Litcius/Paper detail

Suppress Vibration on Robotic Polishing with Impedance Matching

Junjie Dai, Chin-Yin Chen, Renfeng Zhu, Guilin Yang, Chongchong Wang, Shaoping Bai

2021Actuators23 citationsDOIOpen Access PDF

Abstract

Installing force-controlled end-effectors on the end of industrial robots has become the mainstream method for robot force control. Additionally, during the polishing process, contact force stability has an important impact on polishing quality. However, due to the difference between the robot structure and the force-controlled end-effector, in the polishing operation, direct force control will have impact during the transition from noncontact to contact between the tool and the workpiece. Although impedance control can solve this problem, industrial robots still produce vibrations with high inertia and low stiffness. Therefore, this research proposes an impedance matching control strategy based on traditional direct force control and impedance control methods to improve this problem. This method’s primary purpose is to avoid force vibration in the contact phase and maintain force–tracking performance during the dynamic tracking phase. Simulation and experimental results show that this method can smoothly track the contact force and reduce vibration compared with traditional force control and impedance control.

Topics & Concepts

Impedance controlContact forcePolishingVibrationStiffnessControl theory (sociology)InertiaRobotElectrical impedanceRobot end effectorEngineeringVibration controlHaptic technologyComputer scienceSimulationMechanical engineeringControl (management)Structural engineeringAcousticsArtificial intelligencePhysicsElectrical engineeringQuantum mechanicsClassical mechanicsAdvanced machining processes and optimizationAdvanced Surface Polishing TechniquesIterative Learning Control Systems