JP2651077B2 - Hydraulic actuator control device for earth moving machine - Google Patents
Hydraulic actuator control device for earth moving machineInfo
- Publication number
- JP2651077B2 JP2651077B2 JP712892A JP712892A JP2651077B2 JP 2651077 B2 JP2651077 B2 JP 2651077B2 JP 712892 A JP712892 A JP 712892A JP 712892 A JP712892 A JP 712892A JP 2651077 B2 JP2651077 B2 JP 2651077B2
- Authority
- JP
- Japan
- Prior art keywords
- hydraulic actuator
- lever
- change
- flow rate
- speed
- 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 - Fee Related
Links
Landscapes
- Fluid-Pressure Circuits (AREA)
- Operation Control Of Excavators (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は、例えばバックホー等の
土工機における油圧アクチュエータ制御装置に関し、詳
しくは、作業装置を油圧アクチュエータにより駆動する
よう構成するとともに、前記油圧アクチュエータの電磁
式比例流量制御弁の開度を、操作レバーの操作量に応じ
た電流を供給して比例制御する流量制御手段を備えてあ
る土工機における油圧アクチュエータ制御装置に関す
る。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydraulic actuator control device for an earth-moving machine such as a backhoe, and more particularly, to a hydraulic actuator for driving a working device and an electromagnetic proportional flow control valve of the hydraulic actuator. The present invention relates to a hydraulic actuator control device for an earthmoving machine having flow control means for proportionally controlling the opening degree of an operation lever by supplying a current according to the operation amount of an operation lever.
【0002】[0002]
【従来の技術】上記土工機における油圧アクチュエータ
制御装置において、従来では、前記操作レバーの全操作
領域に亘りその操作量に応じた流量が得られるよう前記
電磁式比例流量制御弁に制御電流を供給するよう構成
し、中立停止位置から高速作動側領域への操作、及び高
速作動側領域から減速側への操作の夫々において、同一
のほぼ直線状の変化操作特性となるよう構成されてい
た。2. Description of the Related Art Conventionally, in a hydraulic actuator control device for an earth moving machine, a control current is supplied to the electromagnetic proportional flow control valve so that a flow rate corresponding to the operation amount can be obtained over the entire operation area of the operation lever. The operation from the neutral stop position to the high-speed operation side region and the operation from the high-speed operation side region to the deceleration side have the same substantially linear change operation characteristics.
【0003】[0003]
【発明が解決しようとする課題】前記制御装置は、油圧
アクチュエータの制御のための油圧制御弁のスプールを
人為的に操作するのは、操作が重く、行い難い欠点があ
るために、このレバー操作を軽快に行えるようにするた
めに、操作レバーの操作量を電気信号に変換して、供給
電流に対応した開度に比例制御される電磁式比例流量制
御弁を用いて油圧アクチュエータを操作するよう構成し
たものである。ところが、上記従来構造においては、操
作レバーの加速側及び減速側の夫々における操作特性が
直線状であるから、例えば作業装置を所定高速状態で駆
動する操作位置から操作レバーを中立位置側に切り換え
操作する際、前記制御弁の応答遅れや大重量の作業装置
の移動慣性力等に起因して操作レバーの操作感覚よりも
作業装置の減速作動が遅れ気味になることがあり、又、
作業装置を正確な位置で停止させたいような場合であっ
ても、中立位置付近においても、ほぼ直線的な変化特性
であるから、停止位置の微調節操作が行い難い欠点もあ
り、改善の余地があった。本発明は上記不具合点を解消
することを目的としている。In the above-mentioned control device, the operation of the spool of the hydraulic control valve for controlling the hydraulic actuator is disadvantageously heavy and difficult to operate. In order to make the operation easier, the operation amount of the operation lever is converted into an electric signal, and the hydraulic actuator is operated using an electromagnetic proportional flow control valve that is proportionally controlled to the opening corresponding to the supply current. It is composed. However, in the above-described conventional structure, since the operation characteristics of the operation lever on the acceleration side and the deceleration side are linear, for example, the operation lever is switched from the operation position of driving the working device at a predetermined high speed state to the neutral position side. When doing, due to the response delay of the control valve or the moving inertia force of the heavy working device, the deceleration operation of the working device may be delayed more than the operation feeling of the operating lever,
Even when it is desired to stop the work equipment at an accurate position, even in the vicinity of the neutral position, since the change characteristics are almost linear, there is a disadvantage that it is difficult to perform a fine adjustment operation of the stop position, and there is room for improvement. there were. An object of the present invention is to eliminate the above disadvantages.
