JPH0579035A - Accuracy error correction device for rotaty vertical spindle in multispindle excavator - Google Patents
Accuracy error correction device for rotaty vertical spindle in multispindle excavatorInfo
- Publication number
- JPH0579035A JPH0579035A JP7094192A JP7094192A JPH0579035A JP H0579035 A JPH0579035 A JP H0579035A JP 7094192 A JP7094192 A JP 7094192A JP 7094192 A JP7094192 A JP 7094192A JP H0579035 A JPH0579035 A JP H0579035A
- Authority
- JP
- Japan
- Prior art keywords
- excavator
- pressing
- pressing means
- rotary
- multispindle
- 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.)
- Granted
Links
Landscapes
- Bulkheads Adapted To Foundation Construction (AREA)
- Pit Excavations, Shoring, Fill Or Stabilisation Of Slopes (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、多軸掘削機において掘
削する途中回転縦軸の垂直精度の誤差を修正するための
技術に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a technique for correcting an error in vertical accuracy of a rotating vertical axis during excavation in a multi-axis excavator.
【0002】[0002]
【従来の技術】ソイルセメント連続壁などを施工するに
当たって多軸掘削機が知られている。この多軸掘削機は
掘削していくと回転縦軸間が拡がったり、縮まったり
し、また回転縦軸が傾いたりして正確な掘削ができにく
いという問題があった。このため特公昭55ー9978
号公報に示すように複数本の回転縦軸同士を連結装置に
より回転自在に連結するものが知られている。ところが
このように連結装置によって複数本の回転縦軸を連結す
ると回転縦軸同士の間隙が拡がったり、狭まったりする
のは防止できるが、依然として回転縦軸が傾いた場合の
修正はできないという問題がある。2. Description of the Related Art A multi-axis excavator is known for constructing a soil cement continuous wall. This multi-axis excavator has a problem in that it is difficult to perform accurate excavation as the vertical axis of rotation expands or contracts as the vertical axis is expanded and the vertical axis of rotation tilts. For this reason, Japanese Patent Publication Sho 55-9978
As shown in Japanese Patent Laid-Open Publication No. 2004-242, there is known one in which a plurality of rotating vertical axes are rotatably connected by a connecting device. However, when a plurality of rotary ordinates are connected by the connecting device in this manner, it is possible to prevent the gap between the rotary ordinates from expanding or narrowing, but there is still a problem that the correction cannot be made when the rotary ordinates are inclined. is there.
【0003】また、掘削機における傾斜制御をする装置
として実開昭54ー24901号公報が知られている。
この従来例にあっては、掘削機本体の両側面から掘削機
本体と平行な上下に長い板状の傾斜制御板がジャッキに
より掘削機本体と直角方向に突出自在となっている。と
ころが、この従来例にあっては、修正に当たりそり状の
上下に長い板状の傾斜制御板が掘削機本体に対して直角
方向に突出して上下に長い板状の傾斜制御板が上下に長
い面状態で孔壁に強く押されて孔壁に食い込むようにな
り、掘削機本体の下方への掘進に対しての大きな抵抗と
なるという問題がある。Further, Japanese Utility Model Laid-Open No. 54-24901 is known as a device for controlling the inclination of an excavator.
In this conventional example, a vertically long plate-like tilt control plate parallel to the excavator body is projectable from both sides of the excavator body in a direction perpendicular to the excavator body by a jack. However, in this conventional example, when correcting, a slender vertically long plate-shaped tilt control plate protrudes at a right angle to the excavator main body and a vertically long plate-shaped tilt control plate is a vertically long surface. In this state, it is strongly pressed by the hole wall and bites into the hole wall, which causes a large resistance to the downward excavation of the excavator body.
