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Method and device for avoiding singularities in the process of robot force-controlled traction

A robot and singularity avoidance technology, applied in the field of robots, can solve the problems of poor operation experience and low efficiency of force-controlled traction operation, and achieve the effect of improving operation efficiency and improving operation experience.

Active Publication Date: 2021-02-09
SIASUN CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0006] In view of this, the object of the present invention is to provide a method and device for avoiding singularities in the process of force-controlled traction of robots, so as to alleviate the problems caused by the operator pulling the robot into a singular configuration in the process of force-controlled traction of existing robots. The robot alarms and shuts down, resulting in low efficiency of force-controlled traction operations and poor operating experience.

Method used

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  • Method and device for avoiding singularities in the process of robot force-controlled traction
  • Method and device for avoiding singularities in the process of robot force-controlled traction
  • Method and device for avoiding singularities in the process of robot force-controlled traction

Examples

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Effect test

Embodiment 1

[0056] A singularity avoidance method in the force-controlled traction process of a robot, applied to the controller, refer to figure 1 , the method includes:

[0057] S102. Calculate the operability index of the target robot in real time, wherein the target robot is a robot that is force-controlled and pulled by an operator in a Cartesian space;

[0058] In the embodiment of the present invention, the process of force-controlled traction is performed in Cartesian space. Specifically, in force-controlled traction, the operator grasps the end of the robot to perform a force-controlled traction operation on the robot in Cartesian space, and the robot is the target robot. The process of calculating the operability index will be described below, and will not be repeated here.

[0059] S104. Determine whether the target robot is close to a singular configuration according to the operability index;

[0060] After obtaining the maneuverability index, determine whether the target r...

Embodiment 2

[0104] A strange avoidance device in the force-controlled traction process of a robot, applied to the controller, refer to Image 6 , the device consists of:

[0105] The first calculation module 11 is used to calculate the operability index of the target robot in real time, wherein the target robot is a robot that is force-controlled and pulled by the operator in Cartesian space;

[0106] Determining module 12, is used for determining whether target robot is close to singular configuration according to operability index;

[0107] The second calculation module 13, if it is determined that the target robot is close to the singular configuration, then calculate the constraint force based on the operability index, and apply additional constraint force to the target robot through the driver, so that the target robot can avoid the singular configuration under the constraint force. The configuration continues to move.

[0108] In the singularity avoidance device in the force-contr...

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Abstract

The present invention provides a singularity avoidance method and device in the process of force-controlled traction of a robot. The method includes: calculating the operability index of the target robot in real time; determining whether the target robot is close to a singular configuration according to the operability index; When the target robot is close to the singular configuration, the constraint force is calculated based on the operability index, and an additional constraint force is applied to the target robot through the driver, so that the target robot can continue to move away from the singular configuration under the action of the constraint force. This method can effectively prevent the robot from reaching the singular configuration, so that the process of force-controlled traction can be carried out continuously, which improves the operation experience of force-controlled traction, improves the operation efficiency of force-controlled traction, and alleviates the difficulty of force-controlled traction for existing robots. During the traction process, the robot alarms and shuts down due to the operator pulling the robot into a singular configuration, resulting in low efficiency of the force-controlled traction operation and poor operating experience.

Description

technical field [0001] The invention relates to the technical field of robots, in particular to a method and device for avoiding singularities in the force-controlled traction process of a robot. Background technique [0002] At present, the singularity avoidance of the robot is generally carried out in the position control. When the mechanical arm moves close to the singularity, the robot will stop and give an alarm. Or consider the problem of singularity avoidance when planning the trajectory, so that the generated trajectory is far away from the singularity. [0003] In order to be able to realize the position control of the robot, traction teaching (that is, force-controlled traction) is an essential premise. In the force-controlled traction process of the collaborative robot: first click the traction teaching button on the robot’s teach pendant to make the robot enter the traction state; then the operator grabs the end of the robot and applies a certain force in any di...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B25J9/16
CPCB25J9/1607B25J9/1653B25J9/1666
Inventor 王琰刘一帆刘雪梅汪宇星张一楠李法设
Owner SIASUN CO LTD
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