JPS5939326B2 - Front axle suspension system for front wheel drive vehicles - Google Patents
Front axle suspension system for front wheel drive vehiclesInfo
- Publication number
- JPS5939326B2 JPS5939326B2 JP51100030A JP10003076A JPS5939326B2 JP S5939326 B2 JPS5939326 B2 JP S5939326B2 JP 51100030 A JP51100030 A JP 51100030A JP 10003076 A JP10003076 A JP 10003076A JP S5939326 B2 JPS5939326 B2 JP S5939326B2
- Authority
- JP
- Japan
- Prior art keywords
- transmission case
- transmission
- front wheel
- shaft
- front axle
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60G—VEHICLE SUSPENSION ARRANGEMENTS
- B60G3/00—Resilient suspensions for a single wheel
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Steering-Linkage Mechanisms And Four-Wheel Steering (AREA)
- Arrangement And Mounting Of Devices That Control Transmission Of Motive Force (AREA)
- Arrangement And Driving Of Transmission Devices (AREA)
- Vehicle Body Suspensions (AREA)
Description
【発明の詳細な説明】
この発明は前輪駆動車、例えば農用車輪型トラクタの前
車軸懸架装置に係り、前輪駆動型式であっても地上高を
充分に確保して、例えば畑地等での畦またぎに余裕を持
せ得るようにすると共に、後輪タイヤ寸法の変更に際し
、ある程度の対応ができるようにしたことを目的とする
。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a front axle suspension system for a front wheel drive vehicle, such as an agricultural wheel-type tractor, which ensures sufficient ground clearance even in the front wheel drive type, so that it can be used, for example, for straddling ridges in fields, etc. The purpose of the present invention is to provide a margin for the rear wheel tire size, and also to be able to respond to a certain extent when changing the rear tire dimensions.
最近、農用、土木建設用の車輪型ト′ラクタにおいて、
後輪を駆動すると共に前輪をも駆動する型式の所謂全輪
駆動トラクタが注目されている。Recently, in wheel-type tractors for agricultural and civil engineering construction,
2. Description of the Related Art So-called all-wheel drive tractors, which drive both the rear wheels and the front wheels, are attracting attention.
この全輪駆動トラクタは車体重量を効果的に利用するた
め、大きな牽引力が発揮できるし、登板力も増大する等
々の利点があるけれども、前輪を駆動させるために、前
輪デフ装置とか、減速装置を組込む関係上、地上高が低
くなると云う致命的な欠陥があり、この結果、畑地等に
おいて畦をまたいで作業する所謂管理作業等においては
、作物を損傷したりして減収を招いている。This all-wheel drive tractor uses the vehicle weight effectively, so it can exert a large tractive force and has the advantage of increasing climbing power, but in order to drive the front wheels, it incorporates a front wheel differential or speed reduction device. In this connection, there is a fatal flaw in that the height above the ground is lowered, and as a result, in so-called management work that involves working across ridges in fields, etc., crops are damaged and yields are reduced.
一方、管理作業を考慮する時、地上高を高くすればよい
けれども、平地作業の時には地上高を低くすることが有
利である。On the other hand, when considering management work, it is sufficient to increase the ground clearance, but when working on level ground, it is advantageous to lower the ground clearance.
この発明は上記のような実状に鑑みて案出されたもので
あって、前輪駆動車において地上高の変更を可能とした
装置を提供するものであり、特に、地上高の変更が容易
で、安定した支持を図ったものである。This invention has been devised in view of the above-mentioned circumstances, and provides a device that allows the ground clearance to be changed in a front-wheel drive vehicle. This is intended to provide stable support.
以下、図面に従って本発明の具体例を詳述すれば、全体
構成を示す第1図において、1はトラクタ機体、2は前
輪、3は後輪である。Hereinafter, a specific example of the present invention will be described in detail with reference to the drawings. In FIG. 1 showing the overall configuration, 1 is a tractor body, 2 is a front wheel, and 3 is a rear wheel.
