微机械臂采用层合铰链机构

A. Ichikawa, T. Tanikawa, K. Ohba
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引用次数: 0

摘要

本文的研究目的是研制一种采用三自由度驱动板和膨胀板的多功能压电微机械臂驱动机构,该机构的膨胀率和特征频率可通过层合铰链机构的数量来调节。随着电子电路器件的小型化,驱动机构的小型化、高精度和集成化是驱动机构小型化的重要要求。膨胀机构由具有铰链机构的薄金属板制成。膨胀速率可以通过膨胀板的数量来控制。该膨胀机构体积小,可用于制作可安装在显微镜台上的微型机械臂。本文介绍了铰链机构的工作原理、微机械臂的系统和操作实验结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Micro-manipulator using laminate hinge mechanism
The purpose of our research work is to develop a multifunctional piezoelectric actuation mechanism for micro-manipulator using 3 degree of freedom actuation plate and expansion plate which its expansion rate and its character frequency can be adjusted by the number of the laminated hinge mechanism. It is important to downsizing of actuation mechanism along with the miniaturization of electronic circuit devices, moreover the making to high accuracy and integration of the actuator are also needed. The expansion mechanism is made by thin metal plates which have hinge mechanism. The expansion rate can be controlled by the number of the expansion plates. The expansion mechanism is small and useful to make micro-manipulator which can be set up on a microscope stage. This report shows a principle of the hinge mechanism, systems of micro-manipulator and result of the manipulation experiment.
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