汽车转向控制论文中英文资料对照外文翻译
中英文资料对照外文翻译
汽车的转向控制
控制系统稳定性是针对提高驾驶安全性提出的一系列措施中最新的一个。这个系统能够在40毫秒内实现从制动开始到制动恢复的过程,这个时间是人的反应时间得七倍。他们通过调整汽车扭矩或者通过应用汽车左侧或右侧制动,如果需要甚至两者兼用,来实现准确的行车路线。这个系统已被应用于奔驰S600汽车了。
稳定的机械自动系统能够在制动时发现肇端,并且在驾驶人员发现能够反应以前实现车辆的减速。
安全玻璃,安全带,撞击缓冲区,安全气囊,ABS系统,牵引力控制系统还有现在的稳定调节系统。汽车安全系统的连续升级,已经产生了一种为保护汽车所有者安全的设计模式。稳定调节系统帮助驾驶员从不可控制的曲线制动中解脱出来,从而避免了汽车的摆动滑行和交通事故。
利用计算机和一系列传感器,稳定调节系统能够检测到制动轮的打滑并且比人更快的恢复对汽车的方向控制。系统每百万分之一秒作出一次快速捕捉,以及断断汽车是否在按照驾驶员的路线行驶。如果检测到汽车行驶路线和驾驶员驾驶路线存在一个微小的偏差,系统会在瞬间纠正发动机扭矩或者应用汽车左右制动。过程的标准反应时间是40毫秒----人的平均反应时间的七分之一。
罗伯特博世工程系统负责人安东·范·桑特解释说:“一个稳定的控制系统能够‘感觉到”驾驶员想要运动的方向,通过控制转向角度,油门踏板的位置,制动板的状态来确定汽车实际运动路线的偏航比率(汽车偏离方向轴的角度)和横向加速度”。项目负责人阿明·马勒领导着范桑特的工作小组和奔驰汽车公司的工程师发明了第一个完全有效的稳定调节系统,该系统由发动机扭矩控制系统,制动系统,牵引控制系统组成以实现理想与现实运动之间的最小差距。
汽车安全专家相信稳定调节系统能够减少交通事故的发生,至少是在伤亡严重的事故方面。安全统计表明,多数的单车撞击事故伤亡(占伤亡事故发生的4%),事故能够通过
应用这项新技术避免。这项新系统的额外费用主要用于一系列目前汽车日益普遍应用的制动/牵引控制锁组件。
稳定调节系统技术首次应用于欧洲的奔驰S600汽车,是由德国斯图加特市的罗伯特博世公司和奔驰公司在过去几年共同研制的。该系统在博世公司被称为汽车动力控制(VDC),而默西迪称它为稳定电控系统(ESP),作用就是在任何状况下维持车辆的稳定性。博世公司开发了这项系统,奔驰公司把它应用于车辆。工程师默西迪丝在柏林应用戴姆勒奔驰汽车虚拟驾驶模拟器在极限情况下对系统进行评估,例如极强的侧风。然后他们在瑞典的安杰普劳附近的后娜瓦安湖的冰面上进行性能测试。工作通常是在公路上进行以适用于公共汽车和大卡车,例如避免的折合问题。
稳定调节系统将在1995年中应用于欧洲S系列产品上,随后会在1996年进入美国市场(1995年11月产品)。用户可以选择750美元的系统,就像应用于默西迪丝的试验用的V8发动机上的,也可以选择价格为2400美元的应用于六缸发动机汽车的系统。后者的系统中差不多有1650美元是用于牵引控制系统,该系统是稳定性系统的先决条件。
并不是只有博世公司一家在开发这样的安全系统,美国密歇根州的ITT(美国国际电信公司)汽车公司的奥伯恩·希尔,在1995年1月底特律北美国际汽车展览会上展示了了?忣????峂?悇管理系统(ASMS),“车辆控制器应该像空对地导弹的控制器那样,比较而言,事实上那已经实现了,不同的是两者的费用不同”,美国国际电信公司驻欧洲空对地导弹控制工程负责人约翰尼斯·格雷得说。北美ITT公司“汽车制动和底盘工程”主管汤姆·麦兹指出,在未来十年美国国际电信公司的系统要首先出现在车辆上。很多工程师正在六辆特殊制造的精密车辆模型上调试这种系统。
一个比较简单和较低效率的博世的稳定调节系统也在1995年出现在慕尼黑宝马公司的AG系列750iL和850Ci V-12两款车上。宝马公司的稳定调节系统(DSC)运用的车轮速度传感器同牵引控制系统和标准ABS防抱死系统一样能够识别外部情况,使车辆更容易实现曲线行驶和转弯。为了检测出车辆转弯时潜在的危险,DSC系统检测的是两前轮在转弯时的速度差,DSC系统添加了一个更高级的角度传感器利用现有的一个车辆速度,并且引入了它自身带有的关于完全抱死系统,牵引控制系统,稳定调节系统软件控制原理。
新的博世和ITT自动稳定调节系统得益于航空工业高级技术的发展,就像超音速发动机,汽车的稳定调节单元运用一个基于计算机系统的传感器来调和人与系统之间的,还有轮胎与地面之间差异。另外,系统采用了用于导弹制导系统的回旋传感器。
优于ABS防抱死系统和牵引控制系统之处
根据范·桑特和博世公司的瑞娜·伊哈德,杰瑞·帕夫在《汽车工程师》杂志所提到的,稳定调节系统是ABS防抱死系统和牵引控制系统的合理扩展。但是ABS系统的作用发生在制动时车轮转向将被锁死时,牵引控制是预防加速时的车轮滑动,稳定系统是当汽车自由转向时能独立于驾驶员作出操作。依靠不同的驾驶状况系统可以使每个车轮制动或者迅速使四个轮转速适合于发动机的扭矩,从而使车辆稳定和减少由于制动失控带来的危险。新系统不仅仅控制完全制动还可以作用与部分制动,行车路线,加速度,车轮与发动机动作的滞后等,这些是ABS防抱死系统和牵引控制系统所远远不能达到的。
三种主动的安全系统的作用时刻是一致的,那就是一个车轮被锁死或者车轮渐渐失去方向稳定性或者车轮使得行驶更加困难。如果一辆车必须在较低摩擦系数的路面制动,必须避免车轮抱死以保持行驶稳定性和可驾驶性。
ABS防抱死系统和牵引控制系统能够预防侧滑,而稳定性系统采取减少侧面受力的稳定措施。如果行驶车辆的侧力不再适当的分配在一个或者更多轮上,车辆就会失稳,尤其是车辆沿曲线行驶时。驾驶员感觉到的“摇摆”起初是转弯或者与车的轴线形成一个纺锤形时。一个独立的传感器必须能够识别这个“纺锤”,而 ABS防抱死系统和牵引控制系统通过车轮的转速不能检测车辆的横向运动。
转向操作
新系统通过对微小的汽车不足转向(当车辆对于方向盘操作反应迟缓)和方向盘的“过敏”反应(后轮发生来回摆动)。当车辆在转向时如果发生不足转向和过度转向运动时,稳定调节系统能够通过后轮进行内部制动(针对曲线)纠正错误。这种情况是驾驶员不能感觉类似于ABS防抱死系统接近于抱死极限,而使车辆不失去控制。稳定调节系统能够通过发动机降速或者单轮制动来减小推动力。
博世公司的研究员解释说:“侧面偏离角度表明此时车辆的偏航灵敏性,并反映为转向角度,转向角度随着车辆偏离角度的增大而减小。一旦偏离角度超过某一限度,驾驶员就很难重新进行操作。在干燥的路面偏离角度不能够超过10度,而在积雪路面上极限偏离角度为4度。
多数司机没有从制动中恢复的经验。他们不知道轮胎和地面之间的摩擦系数,更不知道他们的车的侧缘稳定边界。当极限被冲破时,驾驶员通常会很紧张以至于做出错误的反
应。ITT的格雷柏解释说:“过度转向引起车辆摆尾,使汽车更快的失控。ASMS传感器能够快速的检测到制动开始时各个车轮的活动,从而使车辆恢复到稳定行驶轨道。
对于稳定调节系统界面的可操作性是很重要的,这样可以预示带有稳定系统的驾驶和普通驾驶给人的感觉没有什么区别。
稳定系统最大的优点在于速度,它不仅可以对制动作出快速反应,还可以对车辆状况(例如车重变化,轮胎磨损),路面质量作出快速反应统就能够通过改变侧面受力平横处理,达到最好的驾驶稳定性。
稳定系统识别驾驶员想达到的(理想路线)和车辆实际行驶路线(实际路线)的不同,目前的汽车需要一套高效的传感器和一台高效处理信息的处理器。
博世公司的VDC/ESP电子控制单元是一个由两个48兆的ROM组成的传统实验电路板。范桑特说:“48KB的内存容量是大量用以完成设计任务的‘智能’的代表”。他在SAE中指出。ABS防抱死系统是独立的,只提供四分之一的这样的容量,而ABS和牵引控制系统组合在一起的容量只有这个软件容量的一半。
除了ABS防抱死系统和牵引控制系统所具有的关系传感器外,VDC/ESP运用了偏航比率传感器,横向加速度传感器,转向角传感器,制动压力传感器来获取汽车的加速,摇摆或者刹车的信息。系统通过管理员获得所需的通常的路面信息。方向盘上的传感器由一组安装在方向盘上的发光二极管和光敏二极管上组成。一只硅压力传感器通过控制前轮刹车内压力油的压力控制制动压力(因为制车压力来源于驾驶员)。
确定车辆实际的行驶路线是一项非常复杂的工作。通过必须的纵向滑动车轮速度传感器提供给反向制动或者牵引控制系统的车轮转速信号,以对可能发生的动作作出精确的分析,无论如何侧向难预料的运动分析是必须的,所以系统必须再拓展两个额外的传感器---偏航比率传感器和侧向加速度传感器。
横向加速度表检测沿曲线行驶时所带来的受力状况。这种类似的传感器通过一台直线霍尔发电机把弹簧的直线运动转变成电信号来实现对弹簧机构的控制。这种传感器必须很灵敏,它的控制角为±1.4g。
偏航比率回转仪
最新的稳定调节系统的核心在于类似于陀螺仪的偏航比率回转仪。传感器测量车辆对竖直轴的旋转。这个测量原理来源于航空工业,并且被博施公司大规模的应用于汽车工业。现有的回转仪市场提供两种选择,一种是应用与航空航天业的价值6000美元(由位于英
国罗彻斯特的美国通用电器公司航空股份有限公司提供),另一种是用于照相机的价值160美元。由SAE报得知博施公司采取一种圆柱形设计方案以实现低成本下的高性能。这种传感器需要一项更大的投资以应对汽车所处的极端环境状态。同时偏航比率回转仪的价格必须降低,这样才能充分应用与汽车。
偏航比率回转仪有一个复杂的内部结构,其内部是有一个很小的圆柱形钢管伺服测量元件。圆柱的薄壁上有压电元件能够在15千赫兹的频率下震动。四对这样的感应器安放在圆柱体的周围,一对元件的位置与另一对的位置相对。其中的一对通过应用正弦电压引起柱体在其固有频率下产生共振,并将振动传送给变频器。在每一对传感器之间,振颤节点绕着汽车的垂直轴作细微的运动。这时如果没有偏航输入,震动曲线就是一条稳定的曲线。如果有信号输入,节点的位置和曲线的波谷就会在相对的防线绕着圆筒壁做旋转运动(科里奥利加速度)。这个轻微的位移就会成为汽车偏航比率的度量标准。
许多司机都相互宣传他们的车辆在光滑转弯处,车尾部将要被甩出去的时候,新系统会把车辆“推”回到正确的轨迹上方面的经验。
