JP2013123788A - Workpiece work system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a workpiece work system for efficiently, reliably, and automatically performing a series of steps of delivering a workpiece from a warehouse, conveying the delivered workpiece and performing work on the workpiece.SOLUTION: In the workpiece work system, a detection device detects an attitude and position of a workpiece W, W' delivered from a warehouse 250 while placed on a pallet 201; a robot 100, 100' changes an attitude and position of a workpiece gripping device 1, 1' based on the detected information, thereby makes the workpiece gripping device 1, 1' straightly face the workpiece W, W' to surely grip the workpiece W, W', and transfers the workpiece toward a workpiece receiving unit 300, 300'; and then a working device 310, 310' performs work on the workpiece W, W'.

Description

  The present invention relates to a work work system, and more particularly, to a work work system that automatically performs a series of steps of delivering a work from a warehouse, transferring the delivered work, and performing work on the work.

For example, in a production line in which a plurality of parts are processed and assembled to complete a product having various variations, a technique for conveying a workpiece using a robot is employed.
A robot hand as a workpiece gripping device for gripping a workpiece is attached to a robot arm of a robot related to workpiece conveyance. Then, the robot moves the robot hand mounted on the robot arm, holds the workpiece with the robot hand, and transfers it.

  In relation to workpiece conveyance using a robot, for example, Patent Document 1 discloses a technique for automatically exchanging a heavy workpiece using a robot with respect to a jig attached to a jig mounting device. Yes. This jig mounting device can hold a workpiece attached to the jig in an arbitrary posture by tilting and swiveling so as to be suitable for work such as processing in a subsequent process. For this reason, the robot does not need to greatly change the posture of the workpiece while holding a heavy workpiece, and only needs to attach the workpiece to the jig.

JP 2004-237444 A

  However, Patent Document 1 merely discloses a technique for preventing an excessive moment from being applied to the wrist of the robot with respect to workpiece conveyance using the robot. That is, the invention described in Patent Document 1 does not present a technique for efficiently and surely automatically performing a series of steps of delivering a workpiece from a warehouse, transferring the delivered workpiece, and performing work on the workpiece. . Accordingly, in order to improve the productivity by realizing the automation of a series of processes, appropriate measures are required.

  The present invention has been made in view of such circumstances, and a workpiece that unloads a workpiece from a warehouse, transfers the unloaded workpiece, and performs a work on the workpiece is efficiently and reliably performed. The purpose is to provide a working system.

  In order to achieve the object, the invention described in claim 1 is a pallet on which a workpiece can be placed, a delivery device for delivering the work placed on the pallet from a warehouse, and the delivery device. A detection device that detects the posture and position of a workpiece placed on the pallet, a robot arm, and a workpiece gripping device that is attached to the robot arm and grips the workpiece with a gripping portion, and is detected by the detection device. A robot that changes the posture and position of the workpiece gripping device based on the posture and position of the workpiece and grips and transfers the workpiece on the pallet with the gripping portion; and a workpiece receiver that receives the workpiece transferred by the robot And a work device for performing work on the work received by the work receiving part. .

According to the present invention, the detection device detects the posture and position of the workpiece to be delivered from the warehouse while being placed on the pallet, and the robot changes the posture and position of the workpiece gripping device based on the detected information. By doing so, the work gripping device is made to face the work and the work is securely gripped and transferred toward the work receiving portion, so that the work device can perform work on the work.
Accordingly, it is possible to provide a work work system that automatically and efficiently performs a series of steps of unloading a work from a warehouse, transferring the unloaded work, and performing work on the work.

  A second aspect of the present invention is the work work system according to the first aspect, wherein a plurality of the robots are provided, and each robot grips a workpiece.

  According to this invention, a plurality of robots are prepared, and each robot can grip each workpiece by each workpiece gripping device and transfer it to the workpiece receiving unit. As a result, it is possible to simultaneously send a plurality of workpieces to the working apparatus, and the efficiency becomes better.

  A third aspect of the present invention is the work work system according to the second aspect, wherein each of the robots includes a different work gripping device that grips a different work.

  According to the present invention, a plurality of robots are prepared, and each robot can grip a different work with a different work gripping device and transfer it to a work receiving unit. As a result, it is possible to simultaneously send a plurality of different workpieces to the working device. For example, when a certain product has a plurality of different workpieces as components, it is possible to perform a plurality of different workpieces simultaneously. And the efficiency is better.

  Invention of Claim 4 is the work work system of Claim 2 or Claim 3, Comprising: It provided with the workpiece carrying-out apparatus which carries out the said several workpiece | work synchronously from the said working device, To do.

According to the present invention, when a plurality of workpieces are required in the process after unloading from the workpiece unloading device, it is convenient that these are unloaded in synchronism, and the efficiency becomes better.
For example, in the transmission assembly process, since one torque converter case and one transmission case are required for assembling one transmission, the torque converter case and the transmission case are carried out synchronously rather than being carried apart. This is more convenient for assembly work in a later process.

  Invention of Claim 5 is a workpiece | work work system as described in any one of Claim 1 thru | or 4, Comprising: The said warehousing apparatus makes the pallet in which the workpiece | work was mounted in the taking-out position of the said workpiece | work. A pallet stopping mechanism for stopping and a pallet collecting mechanism for collecting a pallet that has been emptied by transferring a work and returning the pallet to the warehouse are provided.

  According to this invention, since the pallet on which the workpiece is placed is stopped at the take-out position, the robot can more easily and reliably grip the workpiece with the workpiece gripping device. Further, since the pallet that has been emptied is collected and returned to the warehouse, the pallet can be quickly reused without stagnation, resulting in better efficiency.

  Invention of Claim 6 is a workpiece | work work system as described in any one of Claim 1 thru | or 5, Comprising: A several workpiece | work is on the workpiece mounting surface in which the workpiece | work of the said pallet is mounted. Protrusions that divide the plurality of workpieces individually when placed are formed.

  According to the present invention, for example, even when the work placement surface of the pallet is inclined, the work is in contact with the protrusion and is regulated, so that the work is greatly displaced on the work placement surface of the pallet. Can be suppressed. As a result, the robot can more reliably grip the workpiece with the workpiece gripping device.

  Invention of Claim 7 is a workpiece | work work system as described in any one of Claim 1 thru | or 6, Comprising: The said warehousing apparatus makes the pallet in which the several workpiece | work was mounted 1 step | paragraph in the perpendicular direction The workpieces are delivered from the warehouse in a state of being stacked in a plurality of stages.

  According to this invention, since a work can be stored in a warehouse in a state where a plurality of pallets on which a plurality of works are placed are stacked, the space occupied by the work in the warehouse can be reduced. Moreover, since a workpiece | work can be delivered in the state piled up in multiple steps from the warehouse, efficiency becomes more favorable.

  Invention of Claim 8 is a workpiece | work work system as described in any one of Claim 1 thru | or 7, Comprising: The said detection apparatus performs the said image by processing the image obtained based on the workpiece | work. It is characterized by detecting the posture and position of the workpiece.

  According to the present invention, even if the pallet on which the workpiece is placed is tilted or slightly uneven, the workpiece posture and position can be detected quickly and accurately. It becomes possible to grip more reliably.

  A ninth aspect of the present invention is the work work system according to any one of the first to eighth aspects, wherein the work gripping device is allowed to move in the work gripping device and is restricted. It has the said holding | grip part which can be switched to the state performed.

  According to this invention, it is possible to flexibly cope with various workpieces having different positions of the gripped portion by previously aligning the gripped portion with the gripped portion of the workpiece. For positioning of the gripping part, a driving device for moving the gripping part may be provided in the robot or workpiece gripping device, but an external gripping part positioning mechanism that moves the gripping part to the set position is used. Can also be realized.

  A tenth aspect of the present invention is the work work system according to the ninth aspect, wherein the work work system includes an engagement portion that can be engaged with the grasping portion, and the movement in the work grasping device is allowed. A gripping part positioning mechanism is provided that moves and positions the gripping part engaged with the gripping part in a three-dimensional manner to a position corresponding to the gripped part of the work according to the type of the work. It is characterized by that.

According to the present invention, the gripping portion provided in the workpiece gripping device mounted on the robot arm can be changed according to the type of workpiece without providing a driving device for moving the gripping portion to the robot or the workpiece gripping device. Thus, by moving and positioning, it is possible to automatically change the position of the gripping portion in the workpiece gripping device.
Therefore, it becomes possible to deal with various workpieces having variations while reducing the weight of the tip side of the robot arm.

  Invention of Claim 11 is a workpiece | work work system as described in any one of Claim 1 thru | or 8, Comprising: The said workpiece | work holding device clamps the 1st to-be-clamped part of a workpiece | work 1st. The gripping portion having a second finger for sandwiching the finger and the second sandwiched portion of the workpiece, a moving device for movably supporting at least one of the first finger and the second finger, And a rotation device that rotatably supports at least one of the first finger and the second finger.

  According to this invention, since the to-be-clamped parts, such as a rib, in a workpiece | work are clamped in two places, the various workpiece | work which has a variation can be hold | maintained reliably and can be conveyed. In addition, since the finger position can be moved in accordance with the workpiece clamping portion, and the finger can be rotated and the clamping direction can be adjusted as appropriate, the workpiece clamping portion has a different position and shape orientation. It is possible to flexibly handle the workpiece and securely clamp the workpiece clamping portion.

  A twelfth aspect of the present invention is the work work system according to any one of the first to eleventh aspects, wherein the work gripping device includes a support plate on which the gripping portion is disposed. The posture control device is attached to the robot arm via a posture control device, and the posture control device is attached between the fixed plate fixed to the robot arm, the support plate and the fixed plate, and the support plate is attached to the robot arm. An elastic mechanism that elastically supports the fixed plate; and a posture detection device that detects a posture of the workpiece gripping device with respect to the workpiece. The posture detection device includes a support shaft that contacts the workpiece, Contact detecting means for detecting that the support shaft is in contact with the workpiece.

  According to the present invention, the posture of the workpiece gripping device mounted on the robot arm with respect to the workpiece can be suitably controlled.

  Invention of Claim 13 is a workpiece | work work system as described in any one of Claim 1 thru | or 12, Comprising: The said workpiece | work holding device is a support plate with which the said holding part is arrange | positioned, A connection portion connected to the support plate, and a suction portion that is provided at a tip of the connection portion and contacts the surface of the pallet and sucks the pallet by air suction.

  According to the present invention, the used empty pallet can be reliably held and transported with an inexpensive configuration by the suction portion attached to the workpiece gripping device.

  The invention described in claim 14 is the work work system according to claim 13, wherein the connection portion is configured such that an installation site of the suction portion in the connection portion is displaceable. .