4はエンジンで、機体の前部に搭載されている。4 is the engine, which is mounted at the front of the aircraft.
5は車体となるミッションケースで、エンジン4に連設
され適宜の変速機構を内有している。Reference numeral 5 denotes a transmission case serving as the vehicle body, which is connected to the engine 4 and includes an appropriate transmission mechanism.
エンジン4の回転動力はクラッチを介して断続され、ミ
ッションケース5内の変速機構を通じて後輪3に伝動可
能である。The rotational power of the engine 4 is intermittent via a clutch, and can be transmitted to the rear wheels 3 via a transmission mechanism within a transmission case 5.
6はギヤボックスで、この中には後輪用の伝達系のギヤ
と選択自在のチェンジギヤが内有され、このギヤ同志を
噛合させると推進軸7が駆動される。Reference numeral 6 denotes a gear box, which contains gears for a transmission system for the rear wheels and a selectable change gear, and when these gears are brought into mesh with each other, the propulsion shaft 7 is driven.
推進軸7はミッションケース5の下腹に沿って前方に延
び、前輪用デフ装置に連動自在である。The propulsion shaft 7 extends forward along the lower belly of the transmission case 5, and can be freely interlocked with a front wheel differential device.
第2図・第3図を参照すると、前車軸8の一端部の詳細
が図解されている。Referring to FIGS. 2 and 3, details of one end of the front axle 8 are illustrated.
前車軸8はその中央部付近にデフ装置を備え、車体に対
して所謂センターピン方式で揺動自在に懸架されている
。The front axle 8 is provided with a differential device near its center and is swingably suspended from the vehicle body using a so-called center pin system.
前車軸8は筒状でデフ装置より左右一対あて両側方に派
出されている。The front axle 8 is cylindrical and extends from the differential device into a pair of left and right abutments on both sides.
前車軸8の中には外端部にベベルピニオン9を固設した
伝動軸10が軸受8a等で内有支架され、この伝動軸1
0は実質的にデフヨーク軸である。Inside the front axle 8, a transmission shaft 10 having a bevel pinion 9 fixed to its outer end is supported internally by bearings 8a, etc.
0 is essentially the differential yoke axis.
11は第1伝動ケースで、前車軸8の各外端部にフラン
ジ接合等で固設されている。A first transmission case 11 is fixed to each outer end of the front axle 8 by flange connection or the like.
12は第2伝動ケースで、前輪バブ軸13が軸受14を
介して横軸廻りに回動すべく支架され、この前輪バブ軸
13のフランジ15に前輪ディスク(図示せず)が固設
され、第2図1.IIで示す如く伝動軸10と前輪バブ
軸13は概ねその軸芯を同一としている。Reference numeral 12 denotes a second transmission case, in which a front wheel bubble shaft 13 is supported to rotate around a horizontal axis via a bearing 14, and a front wheel disk (not shown) is fixed to a flange 15 of this front wheel bubble shaft 13. Figure 2 1. As shown by II, the transmission shaft 10 and the front wheel hub shaft 13 have approximately the same axis.
16はキングピンとなるベベルピニオン軸で、その上端
部がスラスト軸受17によって第1伝動。Reference numeral 16 denotes a bevel pinion shaft serving as a kingpin, the upper end of which provides first transmission through a thrust bearing 17.
ケース11に軸支され、そのピニオン軸16を縦向姿勢
となし、下端部の上・下2箇所をスラスト軸受1B、1
9にて第2伝動ケース12の張出ケース部20に軸支し
ている。It is pivotally supported by the case 11, with its pinion shaft 16 in a vertical position, and two thrust bearings 1B and 1 at the top and bottom of the lower end.
It is pivotally supported at 9 to the projecting case portion 20 of the second transmission case 12.
