JP2007063820A - Working implement angle detector of working machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a working implement angle detector of a working machine which can suppress contact with an obstacle to the utmost. <P>SOLUTION: In this working machine, the working implement 10 is rotatably provided at the tip of an arm 9; the tip of a piston rod 14 of a cylinder 13 for operating the working implement and the side surface of the arm 9 are connected to each other by a first link 15; and the tip of the piston rod 14 and the working implement 10 are connected to each other by a second link 16. The machine is characterized in that, a detector 19 is provided near the arm connecting part of the first link 15 on the side surface of the arm 9; a rotating shaft 25 of the detector 19 is provided with one end of a bent lever 26; and the other end of the bent lever 26 and the inside of the first link 15 are connected to each other by a link 28. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an angle detection device for a work tool provided at the tip of a multi-joint arm mechanism of a work machine.

  For example, in a working machine such as a hydraulic excavator, a range limiting function for restricting a work tool such as a bucket for excavation to go out of a preset area, a drilling function for moving along a preset area, a bucket, and the like Some of them employ a control method for maintaining the posture of the work tool.

  In order to realize this method, it is necessary to detect a relative angle between the boom, the arm, and the work tool in the work machine. As an apparatus for detecting this relative angle, there is an apparatus in which an angle detector such as a potentiometer is directly attached to each connecting portion of a boom, an arm, and a work tool (for example, see Patent Document 1).

Japanese Patent Laid-Open No. 8-189055

  The work machine having the above-described relative angle detection device takes in the relative angles between the boom, arm, and work tool from each detector, and the work tool provided at the tip of the arm by the control device is set to a set movement trajectory, for example. Along the movement control or the movement control to the set work location.

  In such a movement control of the work tool, among the above-described relative angle detection devices, the detection device that detects the angle of the boom or the arm is disposed on the main body side of the work machine rather than that of the work tool such as a bucket. So there are few opportunities to contact obstacles and work tools. However, the detection device for detecting the angle of the work tool such as a bucket is arranged so as to protrude from the side of the arm tip side in the vicinity of the work tool such as a bucket, as shown in Patent Document 1. There are many opportunities to come into contact.

  For this reason, it is conceivable to cover the exposed portion of the detector constituting the detection device with a solid cover. However, if configured in this way, the protruding height to the side of the detection device is increased, and work such as a bucket is performed. The opportunity for the tool to come into contact with the link for operation increases, which may hinder the rotation of the work tool.

  Therefore, a measure for eliminating the above-described detection device, detecting the stroke amount of the working tool operating cylinder, and detecting the angle of the working tool from this stroke amount is also conceivable. However, in this measure, the working tool operating cylinder Large processing is required, and there is a grudge that it becomes an expensive detection device.

  The present invention has been made based on the above-described matters, and an object thereof is to provide a work tool angle detection device for a work machine that can suppress contact with an obstacle as much as possible.

  In order to achieve the above object, according to a first aspect of the present invention, a working tool is rotatably provided at a tip of an arm, and a piston rod tip of a working tool operating cylinder and a side surface of the arm are connected by a first link. In the working machine in which the piston rod tip and the working tool are connected by a second link, a detector is provided in the vicinity of the arm connecting portion of the first link on the side of the arm, and the rotation shaft of the detector is provided. One end of a bent lever is provided, and the other end of the bent lever and the inside of the first link are connected by a third link.

  According to a second aspect of the present invention, a working tool is rotatably provided at the tip of the arm, the piston rod tip of the working tool operating cylinder and the side surface of the arm are connected by a first link, In a working machine connected to the work tool by a second link, a detector storage hole is provided in the vicinity of the arm connection portion of the first link on the side of the arm, and the detector is stored in the hole. A working machine characterized in that it is fixed to the side surface of the arm, one end of a lever is provided on the rotation shaft of the detector, and the other end of the lever and the inside of the first link are connected by a third link. It is in the work tool angle detection device.

  Furthermore, the third invention is the work tool of the working machine according to the first or second invention, wherein the first link, the lever, and the third link constitute a parallel link mechanism. In the corner detector.

  According to the present invention, since the detector of the work tool can be disposed at a position away from the tip of the arm on the side surface of the arm, contact with the work object and other obstacles can be suppressed. As a result, breakage of the detector can be prevented as much as possible, and the reliability of the detector can be improved, and workability such as a range limiting function by the work machine and maintenance of the posture of the work tool can be improved.

