基于PLC的Z30130X31型钻床的电气控制系统设计(代写毕业论文)
摘 要:Z30130X31型钻床是一种大型立式型钻床,可以进行许多形式的机械加工,好比钻孔、扩孔 、铰孔、镗孔、刮平面以及攻螺纹等。由于它拥有复杂的控制系统,其控制要求不能被继电器接触器控制满足,所以用PLC对钻床进行设计改进。PLC具有简单操作,易于维护等特点,可以提高生产效率,使设备稳定运行增加其使用的寿命。
一开始我们对钻床进行认识,认识它工作时原理,了解液压系统和它的控制要求。认识继电器与接触器控制系统的原理并对其进行分析,最后认识了钻床结构并对其控制原理进行分析。选择符合本次设计要求的PLC,先对它进行了硬件方面的一些设计,编写程序语句表以及设计程序并绘制梯形图,按照它的输入以及输出点数,输入点数:13输出点数:11,因此在本次设计当中我选择采用了西门子S7-200 CPU226型号的PLC,先对其工作原理进行分析并且进行硬件以及软件的设计。当所有的步骤全都准设计完成以后,对整个控制系统进行调试,发现其中的不足并且及时的将它进行改善。
关键词:PLC;逻辑控制;液压系统:电动机;行程开关;控制按钮;指示灯。
Design of electrical control system of Z30130X31 type drilling machine based on PLC
Abstract: z30130x31 drilling machine is a large vertical drilling, to carry out various forms of mechanical processing, such as drilling, reaming, reaming, boring, scraping plane and tapping. Because of its complicated control system, the relay contactor control system can no longer meet the control requirements, so the PLC control system is adopted. PLC has the characteristics of simple operation, easy maintenance, can improve the production efficiency, so that the stable operation of equipment to increase the life of its use.
First of all, through the understanding of the drilling machine, familiar with the working principle of the hydraulic system and its control requirements. Secondly understand the drilling machine relay contactor control principle, analysis of the logic control of the drilling machine. And select the most appropriate PLC, hardware and software design, write the corresponding procedure statement table and draw the ladder, according to its input and output points, input: 13output points:11 so this design choice using Siemens S7-200 PLC to design and draw the hardware wiring diagram. At last, the program is simulated and debugged, and the problem is solved in time. Key words: PLC; logic control; hydraulic system; motor; stroke switch; control button; indicator.
目 录
第一章 引言.............................................................................................................. 1
第二章 钻床的型号含义及和运动形式...................................................................2
2.1钻床的型号含义.............................................................................................2
2.2钻床的运动形式.............................................................................................2
第三章 液压系统的概述与应用...............................................................................3
3.1液压系统的概述.............................................................................................3
3.2液压系统的应用.............................................................................................4
第四章 继电器接触器控制原理...............................................................................6
4.1 钻床的电气控制要求 ..................................................................................6
4.2 钻床的电气控制线路分析............................................................................7
第五章 PLC控制系统硬件设计...............................................................................11
5.1 电动机选型...................................................................................................11
5.2 主要电气元件的选型...................................................................................12
5.4 钻床电气线路图绘制...................................................................................16
5.5 可编程序控制器...........................................................................................17
5.5 西门子S7-200概述及指令系统.................................................................20
第六章 PLC控制系统软件设计...............................................................................21
6.1 I/O分配表...................................................................................................21
6.2 梯形图.........................................................................................................22
6.2 程序模拟调试运行.................................................................................................26
第七章 总结..............................................................................................................................28参考文献 .................................................................................................................................. 29
附录
参考文献
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