2022年毕业设计外文文献翻译要求及封面 .pdf

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1、1 / 7 杭州电子科技大学毕业 设计 ( 论文 ) 外文 文 献翻 译毕业设计(论文)题目翻译( 1)题目液压制动器基础翻译( 2)题目有用的产品学院机械学院专业车辆工程姓名班级学号指导教师液精选学习资料 - - - - - - - - - 名师归纳总结 - - - - - - -第 1 页,共 7 页2 / 7 压制动基础空气制动系统得到更多的关注,但更多的车辆上安装液压制动器。了解它们是如何工作的,是安全,具成本效益的诊断和修复的第一步。有没有想过为什么不能只是其中的一种制动?这是因为空气和液压制动器,使一个或某些应用程序的其他理想的经营特色。重型组合的车辆,空气是明确的选择,因为将需要

2、大量的液体阿卡迪亚所有分泵。此外,充满液压油与制动分泵和软管的将是混乱的。但对于轻型和中型卡车直应用,液压制动器提供的优势包括: ?制动感觉- 那就是,踏板越往下压,努力增加。高线压力,允许使用更轻,更紧凑的制动组件。?更少的初始费用,由于用更小和更少的元件。?卫生,液压制动器是封闭的系统。?易于定位泄漏,因为液体是可见的。液压制动系统有更多的排列,比在空气系统中发现,但都基本相似。液压系统所有的液压制动系统包含流体水库,主缸,液压,液压管路,对制动器进行加压流体的软管和一个或多个轮缸(S)对每个车轮产生。分泵扩大流体压力下,迫使制动蹄对鼓的内侧。如果使用盘式制动器,卡钳与不可分割的气瓶打击转

3、子时施加压力。因为车辆必须能够更迅速,它可以加速到停止,需要大量的刹车力。因此,必须减速刹车产生的马力的发动机作用多次。为了发展须持有对鼓或盘制动器衬片的力量,实现受控减速,这是要乘原始的力量施加在刹车踏板。当使用液压系统,机械杠杆是在脚踏板联动。然而,不同分泵或卡尺直径的直径,关系到主缸内径,提供了一个额外增加的比率。液压系统中,各分泵交付的压力,直接影响由活塞地区。例如,如果一个轮缸活塞面积2 平方英寸,另一个活塞面积1 平方英寸,系统压力为400 磅,2 平方英寸的活塞将针对制动器推一个迫使800 磅。1 平方英寸的活塞施加一个400 磅的力量。总泵和分泵的地区之间的比例确定在轮缸活塞的

4、力量倍增。为保持在头脑,直径较大的轮缸的,更流畅,必须提供由主缸行程较长的硕士转化。请记住,直径较大的轮缸的,更流畅,必须由主缸提供,以填补它。这意味着进入一个较长的主缸行程。如果主缸孔直径增加和相同的申请仍然有效,更少的压力将在系统的开发,但一个更大的轮缸活塞可以用来实现在轮缸所需的压力。显然,必须更换主缸,轮缸或卡尺相同的设计,并作为原单位承担。液压系统中,各分泵交付的压力,直接影响由活塞地区。例如,如果一个轮缸活塞面积2 平方英寸,另一个活塞面积1 平方英寸,系统压力为400 磅,2 平方英寸的活塞将针对制动鞋推一个迫使800 磅。1 平方英寸的活塞施加一个400 磅的力量。总泵和分泵的

5、地区之间的比例确定在轮缸活塞的力量倍增。液压制动系统分割的系统,包括两个谨慎的制动电路。一主缸活塞和水库是一个单独的活塞及伺服制动器上的其他桥( S)的水库,用来驱动一轴刹车。虽然罕见,一些轻型制动系统分裂对角线而非桥桥。分割系统的原因是,如果一个液压回路泄漏的发展,将停止车辆。当然,不应该被驱动的车辆远超过必要的制动系统修复。当液压回路发生故障,压力差开关感官两个电路之间的不平等的压力。交换机包含由弹簧片,并在每年年底电触头位于活塞。从一个液压回路中流体的压力提供压力差开关的一端,并从其他电路的压力提供给另一端。随着压力的一个电路,其他电路的正常压力,迫使活塞的失效一边,关闭的接触,并照亮仪

