一种新型主动磁悬浮直线作动器的分析与初步综合

Conference Record of the 2004 IEEE Industry Applications Conference, 2004. 39th IAS Annual Meeting. Pub Date : 2004-11-01 DOI:10.1109/IAS.2004.1348758

A. Lebedev, E. Lomonova, Peter G. van, Leuven, Joris Steinberg, D. Laro

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引用次数: 12

摘要

本文重点研究了作为六自由度(6-DoF)非接触滑动系统组成部分的新型u形机电致动器的初步设计和实验验证。这种协同系统是通过电磁轴承和线性机电致动器的电磁和机械结构的集成来实现的。首先对电磁模块的性能进行了测试。分析了永磁体和悬浮线圈产生的解耦力随转子位置和控制线圈电流值的变化规律。数值结果(有限元模型- maxwell 3D Ansoft Co.)通过静态测量得到了验证。对初始几何形状进行了修改，以证明驱动器性能的改善。

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Analysis and initial synthesis of a novel linear actuator with active magnetic suspension

In this paper attention is given to the initial design and experimental verification of the novel IU-shaped electromechanical actuator as a part of six degrees of freedom (6-DoF) contactless sliding system. Such a synergetic system is reached by integration of electromagnetic and mechanical structures of magnetic bearing and linear electromechanical actuator. Initially the performance of the electromagnetic module is examined. An analytical investigation of decoupled forces, originated from permanent magnets and suspension coils as functions of rotor position and current values in the control coils, is performed. Numerical results (the FEM models-Maxwell 3D Ansoft Co.) are validated by static measurements. Initial geometry is modified to demonstrate the improvement of the actuator performance.

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Conference Record of the 2004 IEEE Industry Applications Conference, 2004. 39th IAS Annual Meeting.

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