JP2017019085A - Grip/insertion device of block member - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a grip/insertion device which can easily, stably and quickly grip and insert a block member for blocking an opening hole of a workpiece while approximating a hand feeling of a worker.SOLUTION: A grip/insertion device 10 of a block member grips a lid part of the block member 1 having the lid part 11 and a lock part 12 which erects at a rear face side of the lid part, and blocks an opening hole by inserting the lock part into an opening hole WH of a workpiece W. The grip/insertion device comprises: an outer cylinder part 2 whose penetration hole 211 for making the lid part penetrate to an axial direction is fixed at a front end part 21; a first extrusion part 3 which is formed so as to be capable of extruding the lid pat which is inserted into an internal peripheral side of the outer cylinder part frontward from the penetration hole; a second extrusion part 4 which extrudes the first extrusion part frontward by a magnetic reaction force mf; and an operation part 5 which increases and decreases the magnetic reaction force by moving the second extrusion part to the axial direction.SELECTED DRAWING: Figure 5

Description

  The present invention relates to, for example, a gripping / inserting device for a closing member that grips and inserts a closing member that closes the opening hole in an opening hole formed in a vehicle body or the like.

  In general, in an automobile body, a large number of opening holes for electrodeposition coating, opening holes for welding or fastening members, and the like are formed. If rainwater or the like enters the vehicle through these opening holes, it may be undesirable for rust prevention or dust prevention. In that case, an elastically deformable blocking member (such as a grommet) made of a resin component or a rubber component is inserted into the opening hole to seal the opening hole. Conventionally, an operation of inserting a grommet or the like into an opening hole of a body or the like has been performed by a pressing force of an operator's palm or fingertip. However, such an operation causes an excessive burden on the operator. For example, Patent Document 1 discloses that the closing member mounting device pushes the closing member into the opening hole while vacuum-sucking the closing member. Is disclosed.

  As shown in FIG. 9, the attachment device 100 of Patent Document 1 includes a drive source (linear servo motor) 102 attached to the tip of a robot arm 101 and an adsorption member 104 attached to the tip of a drive shaft 103 of the linear servo motor 102. A pressing member 105 that supports the suction member 104, and a suction pump 106 that sucks air in the suction member via the drive shaft 103. The adsorbing member 104 is formed of a conical cup portion 104a and a peripheral edge portion 104b provided continuously to the peripheral edge of the cup portion 104a. The pressing member 105 is provided on the back surface of the cup portion 104a and the back surface of the peripheral edge portion 104b. It is formed to contact and support.

  According to the mounting apparatus 100, as shown in FIGS. 9 and 10, the robot arm 101 is operated to bring the peripheral edge 104b of the cup 104a into contact with the large diameter part G1 of the closing member G, and the suction pump 106 is operated. The cup member is operated to create a negative pressure, and the closing member G is sucked and held (see FIG. 10A). Next, the robot arm 101 is operated to position the closing member G directly above the opening hole WH of the workpiece W, and then the large diameter portion G2 of the closing member G is brought into contact with the periphery of the opening portion WH of the workpiece. Then, the drive shaft 103 is moved forward (see FIG. 10B). Then, the peripheral portion of the pressing member 105 presses the peripheral portion 104b of the cup portion 104a, and the large diameter portions G1 and G2 of the closing member G are deformed so as to protrude upward following the shape of the cup portion. The outer diameters of the portions G1 and G2 are reduced (see FIG. 10C). When the outer diameter of the large-diameter portion G2 becomes small enough to be able to be inserted through the opening hole WH, the lower large-diameter portion G2 in a pressed state with respect to the workpiece W is inserted through the opening hole WH. Next, when the suction pump 106 is stopped, the closing member G is restored to the original state and is press-fitted into the opening hole WH (see FIG. 10D).

JP 2011-51054 A

However, the attachment device of Patent Document 1 has the following problems.
That is, in the attachment device 100 of Patent Document 1, the suction pump 106 is operated to make the inside of the cup portion 104a have a negative pressure and the closing member G is sucked and held, so that the peripheral edge portion 104b of the cup portion cannot be in close contact with the closing member G. Then, there is a problem that the suction force is reduced and the closing member G cannot be gripped stably. In addition, if the closing member G cannot be gripped stably, there is a problem that the closing member G is dropped or misaligned, so that a quick insertion operation cannot be performed.
In addition, in the attachment device 100 of Patent Document 1, the linear servo motor drive shaft 103 is advanced in a state in which the large-diameter portion G2 of the closing member G is in contact with the periphery of the opening hole WH of the workpiece W, and the pressing member 105 The peripheral portion presses the peripheral portion 104b of the cup portion, and the large-diameter portions G1 and G2 of the closing member G are deformed so as to protrude upward following the shape of the cup portion 104a. Since the opening hole WH is inserted by reducing the size of the mounting member 100, the mounting device 100 can be applied to the flat-shaped closing member G. However, the closing member has a shape different from the flat shape (for example, a circular shape). There has been a problem that it is difficult to apply to the center of the lid portion of the arc-shaped cross section and the like in which the locking portion of the cylindrical cross section is raised.
Further, the direction in which the closing member G is inserted into the opening hole WH of the workpiece W depends on the direction in which the drive shaft 103 of the linear servo motor 102 moves forward, so that the closing member G is reliably inserted into the opening hole WH of the workpiece W. In order to achieve this, fine position control of the robot arm 101 to which the linear servo motor is mounted, fine torque control of the linear servo motor 102, and the like are necessary, and it is difficult to perform insertion work that approximates the hand feeling of the operator. was there.

