides of the wheels at different angular velocity of rotation torque transmission. Guarantee the normal wheels rolling. Some bridges-driven cars, in the actuator or in the hollow shaft of the transmission are available differential, known as bridge between differential. Its role in the automotive turn or uneven traffic on the road, before and after the drive wheel differential between role.At present domestic cars and other types of vehicles in the basic use of the symmetrical cone ordinary differential gear. Symmetric bevel gear from the planetary gear differential, half axle gear, planetary gear shaft (axle or a direct cross-axis) and differential shell components.Most car-use planetary gear differential, ordinary differential bevel gear cone by two or four planetary gears, gear shaft, the two conical about half axle differential gear and shell components.3. SemiaxleSemi-axle differential is the torque came to pass wheels, rotating wheel drive, and promote car travelling solid shaft. Since the installation of wheels different structures, and the force Semiaxle also different. Therefore, Semiaxle divided into floating, semi-floating, 3 / 4 floating three types.(1) Full-floating SemiaxleGenerally large and medium-sized cars are used all floating structures. Semiaxle end of the spline and with the half-axle differential gear connected to the outer end Semiaxle forging a flange, with bolts and wheels connected. Wheel through two further away from the text of Tapered Roller Bearings for the half axle casing. Semiaxle bridge shell casing pressure and after one match, composition drive axle housings. Supporting the use of such forms, and the bridge shell Semiaxle not directly linked to Semiaxle driving torque not only bear to bear any moment, such Semiaxle called the "floating" half axle. The so-called "floating" that is not half axle bending load.Floating Semiaxle all, the end-to-flange and shaft into one. But there are also some truck into separate parts of the flange, and a set of keys to spend half axle, in the end. As a result, the two ends are Semiaxle spline can be used for the first.(2) semi-floating SemiaxleSemi-axle semi-floating with all of the floating-the same does not bear bending and torsion. Aloof-supported through a direct bearing on the inside half axle casing. Supportingthis approach will bear moment Semiaxle outer end. Therefore, in addition to this Banxiu torque transmission, but also to sustain local moment, the semi-called floating Semiaxle. This structure type mainly used for small buses.(3), 3 / 4 floating Semiaxle3 /4 floating Semiaxle is subject to the degree of bending short range semi-floating and the entire floating between. Application of this type currently Semiaxle little Xiaowoche only on the individual applications, such as Warsaw M20 car.附录B驱动桥相关介绍一．功能：驱动桥处于动力传动系的末端，其基本功能是增大由传动轴或变速器传来的转矩，并将动力合理的分配给左、右驱动轮，另外还承受作用于路面和车架或车身之间的垂直立、纵向力和横向力。

中英文文献翻译—驱动桥的构造附录AThe structure of driving axleThe driving axle is in the power power transmission the terminal, its basic function increases the torque which transmits by the drive shaft or the transmission gearbox, and power reasonable assignment for left and right driving gear, moreover also withstands the function vertical sets up, the longitudinal force and the transverse force between the road surface and the frame or the automobile body.The driving axle generally by the main gear box, the differential device, the wheel transmission device and the driving axle shell and so on is composed.1.Driving axle design：The driving axle design must satisfy following basic request:1). Choice main reduction gear ratios ought to be able to guarantee the automobile has the best power and the fuel economy.2). External dimensions must be small, guaranteed has the necessity ground clearance.3). Gears and other transmission piece works do steadily, the noise is small.4). Has the high transmission efficiency under each kind of rotational speed and the load.5). Under the guarantee enough intensity, the rigidity condition, should make every effort the quality to be small, under the reed the quality should be as far as possible small in particular, improves the automobile smoothness.6). Coordinated with the suspension fork guidance organization movement, regarding changes the driving axle, butalso should coordinate with the rotation gear movement.7). Structures are simple, the processing technology capability is good, the manufacture is easy, disassembling, the adjustment is convenient.2.Driving axle classificationThe driving axle minute non-separation type with separates the type two big kinds.1).Non-separation type driving axleThe non-separation type driving axle also is called the integral-type driving axle, its rear axle drive pipe and main gear box shell with shaft casing rigidly connected whole Liang, thus the both sides rear axle and the driving gear swing related, passes the elastic part andthe frame is connected.It by the driving axle shell 1, the main gear box, the differential device and the rear axle is composed.2). Separation type driving axleThe driving axle uses the independent suspension fork, namely the main gear box shell fixes on the frame, the both sides rear axle and the driving gear can be opposite in the rolling plane in the chassis have the relative motion to be called the separation type driving axle.In order to coordinates with