五位姿参数下车载永磁体与永磁轨道之间的磁力特性研究

Magnetic Force Characteristics Between On-Board Permanent Magnet and Permanent Magnetic Rail Considering Five Pose Parameters

永磁磁浮交通系统利用车载永磁体和永磁轨道间的磁斥力实现悬浮,理解并掌握永磁体磁力与其空间位姿参数的关系对磁浮车辆走行部及轨道结构设计具有重要意义.参考兴国县永磁磁浮交通系统,建立车载永磁体和永磁轨道的三维磁场有限元模型;计算不同悬浮间隙、横向偏移、点头角、侧滚角和摇头角条件下车载永磁体受到的磁力,重点分析车载永磁体悬浮力和横向力随5个位姿参数的变化规律及其相关程度.结果表明:车载永磁体的磁力主要受悬浮间隙和横向偏移量的影响,受摇头角的影响较大,受点头角和侧滚角的影响很小;在设定的参数变化范围内,悬浮力最小值和最大值与额定悬浮力之比分别约为0.75和1.16,横向力最大值达到额定悬浮力的50.42%;车载永磁体横向力的方向与其横向偏移方向一致,摇头力矩与其摇头方向相同,需要为永磁悬浮系统设置导向装置,防止车载永磁体横向晃动和偏航运行.

The permanent magnet suspension(PMS)transportation system utilizes the magnetic repulsion between the on-board permanent magnet and the permanent magnetic rail to achieve levitation.Understanding and mastering the relationship between the magnetic force of the permanent magnet and its spatial pose parameter are crucial for designing the running gear of the maglev train and track structure.A three-dimensional magnetic field finite element model was developed for the on-board permanent magnet and the permanent magnetic rail based on the PMS transportation system of Xingguo County.The magnetic force on the on-board permanent magnet was calculated under different levitation gaps,lateral offsets,pitching angles,rolling angles,and yawing angles.The variation patterns of levitation force and lateral force of the on-board permanent magnet with respect to these five pose parameters were analyzed,as well as their correlation degree.The results indicate that the magnetic force of the on-board permanent magnet is primarily influenced by the levitation gap and lateral offset,with a greater impact from the yawing angle and minimal effect from the pitching angle and rolling angle.Within the specified range of parameter variations,the ratios of the minimum and maximum values of the levitation force to the rated levitation force are approximately 0.75 and 1.16,respectively.In addition,the maximum value of the lateral force reaches 50.42%of the rated levitation force.The direction of the lateral force of the on-board permanent magnet aligns with its lateral offset direction,while the yawing torque aligns with its yawing angle direction.Consequently,a guiding device is necessary for the PMS system to prevent lateral bobbing and yawing movements of the on-board permanent magnet.