  The present invention has been made to solve the above-mentioned problems, and can easily and stably grasp and quickly insert a closing member that closes an opening hole of a workpiece, approximating the hand feeling of an operator. It is an object of the present invention to provide a closing / gripping / inserting device that can be used.

In order to solve the above-described problems, a closing member gripping / inserting apparatus according to the present invention has the following configuration.
(1) Grasping the lid part of a closing member having a lid part and a latching part standing on the back side of the lid part, and inserting the latching part into an opening hole of a work to close the opening hole A device for gripping / inserting a closing member for
An outer cylindrical portion having an insertion hole formed in the front end portion for inserting the lid portion in the axial direction, and the lid portion inserted on the inner peripheral side of the outer cylindrical portion are formed to be able to be pushed forward from the insertion hole. The first pushing portion, the second pushing portion that presses the first pushing portion forward via a magnetic repulsive force, and the operation that increases or decreases the magnetic repulsive force by moving the second pushing portion in the axial direction. And a section.

In the present invention, the outer cylinder part in which the insertion hole for inserting the lid part in the axial direction is formed in the front end part, and the lid part inserted on the inner peripheral side of the outer cylinder part are formed to be able to be pushed forward from the insertion hole. A first extruding unit, a second extruding unit that presses the first extruding unit forward via a magnetic repulsive force, and an operating unit that increases or decreases the magnetic repulsive force by moving the second extruding unit in the axial direction. Since the lid portion of the closing member is inserted from the insertion hole of the front end portion to the inner peripheral side of the outer cylinder portion, and the locking portion protrudes forward from the front end portion of the outer cylinder portion, the outer cylinder portion The closing member can be gripped between the first pushing portion and the first pushing portion. At this time, since the second pushing portion presses the first pushing portion forward through the magnetic repulsive force, the lid portion of the closing member is elastically gripped between the outer cylinder portion and the first pushing portion. Can do. As a result, the gripping force on the lid does not become excessive, and the gripping force can be approximated to the gripping force of the operator's palm or fingertip.
Further, in a state where the cover portion of the closing member is elastically gripped between the outer cylinder portion and the first pushing portion, the locking portion of the closing member is brought into contact with the opening hole of the workpiece, and then the outer cylinder portion By moving the second pressing part in the direction approaching the first pressing part while increasing the magnetic repulsive force while bringing the front end part close to the workpiece, the first pushing part moves the lid part of the closing member to the outer cylinder part It is possible to push forward from the insertion hole and insert the locking portion of the closing member into the opening hole of the workpiece, and to bring the lid portion into close contact with the workpiece. Also at this time, the first pushing portion elastically inserts the locking portion of the closing member into the opening hole of the workpiece via the magnetic repulsive force, and makes the lid portion of the closing member elastically adheres to the workpiece. Therefore, the pressing force of the lid portion and the locking portion is not excessive, and the pressing force can be approximated to the pressing force of the operator's palm or fingertip.
Therefore, the closing member stored in a predetermined storage place is moved between the outer cylinder portion and the first pushing portion by a simple operation of moving the second pushing portion in the axial direction by bringing the front end portion of the outer tube portion close to the closing member and the workpiece. And the gripping closure member can be quickly inserted into the opening hole of the workpiece. In this case, since the first pressing portion and the second pressing portion are elastically connected via a magnetic repulsive force, the first pressing portion and the second pressing portion are different from the configuration in which the first pressing portion and the second pressing portion are mechanically connected. The gripping force and pressing force of the closing member can be approximated to the operator's hand feeling.
Therefore, according to the present invention, there is provided a closing / gripping / inserting device that can be easily and stably grasped and quickly inserted into a closing member that closes an opening hole of a workpiece, approximating the hand feeling of an operator. Can be provided.

(2) In the gripping / inserting device for a closing member described in (1),
The first pushing portion and the second pushing portion are each provided with a magnet having the same poles opposed to each other.

  In the present invention, the first extrusion unit and the second extrusion unit are equipped with magnets having the same poles facing each other, so that the magnetic repulsion force is stabilized between the first extrusion unit and the second extrusion unit. Can be retained. The magnet is preferably a permanent magnet. If it is a permanent magnet, the magnetic repulsion force can be easily adjusted only by changing the distance between magnets. Therefore, a coil or the like is not required like an electromagnet, and the apparatus can be reduced in size and cost.

(3) In the gripping / inserting device for a closing member described in (1) or (2),
The insertion hole of the outer cylinder part is formed with a claw part protruding inward in the radial direction.