许多观察员指出,稳定调节系统可能会使司机在较低摩擦力的路面上过分自信,尽管他们占少数。或许需要指导司机怎样来恰当的使用车辆稳定调节系统。就像当初让司机学习不能向防抱死制动系统里泵油一样。
虽然只介绍了很少的关于为未来汽车研制的新一代主动安全系统(远远超过了雷达扫描仪类似的系统),但避免交通事故仍然是汽车安全工程的主题。美国国际电信公司负责人指出“当稳定调节技术伴随着汽车结构全面性能稳步提高的时候,多数可避免的事故将不再发生了”。新一代的安全系统也会起到同样的效果。
附件:Spin control for cars
Stability control systems are the latest in a string of technologies focusing on improved diriving safety. Such systems detect the initial phases of a skid and restore directional control in 40 milliseconds, seven times faster than the reaction time of the average human. They correct vehicle paths by adjusting engine torque or applying the left- or-right-side brakes, or both, as needed. The technology has already been applied to the Mercedes-Benz S600 coupe.
Automatic stability systems can detect the onset of a skid and bring a fishtailing vehicle back on course even before its driver can react.
Safety glass, seat belts, crumple zones, air bags, antilock brakes, traction control, and now stability control. The continuing progression of safety systems for cars has yielded yet another device designed to keep occupants from injury. Stability control systems help drivers recover from uncontrolled skids in curves, thus avoiding spinouts and accidents.
Using computers and an array of sensors, a stability control system detects the onset of a skid and restores directional control more quickly than a human driver can. Every microsecond, the system takes a "snapshot," calculating whether a car is going exactly in the direction it is being steered. If there is the slightest difference between where the driver is steering and where the vehicle is going, the system corrects its path in a split-second by adjusting engine torque and/or applying the cat's left- or right-side brakes as needed. Typical reaction time is 40 milliseconds - seven times faster than that of the average human.
A stability control system senses the driver's desired motion from the steering angle, the accelerator pedal position, and the brake pressure while determining the vehicle's actual motion from the yaw rate (vehicle rotation about its vertical axis) and lateral acceleration, explained Anton van Zanten, project leader of the Robert Bosch engineering team. Van Zanten's group and a team of engineers from Mercedes-Benz, led by project manager Armin Muller, developed the first fully effective stability control system, which regulates engine torque and wheel brake pressures using
traction control components to minimize the difference between the desired and actual motion.
Automotive safety experts believe that stability control systems will reduce the number of accidents, or at least the severity of damage. Safety statistics say that most of the deadly accidents in which a single car spins out (accounting for four percent of all deadly collisions) could be avoided using the new technology. The additional cost of the new systems are on the order of the increasingly popular antilock brake/traction control units now available for cars.
The debut of stability control technology took place in Europe on the Mercedes-Benz S600 coupe this spring. Developed jointly during the past few years by Robert Bosch GmbH and Mercedes-Benz AG, both of Stuttgart, Germany, Vehicle Dynamics Control (VDC). in Bosch terminology, or the Electronic Stability Program (ESP), as Mercedes calls it, maintains vehicle stability in most driving situations. Bosch developed the system, and Mercedes-Benz integrated it into the vehicle. Mercedes engineers used the state-of-the-art Daimler-Benz virtual-reality driving simulator in Berlin to evaluate the system under extreme conditions, such as strong crosswinds. They then put the system through its paces on the slick ice of Lake Hornavan near Arjeplog, Sweden. Work is currently under way to adapt the technology to buses and large trucks, to avoid jack-knifing, for example.
Stability control systems will first appear in mid-1995 on some European S-Class models and will reach the U.S. market during the 1996 model year (November 1995 introduction). It will be available as a $750 option on Mercedes models with V8 engines, and the following year it will be a $2400 option on six-cylinder 鉣 俕 嶏 ?? ? $1650 of the latter price is for the traction control system, a prerequisite for stability control.
