JP2014000646A - Robotic system and fitting member manufacturing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a robotic system capable of more efficiently fitting a workpiece into a fitting portion.SOLUTION: In a robotic system 100, a control unit 21 includes: a workpiece-support-operation instruction unit 21a that instructs an operation of supporting a workpiece 200 to be executed; a workpiece-positioning-operation instruction unit 21b that instructs a workpiece 200 to be positioned relatively to a workpiece fitting portion 202; and a fitting-work-operation instruction unit 21c that instructs the workpiece 200 to be fitted into the workpiece fitting portion 202 by allowing an end effector 13 of a robot arm 11 to support a base of the workpiece 200 farther from the workpiece fitting portion 202 than a tip end of the workpiece 200 supported by a positioning end effector 16 of a robot arm 12, and by allowing the robot arms 11 and 12 to operate cooperatively with each other.

Description

  The present invention relates to a robot system and a method for manufacturing a fitting.

  Conventionally, a robot system including a robot arm to which an end effector (hand) that grips a workpiece (pin) is attached is known (see, for example, Patent Document 1). The robot system disclosed in Patent Document 1 includes one robot arm. And this robot system is comprised so that the pin hold | gripped with the hand provided in one robot arm may be fitted, and the pin hold | gripped by the hand may be fitted in the hole of a to-be-fitted part. In this robot system, it is considered that the operation of fitting the pin held by the hand of the robot arm into the hole of the part to be fitted is taught in advance.

JP 2003-127081 A

  However, in the robot system described in Patent Document 1, when the posture of the workpiece with respect to the mating target is inappropriate for mating, the robot arm is operated based on the motion taught in advance, and the pin is fitted. There is a case where it cannot be fitted into the hole of the combined part or it takes a lot of time for the fitting work.

  The present invention has been made to solve the above-described problems, and one object of the present invention is to provide a robot system and a method for manufacturing a fitting capable of fitting a workpiece more efficiently. Is to provide.

  In order to achieve the above object, a robot system for fitting a workpiece to a workpiece fitting portion, which includes a first robot arm and a second robot arm to which end effectors are respectively attached, and a first robot arm and a second robot arm. A control unit for controlling the workpiece, and the control unit is fitted with a workpiece support operation command unit that performs an operation of supporting the workpiece by at least one of the first robot arm and the second robot arm. Supported by the end effector of the second robot arm by the work positioning operation commanding part that aligns with the work fitting part while supporting the front end side of the work in the vicinity of the work fitting part to be moved and the end effector of the first robot arm Supports the base side of the workpiece that is farther from the workpiece fitting part than the tip side of the workpiece Te has by operating by cooperation with the first robot arm and a second robot arm, a fitting work operation command section for fitting the workpiece to the workpiece engaging portion.

  In the robot system according to the first aspect, by configuring as described above, the tip end side of the workpiece is aligned by the end effector of the second robot arm, and the first robot arm and the second robot arm are coordinated. Since the workpiece is fitted into the workpiece fitting portion by operating the workpiece, the workpiece is fitted into the workpiece fitting portion using the two robot arms (the first robot arm and the second robot arm) more efficiently. be able to.

  The fitting manufacturing method according to the second aspect is a fitting manufacturing method for fitting a workpiece to a workpiece fitting portion, wherein the workpiece is formed by at least one of the first robot arm and the second robot arm. Is positioned near the workpiece fitting portion while supporting the tip end side of the workpiece in the vicinity of the workpiece fitting portion where the workpiece is fitted by the end effector of the second robot arm, and the end effector of the first robot arm The first robot arm and the second robot arm are operated in cooperation by supporting the base side of the work farther from the work fitting portion than the work tip supported by the end effector of the second robot arm. By this, it has the process of fitting a workpiece | work to a workpiece fitting part.

  The fitting manufacturing method according to the second aspect is configured as described above so that the tip end side of the workpiece is aligned by the end effector of the second robot arm, and the first robot arm and the second robot arm are aligned. Since the workpiece is fitted to the workpiece fitting portion by operating in cooperation with each other, the workpiece is fitted to the workpiece fitting portion using two robot arms (the first robot arm and the second robot arm) more efficiently. The manufacturing method of the fitting thing which can be fitted to can be provided.

  By comprising as mentioned above, a workpiece | work can be fitted more efficiently.