6、表板精选学习资料 - - - - - - - - - 名师归纳总结 - - - - - - -第 2 页,共 7 页3 / 7 警示灯。动力辅助协助电力单位,或助推器,减少运营商的努力,在刹车踏板。真空助力器,轻型汽车的流行,使发动机真空隔膜一侧,对对方的大气压力。一个阀门,使真空作用于刹车踏板的行程中的比例隔膜。这有助于踏板的努力,并增加对制动液的压力,无需过分增加在踏板努力。其他类型的助推器使用液压压力- 无论是从车辆的动力转向泵,或从一个单独的电动泵,或两者兼而有之- 协助刹车踏板被踩下踏板作用,阀门液压升压室申请增加的压力在增加主缸活塞。有些系统使用真空和液压助力。在其他系统中,从船上

7、压缩机的空气压力产生液压系统的压力。阀杆液压制动系统中常见的阀门包括:?配比,或压力平衡阀门。这些限制液压比例后轮刹车系统压力达到预设的高阻值。提高前轮 / 后轮在高速制动的制动平衡时,一些车辆的前后重量转移,并有助于防止后轮配料阀高度传感器。也就是说,他们调整后轮制动压力,在车辆荷载的响应。随着车辆的负载增加(降低高度)液压后轮刹车是不允许的。?测光阀门。这些保持了前盘式制动器的压力,让后轮鼓式制动蹄克服返回弹簧的压力,使接触后鼓。这可以防止锁定在湿滑路面上的前刹车灯制动应用。这些阀门不来硬制动过程中发挥作用。泊车停车功能的液压制动系统之间的差别很大。许多轻型车辆使用与后轮鼓式制动器杆和电缆

8、相配合,逐步加大杆或脚踏拉电缆,这反过来,拉杠杆总成,每个后轮结束的客运车类型。杠杆迫使制动蹄外,他们对鼓机械棘轮被释放,直到举起。其他泊车系统包括弹簧腔,像那些用于空气制动系统。这是弹簧控制,但由液压脱开而不是空气。防抱死许多轻型卡车液压制动,防抱死制动系统上使用的后轮保持轻载时,这些车辆制动稳定性。前面和后轮防抱死通常是一个选项,GVWR 超过 10,000 磅的车辆,这是需要引导和驱动桥防抱死关闭。在当前的液压防抱死系统,转储阀释放压力到一个累加器在即将车轮锁死的情况下液压油。电子控制箱接收来自传感器的传输和 / 或在车轮速度信号(S)。当施加制动,控制箱检测在后轮的速度,减少和激活转储

9、阀(S),如果减速率超过预定的限制。控制箱通电一系列流血轮液压快速脉冲的单向阀。继续转储阀是脉冲在防抱死模式,以保持车轮转动,同时保持控制的减速。在最后的停止,阀门的激励和累加器中的任何液体返回到主缸,恢复正常的刹车操作。基础刹车在液压系统的基础制动器可以是鼓或光盘。在许多应用中,光盘上使用前轴后方的鼓。鼓式制动器说是自激。这是因为制动蹄扩大和联系一个旋转的滚筒,引导或向前制动蹄被推向对刹车制动箍 由移动鼓的力量。这个结果在更高的衬里鼓比将仅由轮缸产生的压力。随着制动器衬片的磨损,必须定期移近鼓,以确保在制动过程中适当的接触。虽然一些旧的鼓式制动器总成,手动调整,大部分都是自动。这些使用一个星

10、轮或棘轮大会,这感官分泵时已超出其正常行程前往,并扩大在另一端的制动蹄的支点。除了摩擦的元素之一,制动鼓或转子也充当散热器。它必须迅速制动过程中吸收的热量,并保持它,直到它可以将空气中消散。鼓或转子较重的是,它可以容纳更多的热量。这是很重要的,因为制动器衬片热,他们更容易受到热衰退。热衰退是诱发重复的硬盘停止和结果的减少鼓形轮子连接的摩擦和增加车辆的制动距离。作为一项规精选学习资料 - - - - - - - - - 名师归纳总结 - - - - - - -第 3 页,共 7 页4 / 7 则,高品质的衬里,将显示低于劣质的热褪色。此外碟式刹车比鼓式制动器耐热褪色性能更好。另一个褪色的类型,刹

11、车容易褪色水。鼓式制动器,其表面积大,在安全范围内比盘式制动器每平方英寸之间需要更少的衬力和鼓力。加上鼓的保水的形状,鞋和鼓之间的潮湿条件下促进水面滑行。结果是制动距离大大增加。盘式制动器,具有较小的摩擦表面和高夹紧力,做一个良好的工作从转子擦水,并显示在潮湿时停止能力几乎没有减少。HYDRAULIC BRAKE BASICS Air brakes get more attention, but hydraulic brakes are installed on more vehicles. Understanding how they work is the first step to sa