【0004】[0004]
【発明が解決しようとする課題】本発明は上記の従来の
問題点に鑑みて発明したものであって、その目的とする
ところは、回転縦軸間の間隙が拡がったり、狭まったり
することがないのはもちろんのこと、回転縦軸が傾いた
場合における修正ができ、しかも、多軸掘削機の下方へ
の掘進に対しての大きな抵抗となることなく回転縦軸の
傾いた場合の修正ができる多軸掘削機における回転縦軸
の精度誤差修正装置を提供するにある。SUMMARY OF THE INVENTION The present invention has been made in view of the above problems of the prior art. The object of the present invention is to widen or narrow the gap between the rotating vertical axes. Needless to say, it can be corrected when the rotating vertical axis is tilted, and moreover, it can be corrected when the rotating vertical axis is tilted without a great resistance to the downward excavation of the multi-axis excavator. Another object of the present invention is to provide a precision error correction device for a rotating vertical axis in a multi-axis excavator.
【0005】[0005]
【課題を解決するための手段】上記目的を達成するた
め、本発明の多軸掘削機における回転縦軸の精度誤差修
正装置は、複数本の回転縦軸2を並設した多軸掘削機1
において、複数本の回転縦軸2同士を下部付近で連結装
置3により回転自在に連結し、連結装置3に孔壁4に押
圧自在となった押圧手段5を複数設けると共に複数の押
圧手段5の押圧方向を異ならせ、上記押圧手段5を油圧
ジャッキ11により移動自在となった回転ローラ12に
より構成して成ることを特徴とするものであって、この
ような構成を採用することで、上記した従来例の問題点
を解決して本発明の目的を達成したものである。In order to achieve the above-mentioned object, a precision error correcting device for a rotary axis of a multi-axis excavator according to the present invention is a multi-axis excavator 1 having a plurality of rotary axes 2 arranged in parallel.
In the above, a plurality of rotating vertical shafts 2 are rotatably connected by a connecting device 3 near the lower part, and the connecting device 3 is provided with a plurality of pressing means 5 which can be pressed against the hole wall 4 and at the same time, It is characterized in that the pressing means 5 is constituted by a rotating roller 12 which is movable by a hydraulic jack 11 in different pressing directions. The object of the present invention is achieved by solving the problems of the conventional example.
【0006】[0006]
【作用】しかして、上記のような構成の本発明によれ
ば、複数本の回転縦軸2を並設した多軸掘削機1におい
て、複数本の回転縦軸2同士を下部付近で連結装置3に
より回転自在に連結した構成とすることで、回転縦軸2
間の間隙が拡がったり、狭まったりするのを防止するよ
うになっている。また、連結装置3に孔壁に押圧自在と
なった押圧手段5を複数設けると共に複数の押圧手段5
の押圧方向を異ならせて、上記押圧手段5を油圧ジャッ
キ11により移動自在となった回転ローラ12により構
成してあることで、回転縦軸2が傾いた場合には、回転
ローラ12を孔壁4に押し付けながら掘進することで、
傾きを調整しながら抵抗なく掘進することができるよう
になったものである。According to the present invention having the above-described structure, however, in the multi-axis excavator 1 having a plurality of rotary ordinates 2 arranged side by side, the plurality of rotary ordinates 2 are connected to each other near the lower part. With the structure in which the rotary shaft 3 is rotatably connected,
It is designed to prevent the gap between them from expanding or narrowing. Further, the connecting device 3 is provided with a plurality of pressing means 5 that can be pressed against the hole wall, and a plurality of pressing means 5 are provided.
Since the pressing means 5 is constituted by the rotating roller 12 which is movable by the hydraulic jack 11 by changing the pressing direction of the rotating roller 12, the rotating roller 12 is fixed to the hole wall when the rotation vertical axis 2 is inclined. By digging while pressing on 4,
It is now possible to dig without resistance while adjusting the inclination.
