A 3-DOF modular vibration isolation system using zero-power magnetic suspension with adjustable negative stiffness

2010 11th IEEE International Workshop on Advanced Motion Control (AMC) Pub Date : 2010-03-21 DOI:10.1109/AMC.2010.5464051

M. Hoque, T. Mizuno, Y. Ishino, M. Takasaki

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引用次数: 5

Abstract

This paper presents a 3-DOF vibration isolation system combining three vibration isolation modules. Each vibration isolation module is constructed by connecting a positive stiffness spring in series with a negative stiffness spring. The positive and negative spring is realized by an active controlled magnetic suspension. In the previous system, conventional zero-power control system has been used to generate negative stiffness, and the stiffness depends on the capacity of the permanent magnets or the gap-force coefficient of the magnets. This is one of the bottlenecks in the fields of application of zero-power control where the adjustment of stiffness is necessary. On the other hand, the suspension system was used in the vertical and horizontal directions, which made the system complicated. To overcome the above problems, a vibration isolation system is developed with three modules connected by parallel mechanism. Some experiments have been carried out to measure the efficacy of the control system, as well as the vibration isolation system.

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采用负刚度可调零功率磁悬浮的三自由度模块化隔振系统

本文提出了一种由三个隔振模块组成的三自由度隔振系统。每个隔振模块由一个正刚度弹簧与一个负刚度弹簧串联而成。正负弹簧由主动控制的磁悬浮系统实现。在以前的系统中，采用传统的零功率控制系统产生负刚度，其刚度取决于永磁体的容量或永磁体的间隙力系数。这是零功率控制应用领域中需要对刚度进行调整的瓶颈之一。另一方面，悬架系统在垂直方向和水平方向上都有应用，使系统变得复杂。为克服上述问题，设计了一种由三个模块并联连接的隔振系统。通过实验验证了控制系统和隔振系统的有效性。

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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2010 11th IEEE International Workshop on Advanced Motion Control (AMC)

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