12、fe, cost-effective diagnosis and repair. Ever wonder why there cant be just one kind of brake? Its because air and h ydraulic brakes each have operating characteristics that make one or the other ideal for certain applications. In heavy-duty combination vehicles, air is the clear choice because of t

13、he large volume of liquid that would be needed to acadia all the wheel cylinders. Plus, dealing with gladhands and hoses filled with hydraulic fluid would be messy. But for light and medium-duty straight-truck applications, hydraulic brakes offer advantages including: Brake feel that is, as the peda

14、l is pressed farther down, effort increases。High line pressures, which permit the use of lighter, more compact braking components。Less initial expense, due to smaller and fewer components。Cleanliness hydraulic brakes are closed systems。Ease of locating leaks, since fluid is visible. There are many m

15、ore permutations of hydraulic brake systems than found in air systems, but all have basic similarities. THE HYDRAULIC SYSTEMAllhydraulicbrakesystems contain a fluid reservoir, a master cylinder, which produces hydraulic pressure, hydraulic lines and hoses to carry pressurized fluid to thebrakes, and

16、 one or more wheel cylinder(s) on each wheel.The wheel cylinders expand under fluid pressure, and force the brake shoes against the insides of the drums. If disc brakes are used, calipers, with integral cylinders, clamp down on the rotors when pressure is applied. Because a vehicle must be able to s

17、top much more quickly than it can accelerate, a tremendous amount of braking force is needed. Therefore, the retarding horsepower generated by the brakes must be several times that of the engine. In order to develop the forces required to hold the brake linings against the drums or discs, and to ach

18、ieve controlled deceleration, it is necessary to multiply the original force applied at the brake pedal. When a hydraulic system is used, the only mechanical leverage is in the foot pedal linkage. However, varying the diameter of the wheel cylinders or caliper diameters, in relation to the master cy

19、linder bore diameter, provides an additional increase in ratio. 精选学习资料 - - - - - - - - - 名师归纳总结 - - - - - - -第 4 页,共 7 页5 / 7 In a hydraulic system, the pressure delivered by the various wheel cylinders is directly affected by the areas of their pistons. For example, if one wheel-cylinder piston has

20、 an area of 2 square inches, and another piston has an area of 1 square inch, and the system pressure is 400 psi, the 2-square-inch piston will push against thebrake shoes with a force of 800 pounds.The 1-square-inch piston will exert a force of 400 pounds. The ratio between the areas of the master

21、cylinder and the wheel cylinders determine the multiplication of force at the wheel cylinder pistons. Keep in mind that the larger a wheel cylinders diameter, the more fluid must be supplied by the master cylinder to fill it. This translates into a longer master-cylinder stroke. If the master cylind

22、er bore diameter is increased and the applying force remains the same, less pressure will be developed in the system, but a larger wheel-cylinder piston can be used to achieve the desired pressure at the wheel cylinder. Obviously, a replacement master cylinder, wheel cylinder or caliper must be of t

23、he same design and bore as the original unit. Hydraulic brake systems are split systems, comprising two discreet braking circuits. One master-cylinder piston and reservoir is used to actuate the brakes on one axle, with a separate piston and reservoir actuating the brakes on the other axle(s). Altho

24、ugh rare, some light-duty brake systems are split diagonally rather than axle by axle. The reason for the split system is that if a leak develops in one hydraulic circuit, the other will stop the vehicle. Of course, the vehicle shouldnt be driven any farther than necessary to have the brake system r

25、epaired. When one of the hydraulic circuits fails, a pressure-differential switch senses unequal pressure between the two circuits. The switch contains a piston located by a centering spring and electrical contacts at each end. Fluid pressure from one hydraulic circuit is supplied to one end of the

26、pressure-differential switch, and pressure from the other circuit is supplied to the other end. As pressure falls in one circuit, the other circuits normal pressure forces the piston to the inoperative side, closing the contacts and illuminating a dashboard warning light. POWER ASSISTPower assist un

27、its, or boosters, reduce operator effort at the brake pedal. Vacuum boosters, popular on light-duty vehicles, make use of an engine vacuum on one side of a diaphragm, and atmospheric pressure on the other side. A valve allows the vacuum to act on the diaphragm in proportion to brake pedal travel. Th

28、is assists the pedal effort, and allows increased pressure on the brake fluid, without an undue increase in pedal effort.Other types of boosters use hydraulic pressure either from the vehicles power steering pump or from a separate electric pump, or both to assist pedal effort.As the brake pedal is

29、depressed, a valve increases hydraulic pressure in a boost chamber to apply increased pressure to the master cylinder pistons. Some systems use both vacuum and hydraulic assist. In other systems, air pressure from an onboard compressor is used to generate hydraulic system pressure. VALVINGValves com

