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差速器 根據(jù)汽車(chē)行駛運(yùn)動(dòng)學(xué)的要求和實(shí)際的車(chē)輪、道路以及它們之間的相互關(guān)系表明：汽車(chē)在行駛過(guò)程中左右車(chē)輪在同一時(shí)間內(nèi)所滾過(guò)的行程往往是有差別的。例如，轉(zhuǎn)彎時(shí)外側(cè)車(chē)輪的行程總要比內(nèi)側(cè)的長(zhǎng)。另外，即使汽車(chē)作直線行駛，也會(huì)由于左右車(chē)輪在同一時(shí)間內(nèi)所滾過(guò)的路面垂向波形的不同，或由于左右車(chē)輪輪胎氣壓、輪胎負(fù)荷、胎面磨損程度的不同以及制造誤差等因素引起左右車(chē)輪外徑不同或滾動(dòng)半徑不相等而要求車(chē)輪行程不等。 在左右車(chē)輪行程不等的情況下，如果采用一根整體的驅(qū)動(dòng)車(chē)輪軸將動(dòng)力傳給左右車(chē)輪，則會(huì)由于左右驅(qū)動(dòng)車(chē)輪的轉(zhuǎn)速雖相等而行程卻又不同的這一運(yùn)動(dòng)學(xué)上的矛盾，引起某一驅(qū)動(dòng)車(chē)輪產(chǎn)生滑轉(zhuǎn)或滑移。這不僅會(huì)使輪胎過(guò)早磨損、無(wú)益地消耗功率和燃料及使驅(qū)動(dòng)車(chē)輪軸超載等，還會(huì)因?yàn)椴荒馨此蟮乃矔r(shí)中心轉(zhuǎn)向而使操縱性變壞。 此外，由于車(chē)輪與路面間尤其在轉(zhuǎn)彎時(shí)有大的滑轉(zhuǎn)或滑移，易使汽車(chē)在轉(zhuǎn)向時(shí)失去抗側(cè)滑能力而使穩(wěn)定性變壞。為了消除由于左右車(chē)輪在運(yùn)動(dòng)學(xué)上的不協(xié)調(diào)而產(chǎn)生的這些弊病， 汽車(chē)左右驅(qū)動(dòng)輪間都裝有差速器，后者保證了汽車(chē)驅(qū)動(dòng)橋兩側(cè)車(chē)輪在行程不等時(shí)具有以不同速度旋轉(zhuǎn)的特性，從而滿足了汽車(chē)行駛運(yùn)動(dòng)學(xué)要求。 同樣情況也發(fā)生在多橋驅(qū)動(dòng)中，前、后驅(qū)動(dòng)橋之間，中、后驅(qū)動(dòng)橋之間等 會(huì)因車(chē)輪滾動(dòng)半徑不同而導(dǎo)致驅(qū)動(dòng)橋間的功率循環(huán)，從而使傳動(dòng)系的載荷增大，損傷其零件，增加輪胎的磨損和燃料的消耗等，因此一些多橋驅(qū)動(dòng)的汽車(chē)上也裝了軸間差速器。 差速器的結(jié)構(gòu)型式選擇，應(yīng)從所設(shè)計(jì)汽車(chē)的類(lèi)型及其使用條件出發(fā)，以滿足該型汽車(chē)在給定的使用條件下的使用性能要求。 差速器的結(jié)構(gòu)型式有多種。大多數(shù)汽車(chē)都屬于公路運(yùn)輸車(chē)輛，對(duì)于在公路上和市區(qū)行駛的汽車(chē)來(lái)說(shuō)，由于路面較好，各驅(qū)動(dòng)車(chē)輪與路面的附著系數(shù)變化很小，因此幾乎都采用了結(jié)構(gòu)簡(jiǎn)單、工作平穩(wěn)、制造方便、用于公路汽車(chē)也很可靠的普通對(duì)稱(chēng)式圓錐行星齒輪差速器，作為安裝在左、右驅(qū)動(dòng)輪間的所謂輪間差速器使用；對(duì)于經(jīng)常行駛在泥濘、松軟土路或無(wú)路地區(qū)的越野汽車(chē)來(lái)說(shuō)，為了防止因某一側(cè)驅(qū)動(dòng)車(chē)輪滑轉(zhuǎn)而陷車(chē)，則可采用 防滑差速器。后者又分為強(qiáng)制鎖止式和自鎖式兩類(lèi)。自鎖式差速器又有多種結(jié)構(gòu)型式的高摩擦式和自由輪式的以及變傳動(dòng)比式的。 1． 對(duì)稱(chēng)式圓錐行星齒輪差速器 普通的對(duì)稱(chēng)式圓錐行星齒輪差速器由差速器左、右殼，2個(gè)半軸齒輪，4個(gè)行星齒輪(少數(shù)汽車(chē)采用3個(gè)行星齒輪，小型、微型汽車(chē)多采用2個(gè)行星齒輪)，行星齒輪軸(不少裝4個(gè)行星齒輪的差逮器采用十字軸結(jié)構(gòu))，半軸齒輪及行星齒輪墊片等組成。 由于其結(jié)構(gòu)簡(jiǎn)單、工作平穩(wěn)、制造方便、用在公路汽車(chē)上也很可靠等優(yōu)點(diǎn)，最廣泛地用在轎車(chē)、客車(chē)和各種公路用載貨汽車(chē)上．有些越野汽車(chē)也采用了這種結(jié)構(gòu)，但用到越野汽車(chē)上需要采取防滑措施。 例如加進(jìn)摩擦元件以增大其內(nèi)摩擦，提高其鎖緊系數(shù)；或加裝可操縱的、能強(qiáng)制鎖住差速器的裝置-差速鎖等。由于整速器殼是裝在主減速器從動(dòng)齒輪上，故在確定主減速界從動(dòng)齒輪尺寸時(shí)，應(yīng)考慮差速器的安裝。差速器殼的輪廓尺寸也受到從動(dòng)齒輪及主動(dòng)齒輪導(dǎo)向軸承支座的限制。 2． 強(qiáng)制鎖止式防滑差速器 充分利用牽引力的最簡(jiǎn)單的一種方法是在普通的圓錐齒輪差速器上加裝差速鎖，必要時(shí)將差速器鎖住。此時(shí)左、右驅(qū)動(dòng)車(chē)輪可以傳遞由附著力決定的全部轉(zhuǎn)矩。 當(dāng)汽車(chē)駛?cè)胼^好的路面時(shí)，差速器的鎖止機(jī)構(gòu)應(yīng)即時(shí)松開(kāi)，否則將產(chǎn)生與無(wú)差速器時(shí)一樣的問(wèn)題，例如使轉(zhuǎn)彎困難、輪胎加速磨損、使傳動(dòng)系零件過(guò)載和消耗過(guò)多的功率等。由于上述種種原因，強(qiáng)制鎖住差速器的方法未得到廣泛應(yīng)用。 3.自鎖式差速器 為了充分利用汽車(chē)的牽引力，保證轉(zhuǎn)矩在驅(qū)動(dòng)車(chē)輪間的不等分配以提高抗滑能力，并避免上述強(qiáng)制鎖止式差速器的缺點(diǎn)，創(chuàng)造了各種類(lèi)型的自鎖式差速器。用以評(píng)價(jià)自鎖式差速器性能的主要參數(shù)，是它的鎖緊系數(shù)。 為了提高汽車(chē)的通過(guò)性，似乎是鎖緊系數(shù)愈大愈好，但是過(guò)大的鎖緊系數(shù)如前所述，不但對(duì)汽車(chē)轉(zhuǎn)向操縱的輕便靈活性、行駛的穩(wěn)定性、傳動(dòng)系的載荷、輪胎磨損和燃料消耗等，有不同程度的不良影響，而且無(wú)助于進(jìn)一步提高驅(qū)動(dòng)車(chē)輪抗滑能力。 因此設(shè)計(jì)高通過(guò)性汽車(chē)差速器時(shí)，應(yīng)正確選擇鎖緊系數(shù)值。一般越野汽車(chē)的低壓輪胎與地面的附著系數(shù)的最大值為0.7~0.8(在干燥的柏油或混凝土路面上)，而最小值為0.1~0.2(在開(kāi)始溶化的冰上)?？梢?jiàn)相差懸殊的附著系數(shù)的最大比值為 8。因此，為了充分利用汽車(chē)牽引力，差速器的鎖緊系數(shù)K實(shí)際上選定為8就已足夠。 而汽車(chē)在不好的道路和無(wú)路地區(qū)行駛的實(shí)踐表明，各驅(qū)動(dòng)車(chē)輪與地面附著系數(shù)不同數(shù)值之比，一般不超過(guò)3~4。因此選取K＝3~4是合適的，在這種情況下汽車(chē)的通過(guò)性可以得到顯著的提高，而其轉(zhuǎn)向操縱等使用性能實(shí)際上并不變壞。 自鎖式差速器有滑塊-凸輪式、蝸輪式、自由輪式等多種形式。 