JPH07156675A - Drive control device for four-wheel driven work machine - Google Patents
Drive control device for four-wheel driven work machineInfo
- Publication number
- JPH07156675A JPH07156675A JP30244593A JP30244593A JPH07156675A JP H07156675 A JPH07156675 A JP H07156675A JP 30244593 A JP30244593 A JP 30244593A JP 30244593 A JP30244593 A JP 30244593A JP H07156675 A JPH07156675 A JP H07156675A
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- Japan
- Prior art keywords
- wheel
- speed
- rear wheel
- drive
- wheels
- 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.)
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- Motor Power Transmission Devices (AREA)
- Arrangement And Driving Of Transmission Devices (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、トラクタや田植機とい
った作業機に係り、詳しくは悪路走行や重負荷牽引走行
に好適な4輪駆動型作業機の駆動制御装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a working machine such as a tractor and a rice transplanter, and more particularly to a drive control device for a four-wheel drive type working machine suitable for traveling on rough roads and traveling under heavy load.
【0002】[0002]
【従来の技術】4輪駆動構造としては、特開平2‐28
022号公報で示されたもののように、駆動力をギヤ伝
動によって前輪及び後輪の双方のデフ機構に入力させる
ものが一般的であるが、例えば、図4に示すように、H
ST27通過後の動力をギヤ分配機構29によって前輪
用及び後輪用の両デフ機構28,5夫々に入力させる油
圧駆動構造のものもあった。2. Description of the Related Art Japanese Patent Application Laid-Open No. 2-28 discloses a four-wheel drive structure.
As shown in Japanese Laid-Open Patent Publication No. 022, the drive force is generally input to both the front and rear wheel diff mechanisms by gear transmission. For example, as shown in FIG.
There is also a hydraulic drive structure in which the power after passing through ST27 is input to both the front wheel and rear wheel differential mechanisms 28, 5 by a gear distribution mechanism 29.
【0003】[0003]
【発明が解決しようとする課題】ギヤ伝動構造では確実
な駆動力が前後輪に伝達できる点で優れ、油圧駆動構造
では無段変速動力が容易に取出せる4輪駆動手段として
有用であるが、いずれの構造でも小旋回時には不具合の
生じることがあった。つまり、旋回走行では、旋回半径
差から後輪と前輪との速度差が生じるが、前記いずれの
構造でも前輪周速度と後輪周速度が常に等速或いはほぼ
等速で駆動されるものであるために、前輪又は後輪がス
リップしながらの走行となっている。従って、特にそれ
が顕著となる小旋回時には、スリップや土押しによって
圃場を荒らすとか、4輪駆動の割りには小回りし難いと
いったことがあり、改善の余地が残されていた。The gear transmission structure is excellent in that a reliable driving force can be transmitted to the front and rear wheels, and the hydraulic drive structure is useful as a four-wheel drive means that can easily take out continuously variable power. In either structure, a problem may occur when making a small turn. That is, in turning, there is a difference in speed between the rear wheels and the front wheels due to the difference in turning radius, but in any of the structures described above, the peripheral speed of the front wheels and the peripheral speed of the rear wheels are always or substantially constant. Therefore, the front wheels or the rear wheels are running while slipping. Therefore, especially in a small turn where it becomes noticeable, there is a possibility that the field is roughened by slippage or earth pushing, and it is difficult to make a small turn for four-wheel drive, and there is room for improvement.
【0004】前記前者の公報に示されたものでは、前輪
の切れ角がある程度以上になると前輪の回転周速度が後
輪のそれよりも速くなるよう増速させることにより、対
地スリップ少なく小回りできるようにする技術も開示し
ているが、その前輪変速される条件は一義的なものであ
り、前述したスリップや土押しに対処できる範囲が限ら
れていた。本発明の目的は、4輪駆動構造の見直しによ
り、スリップや土押しによって旋回時に圃場を荒らすこ
とがより少なくなるようにする点にある。In the former publication, when the cutting angle of the front wheels exceeds a certain degree, the rotational peripheral speed of the front wheels is increased so as to be faster than that of the rear wheels, so that a small turn can be made with less slip on the ground. However, the condition for shifting the front wheels is unique, and the range in which the above-described slip and earth pushing can be dealt with is limited. An object of the present invention is to review the four-wheel drive structure so that slippage and earth pushing will lessen the damage to the field during turning.