1 is an overall view of a robot system according to a first embodiment. It is a perspective view of the workpiece | work by 1st Embodiment. It is the front view which looked at the workpiece | work by 1st Embodiment from the fitting direction. It is a perspective view of the workpiece fitting member by a 1st embodiment. It is the front view which looked at the work fitting member by a 1st embodiment from the fitting direction. It is a perspective view of the end effector of the robot system by a 1st embodiment. It is the figure which looked at the state where the end effector of the robot system by a 1st embodiment grasped the work from the fitting direction. It is the figure which looked at the state which the end effector for position alignment of the robot system by 1st Embodiment has aligned the workpiece | work from the fitting direction. 1 is a block diagram of a robot system according to a first embodiment. It is a block diagram of the control part of the robot system by a 1st embodiment. It is a flowchart for demonstrating operation | movement of the control part of the robot system by 1st Embodiment. It is a figure showing the state where the end effector for position alignment of the robot system by a 1st embodiment positions a work. It is a figure which shows the state which the end effector of the robot system by 1st Embodiment is translating and rotating a workpiece | work. It is a figure which shows the state (fitting operation | work) in which the end effector of the robot system by 1st Embodiment has made the workpiece fit to the workpiece fitting part. It is a general view of the robot system by 2nd Embodiment. It is a flowchart for demonstrating operation | movement of the control part of the robot system by 2nd Embodiment. It is a figure which shows the state before the workpiece | work of the robot system by 2nd Embodiment is guided. FIG. 18 is an enlarged view showing a state before the work shown in FIG. 17 is guided. It is a figure which shows the state which is guiding the workpiece | work with the end effector of the robot system by 2nd Embodiment. It is a figure which shows the state by which the workpiece | work of the robot system by 2nd Embodiment was fitted by the workpiece fitting part. It is a figure which shows the state by which the visual sensor was attached to the robot arm of the robot system by a modification.

  Hereinafter, embodiments will be described with reference to the drawings.

(First embodiment)
First, the configuration of the robot system 100 according to the first embodiment will be described with reference to FIGS.

  As shown in FIG. 1, the robot system 100 includes a robot 1 and a robot controller 2. In addition, a workpiece fitting member 201 to which the workpiece 200 is fitted is disposed in the vicinity of the robot 1.

  As shown in FIG. 2, in the first embodiment, the workpiece 200 is a long bar-shaped workpiece 200. Moreover, as shown in FIG. 3, the workpiece 200 has a non-circular cross section. Specifically, a groove 200a having a rectangular cross section is formed in the workpiece 200 along the direction in which the workpiece 200 extends. As shown in FIGS. 4 and 5, the workpiece fitting member 201 is provided with a workpiece fitting portion 202 including a non-circular hole that substantially matches the cross-sectional shape of the workpiece 200. Specifically, the workpiece fitting portion 202 has a convex portion 202a that protrudes downward (in the direction of arrow Z2) so as to correspond to the groove portion 200a of the workpiece 200. Moreover, the workpiece | work fitting part 202 consists of a through-hole. A control unit 21 (to be described later) of the robot controller 2 is configured to perform control of moving the workpiece 200 in the lateral direction (X direction) and fitting the workpiece 200 into the workpiece fitting unit 202.

  As shown in FIG. 1, the robot 1 is composed of a vertical articulated robot and includes two robot arms 11 and 12. The robot arm 11 incorporates an actuator (not shown) having a servo motor and a speed reducer corresponding to a rotation axis (for example, 7 axes). Each servo motor is connected to the robot controller 2 and is configured to be operation-controlled based on an operation command from the robot controller 2. The robot arms 11 and 12 are examples of a “first robot arm” and a “second robot arm”, respectively.

  In the first embodiment, the tip of the robot arm 11 has a workpiece 200 farther from the workpiece fitting portion 202 than the tip end side of the workpiece 200 held by the alignment end effector 16 described later of the robot arm 12. An end effector 13 for holding the root side (arrow X2 direction side) is attached. As shown in FIG. 6, the end effector 13 is a gripper capable of gripping and holding the workpiece 200 in the first embodiment, and is provided with a pair of claw portions 14 that can be opened and closed by an actuator (not shown). The claw portion 14 is provided with a groove portion 14a having a semicircular cross section. As shown in FIG. 7, the radius r <b> 1 of the groove 14 a is configured to be approximately the same as the radius r <b> 2 of the workpiece 200. And it is comprised so that the nail | claw part 14 and the workpiece | work 200 may contact | abut in the state which closed the nail | claw part 14, and the workpiece | work 200 is hold | gripped.

  In the first embodiment, as shown in FIG. 6, a force sensor 15 is attached between the robot arm 11 and the end effector 13. The force sensor 15 is configured as a six-axis force sensor that can detect the translational forces of the X, Y, and Z axes and the rotational moments of the X, Y, and Z axes.