  In the present invention, the insertion hole of the outer cylinder part is formed with a claw part protruding radially inward, so that the lid part of the closing member inserted from the insertion hole to the inner peripheral side of the outer cylinder part is clawed. It is latched by a part and a closure member can be grasped still more stably between an outer cylinder part and the 1st extrusion part. A plurality of claw portions are provided at predetermined intervals in the circumferential direction of the insertion hole, and are formed so as to latch elastically deformable lip portions formed on the outer peripheral side of the lid portion of the closing member. It is preferable.

(4) In the grasping / inserting device for a closing member described in any one of (1) to (3),
The operation portion includes a screw shaft portion and a nut portion that moves the second push-out portion in the axial direction by a rotation operation of the screw shaft portion, and a drive shaft of a drive motor is provided on the screw shaft portion. It is connected.

  In the present invention, the operation portion includes a screw shaft portion and a nut portion that moves the second push-out portion in the axial direction by a rotation operation of the screw shaft portion, and the screw shaft portion is driven by a drive motor. Since the shaft is connected, it is possible to simplify the operation / drive mechanism for moving the second pushing portion in the axial direction, thereby contributing to the reduction in size and weight of the apparatus. Further, by controlling the rotational torque and rotational speed of the drive shaft of the drive motor, it is possible to easily perform speed control for moving the second push-out portion in the axial direction, and different shapes of blocking members and hardnesses are different. The closing member can be quickly gripped between the outer cylinder portion and the first pushing portion, and the gripped closing member can be quickly inserted into the opening hole of the workpiece.

(5) In the gripping / inserting device for a closing member described in any one of (1) to (4),
The front end portion of the first pushing portion is provided with a seat portion formed in a substantially arcuate concave surface that comes into contact with the lid portion.

  In the present invention, the front end portion of the first push-out portion is provided with a seat portion formed in a substantially arc-shaped concave surface that comes into contact with the lid portion of the closing member. When the seat portion of the first pushing portion presses the lid portion of the closing member, even if the axial direction of the outer cylinder portion is slightly inclined with respect to the normal direction in the opening hole of the workpiece, By moving the lid portion along the substantially arcuate concave surface, the direction of the locking portion can be corrected so as to match the normal direction in the opening hole of the workpiece. Therefore, the locking portion of the closing member can be inserted into the opening hole of the workpiece more quickly and reliably.

  According to the present invention, there is provided a closing member gripping / inserting device that can easily and stably hold a closing member that closes an opening hole of a workpiece and can be quickly inserted, which approximates the hand feeling of an operator. be able to.

It is a perspective view of a grasping / inserting device of a closure member which is an embodiment concerning the present invention. FIG. 2 is an exploded view of components in the closing member gripping / inserting device shown in FIG. 1. FIG. 2 is a cross-sectional view of the closing member gripping / inserting device shown in FIG. 1 (a state before the closing member is gripped). FIG. 2 is a cross-sectional view of the closing member gripping / inserting device shown in FIG. FIG. 2 is a cross-sectional view of the closing member gripping / inserting device shown in FIG. 1 (a state before the closing member is inserted into the opening hole of the workpiece). FIG. 2 is a cross-sectional view of the closing member gripping / inserting device shown in FIG. 1 (a state in which the closing member is completely inserted into the opening hole of the workpiece). It is a side view of the closure member shown in FIG. It is a perspective view of another closure member. The attachment apparatus of the obstruction | occlusion member described in patent document 1 is shown, (a) is a front view of a partial cross section, (b) is an AA cross section arrow view, (c) is B It is an arrow view. The operation explanatory view in the attachment device of the closure member indicated in patent documents 1 is shown, (a) is a partial section of the state where the grommet was adsorbed, and (b) is the state where the grommet was contacted with the work (C) is a partial cross-sectional view of the state where the grommet is deformed, and (d) is a partial cross-sectional view of the state where the grommet is inserted.

  Next, a closing member gripping and inserting device which is an actual machine according to the present invention will be described in detail with reference to the drawings. First, the structure of the gripping / inserting device for a closing member according to the present embodiment will be described. Next, an operation method when the gripping / inserting apparatus grips and inserts the closing member will be described. Further, types of closing members to which the present gripping / inserting apparatus can be applied will be described.

<Structure of gripping / inserting device for closing member>
First, the structure of the closing member gripping / inserting device according to the present embodiment will be described with reference to FIGS. FIG. 1 shows a perspective view of a gripping / inserting device for a closing member according to an embodiment of the present invention. FIG. 2 shows an exploded view of the components in the closing member gripping / inserting apparatus shown in FIG. FIG. 3 shows a cross-sectional view of the closing member gripping / inserting device shown in FIG. 1 (a state before the closing member is gripped).

  As shown in FIGS. 1 to 3, the closing member holding / inserting device 10 according to the present embodiment includes a lid 11 and a locking member 12 that stands on the back side of the lid 11. A gripping / inserting device 10 for a closing member 1 for gripping a lid portion 11 and inserting a locking portion 12 into an opening hole WH of a work W to close the opening hole WH. A first pushing portion 3 inserted on the inner peripheral side of the cylindrical portion 2 and a first pushing portion 3 inserted on the inner peripheral side of the first pushing portion 3 and pressing the first pushing portion 3 outwardly via a magnetic repulsive force mf. 2 extrusion part 4, and operation part 5 which increases / decreases magnetic repulsion force mf by moving the 2nd extrusion part 4 to an axial direction are provided.