【0005】[0005]
【課題を解決するための手段】上記目的の達成のために
本発明は、駆動後輪と操向前輪、左右の前輪を各別に駆
動可能な油圧モータ、これら油圧モータに圧油を供給す
る単一の油圧ポンプ、前輪の操舵量を検出する操舵角度
検出手段、後輪の駆動速度を検出する後輪速度検出手段
を夫々備えるとともに、前輪の対地スリップが生じない
状態に、後輪の駆動速度に基づいて油圧モータに対する
制御弁の操作量が調節設定されるよう、これら制御弁
と、操舵角度検出手段と、後輪速度検出手段とを連係す
る制御手段を備えてあることを特徴とする。In order to achieve the above object, the present invention provides a hydraulic motor capable of individually driving a rear drive wheel, a front steering wheel, and left and right front wheels, and a unit for supplying pressure oil to these hydraulic motors. One hydraulic pump, steering angle detecting means for detecting the steering amount of the front wheels, and rear wheel speed detecting means for detecting the driving speed of the rear wheels are provided respectively, and the driving speed of the rear wheels is adjusted so that the front wheels do not slip to ground. In order to adjust and set the operation amount of the control valve with respect to the hydraulic motor based on the above, the control valve, the steering angle detecting means, and the rear wheel speed detecting means are provided in a linked manner.
【0006】[0006]
【作用】上記特徴構成では、後輪の駆動速度を基準とし
て前輪の駆動速度を制御するものである。すなわち、直
進走行では前輪と後輪とを等速駆動し、旋回走行では前
輪と後輪の半径差に見合った分だけ前輪を増速駆動する
ように、前輪用油圧モータの駆動速度をコントロールす
るのである。旋回走行では、左右前輪の回転数差も吸収
できるようになる。つまり、左右の前輪回転数を独立し
て無段変速制御できるから、旋回時に後輪を基準として
た場合の前輪に必要な回転速度がその旋回半径の大小に
拘らずに得られ、スリップや土押しによる圃場の荒れな
く、または少なくしながら大なる駆動力が現出されるよ
うになる。又、例えば、ベルト無段変速装置を採用する
場合では、正逆転切換機構や中立現出機構が別途必要に
なるが、前輪の回転速度を油圧モータと比例制御弁で制
御する本願のものでは、別途の機構なく正転(前進)、
中立(停止又は後輪のみによる2輪駆動)、逆転(後
進)の現出ができる。In the above characteristic structure, the drive speed of the front wheels is controlled with reference to the drive speed of the rear wheels. That is, the driving speed of the hydraulic motor for the front wheels is controlled so that the front wheels and the rear wheels are driven at a constant speed in the straight traveling, and the front wheels are accelerated in an amount corresponding to the radius difference between the front wheels and the rear wheels in the turning traveling. Of. In turning, it also becomes possible to absorb the rotational speed difference between the left and right front wheels. In other words, since the left and right front wheel rotation speeds can be controlled independently of each other, the rotation speed required for the front wheels when the rear wheel is used as a reference during turning can be obtained regardless of the turning radius. A large driving force can be expressed without causing the field to become rough due to the pushing or reducing the field. Further, for example, when a belt continuously variable transmission is adopted, a forward / reverse rotation switching mechanism and a neutral appearance mechanism are separately required, but in the present invention in which the rotation speed of the front wheels is controlled by a hydraulic motor and a proportional control valve, Forward rotation (forward) without a separate mechanism,
Neutral (stop or two-wheel drive with only rear wheels) and reverse rotation (reverse) can appear.
