设施园艺电驱移动平台轮毂电机设计及其磁-热耦合性能  被引量：1

作　　者：鲁应涛 姜逸菲 刘逸龙 罗志涛 郑恩来[1] 鲁植雄[1] 沈成 汪小旵[1] LU Yingtao;JIANG Yifei;LIU Yilong;LUO Zhitao;ZHENG Enlai;LU Zhixiong;SHEN Cheng;WANG Xiaochan(College of Engineering,Nanjing Agricultural University,Nanjing 210031,China;Nanjing Institute of Agricultural Mechanization,Ministry of Agriculture and Rural Affairs,Nanjing 210014,China)

机构地区：[1]南京农业大学工学院,南京210031 [2]农业农村部南京农业机械化研究所,南京210014

出　　处：《农业工程学报》2024年第13期15-24,共10页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家重点研发计划项目(2023YFD2000302,2022YFD2001202)。

摘　　要：针对设施园艺作业场景下电驱移动平台的低速大扭矩牵引作业需求,该研究设计了一种减速内转子轴向磁通轮毂电机,建立电机的电磁有限元模型并分析其电磁和损耗特性。考虑到绕组电阻率受温度变化影响,构建基于热网络法的轮毂电机磁-热耦合改进模型。与台架试验结果相比,基于改进模型获得的转矩预测值较传统模型的精度提高了5.33%,验证了模型的正确性。利用改进模型分析了温度和相电流对电机转矩特性的影响,仿真结果表明,输出转矩随电机温度增加而降低;在0~20 A,电机平均输出转矩与相电流呈线性关系。试验结果表明,轮毂电机功率随转速增加而增大,峰值功率可达4.59 kW,而转矩基本保持恒定;在转速450~900 r/min、转矩300~600 N·m时,电机效率高达93.2%。研究结果可为轴向磁通电机初步设计与多场耦合影响下电机性能分析提供思路。The hub motor-driven mobile platform has gradually replaced the traditional centralized electric drive system.There is ever-increasing demand for flowers,fruits,vegetables,and tea horticulture for the new energy-powered operating equipment,particularly with high efficiency,energy saving,compact structure,independent and controllable advantages.Compared with direct-drive hub motors,the geared hub motors have been the mainstream of the drive unit for facility horticulture,due to the higher overload and torque output.The operational requirements of large load and torque can be fully met in the operation scenarios of facility horticulture.However,the geared hub motors are limited to the size of the space inside the hub.The high heat generation has seriously restricted the operational performance of electric drive mobile platforms.In this study,a decelerated inner-rotor axial flux hub motor was designed to meet the requirements of the low-speed and high-torque traction for electric-driven mobile platforms in facility horticulture operation scenarios.The electromagnetic finite element(FE)model was established to analyze the electromagnetic and loss features of the hub motor.Moreover,an improved magnetic-thermal coupling FE model of the hub motor was also constructed using the thermal network.The effect of temperature on the winding resistivity was considered to reduce the prediction accuracy of the simulation model,compared with the conventional magnetic-thermal bidirectional model.The prediction accuracy of the torque was improved by 5.33%using the improved model,compared with the bench tests.The correctness of the model was verified using the magnetic-thermal coupling FE model.A systematic investigation was made on the influence of the temperature and phase current on the torque of the motor.The experiments were also conducted on the external efficiency of the hub motor under peak operating conditions.The simulation results reveal that the average output torque of the motor decreased,as the steady-state temperature i

关 键 词：农业 电机 模型 热网络法 磁-热耦合 温升特性 

分 类 号：S219.4[农业科学—农业机械化工程]