Bosch is not alone in developing such a safety system. ITT Automotive of Auburn Hills, Mich., introduced its Automotive Stability Management System (ASMS) in January at the 1995 North American International Auto Show in Detroit. "ASMS is a quantum leap in the evolution of antilock brake systems, combining the best attributes of ABS and traction control into a total vehicle dynamics management
system," said Timothy D. Leuliette, ITT Automotive's president and chief executive officer.
"ASMS monitors what the vehicle controls indicate should be happening, compares that to what is actually happening, then works to compensate for the difference," said Johannes Graber, ASMS program manager at ITT Automotive Europe. ITT's system should begin appearing on vehicles worldwide near the end of the decade, according to Tom Mathues, director of engineering of Brake & Chassis Systems at ITT Automotive North America. Company engineers are now adapting the system to specific car models from six original equipment manufacturers.
A less-sophisticated and less-effective Bosch stability control system already appears on the 1995 750iL and 850Ci V-12 models from Munich-based BMW AG. The BMW Dynamic Stability Control (DSC) system uses the same wheel-speed sensors as traction control and standard anti-lock brake (ABS) systems to recognize conditions that can destabilize a vehicle in curves and corners. To detect such potentially dangerous cornering situations, DSC measures differences in rotational speed between the two front wheels. The DSC system also adds a sensor for steering angle, Utilizes an existing one for vehicle velocity, and introduces its own software control elements in the over allantilock-brake/traction-control/stability-control system.
The new Bosch and ITT Automotive stability control systems benefit from advanced technology developed for the aerospace industry. Just as in a supersonic fighter, the automotive stability control units use a sensor-based computer system to mediate between the human controller and the environment - in this case, the interface between tire and road. In addition, the system is built around a gyroscopelike sensor design used for missile guidance.
BEYOND ABS AND TRACTION CONTROL
Stability control is the logical extension of ABS and traction control, according to a Society of Automotive Engineers paper written by van Zanten and Bosch colleagues Rainer Erhardt and Georg Pfaff. Whereas ABS intervenes when wheel
lock is imminent during braking, and traction control prevents wheel slippage when accelerating, stability control operates independently of the driver's actions even when the car is free-rolling. Depending on the particular driving situation, the system may activate an individual wheel brake or any combination of the four and adjust engine torque, stabilizing the car and severely reducing the danger of an uncontrolled skid. The new systems control the motion not only during full braking but also during partial braking, coasting, acceleration, and engine drag on the driven wheels, circumstances well beyond what ABS and traction control can handle.
The idea behind the three active safety systems is the same: One wheel locking or slipping significantly decreases directional stability or makes steering a vehicle more difficult. If a car must brake on a low-friction surface, locking its wheels should be avoided to maintain stability and steerability.
Whereas ABS and traction control prevent undesired longitudinal slip, stability control reduces loss of lateral stability. If the lateral forces of a moving vehicle are no longer adequate at one or more wheels, the vehicle may lose stability, particularly in curves. What the drive?逾 半 ??? ?? "fishtailing" is primarily a turning or spinning around the vehicle's axis. A separate sensor must recognize this spinning, because unlike ABS and traction control, a car's lateral movement cannot be calculated from its wheel speeds.
SPIN HANDLERS
The new systems measure any tendency toward understeer (when a car responds slowly to steering changes), or over-steer (when the rear wheels try to swing around). If a car understeers and swerves off course when driven in a curve, the stability control system will correct the error by braking the inner (with respect to the curve) rear wheel. This enables the driver, as in the case of ABS, to approach the locking limit of the road-tire interface without losing control of the vehicle. The stability control system may reduce the vehicle's drive momentum by throttling back the engine and/or by braking on individual wheels. Conversely, if the hteral stabilizing force on the rear axle is insufficient, the danger of oversteering may result in rear-end
breakaway or spin-out. Here, the system acts as a stabilizer by applying the outer-front wheel brake.
The influence of side slip angle on maneuverability, the Bosch researchers explained, shows that the sensitivity of the yaw moment on the vehicle, with respect to changes in the steering angle, decreases rapidly as the slip angle of the vehicle increases. Once the slip angle grows beyond a certain limit, the driver has a much harder time recovering by steering. On dry surfaces, maneuverability is lost at slip-angle values larger than approximately 10 degrees, and on packed snow at approximately 4 degrees.
Most drivers have little experience recovering from skids. They aren't aware of the coefficient of friction between the tires and the road and have no idea of their vehicle's lateral stability margin. When the limit of adhesion is reached, the driver is usually caught by surprise and very often reacts in the wrong way, steering too much. Oversteering, ITT's Graber explained, causes the car to fishtail, throwing the vehicle even further out of control. ASMS sensors, he said, can quickly detect the beginning of a skid and momentarily activate the brakes at individual wheels to help return the vehicle to a stable line.
It is important that stability control systems be user-friendly at the limit of adhesion - that is, to act predictably in a way similar to normal driving.
The biggest advantage of stability control is its speed - it can respond immediately not only to skids but also to shifting vehicle conditions (such as changes in weight or tire wear) and road quality. Thus, the systems achieve optimum driving stability by changing the lateral stabilizing forces.
For a stability control system to recognize the difference between what the driver wants (desired course) and the actual movement of the vehicle (actual course), current cars require an efficient set of sensors and a greater computer capacity for processing information.
The Bosch VDC/ESP electronic control unit contains a conventional circuit board with two partly redundant microcontrollers using 48 kilobytes of ROM each. The 48-kB memory capacity is representative of the large amount of "intelligence"
required to perform the design task, van Zanten said. ABS alone, he wrote in the SAE paper, would require one-quarter of this capacity, while ABS and traction control together require only one half of this software capacity.
In addition to ABS and traction control systems and related sensors, VDC/ESP uses sensors for yaw rate, lateral acceleration, steering angle, and braking pressure as well as information on whether the car is accelerating, freely rolling, or braking. It obtains the necessary information on the current load condition of the engine from the engine controller. The steering-wheel angle sensor is based on a set of LED and photodiodes mounted in the steering wheel. A silicon-micromachine pressure sensor indicates the master cylinder's braking pressure by measuring the brake fluid pressure in the brake circuit of the front wheels (and, therefore, the brake pressure induced by the driver).
Determining the actual course of the vehicle is a more complicated task. Wheel speed signals, which are provided for antilock brakes/traction control by inductive wheel speed sensors, are required to derive longitudinal slip. For an exact analysis of possible movement, however, variables describing lateral motion are needed, so the system must be expanded with two additional sensors - yaw rate sensors and lateral acceleration sensors.
A lateral accelerometer monitors the forces occurring in curves. This analog sensor operates according to a damped spring-mass mechanism, by which a linear Hall generator transforms the spring displacement into an electrical signal. The sensor must be very sensitive, with an operating range of plus or minus 1.4 g.
YAW RATE GYRO
At the heart of the latest stability control system type is the yaw rate sensor, which is similar in function to a gyroscope. The sensor measures the speed at which the car rotates about its vertical axis. This measuring principle originated in the aviation industry and was further developed by Bosch for large-scale vehicle production. The existing gyro market offers two widely different categories of devices: $6000 units for aerospace and navigation systems (supplied by firms such as GEC
Marconi Avionics Ltd., of Rochester, Kent, U.K.) and $160 units for videocameras. Bosch chose a vibrating cylinder design that provides the highest performance at the lowest cost, according to the SAE paper. A large investment was necessary to develop this sensor so that it could withstand the extreme environmental conditions of automotive use. At the same time, the cost for the yaw rate sensor had to be reduced so that it would be sufficiently affordable for vehicle use.
