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针对矿用吊装设备行走装置占用空间大,行走不便且灵活性差的现状,设计了一种吊装设备的行走装置,该行走装置通过前后闸紧机构与中部行走机构的闸紧配合,实现吊装设备在中部槽上的自移行走控制。利用ANSYS对行走装置的重要部件后连接件进行有限元优化分析,在静态分析结果满足强度的基础上,以质量最小化为优化目标,对后连接部件进行参数化优化设计,得到了最优的结果。
Aiming at the present situation that the walking device of the mine hoisting equipment takes up a lot of space, which is inconvenient and inconvenient to walk, a walking device of the hoisting equipment is designed. By means of the tight cooperation between the front and rear gates and the middle running mechanism, The central groove on the self-moving control. ANSYS is used to carry out the finite element optimization analysis of the important components of the travel device after the finite element analysis, based on the static analysis results to meet the strength, to minimize the mass as the optimization objective, the rear connection components to optimize the design parameters, the optimal result.