  Here, in the first embodiment, as shown in FIG. 1, at the tip of the robot arm 12, in the vicinity of the workpiece fitting portion 202 to which the workpiece 200 is fitted, the tip side of the workpiece 200 (arrow X1 direction side). A positioning end effector 16 for positioning the workpiece fitting portion 202 while gripping the workpiece is attached. The alignment end effector 16 is an end effector that fixedly supports (grips) the workpiece 200. The alignment end effector 16 is an example of an “end effector”. As shown in FIG. 8, the alignment end effector 16 is provided with a pair of claw portions 17 that can be opened and closed by an actuator (not shown). The claw portion 17 is provided with a groove portion 17a having a semicircular cross section. The radius r3 of the groove portion 17a is configured to be substantially the same as the radius r2 of the workpiece 200. And it is comprised so that the nail | claw part 17 and the workpiece | work 200 may contact | abut in the state which closed the nail | claw part 17, and the workpiece | work 200 is hold | gripped. Further, the long bar-shaped workpiece 200 is gripped by the positioning end effector 16 of the robot arm 12 so that the periphery (outer periphery) of the distal end side is surrounded. As shown by the dotted line in FIG. 8, when the workpiece 200 is curved (for example, curved downward (in the direction of arrow Z <b> 2)), the workpiece 200 is gripped by the alignment end effector 16. As a result, the workpiece 200 is brought into a substantially linear state and is aligned with the workpiece fitting portion 202.

  In the first embodiment, the control unit 21 (see FIG. 9) described later of the robot controller 2 is in the vicinity of the workpiece fitting unit 202 to which the workpiece 200 is fitted by the positioning end effector 16 of the robot arm 12. , The workpiece 200 is aligned with the workpiece fitting portion 202 while gripping the tip end side of the workpiece 200, and the end effector 13 of the robot arm 11 holds the tip end side of the workpiece 200 held by the positioning end effector 16 of the robot arm 12. Is also configured to control to grip the base side of the workpiece 200 away from the workpiece fitting portion 202. The control unit 21 is configured to perform control for fitting the workpiece 200 to the workpiece fitting unit 202 by operating the robot arm 11 and the robot arm 12 in cooperation with each other.

  As shown in FIG. 9, the robot controller 2 is provided with a control unit 21 and a memory 22. The memory 22 is connected to the control unit 21. The robot 1 and the force sensor 15 are connected to the control unit 21 of the robot controller 2. In the first embodiment, as shown in FIG. 10, the control unit 21 performs a workpiece support operation command for executing an operation of supporting (gripping) the workpiece 200 by at least one of the robot arm 11 and the robot arm 12. A workpiece positioning operation commanding portion 21b that aligns with the workpiece fitting portion 202 while supporting (gripping) the tip side of the workpiece 200 in the vicinity of the workpiece fitting portion 202 to which the workpiece 200 is fitted, and a robot arm 11 end effector 13 supports (grips) the base side of workpiece 200 farther from workpiece fitting portion 202 than the tip side of workpiece 200 supported (gripped) by positioning end effector 16 of robot arm 12. By operating the robot arm 11 and the robot arm 12 in cooperation with each other, It has a fitting operation operation command unit 21c for fitting the click 200 to the workpiece engaging portion 202, a.

  Next, the operation of the control unit 21 of the robot controller 2 when fitting the workpiece 200 to the workpiece fitting unit 202 will be described with reference to FIGS.

  First, in step S <b> 1 shown in FIG. 11, as shown in FIG. 12, the base side of the workpiece 200 away from the workpiece fitting portion 202 is gripped by the end effector 13 (claw portion 14) of the robot arm 11. Further, the tip end side of the workpiece 200 is gripped by the positioning end effector 16 of the robot arm 12.

  Next, in step S2, in the first embodiment, the end fitting side of the workpiece 200 is gripped by the positioning end effector 16 of the robot arm 12 in the vicinity of the workpiece fitting portion 202 to which the workpiece 200 is fitted. It is aligned with the joint part 202. Specifically, as shown in FIG. 12, the workpiece center (Y direction) when the workpiece 200 gripped by the positioning end effector 16 (groove portion 17a of the claw portion 17) of the robot arm 12 is viewed from the fitting direction. And the center line C1 passing through the center in the Z direction (see FIGS. 3 and 8), and the center of the work fitting portion 202 when viewed from the fitting direction (the centers in the Y direction and the Z direction, The tip end side of the workpiece 200 is gripped by the positioning end effector 16 of the robot arm 12 so that the center line C2 passing through (see FIG. 5) substantially coincides with the workpiece fitting portion 202. Thereby, even when the tip end side of the workpiece 200 is bent, or when the workpiece 200 is gripped by the end effector 13 of the robot arm 11 so as to deviate (intersect) from the fitting direction, the posture (shape) of the workpiece 200 is determined. ) Is corrected to a state where it can be fitted (a state where it can be fitted if a workpiece 200 described later is rotated).