The yaw rate sensor has a complex internal structure centered around a small hollow steel cylinder that serves as the measuring element. The thin wall of the cylinder is excited with piezoelectric elements that vibrate at a frequency of 15 kilohertz. Four pairs of these piezo elements are arranged on the circumference of the cylinder, with paired elements positioned opposite each other. One of these pairs brings the open cylinder into resonance vibration by applying a sinusoidal voltage at its natural frequency to the transducers; another pair, which is displaced by 90 degrees, stabilizes the vibration. At both element pairs in between, so-called vibration nodes shift slightly depending on the rotation of the car about its vertical axis. If there is no yaw input, the vibration forms a standing wave. With a rate input, the positions of the nodes and antinodes move around the cylinder wall in the opposite direction to the direction of rotation (Coriolis acceleration). This slight shift serves as a measure for the yaw rate (angular velocity) of the car.
Several drivers who have had hands-on experience with the new systems in slippery cornering conditions speak of their cars being suddenly nudged back onto the right track just before it seems that their back ends might break away.
Some observers warn that stability controls might lure some drivers into overconfidence in low-friction driving situations, though they are in the minority. It may, however, be necessary to instruct drivers as to how to use the new capability properly. Recall that drivers had to learn not to "pump" antilock brake systems.
Although little detail has been reported regarding next-generation active safety systems for future cars (beyond various types of costly radar proximity scanners and other similar systems), it is clear that accident-avoidance is the theme for automotive safety engineers. "The most survivable accident is the one that never happens," said
ITT's Graber. "Stability control technology dovetails nicely with the tremendous strides that have been made to the physical structure and overall capabilities of the automobile." The next such safety system is expected to do the same.
汽车名字中英文对照
A Acadiane 阿卡迪恩法国雪铁龙 Acclaim 欢呼 Accent 雅坤 Accord 雅哥日本本田 Accord Aerodeck 雅哥*艾罗迪克日本本田 Accord Inspire 雅哥·鼓舞日本本田 Acron 阿克朗比利时范胡尔 Acty 阿克泰日本本田 Acty Street 阿克泰·街道日本本田 Acura Integra 阿库拉·英蒂格拉 Acura Legend 阿库拉·传奇 Aero King 空中之王日本三菱 Aeromax 空中之王日本三菱 Aerostar 航空之星日本三菱 Alcyone 阿尔雄 Alfa 阿尔法意大利阿尔法.罗密欧 Alfa Romeo 阿尔法·罗密欧意大利阿尔法.罗密欧Alfasud 阿尔法苏意大利阿尔法.罗密欧 Alfetta 阿尔菲塔意大利阿尔法.罗密欧 Alizee 阿利齐 Allante 艾伦特
Allas 阿特拉斯 Alliance 联盟美国通用 Alpina 阿尔宾那德国宝马 Alpine 阿尔宾法国雷诺 Alto 阿尔托日本铃木 AMX 阿曼士美国汽车公司 Applause 赞许(喝采) Argerta 阿金塔意大利菲亚特 Aries 阿力士美国克莱斯勒 Aristo 阿历斯托 Aro 阿罗罗马尼亚穆西尔机械厂 Ascona 阿斯科纳德国欧宝 Ascot 阿斯科特 Aska 阿斯卡日本五十铃 Aspen 白杨美国克莱斯勒 Astina 阿斯丁娜 Aston Martin 阿斯顿·马丁英国阿斯顿.马丁.拉格达Astra 阿斯特拉英国伏克斯豪尔 Astramax 大阿斯特拉 Astravan 阿斯特温 Astro 阿斯特罗 Astron 阿斯特朗比利时范胡尔
全球汽车车型中英文对照表
全球汽车车型中英文对照表 车型(中文)车型(英文)车型(中文)车型(英文) 奥迪奥迪AUDI伊兰特ELANTRA 宝马宝马BMW特拉卡Terracan 迷你Mini途胜Tucson mini One mini One御翔NF 奔驰奔驰benz雅绅特Accent DONGFENG 东风雪铁龙东风雪铁龙 圣达菲SantaFe CITROEN 爱丽舍Elysee酷派coupe 毕加索Picasso君爵XG 世嘉quatre特杰Trajet 凯旋triomphe美佳Matrix VW(Shangha 雅科仕EQUUS 大众(上汽)大众(上汽) i) 波罗Polo维拉克斯Veracruz 帕萨特领驭PASSAT悦达起亚起亚KIA 高尔GOL千里马 桑塔纳SANTANA赛拉图CERATO 途安Touran嘉华Carnival faw-volksw 远舰Optima 大众(一汽)大众(一汽) agen 捷达JETTA RIO RIO 宝来BORA索兰托SORENTO 高尔夫Golf佳乐Carens 开迪Caddy狮跑Sportage
速腾 Sagitar Sagitar欧迪玛Optima 迈腾magotan 阿尔法-罗 米欧 阿尔法-罗米欧Alfa Romeo 甲壳虫beetle保时捷保时捷porsche 辉腾Phaeton新款Boxster porsche Boxster 康比Combi卡宴Cayenne VR6VR6卡曼cayman 途锐Touareg宾利宾利Bentley 面包车multivan雅致Arnage 高尔夫Golf GTI欧陆飞驰 Continental Flying Spur 辉腾Phaeton大陆 Continental GT 东风标致东风标致 Dongfeng Peugeot 大陆 Continental GTC 菲亚特菲亚特FIAT标致标致Peugeot 派力奥Palio法拉利法拉利Ferrari 派力奥周末风Palio Weekend 吉姆斯GMC 西耶那Siena Savana Savana 派朗Perla捷豹捷豹JAGUAR 克莱斯勒克莱斯勒 California Cruiser 精灵Smart精灵Smart 大捷龙grand 兰博基尼兰博基尼Lamborghini
世界汽车品牌名称中英文对照(doc 37页)
世界汽车品牌名称中英文对照 A AC 爱希英国爱希跑车公司ACCENT 重音(雅绅)韩国现代汽车公司ACCLAIM 欢呼美国克莱斯勒公司顺风部ACCORD 雅阁(阿科德、雅廓)日本本田公司 ACE 高手英国爱希跑车公司 ACHIEVA 成就美国通用汽车公司奥兹莫比尔部 ACTY 阿克泰日本本田公司 ACURA 阿库拉(极品)日本本田公司豪华车部ADMIRAL 海军上将德国欧宝汽车公司AERO 飞弹瑞典绅宝汽车公司AEROSTAR 空中之星美国福特汽车公司 AFINI 阿飞尼日本马自达公司AIRFLOW 气流美国克莱斯勒公司AIRSTREAM 气爆美国克莱斯勒公司ALCYONE 阿尔雄日本富士重工公司ALECO 奥列格苏联莫斯科小客车厂ALFA 阿尔法意大利阿尔发·罗密欧公司 ALFA ROMEO 阿尔法·罗密欧(香港译爱快·罗 米欧) 意大利阿尔发·罗密欧公司 ALFASUD 阿尔法苏意大利阿尔发·罗密欧公司ALFETTA 阿尔菲塔意大利阿尔发·罗密欧公司ALHAMBRA 阿尔汉布拉西班牙西特公司 ALLANTE 阿尔兰特(艾杨迪)美国通用汽车公司卡迪莱克部 ALLEGRO 阿莱格罗英国罗孚汽车公司ALLIANCE 联盟法国雷诺汽车公司
