JP2008200791A - Chucking device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a workpiece chucking device which facilitates change of a mounting location of a chucking mechanism. <P>SOLUTION: According to the structure of the chucking device, while the chucking mechanism 18 is detached from a frame 8 and then held by a chucking detaching/attaching device 41, the frame 8 is rotated together with a support plate 5. Therefore positioning recesses 11b, 12b formed in the frame 8 at different locations are disposed at locations opposed to the chucking mechanism 18 held by the chucking detaching/attaching device 41. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a chuck device for a workpiece such as an automobile part.

  2. Description of the Related Art Conventionally, there has been known a robot in which a workpiece chuck device is provided at the tip of a robot arm. In addition, the shape of the workpiece is not constant, and the shape varies depending on the model. As a chuck device corresponding to such a workpiece, those disclosed in Patent Documents 1 and 2 are known.

  In Patent Document 1, a robot hand is constituted by an arm and a holding portion, and a cam groove extending in a radial direction from a central portion is formed on a plate rotatably supported on an end portion of the arm. By engaging the cam roller with the groove, the guide member can move in the radial direction, and the cam roller and the guide member engaged with the cam groove can move the plurality of work holding portions simultaneously while maintaining concentric circles. It has been proposed to eliminate the jig replacement work and greatly shorten the product changeover time.

  In Patent Document 2, a pair of workpiece gripping tools are movably provided along the guide rails of the robot hand frame, and the workpiece gripping tools are connected to each other by a connecting portion. A configuration in which the interval can be changed is disclosed.

JP 2004-261890 A JP 2005-014185 A

  In the mechanisms disclosed in Patent Documents 1 and 2 above, the mechanism is complicated because the variable mechanism of the chuck part is integrated with the robot, and the grip part is provided with the variable mechanism. It becomes heavy and is not suitable for transporting heavy objects. In addition, the conventional chuck device cannot cope with a large change in the shape of the workpiece, and a new chuck device must be manufactured.

  In order to solve the above problems, a chuck device according to the present invention includes a support plate attached to the tip of a robot arm so as to be rotatable integrally with the robot arm, and a chuck mechanism detachably attached to a frame fixed to the support plate. And a chuck detaching device for detaching the chuck mechanism with respect to the frame, wherein the frame is formed with a positioning recess for engaging with a position determining element of the chuck mechanism by a spring force of the spring, and the chuck The mechanism is provided with a clamp claw for holding a workpiece with the support plate and a drive device for opening and closing the clamp claw.

  Regarding the support plate that holds the workpiece between the clamp claws, a structure in which the support plate is attached to the tip of the robot arm via a guide rod and a resilient member is conceivable.

  Further, by forming a plurality of positioning recesses in the frame, the chuck mechanism can be engaged and held in an arbitrary recess.

According to the present invention, since the chuck mechanism can be separated from the robot, even if the shape of the workpiece changes greatly, it can follow it.
Further, since the chuck detaching device for separating the chuck mechanism is provided as a separate body from the robot holding the chuck mechanism, the structure of the robot itself can be simplified.
Furthermore, since the chuck mechanism itself is provided with a drive device that opens and closes the clamp pawl and the chuck mechanism is detachable from the frame on the robot side, the chuck mechanism functions independently, and the chuck mechanism is attached to different parts of the frame. Even if it is changed, it acts as a chuck mechanism.

  Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. FIG. 1 is a front view of a chuck device according to the present invention in a state of holding a workpiece, FIG. 2 is a view of the chuck device viewed from below, and FIG. 3 is a diagram showing the relationship between a support plate and a fixed substrate of the chuck device. FIG. 4 is an overall view of the chuck mechanism of the chuck device.

  In the figure, reference numeral 1 denotes a robot arm. A fixed substrate 2 is attached to the tip of the robot arm 1, and three receiving portions 3 are provided on the front surface of the fixed substrate 2, and a base of a guide rod 4 is provided on the receiving portion 3. The end is inserted, and the support plate 5 is fixed to the tip of the guide rod 4.

  A stopper 6 is fixed to the base end of the guide rod 4 inserted through the receiving portion 3, and a spring 7 is provided between the receiving portion 3 and the guide rod 4. When the support plate 5 comes into contact with the workpiece W, the guide rod 4 moves backward together with the support plate 5 so as to contract the spring 7 as shown in FIG.

