基于三菱plc污水过滤器控制系统设计
摘要
在当今社会,对环境保护意识不断增强的情况下,对水源的 保护已经成为一个热门的课题,这其中,对污水的治理直接的影响到对水源的保护。污水治理方式有很多,大到大型的污水处理厂,小到家用的中水处理设备等,同时,污水治理设备及方法也是成出不穷,各有千秋,有化学方法、生物方法、物理方法和多种方法联合使用等。其中,利用物理方式进行污水过滤在工业污水处理系统中极为常见,这也是工业污水处理的重要环节。
本篇论文主要是通过使用PLC和设计对应的程序来完成通过PLC控制的污水处理系统,并且通过硬件来检测是否成功。在此基础上,对污水过滤处理系统实现PLC自动化控制进行设计,污水处理过滤系统可分为两个部分,一是选择当前合适的硬件进行组装,二是根据选择的硬件进行编程设计来实现控制污水处理过滤系统的功能。在硬件方面有几个模块,分别是:各流程硬件选择、PLC的I/O口分配和硬件电气原理图。软件方面则以硬件作为平台,首先先将工作绘制成流程图,之后根据绘制的流程图设计PLC的梯形图程序。最后,通过仿真和实物的测试检测污水处理系统并进行总结。
关键词:污水处理 可编程控制器 自动控制 过滤器
Abstract
In today's society, under the increasing awareness of environmental protection, the protection of water sources has become a hot topic, which, for sewage treatment directly affects the protection of water sources. Sewage Treatment There are many ways, large to large sewage treatment plants, water treatment in small household equipment, at the same time, sewage treatment equipment and also to a method for the non-poor, different, chemical methods, biological methods, physical methods, and more and other methods used in combination. Among them, the use of physical means sewage filtration industrial wastewater treatment system is extremely common, and this is an important part of the industrial wastewater treatment.
This paper mainly through the use of PLC design and corresponding program to complete the sewage treatment system controlled by the PLC, and by hardware to detect successful. On this basis, the sewage treatment filtration system designed to achieve PLC automation control, sewage treatment filtration systems can be divided into two parts, one to select the current appropriate hardware for assembly, the second is designed to be programmed according to the selected hardware to achieve control wastewater treatment filtration systems function. There are several modules in the hardware side, namely: the various hardware selection process, PLC's I / O port assignment and hardware electrical schematics. Software mostly related hardware as a platform, the first first drawn into the work flow chart, after drawing a flowchart design PLC ladder program. Finally, simulation and physical test detect the sewage treatment system and summarized.
Keywords: sewage treatment PLC automatic control filters
目录
目录.............................................................. 1
摘要.............................................................. 3
第一章 绪 论..................................................... 1
1.1 课题的背景及意义.............................................. 1
1.2 国内外发展状况................................................ 1
1.2.1 国外过滤设备的发展现状..................................... 1
1.2.2 我国过滤设备的发展现状..................................... 2
1.3 本文的主要内容................................................ 3
第二章 可编程序控制器简介........................................ 4
2.1可编程序控制器的定义和特点..................................... 4
2.2可编程控制器的结构............................................. 4
2.3可编程控制器的工作原理......................................... 5
第三章 基于可编程控制器的过滤器系统设计与实现.................... 7
3.1系统控制要求................................................... 7
3.2过滤器系统控制的组成........................................... 8
3.3可编程控制器的选型............................................. 9
3.4 I/O点及地址分配.............................................. 11
3.5电气控制系统原理图............................................ 13
3.5.1 动力回路单元.............................................. 14
3.5.2 PLC回路单元............................................... 15
第四章 系统控制程序的设计....................................... 18
4.1系统控制流程图...............................................18
4.2控制程序的设计...............................................18
4.2.1 方式选择与启停控制程序 ................................... 18
4.2.2 参数设定程序段............................................ 19
4.2.3 反洗进入程序段........................................... 20
4.2.3 反洗电机星角切换控制程序段............................... 21
第五章 系统程序的测试........................................... 23
第六章 结论...................................................... 26
致谢............................................................. 27
参考文献......................................................... 28
附录一 可编程控制程序(STL).................................. 29
参考文献
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