ALMERA 阿尔美拉日本日产汽车公司ALPINA 阿尔宾那德国宝马汽车公司ALPINE 阿尔派法国雷诺汽车公司ALTIME 阿尔蒂马日本日产汽车公司 ALTO 奥拓日本铃木汽车公司AMBASSADOR 大使美国美国汽车公司AMBASSADOR 大使印度印度斯坦公司 AMC 美国美国汽车公司 AM GENERAL 美国美国汽车综合公司AMIGO 阿米格日本五十铃汽车公司ANFINI 安菲妮日本马自达公司APOLLO 阿波罗美国通用汽车公司别克部APPLAUSE 普乐(掌声、雅宝士)日本大发公司 APV 多用途车 ARCADIA 阿卡迪亚韩国大宇汽车公司ARGENTA 阿金塔意大利菲亚特工业公司ARGENTO VIVO 梦中丽人日本本田汽车公司ARIES 爱丽丝美国克莱斯勒公司道奇部ARMADA 阿玛达印度 ARO 阿罗罗马尼亚穆西尔汽车厂ARROW 飞箭美国克莱斯勒公司道奇部ASCONA 阿斯科纳德国欧宝汽车公司ASCOT 阿科特日本本田汽车公司 ASIA 亚细亚韩国亚细亚汽车公司ASKA 阿斯卡日本五十铃汽车公司ASPEN 白杨美国克莱斯勒公司道奇部ASPIRE 追求美国福特汽车公司 ASTON MARTIN 阿斯顿·马丁英国阿斯顿·马丁·拉贡公司 ASTRA 雅特(阿斯特拉,德国精湛)德国欧宝汽车公司
汽车零部件中英文对照表
汽车类Automobile English 整车Finished Automobile 轿车Passenger Car 休旅车Recreational Vehicle (RV) 小型商用车(3.5吨以下) Light Duty Commercial Car (Less Than 3.5 Tons) 大型商用车(3.5吨以上) Heavy Duty Commercial Car (More Than 3.5 Tons) 散装车Bulk Truck 搅拌车Mixer Truck 环境卫生车Garbage Truck 液罐车Refueling Truck 倾卸车Dumper Truck 曳引车Tractor Truck 消防车Fire Fighting Truck 堆高机Forklift 拖板车Pallet Truck 运钞车Armor Cash Carrier 冷气客车Air-Conditioned Car 冷冻车Freezer Car 拖车Trailer 车体打造(改装) Car Body Building (Refitting) 瓦斯车LPG Car 底盘车Chasis Truck 引擎零件Engine Parts 引擎Engine 引擎波司Engine Bush 引擎修理包Engine Gasket Kits 引擎零件Engine Parts 凸轮轴Camshaft 凸轮轴链轮Sprocket Camshaft 皮带张力器Tensioner 曲轴Crankshaft 曲轴皮带盘Crankshaft Pulley 曲轴轴承片Crankshaft Bearing 汽门Valve 汽门座Valve Seat 汽门摇臂Valve Arm 汽门摇臂盖Rocker Cover 汽门弹簧Valve Spring 汽门导管Valve Guide 汽缸头(盖) Cylinder Head 汽缸衬套Cylinder Liner 汽缸体Cylinder Block 波司垫片Washer 活塞Piston 活塞肖Piston Pin 活塞环Piston Ring 活塞衬套Piston Liner 飞轮Flywheel 飞轮环齿轮Ring Gear of Flywheel 时规炼条/皮带Timing Chain/Belt 连杆Connecting Rod 连杆轴承片Connecting Rod Bearing 摇臂轴Rocker Arm Shaft 汽门锁Valve Cotter 止推垫片Thrust Washer 共鸣箱Resonator 喷油嘴Injection Nozzle 燃料系统Fueling System 油箱Fuel Tank 油箱浮筒Gauge Fuel Tank 空气滤清器Air Cleaner 空气滤清器盖Air Cleaner Cover 空气滤清器导管Air Intake Tube 空气滤蕊Air Cleaner Element 消音器Exhaust Muffler 排气歧管Exhaust Manifold 排气管Exhaust Pipe 进气歧管Intake Manifold
汽车零件中英文对照表
汽车、汽车零部件、配件中英文对照表 汽车类 Automobile English 整车 Finished Automobile 轿车 Passenger Car 休旅车 Recreational Vehicle (RV) 小型商用车(3.5吨以下) Light Duty Commercial Car (Less Than 3.5 Tons) 大型商用车(3.5吨以上) Heavy Duty Commercial Car (More Than 3.5 Tons) 散装车 Bulk Truck 搅拌车 Mixer Truck 环境卫生车 Garbage Truck 液罐车 Refueling Truck 倾卸车 Dumper Truck 曳引车 Tractor Truck 消防车 Fire Fighting Truck 堆高机 Forklift 拖板车 Pallet Truck 运钞车 Armor Cash Carrier 冷气客车 Air-Conditioned Car 冷冻车 Freezer Car
拖车 Trailer 车体打造(改装) Car Body Building (Refitting) 瓦斯车 LPG Car 底盘车 Chasis Truck 引擎零件 Engine Parts 引擎 Engine 引擎波司 Engine Bush 引擎修理包 Engine Gasket Kits 引擎零件 Engine Parts 凸轮轴 Camshaft 凸轮轴链轮 Sprocket Camshaft 皮带张力器 Tensioner 曲轴 Crankshaft 曲轴皮带盘 Crankshaft Pulley 曲轴轴承片 Crankshaft Bearing 汽门 Valve 汽门座 Valve Seat 汽门摇臂 Valve Arm 汽门摇臂盖 Rocker Cover 汽门弹簧 Valve Spring 汽门导管 Valve Guide 汽缸头(盖) Cylinder Head
常见车型中英文对照
常见车型中英文对照品牌 Alfa Romeo 阿尔法-罗米欧 Aston Martin 阿斯顿-马丁 Audi 奥迪 BMW 宝马 Bentley 宾利 Benz, Mercedes-Benz 奔驰 Bugatti 布加迪 Buick 别克 Cadillac 卡迪拉克 Cadillac 凯迪拉克(卡迪拉克) Chevroler 雪佛莱 Chevrolet 雪佛兰 Chrysler 克莱斯勒 Citroen 雪铁龙 Daewoo 大宇 Daihatsu 大发 Dodge 道奇 Ferrari 法拉利 Fiat 菲亚特 Ford 福特 Honda 本田 Hummer 悍马 Hyundai 现代 ISUZU 五十铃 Jaguar 捷豹(美洲虎) Jeep 吉普 Kia 起亚 Lamborghini 蓝伯基尼 Lancia 蓝旗亚 Land Rover 路虎(陆虎) Lexus 雷克萨斯(凌志) Lincoln 林肯 Maserati 玛莎拉蒂 Maybach 迈巴赫
Mazda 马自达 Mercedes-Benz 梅赛德斯-奔驰Mercury 水星 Mini 迷你 Mitsubishi 三菱 Mustang 野马 Nissan 日产 Opel 欧宝 Peugeot 标致 Porsche 保时捷 Renault 雷诺 Rolls-Royce 罗尔斯罗伊斯Rolls-royce 劳斯莱斯 Rover 罗孚(陆虎) Saab 萨博(绅宝) Santana 桑塔纳 Saturn 土星 Seat 西雅特 Skoda 斯柯达 Smart 精灵 Ssangyong 双龙 Subaru 斯巴鲁(富士) Suzuki 铃木 Toyota 丰田 Vauxhall 沃克斯豪尔Volkswagen 大众 Volvo 沃尔沃,富豪 Suzuki 昌河铃木 车型 丰田 vios 威驰 collora 卡罗拉
汽车中英文对照表