  According to the present invention, it is possible to avoid the suction portion from interfering with the workpiece when holding the workpiece or detecting the posture and position of the workpiece.

  The invention according to claim 15 is the work work system according to claim 14, wherein the connecting portion is connected to the support plate so as to be swingable, and the shaft approaches the support plate. And a folding device that swings between a position folded in a direction and a position extended in a separating direction.

  According to the present invention, the suction portion can be greatly displaced by a simple folding structure, and interference between the suction portion and the workpiece can be avoided easily and reliably.

  ADVANTAGE OF THE INVENTION According to this invention, the workpiece | work work system which unloads a workpiece | work from a warehouse, transfers the delivered workpiece | work, and performs a work on the said workpiece | work can be performed automatically efficiently and reliably.

1 is a schematic plan view showing an overall configuration of a work work system according to an embodiment of the present invention. FIG. 2 is an enlarged plan view around a robot of the work work system shown in FIG. 1. It is the figure seen from V of FIG. It is sectional drawing which shows the structure of the principal part of the attitude | position control apparatus of a workpiece | work holding apparatus. It is a figure which shows a pallet adsorption | suction apparatus, (a) is a side view, (b) is a front view. It is a front view which shows a detection apparatus. It is a figure which shows operation | movement of the holding | grip mechanism in a workpiece | work holding apparatus, (a) is sectional drawing, (b) is a side view of a front-end | tip part. It is a figure which shows the holding mechanism in a workpiece | work holding apparatus, (a) is a perspective view, (b) is the state before holding, (c) is an exploded view of a driven member, (d) shows the state hold | gripped. . It is a schematic sectional drawing which shows a mode that the positioning of the holding | grip mechanism in a workpiece | work holding device is performed using a holding part positioning device. It is a typical front view which shows operation | movement (when the rigidity of the pallet which mounts a workpiece | work is high) in the attitude | position control apparatus, (a) is the state before inserting the front-end | tip part of a holding mechanism in a to-be-held part, (B) shows the state after inserting the front-end | tip part of a holding mechanism in a to-be-held part. It is a typical front view which shows operation | movement (when the rigidity of the pallet which mounts a workpiece | work is low) in an attitude | position control apparatus, (a) is the state before inserting the front-end | tip part of a holding mechanism in a to-be-held part, (B) shows the state after inserting the front-end | tip part of a holding mechanism in a to-be-held part. It is a partial front sectional view for explaining operation of a work gripping device, and shows a state before gripping with a gripping device. It is a fragmentary front sectional view for demonstrating operation | movement of a workpiece | work holding apparatus, and shows the state which the support shaft contact | abutted to the workpiece | work. It is a fragmentary front sectional view for demonstrating operation | movement of a workpiece | work holding apparatus, and shows the state which the outer cylinder of the support shaft contact | abutted to the workpiece | work. It is a fragmentary front sectional view for demonstrating operation | movement of a workpiece | work holding | grip apparatus, and shows the state which clamp was completed. It is a fragmentary front sectional view for demonstrating operation | movement of the workpiece | work holding | gripping apparatus when the workpiece | work has produced the position shift excessively. It is a top view of a holding part positioning device. It is a side view of a holding part positioning device. It is a figure which shows the periphery of the engaging member which has an engaging recessed part shown by FIG. 17 and FIG. 18, (a) is a top view, (b) is a front view. It is a figure which shows the periphery of the engaging member which has an engaging convex part of the holding part positioning device used when the to-be-held part of workpiece | work is convex parts, such as a boss | hub, (a) is a top view, (b) Is a front view. It is a front view which shows the palette adsorption | suction apparatus which concerns on a modification. It is a principal part enlarged plan view which shows a mode that a workpiece | work is clamped with the workpiece | work holding device which concerns on a modification. It is sectional drawing which shows the whole structure of the workpiece holding apparatus shown by FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings as appropriate.
FIG. 1 is a schematic plan view showing an overall configuration of a work work system according to an embodiment of the present invention.

<Overall configuration of work work system>
As shown in FIG. 1, the workpiece work system according to the present embodiment unloads a pallet 201 on which workpieces W and W ′ can be placed, and the workpieces W and W ′ placed on the pallet 201 from a warehouse 250. Unloader 200, 200 ', detection device 260 (see FIG. 6) for detecting the posture and position of workpieces W, W' unloaded by unloader 200, 200 'and placed on pallet 201, on pallet 201 Articulated robots (hereinafter simply referred to as “robots”) 100, 100 ′ for gripping and transferring the workpieces W, W ′, and a workpiece receiver 300 for receiving the workpieces W, W ′ transferred by the robots 100, 100 ′. , 300 ′, work devices 310, 310 ′ for performing work on the workpieces W, W ′ received by the work receiving portions 300, 300 ′, and work devices 310, 310 ′. Over click W, and includes a, a 'work unloading device 320, 320 for unloading the' W.

  The work work system also includes a control device 270 that controls each part of the work work system. For convenience of explanation, only one workpiece W is drawn on the pallet 201 in FIG. 1, and the other workpieces W and W ′ are omitted (the same applies to FIG. 2).

  In the present embodiment, a plurality of robots 100 and 100 'are provided. The robot 100 can grip and transfer the workpiece W, and the robot 100 'can grip and transfer the workpiece W'. Here, the workpiece W and the workpiece W ′ are different from each other, and different workpieces indicate cases where they have different functions as articles. For example, the workpiece W and the workpiece W ′ are a transmission case and a torque converter case that are assembled with each other. However, the present invention is not limited to this, and can be applied to gripping various workpieces.

  Further, here, for example, the transmission case changes the position of the concave portion that becomes the gripped portion Wa (see FIG. 4) according to the product variation, and the torque converter case is the same. In this sense, there are a plurality of types of workpieces W and a plurality of types of workpieces W ′.

  The robot 100 includes a workpiece gripping device 1 that grips a workpiece W with a gripping mechanism (grip unit) 11 (see FIG. 4). The robot 100 ′ grips a workpiece W ′ different from the workpiece W with the gripping mechanism 11. A workpiece gripping device 1 'is provided. Here, the workpiece gripping device 1 and the workpiece gripping device 1 'are different. Then, the workpiece gripping device 1 has a gripper positioning device 500 in the vicinity of the robot 100 for moving and positioning the gripping mechanism 11 according to the type of the workpiece W in order to adapt the gripping mechanism 11 to various workpieces. Separately provided. In addition, the workpiece gripping device 1 ′ is provided with a gripper positioning device 500 ′ for positioning the gripping mechanism 11 by moving the gripping mechanism 11 according to the type of the workpiece W ′ in order to adapt the gripping mechanism 11 to various workpieces. It is provided separately near ′.

  The workpiece receiving unit 300 is a workpiece placing unit on which the workpiece W is placed, and transports the placed workpiece W toward the work device 310. The workpiece receiving unit 300 ′ is a workpiece placing unit on which the workpiece W ′ is placed, and conveys the placed workpiece W ′ toward the working device 310 ′. Specifically, the workpiece receiving units 300 and 300 ′ are configured by a conveyor such as a roller conveyor. Here, the working device 310 is a device that cleans and drys the workpiece W with air or liquid, and the working device 310 ′ is a device that cleans and drys the workpiece W ′ with air or liquid. The workpiece unloading device 320 and the workpiece unloading device 320 ′ are configured to be able to unload the workpiece W and the workpiece W ′ from the working device 310 and the working device 310 ′ in synchronization.

  The configuration related to gripping, transferring, and the like of the workpiece W using the robot 100 has a structure having the same function as the configuration related to gripping, transferring, etc., of the workpiece W ′ using the robot 100 ′ only with a different shape and size. Therefore, the following description will focus on the configuration related to gripping, transferring, and the like of the workpiece W using the robot 100.

  FIG. 2 is an enlarged plan view of the periphery of the robot 100 of the work work system shown in FIG. FIG. 3 is a view as seen from V in FIG.

As shown in FIG. 2, the workpiece gripping device 1 can be suitably used as a gripping device (robot hand) that is mounted on the tip 102 of the robot arm 101 of the robot 100 and grips the workpiece W having various variations. it can.
In the present embodiment, a case will be described in which the workpiece gripping device 1 is mounted on the posture control device 2 described later and mounted on the robot 100.

  The robot 100 uses a workpiece gripping device 1 (see also FIG. 4) in which the workpiece W placed on the pallet 201 that has been transported to the take-out position 202 by the unloading device 200 is mounted on the distal end portion 102 of the robot arm 101. A process of holding the gripped portion Wa (see FIG. 4) of the workpiece W at three locations, turning the robot arm 101 to release the gripped state, and transferring it to the workpiece receiving portion 300 is performed.

  As shown in FIGS. 2 and 3, the unloading apparatus 200 is emptied by the pallet retaining mechanism 203 that stops the pallet 201 on which the workpiece W is placed at the take-out position 202 of the workpiece W, and the workpiece W is transported. A pallet collection mechanism 204 that collects the pallet 201 and returns it to the warehouse 250 (see FIG. 1, the same applies hereinafter).

  The pallet stopping mechanism 203 includes a conveyor 206 that conveys the moving plate 209 (see FIG. 3) on which the pallet 201 on which the work W is placed from the warehouse 250 to the take-out position 202, and the pallet 201 on which the work W is placed. In order to stop at the take-out position 202, a stopper 203a that comes into contact with the moving plate 209 conveyed by the conveyor 206 and stops at the take-out position 202 is provided. The pallet 201 and the moving plate 209 are made of, for example, synthetic resin, and the moving plate 209 is set to be thicker than the pallet 201 and has higher rigidity.

  The conveyor 206 is installed in the base 208 arrange | positioned on the floor F (refer FIG. 18, the following similarly). The stopper 203a may be arranged so as to be able to appear and disappear in the conveyance path of the moving plate 209 by the conveyor 206. However, the stopper 203a is not limited to this, and may be, for example, a brake mechanism that stops the movement of the moving plate 209 or a mechanism that controls the operation of the conveyor 206 to stop.

  The unloading apparatus 200 unloads the work W from the warehouse 250 in a state where a plurality of pallets 201 on which the plurality of works W are placed are stacked in a vertical direction. The number of stacked stages is, for example, 5 to 10 stages. If comprised in this way, since the workpiece | work W can be stored in the warehouse 250 in the state which stacked | piled up the pallet 201 in which the several workpiece | work W was mounted in multiple stages, the occupation space of the workpiece | work W in the warehouse 250 can be reduced. . Moreover, since the workpiece | work W can be delivered from the warehouse 250 in the state piled up in multiple steps, efficiency becomes more favorable.