ピニオン軸16の中間にベベルピニオン9に対して下方
より噛合するベベルギヤ21をスプライン結合し、この
ギヤ21の下端部にスラスト軸受22を設けている。A bevel gear 21 that meshes with the bevel pinion 9 from below is spline-coupled to the middle of the pinion shaft 16, and a thrust bearing 22 is provided at the lower end of the gear 21.
前輪バブ軸13には減速用ベベルギヤ23が固設され、
このベベルギヤ23に対して下方より噛合するベベルギ
ヤ24が上記のスラスト軸受18゜19にて保持され、
このベベルギヤ24に対してベベルピニオン軸16の下
端部がスプライン結合されている。A deceleration bevel gear 23 is fixed to the front wheel bub shaft 13.
A bevel gear 24 that meshes with this bevel gear 23 from below is held by the above-mentioned thrust bearings 18 and 19,
A lower end portion of the bevel pinion shaft 16 is splined to the bevel gear 24 .
第1伝動ケース11の上端部には蓋体25が着設され、
この蓋体25にはベベルピニオン軸16と同一軸芯のピ
ン26が突出されている。A lid body 25 is attached to the upper end of the first transmission case 11,
A pin 26 that is coaxial with the bevel pinion shaft 16 protrudes from the lid body 25 .
このピン26に第2伝動ケース12の上張出しケースが
軸受27を介して保持されるが、この張出しケースは第
1伝動ケース側の筒状部28と、第2伝動ケース側の取
付座部29とに分割され、取付座部29は高さ方向に複
数個形成され、ボルト30にて着脱自在としている。The upper overhanging case of the second transmission case 12 is held by this pin 26 via a bearing 27, and this overhanging case has a cylindrical portion 28 on the first transmission case side and a mounting seat portion 29 on the second transmission case side. A plurality of mounting seats 29 are formed in the height direction, and are detachable using bolts 30.
即ち、高さ方向に図では2段形成した取付座部29は第
3図示のように前後に一対突出され、この座部29に穿
設したネジ孔29aに対してボルト30で締結自在の座
28aが筒状部28に形成されている。That is, a pair of mounting seats 29, which are formed in two stages in the height direction in the figure, project forward and backward as shown in the third figure, and can be fastened with bolts 30 to screw holes 29a formed in the seats 29. 28a is formed in the cylindrical portion 28.
31は第1伝動ケース11と第2伝動ケース12との取
合い部に封入したシーリング部材、32は第2伝動ケー
ス12の張出しケース部20より突出せしめた筒状部で
、この筒状部32はベベルピニオン軸16を包み、かつ
、第1伝動ケース11に対して内入すべく突出している
。31 is a sealing member sealed in the joint between the first transmission case 11 and the second transmission case 12; 32 is a cylindrical portion that protrudes from the overhanging case portion 20 of the second transmission case 12; It wraps around the bevel pinion shaft 16 and projects into the first transmission case 11 so as to be inserted therein.
第4図・第5図は本発明の他の具体例で、取付座部29
を高さ方向に連続させ、その取付は孔29aを高さ方向
に連続したものに形成している。4 and 5 show other specific examples of the present invention, in which the mounting seat 29
The holes 29a are continuous in the height direction, and the holes 29a are formed in a continuous manner in the height direction.
そして、ボルト30は着脱自在である。The bolt 30 is detachable.
前後一対の取付座29,29と座部28a 、28aと
の間に、筒状部28より突出した突座33を設け、第2
伝動ケース12には突座33と対応する突座34を設け
て上下で対面させ、この突座33,34同志をバンドル
35付のスクリューネジ棒36で連結している。A protruding seat 33 protruding from the cylindrical portion 28 is provided between the front and rear pair of mounting seats 29, 29 and the seat portions 28a, 28a.
The transmission case 12 is provided with a protrusion 34 corresponding to the protrusion 33 so as to face each other at the top and bottom, and the protrusion 33 and 34 are connected by a screw threaded rod 36 with a bundle 35 attached.
