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題 目 汽車(chē)差速器的發(fā)展史
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汽車(chē)差速器的發(fā)展史
在火車(chē)和汽車(chē)出現(xiàn)之前,馬車(chē)一直都是人們出行十分重要交通工具。人們喜歡乘坐馬車(chē)從容地穿過(guò)鄉(xiāng)村的大道或古舊的城區(qū)街巷去拜訪朋友。追溯以往,我們已經(jīng)沒(méi)有辦法知道是誰(shuí)第一個(gè)發(fā)明了車(chē)輪子,誰(shuí)又造出了第一輛帶輪子的車(chē)輛。雖然車(chē)輪技術(shù)在初期并不太理想,但是它的出現(xiàn)還是提高了人類(lèi)搬運(yùn)物品的速度,促進(jìn)了人類(lèi)的發(fā)展。公元前2000年,有的部落開(kāi)始用馬來(lái)拉有輪子的車(chē),這種車(chē)輪已經(jīng)開(kāi)始像圓形,而不是早期車(chē)輪那樣以整個(gè)木頭塊做成的。約公元前1世紀(jì),羅馬制車(chē)匠發(fā)明了四輪馬車(chē)并逐漸加以改進(jìn),使得四輪馬車(chē)可以以前輪為導(dǎo)向前進(jìn)。為了讓四輪馬車(chē)的性能更高,他們?cè)谲?chē)輪上鑲嵌金邊用來(lái)減少車(chē)輪與車(chē)體的摩擦。此后這種用作長(zhǎng)途運(yùn)輸?shù)鸟R拉車(chē)成為各國(guó)主要的運(yùn)輸車(chē)輛。它的優(yōu)點(diǎn)是運(yùn)輸量大和運(yùn)行平穩(wěn),缺點(diǎn)是需要較為平坦的路面才能行駛。隨著用于四輪馬車(chē)行駛的道路年久失修,人們又改用實(shí)用的兩輪車(chē),因?yàn)樗梢栽谄閸绲牡匦螚l件能夠行駛。后來(lái)經(jīng)過(guò)再次改進(jìn),但人們對(duì)四輪馬車(chē)的速度始終不能滿意,希望發(fā)明一種比馬更有耐力和更強(qiáng)壯的動(dòng)力機(jī)器,以使車(chē)輪能夠轉(zhuǎn)得更快。
幾千年后,在英國(guó)和美國(guó)的一些地方,少數(shù)人開(kāi)始試驗(yàn)用蒸汽做動(dòng)力,以鋼鐵做道路。蒸汽火車(chē)便這樣出現(xiàn)了,它的使用大大縮短了人們遠(yuǎn)程旅行的時(shí)間。不過(guò)由于鐵軌鋪設(shè)的限制,人們?nèi)ゴ蠖鄶?shù)地方還只有依靠馬車(chē)。為了解決這個(gè)問(wèn)題,尋找一種能夠完全替代馬車(chē)的物品,發(fā)明家們又開(kāi)始忙碌了起來(lái)。后來(lái)經(jīng)過(guò)不懈努力,卡爾·本茨研發(fā)出了一種能夠代替馬車(chē)的,就是由鋼鐵制成的三輪汽車(chē)。本茨發(fā)明的三輪汽車(chē)裝載量只相當(dāng)于兩輪馬車(chē),并沒(méi)有舒適的車(chē)箱可供乘客遮風(fēng)擋雨,不能獲得大家認(rèn)可??山鹱釉缤矶紩?huì)發(fā)光的,不久有人對(duì)三輪汽車(chē)進(jìn)行了改造,將它變?yōu)榱怂膫€(gè)輪子,并且具有像馬車(chē)一樣的帶窗箱子,還讓它有了一個(gè)好聽(tīng)的名字“無(wú)馬馬車(chē)”。
在這種四輪汽車(chē)出現(xiàn)后,它與四輪馬車(chē)最大不同的地方在于轉(zhuǎn)彎的時(shí)候。四輪馬車(chē)在轉(zhuǎn)彎的時(shí)候是控制馬拖動(dòng)改變前面兩個(gè)輪子的前進(jìn)方向,再由與兩個(gè)前輪相連接的車(chē)箱拖動(dòng)后輪進(jìn)行轉(zhuǎn)向運(yùn)動(dòng)。由于馬是動(dòng)力的來(lái)源,前輪只是被馬拖著完成轉(zhuǎn)向的,后輪通過(guò)車(chē)體帶動(dòng)完成的,所以不存在轉(zhuǎn)向困難的問(wèn)題。而汽車(chē)的結(jié)構(gòu)則完全不同,它將發(fā)動(dòng)機(jī)安裝在車(chē)身上,但是驅(qū)動(dòng)汽車(chē)前進(jìn)的力卻必須直接傳送到輪子上。動(dòng)力傳遞要經(jīng)過(guò)離合器、變速器、萬(wàn)向節(jié)、傳動(dòng)軸等裝置。這樣汽車(chē)的前輪與后輪之間就多出來(lái)了一根杠桿,而杠桿只能以一種速度傳給后面的兩個(gè)輪,這樣的直接后果就是后輪不能以不同速度轉(zhuǎn)動(dòng),就會(huì)造成轉(zhuǎn)彎困難。
