Modeling of magnetic field and design optimization for permanent-magnet spherical actuator in three dimensional space

2015 IEEE 10th Conference on Industrial Electronics and Applications (ICIEA) Pub Date : 2015-06-15 DOI:10.1109/ICIEA.2015.7334423
Liang Yan, Delong Liu, Zongxia Jiao, Chin-Yin Chen, I. Chen
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引用次数: 2

Abstract

Spherical actuator is a device that can achieve multiple degree-of-freedom (DOF) rotary motions in a single joint. This paper proposes a spherical actuator with approximated dihedral cone shaped rotor. To formulate the magnetic field in three dimensional space, Laplace equation is used. By adding the fundamental terms, a more accurate numerical model is set up. It is validated by FEM results in three directions of spherical coordinate. Based on the magnetic field formulation, optimization of spherical actuator is conducted with respect to air gap distance and rotor shape. The optimized parameters can be the foundation of following prototype design.
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三维空间永磁球形作动器磁场建模与优化设计
球面作动器是一种在单个关节内实现多个自由度旋转运动的装置。提出了一种带近似二面体锥形转子的球形作动器。用拉普拉斯方程来表示三维空间中的磁场。通过加入基本项,建立了更精确的数值模型。在球坐标的三个方向上对有限元结果进行了验证。基于磁场公式,从气隙距离和转子形状两方面对球形作动器进行了优化。优化后的参数可作为后续样机设计的基础。
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2015 IEEE 10th Conference on Industrial Electronics and Applications (ICIEA)
2015 IEEE 10th Conference on Industrial Electronics and Applications (ICIEA)
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