滑动轴承内嵌轴瓦结合质量超声C扫描系统零件驱动机构设计+CAD图纸_毕业论文

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滑动轴承内嵌轴瓦结合质量超声C扫描系统零件驱动机构设计+CAD图纸

摘要:达到智能化超声检测的一种有效方式超声水浸检测技术,其对提高超声检测的速度和品质具有重要的意义。在当今社会的发展趋势下,研制出高速度、高精度的超声水浸式扫描系统,可以非常有效地提高超声自动化检测水平,其应用前景广阔。53442

本文设计了一种滑动轴承内嵌轴瓦结合质量超声C扫描系统零件驱动机构,详细描述了该驱动机构的设计原理和构造运行流程,并绘制了各零件的模型和二维图,以及整体装配后的二维图。该设计首先对超声C扫描技术发展的国内外现状、原理及特点进行了简单的概述,接着进行了此机构的机械结构设计与主要零部件的校核计算。该机构主要包括驱动装置、传动装置、转盘部件、水箱及机架四块。最后对本文进行了总结和展望。

毕业论文关键词: 水浸检测;超声C扫描;驱动机构;

Sliding bearing bush with embedded quality ultrasonic C scan system parts drive mechanism design

Abstract: To achieve intelligent ultrasonic detection of a kind of effective way of ultrasonic water immersion detection technology, the to improve the speed and quality of the ultrasonic detection has important significance. In the development trend of today's society, the development of high speed, high precision ultrasonic immersion scanning system can very effectively improve the automation level of ultrasonic detection. It has a broad application prospect.

Is designed in this paper embedded bearing of sliding bearing with quality ultrasonic C scan system component, the driving mechanism, the driving mechanism of the design principle and structure, running process is described in detail, and the mapping of the various parts of the model and two-dimensional maps, and the whole assembly of two-dimensional map. The design first of ultrasonic C scanning technology development at home and abroad present situation, the principle and characteristics of simple overview, then the mechanical structure design of the mechanism and main components of the checking calculation. The mechanism mainly comprises a driving device, transmission device, rotary part, a water tank and a machine frame block. Finally the were summary and outlook.

Keywords:Water immersion test; ultrasonic C scan; driving mechanism;

目    录

摘 要

1 背 景 及 意 义 1

 1.1 目的和意义 1

 1.2 国内外研究现状 1

 1.3 水平和发展趋势 2

 1.4 完成的主要工作 3

2 超 声 C 扫 描 系 统 概 论 4

 2.1 超声检测技术 4

 2.2 超声检测技术原理及特点 5

 2.3超声检测技术的应用 6

3 超声C扫描系统零件驱动机构总体设计 7

 3.1 步进电机的选型 7

 3.2 联轴器的选择 8

  3.2.1梅花联轴器 9

  3.2.2膜片联轴器 9

  3.2.3弹性联轴器 10

 3.3传动方案的设计 10

  3.3.1 带传动 10

  3.3.2 齿轮传动 11

  3.3.3 蜗杆传动 11

 3.4齿轮传动设计计算 (责任编辑:qin)