Design of a Compliant Vertical Micropositioning Stage Inspired by Lamina Emergent Mechanism

2022 International Conference on Manipulation, Automation and Robotics at Small Scales (MARSS) Pub Date : 2022-07-25 DOI:10.1109/MARSS55884.2022.9870463

Z. Lyu, Qingsong Xu

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引用次数: 1

Abstract

The vertical micropositioning stage is a crucial device of precision measurement instruments. Previous vertical platforms often suffer from the disadvantages of large longitudinal dimensions and small output strokes. Inspired by the motion principle of the lamina emergent mechanism, this paper proposes a novel symmetric double-layer compliant vertical micropositioning stage. Such design saves the system footprint in vertical direction with a centimeter-level stroke output. The design and theoretical analysis of the stage are introduced first. Then, the performance simulation of the stage is given based on finite element analysis. A prototype was fabricated through 3D printing technology and preliminary tests were carried out. The stiffness of the overall mechanism obtained from theoretical model, simulation, and experiments shows a good consistency. According to the simulation data, the stiffness of the involved vertical positioning platform is 0.8271 N/mm and the first resonant frequency is 43.96 Hz. The mechanical design proposed in this paper provides a new reference for the design of compliant vertical micropositioning stage.

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基于层流应急机构的柔性垂直微定位平台设计

垂直微定位台是精密测量仪器的关键设备。以前的垂直平台往往存在纵向尺寸大、输出冲程小的缺点。受层状应急机构运动原理的启发，提出了一种新型对称双层柔性垂直微定位平台。这样的设计节省了系统在垂直方向上的占地面积，具有厘米级的行程输出。首先介绍了该平台的设计和理论分析。然后，在有限元分析的基础上对舞台进行了性能仿真。通过3D打印技术制作了一个原型，并进行了初步测试。理论模型、仿真和实验结果表明，机构整体刚度具有较好的一致性。仿真数据显示，所涉及的垂直定位平台刚度为0.8271 N/mm，第一共振频率为43.96 Hz。本文提出的机械设计为柔性垂直微定位工作台的设计提供了新的参考。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 International Conference on Manipulation, Automation and Robotics at Small Scales (MARSS)

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