若汽車(chē)順利轉(zhuǎn)彎,兩個(gè)后輪就不能以相同的速度轉(zhuǎn)動(dòng)。汽車(chē)在轉(zhuǎn)彎的時(shí)候,車(chē)輪的行駛軌跡是一個(gè)圓弧,如果向左轉(zhuǎn)彎,圓弧的中心點(diǎn)就在左側(cè),同一時(shí)間,右側(cè)輪子走的弧線就比左側(cè)輪子長(zhǎng)。汽車(chē)轉(zhuǎn)彎時(shí)要平衡左右輪的差異,右側(cè)的輪子轉(zhuǎn)的快一點(diǎn),左側(cè)的輪子轉(zhuǎn)的慢一點(diǎn),用轉(zhuǎn)速的不同來(lái)彌補(bǔ)距離上的差異。
汽車(chē)工程師為了解決這個(gè)問(wèn)題。他們先是試著讓兩個(gè)后輪不再使用一根杠桿進(jìn)行連接而是斷開(kāi),讓兩個(gè)后輪獨(dú)自擁有一根杠桿,也就是兩個(gè)獨(dú)立的軸,就是半軸。只要對(duì)兩個(gè)半軸上的杠桿分別施以不同的力量,就能使得左右兩個(gè)車(chē)輪具有不同的轉(zhuǎn)速。斷開(kāi)后麻煩就來(lái)了,汽車(chē)只有一根傳動(dòng)軸,怎么能分別給兩個(gè)半軸合理傳輸動(dòng)力呢?這就需要一個(gè)裝置來(lái)做中間“人”。先用兩根杠桿在垂直角度與兩個(gè)連接后輪的杠桿相連,然后再通過(guò)一個(gè)杠桿在水平的位置與垂直的位置兩個(gè)杠桿相交,從而帶動(dòng)兩個(gè)后輪的轉(zhuǎn)動(dòng)。這樣的連接方式雖然可以使得兩個(gè)后輪進(jìn)行轉(zhuǎn)動(dòng),但不能實(shí)現(xiàn)兩個(gè)車(chē)輪以不同的速度轉(zhuǎn)動(dòng),因?yàn)樗鼈儗?shí)際的意義上還是一個(gè)整體。經(jīng)過(guò)不斷的實(shí)驗(yàn)發(fā)現(xiàn),在連接兩個(gè)后輪的杠桿上各安裝一個(gè)十字杠桿,并且與它們的垂直角度也安裝一個(gè)相同的十字杠桿,并用這個(gè)十字杠桿來(lái)帶動(dòng)兩個(gè)輪上的十字杠桿。隨著垂直角度的十字杠桿的轉(zhuǎn)動(dòng),中間的這個(gè)十字杠桿并不會(huì)在同一時(shí)間內(nèi)帶動(dòng)連接兩個(gè)后輪的十字杠桿,從而實(shí)現(xiàn)了兩個(gè)車(chē)輪處于有不同的轉(zhuǎn)速。
這樣雖然能解決了兩后輪不同轉(zhuǎn)速的問(wèn)題,但是十字杠桿的空間過(guò)大,三個(gè)十字杠桿就容易出現(xiàn)帶動(dòng)困難的情況。后又在十字杠桿的基礎(chǔ)上增加更多的杠桿,總共增加到了十二根,就形成了三個(gè)有十二根杠桿的風(fēng)車(chē)輪,這樣三個(gè)風(fēng)車(chē)輪都能夠很好的轉(zhuǎn)動(dòng)。解決方案的模型已經(jīng)造出,總不可能在汽車(chē)上直接就安裝吧。在機(jī)械上與風(fēng)車(chē)輪具有相同功能的就是齒輪,而且齒輪可以根據(jù)需要打造更多的齒進(jìn)行咬合,使用壽命還比較長(zhǎng),出現(xiàn)脫落的機(jī)率微乎其微,完全是實(shí)現(xiàn)這個(gè)模型的最佳選擇。
當(dāng)時(shí)這樣的設(shè)計(jì)只是簡(jiǎn)單的完成了原始的方案,并沒(méi)有實(shí)際上應(yīng)用到汽車(chē)上。就像任何一幅大作都需要畫(huà)龍點(diǎn)睛的一筆,完成這一筆的人就是法國(guó)雷諾汽車(chē)的創(chuàng)始人路易斯·雷諾。雷諾在看到了這個(gè)原始的設(shè)計(jì)后,要想若將它應(yīng)用到汽車(chē)上還需要改進(jìn)才行。不光需要齒輪緊緊咬合,還需要使齒輪可以隨著其他齒輪一起轉(zhuǎn)動(dòng),但齒輪還不能太多,六個(gè)就足夠。東西是有了,還是應(yīng)該給它取個(gè)好聽(tīng)的名字,“差速器”就不錯(cuò),形象而且生動(dòng)。
就這樣,解決汽車(chē)轉(zhuǎn)彎問(wèn)題的差速器誕生了。在此后的一百多年里,汽車(chē)外觀和其他部件換了一代又一代,但這個(gè)關(guān)鍵部件還是沒(méi)有多大的改變,因?yàn)樗慕M成原理注定了它就是那個(gè)樣子。什么樣子呢?簡(jiǎn)單一點(diǎn)的說(shuō)就是由六個(gè)齒輪所組成。復(fù)雜一點(diǎn),就是由一組行星齒輪組成,核心是兩個(gè)行星齒輪和兩個(gè)與左右后輪傳動(dòng)軸相連接的半軸齒輪。什么是行星齒輪?在浩瀚的宇宙中,有這樣一種星球,它不僅圍繞著自己的軸線進(jìn)行轉(zhuǎn)動(dòng),而且還圍繞著其他的星球進(jìn)行轉(zhuǎn)動(dòng)。