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Design and Control of a Piezoelectric-Driven Microgripper Perceiving Displacement and Gripping Force

机译：压电驱动微夹钳感知位移和夹持力的设计与控制

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摘要

A piezoelectric-driven microgripper with three-stage amplification was designed, which is able to perceive the tip displacement and gripping force. The key structure parameters of the microgripper were determined by finite element optimization and its theoretical amplification ratio was derived. The tracking experiments of the tip displacement and gripping force were conducted with a PID controller. It is shown that the standard deviation of tracking error of the tip displacement is less than 0.2 μm and the gripping force is 0.35 mN under a closed-loop control. It would provide some references for realizing high-precision microassembly tasks with the designed microgripper which can control the displacement and gripping force accurately.

机译：设计了具有三级放大作用的压电驱动微夹爪，该微夹爪能够感知尖端位移和夹持力。通过有限元优化确定了微爪的关键结构参数，并推导了其理论放大比。使用PID控制器进行尖端位移和夹持力的跟踪实验。结果表明，在闭环控制下，尖端位移的跟踪误差的标准偏差小于0.2μm，并且夹持力为0.35 mN。这将为通过设计的微型夹具实现高精度的微型装配任务提供参考，该微型夹具可以精确地控制位移和夹持力。

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期刊名称 Micromachines
作者
Yanru Zhao; Xiaojie Huang; Yong Liu; Geng Wang; Kunpeng Hong;
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作者单位

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年(卷),期 2020(11),2
年度 2020
页码 -1
总页数 11
原文格式 PDF
正文语种
中图分类
关键词
microassembly; microgripper; PID controller; tip displacement; gripping force;

机译：微型组件;微型夹具;PID控制器;尖端位移;抓力;

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专利

1. Design and position/force control of an S-shaped MFC microgripper [J] . Yang Yi-ling, Lou Jun-qiang, Wu Gao-hua, Sensors and Actuators, A. Physical . 2018,第期

机译：S形MFC微胶的设计和位置/力控制
2. Design and position/force control of an S-shaped MFC microgripper [J] . Yang Yi-ling, Lou Jun-qiang, Wu Gao-hua, Sensors and Actuators, A. Physical . 2018,第期

机译：S形MFC微胶的设计和位置/力控制
3. Displacement and force coupling control design for automotive active front steering system [J] . Wanzhong Zhao, Han Zhang, Yijun Li Mechanical systems and signal processing . 2018,第juna期

机译：汽车主动前转向系统的位移和力耦合控制设计
4. Optimal design of columns for buckling under loadings controlled by displacements and forces [C] . Jacek Kruzelecki, Pawel Smas Structural and multidisciplinary optimization : Extended abstracts . 2001

机译：受位移和力控制的荷载作用下屈曲柱的优化设计
5. Controlling Force and Displacement: Instrumentation Design and Application in Thermal Actuation and Nanoindentation [D] . Fan, Chunjie. 2021

机译：控制力和位移：仪器设计和在热驱动和纳米内的应用
6. Design of a Compliant Mechanism Based Four-Stage Amplification Piezoelectric-Driven Asymmetric Microgripper [O] . Xiaodong Chen, Zilong Deng, Siya Hu, 2020

机译：基于柔顺机构的四级放大压电驱动不对称微夹持器的设计
7. Design and Control of a Piezoelectric-Driven Microgripper Perceiving Displacement and Gripping Force [O] . Yanru Zhao, Xiaojie Huang, Yong Liu, 2020

机译：压电驱动的微臂观察位移和夹紧力的设计与控制
8. Nonlinear Control Design for a Piezoelectric-Driven Nanopositioning Stage [R] . Oates, W. S. , Smith, R. C. 2005

机译：压电驱动纳米定位平台的非线性控制设计

Design and Control of a Piezoelectric-Driven Microgripper Perceiving Displacement and Gripping Force

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