  The pallet collection mechanism 204 includes a pallet storage unit 210 that stores the used empty pallet 201 and a conveyor 207 that conveys the moving plate 209 carrying the emptied pallet 201 to the warehouse 250. . The conveyor 207 is installed on a base 208 arranged on the floor F. The pallet storage unit 210 includes a base 211 arranged on the floor F, a column 212 erected on the base 211, and a horizontal direction provided on a side surface of the column 212 and movable in the vertical direction along the side surface. And a pair of pallet support portions 214 provided on the upper surfaces of the pair of arm portions 213 and 213 and capable of moving close to and away from each other in the horizontal direction (left and right in FIG. 3) along the upper surfaces. , 214.

  The pallet 201 is placed and supported on a pair of pallet support portions 214 and 214 located at positions close to each other. Further, the pallet 201 is removed from the support state by the pair of pallet support portions 214 and 214 when the pair of pallet support portions 214 and 214 moves away from each other, and passes between the pair of arm portions 213 and 213. In this case, it is dropped and placed on the moving plate 209.

  On the workpiece placement surface 201b on which the workpieces W of the pallet 201 are placed, there are formed protrusions 201a that separate the plurality of workpieces W when the workpieces W are placed. If comprised in this way, even if it is a case where the workpiece mounting surface 201b of the pallet 201 inclines, etc., since the workpiece | work W is contact | abutted and regulated by the protrusion 201a, the workpiece | work W is the workpiece mounting surface of the pallet 201. It is possible to suppress a large position shift on 201b. As a result, the robot 100 can more reliably grip the workpiece W with the workpiece gripping device 1.

  In the present embodiment, a case where the workpiece gripping device 1 is mounted on the posture control device 2 and mounted on the robot 100 will be described. However, the present invention is not limited to this, and the workpiece gripping device is not connected to the posture control device 2. 1 may be attached to the tip 102 of the robot arm 101.

  As shown in FIG. 4, the workpiece gripping apparatus 1 includes a support plate 22 connected to the robot arm 101, and a gripping mechanism (grip unit) 11 that is disposed on the support plate 22 and grips a gripped portion Wa of the workpiece W. And a triaxial movement mechanism 12 that is a free movement mechanism that supports the gripping mechanism 11 so as to be freely movable, and a movement restriction device 13 that restricts the movement of the gripping mechanism 11. That is, the gripping mechanism 11 can be switched between a state in which movement of the work gripping device 1 is permitted and a state in which the movement is restricted.

  In the present embodiment, the workpiece gripping device 1 is provided with the same gripping mechanism 11 at three locations, and the gripped portion Wa formed of a recess such as a through-hole formed in the workpiece W is gripped at three locations. 11 (see FIG. 2), the number is not limited to three, and may be appropriately one or two or more depending on the shape of the workpiece W. The gripping mechanisms 11 arranged at three locations have the same configuration.

5A and 5B are diagrams showing a pallet suction device, where FIG. 5A is a side view and FIG. 5B is a front view.
As shown in FIGS. 5 (a) and 5 (b), a pallet suction device 230 is attached to the support plate 22 of the workpiece gripping device 1 (see FIG. 4). The pallet suction device 230 includes a connection portion 231 connected to the support plate 22 via a mounting bracket 233, and a suction portion 232 provided at the tip of the connection portion 231. The suction unit 232 can contact the surface of the pallet 201 and suck the pallet 201 (see FIG. 3) by sucking air. The number of pallet suction devices 230 installed on the support plate 22 is arbitrary, but a plurality of pallet suction devices 230 are preferably installed in order to stably suck the pallet 201.

  In this embodiment, the connection part 231 of the pallet suction device 230 is configured such that the installation site of the suction part 232 in the connection part 231 can be displaced. Here, the connecting portion 231 is a shaft that is swingably coupled around the pin 234 to the support plate 22 via the mounting bracket 233. The pallet suction device 230 is between a position where the connecting portion 231 is folded in a direction approaching the support plate 22 (indicated by a two-dot chain line in FIG. 5) and a position which is extended in a direction away from it (indicated by a solid line in FIG. 5). Is further provided with a folding device 235 that is rocked by the.

  The folding device 235 includes a connecting portion 237 that is connected to the connecting portion 231 so as to be swingable around a pin 236, and a cylinder device 239 including a rod 238 that is fixed to the connecting portion 237 and is movable back and forth. Yes. For example, an air cylinder is used as the cylinder device 239. The rear end side (the side opposite to the rod 238) of the cylinder device 239 is connected to the support plate 22 via the mounting bracket 240 so as to be swingable around the pin 241.

  Further, the mounting bracket 233 includes a first detection unit 242 that detects the connection part 231 when the connection part 231 is extended in a direction away from the support plate 22, and the connection part 231 approaches the support plate 22. A second detection unit 243 that detects the connection unit 231 when in a position folded in the direction is provided. As the 1st detection part 242 and the 2nd detection part 243, a proximity sensor can be used, for example.

FIG. 6 is a front view showing the detection device.
As shown in FIG. 6, the detection device 260 includes an image acquisition unit 261 that obtains an image based on the workpiece W (see FIG. 3) placed on the pallet 201. In order to obtain a more stable image, the image acquisition unit 261 is attached to the fixed plate 21 (see FIG. 4) via a connection member 263 by screw fastening or the like.

  Here, the image acquisition unit 261 is a three-dimensional camera. The detection device 260 includes a light irradiation unit 262 that irradiates the workpiece W with light. As the light irradiation unit 262, for example, LED illumination is used. A hood 264 that covers the image acquisition unit 261 and the light irradiation unit 262 is attached to the connection member 263 by screw fastening or the like, so that unnecessary light input is cut.

The image acquisition unit 261 captures an image of the work W irradiated with light by the light irradiation unit 262 together with its shadow.
The detection device 260 is configured to detect the posture and position of the workpiece W by performing predetermined image processing on the image obtained by the image acquisition unit 261. Information on the posture and position of the workpiece W detected by the detection device 260 is input to the control device 270. Light irradiation by the light irradiation unit 262 is not always necessary, but is preferable from the viewpoint that more accurate and stable image processing is possible.

  However, the detection device 260 is not limited to the configuration described above. For example, a method using a 3D range image camera that obtains the distance to the object by measuring the time it takes to irradiate the object, reflect it, and return, and obtain a 2D image with two or more cameras To obtain a 3D image by measuring parallax, to create a 3D model using a 3D laser scanner, to obtain a spatial magnetic field distribution by measuring a magnetic field using a magnetic sensor, and to perform transmission and reflection measurements using electromagnetic waves Various methods such as a method for obtaining a three-dimensional image can be used.

  7A and 7B are diagrams illustrating the operation of the gripping mechanism in the workpiece gripping apparatus, where FIG. 7A is a cross-sectional view, and FIG. 7B is a side view of the tip portion. 8A and 8B are diagrams showing a gripping mechanism in the workpiece gripping device, where FIG. 8A is a perspective view, FIG. 8B is a state before gripping, FIG. 8C is an exploded view of a driven member, and FIG. Shows the state. FIG. 9 is a schematic cross-sectional view illustrating a state in which the gripping mechanism in the workpiece gripping device is positioned using the gripping portion positioning device.

  As shown in FIG. 7, the gripping mechanism 11 accommodates the driving member 111 in which the wedge-shaped portion 111 a is formed, the driven member 112 that moves in the diameter increasing direction by the driving member 111, and the driving member 111 and the driven member 112. A holder 113 and driving means 114 (see FIG. 4) for driving the driven member 112 by reciprocating the driving member 111 are provided.

As shown in FIG. 8B, the drive member 111 has a cylindrical shape, and is provided with a wedge-shaped portion 111a formed of a flat surface formed at three positions in the circumferential direction at the tip portion.
As shown in FIG. 8C, the driven member 112 has a substantially rectangular shape, and is arranged in three locations in the circumferential direction. In the driven member 112, a slope portion 112a that fits the wedge-shaped portion 111a is formed on one outer surface, and a joint portion 112b that joins the gripped portion Wa is formed on the other inner surface.
The joint portion 112b is formed in an arc shape in a cross-sectional view so as to match the hole shape of the gripped portion Wa, but is not limited to this, and is not limited to this, such as a rubber member having a high coefficient of friction, an anti-slip material such as a knurl. Processing may be performed.

  The gradient portion 112a is formed with a flat surface so as to fit the wedge-shaped portion 111a made of a flat surface, and the joint portion 112b is formed in an arc shape in cross section so as to fit the gripped portion Wa of the workpiece W. However, the present invention is not limited to this, and may be appropriately determined in consideration of the weight of the workpiece W, the wear resistance of the sliding portion, the difficulty of workability, and the like. For example, the gradient portion 112a and the wedge-shaped portion You may form 111a in circular arc shape by sectional view.

As shown in FIG. 7, the holder 113 includes a main body 113a that supports the drive member 111 so as to be reciprocally movable in the vertical direction of FIG. 7A, and a front end that is screwed into and joined to the front end of the main body 113a. Part 113b (see FIG. 8A).
The holder 113 supports the driving member 111 so as to be reciprocally movable on the inner peripheral surface 113c of the main body 113a, and the driven member 112 is supported by the supporting portions 113d and 113e (see FIG. 7B) of the tip 113b. It is supported so as to be capable of reciprocating in the left-right direction (horizontal direction) of (a).

As shown in FIG. 4, the driving means 114 is configured such that a reciprocating driving means such as an air cylinder is connected to the driving member 111 so that the driving member 111 can reciprocate.
The gripping mechanism 11 moves the driven member 112 in the horizontal direction of FIG. 7A by reciprocating the driving member 111 in the vertical direction of FIG. 7A by the driving means 114 (FIG. 8B). )), And a mechanism for gripping the workpiece W (see FIG. 4) by pressing the joint 112b of the driven member 112 of the gripped portion Wa of the workpiece W (see FIG. 8D).

As shown in FIG. 4, the three-axis moving mechanism 12 includes an X-axis direction moving mechanism 121 disposed on the support plate 22, a Y-axis direction moving mechanism 122 supported by the X-axis direction moving mechanism 121, And a Z-axis direction moving mechanism 123 supported by a Y-axis direction moving mechanism 122 via a bracket 124.
The three-axis moving mechanism 12 is configured in the same manner as the three axes. For example, in the X-axis direction moving mechanism 121, a guide rail 121a disposed in the X-axis direction and a movable movement along the guide rail 121a are disposed. Holder 121b.
With this configuration, the workpiece gripping device 1 can be moved freely in the three axis directions of the front and rear (X axis), left and right (Y axis), and vertical (Z axis) directions by the three axis moving mechanism 12. I support it.

  In the present embodiment, the triaxial moving mechanism 12 is adopted, but the present invention is not limited to this, and the degree of freedom is appropriately set in consideration of the positional relationship of the gripped portion Wa of the workpiece W. One or two axes may be used, and a moving mechanism provided with a rotating shaft may be employed.