【0004】[0004]
【課題を解決するための手段】本発明の特徴構成は、冒
頭に記載した土工機における油圧アクチュエータ制御装
置において、前記操作レバーの操作速度増大側の操作に
おける操作量と前記電磁式比例流量制御弁の流量との変
化特性をほぼ直線的に変化するよう設定するとともに、
前記操作レバーの操作速度減速側の操作における操作量
と前記電磁式比例流量制御弁の流量との変化特性におい
て、前記操作レバーの変化に伴う前記流量の変化率が低
速作動側が高速作動側よりも緩やかに変化する特性に設
定してある点にある。According to a feature of the present invention, there is provided a hydraulic actuator control apparatus for an earth-moving machine described at the outset, wherein an operation amount in an operation on an operation speed increasing side of the operation lever and the electromagnetic proportional flow control valve are controlled. While setting the change characteristics with the flow rate to change almost linearly,
In a change characteristic of the operation amount in the operation on the operation speed deceleration side of the operation lever and the flow rate of the electromagnetic proportional flow control valve, the rate of change of the flow rate due to the change of the operation lever is such that the low-speed operation side is higher than the high-speed operation side. The point is that the characteristic is set to change slowly.
【0005】[0005]
【作用】作業装置を停止状態から駆動作動側に操作レバ
ーを切り換え操作する場合には、その操作量に対応して
ほぼ直線的に油圧アクチュエータに対する圧油流量が変
化していくので、操作途中で急激に速度が変化したりす
ることがなく、操縦者の操作感覚に適応した滑らかな加
速作動が行える。そして、操作レバーが駆動作動領域に
設定され作業装置が駆動されている状態から減速側に操
作する場合には、作業装置が比較的高速で駆動される操
作域では、操作レバーの操作位置の変化に伴う流量の変
化特性が比較的急傾斜であるから作業装置の慣性力や制
御弁の応答遅れ等による過剰作動を抑制するよう作用
し、作業装置の作動が極力レバー操作に適応したものに
できる。そして、比較的低速で駆動される操作域では、
前記変化特性が比較的緩やかであるから、停止位置の位
置合わせのための微調節操作が行い易いものとなる。When the operation lever is switched from the stopped state to the drive operation side, the hydraulic oil flow rate to the hydraulic actuator changes almost linearly in accordance with the operation amount. The speed does not suddenly change, and a smooth acceleration operation adapted to the operational feeling of the driver can be performed. When the operating lever is set in the drive operation area and the operating device is operated to the deceleration side in a state where the operating device is driven, the operating position of the operating lever is changed in an operating region where the operating device is driven at a relatively high speed. Since the change characteristics of the flow rate associated with are relatively steep, it acts to suppress excessive operation due to the inertia force of the working device and the response delay of the control valve, etc., and the operation of the working device can be adapted to the lever operation as much as possible. . And in the operation range driven at relatively low speed,
Since the change characteristic is relatively gentle, a fine adjustment operation for positioning the stop position can be easily performed.
【0006】[0006]
【発明の効果】従って、電気制御式油圧制御弁を用いて
レバー操作が軽快に行える利点を有しながら、操作レバ
ーによる流量制御特性を合理的に設定することで、作業
装置の駆動状況を極力、操縦者のレバー操作感覚に適応
したものに合致させることが可能となり、操作性に優れ
た油圧アクチュエータの制御装置を提供できるに到っ
た。Accordingly, while having the advantage that the lever operation can be performed lightly using the electric control type hydraulic control valve, the driving condition of the working device can be minimized by setting the flow control characteristic by the operation lever rationally. Thus, it is possible to provide a control device for a hydraulic actuator which is excellent in operability, so that the control device can be adapted to one adapted to the operator's lever operation feeling.
