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Analysis and comparison of flexible mechanisms for parasitic motion principle piezoelectric actuator

Jiru Wang, Hu Huang, Zhaoxin Wang, Tianwei Liang, Hongwei Zhao

2021Smart Materials and Structures21 citationsDOI

Abstract

Abstract This paper compares three flexible mechanisms in parasitic motion principle piezoelectric actuator through analytic calculation and experiment investigation. The flexible mechanism used in piezoelectric actuator can be classified into functional shape type and asymmetrical stiffness type. For comparing the benefits of these two types of flexible mechanisms and their hybrid structure, the relation between the force and displacement of three flexible mechanisms are deduced using matrix-based compliance modeling method. Also, the dynamic model of parasitic motion principle piezoelectric actuator is used to explore the influence of dimension of flexible mechanism. After that, a prototype and above-mentioned three flexible mechanisms are manufactured and tested, and the motion characteristics of prototype with different flexible mechanisms are investigated, including the step length, velocity and load capacity under different driving voltage and driving frequency. Based on experiment results, the advantages of three flexible mechanisms are analyzed, the hybrid flexible mechanism can achieve fast velocity at medium driving frequency, but asymmetrical stiffness flexible mechanism shows greater motion efficiency and better performance under high driving frequency.

Topics & Concepts

Mechanism (biology)ActuatorStiffnessDisplacement (psychology)Control theory (sociology)PiezoelectricityVoltageMotion (physics)EngineeringComputer scienceStructural engineeringPhysicsArtificial intelligenceControl (management)Electrical engineeringQuantum mechanicsPsychotherapistPsychologyPiezoelectric Actuators and ControlAdvanced MEMS and NEMS TechnologiesIterative Learning Control Systems
Analysis and comparison of flexible mechanisms for parasitic motion principle piezoelectric actuator | Litcius