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基于PLC控制的脚踏装配自动线关键技术研究2(硕士)

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基于PLC控制的脚踏装配自动线关键技术研究2(硕士)(论文25000字)
摘要
随着我国制造业的不断繁荣发展和人力成本的不断提高,给制造业自动装配的发展提供了很好的契机。目前,国内很多装配生产还是依靠人工完成,其生产效率低、质量差、成本高。本文所研究的基于PLC控制的脚踏装配自动线关键技术,结合了装配制造企业的需求,采用PLC技术,实现脚踏装配过程中的自动上料、自动珠塞装配、自动组装和自动下料。论文的主要研究工作及成果归纳如下:
(1)对企业目前已有的脚踏装配线进行分析,结合自动装配线的特点,对脚踏装配流程进行改造和优化,将原有的装配流程改造为珠塞自动排列上料和装配、防松螺帽的自动排列上料和装配、后盖自动排列上料和压合、步进电机底座的驱动系统以及传输系统五大模块,实现脚踏装配自动线总体结构设计。
(2)完成了脚踏装配自动线控制系统硬件结构的设计。针对脚踏装配自动线的特点,采用日本松下MFDDT3520003驱动器作为接收转盘反馈信息的交流伺服器;针对脚踏装配自动线的功能需求,进行了PLC处理器I/O端口的分配;对基于PLC脚踏装配自动线的总体电路图、伺服控制电路图、PLC信号控制电路和PLC保护电路进行了研究设计。
(3)脚踏装配自动线控制系统需要通过PLC程序来实现逻辑控制。PLC程序的可靠性、准确性和性能直接影响脚踏装配自动线控制系统的控制效果。采用梯形图方式,使用CX-Programmer编程软件对脚踏装配自动线中的上位机程序、下位机程序以及上下位机之间的通信实现进行编码,完成了脚踏装配自动线控制系统的软件开发和实现。
本文所研究的脚踏装配自动线采用可以进行逻辑运算处理的PLC元件进行控制,其控制精度高,而且具有很好的灵活性。不仅可以提高目前脚踏装配自动线效率,同时也可以适应装配生产未来的需求,适应因为市场需求改变而导致的生产线调整。

关键字:脚踏装配线;PLC技术;自动控制;电路设计;软件设计

Abstract
With the continuous development of China's manufacturing industry and the continuous improvement of labor costs, to the development of automatic assembly manufacturing industry provides a good opportunity. At present, many domestic assembly production or rely on manual assembly, the production efficiency is low, the quality is poor, the cost is high. Based on PLC's foot automatic assembly line control system, combined with the assembly manufacturing enterprises demand, using PLC technology, realize the pedal assembly process of automatic feeding, automatic Zhusai assembly, automatic feeding and automatic assembly. The main research work and results are summarized as follows:
(1) combined with the characteristics of automatic assembly line the pedal assembly process was transformed and optimized on the basis of analyzing the enterprise existing pedal assembly line. The original assembly process was transformed into the Zhusai automatic arrangement of materials and assembly, automatic anti loose nut arranged on automatic alignment and assembly, cover material feeding and pressing step motor base drive system and transmission system of five modules. The automatic assembly line structure  was designed.
(2) the design of hardware structure of automatic assembly line control system. According to the characteristics of the pedal assembly line, with Japan's Matsushita MFDDT3520003 drive as a receiving turntable feedback information exchange server; functional requirements for foot automatic assembly line, the distribution of the PLC processor I/O port PLC on foot; automatic assembly line based on general circuit, servo control circuit, PLC control circuit and PLC signal the protection circuit of the design.
(3) the automatic line control system of the pedal assembly should be controlled by the PLC program. The reliability, accuracy and performance of PLC program directly influence the control effect of automatic assembly line control system. The ladder diagram, the use of CX-Programmer programming software on the pedal assembly communication between the host computer program, automatic line in the lower computer program and the upper and lower computer to achieve the complete realization of encoding, and pedal assembly line control system software development.
In this paper, the automatic assembly line is controlled by the PLC element which can be processed by logic operation. The control precision is high, and it has good flexibility. It can not only improve the efficiency of automatic assembly line assembly line, but also can adapt to the future demand of the assembly production, to adapt to the production line adjustment caused by the change of market demand.
Key words: pedal assembly line; PLC technology; automatic control; circuit design; software design

目录    I
摘要    III
Abstract    IV
第1章 绪论    1
1.1 研究背景与意义    1
1.1.1 课题来源与背景    1
1.1.2 研究意义    1
1.2 装配流水线发展历程    2
1.2.1 流水线发展历程    2
1.2.2 产品装配方式发展历程    2
1.3 装配流水线自动控制技术的研究现状    4
1.4 主要研究内容    7
第2章 脚踏装配自动线总体方案分析与设计    8
2.1 脚踏装配结构简介    8
2.2 脚踏装配线设计    9
2.3 自动装配线组成    10
2.4 控制系统实现技术简介    12
2.4.1 PLC开发语言    12
2.4.2 现场总线技术    15
2.5 本章小结    16
第3章 脚踏装配自动线控制系统硬件设计    17
3.1 控制系统总体框图    17
3.2 控制系统的硬件选型    18
3.2.1 PLC的选型    18
3.2.2 交流伺服器    20
3.3 人机交互界面设计    21
3.4 PLC的I/O分配    22
3.5 控制系统线路图设计    24
3.5.1 总体电路图设计    24
3.5.2 伺服控制电路设计    25
3.5.3 PLC信号控制电路设计    26
3.5.4 PLC保护电路设计    28
3.6本章小结    30
第4章 脚踏装配自动线控制系统软件设计    31
4.1 控制程序流程设计    31
4.2 上下位机的通信设计    32
4.3 PLC程序设计    34
4.3.1 自动装配程序设计    34
4.3.2 手动调试程序设计    38
4.4 上位机功能实现    39
4.4.1 项目的建立    40
4.4.2 变量管理    41
4.4.3 软件运行界面    42
4.5 本章小结    43
第5章 总结与展望    44
5.1 总结    44
5.2 不足与展望    45
参考文献    47

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