【0007】[0007]
【実施例】以下、実施例を図面に基いて説明する。図4
に土工機の一例としてのバックホーを示している。この
バックホーは、クローラ走行装置1を備えた走行機台2
に旋回用油圧モータMの駆動により縦軸芯周りで全旋回
自在に旋回台3を搭載するとともに、旋回台3にバック
ホー装置4〔作業装置の一例〕を連結し、走行機台2に
ドーザ装置5を備えて構成してある。前記バックホー装
置4は、旋回台3に横軸芯周りで上下揺動自在に枢支さ
れるブーム6にアーム7、バケット8を枢支連結すると
ともに、夫々をブームシリンダC1、アームシリンダC
2、バケットシリンダC3により駆動揺動して掘削作業
を行えるよう構成してある。又、ブーム6は、基端部6
a、中間部6b及び先端部6cに3分割され、夫々を縦
軸芯周りで枢支連結するとともに、基端部6aと先端部
6cとを中間部6bと平行なリンク9を介して枢支連結
し、オフセットシリンダC4により中間部6bを揺動駆
動することでバケット8が平行姿勢を維持しながら左右
方向に移動できるよう構成し、バケット8をブーム基端
部6aに対して横方向にオフセットして旋回台3上に格
納することで最大旋回径を小さくした状態で旋回作動で
きるよう構成してある。Embodiments will be described below with reference to the drawings. FIG.
Fig. 2 shows a backhoe as an example of an earth moving machine. The backhoe includes a traveling machine base 2 having a crawler traveling device 1.
The swivel 3 is mounted so as to be freely swivelable around the longitudinal axis by driving a hydraulic motor M for swivel, and a backhoe device 4 [an example of a working device] is connected to the swivel 3. 5 is provided. The backhoe device 4 pivotally connects an arm 7 and a bucket 8 to a boom 6 pivotally supported on a swivel 3 so as to be vertically swingable about a horizontal axis, and respectively connects a boom cylinder C1 and an arm cylinder C to each other.
2. It is configured so that the excavation work can be performed by swinging the drive by the bucket cylinder C3. Also, the boom 6 has a base end 6.
a, an intermediate portion 6b and a distal end portion 6c, each of which is pivotally connected around a vertical axis, and the base end portion 6a and the distal end portion 6c are pivotally connected via a link 9 parallel to the intermediate portion 6b. The bucket 8 is configured to be able to move in the left-right direction while maintaining the parallel posture by swinging and driving the intermediate portion 6b by the offset cylinder C4, and the bucket 8 is offset laterally with respect to the boom base end 6a. By being stored on the swivel table 3, the swing operation can be performed with the maximum swing diameter reduced.
【0008】油圧アクチュエータとしての前記ブームシ
リンダC1、アームシリンダC2、バケットシリンダC
3及び旋回油圧モータMの夫々は、旋回台3上に設けら
れた操縦部10に配設した十字揺動操作自在な左右一対
の操作レバー11により制御操作されるよう構成してあ
る。詳述すると、図1に示すように、前記各シリンダC
1,C2,C3及び旋回モータMは、夫々電磁式比例流
量制御弁Vにより油圧流量を制御するよう構成し、各操
作レバー11の夫々の操作方向における操作量を4個の
ポテンショメータPMにより検出して、この検出操作量
に基づいて制御装置12が各電磁式比例流量制御弁Vに
対する電流供給量を制御するよう構成してある。又、前
記オフセットシリンダC4は操作スイッチSWの操作に
より予め設定される流量を供給するよう構成されてい
る。前記制御装置12は、操作レバー11の操作量に応
じた電流を供給して電磁式比例流量制御弁Vの開度を比
例制御する流量制御手段Aを備え、操作レバー11の操
作速度増大側の操作における操作量と前記電磁式比例流
量制御弁Vの流量との変化特性をほぼ直線的に変化する
よう設定するとともに、前記操作レバー11の操作速度
減速側の操作における操作量と前記電磁式比例流量制御
弁Vの流量との変化特性において、前記操作レバー11
の変化に伴う前記流量の変化率が低速作動側が高速作動
側よりも緩やかに変化する特性に設定してある。以下、
制御装置12の制御作動について説明する。図2に制御
装置12による流量制御用フローチャートを示す。前記
ポテンショメータPMの出力を読み込み、この出力の変
化からレバー操作速度Xを演算する〔ステップ1,
2〕。そして、レバー操作が加速操作側か否かを判断
し、加速方向であれば、レバー操作量に対する油圧アク
チュエータへの圧油流量がほぼ直線的に変化するよう電
磁式比例流量制御弁Vに電流を供給するよう制御する
〔ステップ3,4〕。又、減速側への操作であれば、図
3に示すように、操作レバー11の変化に伴う前記流量
の変化率が低速作動側が高速作動側よりも緩やかに変化
する2次曲線特性となるよう予め設定された制御特性に
沿わせて電磁式比例流量制御弁Vに電流を供給する〔ス
テップ5,6〕。そして、上記したような加速側への操
作途中において、レバー操作が減速操作側に変更した場
合には、レバー操作速度Xが所定値a以上ある場合の
み、上記したような減速操作用変化特性に沿うよう流量
制御を切り換える。このとき、時間遅れの無い状態でそ
のまま特性を移動させると、急激な流量変化によりショ
ックが生じるので、このような特性切り換え時には、予
め定められるマップデータに基づいて所定時間を経過さ
せて徐々に流量を変化させるようにしてある〔ステップ
8〜10〕。又、同様にして、上記した減速側への操作
途中において、レバー操作が減速操作側に変更した場合
には、レバー操作速度Xが所定値a以上ある場合のみ、
上記したような直線的な変化特性に沿うよう予め定めら
れるマップデータに基づいて所定時間を経過させて徐々
に流量を変化させて流量制御を切り換える〔ステップ1
1,12〕。The boom cylinder C1, the arm cylinder C2, and the bucket cylinder C as hydraulic actuators
Each of the turning hydraulic motor 3 and the turning hydraulic motor M is configured to be controlled and operated by a pair of left and right operation levers 11 arranged on a control unit 10 provided on the turning table 3 and capable of performing a cross swing operation. More specifically, as shown in FIG.