【0007】[0007]
【実施例】以下本発明を実施例により詳述する。多軸掘
削機1は複数本の回転縦軸2を並設したものであって、
各回転縦軸2の下端にはビット6が設けてあり、また回
転縦軸2にはスクリュー部7、撹拌翼8等の撹拌手段9
が設けてある。複数本の回転縦軸2の下部同士は連結装
置3により回転自在に連結してある。すなわち連結装置
3の各軸受筒部10にそれぞれ回転縦軸2が回転自在に
嵌挿してある。この連結装置3は複数個設けてある。連
結装置3の両端部には前後方向(複数本の回転縦軸2の
並設方向と直交する方向を前後方向とする) にそれぞれ
油圧ジャッキ11によって前後方向に移動自在となった
回転ローラ12が設けてある。そしてこの油圧ジャッキ
11によって前後方向に移動自在となった回転ローラ1
2が押圧手段5となっている。しかして上記のような多
軸掘削機1によって地盤13を掘削していくのである
が、回転縦軸2が地盤13中で傾いた場合には複数個の
押圧手段5のうち必要とする押圧手段5で孔壁4を押圧
して回転縦軸2の姿勢を矯正しながら掘削していくもの
である。すなわち第4図の実施例のように油圧ジャッキ
11を作動させて回転ローラ12を孔壁4に押圧するの
である。例えば図4における回転縦軸2の下端を矢印イ
方向に向けるように矯正したい場合には回転ローラ12
a を矢印ロ方向に突出させて孔壁4に押圧させると共に
回転ローラ12b を矢印ハ方向に突出させて孔壁4に押
圧させると回転縦軸2の下端を図4イ方向に向けようと
する応力が生じるので、この状態で掘進すると回転縦軸
2の姿勢を矯正できるのである。この場合、押圧させた
回転ローラ12が孔壁4に沿って移動するので掘進に当
たっての支障とならない。回転縦軸2の姿勢が矯正でき
たら押圧手段5による孔壁4の押圧を解除して掘進する
ものである。ここで撹拌手段9としてスクリュー部7を
設けた場合、スクリュー部7の一部又は全部に掘削用チ
ップのような掘削手段21を設けておき、押圧手段5に
よって押圧されることでスクリュー部7の掘削手段21
が孔壁4を掘削しながら掘進することとなって、よりい
っそう回転縦軸2の姿勢矯正が簡単にできるものであ
る。ところで地盤13中において回転縦軸2の傾斜を検
知するには例えば次のようにしておこなう。すなわち図
5に示すように、回転縦軸2内に水を入れた水封入部1
5を設け、この水封入部15の底部中央にコード16の
下端を固着し、コード16の上端に浮き体17を固着
し、浮き体17の上面中央にレーザ光線発生部18を設
ける。そしてレーザ光線発生部18から上方に垂直に発
生するレーザ光線19を浮き体17の上方に配置したレ
ーザ光線受け盤20で受け、レーザ光線受け盤20の中
心o からx 方向、y 方向にどれだけずれているかを検出
し、このx 、y 方向のずれを解析して地盤13中におけ
る回転縦軸2の傾斜状態を調べ、これに基づいて押圧手
段5を動作させるようになっている。もちろん地盤13
中における回転縦軸2の傾斜を調べる方法は上記の実施
例にのみ限定されず、他の方法であってもよい。EXAMPLES The present invention will be described in detail below with reference to examples. The multi-axis excavator 1 has a plurality of rotating vertical axes 2 arranged in parallel,
A bit 6 is provided at the lower end of each rotating vertical axis 2, and the rotating vertical axis 2 has a stirring means 9 such as a screw portion 7 and a stirring blade 8.
Is provided. The lower parts of the plurality of rotary ordinates 2 are rotatably connected by a connecting device 3. That is, the rotary shaft 2 is rotatably fitted into each of the bearing tube portions 10 of the coupling device 3. A plurality of connecting devices 3 are provided. At both ends of the coupling device 3, there are rotary rollers 12 which are movable in the front-rear direction by hydraulic jacks 11 in the front-rear direction (the front-rear direction is a direction orthogonal to the direction in which the plurality of rotary ordinates 2 are arranged side by side). It is provided. The rotary roller 1 is movable in the front-rear direction by the hydraulic jack 11.
2 is the pressing means 5. Then, the ground 13 is excavated by the multi-axis excavator 1 as described above, but when the rotating vertical axis 2 is tilted in the ground 13, the necessary pressing means among the plurality of pressing means 5 is required. 5, the hole wall 4 is pressed to correct the posture of the rotary ordinate 2 and excavation is performed. That is, as in the embodiment of FIG. 4, the hydraulic jack 11 is operated to press the rotating roller 12 against the hole wall 4. For example, when it is desired to correct the lower end of the rotating vertical axis 2 in FIG.