如地球,地球就是一個(gè)行星。不僅要自轉(zhuǎn),還要圍繞著太陽(yáng)進(jìn)行不停地公轉(zhuǎn)。明白了什么是行星后,就容易理解行星齒輪了。行星齒輪是指那些不僅自身要轉(zhuǎn)動(dòng),而且還要圍繞著其他齒輪轉(zhuǎn)動(dòng)的齒輪。差速器是由六個(gè)齒輪組成的,兩個(gè)行星齒輪+兩個(gè)半軸齒輪=四個(gè)齒輪,還有兩個(gè)。剩下的這兩個(gè)齒輪就是負(fù)責(zé)與傳動(dòng)桿連接的,將發(fā)動(dòng)機(jī)輸出的動(dòng)力,在經(jīng)過(guò)了變速箱和傳動(dòng)軸順利的交接給差速器,再由差速器根據(jù)實(shí)際的情況將動(dòng)力分配到左右兩個(gè)后輪。只有將差速器安裝在傳動(dòng)桿與兩個(gè)后輪半軸之間才可以實(shí)現(xiàn)合理的控制車(chē)輪的轉(zhuǎn)速,從而實(shí)現(xiàn)兩個(gè)車(chē)輪具有不同速度的目的。在將這六個(gè)齒輪安裝到相應(yīng)位置后,總不能讓它們裸露在外吧,還需要安一個(gè)遮風(fēng)擋雨的保護(hù)殼,以保護(hù)齒輪不受到其他位置零部件的干擾。為了節(jié)省空間,現(xiàn)代的差速器很少再使用經(jīng)典的平面齒輪了,更多的是使用曲齒圓錐齒輪、交錯(cuò)軸斜齒輪、準(zhǔn)雙曲面齒輪甚至蝸桿,但基本的六個(gè)齒輪的結(jié)構(gòu)一直延續(xù)了下來(lái)。
History of automotive differential
Before the advent of the train and bus, coach has been very important for people to travel transportation. People like to take a leisurely carriage road through the village streets of the city or to visit old friends. Trace the past, we have no way of knowing who invented the wheel first child, who has created the first one wheeled vehicles. Although the wheel technology in the early and less than ideal, but it's there or to improve the human handling of goods, promoting human development. 2000 BC, some tribes began to Malays pull a wheeled vehicle, the wheels have started like this round, rather than early, as the whole wheel made of wood blocks. 1st century BC, the Roman system, Cartwright invented the chariot and gradually be improved, making the four-wheel carriage can be driven forward. In order for carriage of higher performance, they are embedded in Phnom Penh on wheels used to reduce the friction wheel and body. After such a long-distance transport of horse-drawn vehicles for a major national transport vehicles. The advantage is that transport large and smooth operation, drawback is the need to travel relatively flat road. With the road for carriage driving dilapidated, two-wheelers people and use practical, because it can travel over rough terrain can be. Later, after once again improved, but it is the speed of the carriage is not always satisfactory, hoping to invent a more endurance than the horse power and more robust machines to make the wheels to turn faster.