【0007】[0007]
【発明の効果】その結果、旋回時に生じる前輪と後輪の
駆動速度差を、後輪を基準として前輪の回転速度を無段
に可変させる油圧制御構造により、伝動構造の簡素化を
図りながらスリップや土押しがない又は少なくなり、作
業機に好適な4輪駆動の走行状態が得られるようにでき
た。As a result, the hydraulic control structure that continuously changes the rotational speed of the front wheels with respect to the rear wheels to the drive speed difference between the front wheels and the rear wheels that occurs during turning makes slipping while simplifying the transmission structure. There was no or less soil pushing, and it was possible to obtain a four-wheel drive running condition suitable for a working machine.
【0008】[0008]
【実施例】以下に、本発明の実施例を、作業機の一例で
あるトラクタの場合について図面に基づいて説明する。
図1にトラクタの駆動系が示され、1は操向前輪、2は
駆動後輪、3はエンジン、4はギヤミッション、5は後
輪用デフ機構、6は単一の可変容量型の油圧ポンプ、
7,8は左右の前輪駆動用油圧モータ、9,10は左右
の電磁比例制御弁である。Embodiments of the present invention will be described below with reference to the drawings in the case of a tractor which is an example of a working machine.
The drive system of the tractor is shown in FIG. 1, 1 is a steering front wheel, 2 is a driving rear wheel, 3 is an engine, 4 is a gear transmission, 5 is a rear wheel diff mechanism, and 6 is a single variable displacement hydraulic pressure. pump,
Reference numerals 7 and 8 are left and right front wheel drive hydraulic motors, and 9 and 10 are left and right electromagnetic proportional control valves.
【0009】各油圧モータ7,8と各前輪1,1とはギ
ヤ減速機構11を介して連動され、各ギヤ減速機構11
夫々に該前輪1の回転速度を検出する前輪回転速度セン
サ12が設けてあり、又、油圧ポンプ6の回転数を検出
するポンプ回転検出センサ13とそのポンプ斜板の傾転
角を可変設定する電動アクチュエータ(ソレノイド、電
動シリンダ等)14とが設けてある。The hydraulic motors 7 and 8 and the front wheels 1 and 1 are interlocked via a gear reduction mechanism 11, and each gear reduction mechanism 11 is connected.
A front wheel rotation speed sensor 12 for detecting the rotation speed of the front wheel 1 is provided for each, and a pump rotation detection sensor 13 for detecting the rotation speed of the hydraulic pump 6 and a tilt angle of the pump swash plate are variably set. An electric actuator (solenoid, electric cylinder, etc.) 14 is provided.
【0010】又、図2に示すように、操縦ハンドル15
の回動量を検出する第1ポテンショメータ(操舵角度検
出手段に相当)16、ギヤミッション4の変速レバー1
7の操作位置を検出する第2ポテンショメータ(後輪速
度検出手段に相当)18、それから、図示しないパワー
ステアリング装置による前輪1の実際の切れ角を検出す
る切れ角センサ19が夫々備えてあり、これら第1、第
2ポテンショメータ16,18、切れ角センサ19と、
前述した前輪回転速度センサ12、ポンプ回転検出セン
サ13、電動アクチュエータ14、及び左右の電磁比例
制御弁9,10が制御手段20に接続されて駆動制御回
路Lが構成されている。Further, as shown in FIG. 2, the steering handle 15
First potentiometer (corresponding to steering angle detection means) 16 for detecting the amount of rotation of the gearshift lever 1 of the gear transmission 4
A second potentiometer (corresponding to rear wheel speed detecting means) 18 for detecting the operating position of 7 and a turning angle sensor 19 for detecting the actual turning angle of the front wheel 1 by a power steering device (not shown) are provided, respectively. The first and second potentiometers 16 and 18, the cutting angle sensor 19,
The drive control circuit L is configured by connecting the front wheel rotation speed sensor 12, the pump rotation detection sensor 13, the electric actuator 14, and the left and right electromagnetic proportional control valves 9 and 10 described above to the control means 20.