  Frames 8, 9, and 10 are fixed around the support plate 5. These frames 8, 9, and 10 have a frame shape. Female taper-shaped positioning recesses 11a, 11b and 11c are formed on the outer side of the frame-shaped frame 8 to be engaged with a position determining element of the chuck mechanism which will be described later. Female tapered recesses 12a, 12b, 12c with which the pins engage are formed. Of these recesses, the recesses 11a and 12a make a pair, the recesses 11b and 12b make a pair, and the recesses 11c and 12c make a pair.

  Similarly, female taper-shaped positioning recesses 13a, 13b, 13c are formed on the outer side of the frame 9, and the positioning pins of the chuck mechanism are engaged on the inner side of the frame 9. Female tapered recesses 14a, 14b, and 14c are formed, and female tapered positioning recesses 15a, 15b, and 15c that engage with the position determiner of the chuck mechanism are formed on the outer side of the frame 10, and the frame 10 is formed with female tapered recesses 16a, 16b, and 16c for engaging the positioning pins of the chuck mechanism.

  Chuck mechanisms 18, 19, and 20 are detachably attached to the frames 8, 9, and 10, respectively. Since each chuck mechanism has the same structure, the chuck mechanism 18 will be described.

  The chuck mechanism 18 is provided with a bearing 22 at one end on one side of the plate 21, a rod 23 is inserted into the bearing 22, a tapered position determiner 24 is provided at the distal end of the rod 23, and a flange is provided at the proximal end of the rod 23. 25 and a spring 26 is disposed between the bearing 22 and the position determiner 24. In addition, a positioning pin 27 is provided at a position that coincides with the axis of the rod 23 at the other end on the one surface side of the plate 21.

  On the other hand, a bracket 28 is attached to the other surface side of the plate 21, and one end of a clamp claw 29 is pivotally attached to the bracket 28, and a cylinder unit 30 as a drive source is attached to the bracket 28. A rod 31 of the cylinder unit 30 is connected to the vicinity of one end of the clamp claw 29. Thus, by driving the cylinder unit 30, the clamp pawl 29 opens and closes.

  Further, a chuck detaching device 41 for retracting the rod 23 (position determiner 24) against the spring 26 is provided independently of the robot (see FIG. 7). The chuck detaching device 41 is provided with a plate 43 at the upper end of a column member 42 fixed to a floor surface or the like, and a cylinder unit 44 as a drive source for moving the rod 23 (position determiner 24) backward on the plate 43. ing. A hook member 45 that is engaged with the flange 25 at the base end of the rod 23 to retract the rod 23 is attached to the rod tip of the cylinder unit 44.

  A bracket 36 is attached to the upper end of the column member 42, and a cylinder unit 37 as a drive source is supported on the side of the bracket 36 so as to be swingable. The base end of the clamp arm 48 is connected to the tip of the rod of the cylinder unit 37. When the cylinder unit 37 extends, the clamp arm 48 rotates counterclockwise in FIG. 8 to hold the plate 21 of the chuck mechanism 18 with the receiving block 49 provided on the plate 43.

  In order to clamp the workpiece W as described above, as shown in FIG. 5, the robot arm 1 is moved and the support plate 5 is pressed against the flat portion of the workpiece W. Then, as shown in FIG. 6 described above, the support plate 5 moves so as to approach the fixed substrate 2 so as to compress the spring 7 and absorbs the impact when it hits the workpiece W.

  Thereafter, the cylinder unit (drive source) 30 of the chuck mechanisms 18, 19, and 20 is driven to project the rod 31. Then, the clamping claw 29 performs a closing operation, the flange portion around the workpiece W is locked at the tip of the clamping claw 29, and the workpiece W is held between the clamping claw 29 and the support plate 5.

  Thereafter, when the robot arm 1 is lifted, the guide rod 4 is pushed downward in the drawing by the spring force of the spring 7 and enters the state shown in FIG. 1, so that the robot arm 1 is turned to place the workpiece W at a predetermined position. Then, the cylinder unit 30 is operated in the reverse direction to release the clamp state.

Next, a method for switching the positions of the chuck mechanisms 18, 19, and 20 when the gripping position of the workpiece W is changed due to a model change or the like will be described.
As shown in FIG. 7, with the chuck mechanism in an unclamped state, the cylinder unit 47 of the chuck detaching device 41 is driven, and the plate 21 of the chuck mechanism is locked between the clamp arm 48 and the receiving block 49.

  Then, with the plate 21 locked, the cylinder unit 44 of the chuck attaching / detaching device 41 is driven, the hook member 45 is engaged with the flange 25 of the chuck mechanism 18, and the rod 23 is retracted against the spring 26. By this retreat, the position stator 24 is disengaged from the positioning recess 11 a formed in the frame 8. At this time, the positioning pin 27 remains locked in the recess 12a.

