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Robot control method and device

A control method and robot technology, applied in the direction of program control of manipulators, manipulators, manufacturing tools, etc., can solve problems such as robot collision accidents, collision accidents, and incorrect equipment status, and achieve collision avoidance, simple use, and good versatility Effect

Active Publication Date: 2021-10-15
GEELY AUTOMOBILE INST NINGBO CO LTD +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] With the continuous increase of labor costs, industrial robots have been widely used in all walks of life, and as factories are constantly developing towards intelligence and flexibility, the work content of robots has become more diverse and complicated, and often requires When working in a complex environment, there are various moving mechanisms or equipment around, such as fixtures, turntables, dust covers, self-propelled trolleys, roller beds, elevators, etc., which are prone to collision accidents
[0003] In order to prevent robot collision accidents, one way is that the robot first judges whether the state of the peripheral equipment is safe before executing the task and then executes the motion command. The robot will still continue to move, and a robot collision accident will occur
Another way is to implement the monitoring function through the $CYCFLAG system function that comes with the KUKA robot. $CYCFLAG is unique to the KUKA robot, and the data type is Boolean. It is written under each movement command of the robot. The signal monitoring expression is used to assign a value to $CYCFLAG, and then determine whether to trigger the interrupt program according to the assignment result. When the monitored signal needs to be adjusted, the expression needs to be re-modified. When there are many signals to be monitored, the expression will be very long. Moreover, each line of expression can only connect up to 32 signals in series, so that the function and capacity are limited, and it cannot be extended to other standards or other brands of robots.
[0004] It can be seen that there is currently no general and simple way to monitor the status of the peripheral equipment of the robot in real time and in large quantities, and it is impossible to effectively prevent robot collision accidents in complex environments.

Method used

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  • Robot control method and device

Examples

Experimental program
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Effect test

no. 1 example

[0042] figure 1 is a schematic flowchart of the robot control method shown according to the first embodiment. Please refer to figure 1 , the robot control method of this embodiment, including but not limited to the following steps:

[0043] Step 110, obtain the status signal of the equipment to be monitored around the robot in real time and store it in the monitoring storage area;

[0044] Step 120, judging whether the state signal stored in the monitoring storage area meets the preset monitoring condition;

[0045] Step 130, controlling the robot according to the judgment result.

[0046] In step 110, the status signal of the equipment to be monitored around the robot is obtained in real time and stored in the monitoring storage area, which may include:

[0047] Obtain the status signal of the equipment to be monitored around the robot in real time;

[0048] Store each state signal into the corresponding address in the monitoring storage area, so that the addresses of al...

no. 2 example

[0083] image 3 is a schematic structural diagram of the robot control device shown according to the second embodiment. Such as image 3 As shown, the robot control device of this embodiment includes a memory 310 and a processor 320, the memory 310 is used to store at least one program instruction, and the processor 320 is used to load and execute the at least one program instruction to implement the following method:

[0084] Obtain the status signal of the equipment to be monitored around the robot in real time and store it in the monitoring storage area;

[0085] judging whether the state signal stored in the monitoring storage area meets the preset monitoring condition;

[0086] The robot is controlled according to the judgment result.

[0087] In one embodiment, the processor 320 obtains the status signals of the equipment to be monitored peripheral to the robot in real time and stores them in the monitoring storage area, including:

[0088] Obtain the status signal o...

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Abstract

The present application relates to a robot control method and device. The robot control method includes: obtaining in real time the status signal of the equipment to be monitored around the robot and storing it in the monitoring storage area; judging whether the status signal stored in the monitoring storage area meets the preset monitoring conditions; Control the robot according to the judgment result. By establishing a storage area to store state signals in this application, the state of peripheral equipment of the robot can be monitored in real time and in large quantities, effectively avoiding collision accidents, easy to use, and good in versatility.

Description

technical field [0001] The present application relates to the technical field of equipment control, in particular to a robot control method and device. Background technique [0002] With the continuous increase of labor costs, industrial robots have been widely used in all walks of life, and as factories are constantly developing towards intelligence and flexibility, the work content of robots has become more diverse and complicated, and often requires When working in a complex environment, there are various moving mechanisms or equipment around, such as fixtures, turntables, dust covers, self-propelled trolleys, roller beds, elevators, etc., and collision accidents are prone to occur. [0003] In order to prevent robot collision accidents, one way is that the robot first judges whether the state of the peripheral equipment is safe before executing the task and then executes the motion command. The robot will still continue to move, and then a robot collision accident will ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B25J9/16
CPCB25J9/1602B25J9/1676
Inventor 马中兴丁华李志光冯波张荣昌王纪
Owner GEELY AUTOMOBILE INST NINGBO CO LTD