【0011】この駆動制御回路Lの機能は以下のようで
ある。すなわち、変速レバー17を操作して走行方向
(前進又は後進)と走行速度(例えば3段)を設定する
と、その情報が第2ポテンショメータ18から制御手段
20に伝達され、その情報と第1ポテンショメータ16
の情報とに基づいて、電動アクチュエータ14及び左右
の電磁比例制御弁9,10を操作して前輪の回転周速度
を制御するのである。The function of the drive control circuit L is as follows. That is, when the speed change lever 17 is operated to set the traveling direction (forward or reverse) and the traveling speed (for example, 3 speeds), the information is transmitted from the second potentiometer 18 to the control means 20, and the information and the first potentiometer 16 are transmitted.
Based on this information, the electric actuator 14 and the left and right electromagnetic proportional control valves 9 and 10 are operated to control the rotational peripheral speed of the front wheels.
【0012】直進時には、前輪1,1の回転周速度と後
輪2,2の回転周速度が一致するように制御される。例
えば、左右の制御弁9,10の開度を同量の半開状態に
設定しておき、油圧ポンプ6の吐出量調節で前輪1の回
転周速度を設定する。(制御弁9,10は全開とし、油
圧ポンプ6のみで前輪1の回転数を調節設定するもので
も良い。)When traveling straight ahead, the peripheral speeds of the front wheels 1 and 1 are controlled so that the peripheral speeds of the rear wheels 2 and 2 coincide with each other. For example, the opening amounts of the left and right control valves 9 and 10 are set to the same amount in a half open state, and the rotational peripheral speed of the front wheel 1 is set by adjusting the discharge amount of the hydraulic pump 6. (The control valves 9 and 10 may be fully opened, and the rotational speed of the front wheel 1 may be adjusted and set only by the hydraulic pump 6.)
【0013】右旋回時には、前輪1,1を後輪2,2よ
りも増速駆動させる。つまり、第2ポテンショメータ1
8の情報から前輪1,1と後輪2,2夫々の旋回半径が
算出され、前輪1,1に必要な回転周速度も算出され
る。左右の前輪1,1の相対半径差による駆動速度差は
左制御弁9の開度を若干増し、かつ、右制御弁10の開
度を若干減少するとともに、前後輪1,2の相対速度差
は電動アクチュエータ14によって油圧ポンプ6の吐出
量を増加させて対処する。(左制御弁9を全開のままに
して、右制御弁10の開度を減少させることで前輪1,
1の相対半径差を吸収し、油圧ポンプ6の吐出量をより
増加させるというものでも良い。)左旋回時には、上記
の右旋回時の場合の逆となる。尚、後輪2,2について
はデフ機構5によって、これらの相対速度差が吸収され
ることは言うまでもない。At the time of turning right, the front wheels 1, 1 are driven at a higher speed than the rear wheels 2, 2. That is, the second potentiometer 1
The turning radii of the front wheels 1 and 1 and the rear wheels 2 and 2 are calculated from the information of 8, and the rotational peripheral speeds required for the front wheels 1 and 1 are also calculated. The driving speed difference due to the relative radius difference between the left and right front wheels 1 and 1 slightly increases the opening degree of the left control valve 9 and slightly decreases the opening degree of the right control valve 10, and the relative speed difference between the front and rear wheels 1 and 2. Is handled by increasing the discharge amount of the hydraulic pump 6 by the electric actuator 14. (By keeping the left control valve 9 fully open and decreasing the opening degree of the right control valve 10, the front wheel 1,
It is also possible to absorb the relative radius difference of 1 and further increase the discharge amount of the hydraulic pump 6. ) When turning left, the above is the reverse of when turning right. Needless to say, the differential mechanism 5 absorbs the relative speed difference between the rear wheels 2 and 2.
【0014】切れ角センサ19は、パワーステアリング
装置における第2ポテンショメータ18に対するフィー
ドバック制御用として、そして、前輪回転速度センサ1
2は設定通りの回転速度が現出されているかのフィード
バック制御用として夫々機能させると好都合である。
又、図2に仮想線で示すように、前輪1のスリップ現象
を検出するスリップセンサ22を設け、上述した制御に
よる駆動回転速度でスリップした場合に、回転速度を減
じてそのスリップが解消されるようにすれば一層好都合
である。The turning angle sensor 19 is used for feedback control of the second potentiometer 18 in the power steering device, and the front wheel rotation speed sensor 1 is provided.