  Next, in step S3, as shown in FIG. 13, in the first embodiment, the robot arm 11 and the robot arm 12 are operated, whereby the workpiece 200 is moved to the workpiece fitting portion 202 side (work fitting member 201). Pressed against. Thereafter, before the workpiece 200 is fitted to the workpiece fitting portion 202, the gripping state of the workpiece 200 by the robot arm 12 is released.

  Next, in step S <b> 4, in the first embodiment, after the workpiece 200 is pressed against the workpiece fitting portion 202 (work fitting member 201), the force sense is detected when the workpiece 200 is pressed against the workpiece fitting portion 202. The robot arm 11 is operated based on the reaction force information obtained from the sensor 15. Thereby, the attitude | position of the workpiece | work 200 is corrected so that the workpiece | work fitting part 202 can be fitted. Specifically, as shown in FIG. 13, based on reaction force information obtained from the force sensor 15 with the direction along the pressing direction (X direction) of the workpiece 200 as a rotation axis (for example, a workpiece fitting unit) 202 (until no reaction force from the workpiece fitting member 201 is detected), the workpiece 200 is rotated, so that the posture of the workpiece 200 is corrected so that the workpiece 200 can be fitted. Specifically, the posture of the workpiece 200 is corrected so that the opening of the groove portion 200a (see FIG. 3) of the workpiece 200 faces in the direction of the arrow Z1 (so that the groove portion 200a matches the convex portion 202a of the workpiece fitting portion 202). Is done. Since the workpiece 200 is pressed in a pre-aligned state, the displacement of the position on the tip side of the workpiece 200 with respect to the workpiece fitting portion 202 is small (almost no), but even when the workpiece 200 is aligned. If the posture (shape) of the workpiece 200 is not in a state where the workpiece 200 can be fitted (a state where the workpiece 200 can be fitted if the workpiece 200 is rotated), the workpiece 200 is moved to find the workpiece fitting portion 202. It is translated (on the YZ plane) with respect to (work fitting member 201).

  Next, in step S5, as shown in FIG. 14, the work 200 is moved in the horizontal direction (in the direction of the arrow X1), whereby the fitting work to the work fitting portion 202 is started. When a reaction force is detected by the force sensor 15 while the workpiece 200 is being fitted to the workpiece fitting portion 202, the posture of the workpiece 200 is corrected in a direction in which the reaction force is not detected. The robot arm 11 is operated. And the fitting operation | work of the workpiece | work 200 is complete | finished.

  In the first embodiment, as described above, the control unit 21 is configured so that the end fitting side of the workpiece 200 supported by the end effector 16 of the robot arm 12 is supported by the end effector 13 of the robot arm 11. A work operation command section 21c for fitting the work 200 to the work fitting section 202 by supporting the base side of the work 200 away from 202 and operating the robot arm 11 and the robot arm 12 in cooperation with each other. It is comprised so that it may have. As a result, the tip end side of the workpiece 200 is aligned by the alignment end effector 16 of the robot arm 12, and the workpiece 200 is moved to the workpiece fitting section 202 by operating the robot arm 11 and the robot arm 12 in cooperation. Since they are fitted, the workpiece 200 can be fitted to the workpiece fitting portion 202 using the two robot arms (the robot arm 11 and the robot arm 12) more efficiently.

  In the first embodiment, as described above, the workpiece 200 held by the positioning end effector 16 (groove portion 17a of the claw portion 17) of the robot arm 12 passes through the workpiece center when viewed from the fitting direction. By the end effector 16 for alignment of the robot arm 12, the center line C 1 and the center line C 2 passing through the center of the work fitting part 202 when the work fitting part 202 is viewed from the fitting direction substantially coincide with each other. While gripping the tip side of the workpiece 200, the workpiece 200 is aligned with the workpiece fitting portion 202. Thereby, the front end side of the workpiece | work 200 can be easily fitted to the workpiece | work fitting part 202. FIG.