When a is projected in the arrow B direction and pressed against the hole wall 4, and the rotary roller 12b is projected in the arrow C direction and pressed against the hole wall 4, the lower end of the rotary vertical axis 2 tends to be oriented in the direction of FIG. Since stress is generated, the posture of the rotating vertical axis 2 can be corrected by excavating in this state. In this case, since the pressed rotating roller 12 moves along the hole wall 4, it does not hinder the excavation. When the posture of the rotating vertical axis 2 is corrected, the pressing of the hole wall 4 by the pressing means 5 is released and the excavation is performed. When the screw part 7 is provided as the stirring means 9 here, the excavation means 21 such as an excavation tip is provided in a part or all of the screw part 7 and the screw part 7 is pushed by the pressing means 5. Excavation means 21
By excavating the hole wall 4 while excavating, the posture of the rotating vertical axis 2 can be corrected more easily. By the way, in order to detect the inclination of the rotating vertical axis 2 in the ground 13, for example, it is performed as follows. That is, as shown in FIG. 5, the water-filled portion 1 in which water is put in the rotating vertical axis 2.
5, the lower end of the cord 16 is fixed to the center of the bottom of the water enclosure 15, the floating body 17 is fixed to the upper end of the cord 16, and the laser beam generator 18 is provided at the center of the upper surface of the floating body 17. The laser beam 19 vertically generated upward from the laser beam generator 18 is received by the laser beam receiving plate 20 arranged above the floating body 17, and the laser beam receiving plate 20 receives from the center o of the laser beam receiving plate 20 in the x direction and the y direction. The displacement is detected, and the displacement in the x and y directions is analyzed to check the inclination state of the rotating vertical axis 2 in the ground 13, and the pressing means 5 is operated based on this. Ground 13 of course
The method for examining the inclination of the rotational axis 2 is not limited to the above-described embodiment, and other methods may be used.
【0008】なお上記実施例にあっては回転縦軸2で地
盤13を掘削する際に回転縦軸2の任意の位置又はビッ
トからセメントミルクのような固結用液を噴出し、セメ
ントミルクと掘削土砂とを撹拌手段9によって撹拌混合
して地盤13中に地中壁を形成するものであるが、本発
明はこれにのみ限定されず、撹拌手段9がなくて単に孔
を掘削するだけの場合、あるいは全長にスクリュー部を
設けて掘削土を排土する場合等も回転縦軸2の姿勢の制
御ができるものである。また撹拌手段9を設ける実施例
にあってはスクリュー部7のみの場合、撹拌翼8のみの
場合、あるいはスクリュー部7と撹拌翼8との両方を設
けた場合等種々設計変更可能である。In the above embodiment, when excavating the ground 13 with the vertical axis of rotation 2, a consolidating liquid such as cement milk is jetted from any position or bit of the vertical axis of rotation 2 to form cement milk. The excavated earth and sand are agitated and mixed by the agitating means 9 to form the underground wall in the ground 13, but the present invention is not limited to this, and the agitating means 9 is not provided and only a hole is simply excavated. In this case, or when the excavated soil is discharged by providing a screw portion along the entire length, the posture of the rotary ordinate 2 can be controlled. Further, in the embodiment in which the stirring means 9 is provided, various design changes can be made such as only the screw portion 7, only the stirring blade 8, or both the screw portion 7 and the stirring blade 8.
【0009】[0009]
【発明の効果】本発明にあっては、上述のように、複数
本の回転縦軸同士を下部付近で連結装置により回転自在
に連結してあるので、地盤中において回転縦軸の間の間
隙を一定巾に保つことができて、回転縦軸間の間隙が拡
がったり、狭まったりするのが防止できるものであり、
更に連結装置に孔壁に押圧自在となった押圧手段を複数
設けると共に複数の押圧手段の押圧方向を異ならせて、
上記押圧手段を油圧ジャッキにより移動自在となった回
転ローラにより構成してあるので、回転縦軸が地盤中で
傾いた場合には複数の押圧手段を構成する回転ローラの
うち任意の回転ローラで孔壁を転動しながら押圧するこ
とで簡単に回転縦軸の姿勢の矯正ができるものであり、
しかも、この場合、押圧手段が回転ローラで構成してあ
るので、回転ローラが孔壁に沿って転動しながら移動す
るので掘進に当たっての大きな抵抗とならず、掘進の支
障とならずに回転縦軸の姿勢の矯正ができるものであ
る。As described above, according to the present invention, since a plurality of rotating vertical axes are rotatably connected to each other in the vicinity of the lower portion by a connecting device, a gap between the rotating vertical axes in the ground is provided. Can be kept to a constant width, and it is possible to prevent the gap between the rotating vertical axes from expanding or narrowing.