It is convenient to make 2 respectively function as feedback control for whether or not the rotation speed as set is expressed.
Further, as shown by a phantom line in FIG. 2, a slip sensor 22 for detecting the slip phenomenon of the front wheels 1 is provided, and when slipping occurs at the drive rotation speed under the control described above, the rotation speed is reduced and the slip is eliminated. This is more convenient.
【0015】つまり、このトラクタでは、後輪2をギヤ
ミッション4とデフ機構5で駆動し、その後輪2の駆動
速度を基準として前輪1の回転速度を可変制御させる4
輪駆動構造であり、旋回半径の大小に拘らずに、その旋
回によって生じる前後輪の速度差を補償できるようにし
てある。これにより、従来の一般的な4輪駆動構造のよ
うに、旋回走行時に前輪の回転周速度が計算上必要な回
転周速度より遅いことに起因して、後輪の駆動力で後押
しされるようになっての圃場でのスリップや土押し、或
いは舗装路での小旋回制動現象が生じる、ということが
解消されるようになるのである。That is, in this tractor, the rear wheels 2 are driven by the gear transmission 4 and the differential mechanism 5, and the rotational speed of the front wheels 1 is variably controlled with reference to the driving speed of the rear wheels 4.
It is a wheel drive structure and can compensate the speed difference between the front and rear wheels caused by the turning regardless of the turning radius. As a result, as in the case of a conventional general four-wheel drive structure, the rotational peripheral speed of the front wheels is slower than the rotational peripheral speed required for calculation during turning, so that the rear wheel is driven by the driving force of the rear wheels. It becomes possible to solve the problem that the slip and the pushing of the soil in the field, or the small turning braking phenomenon on the pavement occur.
【0016】〔別実施例〕図3に示すように、後輪2,
2も油圧駆動構造としたものに前述した駆動制御回路L
を適用させるのも良い。すなわち、後輪用油圧ポンプ2
1と後輪用油圧モータ24とを電磁比例制御弁25Aを
有したバルブユニット25を介して接続してあり、前輪
用の油圧モータ7,8と前輪用油圧ポンプ6とを電磁比
例制御弁9,10を有したバルブユニット26を介して
接続してある。この場合には、後輪2,2にもスリップ
センサ23を装備し、前後輪1,2のスリップを極力無
くして圃場が荒れないように駆動力を制御すれば好都合
である。又、無段変速機構であるHSTを介してエジン
動力を後輪2に伝達するようにした駆動構造のものでも
良い。[Other Embodiments] As shown in FIG. 3, the rear wheels 2,
2 also has a hydraulic drive structure, and the above-mentioned drive control circuit L
It is also good to apply. That is, the rear wheel hydraulic pump 2
1 and the rear wheel hydraulic motor 24 are connected via a valve unit 25 having an electromagnetic proportional control valve 25A, and the front wheel hydraulic motors 7 and 8 and the front wheel hydraulic pump 6 are connected to the electromagnetic proportional control valve 9. , 10 are connected via a valve unit 26. In this case, it is convenient to equip the rear wheels 2 and 2 with a slip sensor 23 and control the driving force so as to prevent the front and rear wheels 1 and 2 from slipping as much as possible so that the field is not roughened. Further, it may have a drive structure in which the engine power is transmitted to the rear wheels 2 via HST which is a continuously variable transmission mechanism.
【0017】操舵角度検出手段16としては、前輪1の
切れ角を直接検出する構造のものでも良く、又、後輪速
度検出手段18としては、実際に後輪2の回転速度やデ
フ機構5の回転速度を検出する構造のものでも良い。The steering angle detecting means 16 may have a structure for directly detecting the turning angle of the front wheels 1, and the rear wheel speed detecting means 18 may actually be the rotational speed of the rear wheels 2 or the differential mechanism 5. A structure that detects the rotation speed may be used.