  In the first embodiment, as described above, the positioning end effector 16 of the robot arm 12 positions the workpiece 200 while gripping the tip end side of the workpiece 200, and aligns the robot arm 11 and the robot arm. 12, after the workpiece 200 is pressed to the workpiece fitting portion 202 side, before the fitting operation for fitting the workpiece 200 to the workpiece fitting portion 202, the gripping state of the workpiece 200 by the robot arm 12 is released. The control unit 21 is configured as described above. Accordingly, it is possible to prevent the positioning end effector 16 of the robot arm 12 from interfering with the operation during the operation of translating or rotating the workpiece 200 in order to search for the workpiece fitting portion 202. .

  In the first embodiment, as described above, after the gripping state of the workpiece 200 by the robot arm 12 is released, the workpiece 200 is fitted to the workpiece before the fitting operation for fitting the workpiece 200 to the workpiece fitting portion 202. By pressing the robot arm 11 based on the reaction force information obtained from the force sensor 15 when the workpiece 200 is pressed against the workpiece fitting portion 202, the workpiece fitting portion 202 is pressed. The control unit 21 is configured to perform control to correct the posture of the workpiece 200 so that the fitting is possible. Thereby, even when the posture of the workpiece 200 is not in a state in which the workpiece 200 can be fitted into the workpiece fitting portion 202, the posture of the workpiece 200 is corrected to a state in which the workpiece 200 can be fitted into the workpiece fitting portion 202. The mating portion 202 can be smoothly fitted. In particular, since the workpiece 200 is pressed in a state in which the robot arm 12 has been aligned in advance, the displacement of the position of the tip of the workpiece 200 with respect to the workpiece fitting portion 202 is small (almost no). Thereby, since it is not necessary to correct | amend the attitude | position (position) of the workpiece | work 200 largely, the workpiece | work 200 can be fitted to the workpiece | work fitting part 202 smoothly and rapidly.

  In the first embodiment, as described above, after releasing the gripping state of the workpiece 200 by the robot arm 12, before the fitting operation for fitting the workpiece 200 to the workpiece fitting portion 202 by the robot arm 11, The control unit 21 is configured to perform control to correct the posture of the workpiece 200 so that the workpiece 200 can be fitted to the workpiece fitting unit 202 by rotating the workpiece 200 with the direction along the pressing direction of the 200 as a rotation axis. As a result, the center line C1 (see FIG. 3) passing through the center of the workpiece 200 and the center line C2 of the workpiece fitting portion 202 when the workpiece 200 gripped by the positioning end effector 16 of the robot arm 12 is viewed from the fitting direction. Even if the opening direction of the groove portion 17a of the workpiece 200 and the protruding direction of the groove portion 200a of the workpiece fitting portion 202 do not match, the direction along the pressing direction of the workpiece 200 is used as the rotation axis. By rotating the workpiece 200, the workpiece 200 can be easily fitted to the workpiece fitting portion 202.

  Moreover, in 1st Embodiment, the control part 21 is comprised so that the workpiece | work 200 may be moved to a horizontal direction and the control fitted to the workpiece | work fitting part 202 may be performed. Here, when the long bar-shaped workpiece 200 is fitted in a state in which it is in the horizontal direction, the posture (shape) of the workpiece 200 is likely to be inappropriate due to bending due to its own weight. The long rod-shaped workpiece 200 can be easily fitted to the workpiece fitting portion 202 by aligning the tip of the workpiece while movably gripping the tip.

  In the first embodiment, as described above, the control unit 21 is controlled by the positioning end effector 16 of the robot arm 12 so as to surround the periphery of the tip end side of the long bar-shaped workpiece 200. Configure as follows. Thereby, even when the workpiece 200 is curved (deformed) in any direction of the outer circumferential direction (see FIG. 8), the end side of the workpiece 200 is easily grasped by the positioning end effector 16 of the robot arm 12. However, it can be aligned with the workpiece fitting portion 202.

(Second Embodiment)
Next, the configuration of the robot system 101 according to the second embodiment will be described with reference to FIG. In the second embodiment, unlike the first embodiment in which the workpiece 200 is fitted to one workpiece fitting portion 202, the workpiece 200 is fitted to the two workpiece fitting portions 211 and 212. The workpiece fitting portions 211 and 212 are examples of a “first workpiece fitting portion” and a “second workpiece fitting portion”, respectively.

  As shown in FIG. 15, a workpiece fitting member 210 to which the workpiece 200 is fitted is disposed in the vicinity of the robot 1. The workpiece fitting member 210 includes a workpiece fitting portion 211 and a workpiece fitting portion 212 that are formed of through holes that are arranged adjacent to the fitting direction (X direction) of the workpiece 200. The workpiece fitting portion 211 and the workpiece fitting portion 212 are formed from non-circular holes that substantially match the cross-sectional shape of the workpiece 200, similarly to the workpiece fitting portion 202 (see FIG. 5) of the first embodiment. Become. In addition, the other structure of 2nd Embodiment is the same as that of the said 1st Embodiment.