従って、第4,5図に示すものでは、ボルト30を取外
して、バンドル35を正逆双方に操作すると、ネジ棒3
6が高さ方向に進出動し、ここに、第1伝動ケース11
に対して第2伝動ケース12が高さ方向に無段に変化さ
れ、その調整後にボルト30を締結すればよい。Therefore, in the case shown in FIGS. 4 and 5, when the bolt 30 is removed and the bundle 35 is operated in both forward and reverse directions, the threaded rod 3
6 advances in the height direction, and here the first transmission case 11
In contrast, the second transmission case 12 can be changed steplessly in the height direction, and the bolts 30 can be fastened after the adjustment.
なお、第4,5図において、一方のバンドル35を操作
すれば左右一対の伝動ケースが上下動するようにしても
よく、その調整駆動力はシリンダで実施してもよい。In FIGS. 4 and 5, the pair of left and right transmission cases may be moved up and down by operating one of the bundles 35, and the adjustment driving force may be provided by a cylinder.
而して、第1図乃至第3図に示した本発明の第1具体例
によると、エンジン動力が後輪3に伝達される時、推進
軸7も連動すべくすると、前車軸8に内布した伝動軸1
0が駆動される。According to the first embodiment of the present invention shown in FIGS. 1 to 3, when the engine power is transmitted to the rear wheels 3, if the propulsion shaft 7 is also to be linked, the front axle 8 clothed transmission shaft 1
0 is driven.
この伝動軸10の動力は第1伝動ケース11および第2
伝動ケース12にて包まれた減速伝動機構を介して前輪
バブ軸13に伝達されて前輪2が転動される。The power of this transmission shaft 10 is transmitted to the first transmission case 11 and the second transmission case 11.
It is transmitted to the front wheel bub shaft 13 via the deceleration transmission mechanism wrapped in the transmission case 12, and the front wheel 2 is rolled.
つまり、ベベルピニオン9→ベベルギヤ21→ベベルピ
ニオン軸16→ベベルギヤ24→減速ギヤ23を至て前
輪バブ軸13が回転駆動される。That is, the front wheel bub shaft 13 is rotationally driven through the bevel pinion 9 → bevel gear 21 → bevel pinion shaft 16 → bevel gear 24 → reduction gear 23.
そして、前輪2に対して操舵力を付与すると、第1伝動
ケース11に対して第2伝動ケース12がベベルピニオ
ン軸16をキングピンとする縦軸廻りに旋回自在である
ため、前輪2は非前輪駆動と同様に操向輪となるのであ
る。Then, when a steering force is applied to the front wheels 2, the second transmission case 12 can freely turn around the vertical axis with the bevel pinion shaft 16 as a kingpin relative to the first transmission case 11. It serves as a steering wheel as well as a drive wheel.
而して、地上高の変更を必要とする時には、各ボルト3
0を取外して、高さ方向に異なる位置に取付座部29を
形成しているので、第1伝動ケース11の座部28aに
対して上段又は下段の取付座部29が対応すべく、第2
伝動ケース12を高さ方向に移動して再びボルト30で
締結するのであるがこれは次のようなことから頗る有利
となる。Therefore, when it is necessary to change the ground clearance, each bolt 3
0 is removed and the mounting seats 29 are formed at different positions in the height direction, so that the upper or lower mounting seat 29 corresponds to the seat 28a of the first transmission case 11.
The transmission case 12 is moved in the height direction and fastened again with the bolts 30, which is very advantageous for the following reasons.