【0018】ところで、前輪操向かつ後輪非操向構造で
は旋回走行時に各車輪の旋回半径が異なるのであるが、
本実施例では、「計算上必要となる回転周速度を前輪
に付与する手段」であり、舗装路等の車輪と路面とのス
リップを考慮しないで良い場合に成り立つものであると
ともに、小旋回制動現象が生じない点も好ましい。しか
しながら、田面等の軟弱地面では対地スリップによって
上記計算通りにはならないことが多いため、スリップセ
ンサ等によって計算上の回転周速度にさらに足し引きす
る等して、車輪がスリップなく対地グリップするように
駆動速度を補償する手段、つまり、「前輪が対地グリ
ップするように駆動速度をコントロールする手段」を採
れば路面の荒れを防ぐ点でさらに好都合である。By the way, in a front-wheel steering and rear-wheel non-steering structure, the turning radii of the wheels are different during turning.
In the present embodiment, "means for imparting the rotational peripheral speed required for calculation to the front wheels" is established when it is not necessary to consider the slip between the road surface such as the paved road and the road surface. It is also preferable that the phenomenon does not occur. However, on soft grounds such as rice fields, slippage to the ground often does not result in the above calculation.Therefore, a slip sensor, etc. should be added to the calculated rotational peripheral speed so that the wheels grip the ground without slipping. If a means for compensating the driving speed, that is, "a means for controlling the driving speed so that the front wheels grip the ground" is adopted, it is more convenient in that the road surface is prevented from being rough.
【0019】つまり、特許請求の項における「前輪1の
対地スリップが生じない状態に」という記載は、上記
,の手段のいずれも含む概念として定義する。That is, the description "in a state where the front wheel 1 does not slip to the ground" in the claims is defined as a concept including any of the above means.
【0020】尚、特許請求の範囲の項に図面との対照を
便利にするために符号を記すが、該記入により本発明は
添付図面の構成に限定されるものではない。It should be noted that reference numerals are added to the claims for convenience of comparison with the drawings, but the present invention is not limited to the configurations of the accompanying drawings by the entry.
【図1】トラクタ駆動系の構造を示す系統図FIG. 1 is a system diagram showing the structure of a tractor drive system.
【図2】駆動系の制御ブロック図FIG. 2 is a control block diagram of a drive system.
【図3】駆動系の別構造を示す系統図FIG. 3 is a system diagram showing another structure of a drive system.
【図4】従来の駆動系構造を示す系統図FIG. 4 is a system diagram showing a conventional drive system structure.
1 前輪 2 後輪 6 油圧ポンプ 7,8 油圧モータ 9,10 制御弁 16 操舵角度検出手段 18 後輪速度検出手段 20 制御手段 1 Front Wheel 2 Rear Wheel 6 Hydraulic Pump 7,8 Hydraulic Motor 9,10 Control Valve 16 Steering Angle Detection Means 18 Rear Wheel Speed Detection Means 20 Control Means
Claims (1)
の前輪(1),(1)を各別に駆動可能な油圧モータ
(7),(8)、これら油圧モータ(7),(8)に圧
油を供給する単一の油圧ポンプ(6)、前記前輪(1)
の操舵量を検出する操舵角度検出手段(16)、前記後
輪(2)の駆動速度を検出する後輪速度検出手段(1
8)を夫々備えるとともに、 前記前輪(1)の対地スリップが生じない状態に、前記
後輪(2)の駆動速度に基づいて前記油圧モータ
(7),(8)に対する制御弁(9),(10)の操作
量が調節設定されるよう、これら制御弁(9),(1
0)と、前記操舵角度検出手段(16)と、前記後輪速
度検出手段(18)とを連係する制御手段(20)を備
えてある4輪駆動型作業機の駆動制御装置。1. Steering front wheels (1) and driving rear wheels (2), left and right front wheels (1), (1) hydraulic motors (7), (8) capable of individually driving, and these hydraulic motors (7). ), (8) a single hydraulic pump (6) for supplying pressure oil, the front wheel (1)
Steering angle detecting means (16) for detecting the steering amount of the rear wheel, and rear wheel speed detecting means (1) for detecting the driving speed of the rear wheel (2).
