JPH06154880A - Method for work handling with robot and device therefor - Google Patents

Abstract

PURPOSE:To shorten a machining time by calculating a deviating amount of material during machining, feeding back to a following process, and shortening a gaging time. CONSTITUTION:This device is composed of a positioning sensor 59 positioning a material set on a bender 1, a memory 75, 79 storing a positioning correcting amount detected by this positioning sensor 59 as an operational program of a robot 5, and an arithmetic controller 55 which controls so as to correct a bending position of the robot 5 with the positioning correcting amount and to move to a loading device 3 in order to take up the material.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for handling a work by a robot, in which a material (plate material, work) loaded on a loading device is picked up, conveyed to a plate material bending machine, positioned and bent. Regarding the device.

[0002]

2. Description of the Related Art Conventionally, when a plate material is carried by a robot and bent by a plate material bending machine, the material is loaded on a loading device. The robot picks up the material on the loading device according to the operation program, carries it to the plate bending machine, positions it, and performs bending.
At this time, the operation to get the material to the loading device is
Since it was decided by the operation program, the robot was always configured to take the material in the same posture.

When a material is bent by a plate bending machine using a robot, the bending position of the material must be parallel to the mold. If they are not parallel, it is necessary to correct them by the positioning sensor to make them parallel. The robot makes a corrective action according to the information from the positioning sensor to make the material parallel.

[0004]

By the way, it is sufficient if the materials are correctly loaded on the loading device. However, if there is a deviation in the stacking form, the robot picks up the materials with the deviation, and from the next operation, There has been a problem that an operation for correcting the deviation is required, which results in an extra processing time.

That is, if the gripper of the robot is parallel to the end portion of the material, the alignment time can be shortened only by applying the gripper to the workpiece in parallel. If the material is misaligned, the clipper will shake its head so as to achieve parallelism, and it will take time to align. Therefore, it takes time for the robot to correct the material in parallel based on the information from the positioning sensor.

[0006] The robot always picks up the material at the same position in the same motion. Therefore, the time required for the next positioning is determined by the deviation generated when the material is loaded on the loading device. At this time, if the materials are similarly displaced, the robot always has to apply the same correction, which wastes time.

If the alignment is originally performed by itself, the end faces can be aligned very easily. However, when the gripper is used, it has to be performed with a certain argonism, which is a major decisive factor for improving the operation efficiency of the bending robot.

As described above, the positioning time by the positioning sensor considerably changes depending on whether the material and the robot clipper are parallel when the robot takes the material. For this reason, it is necessary to place the material on the loading device so that the material is parallel to the robot clipper, but the material is usually processed into the appropriate shape in the preprocessing, and multiple sheets are stacked. Because it is doing, it is difficult to get parallel. The amount of deviation is often constant.

An object of the present invention is, in order to improve the above problems, a work handling by a robot in which a deviation amount of a material is reviewed during processing and is fed back to the next processing to shorten a gauging (measuring) time. A method and apparatus are provided.

[0010]

In order to achieve the above object, the present invention provides a robot for going to a plate bending machine for picking up a material loaded on a loading device, positioning the material, and bending the robot. A method of handling a workpiece by a robot, wherein a positioning correction amount detected by a positioning sensor for positioning the material is stored, and the gripper of the robot is corrected by the positioning correction amount and the material is taken to the loading device. Is.

According to another aspect of the present invention, in a robot for going to a plate material bending machine for picking up a material loaded on a loading device, positioning the material, and performing bending processing, the plate material bending machine is provided. A positioning sensor that is provided to position the material, a memory device that stores a positioning correction amount detected by the positioning sensor as a robot operation program, and a bending position of the gripper of the robot that is corrected by the positioning correction amount to perform the loading. It is a work handling device by a robot, which is provided with an arithmetic and control unit for controlling so as to take the material to the device.

[0012]

By employing the method and apparatus for handling a work by a robot according to the present invention, a positioning correction amount detected by a positioning sensor for positioning a material is stored, and the gripper of the robot is corrected by the positioning correction amount to correct the robot. When the material is taken to the loading device, the deviation amount of the material is calculated during the processing and is fed back to the next processing to shorten the gauging (measuring) time.