the independent suspension fork, fixes the main gear box shell in the frame (or automobile body) on, the driving axle shell partition and through the hinge joint, or no longer has the driving axle shell other parts besides the main gear box shell.In order to meet the need which about the driving gear independence beats, between the differential device and between wheel rear axle each section connects with the universal joint.3.Drive axle of compositionMainly by the reducer drive, and half axle and drive axle shell, etc.1) .Main reducerThe speed reducer is usually used to change the direction of transmission, reduce speed and increase torque, guarantee cars have enough force and appropriate speed. Main reducer, have more single type, double, double speed reducer, wheel edges.a). Single main reducerBy a reduction gear reducer realization of single reducer, called. Its simple structure, light weight, dongfeng BQl090, light, medium sized truck was widely used in automobile.b). Double main reducerIn some large trucks, load demand is bigger than the slow, with single main reducer drive, driven gear diameter increases, affect to the ground clearance drive, so using twice. Usually called doublestage reducer. Two groups of double reduction gear reducer, increasing torsional twice slowdown.To improve the tapered gear pair of meshing smoothness and strength, the level of spiral bevel gears reduction gear pair is. Second gear pair is helical gears for support.Active tapered gear rotating, drive driven circular gear rotating, thus completing silver. Level Article 2 the initiative of cylindrical gears and driven tapered gear coaxial and rotate together, and bring about a follower of cylindrical gears rotate, 2. Because a follower of cylindrical gears installed in differential shell, so, when a follower of cylindrical gearsturning, through the differential and half shaft is driven wheel rotation.2).DifferentialAround half shaft are used to connect differential wheel, canmake the sides with different velocity rotating torque simultaneously. Ensure the normal scroll wheel. Some more, in the car driver bridge or in the breakthrough of thansfer transmission shaft with differential between, also called the bridge between differential. Its role in the car is in turn or flat road to drive wheels, and generate differential between the role.Current domestic cars and other cars are adopted symmetric bevel gear ordinary differential. Symmetrical type gear differential planetary gear, half of planetary gear axle shaft gear, or a cross (direct axis) and differential shell, etc.Most current car using differential planetary gear, ordinary bevel gear differential by two or four conical planetary gear and planetary gear axle, two cone half shaft gear and differential shell, etc.3). Half axleHalf shaft are coming to the differential wheel, drive torque to move the car wheel rotation, the solid shaft. Due to the different structure, installation of hub axial force and the different also. Therefore, half shaft are divided into the floating, use, three/four floating three types.a). Howo fou-point suspending half axleGeneral big, medium-sized cars are adopted the floating structure. Half of the spline shaft inside with the half shaft with differential gears connected to the end of the half shaft are forging flanges, bolts and wheel connection. Hub through two far apart WenCheng tapered roller bearings in half a collar. Half a collar and driving axle shell pressure to drive, composition. Use this form, half shaft bearing no direct link with the bridge housing, half shaft driving torque and not only bear any moment under this half shaft are called "the floating" half axle. The so-called"float" means half shaft are not bending load.The float, the half axle shaft for lugs and made one. But there are some heavy trucks to lugs, and made the individual parts of the spline shaft in the half. Therefore, both ends of the spline shaft is used, can HuanT ou.b). Use half axleUse of half axle within the same with the client, not withstand float bending-torsional. The client through a direct bearing on the inside of half axle shell. This means that will support the half axle under bending moment. Therefore, the half sleeve torque, except underbending moment, local use half shaft is called. This structure is mainly used for certain.The red flag brand limousines CA7560 type of thing. The half shaft are not bending moment, the client will inherit all external use, so called bending support.c). 3/4 floating half axleThree-quarters of floating half shaft are short of bending degree between use and the floating. This type of half axle currently used in XiaoWoChe, only on individual applications, such as M20 type car. Warsaw,4). The bridge housinga). Integral bridge housingIntegral bridge housing for the intensity and rigidity, and facilitate the good performance of the installation, adjustment and maintenance, and widely used. Integral bridge housing for manufacturing methods, which can be divided into different midway through the whole cast type, the steel casting and stamping steel welding etc.b). Drive axle shell segmentedSection type bridge housing generally fall into two, one will DuanLianCheng two by bolts. Bridge housing is segmented to casting and machining.附录B驱动桥的构造驱动桥处于动力传动系的末端，其基本功能是增大由传动轴或变速器传来的转矩，并将动力合理的分配给左、右驱动轮，另外还承受作用于路面和车架或车身之间的垂直立、纵向力和横向力。