汽车中英文对照表(五) EAMT——电控机械自动变速器 EAQF——法国汽车工业质量标准 EAS——能量吸收式转向盘;吸能式转向盘 EAS——电子空气悬架 EAT——电控液力自动变速器 EAT——Electrically Assisted Turbocharger——电动辅助涡轮增压EBA——Emergency-Braking Advisory——紧急制动警告 EBA——Electronic Brake Assist或Emergency Brake Assist或Electronic Brake Auxiliary——电控制动辅助系统;紧急制动辅助系统 说明:在一些非常紧急的事件中,驾驶员往往不能迅速地踩下制动踏板,EBA就是为此而设计的。该系统利用传感器感应驾驶员对制动踏板踩踏的力度与速度大小,然后通过电脑判断驾驶员此次制动的意图。如果属于非常紧急的制动,EBA此时就会指示制动系统产生更高的油压使ABS发挥作用,从而使制动快速产生,减少制动距离。而对于正常情况的制动,EBA 则会通过判断不予启动ABS。通常情况下,EBA的响应速度都会远远快于驾驶员,这对缩短制动距离,增强安全性非常有利。此外,对于脚力较差的女性及高龄驾驶员闪避紧急危险的制动,也帮助很大。有关测试表明,EBA可以使车速高达200km/h的汽车完全停下的距离缩短21m之多,尤其是对在高速公路行驶的车辆,EBA可以有效防止常见的车辆“追尾”意外。EBC——发动机制动控制 EBCM——Electronic Brake Control Module——电子制动控制模块 EBD /EBV——英文:Electric Brake Force Distribution或Eletronic Brake Differential;德文:Electronicsche Bremsenkraft Verteiler——电子制动力分配系统 说明:EBD能够根据汽车轴荷由于汽车制动时产生轴荷转移的不同,而自动调节前、后轴的制动力分配比例,提高制动效能,并配合ABS系统提高制动稳定性。通常情况下,由于4只轮胎附着地面的条件不同,因此,汽车制动时,很容易因轮胎与地面的摩擦力不同,产生打滑、倾斜和侧翻等现象。EBD的功能就是在汽车制动的瞬间,分别计算出4个轮胎摩擦力的数值,然后通过调整制动装置,使其按照设定的程序在运动中快速调整,达到制动力与摩擦力(牵引力)的匹配,以保证车辆的平稳和安全。EBD主要是对ABS起辅助功能,提高ABS 的功效。当重踩制动踏板时,EBD会在ABS起作用之前,自动以前轮为基准去比较后轮轮胎的滑动率,如果发现此差异程度必须被调整时,依据车辆的重量分布和路面条件,有效分配制动力(制动油压系统将会调整传至后轮的油压),以使4个车轮得到更平衡且更接近理想化制动力的分布。因此,ABS+EBD就是在ABS的基础上,平衡每一个车轮的有效地面抓地力,改善制动力的平衡,防止出现甩尾和侧移,并缩短汽车制动距离,使得汽车的安全性能更胜一筹。 EBDL——电子制动力分配装置 EBP——Error Back Propagetion——误差反向传播 EBS——Eletronic Brake System——电子控制制动系统;电子制动力分配系统EBTC——Electronic Brake and Traction Control——电子制动与牵引控制系统EBTCM——Electronic Brake and Traction Control Module——电子制动牵引控制模块
汽车英文名对照
丰田: 一汽丰田: CROWN(皇冠) REIZ(锐志) PRIUS(普锐斯)COROLLA(卡罗拉)VIOS(威驰)COROLLA EX(花冠) 广汽丰田: CAMRY(凯美瑞)HIGHLANDER(汉兰达)进口丰田: LEXUS(雷克萨斯) ?本田: 广州本田: ACCORD(雅阁)ODYSSEY(奥德赛) CITY(锋范) FIT(飞度) 东风本田: SPIRIOR(思铂睿)CIVIC(思域) 大众: 一汽大众: MAGOTAN(迈腾)SAGITAR(速腾) BORA(宝来) JETTA(捷达) GOLF(高尔夫) 上海大众: PASSAT(帕萨特)LAVIDA(朗逸)SANTANA(桑塔纳)TOURAN(途安) POLO(宝莱) ?现代: 北京现代: SONATA(索纳塔)ACCENT(雅绅特)ELANTRA(伊兰特)TUCSON(途胜)SONATA NF(索纳塔御翔)COUPE(酷派)
AZERA(雅尊)SANTAFE(胜达)EQUUS(雅科仕)ROHENS(劳恩斯) 雪弗兰: 上海通用雪弗兰:EPICA(景程) CRUZE(科鲁兹)CAPTIVA(科帕奇)LOVA(乐风、爱风)AVEO(乐聘) SAIL(新乐风) 日产: 东风日产: TEANA(天籁) TIIDA(颐达) GENISS(骏逸)SYLPHY(轩逸)LIVINA(骊威)QASHQAI(逍客)BIUEBIRD(蓝鸟) X-TRAIL(奇骏) 别克: 上海通用别克: REGAL(新君威)EXCELLE(凯越)LACROSSE(君越)ROYAUM(荣御)ENCLAVE(昂科雷) ?福特: 长安福特: MONDEO(蒙迪欧致胜)FOCUS(福克斯)FIESTA(嘉年华) 起亚: 东风悦达起亚:CERATO(赛拉图)OPTIMA(远舰)FORTE(福瑞迪)CARENS(佳乐)CARNIVAL(嘉华)SORENTO(索兰托)SPORTAGE(狮跑)BORREGO(霸锐) RIO(锐欧)
各种车辆中英文名称对照
车辆类型vehicle type 道路车辆 road vehicle 商用车辆 机动车辆 motor vehicle 电动车辆 electric vehicle 摩托车 motorcycle 轻便摩托车 moped 轿车 passenger car 微型轿车 minicar 普通级轿车 中级轿车 中高级轿车 intermediate car
limousine (pullman saloon) 活顶轿车 convertible saloon 旅行轿车 station wagon 短头轿车 forward control passenger car 小型轿车 coupe 敞蓬小轿车 drop head coupe 跑车 sports car 赛车 racer (racing car) 单座小客车 one-seater 七座小客车 seven-seater越野车 off-road vehicle
light-off-road vehicle 中型越野车 medium off-road vehicle 重型越野车 heavy off -road vehicle 超重型越野车 extra heavy off- road vehicle吉普车jeep 硬顶xx hard top jeep 客车 bus 微型客车 minibus 轻型客车 light bus 中型客车 medium bus 大型客车 large bus
客货两用小客车 estate car (estate) 多用途客车 multipurpose vehicle 厢式小客车 closed car 出租小客车 taxi car xx客车 urban bus 大客车 coach 城间大客车 intercity bus 长途大客车 long distance coach 旅游客车 sightseeing bus(touring bus)铰接客车articulated bus 无轨客车 trolley bus
汽车零部件中英文对照表翻译
汽车零部件中英文对照表 不论是汽车行业还是作为普通消费者的我们,对于汽车业的中英文单词,还真的都应该有个了解!小编盘点了汽车零部件中英文对照表,赶快收藏吧! 车轮系统 Wheeling System 轮毂 Wheel Hub 轮胎 Tire 轮胎汽门嘴 Tire Valve 轮圈 Wheel Disk 轮圈盖 Wheel Cover 内胎(含内衬) Inner Tire (Flap) 电装品 Electrical Parts 电瓶 Battery 中央门控 Central Door Lock 分电盘 Distributor 火星塞 Spark Plug 汽车用电子钟 Digital Clock 汽车音响 Car Audio 防盗器 Car Burglar Alarm 雨刷及雨刷连杆 Wiper / Linkage 保险丝座 Fuse Seat 保险丝 Fuse 洗涤壶 Windshield Washer 配线 Wire Harness 汽车用光盘 Car CD 汽车用液晶显示器 Car LCD 调整器 Regulator 整流器 Rectifier 电子点火器 Ignition Module
倒车显示器 Rear View Display 定速器 Cruise Controller HID车灯安定器组合 HID Ballast Complete Set for Headlights LED 灯 LED Lamp 车灯控制器 Lighting Controller 点火线圈模块 Ignition Coil Module 高压线组 Ignition Cable 喇叭 Horn 发电机(零件) Alternator (Components) 开关类 Switch 蜂鸣器 Buzzer 预热塞 Glow Plug 仪表 Combination Meter 灯泡 Bulb 点火线圈 Ignition Coil 继电器 Relay 倒车雷达 Reverse Sensor 电池充电器 Battery Charger 闪光器 Flasher 省电器 Energy Saving Unit 端子 Terminal 电动座椅装置 Power Seat Unit 马达零件 Motor Components 外装品 Exterior Parts 水箱饰罩 Radiator Grille 天线 Antenna 车身护条 Side Protector 防撞护垫 Bumper Pad 后视镜 Door Mirror 装饰贴纸、标志 Ornament Mark
汽车系统名称英汉对照大全
汽车系统名称英汉对照大 全 4WD四轮驱动 4C:四区域独立可调空调 4WS四轮转向 4MATIC全轮驱动系统 4HLC高速四轮驱动配中央差速器 4H:高速四驱 4L :低速四驱 4LC:低速锁止四驱 AFS自适应照明系统主动前轮转向系统 AYC主动偏航控制系统主动横摆控制系统 ASC主动式稳定控制系统自动稳定和牵引力控制 车轮打滑控制ABS防抱死制动系统 ASR防滑系统 ASL音量自动调节系统排档自动锁定装置 AUX音频输入端口 ADS自适应减振系统
ACC自适应巡航控制系统车距感应式定速巡航控制系统AWD全时四轮驱动系统 ACD主动中央差速器 AMT电子自动变速箱电控机械式自动变速器 All-Speed TCS:全速段牵引力控制系统 ACIS:电子控制进气流程系统丰田可变进气歧管系统ABD自动制动差速系统 AGF亚洲吉利方程式国际公开赛 AUTO自动切换四驱 ASC+T自动稳定和牵引力控制系统 ABC主动车身控制 AXCR亚洲越野拉力赛 ARP主动防侧翻保护 AFM动态燃油管理系统 APEAL新车满意度中国汽车性能、运行和设计调研AT:自动变速器 Asia n festival of speed : 亚洲赛车节 AOD电子控制按需传动装置