Next, the chuck mechanism 18 is moved inward from the state shown in FIG. Actually, since the chuck mechanism 18 is held by the chuck attaching / detaching device 41, the robot arm 1 is moved.
Due to the above movement, the positioning pin 27 is detached from the recess 12a. In this state, the position stator 24 is also disengaged from the positioning recess 11 a, so that the chuck mechanism 18 is completely free from the frame 8 and is held by the chuck attaching / detaching device 41.

  In this state, the robot arm 1 is rotated around the axis. Then, the support plate 5 and the frames 8, 9, and 10 attached to the support plate 5 also rotate around the robot arm 1. When the positioning recess 11b of the frame 8 coincides with the position of the position determiner 24 of the chuck mechanism 18 and the recess 12b of the frame 8 coincides with the position of the positioning pin 27 of the chuck mechanism 18, the rotation of the robot arm 1 is performed. Is stopped and the cylinder unit 44 of the chuck detaching device 41 is caused to project the rod.

  Then, the position determiner 24 of the chuck mechanism 18 is fitted into the positioning recess 11b of the frame 8 by the elastic force of the spring 26, and the positioning pin 27 of the chuck mechanism 18 is fitted into the recess 12b of the frame 8. Is fixed at a different position of the frame 8 from the above.

  The same operation as described above is performed on the remaining chuck mechanisms 19 and 20, and the chuck mechanism 19 is engaged and held in the positioning recesses 13 b and 14 b of the frame 9, and the chuck mechanism 19 is positioned on the frame 9. The recesses 13b and 14b are engaged and held.

  In the embodiment, three frames and chuck mechanisms are shown, but the number is arbitrary. Further, although the support plate and the frame are separated, a part of the support plate may be a frame to which the chuck mechanism is attached.

The front view of the state which is holding the work of the chuck device concerning the present invention View of the same chuck device from below View from above showing the relationship between the support plate and fixed substrate of the chuck device Overall view of the chuck mechanism of the chuck device The front view of the state before holding the workpiece | work of the chuck | zipper apparatus which concerns on this invention Enlarged view of the main part with the workpiece hitting the chuck device The front view of the state which is making the position determiner of the chuck mechanism of the chuck device concerning the present invention retreat against a spring Side view of chuck unit Plan view of chuck unit The front view in the state where the chuck mechanism of the chuck device concerning the present invention became free FIG. 2 is a view similar to FIG. 2 showing a state in which the change of the attachment position of the chuck mechanism is completed

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Robot arm, 2 ... Fixed board | substrate, 3 ... Receiving part, 4 ... Guide rod, 5 ... Support plate, 6 ... Stopper, 7 ... Spring, 8, 9, 10 ... Frame, 11a, 11b, 11c, 13a, 13b , 13c, 15a, 15b, 15c ... positioning recess, 12a, 12b, 12c, 14a, 14b, 14c, 16a, 16b, 16c ... recess, 18, 19, 20 ... chuck mechanism, 21 ... plate, 22 ... bearing, DESCRIPTION OF SYMBOLS 23 ... Rod, 24 ... Position determiner, 25 ... Flange, 26 ... Spring, 27 ... Positioning pin, 28 ... Bracket, 29 ... Clamp claw, 30 ... Cylinder unit, 31 ... Rod of cylinder unit, 41 ... Chuck attaching / detaching device, 42 ... Column member, 43 ... Plate, 44 ... Cylinder unit, 45 ... Hook member, 46 ... Bracket, 47 ... Cylinder unit Tsu door, 48 ... clamp arm, 49 ... received block.

Claims (3)

A support plate attached to the tip of the robot arm so as to be rotatable integrally with the robot arm, a chuck mechanism detachably attached to a frame fixed to the support plate, and a chuck for detaching the chuck mechanism from the frame A detaching device is provided, and the frame is formed with a positioning recess for engaging the position determiner of the chuck mechanism with the spring force of the spring, and the chuck mechanism holds a workpiece with the support plate. A chuck device comprising a clamp claw and a drive device for opening and closing the clamp claw. 2. The chuck device according to claim 1, wherein the support plate is supported at a tip of a robot arm via a guide rod and a resilient member. 2. The chuck device according to claim 1, wherein a plurality of positioning recesses are formed in the frame, and the chuck mechanism is engaged and held in any of the positioning recesses. .

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