摘 要

针对本文的需要研究的液压支架，首先利用三维实体建模软件Pro/E进行相关建模并导入进ANSYS，进行相关的模型简化、网格划分等等相关操作后分析其元部件的应力应变的变化情况，最后得到该三维建模后的液压支架的不同工况下不同零部件受到的应力、载荷等的应力云图。通过对应力云图的相关分析，最终得到液压支架在设计以及受力分析时需要特别注意的有效意见。

关键词：液压支架  液压系统  三维建模  有限元分析  ANSYS

 

Abstract

As the fully-mechanized face in the coal mine, the work of coal mining need to be high yielding and highly effective. And the key to the mature work is he hydraulic support could operate normal and stable. Effective hydraulic support in coal mining face support is through the application of the hydraulic system, and cooperate with related mechanical structure of the hydraulic support can complete the pre-set each movement and the need to achieve the effect. Hydraulic support in coal mine fully mechanized working face of equipment most frequently used equipment, is also very important, of course, production technology and equipment. For these reasons, in the process of the development of the hydraulic support design, the safety and reliability of the stent and focus on the technology, is based on the existing knowledge content in the research of hydraulic support.

In this paper, taking a mine production under the condition of four pillars support the shield hydraulic support, the design of the hydraulic system and the finite element analysis on the design of science.

First of all, through the analysis of the working conditions of hydraulic support and external load characteristics, basic circuits of the hydraulic system of hydraulic support, working condition and so on carries on the analysis to the relevant data is obtained by calculation, and then draw out the basic principle of the hydraulic system diagram.

Then using 3D software Pro/E to complete three-dimensional modeling. finite element analysis software ANSYS, and then will be after the completion of the three-dimensional entity model into ANSYS, to carry on the related model simplification, meshing and so on related operations, finally get the 3D modeling of hydraulic support under different working conditions of different parts of stress nephogram of stress, load, etc. Through the correlation analysis of stress nephogram, finally get hydraulic support need special attention during design and stress analysis effectively.

This article is based on finite element analysis and system to build hydraulic system of the practical application of the modern design method, the complete design of hydraulic support has a certain meaning, to solve the problem of related engineering knowledge has a certain application meaning.

 

Key words: Hydraulic Support; Hydraulic System; Three-dimensional modeling; Finite Element Analysis; ANSYS

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