Design of a minimum surface-effect tendon-based microactuator for micromanipulation

Proceedings of International Conference on Robotics and Automation Pub Date : 1997-04-20 DOI:10.1109/ROBOT.1997.614344

M. Goldfarb, J. Lipsey

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引用次数: 2

Abstract

A piezoelectric (PZT) stack-based actuator was developed to provide a means of actuation with dynamic characteristics appropriate for small-scale manipulation. In particular, the design incorporates a highly nonlinear, large-ratio transmission that provides approximately two orders of magnitude motion amplification from the PZT stack. In addition to motion amplification, the nonlinear transmission was designed via optimization methods to distort the highly non-uniform properties of a piezoelectric actuator so that the achievable actuation force is nearly constant throughout the actuator workspace. The package also includes sensors that independently measure actuator output force and displacement, so that a manipulator structure need not incorporate sensors nor the associated wires. Specifically, the actuator was designed to output a maximum force of at least one Newton through a stroke of at least one millimeter. For purposes of small-scale precision position and/or force control, the actuator/sensor package was designed to eliminate stick-slip friction and backlash. The overall dimensions of the actuator/sensor package are approximately 40/spl times/65/spl times/25 mm.

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用于微操作的最小表面效应肌腱微驱动器的设计

为了提供一种适合于小尺度操作的具有动态特性的驱动手段，开发了一种基于压电(PZT)堆栈的驱动器。特别是，该设计结合了高度非线性、大传动比的传输，从PZT堆栈中提供了大约两个数量级的运动放大。除了运动放大外，通过优化方法设计非线性传动，扭曲压电作动器高度不均匀的特性，使可实现的作动力在整个作动器工作空间内几乎恒定。该套件还包括独立测量执行器输出力和位移的传感器，因此机械手结构不需要包含传感器或相关导线。具体来说，驱动器被设计为通过至少一毫米的行程输出至少一牛顿的最大力。为了实现小规模的精确位置和/或力控制，执行器/传感器包的设计消除了粘滑摩擦和反弹。执行器/传感器封装的整体尺寸约为40/spl倍/65/spl倍/ 25mm。

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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Proceedings of International Conference on Robotics and Automation

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