即ち、前車輪8の端部にベベル伝動装置9゜21を内蔵
した第1伝動ケース11を固設し、ベベルピニオン軸1
6の下部を該ケース11より突出させてユニットに構成
する一方、第2伝動ケース12には減速装置24.23
を内蔵してユニットに構成し、前記第1伝動ケース11
と第2伝動ケース12の上下対向部を入れる構造32と
なし、ベベルピニオン軸16を第2伝動ケース12の減
速装置構成体24に挿抜自在に挿設支持するとともに、
第1伝動ケース11の上部で、車軸8の前後に取付部(
筒状部28)を設け、この取付部28.28を第2伝動
ケース12の上部に設けた取付座部29に高さ方向位置
変更固定自在に本例ではボルト30で固定していること
から、まず、ボルト30を外し、第1伝動ケース11を
含む車軸側のユニットと、第2伝動ケース12を含む車
輪側ユニットを相対的に高さ方向に移動せしめ、再びボ
ルト30で固定し、ここに車軸側ユニットを上下で両端
支持するのである。That is, a first transmission case 11 containing a built-in bevel transmission device 9° 21 is fixed to the end of the front wheel 8, and the bevel pinion shaft 1
6 is configured as a unit by protruding from the case 11, while the second transmission case 12 is equipped with a speed reducer 24, 23.
built into a unit, the first transmission case 11
and a structure 32 that accommodates the upper and lower opposing portions of the second transmission case 12, and supports the bevel pinion shaft 16 in a removable manner by inserting it into the reduction gear structure 24 of the second transmission case 12.
At the top of the first transmission case 11, there are mounting parts (
A cylindrical part 28) is provided, and this mounting part 28.28 is fixed to a mounting seat part 29 provided on the upper part of the second transmission case 12 with bolts 30 in this example so that the position in the height direction can be changed and fixed. First, remove the bolts 30, move the axle-side unit including the first transmission case 11 and the wheel-side unit including the second transmission case 12 relative to each other in the height direction, fix them again with the bolts 30, and then The axle side unit is supported at both ends at the top and bottom.
従って、第2図Iに示す体勢が常態であるとすれば、第
2図■に示すように取付けると符号Hで示すように地上
高が高くなる。Therefore, assuming that the position shown in FIG. 2I is the normal state, if it is installed as shown in FIG.
なお、符号Hの範囲で地上高の高低差が変更できるが、
この変更に当り、第2伝動ケース12の筒状部32の高
さと、ベベルピニオン軸j6とベベルギヤ24とのスプ
ライン結合長さIlj当然考慮される。Note that the height difference in ground clearance can be changed within the range of code H.
In making this change, the height of the cylindrical portion 32 of the second transmission case 12 and the spline connection length Ilj between the bevel pinion shaft j6 and the bevel gear 24 are naturally taken into account.
また、第4・5図のようにすれば、地上高の変更を段階
的でなく無段にできる。Furthermore, if the arrangement is as shown in Figures 4 and 5, the ground clearance can be changed steplessly rather than stepwise.
この発明は以上の通りであって、第1伝動ケースに対し
て第2伝動ケースを高さ方向に変更自在として取付は可
能であるから、地上高の変更が容易にできるし、従って
、前輪駆動車であっても、作業状況に応じた最適の地上
高を確保できる利点があるし、このように、前輪系の地
上高が変更できるので後輪タイヤを大巾に変更したとし
てもこれに対処できる利点がある。The present invention is as described above, and since the second transmission case can be attached to the first transmission case so as to be freely changeable in the height direction, the ground clearance can be easily changed, and therefore, the front wheel drive Even cars have the advantage of being able to secure the optimal ground clearance according to the work situation, and in this way, the ground clearance of the front wheels can be changed, so even if the rear tires are changed to wider widths, this can be handled. There are advantages that can be achieved.
又、車軸側の第1伝動ケースと、車輪側の第2伝動ケー
スにそれぞれ伝動装置と減速装置をユニットとして内蔵
しておき、このユニットで地上高を高さ方向位置変更固
定自在にするので、その変更が容易であるし、変更によ
って伝動装置と減速装置の狂いが生じることもない利点
がある。In addition, the first transmission case on the axle side and the second transmission case on the wheel side each incorporate a transmission device and a reduction gear device as a unit, and the ground clearance can be changed and fixed in the height direction with this unit. It has the advantage that it is easy to change, and that the change does not cause misalignment of the transmission device and reduction gear.
