网学网电气工程与自动化类别编辑为广大网友搜集整理了:多工位流水线PLC及变频控制系统硬件设计绩等信息,祝愿广大网友取得需要的信息,参考学习。
论文编号:ZD901 论文字数:12614,页数:38
摘 要
随着计算机技术的迅速发展,以PLC控制、变频器调速、触摸屏人机对话为主体的新型控制系统广泛应用于各行各业。本文主要介绍了以PLC作为控制核心的系统。本系统以触摸屏作为友好的人机操作工具,再通过对变频器的控制,从而达到对工业流水线的理想操控。本设计主要采用西门子公司的S7-200系列PLC,触摸屏使用TP070及相关软件。论文着重论述了PLC在工业流水线上的应用,PLC对流水线工位的控制和相关的操作程序,以及对于触摸屏画面设计的描述。通过做毕业设计的过程,初步了解PLC在国内外的应用现状,发展前景,以及与之相关的基本工作原理,逻辑指令等等。经过了将近三个月的研究与实践,本毕业设计基本达到了当初制定的计划与结果,即实现工位延时,工位加工等目的。设计的成果在工业控制领域具有一定的借鉴意义。同时,也为PLC控制技术在工业应用方面提供了参考。
关键词:多工位系统、工业流水线、PLC控制、变频控制
Abstract
With the rapid development of computer technology, a new control system subjected to the PLC, inverter speed, HMI dialogue is widely used in many fields. This article mainly introduces the system whose control center was PLC. The HMI was used as a friendly man-machine tool in this system, through the control of inverter, thus achieving the ideal operation of industrial assembly line. Siemens S7-200 series’ PLC was mainly applied in this design, TP070 and related software was used as the HMI. This paper focuses on discussing the PLC’s application in industrial assembly line, PLC’s control of station on the line and related operating procedures, and describing the related design of HMI’s picture. By doing the graduate design, I could preliminary understand the application status of PLC inside and abroad, development prospect, and the principle, logic instructions associated with it, etc After nearly three months’ researching and practicing, the original plan and result was basically achieving in this graduate design, that was the station delay and the station processing. The result concluded in this design is significant in the field of industrial control. Meanwhile, it provides the reference for PLC control applied in industry as well.
Keywords:multi-station system、assembly line、PLC controller、frequency control
目 录
摘要I
1 前言1
1.1 PLC控制技术的发展1
1.2 工业流水线的发展2
1.3 本次设计所作的工作3
2 PLC控制的多工位流水线硬件介绍4
2.1 西门子S7-200 PLC的介绍4
2.1.1 S7-200 CPU单元设计4
2.1.2 S7-200的扩展模块.5
2.1.3 PLC的硬件接线及相关说明.6
2.2 触摸屏介绍7
2.3 变频器介绍9
3 PLC控制的多工位流水线硬件设计.10
3.1 系统的总体硬件设计思路.10
3.2 系统的硬件设计结构.11
3.3 变频器的硬件接线图及参数列表.12
3.3.1 变频器的配线图及与PLC的连接示意图.12
3.3.2 变频器的参数列表15
4 PLC控制的多工位流水线软件程序设计.16
4.1 系统程序设计的总体思路.16
4.2 S7-200PLC的程序设计.17
4.3 触摸屏程序设计22
5 PLC控制的多工位流水线控制系统的运行与调试25
5.1 功能实现情况25
5.2 本次设计完成的实物图26
6 结论.32
致谢33
参考文献34