涡流绕线绕制装置设计(含CAD装配图,SolidWorks三维图)

涡流绕线绕制装置设计(含CAD装配图,SolidWorks三维图)(任务书,开题报告,外文翻译,论文说明书17000字,CAD图3张,SolidWorks三维图)
摘要
脉冲涡流检测由于其可不停机检测、检测精度高、操作简便等诸多优势，逐步被更多人关注。而线圈作为其探头的主要构成部分，其质量要求高、绕制过程繁琐成为脉冲涡流检测仪研制过程中亟需解决的难题之一。本课题提出一种集成的自动脉冲涡流线圈绕制装置，论文在介绍该绕线装置的原理及机构设计的基础之上，对装置整体进行了三维仿真建模，并对其中可能出现的不可靠结构进行了有限元分析。论文的主要内容包括：
1）脉冲涡流绕线装置的研发与工艺设计。在详细的分析了现有的绕线机的基础之上，提出了一种新型的绕线装置，并对其主要工作原理以及各机构的组成进行了分析论述。
2）从激励线圈绕制模块以及接收线圈绕制模块这两大模块的角度，更加详细的论述了其工作流程，并论述了其设计过程，运用Solidworks建模软件完成了整体结构的三维建模仿真。在此基础之上对其部分结构强度进行了分析校核,同时也完成了电机的选型。
3）整机机架部分有限元分析。对整机机架部分两大重要的支撑结构进行了Ansys有限元分析。
本课题提出的新型绕线装置，在现有绕线装置基础上有很大创新，使其功能更加满足脉冲涡流仪器中的线圈绕制需求，为仪器的研发做出了一定辅助性工作。

关键词：绕线装置；脉冲涡流；Solidworks；Ansys
 
        Abstract
Pulse eddy current detection because of its non-stop detection, high precision detection, easyoperation and many other advantages, and gradually more attention. The coil as the main part ofits probe, its high quality requirements, winding process cumbersome pulse vortex detectordevelopment process in one of the difficult problems to be solved. In this paper, an integrated automatic pulsating eddy current winding device is proposed. On the basis of introducing the principle and mechanism design of the winding device, the whole model of the device is simulated and the unreliable The structure was analyzed by finite element method. The main contents of the thesis include:
1) pulse eddy current winding device development and process design. Based on the detailed analysis of the existing winding machine, a new type of winding device is put forward, and its main working principle and the composition of each body are analyzed and discussed.

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2) From the angle of the two modules of the excitation coil winding module and the receiving coil winding module, the workflow of the two modules is discussed in detail, and the design process is discussed. Solidworks modeling software is used to complete the three-dimensional modeling of the whole structure simulation. On the basis of its part of the structural strength of the analysis and verification, but also completed the motor selection.
3) Finite element analysis of the whole machine frame. Ansys finite element analysis of the two important support structures for the whole frame is carried out.
The new winding device proposed in this paper has great innovation on the basis of the existing winding device, so that its function can meet the demand of coil winding in pulse eddy current instrument, and it has made some auxiliary work for the research and development of the instrument.
Key words: winding device; pulsed eddy current; Solidworks; Ansys
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目录
第1章绪论    1 [版权所有：http://DOC163.com]
1.1 研究背景    1
1.2 仪器所需绕线装置简介    1
1.3 国内外研究现状    1
1.5 研究目标    3
1.6 设计拟采用的技术方案    3
1.7 论文结构安排    4
第2章绕线装置总体设计及动画仿真    5
2.1 引言    5
2.2 需求分析与设计目标确定    5
2.2.1 需求分析    5
2.2.2 设计目标    6
2.3 设计技术难点分析    7
2.4 总体结构设计    8
2.5 绕线工作流程设计    9
2.6 绕线工作流程动画仿真    10
2.7 本章小结    11
第3章绕线装置关键模块设计    12
3.1 引言    12
3.2 激励线圈绕制模块设计    12
3.2.1 机构设计    12
3.2.2 工作原理    16
3.2.3 动力元件选型    17
3.2.4 构件强度分析    21 [资料来源：Doc163.com]
3.3 接收线圈绕制模块设计    25
3.3.1 机构设计    25
3.3.2 工作原理    26
3.3.3 动力元件选型    27
3.4 整机机架部分设计    27
3.4.1 垂直位移机构支撑门架分析    27
3.4.2 可活动骨架支撑架分析    32
3.4 本章小结    36
第4章环境影响及经济性分析    37
4.1 环境影响分析    37
4.2 经济性分析    37
第5章总结与展望    38
5.1 全文总结    38
5.2 工作展望    38
参考文献    39
致谢    41

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