[0013]

Embodiments of the present invention will now be described in detail with reference to the drawings.

FIG. 3 is a schematic block diagram of a robot for a plate bending machine to which the present invention is applied, and FIG. 4 is an exploded view of the grip shown in FIG. In FIGS. 3 and 4, the plate material bending machine 1 is composed of, for example, a press brake, and a loading device 3 for placing a material 9 is provided on the left front side of the plate material bending machine 1.

A robot 5 for a plate bending machine is arranged in front of the plate bending machine 1 in order to perform bending on the loading device 3 in cooperation with the plate bending machine 1. The robot 5 is controlled by a control device 7 such as a microprocessor.

The robot 5 also includes a manipulator 11 that cooperates with the plate bending machine 1 to bend the plate 9. The manipulator 11 is attached to a base plate 15 integrally attached to a lower frame 13 of the plate bending machine 1.

More specifically, on the front surface of the base plate 15, there is provided a first movable member along the base plate 15.
A moving table 17 is provided. The first moving table 17 is provided with a fan-shaped portion 19 whose upper side is enlarged in the front-rear direction. The fan-shaped portion 19 supports a second movable base 21 that is movable along the fan-shaped portion 19.

The second moving table 21 is provided with the second moving table 21.
An elevating column 23 is supported so as to be movable in a direction orthogonal to the moving direction.

An arm 25 extending substantially in the front-rear direction is appropriately fixed to the upper part of the elevating column 23, and a plate material gripping device (gripper) capable of gripping one end of the plate material 9 at the tip of the arm 25. 27 is attached.

More specifically, the gripper 27 is rotatably provided in the up-down direction about a B-axis extending in the left-right direction with respect to the plate bending machine 1, and has an A-axis orthogonal to the B-axis. It is provided so that it can rotate freely around the center.

Specifically, at the tip of the arm 25, as shown in FIG.
As shown in FIG. 5, a rotating cylinder 29 is provided so as to be rotatable and rotatable around the A axis and the B axis. A linear actuator 33 having a rod 31 such as a piston rod that can expand and contract along the axis A is provided in the rotating cylinder 29.

An upper bracket 35 and a lower bracket 37 are provided on the rotating cylinder 29 and the rod 31, and an upper jaw 39 and a lower jaw 41 for gripping the plate material 9 are provided on the upper and lower brackets 35, 37. Is detachably attached. The upper and lower brackets 39 and 41 are provided with holes 43 and pins 45 for preventing mutual rotation.

With the above construction, the upper and lower jaws 35 and 37 are driven so that they can move toward and away from each other, and the five jaws 35 and 37 are moved relative to the predetermined reference system of the plate bending machine 1. It is movable along an axis (axis A, B, three axes orthogonal to each other).

FIG. 1 shows a block diagram of an embodiment of the work handling apparatus of the present invention. In the figure, the work handling device 47 is mainly composed of a material positioning sensor device 49 provided on a back gauge of the plate bending machine 1, axis control devices 51 of the robot 5, and operation calculation storage devices 5.
3 and a control device 7 (FIG. 3), and an arithmetic and control unit (CPU) 55 provided separately.

The material positioning sensor device 49 is a positioning sensor 59 provided on the back gate 57 of the robot 5.
It is composed of an A / D converter 61 for analog-to-digital conversion of the detection signal of 1 and an amplifier 65 for operating a drive motor 63 for changing the position of the back gauge 57. This position change is performed by I / O by the encoder 64 which is a position detection sensor.
It is fed back through the O device 67.

Each axis control device 51 includes an I / O device 67,
Axis control unit 69 and drive motor unit 7 for each axis of robot 5
It consists of 1.

Each motion calculation storage device 53 includes a material shape calculation unit 73 and a material memory 75 for storing the material shape.
An operation point calculation unit 77 that calculates an alignment operation point of the robot gripper 27, an operation point memory 79 that stores this operation point, an operation path calculation unit 81 that calculates an operation path based on these information, and this calculation The operation path memory 83 stores the operation path of the unit 81 and the machining program memory 85. The arithmetic and control unit 55 performs arithmetic processing based on the external input information and internal arithmetic data as described above, and controls each axis motor section 71 of the manipulator 11 of the robot 5 via the axis control section 69.