  The movement restricting device 13 is configured in the same manner for the three axes, and is provided in the X-axis direction moving mechanism 121, the Y-axis direction moving mechanism 122, and the Z-axis direction moving mechanism 123, respectively. For example, the X-axis direction moving mechanism 121 employs a lock mechanism that clamps the guide rail 121a and restricts the movement of the holder 121b. However, the locking method in the movement restricting device 13 is not particularly limited, and various forms such as an air type and an electromagnetic type can be adopted.

With this configuration, the workpiece gripping device 1 can be held by the movement restricting device 13 so that the gripping mechanism 11 is locked and moved in a state of being aligned with the gripped portion Wa of the workpiece W.
For this reason, the workpiece gripping device 1 flexibly responds to various workpieces having different gripped portion Wa positions by adjusting the gripping mechanism 11 to a free position by the gripping portion positioning device 500 described later (see FIG. 9). be able to.

<Attitude control device>
As shown in FIG. 4, the posture control device 2 includes a fixed plate 21 that is fixed to the distal end portion 102 of the robot arm 101, and an elastic mechanism 3 that elastically supports the support plate 22 of the workpiece gripping device 1 with respect to the fixed plate 21. The displacement detecting means 4 of the support plate 22 and the posture detecting device 6 for detecting the posture of the workpiece gripping device 1 are provided.
In the present embodiment, the case where the posture detection device 6 is provided will be described. However, the present invention is not limited to this, and the workpiece W is positioned in a normal state on the pallet 201 (see FIG. 2). May not include the attitude detection device 6.

The fixed plate 21 is a member serving as a base for supporting the support plate 22 and has a rectangular shape in plan view (see FIG. 2).
The support plate 22 is elastically supported by the fixed plate 21 via elastic mechanisms 3 (see also FIG. 2) disposed at the four corners. At the support plate 22, the posture detection device 6 is arranged at predetermined locations (three locations in the present embodiment) so that the gripping mechanism 11 can securely grip the predetermined locations (three locations in the present embodiment) of the workpiece W. It is installed.

  As shown in FIG. 4, the elastic mechanism 3 is attached to the support plate 22 in a direction away from the fixed plate 21 (downward direction in FIG. 4) by a coil spring 31 disposed between the fixed plate 21 and the support plate 22. Thus, the support plate 22 is elastically supported with respect to the fixed plate 21.

  In the present embodiment, the coil spring 31 is employed as the spring member of the elastic mechanism 3, but the present invention is not limited to this, and the torsion is possible as long as the load and the amount of deflection necessary for posture control can be secured. Various spring members such as a coil spring, a leaf spring, and a disc spring can be employed. Moreover, it is not limited to a spring member, A gas spring can also be employ | adopted.

  That is, according to the operation content of the workpiece gripping device 1, a suitable posture member is realized by appropriately selecting an appropriate spring member or gas spring in consideration of a load and a deflection amount (stroke) necessary for the posture control. . The spring member is suitable for applications that gradually increase the attitude control force because the load is proportional to the amount of deflection, and the gas spring can generate a constant load even if the amount of deflection changes. Suitable for applications that ensure a stable and constant attitude control force.

The displacement detection means 4 is a detection device that detects the displacement of the support plate 22 relative to the fixed plate 21, and a detection device such as a proximity sensor is used.
The displacement detection means 4 includes a first detector 41 and a first detected portion 41a for detecting the original position of the support plate 22, and a second detector 42 and a second detected portion for detecting the grip position by the workpiece gripping device 1. 42a, and a third detector 43 and a third detected portion 43a that detect excessive displacement of the support plate 22.

  With this configuration, the support plate 22 moves in the direction approaching the fixed plate 21 from the original position shown in FIG. 12, and when the second detected portion 42 a reaches the position of the second detector 42, the gripping position by the workpiece gripping device 1 is reached. When it is detected (see FIG. 13) and the support plate 22 passes the gripping position and the third detected portion 43a reaches the position of the third detector 43, the excessive displacement of the support plate 22 can be detected ( (Refer FIG.16 (c)).

  As shown in FIG. 4, the attitude detection device 6 includes a support shaft 5 that is brought into contact with the workpiece W, a flexible member 5 a provided at the tip of the support shaft 5, and an exterior that allows the support shaft 5 to be retractable. The cylinder 61, the urging means 62 that urges the support shaft 5 in the direction in which the support shaft 5 is pressed against the work W, the contact detection means 63 that detects that the support shaft 5 is in contact with the work W, and the outer cylinder 61 are illustrated. 7 and an air cylinder 64 that moves in the vertical direction.

Here, the flexible member 5a may use, for example, rubber, foamed polystyrene, sponge, or the like to relieve the impact force when the support shaft 5 is brought into contact with the workpiece W and prevent damage to the workpiece W. it can.
The air cylinder 64 is a device for allowing the outer cylinder 61 and the support shaft 5 to escape upward so that the posture detection device 6 does not interfere with the workpiece W when positioning the gripping mechanism 11 in the workpiece gripping device 1. The support shaft 5 can come into contact with the workpiece W in a state where the tube 61 and the support shaft 5 are lowered.

  The contact detection means 63 is composed of a proximity sensor or the like, and moves by a predetermined movement amount S (see FIG. 13A) after the support shaft 5 contacts the workpiece W, and the front end surface of the outer cylinder 61 and the support shaft When the support shaft 5 comes into contact with the workpiece W by the detected portion 63a that has moved to the facing position in a state where the front end surface of the surface 5 is flush (see FIG. 14A), a predetermined movement amount is obtained. Detects movement.

  The biasing means 62 is not particularly limited, and a coil spring or the like can be adopted. However, the elastic coefficient of the biasing means 62 is smaller than the elastic coefficient of the coil spring 31 of the elastic mechanism 3 (the elasticity of the elastic mechanism 3). The coefficient is set to be larger than the elastic coefficient of the biasing means 62).

  With this configuration, as shown in FIG. 13, the coil spring 31 (see FIG. 9) bends more than the moving amount S (see FIG. 13 (a)) that moves after the support shaft 5 contacts the workpiece W. The amount of movement S ′ (see FIG. 13B) is smaller.

The posture detection device 6 is supported by the bracket 124 and is disposed in the vicinity of the gripping mechanism 11 of the workpiece gripping device 1.
The posture detection device 6 can detect that the driven member 112 that grips the workpiece W is properly inserted into the gripped portion Wa of the workpiece W by the contact detection means 63.

  That is, when the tip end 102 of the robot arm 101 (see FIG. 2) is brought close to the support shaft 5 in contact with the workpiece W and the tip 102 is moved further in the direction approaching the workpiece W, together with the workpiece gripping device 1 The outer cylinder 61 moves downward in FIG. 7 so that the support shaft 5 is accommodated in the outer cylinder 61 against the urging force of the urging means 62, and the distal end surface of the outer cylinder 61 and the distal end surface of the support shaft 5 are surfaces. It comes into contact with the workpiece W together.

  At this time, at the tip of the gripping mechanism 11, the posture detection device 6 is placed on the gripping mechanism 11 so that the driven member 112 that grips the work W is properly inserted into the gripped portion Wa of the work W. It is arranged at an appropriate position and height.

  For this reason, the posture detection device 6 contacts the state where the front end surface of the outer cylinder 61 and the front end surface of the support shaft 5 are flush with each other by a predetermined amount of movement after the support shaft 5 contacts the workpiece W. By detecting by the detection means 63, it can be confirmed that the driven member 112 that grips the workpiece W is properly inserted into the gripped portion Wa of the workpiece W.

Next, operations when the workpiece gripping device 1 is mounted on the posture control device 2 and applied to the robot 100 will be described with reference to FIGS. 10 to 16.
<Operation of elastic mechanism 3>
First, the operation of the elastic mechanism 3 will be described with reference mainly to FIGS. 10 and 11. FIG. 10 to be referred to is a schematic front view showing the operation of the elastic mechanism 3 when the rigidity of the pallet on which the workpiece is placed is high, and (a) is a diagram before the tip of the gripping mechanism 11 is inserted into the gripped portion. The state, (b) shows the state after the tip of the gripping mechanism 11 is inserted into the gripped part. FIG. 11 is a schematic front view showing the operation of the elastic mechanism 3 when the rigidity of the pallet on which the workpiece is placed is low.
In FIGS. 10 and 11, for convenience of explanation, the inclination of the workpiece W and the like are exaggerated, but the amount of deformation is actually a small amount.

  Here, the pallet 201 (see FIG. 2) may have various forms depending on the purpose and application. For example, when the pallet 201 is made of a metal angle material, the pallet 201 generally has high rigidity and is made of synthetic resin. Since the rigidity of the elastic mechanism 3 is low, the elastic mechanism 3 has different functions depending on the relationship between the urging force (elastic supporting force) of the elastic mechanism 3 and the rigidity of the pallet 201 as follows.

<When pallet rigidity is high>
When the rigidity of the pallet on which the workpiece is placed is high, the elastic mechanism 3 tends to operate so as to control the posture of the workpiece gripping device 1 in accordance with the posture of the workpiece W.
That is, as shown in FIG. 2, for example, when the elastic mechanism 3 tries to grip the workpiece W placed on the pallet 201 with the gripping mechanism 11, the workpiece W placed on the pallet 201 is moved to a predetermined position. When the workpiece is deviated or inclined, the posture of the workpiece gripping device 1 with respect to the workpiece W is controlled according to the amount of deviation due to this deviation or the like.

  Specifically, as shown in FIG. 10A, when the workpiece W has an inclination of an angle α, the robot arm 101 (see FIG. 2) moves the workpiece gripping device 1 to a predetermined position with respect to the workpiece W. When the tip of the gripping mechanism 11 is inserted into the gripped portion Wa of the workpiece W, the support plate 22 is rotated clockwise from the gripped portion Wa of the workpiece W according to the inclination angle α of the workpiece W. The moment M to be applied is applied reactively.

  Then, as shown in FIG. 10B, the moment M applied in this way absorbs the inclination of the angle α of the workpiece gripping device 1 with respect to the workpiece W flexibly as appropriate, and the support plate 22 according to the inclination angle α. By correcting the position and the inclination angle, the posture control device 2 can suitably control the posture of the workpiece gripping device 1 with respect to the workpiece W.

<When pallet rigidity is low>
When the rigidity of the pallet on which the workpiece is placed is low, the elastic mechanism 3 tends to operate so as to match the posture of the workpiece W with the workpiece gripping device 1.
That is, as shown in FIG. 2, for example, when the elastic mechanism 3 tries to grip the workpiece W placed on the pallet 201 with the gripping mechanism 11, the workpiece W placed on the pallet 201 is moved to a predetermined position. When the workpiece W is deviated or tilted, the misalignment or the like is corrected, and the workpiece W functions to match the posture of the workpiece gripping device 1.