AACN全自动撞车通报系统 ARTS智能安全气囊系统 AWS后撞头颈保护系统 AIAC:奥迪国际广告大赛 AVS适应式可变悬架系统 Audi AAA:奥迪认证轿车 ATA防盗警报系统 ALS:自动车身平衡系统 ARS防滑系统 ASPS防潜滑保护系统 ASS自适应座椅系统 AQS空气质量系统 AVCS主动气门控制系统 ASF奥迪全铝车身框架结构 A-TRC主动牵引力控制系统 AHC油压式自动车高调整 AMG快速换档自动变速箱 AHS2 “双模”完全混合动力系统
汽车维修中英文对照表
汽车维修专业术语的英语对照表 1 汽车维修养护专业英语对照表 ,学汽车维修的英语都不太好 , 搞来个对照表可参考一下 汽车维修管理 Administration of Vehicle Maintenance 汽车维护方法 Method of vehicle maintenance 汽车维护流水作业法 Flow method of vehicle maintenance 汽车维护定位作业法 Method of vehicle maintenance on universal post 汽车修理方法 Method of vehicle repair 汽车修理流水作业法 Flow method of vehicle repair 汽车修理定位作业法 Method of vehicle repair on universal post 总成互换修理法 Unit exchange repairing method 周转总成 Reversible unit 混装修理法 Depersonalized repair method 就车修理法 Personalized repair method 汽车维修指标 Indices of vehicle maintenance and repair 汽车维护生产纲领 Production program of vehicle maintenance 汽车修理生产纲要 Production program of vehicle repair 汽车维修周期 Period of vehicle maintenance 汽车诊断周期 Period of vehicle diagnosis 汽车维修竣工辆次 Number of vehicle 汽车修理厂 Vehicle repair plant 汽车总成修理厂 Unit repair plant for vehicle 汽车诊断站 Vehicle diagnosis station 汽车检测站 Detecting test station of vehicle 汽车维修网点 Network of vehicle maintenance 汽车维修工具和设备 Instrument and Device for 螺丝刀 Screwdriver 花扳手 Ring spanner 锉刀 File 双头扳手 Double-ended spanner 鲤鱼钳 Combination pilers 轮胎螺栓扳手 Wheel wrench 厚度规 Feeler gauge 杆式气缸量规 Bar-type cylinder gauge 气缸压力表 Cylinder compressor gauge 活塞台钳 Piston vice 活塞加热器 Piston heater 活塞环工具 Piston ring tool 活塞环钳(活塞环拆装钳) Piston ring pliers (piston ring tongs) 压环器 Piston ring compressor 活塞环锉 Piston ring file 活塞销拉器 Piston-pin extractor 连杆校正器 Connecting rod alignment fixture 气门座刀具 Valve seat cutter 气门弹簧压缩器 Valve spring compressor 气门研磨工具 Valve grinding tool (valve lapper) 调整气门间隙扳手 Tappet wrench 浮子室液面仪 Float level gauge 歧管压力表 Manifold pressure gauge set 点火正时灯(正时观测灯) Ignition timing light (stroboscope) 燃烧分析仪 Combustion tester 断电器触点闭合角 Dwell meter 火花塞间隙量规 Plug gap gauge 火花塞套筒扳手 Spark plug box (socket) spanner 蓄电池液体比重计 Battery hydrometer 汽车架 Car stand (jack stand) 轮轴架 Axle stand 前束量尺 Toe-in gauge 外倾测量器 Camber gauge 制动踏being received from maintenance or repair 汽车大修平均在厂车日 Average days 汽车大修平均在修车日 Average days 汽车大修平均工时 Average in plant during major of vehicles during major repair of vehicles man-hours of vehicle maintenance and repair 汽车维修平均费用 Average 汽车大修返修率 Returning costs of rate of 汽车小修频率 Frequency of current 汽车大修间隔里程 Average interval 汽车修理工人实物劳动生产率 Labour vehicle maintenance and major repair of vehicle repair of vehicles mileage of major repair productivity repair of vehicles of repair-man 汽车维护企业 Enterprise of vehicle 汽车维护场(站) Maintenance depot 汽车停车场(库) Park maintenance and repair (station) of vehicles and repair Vehicle Maintenance and Repair
汽车维修中英文对照表
汽车维修专业术语的英语对照表1 汽车维修养护专业英语对照表,学汽车维修的英语都不太好,搞来个对照表可参考一下. 汽车维修管理Administration?of?Vehicle?Maintenance 汽车维护方法Method?of?vehicle?maintenance 汽车维护流水作业法Flow?method?of?vehicle?maintenance 汽车维护定位作业法Method?of?vehicle?maintenance?on?universal?post 汽车修理方法Method?of?vehicle?repair 汽车修理流水作业法Flow?method?of?vehicle?repair 汽车修理定位作业法Method?of?vehicle?repair?on?universal?post 总成互换修理法Unit?exchange?repairing?method 周转总成Reversible?unit 混装修理法Depersonalized?repair?method 就车修理法Personalized?repair?method 汽车维修指标Indices?of?vehicle?maintenance?and?repair 汽车维护生产纲领Production?program?of?vehicle?maintenance 汽车修理生产纲要Production?program?of?vehicle?repair 汽车维修周期Period?of?vehicle?maintenance 汽车诊断周期Period?of?vehicle?diagnosis 汽车维修竣工辆次Number?of?vehicle?being?received?from?maintenance?or?repair 汽车大修平均在厂车日Average?days?in?plant?during?major?of?vehicles 汽车大修平均在修车日Average?days?during?major?repair?of?vehicles 汽车大修平均工时Average?man-hours?of?vehicle?maintenance?and?repair 汽车维修平均费用Average?costs?of?vehicle?maintenance?and?repair 汽车大修返修率Returning?rate?of?major?repair?of?vehicle 汽车小修频率Frequency?of?current?repair?of?vehicles 汽车大修间隔里程Average?interval?mileage?of?major?repair?of?vehicles 汽车修理工人实物劳动生产率Labour?productivity?of?repair-man 汽车维护企业Enterprise?of?vehicle?maintenance?and?repair 汽车维护场(站)Maintenance?depot?(station)?of?vehicles 汽车停车场(库)Park 汽车修理厂Vehicle?repair?plant 汽车总成修理厂Unit?repair?plant?for?vehicle 汽车诊断站Vehicle?diagnosis?station 汽车检测站Detecting?test?station?of?vehicle 汽车维修网点Network?of?vehicle?maintenance?and?repair 汽车维修工具和设备Instrument?and?Device?for?Vehicle?Maintenance?and?Repair 螺丝刀Screwdriver 花扳手Ring?spanner 锉刀File 双头扳手Double-ended?spanner 鲤鱼钳Combination?pilers