  Next, the operation of the control unit 21 of the robot controller 2 when fitting the workpiece 200 to the workpiece fitting portions 211 and 212 will be described with reference to FIGS.

  First, in step S <b> 11 shown in FIG. 16, the tip end side of the workpiece 200 is gripped by the positioning end effector 16 of the robot arm 12 in the workpiece fitting portion 211, as in steps S <b> 1 to S <b> 5 of the first embodiment. At the same time, the end effector 13 of the robot arm 11 grips the base side of the workpiece 200 away from the workpiece fitting portion 211. The workpiece 200 is fitted to the workpiece fitting portion 211 by operating the robot arm 11 and the robot arm 12 in cooperation. Thereafter, as shown in FIG. 17, the workpiece 200 is moved in the direction of the arrow X <b> 1 by the end effector 13 of the robot arm 11, thereby moving the workpiece 200 to the vicinity of the workpiece fitting portion 212. At this time, since the base side of the workpiece 200 is fitted to the first workpiece fitting portion 211, the workpiece 200 is unlikely to be bent sideways and upward, but as shown in FIG. The distal end side may be curved downward (arrow Z2 direction side) by its own weight.

  Next, in step S <b> 12, in the second embodiment, the positioning end effector 16 of the robot arm 12 is moved between the workpiece fitting portion 211 and the workpiece fitting portion 212. In step S13, unlike the case where the workpiece 200 is fitted to the first workpiece fitting portion 211 where the workpiece 200 is aligned, the tip side of the workpiece 200 penetrating from the workpiece fitting portion 211 is the robot arm 12. It is guided while being movably gripped by the positioning end effector 16. Specifically, after the end effector 16 for alignment of the robot arm 12 is moved along the workpiece 200 from the base side (see FIG. 17) to the tip side (see FIG. 19) of the workpiece 200, the tip side of the workpiece 200 is moved. Guided while being movably gripped. At this time, it is guided so that the lower side (lower surface) of the workpiece 200 is supported. As a result, as shown in FIG. 19, the tip end side of the workpiece 200 extends from a state of being curved downward (arrow Z2 direction side) to a substantially linear shape. At this time, a center line C3 passing through the workpiece center when the workpiece 200 held by the positioning end effector 16 (groove portion 17a of the claw portion 17) of the robot arm 12 is viewed from the fitting direction, and the workpiece fitting portion 212. Is substantially coincident with the center line C4 passing through the center of the workpiece fitting portion 212 when viewed from the fitting direction. In step S14, as shown in FIG. 20, the workpiece 200 is moved in the arrow X1 direction by the end effector 13 of the robot arm 11, so that the workpiece 200 is fitted into the workpiece fitting portion 212, and the workpiece 200 is moved. The fitting operation is completed.

  In the second embodiment, as described above, the positioning end effector 16 of the robot arm 12 aligns with the workpiece fitting portion 211 while gripping the tip end side of the workpiece 200 in the vicinity of the workpiece fitting portion 211. After the workpiece 200 is fitted to the workpiece fitting portion 211 by the end effector 13 of the robot arm 11, the positioning end effector 16 of the robot arm 12 is moved between the workpiece fitting portion 211 and the workpiece fitting portion 212. The workpiece 200 is fitted to the workpiece fitting portion 212 by guiding the tip end side of the workpiece 200 penetrating from the workpiece fitting portion 211 while being movably gripped by the positioning end effector 16 of the robot arm 12. The control unit 21 is configured to perform control. Accordingly, the workpiece 200 is aligned in the fitting operation to the workpiece fitting portion 211, and the tip side of the workpiece 200 is guided in the fitting operation to the workpiece fitting portion 212. The fitting portion 211 and the workpiece fitting portion 212 can be smoothly fitted.

  In the second embodiment, as described above, after the end effector 16 for alignment of the robot arm 12 is moved between the workpiece fitting portion 211 and the workpiece fitting portion 212, the workpiece 200 is moved to the workpiece fitting portion. Before the fitting operation for fitting to 212, the end effector 16 for positioning of the robot arm 12 is moved along the workpiece 200 from the root side to the tip side of the workpiece 200, and then the tip side of the workpiece 200 can be moved. The control unit 21 is configured to perform control so as to guide while gripping. Thereby, even when the tip side of the workpiece 200 is curved downward, the workpiece 200 is substantially moved by the movement of the positioning end effector 16 of the robot arm 12 from the root side to the tip side of the workpiece 200 along the workpiece 200. Therefore, the workpiece 200 can be smoothly fitted to the workpiece fitting portion 212.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is shown not by the above description of the embodiments but by the scope of claims for patent, and further includes all modifications within the meaning and scope equivalent to the scope of claims for patent.