  Specifically, as shown in FIG. 11 (a), when the distal end portion of the gripping mechanism 11 is inserted into the gripped portion Wa of the workpiece W, the elastic mechanism 3 is tilted by its urging force (elastic support force). In order to apply a biasing force (pressing force) to the workpiece W placed on the pallet 201 (see FIG. 2) at an angle α, the workpiece W is rotated counterclockwise due to bending or deformation of the pallet 201. Moment M 'is applied.

  Then, as shown in FIG. 11B, the moment M ′ applied in this way acts so that the posture of the workpiece W becomes α ′ smaller than the inclination angle α. The posture of the workpiece W can be adjusted to the workpiece gripping device 1 by suitably correcting the deviation from the workpiece W.

  In this example, the case where the workpiece gripping device 1 functions so as to face the workpiece W in the direction of reducing the bending and deformation of the pallet has been described. However, the posture control device 2 greatly increases the bending and deformation of the pallet. The workpiece gripping device 1 may function so as to face the workpiece W in the direction in which the workpiece W is directed.

  In the present embodiment, for the sake of convenience, the case where the rigidity of the pallet 201 is high and the case where the rigidity is low has been described separately. However, in actuality, the pallet 201 is not strictly distinguished. However, it is possible to control the workpiece gripping device 1 so as to face the workpiece W suitably by appropriately adjusting the biasing force of the elastic mechanism 3.

<Operation of workpiece gripping device>
The operation of the workpiece gripping device 1 will be described with reference to FIGS. 12 is a state before the workpiece is gripped by the gripping device, FIG. 13 is a state where the support shaft is in contact with the workpiece, FIG. 14 is a state where the outer cylinder of the support shaft is in contact with the workpiece, FIG. FIG. 5 is a partial front sectional view showing a state where clamping is completed.

  From the state in which the workpiece gripping device 1 does not contact the workpiece W (FIG. 12A), the tip 102 of the robot arm 101 is brought close to the support shaft 5 until it contacts the workpiece W (FIG. 13A). When the tip 102 is further moved by S in the direction approaching the workpiece W, as shown in FIG. 14 (a), the outer cylinder 61 moves downward along with the workpiece gripping device 1 in FIG. The outer cylinder 61 is accommodated in the outer cylinder 61 against the urging force of the urging means 62, and the distal end surface of the outer cylinder 61 and the distal end surface of the support shaft 5 are flush with each other and abut against the workpiece W.

  Then, the contact detection means 63 detects a state in which the front end surface of the outer cylinder 61 and the front end surface of the support shaft 5 are flush with each other. In other words, the contact detection means 63 detects that the support shaft 5 has moved by a predetermined amount of movement after contacting the workpiece W by the detected portion 63a that has moved to the facing position.

  On the other hand, as shown in FIG. 14 (b), the displacement detection means 4 detects the presence of the second detected portion 42 a that has moved to a position where the second detector 42 that detects the grip position by the workpiece gripping device 1 faces. Detect. In this way, the posture control device 2 confirms that the workpiece gripping device 1 has been positioned at the regular gripping position.

  At this time, if the workpiece gripping device 1 is positioned at the regular gripping position, the driven member 112 that grips the workpiece W at the tip of the gripping mechanism 11 at the same time has a predetermined gap δ (see FIG. 14A). ) And is properly inserted into the gripped portion Wa of the workpiece W.

  In this way, the attitude detection device 6 moves a predetermined amount after the support shaft 5 abuts against the workpiece W, and the state where the tip surface of the outer cylinder 61 and the tip surface of the support shaft 5 are flush with each other. By detecting by the contact detection means 63, it can be confirmed that the driven member 112 that grips the workpiece W is properly inserted into the gripped portion Wa of the workpiece W.

  Then, as shown in FIG. 15, the gripping mechanism 11 pushes the driving member 111 into the driven member 112 by the driving unit 114 in a state where the workpiece gripping device 1 is positioned in a predetermined posture with respect to the workpiece W. The workpiece W is gripped by moving (see FIG. 15A) and pressing the driven member 112 of the gripped portion Wa of the workpiece W.

<Operation when the workpiece is excessively displaced>
The operation of the posture control device 2 of the workpiece gripping device 1 when the workpiece W placed on the pallet 201 in FIG. 2 is excessively displaced due to vibration or external factors will be described with reference to FIG.
The posture control device 2 detects the state by the posture detection device 6 and the displacement detection means 4 when the work W that cannot be posture-controlled by the elastic mechanism 3 is excessively displaced.

  When the workpiece W is excessively deviated from the predetermined placement state, as shown in FIG. 16A, when the tip of the gripping mechanism 11 tries to approach the gripped portion Wa of the workpiece W, the workpiece W Is excessively displaced, the tip of the gripping mechanism 11 cannot be inserted into the gripped portion Wa of the workpiece W, and the tip of the gripping mechanism 11 contacts the workpiece W.

  In the state where the tip of the gripping mechanism 11 is in contact with the workpiece W, the tip 102 of the robot arm 101 may be moved to approach the support shaft 5 until it contacts the workpiece W as shown in FIG. Thus, the support shaft 5 cannot be brought into contact with the workpiece W.

  For this reason, the contact detection means 63 cannot detect a state in which the support shaft 5 moves by a predetermined movement amount S and the front end surface of the outer cylinder 61 and the front end surface of the support shaft 5 are flush with each other. .

  The support plate 22 is detected by the second detected portion 42a that has been moved to a position where the second detector 42 faces by the displacement detection means 4 without detecting that the support shaft 5 is in contact with the workpiece W. Is detected to have moved to the workpiece gripping position.

  However, even if the displacement detection means 4 detects that the support plate 22 has been displaced to the workpiece gripping position by the second detector 42, the contact detection means 63 indicates that the support shaft 5 is in contact with the workpiece W. Since it is not detected, it cannot be determined that the workpiece gripping device 1 has been positioned at a normal position with respect to the workpiece W.

  For this reason, when the distal end portion 102 of the robot arm 101 is further moved, the attitude control device 2 has moved to a position where the third detector 43 faces by the displacement detection means 4 as shown in FIG. An excessive displacement of the support plate 22 is detected by the third detected portion 43a.

  In this way, the posture control device 2 detects the excessive displacement of the support plate 22 by the displacement detection unit 4 in a state where the contact detection unit 63 does not detect that the support shaft 5 is in contact with the workpiece W. Thus, it is determined that the workpiece W is excessively displaced, and an excessive load generated when the workpiece gripping device 1 tries to grip the workpiece W can be detected and avoided in advance.

Next, the gripper positioning device 500 will be described.
<Grip part positioning device>
FIG. 17 is a plan view of the gripper positioning device. FIG. 18 is a side view of the gripper positioning device. FIG. 19 is a view showing the periphery of the engaging member having the engaging recess shown in FIGS. 17 and 18, wherein (a) is a plan view and (b) is a front view.

  As shown in FIGS. 9, 17, and 18, the gripper positioning device 500 has a base unit (base) 510 installed on the floor F. The base unit 510 includes a base unit 510. A workpiece gripping device positioning unit 520 is provided for positioning the workpiece gripping device 1 including the gripping mechanism 11 that can be switched between a state in which movement is permitted and a state in which the movement is restricted, on the base unit 510.

  The workpiece gripping device positioning unit 520 has support columns 521 and 521 that are erected on the upper plate 511 of the base unit 510, and the support plates 22 of the workpiece gripping device 1 are provided on the support columns 521 and 521. Guide posts 522 and 522 that can be set on a cylindrical guide member 221 are provided. Here, for example, setting A to B means that when A and B satisfy a specific relationship (positional relationship), both elements of A and B are integrated and the behavior is unified. .

  With such a configuration, by gripping the guide member 221 provided on the support plate 22 to the guide post 522 of the workpiece gripping device positioning unit 520, the workpiece gripped on the tip portion 102 of the robot arm 101 (see FIG. 2) is gripped. The device 1 can be positioned with respect to the gripper positioning device 500.

  Here, the workpiece gripping device 1 and the base unit 510 can be positioned with a compact configuration via the columns 521 and 521. Further, it is possible to secure a wide space for moving the gripping mechanism 11 between the workpiece gripping device 1 and the base unit 510, and the degree of freedom of layout of the gripping portion positioning mechanism 530 described later on the base is increased. .

  The base unit 510 is provided with a gripping portion positioning mechanism 530 having an engaging recess (engaging portion) 531 that can be engaged with the gripping mechanism 11. The gripping part positioning mechanism 530 moves the gripping mechanism 11 of the work W (see FIG. 4) by three-dimensionally moving the engaging recess 531 engaged with the gripping mechanism 11 that is allowed to move in the work gripping device 1. Depending on the type, the workpiece W has a function of positioning by moving it to a position corresponding to the gripped portion Wa (see FIG. 4).

  As shown in FIGS. 17 and 18, the gripper positioning mechanism 530 moves the engagement recess 531 in the X-axis direction and the first support mechanism 541 that supports the engagement recess 531 in the X-axis direction. An X-axis unit 540 having a first drive device 542 for causing the The first support mechanism 541 includes a first rail 543 extending in the X-axis direction and a first block 544 that is movably engaged with the first rail 543 via a rolling bearing (not shown). The 1st linear motion guide mechanism 545 provided with this is provided. The first rail 543 is fixed on the upper plate 511 of the base unit 510. A first support 546 is fixed to the first block 544. The first driving device 542 includes a first nut portion 547 (see FIG. 17) fixed to the lower surface of the first support portion 546, a ball screw 548 (see FIG. 17) screwed into the first nut portion 547, And a motor 549 that rotationally drives the ball screw 548, and the screw feed action of the rotating ball screw 548 can move the first nut portion 547, and thus the first support portion 546, in the X-axis direction. It has become.

  In addition, the gripper positioning mechanism 530 includes a second support mechanism 551 that supports the engagement recess 531 so as to be movable in the Y-axis direction, and a second drive device 552 that moves the engagement recess 531 in the Y-axis direction. Y-axis unit 550 having The second support mechanism 551 includes a second rail 553 extending in the Y-axis direction and a second block 554 movably engaged with the second rail 553 via a rolling bearing (not shown). The 2nd linear motion guide mechanism 555 provided with this is provided. The second rail 553 is fixed on the first support portion 546. A second support portion 556 is fixed to the second block 554. The second driving device 552 includes a second nut portion (not shown) fixed to the lower surface of the second support portion 556, a ball screw 558 (see FIG. 17) screwed to the second nut portion, and a ball screw. And a motor 559 (see FIG. 18) that rotationally drives the 558, and the second nut portion and thus the second support portion 556 are moved in the Y-axis direction by the screw feeding action of the rotating ball screw 558. Is possible.