Further, the connecting device is provided with a plurality of pressing means which can be pressed against the hole wall, and the pressing directions of the plurality of pressing means are made different,
Since the pressing means is composed of a rotating roller which is movable by a hydraulic jack, when the rotation vertical axis is tilted in the ground, any one of the rotating rollers forming the pressing means can be used as a hole. By pressing the wall while rolling it, you can easily correct the posture of the vertical axis of rotation.
In addition, in this case, since the pressing means is composed of the rotating roller, the rotating roller moves while rolling along the hole wall, so that there is no great resistance to the excavation, and there is no hindrance to the excavation. It can correct the posture of the shaft.
【図1】本発明の掘削機の正面図である。FIG. 1 is a front view of an excavator of the present invention.
【図2】同上の側面図である。FIG. 2 is a side view of the above.
【図3】同上の拡大正面図である。FIG. 3 is an enlarged front view of the above.
【図4】掘削を示す拡大側面図である。FIG. 4 is an enlarged side view showing excavation.
【図5】(a)(b)は同上の回転縦軸の垂直状態及び
傾いた状態のときの浮き体との関係を示す説明のための
斜視図である。5A and 5B are perspective views for explaining the relationship with the floating body in the vertical state and the inclined state of the rotary ordinate.
1 多軸掘削機 2 回転縦軸 3 連結装置 4 孔壁 5 押圧手段 11 油圧ジャッキ 12 回転ローラ DESCRIPTION OF SYMBOLS 1 Multi-axis excavator 2 Rotating vertical axis 3 Connecting device 4 Hole wall 5 Pressing means 11 Hydraulic jack 12 Rotating roller
Claims (1)
において、複数本の回転縦軸同士を下部付近で連結装置
により回転自在に連結し、連結装置に孔壁に押圧自在と
なった押圧手段を複数設けると共に複数の押圧手段の押
圧方向を異ならせて、上記押圧手段を油圧ジャッキによ
り移動自在となった回転ローラにより構成して成ること
を特徴とする多軸掘削機における回転縦軸の精度誤差修
正装置。1. In a multi-spindle excavator having a plurality of rotary ordinates arranged side by side, the plurality of rotary ordinates are rotatably connected to each other near a lower portion by a connecting device, and the connecting device can be pressed against a hole wall. Rotation in a multi-axis excavator, characterized in that a plurality of pressing means are provided and the pressing directions of the plurality of pressing means are made different, and the pressing means is constituted by a rotating roller movable by a hydraulic jack. Accuracy error corrector for vertical axis.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP7094192A JPH0647824B2 (en) | 1992-03-27 | 1992-03-27 | Precision error correcting device for rotating vertical axis in multi-axis excavator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP7094192A JPH0647824B2 (en) | 1992-03-27 | 1992-03-27 | Precision error correcting device for rotating vertical axis in multi-axis excavator |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP19745887A Division JPS6443619A (en) | 1987-08-07 | 1987-08-07 | Corrector for accuracy error of rotary vertical shaft in multispindle excavator |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH0579035A true JPH0579035A (en) | 1993-03-30 |
JPH0647824B2 JPH0647824B2 (en) | 1994-06-22 |
Family
ID=13446036
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP7094192A Expired - Fee Related JPH0647824B2 (en) | 1992-03-27 | 1992-03-27 | Precision error correcting device for rotating vertical axis in multi-axis excavator |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0647824B2 (en) |
-
1992
- 1992-03-27 JP JP7094192A patent/JPH0647824B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH0647824B2 (en) | 1994-06-22 |
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