Next, FIG. 2 shows a flow chart of the work handling apparatus of the present invention. Step 1 in the figure
In (S1), it is determined whether or not the position of the material 9 needs to be corrected using the positioning sensor 59 as a parameter, and if there is no need for correction, normal operation gauging is performed in step 2 (S2). If correction is required, set the sampling count in step 3 (S3), and set robot 5 in step 4 (S4).
Pick up material 9.

Next, in step 5 (S5), the material 9 is moved to the bending position of the plate bending machine 1, the bending position is corrected in step 6 (S6), and the specified number of times is read in step 7 (S7). Repeat, analyze the correction amount in step 8 (S8),
If it is determined in step 9 (S9) that the correction amount has no regularity,
In step 10 (S10), new data is entered a specified number of times, the closest correction value is calculated by the moving average method, the record is changed, and a new correction amount is recorded in step 11 (S11), and step 12 (S12) Then, the next operation is repeated, and the gauging operation is completed in step 13 (S13).

If it is determined that the correction amount has regularity, the next operation is repeated in step 14 (S14),
This operation is completed in step 15 (S15), and step 1
6 (S16) corrects the next mounting position.

As described above, when the material 9 is picked up by the loading device 3 and the material 9 is positioned by the positioning sensor 59, the correction amount is stored, and when the correction method has regularity, , Material 9 to loading device 3
When the material 9 is picked up, the corrected amount is grasped by the movement of the robot 5, so that the positioning time is greatly shortened.

Similarly, during the second and subsequent bending processes,
It is possible to correct the position at which the alignment is started so as to correct the positioning error up to the previous time, and shorten the positioning time including the alignment time. By shortening the positioning time in this way, the processing time is shortened.

The present invention is not limited to the above embodiment, but can be carried out in other modes by making appropriate design changes, and the positioning can be performed by using a potentiometer. It can be applied to all machines using robots.

[0034]

As is apparent from the above description, the method and apparatus for handling a workpiece by the robot according to the present invention stores the positioning correction amount detected by the positioning sensor for positioning the material, and uses the positioning correction amount. By correcting the gripper of the robot and taking the material to the loading device, the problems of the prior art are effectively solved, and the deviation amount of the material is calculated during processing,
By feeding back to the next processing, the gauging time is shortened and the processing time is shortened.

[Brief description of drawings]

FIG. 1 is a block diagram of an embodiment of a work handling device of the present invention.

FIG. 2 is a flowchart of the work handling device of FIG.

FIG. 3 is a schematic configuration diagram of a plate bending machine robot in which the present invention is implemented.

FIG. 4 is an exploded view of the grip of FIG.

[Explanation of symbols]

 1 Plate Bending Machine 3 Loading Device 5 Robot 9 Plate Material 11 Manipulator 27 Gripper 47 Work Handling Device 49 Material Positioning Sensor Device 51 Each Axis Control Device 53 Each Motion Control Device 55 Calculation Control Device 59 Positioning Sensor 73 Material Shape Calculation Unit 75 Material Memory 77 operating point calculator 79 operating point memory 81 operating path calculator

Claims (2)

[Claims] 1. In a robot that carries a material loaded on a loading device to a plate bending machine for positioning and bending the material, a positioning correction amount detected by a positioning sensor for positioning the material is stored. Then, the work handling method by the robot, wherein the bending position of the robot is corrected by the positioning correction amount and the material is taken to the loading device. 2. A positioning sensor provided in the plate bending machine for positioning the material, in a robot for going to a plate bending machine for picking up a material loaded on a loading device and positioning the material. When,
A memory device for storing a positioning correction amount detected by the positioning sensor as a robot operation program, and an arithmetic and control unit for controlling the bending position of the robot by the positioning correction amount so as to take the material to the loading device. A work handling device by a robot, comprising: