设计描述：

文档包括:
word说明书一份，共45页，约22000字
任务书一份
开题报告一份
外文翻译一份

CAD版本图纸，共17张
UG三维图,一套

 
摘  要
   
    过滤分离技术在国民经济各个部门中应用很广。从人民日常生活，资源、能源的开发利用，国防尖端，到保护环境，防止公害等方面，都离不开过滤分离技术。过滤器和过滤分离技术不仅应用广，而且是某些生产过程中的关键性设备之一，若采用不当，不但生产任务完不成，产品质量上不去，而且会造成资源浪费，环境污染，使整个生产经济效益很低。因此，必须根据物料的种类及生产上的要求，研究、设计和制造各种不同系列、规格和型号的过滤器，以适应各种不同生产的需要。
本设计选择复合型袋式精细过滤器作为设计对象。在全面了解过滤器的结构及其工作原理后，运用SW6-1998过程设备强度计算软件，对受压的圆筒、封头和法兰等受压元件进行强度计算。利用UG软件对过滤器的零件进行参数化建模，并对整体结构进行虚拟装配。然后将装配体导入UG软件的运动仿真界面，并利用软件进行运动学仿真。分析仿真结果，得出相应结论。最后对过滤器进行优化设计，提高其稳定性，可靠性，让本设计能够真正的投入到日常生产操作中，使其切实能够为过滤分离技术做出贡献。

    关键词：UG；过滤器；运动仿真
 
Abstract

Filtering separation technology is applied widely in various departments of national economy. From the aspect of people’s daily life, such as the exploitation and utilization of resources and energy and the advanced national defense to the aspect of protecting environment and preventing pollution and other aspects, all of them cannot be without filtration-separation technology . Filter and filtering-separation technology are not only used widely but also are one of the key equipments in some production processes. If the technology is used unsuitably, the production task will not be finished and the quality of the products will not be improved. Even it will cause the the waste of resources and environmental pollution so that it will reduce the production efficiency.Therefore, in order to meet the demands of different production, we should research, design and manufacture the various series, specifications and types of filters according to the kinds of production materials and the requirements of production. 
This design chooses fine the composite bag type filter as the design object. After comprehensive understanding of the structure and working principles of the filter, this design uses SW6-1998 process equipment calculation software for calculating the strength of the pressurized cylinder, head, and flange pressure parts and other pressurized parts. This design has a parametric modeling of the elements of filter by using UG software and assemble the integral structure virtually. Then the design will lead the assembly into the motion simulation interface of the UG software and use the software to make kinematics simulation. Next we should make analysis of the simulation results and obtain the corresponding conclusions. Finally we should do the optimization design to improve the stability and reliability of the filter in order to put this design into the daily production operation really and make contributions faithfully to the filtration-separation technology.

  Key words: UG ; Filter ; Motion simulation

目  录
摘  要 III
Abstract IV
目  录 V
1 绪论 1
1.1 过滤器设计的目的和意义 1
1.2 过滤器的发展 1
1.3 过滤器的未来展望 2
1.4 本文的基本构想与要求 3
2 过滤器总体设计方案 4
2.1 过滤器设计概述 4
2.1.1 过滤器简介 4
2.1.2 过滤器结构 4
2.1.3 过滤器工作原理 4
2.1.4 过滤器有关设计参数 4
2.2 过滤器的特征 4
2.2.1 主要特征 4
2.2.2 安装步骤 5
2.2.3 应用 5
2.3 过滤器的参数计算 5
2.3.1 内筒体内压计算 5
2.3.2 内筒封头内压计算 6
2.3.3 法兰计算 7
2.3.4 开口补强计算 9
2.4 过滤器部件设计 10
2.4.1 封头设计 10
2.4.2 法兰设计 11
2.4.3 摇臂式吊杆设计 13
2.4.4 筒体设计 13
2.4.5 复合滤筒设计 15
2.4.6 支座组件设计 15
3 SW6-98软件的应用 17
3.1 SW-98软件介绍 17
3.2 SW6-98软件结构及一般使用指南 18
3.3 SW6-98软件的使用 19
3.3.1 软件模块计算项目 19
3.3.2 软件计算校核 19
4 UG软件的应用 23
 
4.1 UG软件介绍 23
4.2 UG功能与优点 23
4.3 UG主要功能模块 24
4.4 过滤器运动仿真分析 26
5 结论与展望 33
5.1 结论 33
5.2 不足之处及未来展望 33
致  谢 34
参考文献 35