  The outer cylinder portion 2 is a substantially cylindrical tubular body, and an insertion hole 211 through which the lid portion 11 of the closing member 1 is inserted in the axial direction is formed in the front end portion 21 thereof. The insertion hole 211 is formed with a claw portion 211T that protrudes radially inward. A plurality of claw portions 211T are provided at a predetermined interval in the circumferential direction of the insertion hole 211, and the lip portion 111 formed on the outer peripheral side of the lid portion 11 of the closing member 1 is elastically deformed, and the gap between the claw portions 211T is elastically deformed. It is formed so as to be restored and locked after passing. Note that the claw portion 211T is formed in a trapezoidal shape whose inner side in the radial direction is tapered, and the adjacent claw portions are connected in an arc shape. In addition, an annular shelf 221 that contacts the shoulder 33 of the first pushing portion 3 is formed on the inner peripheral surface 22 side of the front end portion 21 of the outer cylinder portion 2. The shelf 221 functions as a stopper member when the first pusher 3 is moved to the forward end in the axial direction. A cross section of the rear end portion 23 of the outer cylindrical portion 2 is opened along the inner peripheral surface 22.

  The first extruding portion 3 is a substantially cylindrical tubular body that is in sliding contact with the inner peripheral surface 22 of the outer cylinder portion 2, and has a substantially arc shape that abuts the lid portion 11 of the closing member 1 at its front end portion 32. A circular seat portion 321 formed on the concave surface is provided. The seat portion 321 is formed so as to protrude slightly forward from the front end portion 21 of the outer cylinder portion 2 when the first pushing portion 3 moves to the forward end. Further, the rear end portion of the first push-out portion 3 is provided with a pair of legs 34 having a predetermined width extending rearward at an axially symmetric position of the outer peripheral surface and formed in an arc shape along the outer peripheral surface. A permanent magnet 31 formed in a columnar shape is embedded in the front end portion 32 of the first pushing portion 3 so as to be flush with the rear end surface 322 of the front end portion 32. The rear end surface 322 is formed to be orthogonal to the axial direction. The permanent magnet 31 is magnetized to the S pole on the front end side and magnetized to the N pole on the rear end side. It is preferable that the 1st extrusion part 3 is a product made from the aluminum alloy which is a lightweight and highly rigid nonmagnetic body. By making the 1st extrusion part 3 into a nonmagnetic material, spreading | diffusion of the magnetic force line between magnets can be suppressed and a magnetic repulsive force can be raised.

  The second extruding portion 4 is a substantially cylindrical tubular body that is in sliding contact with the inner peripheral surface 35 of the first extruding portion 3, and has a permanent magnet 41 (permanent magnet) formed in a columnar shape at a front end portion 42 thereof. 31 is embedded so as to be flush with the front end surface 421. The front end surface 421 is formed to be orthogonal to the axial direction. The permanent magnet 41 is magnetized at the front end side to the N pole and the rear end side is magnetized to the S pole. Therefore, permanent magnets 31 and 41 having the same poles facing each other in parallel are mounted on the first extruding part 3 and the second extruding part 4, respectively. The second pushing portion 4 includes a guide portion 44 that extends backward from the front end portion 42 and has a pair of guide surfaces 441 that are parallel to each other. In addition, a through hole 43 that penetrates the front end portion 42 and the guide portion 44 in the axial direction is formed in the axial center portion of the second pushing portion 4. Furthermore, a plurality of fastening holes 45 are formed in the vicinity of the outer periphery of the second pushing portion 4 so as to penetrate the front end portion 42 and the guide portion 44 in the axial direction.

  Further, the operation unit 5 includes a screw shaft portion 51 and a nut portion 52 that moves the second push-out portion 4 in the axial direction by the rotation operation of the screw shaft portion 51. A drive shaft 61 of the drive motor 6 is connected to the rear end portion 511 of the screw shaft portion 51. The drive motor 6 is preferably a stepping motor with a built-in programming that can control the rotational torque, rotational speed, and the like of the drive shaft 61. The operation unit 5 includes a collar unit 53, a guide unit 54, a base tube unit 55, and a presser unit 56.

  A male screw 512 is formed on the outer periphery of the screw shaft portion 51, and a female screw 524 that engages with the male screw 512 is formed on the inner periphery of the nut portion 52. The nut portion 52 includes a main body portion formed in a cylindrical shape, and a flange portion 521 formed in the same cross section as the guide portion 44 of the second extrusion portion 4 is formed on the front end side thereof. The flange portion 521 is formed with a guide surface 522 that is flush with the guide surface 441 of the guide portion 44 of the second extruding portion 4. In addition, the flange portion 521 is formed with an escape hole 523 communicating with each tightening hole 45 of the second push-out portion 4.