Differential According to the requirements of vehicle kinematics and the actual wheel, road and the mutual relations between them that in a moving vehicle in the course of the wheel around the same time as a scrolled off the itinerary is often the difference. For example, when turning the wheel outside than the inside of the total trip length. In addition, even if a vehicle traveling straight, also due to wheel around the same time as a scrolled off the surface of the different vertical wave, or a wheel about tire pressure, tire load, tread wear and the different levels, such as manufacturing error factors about different diameter wheel or rolling radius of the wheels do not require the same itinerary ranging. Trip around the wheels in the range of circumstances, if we adopt an overall drive axle vehicles will pass around momentum wheels, the wheels will be driven around because of the speed and although the same itinerary but different in this campaign of the contradictions, have caused a drive wheel to slide or slip. This will not only premature tire wear and not conducive to consumption of power and fuel and to drive axle vehicles such as overloading, but also because they can not according to the requirements of the instantaneous center to manipulation of deterioration. In addition, because the road between the wheel and in particular at a major turning to slide or slip easily in the vehicle to spin when the loss of the ability and stability deteriorate. In order to remove the wheel because of kinematics about the lack of coordination caused by these shortcomings, cars are equipped with about differential between the driving wheel, which guarantee the bridge on both sides of the wheel drive vehicle in the range when a trip to the speed of rotation of different characteristics, so as to meet the requirements of the automobile on kinematics. The same situation also occurred in the bridge drive, before and after the bridge between the driver, during and after the bridge between the drive wheels rolling, and so will lead to different radius of the bridge between the power-driven cycle, thus enabling transmission The load increased, damage its parts, increased tire wear and fuel consumption, some more bridge-driven cars also with the differential between the shaft. The differential structure of choice, should be designed by the type of vehicle and its use conditions, to meet this type of vehicle in a given under the conditions of the use of the use of performance requirements. The differential structure of a variety. Most cars are all road transport vehicles in urban traffic on highways and the automobile, because the roads better, the drive wheel and the road attachment coefficient little change, almost all adopted the simple structure, steady work, Manufacturing convenient for road vehicles are reliable general symmetrical cone planetary gear differential, as installed on the left and right driving wheel of the so-called round of the differential between the use of the regular traffic in the mud, loose dirt roads or areas Another Day The off-road vehicle, in order to prevent side of a car driven roller sports cars to turn depression, can use non-slip differential. The latter is divided into mandatory locking-and-two types of self-locking. Self-locking differential has a variety of types of high-friction-free and the wheel and variable-ratio transmission. 