以无极绳单轨吊行进装置为研究对象,对主板和行走轮进行了结构改进,利用ANSYS workbench对主板的侧板进行了目标驱动优化和拓扑优化,设置侧板厚度最小化、变形不大于0.4 mm、载荷最大化的优化目标,得出了各参数符合优化条件的最佳尺寸,通过拓扑优化找出了侧板上能够去除材料的区域。 Taking the unloader rope monorail hoisting device as the research object, the structure of the main board and walking wheel were improved. The main board was driven by ANSYS workbench to optimize the driving optimization and topological optimization. The side plate thickness was minimized with the deformation less than 0.4 mm , The optimal load maximization objective was obtained, the optimal size of each parameter was found to meet the optimal conditions, and the area where the material can be removed was found by topology optimization.