三维装配图2
变压器储油柜用10KG干燥净化器设计
摘要:本设计是在针对国内普通传统的变压器储油柜干燥净化器的发展以及存在的问题进行了简单的分析以及阐述,其中包括变压器储油柜的净化器设计方面的计算分析,构思出合理的设计方案,从而使得干燥净化器可以实现设计前的原理以及方案。本设计共分为三大板块:1:干燥净化设计装置2:实现硅胶的循环利用的自动加热装置;3:检测干燥净化器温湿度的装置。其中以干燥净化设计装置的设计为主,首先在设计干燥器的体形以及粗略的外形尺寸时,我们主要依据干燥剂的重量以及体积大小,推算干燥净化器的外形尺寸参数,依据外形尺寸的标准的选择从而确定干燥净化器的结构。最后,在安装装置的要求下依次对净化器内部主要部件进行设计以及合理的选用。在了解变压器以及干燥净化器的工作原理的同时学会运用所学的知识原理解决实际生产过程中变压器零件以及干燥净化器中所遇到的困难是本设计题目的主旨所在。本设计中的干燥净化器优于传统的呼吸器,无论是在机械性能以及在解决工业而生产中所更能体现它的环保性,安全性,持久耐用性。
关键词:变压器;干燥净化器;法兰;干燥剂硅胶
10KG Dry Purifier Design for Transformer Oil Conservator
Abstract:This design is a simple analysis and elaboration on the development and existing problems of the common domestic transformer oil conservator drying purifiers,such as the calculation analysis of the purifier design of the transformer oil conservator、conceiving a reasonable design. So that the dry purifier can achieve the principle and plan before the design. The graduation design is divided into three major sections,1: design of dry cleaning design device 2: Automatic heating device for realizing recycling of silica gel 3:Device for detecting temperature and humidity of drying purifier. Among them, the design of the dry purification design device is foremost. First,when designing the shape of the dryer and rough outline dimensions,we mainly based on theweight andvolume of the desiccant,we calculate the dimension parameters of the desiccant, and determine the structure of the desiccant according to the standard selection of the size. Finally, the internal main components of the purifier are designed and selected in order according to the requirements of the installation device. The purpose of this graduation design topic is to familiarizewith and clearly understand theworking principle of the dry purifier and its effect on theworking principle of the transformer. While understanding theworking principle of transformers and drying purifiers,we learn to apply the learned principles to solve the problems and difficulties encountered in the purifier of transformer parts in the actual production process. The main method in this graduation design is: Analysis and comparison. The analysis mainly involves the mechanical performance design and performance of the parts, and the main components that are suitable for the mechanical principle and performance of the purifier. The dry purifier in this design is superior to the traditional respirator, It is more environmentally friendly, safe, and durable in terms of its mechanical properties and its ability to solve industrial problems.
Keywords: Transformer, Drying purifier, Flange, Desiccant silicone
目录
摘要: I
Abstract II
1绪论1
1.1选题背景1
1.2选题意义1
1.3设计的目的3
2干燥净化器的设计原理5
2.1设计依据5
2.2设计的内容5
2.3工作原理6
3主要零部件的设计11
3.1硅胶干燥室的设计11
3.2过滤杂质的设计13
3.3加热系统装置14
3.4干燥剂材料的选择14
3.5法兰的相关设计以及计算14
3.5.1连接法兰14
3.5.2上法兰19
3.5.3下法兰20
3.5.4法兰盘25
3.6方管26
3.7支架27
3.8传感器设计的温度检测装置28
4干燥净化器的安装与调试31
4.1干燥净化器注意事项31
4.2干燥净化器的自检调试32
5总结35
参考文献37
致谢39
附录A装配图明细表41
附录B零件的三维实体图45
附录C外文文献及翻译47
三维装配图
总装图
03法兰密封圈
04法兰盘
05尼龙隔板
06下法兰盘盖板
07盖板密封圈
08加热板
09接线柱
10螺纹套
11上法兰
12上法兰盘
14下法兰
15下法兰密封圈
16下法兰盘
17罩
18支架板
MDX-01(盖板)
MDX-02(法兰)
MDX-13(透气窗)
MDX-17(罩)
MDX-19(干燥室支架)
MDX-20(方管)
MDX-21(玻璃管)
三维装配图3
设计目录
设计字数统计
摘要部分