  In addition, the gripper positioning mechanism 530 includes a third support mechanism 561 that supports the engagement recess 531 so as to be movable in the Z-axis direction, and a third drive device 562 that moves the engagement recess 531 in the Z-axis direction. Z-axis unit 560 having The third support mechanism 561 includes a third rail 563 extending in the Z-axis direction and a third block 564 movably engaged with the third rail 563 via a rolling bearing (not shown). The third linear motion guide mechanism 565 having the above is included. The third rail 563 is fixed to the side surface of the second support portion 556 along the vertical direction. Further, a third support portion 566 is fixed to the third block 564. The third driving device 562 rotates a third nut portion 567 fixed to the side surface of the third support portion 566, a ball screw 568 (see FIG. 18) screwed into the third nut portion 567, and the ball screw 568. The third nut portion 567 and thus the third support portion 566 are moved in the Z-axis direction (vertical direction) by the screw feeding action of the rotating ball screw 568. It is possible to make it.

  Here, the first support mechanism 541, the second support mechanism 551, and the third support mechanism 561 support the engagement concave portion 531 so as to be movable in the directions of the three axes of the X axis, the Y axis, and the Z axis orthogonal to each other. The supporting mechanism is configured. The first linear motion guide mechanism 545, the second linear motion guide mechanism 555, and the third linear motion guide mechanism 565 constitute a linear motion guide mechanism. Thus, since the support mechanism has the linear motion guide mechanism, the engagement recess 531 can be smoothly moved without play along the rail extending in the direction of the three axes.

  The first driving device 542, the second driving device 552, and the third driving device 562 constitute a driving device for moving the engaging recess 531 in the directions of the three axes. The drive device can control the movement of the engagement recess 531 by controlling the rotation shafts (not shown) of the motors 549, 559, and 569, and thus the rotation angle positions of the ball screws 548, 558, and 568. According to such a structure, it can respond | correspond reliably to the workpiece | work W in which the to-be-gripped part Wa (refer FIG. 4) was formed in the various positions which differ for every kind of workpiece | work which has a variation. Further, the three-dimensional orthogonal coordinate system is easier to grasp the spatial position than the polar coordinate system, and the work such as robot teaching is easier to perform, so the workability is improved.

  The gripper positioning mechanism 530 includes first blocks 544, second blocks 554, and third blocks 564, and thus stoppers 571, 572, and 573 that prevent over-movement of the engagement recess 531. According to such a configuration, even if a running abnormality occurs in each of the blocks 544, 554, 564, and hence the engaging recess 531, the movement of each of the blocks 544, 554, 564, and thus the engaging recess 531 is stopped. Since it is limited by 571, 572, 573, the workpiece gripping device 1 (see FIG. 9) and the gripper positioning device 500 can be protected.

  In addition, the gripper positioning mechanism 530 includes reference position detection units 581, 582, and 583 that detect reference positions in the X axis, Y axis, and Z axis directions of the engagement recess 531, respectively. Here, the reference position detectors 581, 582, 583 are limit switches, and come into contact with detected parts provided in the first support part 546, the second support part 556, and the third support part 566, A predetermined engagement portion reference position is detected. Furthermore, the gripper positioning mechanism 530 has an overrun detection unit that detects a movement limit position of the engagement concave portion 531 in the directions of the X axis, the Y axis, and the Z axis. Reference numerals 584 and 585 exemplify an overrun detection unit for detecting a limit position in the Y-axis direction, and an overrun detection unit for detecting a limit position in the X-axis and Z-axis directions is also provided. Yes. The gripper positioning mechanism 530 includes a guide member detection unit 586 that detects the guide member 221 of the workpiece gripping device 1 set on the guide post 522.

  As shown in FIG. 19, an engagement member 532 having an engagement recess 531 is attached to the attachment plate 535 provided at the upper end of the third support portion 566. Here, the engagement recess 531 is composed of a plurality of recesses 531a, 531b, and 531c having circular sections with different diameters according to a plurality of types of workpieces W (see FIG. 4). It comprises a plurality of members 532a, 532b, 532c having recesses 531a, 531b, 531c, respectively. The members 532a, 532b, and 532c are flange portions 533a, 533b, and 533c fixed to the mounting plate 535 by a screw member 536, and column portions 534a, 534b, and 534c formed on the upper surfaces of the flange portions 533a, 533b, and 533c, respectively. And recesses 531a, 531b, and 531c having predetermined depths are respectively formed in the center of the upper surfaces of the cylindrical portions 534a, 534b, and 534c.

  According to such a configuration, a plurality of recesses 531a, 531b, and 531c having different diameters can be prepared in advance so as to be adapted to a plurality of gripping mechanisms 11 having different sizes. Accordingly, even when the size of the gripping mechanism 11 (see FIG. 9) differs depending on the type of the workpiece W, it is possible to cope with it. However, the present invention is not limited to this, and the mounting plate 535 of the third support portion 566 is configured to be provided with an engaging concave portion having one concave portion corresponding to one kind of workpiece W. It may be.

  Next, a description will be given of a gripping unit positioning method in which the gripping mechanism 11 in the workpiece gripping device 1 is moved and positioned according to the type of the workpiece W using the gripping unit positioning device 500.

<Grip part positioning method>
First, by driving the robot 100, the workpiece gripping device 1 attached to the tip portion 102 of the robot arm 101 is moved to position the guide member 221 of the workpiece gripping device 1 in the workpiece gripping device positioning device 500. The guide post 522 of the part 520 is fitted. As a result, the workpiece gripping device 1 is positioned with respect to the gripper positioning device 500. When the guide member detection unit 586 detects the guide member 221, it is determined that the setting of the workpiece gripping device 1 to the gripping portion positioning device 500 has been completed.

  Subsequently, the gripping part positioning mechanism 530 provided in the base unit 510 moves the engagement recess 531 provided in the gripping part positioning mechanism 530 and engageable with the gripping mechanism 11 three-dimensionally, and thereby the tip of the gripping mechanism 11. Is inserted into the engaging recess 531, and the engaging recess 531 is engaged with the gripping mechanism 11. Here, the gripping mechanism 11 presses and grips the engaging recess 531 from the inside to the outside.

  Then, the gripping mechanism 11 is set to a state in which three-dimensional movement in the work gripping device 1 is allowed. Subsequently, the gripping portion positioning mechanism 530 moves the engaging recess 531 engaged with the gripping mechanism 11 to a position corresponding to the gripped portion Wa of the workpiece W according to the type of the workpiece W.

  Subsequently, the movement restricting device 13 restricts the movement of the three-axis moving mechanism 12, thereby setting (locking) the gripping mechanism 11 in a state in which the three-dimensional movement in the work grasping device 1 is restricted. Here, the gripping mechanism 11 releases the gripping of the engaging recess 531. When the workpiece gripping device 1 includes a plurality of gripping mechanisms 11, the above steps are repeated. Thereby, the gripping mechanism 11 in the workpiece gripping device 1 is moved and positioned according to the type of the workpiece W.

  Next, the gripping portion positioning mechanism 530 moves the engagement concave portion 531 away from the gripping mechanism 11 and moves the engagement concave portion 531 to the detection positions by the reference position detection portions 581 582, and 583, thereby making a predetermined engagement. Return to the reference position. Subsequently, by driving the robot 100, the workpiece gripping device 1 attached to the tip portion 102 of the robot arm 101 is moved, and the workpiece gripping device 1 is separated from the workpiece gripping device positioning portion 520 of the gripping portion positioning device 500. The workpiece gripping device 1 is moved back to a predetermined gripping device reference position.

  According to such a configuration, the gripping mechanism 11 provided in the workpiece gripping device 1 attached to the robot arm 101 can be provided without providing a driving device for moving the gripping mechanism 11 to the robot or the workpiece gripping device 1. The position of the gripping mechanism 11 in the workpiece gripping device 1 can be automatically changed by moving and positioning in accordance with the change in the type of the workpiece W. Therefore, it is possible to cope with various workpieces having variations while reducing the weight of the tip side of the robot arm 101.

Next, the overall operation of the work work system configured as described above will be described.
<Overall operation of work work system>
As a premise, the workpieces W are stored in the warehouse 250 in a state where a plurality of pallets 201 on which a plurality of workpieces W are placed are stacked on the moving plate 209 (see FIG. 3).

  The unloading apparatus 200 unloads the work W from the warehouse 250 by conveying the moving plate 209 on which the pallet 201 on which the work W is placed is carried by the conveyor 206. The moving plate 209 conveyed by the conveyor 206 is stopped at the take-out position 202 by the pallet stopping mechanism 203.

  With the moving plate 209 stopped in this manner, the robot 100 moves the workpiece gripping device 1 attached to the robot arm 101 to the imaging position of the workpiece W, and the detection device 260 uses the light irradiation unit 262 to perform light irradiation. The image acquisition unit 261 captures the workpiece W irradiated with the shadow together with its shadow, and detects the posture and position of the workpiece W placed on the pallet 201 from the obtained image.

At this time, the connection portion 231 of the pallet suction device 230 attached to the workpiece gripping device 1 is in a position folded in a direction approaching the support plate 22 by retracting the rod 238 of the cylinder device 239, and the connection portion The second detection unit 243 detects that 231 is in the folded state.
Accordingly, it is possible to avoid the suction portion 232 from interfering with the workpiece W when the workpiece W is gripped or when the posture and position of the workpiece W are detected. In addition, the suction part 232 can be greatly displaced by a simple folding structure, and interference between the suction part 232 and the workpiece W can be easily and reliably avoided.

Subsequently, the robot 100 changes the posture and position of the workpiece gripping device 1 based on the information obtained by the detection device 260, thereby gripping the workpiece with the workpiece gripping device 1 facing the workpiece W.
Therefore, especially when the pallet 201 made of synthetic resin is used, the pallet 201 is likely to be bent or scratched by placing the work W, but the pallet 201 on which the work W is placed is inclined or slightly inclined. Even if the workpiece has irregularities, the posture and position of the workpiece W can be detected quickly and accurately, so that the workpiece gripping device 1 can grip the workpiece W more reliably.

  Moreover, since the pallet 201 on which the workpiece W is placed is stopped at the take-out position 202, the robot 100 can grip the workpiece W more easily and reliably by the workpiece gripping device 1.

  Subsequently, the robot 100 transfers the work W to the work receiving unit 300 by releasing the gripping state by turning the robot arm 101 toward the work receiving unit 300 while holding the work W by the work holding device 1. To do.