Embodiments of a work tool angle detection device for a work machine according to the present invention will be described below with reference to the drawings.
FIG. 1 is a perspective view of a work machine provided with an embodiment of a work tool angle detection device for a work machine according to the present invention. In FIG. 1, reference numeral 1 denotes a work machine. The work machine 1 includes a traveling body 2, a revolving body 3 that is turnably mounted on the traveling body 2, and a work that is installed on a front portion of the revolving body 3. The apparatus 4 is roughly configured.

  On the swivel body 3, there is a cab 5 provided on the left side of the front part thereof, a counterweight 6 provided on the rear part of the revolving body 3, and an engine room 7 provided between the counterweight 6 and the cab 5. It is installed.

  The work device 4 described above includes a boom 8 provided at the front portion of the swing body 3 so as to be able to move up and down, an arm 9 provided at the tip of the boom 8 so as to be rotatable, and a pivot at the tip of the arm 9. Work tool 10 provided (in this example, an excavation bucket is shown), a boom operation cylinder 11 provided between the swing body 3 and the boom 8, and an arm operation cylinder provided between the boom 8 and the arm 9. 12, a working tool operating cylinder 13 having a base end connected to the arm 9, a first link 15 connecting the tip of the piston rod 14 and the side surface of the arm 9, and the tip of the piston rod 14 The second link 16 is connected to the work tool 10.

  Detectors 17 that detect the relative angles of the connecting portion between the base portion of the boom 8 and the revolving structure 3 and the connecting portion between the boom 8 and the arm 9 are provided. Further, the working tool angle detection device 18 of the present invention is disposed in the vicinity of the arm connecting portion of the first link 15 on the side portion of the arm 9.

Details of one embodiment of the work tool angle detection device 18 of the present invention described above will be described with reference to FIGS. In these figures, the same reference numerals as those in FIG. 1 denote the same parts.
The detector 19 constituting the work tool angle detection device 18 includes a fixing flange 20 on the outer periphery of the main body. As shown in FIG. 3, the flange 20 is provided with bolt insertion holes 21 (three in this example) at intervals in the circumferential direction. A screw hole 22 is provided on the side surface of the arm 9 corresponding to the bolt insertion hole 21.

  The detector 19 passes the bolt 23 through the bolt insertion hole 21 of the flange 20 and the cylindrical spacer 24 interposed between the fixing flange 20 and the side surface of the arm 9, and the screw hole on the side surface of the arm 9. By being screwed into 22, the rotary shaft 25 is installed so as to be substantially orthogonal to the side surface of the arm 9 and located outside the side surface of the arm 9.

  One end of a bent lever 26 is fixed to the rotating shaft 25 of the detector 19 with a key and a screw. As shown in FIG. 3, the other end side of the lever 26 is bent so as to be positioned on the side surface side of the arm 9 from one end side of the lever 26 fixed to the rotating shaft 25.

  One end of a third link 28 is connected to the other end of the lever 26 by a connecting pin 27. The other end of the third link 28 is inserted between the first link 15 and the side surface of the arm 9 and connected to the inner surface side of the first link 15 by a connecting pin 29. In order to prevent the third link 28 from coming into contact with the connecting portion of the first link 15 when the work tool 10 is attracted to the lower surface side of the arm 9 (when the work tool is clouded), As shown in FIG. 2, the arm 9 is curved toward the upper surface side.

  Due to the connection configuration of the first link 15 and the lever 26 by the third link 28 described above, the center of the connection pins 27 and 29, the center of the rotation shaft 25 in the detector 19, and the arm 9 of the first link 15. The center of the connecting part is a vertex of a parallelogram, forming a parallel link mechanism.

  Next, the operation of the above-described working tool angle detection device for a working machine according to the present invention will be described.

  When the piston rod 14 of the working tool operating cylinder 13 is expanded and contracted, the working tool 10 rotates at the tip of the arm 9 via the first link 15 and the second link 16. At this time, the first link 15 also rotates. The amount of rotation of the first link 15 is transmitted to the rotating shaft 25 of the detector 19 via the third link 28 and the lever 26.

  Thereby, the detector 19 outputs the relative angle of the work tool 10 with respect to the arm 9 as an electric signal to the control device of the work machine. The control device captures this signal, calculates a state quantity related to the position and posture of the work device 4, operates the work tool 10 on a straight line, excavates the ground while keeping the work tool 10 at a constant angle, It performs posture maintenance control for leveling and range limit function control by work machines.

  When the work tool 10 of the work machine is controlled by the control device such as a range limiting function and the posture maintenance of the work tool, the work tool 10 approaches the work target and approaches an obstacle in the vicinity thereof. Since 19 is disposed on the side surface of the arm at a position away from the connection portion between the tip of the arm 9 and the work tool 10, damage due to contact with the work object or other obstacles is prevented as much as possible.