また、両ユニットは上下において支持されることから上
下の寸法を小にできて安定した支持を確保できるし、ま
た、上部の調整固定部は車軸の前後において実施できる
ので作業が極めて容易となる利点がある。In addition, since both units are supported at the top and bottom, the vertical dimensions can be made small and stable support can be ensured.Also, the adjustment and fixing part at the top can be installed at the front and rear of the axle, making the work extremely easy. There is.
第1図はトラクタの全体側面図、第2図I、lは本発明
の要部断面図、即ち第1図A−A線の拡大断面図で地上
高の高低前後を示し、第3図は第2図Iの部分平面図、
第4図は本発明の他側を示す要部外観図、第5図は第4
図の平面図である。
1・・・・・・トラック機体、2・・・・・・前輪、3
・・・・・・後輪、8・・・・・・前車軸、10・・・
・・・伝動軸、11・・・・・・第1伝動ケース、12
.、′・・・・・・第2伝動ケース、13・・・・・・
前□
輪バブ軸、16.・・・・・・ベベルピニオン軸、9・
・・・・・ベベルピニオン、21.24・・・・・・ベ
ベルギヤ、23・・・・・・減速ギヤ、28・・・・・
・筒状部、29・・・・・・取付座部、30・・・・・
・ボルト。FIG. 1 is an overall side view of the tractor, FIGS. 2 I and 2 are sectional views of the main parts of the present invention, that is, enlarged sectional views taken along line A-A in FIG. Partial plan view of FIG. 2 I,
FIG. 4 is an external view of the main parts showing the other side of the present invention, and FIG.
FIG. 1... Truck body, 2... Front wheel, 3
...Rear wheel, 8...Front axle, 10...
...Transmission shaft, 11...First transmission case, 12
.. ,'...Second transmission case, 13...
Front □ Wheel bub shaft, 16.・・・・・・Bevel pinion shaft, 9・
...Bevel pinion, 21.24...Bevel gear, 23...Reduction gear, 28...
・Cylindrical part, 29...Mounting seat part, 30...
·bolt.
Claims (1)
設した筒状の前車軸と;前輪バブ軸を横軸廻りに回転自
在として備え、第1伝動ケースに対して縦軸廻りに回動
自在として設けられた第2伝動ケースと;第1・2伝動
ケースで包囲され、伝動軸からの動力を前輪バブ軸に適
宜減速して伝達するための減速伝動機構と;から成り、
上記の前車軸を車体に懸架したものにおいて、前車軸に
固設した第1伝動ケースにベベルピニオン軸を縦向に支
持し、該ピニオン軸をケース下方に突出しかつ該ピニオ
ン軸を駆動する伝動装置を内蔵してユニットに構成し、
一方、第2伝動ケースに減速装置を内蔵してユニットに
構成し、第1伝動ケースと第2伝動ケースの上下対応部
を入れ子構造となし、ベベルピニオン軸を第2伝動ケー
スの減速装置構成体に挿抜自在に挿設支持するとともに
、第1伝動ケースの上部で、車軸の前後に取付部を設け
、この取付部を第2伝動ケースの上部に設けた取付座に
高さ方向位置変更固定自在に取付けたことを特徴とする
前輪駆動車の前車軸懸架装置。1 A cylindrical front axle having a transmission shaft inside and a first transmission case fixed to both ends; a front wheel bub shaft rotatable around a horizontal axis, and a front wheel shaft rotatable around a vertical axis with respect to the first transmission case; a second transmission case that is rotatably provided at the front wheel; a deceleration transmission mechanism that is surrounded by the first and second transmission cases and transmits the power from the transmission shaft to the front wheel bub shaft at an appropriate speed reduction;
In the above vehicle in which the front axle is suspended from the vehicle body, a transmission device that vertically supports a bevel pinion shaft in a first transmission case fixed to the front axle, projects the pinion shaft below the case, and drives the pinion shaft. built into the unit,