  The collar portion 53 is formed with an insertion hole 531 through which the main body portion of the nut portion 52 is inserted in the axial direction. The collar portion 53 is formed in the same cross section as the flange portion 521 of the nut portion 52. Therefore, a guide surface 532 that is flush with the guide surface 441 of the guide portion 44 of the second pushing portion 4 is formed on the collar portion 53. Further, the collar portion 53 is formed with a screw hole 533 that accumulates with a tightening bolt inserted from the tightening hole 45 of the second push-out portion 4, and the second push-out portion 4, the nut portion 52, and the collar portion 53 are formed. It is fastened together.

  A guide groove 542 having a U-shaped cross section is formed in the guide portion 54 in the axial direction. In the guide groove 542, the guide portion 44, the nut portion 52, and the collar portion 53 of the second push-out portion 4 are accommodated so as to be movable in the axial direction while being integrally fastened. The guide portion 54 includes an outer peripheral surface formed to have the same diameter as the outer peripheral surface of the second push-out portion 4. An axial hole portion 541 is formed in the axial direction of the guide portion 54 so as to communicate with the guide groove 542 and through which the drive shaft 61 of the drive motor 6 is inserted. The guide portion 54 is fitted on the inner peripheral surface 553 of the base tube portion 55.

  The base cylinder part 55 is a substantially cylindrical cylindrical body, and the inner diameter and the outer diameter thereof are formed to be the same as the inner diameter and the outer diameter of the first extrusion part 3. A guide groove 551 having a U-shaped cross section is formed in the base cylinder portion 55 at a position orthogonal to the guide groove 542 of the guide portion 54 in the axial direction. The guide groove 551 is formed to have the same width as the leg portion 34 of the first pushing portion 3 and guides the leg portion 34 in the axial direction. An annular fastening seat portion 552 that is fastened to the distal end portion 71 of the robot arm portion 7 is formed at the rear end portion of the base tube portion 55. The holding portion 56 is an annular member having the same diameter as the fastening seat portion 552, and a plurality of fastening holes 562 for fastening the fastening seat portion 552 to the distal end portion 71 of the robot arm portion 7 in the vicinity of the outer periphery thereof. Is formed. An escape hole 561 through which the drive shaft 61 of the drive motor 6 is inserted is formed in the axial center portion of the presser portion 56 in the axial direction.

<Operation method when grasping and inserting the closing member>
Next, an operation method when the closing member 1 is gripped and inserted into the opening hole WH of the workpiece W by using the closing member holding / inserting device 10 according to the present embodiment will be described with reference to FIGS. I will explain. FIG. 3 shows a cross-sectional view of the closing member gripping / inserting device shown in FIG. 1 (a state before the closing member is gripped). FIG. 4 is a cross-sectional view of the closing member gripping / inserting device shown in FIG. 1 (a state in which the closing member is gripped). FIG. 5 shows a cross-sectional view of the closing member gripping / inserting apparatus shown in FIG. 1 (a state before the closing member is inserted into the opening hole of the workpiece). FIG. 6 is a cross-sectional view of the closing member gripping / inserting apparatus shown in FIG. 1 (a state in which the closing member is completely inserted into the opening hole of the workpiece).

  As shown in FIG. 3, the closing member 1 is arranged in a predetermined storage place 8 with the lid portion 11 facing upward. The robot arm 7 is operated so that the front end portion 21 of the outer cylinder portion 2 of the main gripping / inserting device 10 attached to the distal end portion 71 is directed downward, and the closing member 1 is moved upward (in the direction of arrow P). Close. At this time, the shoulder portion 33 of the first pushing portion 3 is in contact with the shelf portion 221 of the outer cylinder portion 2, and the first pushing portion 3 is at the forward end position. Moreover, the 2nd extrusion part 4 exists in the position of a backward end. Therefore, the separation distance d1 between the permanent magnet 31 attached to the first pusher 3 and the permanent magnet 41 attached to the second pusher 4 is maximized, and the magnetic repulsive force mf1 between the magnets is minimized.

  When the robot arm 7 is operated in the state of the magnetic repulsive force mf1 to further move the outer cylinder portion 2 in the direction of the arrow P, only the first pushing portion 3 moves upward (arrow Q) as shown in FIG. Move in the direction of At this time, since the magnetic repulsive force mf1 between the magnets is minimized, the lid portion 11 of the closing member 1 can be easily inserted from the insertion hole 211 of the outer cylinder portion 2 to the inner peripheral side. That is, the lip portion 111 formed on the outer peripheral side of the lid portion 11 of the closing member 1 quickly passes through the gap between the claw portions 211T while being elastically deformed, and quickly recovers after passing. As described above, when the lid portion 11 of the closing member 1 is inserted into the inner peripheral side of the outer cylinder portion 2, the permanent magnet 31 attached to the first pushing portion 3 and the permanent magnet attached to the second pushing portion 4. Since the separation distance d2 with respect to 41 decreases, the magnetic repulsive force mf2 between the magnets increases correspondingly, and the lid portion 11 of the closing member 1 is elastically moved between the outer tube portion 2 and the first pushing portion 3. Grip to. The difference between the initial separation distance d1 and the separation distance d2 after moving in the direction of the arrow Q corresponds to the stroke amount ST of the first pushing portion 3. When the first pushing portion 3 moves by the stroke amount ST, the magnetic repulsive force mf2 between the magnets is balanced with the elastic force of the lip portion 111. Therefore, the gripping force with respect to the lid portion 11 does not become excessive, and the gripping force can be approximated to the gripping force of the operator's palm or fingertip. When the shape and hardness of the closing member 1 are different, the drive motor 6 is operated to adjust the axial position of the second pushing portion 4 so that the gripping force on the lid portion 11 is not excessive, It is easy to balance the magnetic repulsive force mf2 between the magnets with the elastic force of the lip 111.