8), and control valves (9) for the hydraulic motors (7), (8) based on the drive speed of the rear wheels (2) in a state where the front wheels (1) do not slip to ground. These control valves (9), (1) are set so that the operation amount of (10) is adjusted and set.
0), the steering angle detection means (16), and the control means (20) for linking the rear wheel speed detection means (18) with each other.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP30244593A JPH07156675A (en) | 1993-12-02 | 1993-12-02 | Drive control device for four-wheel driven work machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP30244593A JPH07156675A (en) | 1993-12-02 | 1993-12-02 | Drive control device for four-wheel driven work machine |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH07156675A true JPH07156675A (en) | 1995-06-20 |
Family
ID=17909026
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP30244593A Pending JPH07156675A (en) | 1993-12-02 | 1993-12-02 | Drive control device for four-wheel driven work machine |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH07156675A (en) |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2001097255A (en) * | 1999-10-01 | 2001-04-10 | Japan Science & Technology Corp | All terrain vehicle |
JP2006507789A (en) * | 2002-11-22 | 2006-03-02 | 本田技研工業株式会社 | Hybrid power unit |
EP1632381A3 (en) * | 2004-09-02 | 2006-04-05 | Kanzaki Kokyukoki Mfg. Co., Ltd. | Hydrostatic transaxle and hydraulically driven vehicle |
KR100660981B1 (en) * | 2000-11-14 | 2006-12-22 | 티씨엠 가부시키가이샤 | Hydraulically operated fork lift |
JP2009137480A (en) * | 2007-12-07 | 2009-06-25 | Kyoeisha Co Ltd | Hydraulic drive circuit of four-wheeled lawn mower |
CN103994110A (en) * | 2014-06-05 | 2014-08-20 | 中联重科股份有限公司 | Anti-slip control device, system and method and engineering machinery |
CN110744999A (en) * | 2019-10-28 | 2020-02-04 | 韩国昊 | Hydraulic differential control system for vehicle |
-
1993
- 1993-12-02 JP JP30244593A patent/JPH07156675A/en active Pending
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2001097255A (en) * | 1999-10-01 | 2001-04-10 | Japan Science & Technology Corp | All terrain vehicle |
KR100660981B1 (en) * | 2000-11-14 | 2006-12-22 | 티씨엠 가부시키가이샤 | Hydraulically operated fork lift |
JP2006507789A (en) * | 2002-11-22 | 2006-03-02 | 本田技研工業株式会社 | Hybrid power unit |
EP1632381A3 (en) * | 2004-09-02 | 2006-04-05 | Kanzaki Kokyukoki Mfg. Co., Ltd. | Hydrostatic transaxle and hydraulically driven vehicle |
JP2006097889A (en) * | 2004-09-02 | 2006-04-13 | Kanzaki Kokyukoki Mfg Co Ltd | Hydrostatic transaxle and hydraulically driven vehicle |
US8109355B2 (en) | 2004-09-02 | 2012-02-07 | Kanzaki Kokyukoki Mfg. Co., Ltd. | Hydrostatic transaxle and hydraulically driven vehicle |
JP2009137480A (en) * | 2007-12-07 | 2009-06-25 | Kyoeisha Co Ltd | Hydraulic drive circuit of four-wheeled lawn mower |
CN103994110A (en) * | 2014-06-05 | 2014-08-20 | 中联重科股份有限公司 | Anti-slip control device, system and method and engineering machinery |
CN103994110B (en) * | 2014-06-05 | 2016-03-09 | 中联重科股份有限公司 | Anti-slip control device, system and method and engineering machinery |
CN110744999A (en) * | 2019-10-28 | 2020-02-04 | 韩国昊 | Hydraulic differential control system for vehicle |
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