摘要
由电磁力互动柱塞泵衔铁的仿真云图可知,互动柱塞泵工作时磁通大部分汇集在衔铁底部,中部的磁通对产生电磁力几乎没有贡献。在Isight中搭建优化算法,优化衔铁的结构,保持电磁力不变的情况下,大幅度缩小衔铁体积,优化后的衔铁体积可减少48.27%。
From the simulation cloud diagram of the armature of the electromagnetic force interactive plunger pump,it can be seen that when the interactive plunger pump is working,most of the magnetic flux is concentrated at the bottom of the armature,and the magnetic flux in the middle part hardly contributes to the electromagnetic force.An optimization algorithm is built in Isight to optimize the structure of the armature.While keeping the electromagnetic force unchanged,the volume of the armature is greatly reduced,and the volume of the optimized armature can be reduced by 48.27%.
作者
方磊
张洪信
赵清海
王东
FANG Lei;ZHANG Hong-xin;ZHAO Qing-hai
出处
《智能城市》
2021年第4期7-9,共3页
Intelligent City
基金
国家自然科学基金“机电液耦合器的动力协同机制”(52075278)
青岛市民生科技计划项目“高效能机电液耦合器研发”(No.19-6-1-92-nsh)
青年科学基金项目“考虑散热与不确定性的永磁同步电机转子设计理论与方法”(51705268)
关键词
电磁力互动柱塞泵
衔铁
结构优化
electromagnetic force interaction plunger pump
armature
structural optimization