  Next, as shown in FIG. 5, the locking portion 12 of the closing member 1 protrudes forward from the insertion hole 211 of the outer cylinder portion 1, so that the locking portion 12 is operated by operating the robot arm portion 7. While adapting to the hole center of the opening hole WH of the workpiece W, the outer cylinder portion 2 is brought close to the workpiece W from below (in the direction of arrow R). Since the front end portion 32 of the first pushing portion 3 is provided with a seat portion 321 formed in a substantially arc-shaped concave surface that comes into contact with the lid portion 11 of the closing member 1, the axial direction of the outer cylinder portion 2 is the workpiece W. Even if the opening WH is slightly inclined with respect to the normal direction, when the seat portion 321 of the first pushing portion 3 presses the lid portion 11 of the closing member 1, the substantially arcuate concave surface of the seat portion 321 is formed. By moving the lid portion 11, the direction of the locking portion 12 can be corrected so as to match the normal direction in the opening hole WH of the workpiece W.

  Next, as shown in FIG. 6, the robot arm 7 is operated to bring the front end 21 of the outer cylinder 2 closer to the work W from below (in the direction of arrow V), while driving the drive shaft of the drive motor 6. 61 is rotated and the 2nd press part 4 is moved to the direction (arrow X direction) which adjoins the 1st press part 3. As shown in FIG. At this time, since the separation distance d3 between the permanent magnet 31 attached to the first pusher 3 and the permanent magnet 41 attached to the second pusher 4 is further reduced, the magnetic repulsive force mf3 between the magnets is increased accordingly. To do. When the magnetic repulsive force mf3 increases, the insertion resistance of the locking portion 12 with respect to the opening hole WH of the workpiece W is overcome, and the first pushing portion 3 causes the lid portion 11 of the closing member 1 to pass through the insertion hole 211 of the outer cylinder portion 2. Then, the locking portion 12 of the closing member 1 is inserted into the opening hole WH of the workpiece W, and the lid portion 11 is brought into close contact with the workpiece W. When the shape and hardness of the closing member 1 are different, the drive motor 6 is operated so that the pressing force of the lid portion 11 and the locking portion 12 does not become excessive, so that the axial position of the second pushing portion 4 is increased. Can be adjusted. In addition, by controlling the rotational torque and rotational speed of the drive shaft 61 of the drive motor 6, it is possible to perform speed control for moving the second pushing portion 4 in the axial direction.

<Type of closure member>
Next, the types of closing members to which the present gripping / inserting apparatus can be applied will be described with reference to FIGS. FIG. 7 shows a side view of the closing member shown in FIG. FIG. 8 is a perspective view of another closing member.

  As shown in FIG. 7, the closing member 1 includes a lid portion 11 and a locking portion 12 that stands vertically on the back surface side of the lid portion 11. The lid portion 11 and the locking portion 12 are each formed to be elastically deformable. Specifically, a thin lip portion 111 is provided on the outer peripheral side of the lid portion 11. The lip portion 111 is formed so as to surround the periphery of the opening hole of the workpiece, and its tip portion elastically contacts the workpiece surface to ensure a sealing property. The upper surface 112 of the lid portion 11 is formed in a hemispherical shape here, but may be formed in various shapes such as a rectangular flat surface shape or a concave surface shape. The locking portion 12 is formed in a substantially cylindrical shape, and has a plurality of locking claws 121 that can be elastically deformed on the outer peripheral side thereof. Note that one or more locking claws 121 may be provided.

As shown in FIG. 8, the other closing member 1B includes a lid portion 11B and a locking portion 12B that stands upright on the back surface side of the lid portion 11B, and the locking claw 122B of the locking portion 12B is engaged. The locking claw 122B is formed so as to protrude from the locking body 121B to the outer peripheral side by pressing the operating portion 123B that is divided from the locking body 121B and protrudes to the surface side of the lid portion 11B. In this case, between the outer cylinder part 2 and the first pushing part 3, the lid part 11 </ b> B and the operating part 123 </ b> B protruding to the surface side of the lid part 11 </ b> B are simultaneously gripped, and the locking main body 121 </ b> B is opened to the workpiece W. After inserting into the hole WH, the 2nd extrusion part 4 can be moved to the direction which adjoins the 1st extrusion part 3, and the latching claw 122B can be protruded to the outer peripheral side of the latching main body 121B.
The closing members 1 and 1B shown in FIGS. 7 and 8 are examples, and the present gripping / inserting device 10 can be applied to closing members having various shapes and hardnesses other than these.