Thousands of years later, in some parts of the United Kingdom and the United States, few people began to experiment with steam-powered, with a steel-made road. This steam train will be there, its use greatly reduces the distance people travel time. However, because of restrictions on the laying of tracks, most places only people to rely on the carriage. To solve this problem, to find a way to completely replace the carriage of goods, inventors began to busy again. Later, through unremitting efforts, Carl ? Benz developed a way to replace the carriage, is made of three cars of steel. Benz invented the three-wheeled vehicles loading only the equivalent of two carriages, the carriages are not comfortable shelter for passengers, can not get you recognized. Sooner or later gold will be shining, and soon was on the three vehicles has been transformed, it becomes four wheels, and has the same belt as the carriage window boxes, it also has a nice name, "No Mama car."
In this four-wheeled vehicles appears, with the biggest wagon is a different place when cornering. When the carriage is in turn control the horse drag to change the forward direction of the front two wheels, then connected with the two front wheels for steering the rear trunk drag movement. As the horse is a source of power, front wheel only to be dragged to complete turn of the horse, rear-wheel drive through the body done, so there is no turning difficult problems. The car's structure is completely different, it will be the engine installed in the car body, but the forces driving the car forward, but must be sent directly to the wheels. Power transfer to go through the clutch, transmission, universal joints, drive shafts and other devices. This car's front and rear wheels out more between a lever, while the lever can only be passed back to a speed of two wheels, so a direct consequence of the rear wheels can rotate at different speeds, will result in turning difficult.
