铁路通道分流用混合式直线步进电机的设计

2013 International Conference on Electrical Engineering and Software Applications Pub Date : 2013-03-21 DOI:10.1109/ICEESA.2013.6578404

Barhoumi El Manaa, H. Mansour, B. S. Boujemâa

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引用次数: 1

摘要

本文通过对使用的永磁体各位置的推进力进行评估，对混合式直线步进电机进行优化设计。提出了一种用于铁路通道分流的新型直线执行器，旨在取代目前使用的由旋转执行器和运动转换系统(旋转到线性)组成的系统。为此，采用有限元方法对三种不同的永磁结构进行了分析，以评估其推进力与运动位移的关系。给出并讨论了每种混合结构的磁通分布和受力分布。不同的执行机构结构的分析允许选择适当的结构，为特定的要求应用。

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Design of a hybrid linear stepper motor for shunting the railways channels

This paper concerns the optimal design of hybrid linear stepper motor by evaluating the developed propulsive force for each position of the used permanet magnet. The new linear actuator is proposed for shunting the railways channels in aim to replace the currently used system which consists of a rotary actuator coupled with system for movement transformation (Rotary to Linear). Hence, three different structures with permanent magnet are analysed by finite element method in aim to evaluate the propulsive force versus the mobile displacement. The magnetic flux distribution and the force profile of each hybrid structure are presented and discussed. The analysis of different actuator structures allows the selection of the proper structure for the specific requested application.

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2013 International Conference on Electrical Engineering and Software Applications

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