Structure design and performance analysis of double piezoelectric ceramic drive fast tool servo system

Tiancong Luo, Xiao-qiang Peng, Chao-liang Guan, Jiahao Yong, Yupeng Xiong
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Abstract

With the application of single point diamond ultra-precision turning technology in optical free-form surface processing, the development of high-frequency large amplitude fast tool servo system has become a research hotspot. In this paper, a double piezoelectric ceramic fast tool servo system is designed. Its performance index is 60μm stroke at 300Hz. In this paper, the structural design principle and processing technology of the system are systematically analyzed. The stiffness analysis of the system were carried out by using the finite element analysis software to verify the performance of the high-frequency response amplitude of the system. In this paper, the key technology research on the structure design of double piezoelectric ceramic fast tool servo system provides the basis for improving the machining accuracy and efficiency of the fast tool servo system.
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双压电陶瓷驱动快速刀具伺服系统的结构设计与性能分析
随着单点金刚石超精密车削技术在光学自由曲面加工中的应用,高频大振幅快速刀具伺服系统的开发成为研究热点。本文设计了一种双压电陶瓷快速刀具伺服系统。其性能指标为300Hz下60μm行程。本文系统地分析了该系统的结构设计原理和加工工艺。利用有限元分析软件对系统进行刚度分析,验证系统高频响应幅值的性能。本文对双压电陶瓷快速刀具伺服系统结构设计的关键技术进行了研究,为提高快速刀具伺服系统的加工精度和效率提供了依据。
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