The above-described operation is repeated until all the plurality of workpieces W on the pallet 201 are transferred to the workpiece receiving unit 300.
When the workpiece W is no longer on the pallet 201, the robot 100 moves the workpiece gripping device 1 mounted on the robot arm 101 to transfer the plurality of workpieces W in the next stage to grip the workpiece. The used empty pallet 201 is adsorbed by the adsorbing part 232 provided at the tip of the connection part 231 connected to the support plate 22 of the apparatus 1.
Therefore, the suction unit 232 attached to the workpiece gripping device 1 can reliably hold and transfer the used empty pallet 201 with an inexpensive configuration.

At this time, the connection portion 231 of the pallet suction device 230 attached to the workpiece gripping device 1 is in a position extended in a direction away from the support plate 22 by advancing the rod 238 of the cylinder device 239, and the connection portion The first detection unit 242 detects that 231 is in the extended state.
Therefore, when the pallet 201 is attracted, the attracting part 232 is displaced in the direction approaching the workpiece W, so that the pallet 201 is easily attracted.

  Subsequently, the robot 100 rotates the robot arm 101 toward the pallet storage unit 210 of the pallet collection mechanism 204 while the pallet 201 is sucked by the suction unit 232 to release the gripping state, thereby storing the pallet 201 in the pallet storage. It is transferred onto the pair of pallet support parts 214, 214 of the part 210. Subsequently, the robot 100 repeats the gripping / transferring of the plurality of workpieces W in the next stage and the suction / transferring of the pallet 201 after the gripping / transferring of the plurality of works W in the next stage.

When all the workpieces W and the pallet 201 on the moving plate 209 are transferred, the moving plate 209 emptied by a moving means such as a pusher (not shown) is moved from the take-out position 202 on the conveyor 206 to a pair. It is moved on the conveyor 207 corresponding to the pallet support portions 214 and 214 directly below. Subsequently, when the pair of pallet support portions 214 and 214 are moved away from each other, the plurality of pallets 201 supported on the pair of pallet support portions 214 and 214 are dropped and placed on the moving plate 209. Is done. Subsequently, the moving plate 209 on which the plurality of pallets 201 are placed is conveyed toward the warehouse 250 by the conveyor 207, whereby the pallets 201 are collected.
Thus, since the empty pallet 201 is collected and returned to the warehouse 250, the pallet 201 is quickly reused without stagnation, resulting in better efficiency.

  On the other hand, the workpiece W transferred to the workpiece receiving unit 300 is transported to the working device 310, and the workpiece W is cleaned and dried in the working device 310. In addition, the delivery, gripping, and transfer of the workpiece W ′ are performed in the same manner as the workpiece W. The workpiece W ′ transferred to the workpiece receiver 300 ′ is transported to the working device 310 ′, and the workpiece W ′ is cleaned and dried in the working device 310 ′.

The workpiece W and the workpiece W ′ that have been cleaned and dried are carried out of the work devices 310 and 310 ′ in synchronization by the workpiece carry-out devices 320 and 320 ′.
Therefore, when a plurality of workpieces W and W ′ are required in the process after unloading from the workpiece unloading devices 320 and 320 ′, it is convenient that these are unloaded synchronously and the efficiency is improved. For example, in the transmission assembly process, since one torque converter case and one transmission case are required for assembling one transmission, the torque converter case and the transmission case are carried out synchronously rather than being carried apart. This is more convenient for assembly work in a later process.

  As described above, the workpiece work system according to the present embodiment includes the pallet 201 on which the workpieces W and W ′ can be placed, and the unloading apparatus 200 that unloads the workpieces W and W ′ placed on the pallet 201 from the warehouse 250. , 200 ′, a detection device 260 that detects the posture and position of the workpieces W and W ′ that are delivered by the delivery devices 200 and 200 ′ and placed on the pallet 201, the robot arm 101, and the robot arm 101. The workpiece gripping devices 1 and 1 ′ gripping the workpieces W and W ′ by the gripping mechanism 11 are provided, and the workpiece gripping devices 1 and 1 ′ are based on the postures and positions of the workpieces W and W ′ detected by the detection device 260. The robots 100 and 100 'that grip and transfer the workpieces W and W' on the pallet 201 by the gripping mechanism 11 and the robots 100 and 1 Work receiving portions 300 and 300 'for receiving the workpieces W and W' transferred by 0 ', and working devices 310 and 310' for performing work on the workpieces received by the work receiving portions 300 and 300 '. ing.

According to the present embodiment, the detection device 260 detects the posture and position of the workpieces W and W ′ that are delivered from the warehouse 250 on the pallet 201, and the robot 100, based on the detected information, 100 ′ changes the posture and position of the workpiece gripping devices 1 and 1 ′, so that the workpiece gripping devices 1 and 1 ′ are opposed to the workpieces W and W ′, thereby securely gripping the workpieces W and W ′. The work devices 310 and 310 'work on the workpieces W and W' by being transferred toward the receiving portions 300 and 300 '.
Accordingly, a work work system that automatically and efficiently performs a series of steps of unloading the workpieces W and W ′ from the warehouse 250, transferring the unloaded workpieces W and W ′, and performing work on the workpieces W and W ′. Can provide.

In this embodiment, a plurality of robots are provided. The robot 100 grips the workpiece W, and the robot 100 ′ grips the workpiece W ′.
According to such a configuration, a plurality of robots 100 and 100 ′ are prepared, and each robot can grip a workpiece with each workpiece gripping device and transfer it to a workpiece receiving unit. As a result, it is possible to simultaneously send a plurality of workpieces to the working apparatus, and the efficiency becomes better. However, the present invention is not limited to this, and can also be applied to a case where a single robot holds a single workpiece.

In this embodiment, the robot 100 includes the workpiece gripping device 1 that grips the workpiece W, and the robot 100 ′ includes the workpiece gripping device 1 ′ that grips a workpiece W ′ different from the workpiece W. 1 and the workpiece gripping device 1 'are different.
According to such a configuration, a plurality of robots 100 and 100 ′ are prepared, and each robot can grip a different workpiece with a different workpiece gripping device and transfer it to the workpiece receiving unit. As a result, it is possible to simultaneously send a plurality of different workpieces to the working device. For example, when a certain product has a plurality of different workpieces as components, it is possible to perform a plurality of different workpieces simultaneously. And the efficiency is better. However, the present invention is not limited to this, and can also be applied when a plurality of robots grip the same workpiece.

Next, an embodiment in which a part of the configuration of the above-described embodiment is changed will be described with respect to the changed configuration (modified example). The same configurations and operations as those of the above-described embodiment will be omitted from the detailed description as being taken into the following embodiments, and differences will be mainly described.
<Modification>

  For example, in the above-described embodiment, when the gripped portion Wa is a recessed portion such as a through hole formed in the workpiece W, and an inner type gripping mechanism that presses and grips the recessed portion from the inside to the outside is employed. However, the present invention is not limited to this, and when the gripped portion is a convex portion such as a boss, the outer type of the collet chuck type that presses and grips the convex portion from the outside to the inside. A gripping mechanism can also be employed.

  FIG. 20 is a view showing the periphery of an engaging member having an engaging convex portion of a gripping portion positioning device used when the gripped portion of the workpiece is a convex portion such as a boss, and (a) is a plan view. (B) is a front view.

  As shown in FIGS. 20A and 20B, an engagement member 592 having an engagement convex portion 591 is attached to the attachment plate 535 provided at the upper end of the third support portion 566. Here, the engaging convex portion 591 is composed of a plurality of convex portions 591a, 591b, 591c having a circular cross section with different diameters according to a plurality of types of workpieces, and the engaging member 592 includes the convex portions 591a, A plurality of members 592a, 592b and 592c having 591b and 591c, respectively. Each of the members 592a, 592b, and 592c includes flange portions 593a, 593b, and 593c that are fixed to the mounting plate 535 by a screw member 536, and a convex portion 591a having a predetermined height on the upper surface of the flange portions 593a, 593b, and 593c. , 591b and 591c are formed.

  According to such a configuration, a plurality of convex portions 591a, 591b, and 591c having different diameters can be prepared in advance so as to be adapted to a plurality of gripping mechanisms having different sizes. Thereby, even when the size of the gripping mechanism is different depending on the type of the workpiece, it is possible to cope. However, the present invention is not limited to this, and is configured such that an engagement convex portion having one convex portion corresponding to one kind of work is disposed on the mounting plate 535 of the third support portion 566. May be.

  As described above, the engaging portion that can be engaged with the gripping mechanism is the engaging convex portion 591 in the case of the outer type in which the gripping mechanism presses and grips the gripped portion of the workpiece from the outside to the inside. In the case of an inner type in which the gripping mechanism presses and grips the gripped portion of the workpiece from the inside to the outside, the engagement recess 531 can be formed.

  If comprised in this way, it can respond also when the holding | grip mechanism is an outer type, an inner type, or these both types coexist. In addition, it is possible to handle a workpiece having a complicated structure.

  In addition, when the to-be-gripped part of a workpiece | work is a convex part, the said convex part is not limited to column shape, such as an above-described boss | hub, A rectangular parallelepiped shape (partition shape), such as a rib, may be sufficient. In this case, the gripping mechanism presses inward from the outside so as to sandwich the two opposing faces of the rectangular parallelepiped convex portions such as ribs, and grips the work that can be engaged with the gripping mechanism. The engaging convex part of the part positioning mechanism is formed in a shape corresponding to a rectangular parallelepiped convex part such as a rib which is a gripped part of the workpiece.

  In the above-described embodiment, the gripping mechanism 11 is aligned with the gripped portion Wa of the workpiece W, so that the workpiece gripping device 1 can flexibly cope with various workpieces W having different positions of the gripped portion Wa. However, the present invention is not limited to this. The present invention can also be applied to a case where a workpiece gripping device capable of handling only the same type of workpiece W is mounted on the robot arm 101 with the position of the gripping mechanism 11 fixed, for example. In this case, when the type of work W to be worked is changed, the work gripping device mounted on the robot arm 101 is replaced.

FIG. 21 is a front view showing a pallet suction device according to a modification.
As illustrated in FIG. 21, the pallet suction device 244 according to the modification includes a connection portion 245 connected to the support plate 22 and a suction portion 232 provided at the tip of the connection portion 245. The connection part 245 of the pallet suction device 244 is configured so that the installation site of the suction part 232 in the connection part 245 can be displaced. Specifically, the connection portion 245 includes a cylinder device 247 fixed to the support plate 22 and an attachment portion 248 fixed to the tip of a rod 246 that can be moved forward and backward. For example, an air cylinder is used as the cylinder device 247.

  According to such a configuration, the pallet suction device 244 has a simpler configuration and a position where the connecting portion 245 is extended (indicated by a two-dot chain line in FIG. 21) and a position where it is contracted (indicated by a solid line in FIG. 21) Can be displaced between.