30、monly found in hydraulic brake systems include:Proportioning, or pressure-balance valves. These restrict a percentage of hydraulic pressure to the rear brakes when system pressure reaches a preset high value.This improves front/rear brake balance during high-speed braking, when some of a vehicles re

31、ar weight is transferred forward, and helps prevent rear-wheel lockup.Some 精选学习资料 - - - - - - - - - 名师归纳总结 - - - - - - -第 5 页,共 7 页6 / 7 proportioning valves are height-sensing. That is, they adjust rear-brake pressure in response to vehicle load. As a vehicles load increases (decreasing height) mor

32、e hydraulic pressure to the rear brakes is allowed 。Metering valves. These hold off pressure to front disc brakes to allow rear drum brake shoes to overcome return-spring pressure and make contact with the rear drums. This prevents locking the front brakes on slippery surfaces under light braking ap

33、plications. These valves do not come into play during hard braking.PARKINGThe parking function varies greatly among hydraulic brake systems. Many light-duty vehicles with rear drum brakes use a passenger-car type lever-and-cable setup.A ratcheted lever or foot pedal pulls a cable, which, in turn, pu

34、lls a lever assembly at each rear wheel end. The lever forces the brake shoes apart, and they are mechanically held against the drums until the ratchet is released.Other parking systems include spring chambers, like those used on air-brake systems. These are spring-engaged, but are disengaged by hyd

35、raulic pressure instead of air. ANTILOCKOn many hydraulically braked light-duty trucks, antilock brakes are used on the rear wheels to preserve braking stability when these vehicles are lightly loaded. Front and rear-wheel antilock is usually an option, except for vehicles over 10,000 pounds GVWR, w

36、hich are required to have steer and drive-axle antilock.In current hydraulic antilock systems, a dump valve releases pressurized hydraulic fluid into an accumulator in the event of an impending wheel lockup. An electronic control box receives speed signal(s) from sensors in the transmission and/or a

37、t the wheels. When the brakes are applied, the control box senses the decrease in rear wheel speed, and activates the dump valve(s) if the rate of deceleration exceeds a predetermined limit. The control box energizes the dump valve with a series of rapid pulses to bleed-off wheel hydraulic pressure.

38、 Continuing in antilock mode, the dump valve is pulsed to keep the wheels rotating, while maintaining controlled deceleration. At the end of such a stop, the valve de-energizes and any fluid in the accumulator is returned to the master cylinder. Normal brake operation resumes. FOUNDATION BRAKESFound

39、ation brakes in hydraulic systems can be either drum or disc. In many applications, discs are used on the front axle and drums on the rear.Drum brakes are said to be self-energizing. Thats because when the brake shoes expand and contact a rotating drum, the leading, or forward, brake shoe is pushed

40、against the trailing shoe by the force of the moving drum. This results in higher lining-to-drum pressure than would be produced by the wheel cylinder alone. As brake linings wear, the shoes periodically must be moved closer to the drums to ensure proper contact during braking. While some older drum

41、 brake assemblies are manually adjusted, most are automatic. These use a star wheel or ratchet assembly, which senses when the wheel cylinder has traveled beyond its normal stroke, and expands the pivot point at the other end of the brake shoes. In addition to being one of the friction elements, the

42、 brake drum or rotor also acts as a heat sink. It must rapidly absorb heat during braking, and hold it until it can be dissipated into the air. The heavier a drum or rotor is, the more heat it can hold. 精选学习资料 - - - - - - - - - 名师归纳总结 - - - - - - -第 6 页,共 7 页7 / 7 This is important, since the hotter

43、 the brake linings get, the more susceptible they are to heat fade. Heat fade is induced by repeated hard stops and results in reduced lining-to-drum/rotor friction and increased vehicle stopping distance. As a rule, high-quality linings will display less heat fade than inferior ones. Also, discbrak

44、es are far more resistant to heat fade than drum brakes. Another type of fade that brakes are susceptible to is water fade. Drum brakes, with their large surface areas, apply fewer pounds per square inch of force between lining and drum during a stop than disc brakes. This, added to the drums water-

45、retaining shape, promotes hydroplaning between shoe and drum under wet conditions. The result is greatly increased stopping distance. Disc brakes , with their smaller friction surfaces and high clamping forces, do a good job of wiping water from rotors, and display little reduction in stopping capability when wet. 有用的产品气动钢瓶精选学习资料 - - - - - - - - - 名师归纳总结 - - - - - - -第 7 页,共 7 页

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