摘要
文章以电压28V,制动力矩0.2N.M的牙嵌式电磁制动器为例,通过分析制动器的几何模型、漆包线的规格和匝数,基于Max‐well_3D仿真软件设计出5组线圈参数数据,经过对这5组数据进行研究、分析、比较,确定数据为线径0.18、绕制1426匝的方案,产生的吸合力最大,满足设计要求,得出一种简单、可行的电磁制动器设计方案。
The article uses a jaw type electromagnetic brake with a voltage of 28V and a braking torque of 0.2N.m as an example.Through the analysis of the brake's geometric model,the specifications of the enameled wire,and the number of turns,five sets of coil parameter data were designed using the Maxwell_3D simulation software.After studying and comparing these five sets of data,the scheme with a wire diameter of 0.18 and 1426 turns was deter‐mined to produce the maximum pull-in force,meeting the design requirements.This leads to a simple and feasible de‐sign solution for an electromagnetic brake.
作者
李炎姝
李涛
侯乃歌
赵康康
李承继
Li Yanshu;Li Tao;Hou Naige;Zhao Kangkang;Li Chengji(Engineering Department,Huanghe Science and Technology College,Zhengzhou 450063,China)
出处
《办公自动化》
2024年第17期81-83,共3页
Office Informatization
关键词
电磁制动器
安匝数
电磁仿真
吸合时间
electromagnetic brake
ampere turns
electromagnetic simulation
closing time
