1、 一种矿用隔爆滤波型变频器隔爆柜子的结构分析 摘要摘要 随着计算机技术的高速发展,有限元技术在现代设计中应用越来越广泛。有限 元技术具有计算速度快,精度高的特点。通过有限元分析计算,设计人员在设计阶 段就能了解到构件的应力、应变及位移,同时可以方便的对构件反复修改,达到优 化结构的目的。 矿用隔爆滤波型变频器隔爆柜子是放在煤矿井下的电机控制柜。 箱体必须有足 够的强度和刚度,以防止变频器发生爆炸时,能承受其瞬间产生的强大爆炸力。箱 体在传统设计中,多采用类比法或凭经验设计,这样设计出来的产品,其受力情况 设计者心中无数,往往造成产品不合格或材料浪费现象。增加了制造成本,延长了 制造周期。因此,
2、在某种有限元的支持下,对变频器箱体进行受力分析,检验其强 度和刚度是否满足要求,对提高变频器箱体的技术水平,快速响应市场,降低成本 具有十分重要的意义。 在此背景下, 本文以山西防爆电机有限公司电设计的矿用隔爆滤波型变频器防 爆柜作为研究对象,对其柜体进行有限元分析。完成的主要工作包括: (1)认真学 习研究煤炭安全标准; (2)利用三维建模软件 Solidworks 对箱体进行实体建模; (3)利用有限元分析软件 Simulation 对箱体进行静态分析,通过分析计算,显示 出箱体的变形情况,同时可以得出箱体任意位置的应力值和位移值。并针对每次计 算结果,对箱体进行适时改进。 关键词关键词:
3、防爆柜;有限元;应力;应变;优化; Abstract With the rapid development of computer technology, the Finite Element Method(FEM) is widely used in modern design. FEM is a method of high speed and high precision. The stress, strain and displacement can be obtained with the Finite Element Analysis (FEA) in the design sta
4、ge. And it is convenient to modify and optimize the structure. Mining flame-proof filtering type transducer explosion-proof cabinet is used in coal mine. The explosion-proof cabinet should have enough strength and stiffness, and should be able to endure the tremendous blast-force during the moment g
5、as blasts. Traditionally, the explosion-proof cabinet design always relies on analogy and experience. The designer cant know the deformation of the the explosion-proof cabinet, and which may make the product disqualification, or wasting material or high developing cost, and longer designing and manu
6、facturing cycle. Therefore, it has great significance to find a new approach to analyze and calculate the mechanical model of cabinet, check its strength and stiffness based on a certain FEM software. Thus it can improve the technique of cabinet design, speed up the response to the market requirement and reduce the cost. This paper investigated the explosion-proof cabinet designed by Shan Xi Explosion proof motor company . The cabinet was analyzed by FEM. The major works completed mainly incl
