中空圆柱形超声波电机的特性分析与设计

arXiv - CS - Robotics Pub Date : 2024-09-12 DOI:arxiv-2409.07690

Zhanyue Zhao, Yang Wang, Charles Bales, Daniel Ruiz-Cadalso, Howard Zheng, Cosme Furlong-Vazquez, Gregory Fischer

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引用次数: 0

摘要

与气动和液压电机等其他运动单元相比，压电超声波电机具有设计紧凑、反应速度快、安装简单等优点，特别是其无铁磁性，与传统直流电机相比，可完美地用于核磁共振兼容机器人系统。空心轴电机具有重量轻、可与相同直径的实心轴相媲美、转动惯量小、因重量轻而对转动不平衡的耐受性高、因比质量小而耐高温等优点。本文介绍了一种中空圆柱形超声波电机（HCM）的原型，该电机可实现直接驱动，消除机械非线性，并减小致动器和效应器组件的尺寸和复杂性。在转子上施加 50g 预压力的情况下，当施加 282V_{pp}$ 的驱动电压时，它能实现 383.3333rpm 的转速和 57.3504mNm 的扭矩输出。

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Characterization and Design of A Hollow Cylindrical Ultrasonic Motor

Piezoelectric ultrasonic motors perform the advantages of compact design, faster reaction time, and simpler setup compared to other motion units such as pneumatic and hydraulic motors, especially its non-ferromagnetic property makes it a perfect match in MRI-compatible robotics systems compared to traditional DC motors. Hollow shaft motors address the advantages of being lightweight and comparable to solid shafts of the same diameter, low rotational inertia, high tolerance to rotational imbalance due to low weight, and tolerance to high temperature due to low specific mass. This article presents a prototype of a hollow cylindrical ultrasonic motor (HCM) to perform direct drive, eliminate mechanical non-linearity, and reduce the size and complexity of the actuator or end effector assembly. Two equivalent HCMs are presented in this work, and under 50g prepressure on the rotor, it performed 383.3333rpm rotation speed and 57.3504mNm torque output when applying 282$V_{pp}$ driving voltage.

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arXiv - CS - Robotics

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