1, C2, C3 and the swing motor M are each configured to control the hydraulic flow rate by an electromagnetic proportional flow control valve V, and the operation amount of each operation lever 11 in each operation direction is detected by four potentiometers PM. The control device 12 controls the amount of current supplied to each of the electromagnetic proportional flow control valves V based on the detected operation amount. The offset cylinder C4 is configured to supply a flow rate set in advance by operating the operation switch SW. The control device 12 includes a flow control unit A that supplies a current corresponding to the operation amount of the operation lever 11 to proportionally control the opening of the electromagnetic proportional flow control valve V. The change characteristic between the operation amount in the operation and the flow rate of the electromagnetic proportional flow control valve V is set to change substantially linearly, and the operation amount in the operation on the operation speed reduction side of the operation lever 11 and the electromagnetic proportional flow control valve V are set. In the characteristic of change with the flow rate of the flow control valve V, the operation lever 11
Is set such that the rate of change of the flow rate with the change of the speed changes more slowly on the low speed operation side than on the high speed operation side. Less than,
The control operation of the control device 12 will be described. FIG. 2 shows a flow chart for controlling the flow rate by the control device 12. The output of the potentiometer PM is read, and the lever operation speed X is calculated from the change in the output [Step 1,
2]. Then, it is determined whether or not the lever operation is on the acceleration operation side. If the lever operation is in the acceleration direction, the current is supplied to the electromagnetic proportional flow control valve V so that the pressure oil flow to the hydraulic actuator with respect to the lever operation amount changes almost linearly. Control is performed to supply (steps 3 and 4). If the operation is on the deceleration side, as shown in FIG. 3, the rate of change of the flow rate according to the change of the operation lever 11 has a quadratic curve characteristic in which the low-speed operation side changes more slowly than the high-speed operation side. An electric current is supplied to the electromagnetic proportional flow control valve V in accordance with a preset control characteristic [steps 5 and 6]. When the lever operation is changed to the deceleration operation side during the operation to the acceleration side as described above, only when the lever operation speed X is equal to or more than the predetermined value a, the deceleration operation change characteristic as described above is obtained. Switch the flow control to follow. At this time, if the characteristics are moved as they are without a time delay, a shock occurs due to a sudden change in the flow rate. Therefore, when such characteristics are switched, the flow rate is gradually increased by passing a predetermined time based on predetermined map data. Is changed [Steps 8 to 10]. Similarly, when the lever operation is changed to the deceleration operation side during the operation to the deceleration side, only when the lever operation speed X is equal to or more than the predetermined value a,
The flow rate control is switched by gradually changing the flow rate after a predetermined time has elapsed based on the map data determined in advance so as to follow the above-described linear change characteristic [Step 1
1,12].
【0009】尚、特許請求の範囲の項に図面との対照を
容易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。In the claims, reference numerals are provided to facilitate comparison with the drawings, but the present invention is not limited to the configuration shown in the attached drawings.
【図1】制御ブロック図FIG. 1 is a control block diagram.