On the other hand, the second transmission case has a built-in speed reduction device and is configured as a unit, the vertical corresponding parts of the first transmission case and the second transmission case have a nested structure, and the bevel pinion shaft is connected to the speed reduction device structure of the second transmission case. At the same time, a mounting part is provided at the front and rear of the axle at the top of the first transmission case, and this mounting part can be fixed and changed in height direction to a mounting seat provided at the top of the second transmission case. A front axle suspension system for a front wheel drive vehicle, characterized in that it is attached to a front axle suspension system for a front wheel drive vehicle.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP51100030A JPS5939326B2 (en) | 1976-08-20 | 1976-08-20 | Front axle suspension system for front wheel drive vehicles |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP51100030A JPS5939326B2 (en) | 1976-08-20 | 1976-08-20 | Front axle suspension system for front wheel drive vehicles |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS5326020A JPS5326020A (en) | 1978-03-10 |
JPS5939326B2 true JPS5939326B2 (en) | 1984-09-22 |
Family
ID=14263126
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP51100030A Expired JPS5939326B2 (en) | 1976-08-20 | 1976-08-20 | Front axle suspension system for front wheel drive vehicles |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS5939326B2 (en) |
Families Citing this family (15)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS54119564A (en) * | 1978-03-09 | 1979-09-17 | Japan Styrene Paper Corp | Expandable composite resin particle and manufacture therefor |
DE2935916C3 (en) * | 1979-09-06 | 1994-12-15 | Bosch Gmbh Robert | Control device for drive systems of motor vehicles |
JPS57114041A (en) * | 1980-12-29 | 1982-07-15 | Fuji Heavy Ind Ltd | Magnetic clutch controlling device |
JPS5839821A (en) * | 1981-09-03 | 1983-03-08 | Mazda Motor Corp | Controller for automobile clutch |
JPS58146722A (en) * | 1982-02-24 | 1983-09-01 | Diesel Kiki Co Ltd | Clutch controller |
JPS58170924A (en) * | 1982-03-31 | 1983-10-07 | Aisin Seiki Co Ltd | Automatic clutch controller |
JPS58170920A (en) * | 1982-03-31 | 1983-10-07 | Aisin Seiki Co Ltd | Automatic clutch controller |
JPS6012316A (en) * | 1983-07-02 | 1985-01-22 | Iseki & Co Ltd | Final casing in farm tractor |
JPS6018846U (en) * | 1983-07-19 | 1985-02-08 | 日産ディーゼル工業株式会社 | Half clutch position detection device for vehicle clutch |
JPS60128008A (en) * | 1983-12-13 | 1985-07-08 | Yanmar Diesel Engine Co Ltd | Road clearance adjuster of front wheel drive vehicle |
JPS60128009A (en) * | 1983-12-15 | 1985-07-08 | Yanmar Diesel Engine Co Ltd | Road clearance adjuster of front wheel drive vehicle |
JPS60128010A (en) * | 1983-12-15 | 1985-07-08 | Yanmar Diesel Engine Co Ltd | Road clearance adjuster of front wheel drive vehicle |
JPS60154917A (en) * | 1984-01-24 | 1985-08-14 | Kubota Ltd | Power transmission structure for wheels of farm tractor |
JPS628432U (en) * | 1985-07-01 | 1987-01-19 | ||
CN109484481A (en) * | 2018-11-29 | 2019-03-19 | 江苏易咖新能源汽车有限公司 | A kind of dedicated knuckle of electric vehicle |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5427693Y2 (en) * | 1974-04-23 | 1979-09-07 |
-
1976
- 1976-08-20 JP JP51100030A patent/JPS5939326B2/en not_active Expired
Also Published As
Publication number | Publication date |
---|---|
JPS5326020A (en) | 1978-03-10 |
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