  For example, in the first and second embodiments, the example is shown in which the workpiece is gripped by the end effectors (guide end effectors) of the two robot arms. For example, the two robots are gripped by a method other than gripping. The workpiece may be supported by each end effector (guide end effector) of the arm.

  In the first and second embodiments, the example in which the base side of the workpiece is gripped by the end effector of the robot arm (first robot arm) is shown. However, for example, the end effector of the robot arm (second robot arm) If it is the base side of the workpiece farther from the workpiece fitting portion than the tip side of the workpiece gripped by, the center portion of the workpiece may be gripped by the end effector of the robot arm (first robot arm).

  In the first and second embodiments, the workpiece gripped by the positioning end effector of the robot arm is passed through the center line of the workpiece when viewed from the fitting direction and the center of the workpiece fitting portion. An example of positioning the workpiece fitting portion while gripping the tip end side of the workpiece so that the center line substantially coincides with the center line. For example, the inner bottom surface and the hole of the end effector (groove portion of the claw portion) of the robot arm You may make it align with a workpiece | work fitting part so that the height position with the inner bottom face of the workpiece | work fitting part which consists of a part may correspond substantially.

  In the first and second embodiments, a force sensor is provided in the robot arm and the robot arm is operated based on the reaction force information obtained from the force sensor. For example, FIG. As shown in the modification shown in the figure, a robot arm is provided with a visual sensor, and the robot arm 11 is operated based on image information obtained from the visual sensor 18, so that the workpiece can be fitted into the workpiece fitting portion 202. The 200 postures may be corrected.

  In the first and second embodiments, the workpiece has a non-circular cross section provided with a groove portion, and the work fitting portion includes a non-circular hole portion provided with a convex portion. For example, the cross section of the workpiece has an elliptical shape (triangular shape, quadrangular shape, etc.), and the work fitting portion is composed of a non-circular hole having an elliptical shape (triangular shape, quadrangular shape, etc.). It may be. Further, the work may have a perfect circular cross section, and the work fitting portion may be a perfect circular hole.

  Moreover, in the said 1st and 2nd embodiment, although the workpiece | work consists of a long rod-shaped workpiece | work, the example to which a workpiece | work is moved to a horizontal direction and fitted to a workpiece fitting part was shown, For example, a workpiece | work is made into the vertical direction And may be fitted to the work fitting portion. Further, the shape of the workpiece may be a shape other than a long bar shape.

  In the first and second embodiments described above, an example is shown in which the end effector of the robot arm is used to position the workpiece at the workpiece fitting portion while gripping the tip end side of the workpiece so as to surround the periphery (outer periphery) of the long rod-shaped workpiece. However, for example, the outer periphery of the long rod-shaped workpiece may be partially supported and aligned with the workpiece fitting portion.

  Moreover, in the said 1st and 2nd embodiment, after a workpiece | work is pressed by the workpiece fitting part, a workpiece | work is rotated by using the direction along the pressing direction of a workpiece | work as a rotating axis (step S4 of FIG. 11, FIG. 13). However, for example, if the work is held in a state where the work can be fitted to the work fitting portion even if the work does not rotate, the fitting work may be performed without rotating the work. .

11 Robot arm (first robot arm)
12 Robot arm (second robot arm)
13 End Effector 15 Force Sensor 16 Positioning End Effector (End Effector)
18 visual sensor 21 control unit 21a work support operation command unit 21b work positioning operation command unit 21c fitting work operation command unit 100, 101 robot system 200 work 202 work fitting unit 211 work fitting unit (first work fitting unit)
212 Work fitting part (second work fitting part)

Claims (11)