【図2】制御フローチャートFIG. 2 is a control flowchart.
【図3】制御特性図FIG. 3 is a control characteristic diagram
【図4】バックホーの側面図FIG. 4 is a side view of the backhoe.
4 作業装置 11 操作レバー A 流量制御手段 V 電磁式比例流量制御弁 4 Working device 11 Operating lever A Flow control means V Electromagnetic proportional flow control valve
───────────────────────────────────────────────────── フロントページの続き (72)発明者 森下 勇太郎 大阪府堺市石津北町64番地 株式会社ク ボタ 堺製造所内 (56)参考文献 特開 平2−256901(JP,A) 特開 平4−297627(JP,A) ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Yutaro Morishita 64 Ishizukita-cho, Sakai-shi, Osaka Kubota Sakai Works Co., Ltd. (56) References JP-A-2-256901 (JP, A) JP-A-4- 297627 (JP, A)
Claims (1)
より駆動するよう構成するとともに、前記油圧アクチュ
エータの電磁式比例流量制御弁(V)の開度を、操作レ
バー(11)の操作量に応じた電流を供給して比例制御
する流量制御手段(A)を備えてある土工機における油
圧アクチュエータ制御装置であって、前記操作レバー
(11)の操作速度増大側の操作における操作量と前記
電磁式比例流量制御弁(V)の流量との変化特性をほぼ
直線的に変化するよう設定するとともに、前記操作レバ
ー(11)の操作速度減速側の操作における操作量と前
記電磁式比例流量制御弁(V)の流量との変化特性にお
いて、前記操作レバー(11)の変化に伴う前記流量の
変化率が低速作動側が高速作動側よりも緩やかに変化す
る特性に設定してある土工機における油圧アクチュエー
タ制御装置。The working device (4) is configured to be driven by a hydraulic actuator, and an opening of an electromagnetic proportional flow control valve (V) of the hydraulic actuator is adjusted according to an operation amount of an operating lever (11). What is claimed is: 1. A hydraulic actuator control device for an earthmoving machine comprising a flow control means (A) for supplying a current to perform proportional control, wherein an operation amount in an operation on an operation speed increasing side of the operation lever (11) is controlled by the electromagnetic proportional control. The change characteristic of the flow rate of the flow control valve (V) with respect to the flow rate is set so as to change substantially linearly, and the operation amount in the operation of the operation lever (11) on the operation speed reduction side and the electromagnetic proportional flow control valve (V In the change characteristic with respect to the flow rate, the change rate of the flow rate due to the change of the operation lever (11) is set to a characteristic in which the low-speed operation side changes more slowly than the high-speed operation side. Hydraulic actuator control device for earth moving machines.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP712892A JP2651077B2 (en) | 1992-01-20 | 1992-01-20 | Hydraulic actuator control device for earth moving machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP712892A JP2651077B2 (en) | 1992-01-20 | 1992-01-20 | Hydraulic actuator control device for earth moving machine |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH05195551A JPH05195551A (en) | 1993-08-03 |
JP2651077B2 true JP2651077B2 (en) | 1997-09-10 |
Family
ID=11657443
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP712892A Expired - Fee Related JP2651077B2 (en) | 1992-01-20 | 1992-01-20 | Hydraulic actuator control device for earth moving machine |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2651077B2 (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102535556A (en) * | 2012-01-09 | 2012-07-04 | 三一重工股份有限公司 | Excavator, and system and method for improving dynamic response characteristics of excavator |
JP2018188825A (en) * | 2017-04-28 | 2018-11-29 | 株式会社クボタ | Work machine |
US11186968B2 (en) | 2017-04-28 | 2021-11-30 | Kubota Corporation | Working machine |
-
1992
- 1992-01-20 JP JP712892A patent/JP2651077B2/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102535556A (en) * | 2012-01-09 | 2012-07-04 | 三一重工股份有限公司 | Excavator, and system and method for improving dynamic response characteristics of excavator |
CN102535556B (en) * | 2012-01-09 | 2014-11-19 | 三一重工股份有限公司 | Excavator, and system and method for improving dynamic response characteristics of excavator |
JP2018188825A (en) * | 2017-04-28 | 2018-11-29 | 株式会社クボタ | Work machine |
US11186968B2 (en) | 2017-04-28 | 2021-11-30 | Kubota Corporation | Working machine |
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JPH05195551A (en) | 1993-08-03 |
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