  Further, the other end of the lever 26 provided on the rotation shaft 25 of the detector 19 is bent so that the other end of the lever 26 is located on the side surface side of the arm 9, and the gap between the other end of the lever 25 and the first link 15 is set. Since the third link 28 connected to the side of the arm 9 is arranged on the side of the arm 9, the amount of the third link 28 protruding to the side of the arm 9 is reduced. As a result, it is possible to prevent the third link 28 from being damaged due to contact with the work object or other obstacles as much as possible.

  Further, the other side of the third link 28 is disposed between the inner surface of the first link 15 and the side surface of the arm 9 and does not protrude from the side of the outer surface of the first link 15. It is possible to further prevent the link 28 from being damaged due to contact with the work object or other obstacles.

  Further, even when a cover is attached to the detector 19 in order to protect the detector 19, the detector 19 is disposed on the side of the arm 9 at a position away from the connecting portion between the tip of the arm 9 and the work tool 10, In addition, since the amount of protrusion of the arm 9 to the outside of the side surface is suppressed, the amount of protrusion of the cover to the outside of the side surface of the arm 9 can be minimized, and the work object of the cover itself and other obstacles Can be prevented as much as possible.

FIG. 4 shows another embodiment of the work tool angle detection device for a work machine according to the present invention. FIG. 4 is a plan view of another embodiment of the work tool angle detection device for a work machine according to the present invention. is there. In these drawings, the same reference numerals as those in FIGS. 1 to 3 denote the same or corresponding parts.
In this embodiment, the counter-rotating shaft side portion of the detector 19 is inserted and housed in a detector insertion hole 30 provided on the side surface of the arm 9, and the flange 20 is fixed to the side surface of the arm 9 with a bolt 23. As a result, the detector 19 is fixed to the side surface of the arm 9. The tip of a lever 26 provided on the rotation shaft 25 of the detector 19 and the first link 15 are connected by a third link 28.

  According to this embodiment, the detector 19, the lever 26, and the third link 28 can be further arranged on the side surface side of the arm 9, so that the detector 19 and the third link 28 are further prevented from being damaged. can do.

  As described above, according to the embodiment of the present invention, it is possible to prevent damage to the link mechanism connected to the work tool detector 19 and the first link 15, so that the work tool angle detection device is reliable. In addition to the improvement, it is possible to suppress the interruption of control operations such as the range limiting function of the work machine and the maintenance of the posture of the work tool due to the damage of the work tool detection device, and the workability can be improved.

  In the above-described embodiment, a bucket is used as the work tool 10, but a work tool such as a crusher or a gripping claw can be used.

1 is a perspective view of a work machine including an embodiment of a work tool angle detection device for a work machine according to the present invention. It is a front view which shows one Embodiment of the working tool angle detection apparatus of the working machine of this invention. It is a top view of one Embodiment of the working tool angle detection apparatus of the working machine of this invention shown in FIG. It is a top view which shows other embodiment of the working tool angle detection apparatus of the working machine of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Working machine 4 Working device 8 Boom 9 Arm 10 Working tool 13 Working tool cylinder 14 Piston rod 15 First link 16 Second link 18 Working tool angle detection device 19 Detector 25 Detector rotation shaft 26 Lever 28 Third link

Claims (3)

A work tool is rotatably provided at the tip of the arm, the piston rod tip of the cylinder for working tool operation and the side surface of the arm are connected by a first link, and the piston rod tip and the work tool are connected to each other by a second link. In work machines connected by links,
A detector is provided near the arm connecting portion of the first link on the side of the arm, one end of a bent lever is provided on the rotation shaft of the detector, the other end of the bent lever and the first link A work tool angle detection device for a work machine, wherein the work tool angle detection device is connected to the inside of the work machine by a third link. A work tool is rotatably provided at the tip of the arm, the piston rod tip of the cylinder for working tool operation and the side surface of the arm are connected by a first link, and the piston rod tip and the work tool are connected to each other by a second link. In work machines connected by links,
A hole for accommodating the detector is provided near the arm connecting portion of the first link on the side surface of the arm, the detector is accommodated in the hole and fixed to the side surface of the arm, and a lever is mounted on the rotation shaft of the detector. One end is provided, The other end of the lever and the inner side of the first link are connected by a link.   The work tool angle detection device for a work machine according to claim 1 or 2, wherein a parallel link mechanism is configured by the first link, the lever, and the third link.

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