<Effect>
As described above in detail, according to the closure member gripping / inserting device 10 according to the present embodiment, the outer cylinder portion 2 in which the insertion hole 211 through which the lid portion 11 is inserted in the axial direction is formed in the front end portion 21. A first pushing portion 3 formed so that the lid portion 11 inserted on the inner peripheral side of the outer cylindrical portion 2 can be pushed forward from the insertion hole 211, and a first pushing portion 3 inserted on the inner peripheral side of the first pushing portion 3 1 The pushing portion 3 is pushed forward via a magnetic repulsive force mf (mf1, mf2, mf3), and the second pushing portion 4 is moved in the axial direction to move the magnetic repulsive force mf (mf1, mf2, mf3) is provided with the operation part 5 for increasing / decreasing, so that the lid part 11 of the closing member 1 is inserted from the insertion hole 211 of the front end part 21 to the inner peripheral side of the outer cylinder part 2, and the locking part 12 is Closed between the outer cylinder part 2 and the first extruding part 3 in a state of protruding forward from the front end part 21 of the cylinder part 2. The closing member 1 can be gripped. At this time, since the second pushing portion 4 presses the first pushing portion 3 forward via the magnetic repulsive force mf2, the lid portion 12 of the closing member 1 is moved between the outer tube portion 2 and the first pushing portion 3. It can be held elastically. As a result, the gripping force on the lid 12 is not excessive, and the gripping force can be approximated to the gripping force of the operator's palm or fingertip.
Further, the locking portion 12 of the closing member 1 is brought into contact with the opening hole WH of the workpiece W in a state where the lid portion 11 of the closing member 1 is elastically gripped between the outer cylinder portion 2 and the first pushing portion 3. After that, by moving the second pressing portion 4 in the direction approaching the first pressing portion 3 while bringing the front end portion 21 of the outer cylinder portion 2 close to the work W, the magnetic repulsive force mf3 is increased. The first pushing portion 3 pushes the lid portion 11 of the closing member 1 forward from the insertion hole 211 of the outer cylinder portion 2 to insert the locking portion 12 of the closing member 1 into the opening hole WH of the workpiece W, and the lid portion. 11 can be brought into close contact with the workpiece W. Also at this time, the first pushing portion 3 elastically inserts the locking portion 12 of the closing member 1 into the opening hole WH of the workpiece W via the magnetic repulsive force mf3, and the lid portion 11 of the closing member 1 is inserted. Since it can be elastically brought into close contact with the workpiece W, the pressing force of the lid portion 11 and the locking portion 12 does not become excessive, and the pressing force can be approximated to the pressing force of the operator's palm or fingertip. .
Therefore, the closing member W stored in a predetermined storage place is moved to the outer cylinder by a simple operation in which the front end portion 21 of the outer cylinder portion 2 is brought close to the closing member 1 and the workpiece W and the second pushing portion 4 is moved in the axial direction. It is possible to stably grip between the portion 2 and the first extruding portion 3 and quickly insert the gripped closing member 1 into the opening hole WH of the workpiece W. In this case, since the first pressing part 3 and the second pressing part 4 are elastically connected via the magnetic repulsive force mf (mf1, mf2, mf3), the first pressing part 3 and the second pressing part Unlike the configuration in which the portion 4 is mechanically connected, the gripping force and the pressing force of the closing member 1 can be approximated to the operator's hand feeling.
Therefore, according to the present embodiment, the closure member 1 that can be easily and stably grasped and quickly inserted can be grasped by the closure member 1 that closes the opening hole WH of the workpiece W, approximating the hand feeling of the operator. -An insertion device 10 can be provided.

  Moreover, according to this embodiment, since the permanent magnets 31 and 41 having the same poles opposed to each other are mounted on the first extruding part 3 and the second extruding part 4, respectively, the first extruding part 3 and the second extruding part 4 The magnetic repulsive force mf (mf1, mf2, mf3) can be stably held with the part 4. Further, since the permanent magnets 31 and 41 are used, the magnetic repulsive force mf (mf1, mf2, mf3) can be easily adjusted only by changing the distance between the magnets. Therefore, a coil or the like is not required like an electromagnet, and the apparatus can be reduced in size and cost.

  Further, according to the present embodiment, the insertion hole 211 of the outer cylinder part 2 is formed with the claw part 211T protruding radially inward, so that the insertion is made from the insertion hole 211 to the inner peripheral side of the outer cylinder part 2. The lid portion 11 of the closed closing member 1 is locked by the claw portion 211T, and the closing member 1 can be gripped more stably between the outer tube portion 2 and the first push-out portion 3. A plurality of claw portions 211T are provided at predetermined intervals in the circumferential direction of the insertion hole 211 so as to lock the elastically deformable lip portion 111 formed on the outer peripheral side of the lid portion 11 of the closing member 1. Therefore, the lip 111 can quickly pass through the gap between the claw portions 211T while being elastically deformed, and can be quickly restored after the passage. Moreover, the magnetic repulsive force mf2 and the elastic force of the lip 111 can be balanced, and the lid 11 can be gripped more stably.