汽车专业术语中英文词汇对照表
汽车专业英语汇总 一、Vehicle classification 汽车分类 1.1 Car 轿车 1.2 Bus 客车 1.3 Motor truck 货车 1.4 special purpose vehicle 专用汽车 二、Vehicle construction 汽车构造 2.1 Main components of vehicle 汽车主要组成 2.2 Vehicle performance 汽车性能 2.3 engine position 发动机布置
三、Vehicle dimensions汽车尺寸 四、Wheel alignment前轮定位 五、Diameter of turning circle 转弯直径
第二类ENGINE 发动机 一、Engine construction 发动机构造 二、Essential term 基本术语 三、Engine operation principle 发动机工作原理 3.1 Four-stroke gasoline engine operation principle 四冲程汽油机工作原理 3.2 Four-stroke diesel engine operational principle 四冲程柴油机工作原理 3.3 Two-stroke gasoline engine operation principle 二冲程汽油机工作原理
3.4 Two-stroke diesel engine operation principle 二冲程柴油机工作原理 四、Engine performance 发动机性能 曲柄连杆机构 5.2 Piston,connecting rod 活塞连杆组
汽车名称中英文
limousine豪华轿车drop head活动车篷汽车(美作:convertible) racing car赛车saloon轿车(美作:sedan) roadster跑车 wrecker, beat-up car, jalopy老爷车notch back客货两用车 trailer拖车station wagon小旅行车truck卡车 compact car小型汽车light-van小型货车taxi出租车,计程车 garbage truck垃圾车automobile carrier货运卡车 tractor牵引车ambulance救护车trailer truck拖车sports car跑车formula car 方程式赛轿车Passenger Car 休旅车Recreational Vehicle (RV) mail car邮车jeep吉普车blood mobile巡回采血车camper露营车 bumper car碰撞用汽车police car警车wrecker清障车 大型商用车(3.5吨以上) Heavy Duty Commercial Car (More Than 3.5 Tons) 散装车Bulk Truck 搅拌车Mixer Truck 环境卫生车Garbage Truck 液罐车Refueling Truck 倾卸车Dumper Truck 曳引车Tractor Truck 消防车Fire Fighting Truck 堆高机Forklift 拖板车Pallet Truck 运钞车Armor Cash Carrier 冷气客车Air-Conditioned Car 冷冻车Freezer Car 车体打造(改装) Car Body Building (Refitting) 瓦斯车LPG Car 底盘车Chassis Truck 车辆类型vehicle type 道路车辆road vehicle 商用车辆commercial vehicle 机动车辆motor vehicle 电动车辆electric vehicle 轻便摩托车moped 中级轿车compact car 轿车passenger car 微型轿车mini-car 普通级轿车subcompact car 中高级轿车intermediate car 高级轿车limousine (pull-man saloon) 活顶轿车convertible saloon 旅行轿车station wagon 短头轿车forward control passenger car 小型轿车coupe 敞蓬小轿车drop head coupe 跑车sports car 赛车 racer (racing car) 单座小客车one-seater 轻型越野车light-off-road vehicle 七座小客车seven-seater 越野车off-road vehicle 中型越野车medium off-road vehicle 重型越野车heavy off -road vehicle 超重型越野车extra heavy off- road vehicle 硬顶吉普车hard top jeep 微型客车minibus 轻型客车light bus 中型客车medium bus 大型客车large bus 客货两用小客车estate car (estate) 多用途客车multipurpose vehicle 厢式小客车closed car 出租小客车taxi-car 城市客车urban bus 大客车coach 城间大客车intercity bus 长途大客车long distance coach 旅游客车sightseeing bus (touring bus) 铰接客车articulated bus 无轨客车trolley bus 双层客车double-deck bus 团体客车private coach 货车truck (lorry) 微型货车mini-truck 轻型货车light truck 中型货车medium truck 重型货车heavy truck 公路货车highway vehicle 小型货车pick-up 牵引汽车towing vehicle 平板货车platform truck (flat bed truck) 通用货车general -purpose vehicle 短轴距货车short-wheel base truck 长轴距货车long-wheel base truck 集装箱运输货车container carrier 客货两用车cargo-bus 厢式货车van 全挂牵引汽车full towing vehicle 牵杆式牵引车trailer towing vehicle
汽车品牌中英文对照
汽车品牌中英文对照 A Acadiane 阿卡迪恩法国雪铁龙 Acclaim 欢呼 Accent 雅坤 Accord 雅哥日本本田 Accord Aerodeck 雅哥*艾罗迪克日本本田 Accord Inspire 雅哥·鼓舞日本本田 Acron 阿克朗比利时范胡尔 Acty 阿克泰日本本田 Acty Street 阿克泰·街道日本本田 Acura Integra 阿库拉·英蒂格拉 Acura Legend 阿库拉·传奇 Aero King 空中之王日本三菱 Aeromax 空中之王日本三菱 Aerostar 航空之星日本三菱 Alcyone 阿尔雄 Alfa 阿尔法意大利阿尔法.罗密欧 Alfa Romeo 阿尔法·罗密欧意大利阿尔法.罗密欧 Alfasud 阿尔法苏意大利阿尔法.罗密欧 Alfetta 阿尔菲塔意大利阿尔法.罗密欧 Alizee 阿利齐 Allante 艾伦特 Allas 阿特拉斯 Alliance 联盟美国通用 Alpina 阿尔宾那德国宝马 Alpine 阿尔宾法国雷诺 Alto 阿尔托日本铃木 AMX 阿曼士美国汽车公司 Applause 赞许(喝采) Argerta 阿金塔意大利菲亚特 Aries 阿力士美国克莱斯勒 Aristo 阿历斯托 Aro 阿罗罗马尼亚穆西尔机械厂 Ascona 阿斯科纳德国欧宝 Ascot 阿斯科特 Aska 阿斯卡日本五十铃 Aspen 白杨美国克莱斯勒 Astina 阿斯丁娜 Aston Martin 阿斯顿·马丁英国阿斯顿.马丁.拉格达 Astra 阿斯特拉英国伏克斯豪尔
Astramax 大阿斯特拉 Astravan 阿斯特温 Astro 阿斯特罗 Astron 阿斯特朗比利时范胡尔 Atlas 阿特拉斯日本日产 Atrai 阿特莱日本大发 Atrai 阿特雷日本大发 Audi 奥迪德国奥迪拉苏 Aurora 曙光(奥罗拉) 加拿大奥罗拉 Austin 奥斯汀英国利兰 Austin Healey 奥斯汀·希雷英国利兰Autobianchi 奥托比安西意大利奥托比安西Autosan 奥托桑波兰萨诺克 Avalon 亚洲龙 Autozam 奥托兰姆 Avallone 阿瓦龙巴西阿瓦龙 Avenir 阿凡尼尔 Avia 阿维亚捷克阿维亚 B Ballade 叙事曲日本本田 Barkas 巴尔卡斯东德依发 Baretta 贝雷塔 Bedford 贝德福特英国伏克斯豪尔 Beetle 甲虫 Belmont 贝尔蒙特英国沃尔斯蒙 Bently 本特里英国本特利 Bently Mulsanne 本特里·马尔森英国劳斯莱斯Beretta 贝雷塔美国通用 Berliet 贝利埃法国雷诺 Besta 别墅塔 Bighorn 大角羊 Bitter 彼特尔德国比特尔 Blazer 传播者美国通用 Blizzard 暴风雪日本本田 Bluebird 蓝鸟日本日产 B M W 宝马德国宝马 Bobcat 山猫美国福特 Bongo 紫羚羊日本松田 Bongo 本格台湾福特六和 Bongo Brawny 本格·布罗尼 Bonneville 博纳维尔美国通用 Bova 博瓦