If the car turns smoothly, the two rear wheels can not turn the same speed. When the car turns, the wheel travel path is an arc, if turning left, the center of the arc on the left, at the same time, the right wheels to go a long arc than the left wheel. When the car turns left and right wheels to balance the difference the right wheels turn a little faster, turn the wheel left a little slower, with different speed to compensate for the distance differences.
Automotive engineers to solve this problem. First they try to make the two rear wheels are no longer using a lever connected but disconnected, so that the two rear wheels with a lever alone, that is, two independent axes, is the axle. As long as the lever on the axle of the two were subject to different forces, we can make about two wheels have different speeds. After the trouble came off, the car is only a drive shaft, how can two axle, respectively, to transmit power it reasonable? This requires a device to do the middle of "person." First with two levers and two connections in the vertical angle of the lever connected to the rear, and then by a lever in a horizontal position and vertical position of the two levers intersect, so as to drive two rear wheels turn. Although such a connection can be made for the two rear wheels rotating, but can not achieve the two wheels rotate at different speeds, because their actual sense, or as a whole. After years of experiments found that the lever connecting the two rear wheels of the installation of a cross on the lever, and with them also installed a vertical angle of the same cross levers, and use this leverage to drive two wheels cross the cross on the lever. With the vertical angle of the cross lever rotation in the middle of the cross lever and not at the same time connecting the two rear wheels driven by the cross levers, wheels in order to achieve the two different speeds.
Although this can solve the problem of two different speed rear wheel, but the space is too large cross levers, three cross drive lever prone to difficult situations. Then on the basis of the cross lever to add more leverage, increased to a total of twelve, to form a three twelve leverage wind wheel, so all three can be a good wind wheels turning. Solution model has manufactured, the total can not be directly installed in the car on it. With the wind in the mechanical function of the wheel is the same gear, and gear as needed to create more teeth to bite, life is relatively long, there is minimal chance of loss is completely the best choice to achieve this model.
This design was simply to complete the original program does not actually applied to the car. Like any masterpiece needs a finishing touch to complete this amount of people is the founder of France, Louis Renault ? Renault. Renault saw the original design, in order to apply it to the car If we need to improve Caixing. Closely not only need to gear meshing, gear may also need to rotate together with the other gear, but gear can not be too much, six is ??enough. What is there, or should give it a nice name, "differential" pretty good, and vivid image.
In this way, to solve the problem of differential turning car was born. Over the next 100 years, other components for automotive appearance and generation after generation, but the key components is not much change, because it's composed of the principle that it is destined that way. Look like? Simple point that is formed by the six gears. Complex that is formed by a group of planetary gears, two core and two planetary gear shaft with the left rear wheel axle gear connected. What is a planetary gear? In the vast universe, there is such a planet, it is not only revolve around their own axis of rotation, but also around other planets to rotate. Such as the Earth, the Earth is a planet. Not only to rotation, but also around the sun to keep the revolution. Understand what is a planet, the planetary gear up it is easy to understand. Planetary gear means to turn that not only their own, but also around the other gears of the gear. Differential is composed of six gears, planetary gear + two = four gear two axle gear, there are two. The remaining two gears with the drive rod is responsible for connecting the engine output power, gearbox and drive shaft after a smooth transition to the differential, then the differential will be based on the actual situation to the power distribution left and right rear wheels. Only differential installed in the rear axle drive rod between the two can achieve reasonable control wheel speed, in order to achieve the speed of two wheels with different purposes. In this six gear installed to the appropriate location, can not let them exposed it, still need a safe shelter to protect shell to protect the gear position is not affected by other parts of the interference. To save space, modern differential rarely use the classic flat gear, and more is to use the song bevel gears, screw gears, hypoid gears or worm, but the basic structure of the six gears have been continued down.
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