  Further, according to the present embodiment, the operation portion 5 includes the screw shaft portion 51 and the nut portion 52 that moves the second push-out portion 4 in the axial direction by the rotation operation of the screw shaft portion 51. Since the drive shaft 61 of the drive motor 6 is connected to the shaft portion 51, the operation / drive mechanism for moving the second push-out portion 4 in the axial direction is simplified, contributing to the reduction in size and weight of the apparatus. be able to. Moreover, by controlling the rotational torque, rotational speed, etc. of the drive shaft 61 of the drive motor 6, speed control for moving the second pushing portion 4 in the axial direction can be easily performed. 1B and the closing members 1 and 1B having different hardnesses are quickly grasped between the outer tube portion 2 and the first extruding portion 3, and the grasped closing members 1 and 1B are quickly inserted into the opening holes WH of the workpiece W. be able to.

  Further, according to the present embodiment, the front end portion 32 of the first push-out portion 3 includes the seat portion 321 formed in a substantially arcuate concave surface that comes into contact with the lid portion 11 of the closing member 1. Even when the axial direction of the portion 2 is slightly inclined with respect to the normal direction in the opening hole WH of the workpiece W, when the seat portion 321 of the first pushing portion 3 presses the lid portion 11 of the closing member 1, the seat portion By moving the lid portion 11 along the substantially arcuate concave surface 321, the direction of the locking portion 12 can be corrected so as to match the normal line direction in the opening hole WH of the workpiece W. Therefore, the locking portion 12 of the closing member 1 can be inserted into the opening hole WH of the workpiece W more quickly and reliably.

The embodiment described above can be changed without changing the gist of the present invention. For example, in the above embodiment, the base tube portion 55 of the operation unit 5 is mounted on the robot arm unit 7, but it is not always necessary to mount the robot tube unit 7. For example, the operator may operate by directly holding the base tube portion 55.
Further, for example, in the present embodiment, the operation unit 5 includes a screw shaft portion 51 and a nut portion 52 that moves the second push-out portion 4 in the axial direction by the rotation operation of the screw shaft portion 51. The shaft 51 is connected to the drive shaft 61 of the drive motor 6, but is not necessarily limited to the operation / drive mechanism having this configuration. For example, the operation unit 5 may be provided with a cylinder member that moves the second push-out unit 4 in the axial direction.

  INDUSTRIAL APPLICABILITY The present invention can be used, for example, as a closing / holding device for holding and inserting a closing member that closes an opening hole formed in a vehicle body or the like.

DESCRIPTION OF SYMBOLS 1, 1B Closure member 2 Outer cylinder part 3 1st extrusion part 4 2nd extrusion part 5 Operation part 6 Drive motor 7 Robot arm part 10 Gripping / insertion device 11, 11B Lid part 12, 12B Locking part 21 Front end part 31, 41 Permanent magnet 32 Front end portion 51 Screw shaft portion 52 Nut portion 61 Drive shaft 211 Insertion hole 211T Claw portion 321 Seat portion W Workpiece WH Open hole mf, mf1 Magnetic repulsion force mf2, mf3 Magnetic repulsion force

Claims (5)

A closure for gripping the lid portion of a closing member having a lid portion and a locking portion standing on the back side of the lid portion, and closing the opening hole by inserting the locking portion into an opening hole of a workpiece. A member gripping / inserting device,
An outer cylindrical portion having an insertion hole formed in the front end portion for inserting the lid portion in the axial direction, and the lid portion inserted on the inner peripheral side of the outer cylindrical portion are formed to be able to be pushed forward from the insertion hole. The first pushing portion, the second pushing portion that presses the first pushing portion forward via a magnetic repulsive force, and the operation that increases or decreases the magnetic repulsive force by moving the second pushing portion in the axial direction. An occlusion member gripping / inserting device characterized by comprising: The grasping / inserting device for a closing member according to claim 1,
A closing / gripping / inserting device according to claim 1, wherein magnets having opposite polarities are mounted on the first push-out portion and the second push-out portion, respectively. In the grasping / inserting device of the closing member according to claim 1 or 2,
A claw member gripping / inserting device, wherein a claw portion protruding radially inward is formed in the insertion hole of the outer cylinder portion. The grasping / inserting device for a closing member according to any one of claims 1 to 3,
The operation portion includes a screw shaft portion and a nut portion that moves the second push-out portion in the axial direction by a rotation operation of the screw shaft portion, and a drive shaft of a drive motor is provided on the screw shaft portion. A device for gripping and inserting a closing member, wherein the device is connected. The grasping / inserting device for an occluding member according to any one of claims 1 to 4,
A closing / holding device gripping / inserting device, wherein a front end portion of the first push-out portion is provided with a seat portion formed in a substantially arcuate concave surface in contact with the lid portion.

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