1. Symmetrical cone planetary gear differential General symmetrical cone differential planetary gear differential from the left and right shells, two axle gear, four planetary gear (a small number of cars using three planetary gear, small, micro-car use of two planetary gear), Planetary gear shaft (many with four planetary gear caught for the poor structure of a cross-axis), the axle gear and planetary gear pads, and other components. Because of its simple structure and work steadily to create convenience for use in highway vehicles are very reliable, and other advantages, the most widely used in cars, buses and cars laden with all kinds of highway on. Some off-road vehicles using this structure, but off-road vehicle use on the need to take anti-skid measures. For example, to add friction components in order to increase its internal friction and enhance its locking factor, or the installation of manoeuvrable, the differential can be locked mandatory device - such as differential lock. As for speed the whole shell is installed in the main driven gear reducer, the slowdown is the main sector in determining the size driven gear, the differential should consider the installation. The outline of the differential shell size has been driven gear and active-oriented gear bearing supports the restrictions. 2.Lock-style non-slip differential mandatory Make full use of traction the most simple method is in the ordinary bevel gear differential on the installation of differential lock, if necessary, will be locked differential. At this point the left and right wheel drive transmission can be decided by the adhesion of all torque. When the car into a better road, the differential lock agencies should immediately release, otherwise, they will have no differential with the same problem when, for example, difficult to change, accelerated tire wear so that the transmission parts and overload excessive consumption of power, and so on. As a result of these various reasons, the compulsory lock the differential approach has not been widely used. 3.Self-locking differential To make full use of vehicle traction to ensure that the torque between the drive wheels, ranging from distribution to enhance the ability of anti-sliding, and to avoid the mandatory locking differential for the shortcomings and created all kinds of self-locking differential to evaluate self-locking differential of the main parameters, it is the locking factor. In order to improve the car passed, the greater factor seems to be locking better, but too much of the locking factor as mentioned earlier, not only for the vehicle to manipulate the light flexibility on the stability of the transmission of the load, tire wear and fuel consumption, there are different degrees of adverse effects, but does not help to further enhance the anti-slide wheel drive capability. Thus the design of the car through the high differential, they should correct choice of numerical locking. General cross-country vehicles with low-pressure tires attached to the ground for maximum coefficient of 0.7 to 0.8 (the dry asphalt or coagulating on the road), while the minimum is 0.1 to 0.2 (at the beginning of the melting ice). This shows that the difference between the attachment coefficient for the largest ratio of 8. Therefore, in order to make full use of vehicle traction, the locking differential coefficient K actually selected for the eight is enough. The car in the bad roads and areas. Another day on the practice shows that the drive wheels with the ground attached to different numerical coefficient ratio, generally no more than 3 to 4. So select the K =3 ~ 4 is the appropriate, in which case the adoption of the vehicle can be significantly improved, and its use to control such as performance is not deteriorating. Self-locking differential with the slider - Cam, worm-style, free wheel, and other means. 39 - -