A robot system for fitting a workpiece to a workpiece fitting portion,
A first robot arm and a second robot arm to which end effectors are respectively attached;
A control unit for controlling the first robot arm and the second robot arm,
The controller is
A workpiece support operation command unit that performs an operation of supporting the workpiece by at least one of the first robot arm and the second robot arm;
A workpiece positioning operation commanding unit that aligns with the workpiece fitting unit while supporting the tip side of the workpiece in the vicinity of the workpiece fitting unit to which the workpiece is fitted;
The end effector of the first robot arm supports the base side of the work that is farther from the work fitting portion than the tip side of the work supported by the end effector of the second robot arm, and A robot system, comprising: a fitting work operation command unit configured to fit the workpiece into the workpiece fitting unit by operating the robot arm and the second robot arm in cooperation with each other.   The workpiece positioning operation command unit of the control unit fits the center line passing through the workpiece center when the workpiece gripped by the end effector of the second robot arm is viewed from the fitting direction, and the workpiece fitting unit. The workpiece fitting portion is held by the end effector of the second robot arm while gripping the tip end side of the workpiece so that the center line passing through the center of the workpiece fitting portion when viewed from the alignment direction is substantially coincident with the center line. The robotic system of claim 1, wherein the robotic system is configured to control to align.   The fitting operation operation command unit of the control unit is aligned with the workpiece fitting unit while gripping the tip end side of the workpiece by the end effector of the second robot arm, and the first robot arm and the first robot arm (2) After the workpiece is pressed against the workpiece fitting portion by operating the robot arm, the workpiece is gripped by the second robot arm before the fitting operation for fitting the workpiece into the workpiece fitting portion. The robot system according to claim 1, wherein the robot system is configured to release the state. A visual sensor or a force sensor provided on the first robot arm;
The fitting operation operation command unit of the control unit releases the gripping state of the workpiece by the second robot arm and then before the fitting operation of fitting the workpiece to the workpiece fitting unit, the visual sensor. Alternatively, by controlling the first robot arm based on image information or reaction force information obtained from the force sensor, control is performed to correct the posture of the workpiece so that the workpiece can be fitted into the workpiece fitting portion. The robot system according to claim 3, configured as described above. The first robot arm includes the force sensor,
The fitting operation operation command unit of the control unit releases the gripping state of the workpiece by the second robot arm, and then before the fitting operation of fitting the workpiece to the workpiece fitting unit, By pressing the work fitting portion side and operating the first robot arm based on reaction force information obtained from the force sensor when the work is pressed against the work fitting portion, The robot system according to claim 4, wherein the robot system is configured to perform control for correcting the posture of the workpiece so that the fitting portion can be fitted. The work has a non-circular cross section, and the work fitting portion is a non-circular hole that substantially matches the cross-sectional shape of the work,
The control unit, after releasing the gripping state of the workpiece by the second robot arm, before the fitting operation of fitting the workpiece to the workpiece fitting portion by the first robot arm, The control of correcting the posture of the workpiece so as to be able to be fitted to the workpiece fitting portion by rotating the workpiece with the direction along the axis as a rotation axis. The robot system according to any one of claims. The workpiece includes a long rod-shaped workpiece,
The robot system according to claim 1, wherein the control unit is configured to perform control of moving the workpiece in a lateral direction and fitting the workpiece into the workpiece fitting unit.   The robot system according to claim 7, wherein the control unit is configured to perform control so as to surround the periphery of the tip end side of the long bar-shaped workpiece by an end effector of the second robot arm. . The workpiece fitting portion includes a first workpiece fitting portion and a second workpiece fitting portion formed of a through hole arranged adjacent to the fitting direction of the workpiece,
The control unit aligns with the first workpiece fitting unit while gripping the tip side of the workpiece in the vicinity of the first workpiece fitting unit by an end effector of the second robot arm. After the workpiece is fitted to the first workpiece fitting portion by the end effector of the robot arm, the end effector of the second robot arm is interposed between the first workpiece fitting portion and the second workpiece fitting portion. The workpiece is guided to the second workpiece fitting portion by moving and guiding the tip side of the workpiece penetrating from the first workpiece fitting portion while being movably held by the end effector of the second robot arm. The robot system according to claim 1, wherein the robot system is configured to perform fitting control.   The control unit moves the end effector of the second robot arm between the first workpiece fitting unit and the second workpiece fitting unit, and then fits the workpiece into the second workpiece fitting unit. Before the fitting operation, the end effector of the second robot arm is moved along the workpiece from the base side to the tip side of the workpiece, and then the tip side of the workpiece is guided while being movably gripped. The robot system according to claim 9, wherein the robot system is configured to perform control. A method of manufacturing a fitting for fitting a workpiece to a workpiece fitting portion,
The workpiece is supported by at least one of the first robot arm and the second robot arm,
In the vicinity of the workpiece fitting portion where the workpiece is fitted by the end effector of the second robot arm, the workpiece is fitted to the workpiece fitting portion while supporting the tip side of the workpiece,
The end effector of the first robot arm supports the base side of the work that is farther from the work fitting portion than the tip side of the work supported by the end effector of the second robot arm, and A method for manufacturing a fitting, comprising: a step of fitting the workpiece into the workpiece fitting portion by operating a robot arm and the second robot arm in cooperation with each other.

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