FIG. 22 is a main part enlarged plan view showing a state in which a workpiece is clamped by the workpiece gripping apparatus according to the modification. FIG. 23 is a cross-sectional view showing the overall configuration of the workpiece gripping apparatus shown in FIG.
As shown in FIGS. 22 and 23, the workpiece gripping device 601 is suitable as a holding device that is attached to the tip 102 of the robot arm 101 of the robot 100 and holds and holds the rib R of the workpiece W having various variations. Can be used for

  Specifically, for example, the positions and shapes of the ribs R, R ′ formed on the two types of workpieces W, W ′ are different, and the positions and shapes (the orientations of the ribs) are different in the first sandwiched portions W1, W1 ′. ), But the positions and shapes (rib orientations) of the second sandwiched portions W2, W2 ′ do not match. In FIGS. 22 and 23, the workpieces W and W ′ are, for example, transmission cases having the same function as articles, but it is assumed that the types (models) differ depending on the product variations. .

  The workpiece gripping device 601 clamps a fixed finger 611 that is disposed on the support plate 22 and clamps a first clamped portion W1 of the workpiece W (see also FIG. 2) and a second clamped portion W2 of the workpiece W. A gripping portion having a movable finger 612 that rotates, a rotating device 7 that rotatably supports the movable finger 612, a linear moving device 8 that is a moving device that supports the rotating device 7 movably, and this linear movement A movement restriction device 81 for restricting movement by the device 8.

  The fixed finger 611 includes a mounting bracket 611a fixed to the support plate 22, a finger drive mechanism 611b, a pair of sandwiching fingers 611c and 611c that sandwich the sandwiched portions W1 and W1 ′, and a buffer mounted on the sandwiching finger 611c. Member 611d. The finger driving mechanism 611b is a mechanism for driving the sandwiching finger 611c, and is a general-purpose mechanism. A drive mechanism such as a cylinder is provided.

  The pair of sandwiching fingers 611c and 611c are arranged to face each other, open and close by moving in the horizontal direction and moving forward and backward, thereby opening (unclamping) the sandwiched portion W1 and sandwiching ( Clamp). The buffer member 611d is made of flexible urethane rubber or the like, so that when the sandwiched portion W1 is sandwiched, it is possible to increase the frictional resistance and prevent the sandwiched portion W1 from being damaged and firmly sandwich the sandwiched portion W1. It has become.

  The movable finger 612 includes a mounting bracket 612a that is fixed to the rotating device 7, a finger driving mechanism 612b, a pair of sandwiching fingers 612c and 612c that sandwich the sandwiched portions W2 and W2 ′, and a buffer that is attached to the sandwiching finger 612c. Member 612d, and the clamping fingers 612c and 612c can be rotated in the horizontal direction by the rotating device 7, or can be moved in the horizontal direction (left and right direction in FIG. 23) by the linear moving device 8. It has become. The configuration of the mounting bracket 612a, the finger driving mechanism 612b, the clamping finger 612c, and the buffer member 612d is the same as that of the fixed finger 611.

  The rotation device 7 is a device that is disposed on the support plate 22 while being supported by the linear movement device 8 and supports the movable finger 612 in a freely rotatable manner. The movable finger 612 is biased counterclockwise in the rotation direction by a first spring member (not shown) provided in the rotation device 7 in plan view, and a second spring member (not shown). Is biased clockwise. With this configuration, the movable finger 612 receives a rotational force counteractingly from the sandwiched portion W2 'when applying a clamping force to the sandwiched portion W2' in an attempt to sandwich the sandwiched portion W2 'of the workpiece W'. The clamping fingers 612c and 612c have a function of rotating so that the clamping direction of the clamping fingers 612c and 612c matches the shape of the clamped portion W2 ′ of the workpiece W ′.

  The linear moving device 8 is a device that is disposed on the support plate 22 and supports the movable finger 612 supported by the rotating device 7 so as to be linearly movable from the sandwiched portion W2 to the sandwiched portion W2 ′. The linear movement device 8 includes a guide rail 82 disposed on the support plate 22, a holder 83 supported by the guide rail 82, a movement restriction device 81 that is a movement restriction means for restricting movement of the holder 83, and a holder 83. A support member 84 that is fixed to the support member 84 and supports the rotation device 7; an air cylinder 85 that is a drive source for linearly moving the support member 84; and a forward end stopper 86a and a backward end stopper 86b that restrict the moving end of the support member 84; It is equipped with.

  According to such a structure, since the to-be-clamped parts, such as a rib, in a workpiece | work are clamped in two places, the various workpiece | work which has a variation can be hold | maintained reliably and can be conveyed. In addition, since the finger position can be moved in accordance with the workpiece clamping portion, and the finger can be rotated and the clamping direction can be adjusted as appropriate, the workpiece clamping portion has a different position and shape orientation. It is possible to flexibly handle the workpiece and securely clamp the workpiece clamping portion.

  In the above-described embodiment, since the working device 310 is a device that cleans and drys the workpiece W with air or liquid, the workpiece receiving unit 300 is a workpiece loading unit on which the workpiece W is loaded and is a roller conveyor. Although configured, the present invention is not limited to this. For example, the workpiece receiving portion is a dedicated receiving jig (not shown) provided with a positioning portion for positioning the workpiece W fixed thereto, or a common receiving jig provided with a positioning portion for positioning the workpiece W movably. (Not shown). The common receiving jig is preferably applied when there are many types of workpieces W. In this case, the workpiece W set in the dedicated receiving jig or the common receiving jig is transported toward a working apparatus such as a processing apparatus that requires precise positioning.

  As mentioned above, although this invention was demonstrated based on embodiment, this invention is not limited to the structure described in the said embodiment (a modification is included), The above-mentioned structure is combined thru | or selected suitably. In the range which does not deviate from the meaning, the structure can be changed suitably.

1, 1 'Workpiece gripping device 2 Attitude control device 3 Elastic mechanism 4 Displacement detection means 5 Support shaft 6 Attitude detection device 7 Rotating device 8 Linear movement device 11 Grip mechanism 13 Movement restricting device 21 Fixed plate 22 Support plate 63 Detection means 100 , 100 'Robot 101 Robot arm 200, 200' Unloading device 201 Pallet 201b Work placement surface 201a Protrusion 202 Unloading position 203 Pallet retention mechanism 204 Pallet collection mechanism 230, 244 Pallet adsorption device 231 245 Connection unit 232 Adsorption unit 235 Folding device 250 Warehouse 260 Detection Device 300, 300 ′ Work Receiving Portion 310, 310 ′ Work Device 320, 320 ′ Work Unloading Device 530 Grasping Portion Positioning Mechanism 601 Work Grasping Device 611 Fixed Finger 612 Movable Inga W, W 'work W1, W1', W2, W2 'clamped portion Wa gripped portion

Claims (15)

A pallet on which workpieces can be placed;
An unloading device for unloading the work placed on the pallet from the warehouse;
A detection device that detects the posture and position of a workpiece that has been delivered by the delivery device and placed on the pallet;
A robot arm, and a workpiece gripping device that is attached to the robot arm and grips the workpiece by a gripping unit, and changes the posture and position of the workpiece gripping device based on the posture and position of the workpiece detected by the detection device. A robot for gripping and transferring the workpiece on the pallet by the gripping unit;
A workpiece receiving section for receiving a workpiece transferred by the robot;
A working device for performing work on the workpiece received in the workpiece receiving portion;
Work work system characterized by comprising   The work work system according to claim 1, wherein a plurality of the robots are provided, and each robot grips a work.   3. The work work system according to claim 2, wherein each of the robots includes a different work gripping device that grips a different work.   The work work system according to claim 2 or 3, further comprising a work unloading device that unloads the plurality of works synchronously from the work device.   The unloading device includes a pallet holding mechanism for stopping a pallet on which a work is placed at a position where the work is taken out, and a pallet collecting mechanism for collecting the pallet that is empty after the work is transferred and returning the pallet to the warehouse. The work work system according to claim 1, further comprising: a work work system according to claim 1.   The protrusion which divides | segments these several workpiece | work separately when the several workpiece | work is mounted in the workpiece | work mounting surface in which the workpiece | work of the said pallet is mounted is formed. The work work system according to claim 5.   The unloading apparatus unloads the workpieces from the warehouse in a state where a plurality of stacks are stacked in the vertical direction with a pallet on which a plurality of workpieces are placed as one stage. Work work system described in the section.   The work detection system according to claim 1, wherein the detection device detects an attitude and a position of the work by processing an image obtained based on the work. .   The said workpiece | work holding device has the said holding | gripping part which can be switched to the state in which the movement in the said workpiece | work holding device was permitted, and the controlled state, The Claim 1 thru | or 8 characterized by the above-mentioned. The work work system described.   An engaging portion that can be engaged with the gripping portion is provided, and the engaging portion engaged with the gripping portion that is allowed to move in the workpiece gripping device is three-dimensionally moved to move the gripping portion. The work work system according to claim 9, further comprising a gripping part positioning mechanism that moves and positions a position corresponding to a gripped part of the work in accordance with the type of the work.   The workpiece gripping device includes: a first finger that grips a first sandwiched portion of a workpiece; a gripping portion that has a second finger that sandwiches a second sandwiched portion of the workpiece; and the first finger And a moving device that movably supports at least one of the second fingers, and a rotating device that rotatably supports at least one of the first finger and the second finger. The work work system according to any one of claims 1 to 8. The workpiece gripping device includes a support plate on which the gripping portion is disposed, and is attached to the robot arm via a posture control device.
The attitude control device includes:
A fixed plate fixed to the robot arm;
An elastic mechanism mounted between the support plate and the fixed plate and elastically supporting the support plate with respect to the fixed plate;
An orientation detection device that detects the orientation of the workpiece gripping device with respect to the workpiece,
The posture detection device is
A support shaft that contacts the workpiece;
Contact detection means for detecting that the support shaft is in contact with the workpiece;
The work work system according to any one of claims 1 to 11, further comprising: The workpiece gripping device includes a support plate on which the gripping portion is disposed, and a pallet suction device attached to the support plate.
The pallet suction device includes a connection portion connected to the support plate, and a suction portion that is provided at a tip of the connection portion and contacts the surface of the pallet and sucks the pallet by suction of air. The work work system according to any one of claims 1 to 12, wherein:   The work connection system according to claim 13, wherein the connection portion is configured such that an installation site of the suction portion in the connection portion is displaceable. The connection portion is a shaft that is swingably coupled to the support plate;
The pallet suction device includes a folding device that swings between a position in which the shaft is folded in a direction approaching the support plate and a position in which the shaft is extended in a direction away from the support plate. Work work system.

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