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青岛理工大学毕业设计(论文)
摘 要
一些园林建筑、大型公共建筑以及旅游建筑设计中,设计者经常将喷泉以一种艺术形式融合在建筑物中,给人以自然之美与艺术感。当音乐播放时(包括音乐的曲调和音乐的声音大小),喷头有规律的喷水,彩灯有规律的亮灭(达到白天时灯不亮,夜晚时灯有规律的亮与灭)。
本系统是一个小型音乐喷泉控制系统,它以PLC为控制核心,变频器控制水柱高度,以音频采集为基础,同时PLC程序控制灯光的亮灭和颜色的变化。本系统选用SIEMENS公司的S7-200 PLC为控制核心,选用MicroMaster 440(简称MM440)变频器控制水泵高度,达到喷泉的立体效果随音乐变换而变化。 本系统主要包括PLC的选型(CPU226)、PLC的扩展模块(EM222)、I/O地址的分配、输入输出接口的连接和梯形图的绘制,梯形图绘制是重点,同时着重介绍了MM440变频器的变频原理、参数设置和变频器与PLC和电动机的接口连接。 系统设计完成后,能够达到中心、内圈、外圈共三圈喷头喷水,变频器控制内圈喷头改变水柱高度,PLC控制余下喷头有序启动停止,同时夜晚有三层灯光变幻,能够实时展现音乐的动态美。
关键词:音乐喷泉,控制系统,可编程控制器,梯形图,变频器
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青岛理工大学毕业设计(论文)
ABSTRACT
In a number of landscape architecture, the design of large public buildings and tourist buildings, designers often fountain in the form of an art integration in the building, giving to the beauty of nature. Along with regular music player nozzle spray and lights a regular light off (the law, including the size of the music tunes and music sound), to achieve the control effect of light (day light does not shine, night light a regular light off) .
This system is a small musical fountain control system, which PLC as the control core, inverter control column height to audio capture-based PLC program control while the bright lights off and color changes. The system selected company SIEMENS S7-200 PLC as the control core, the choice MicroMaster 440 (referred MM440) inverter control pump height and reach fountains transform three-dimensional effect varies with the music.
The system includes PLC Selection (CPU226), PLC expansion module (EM222), I / O address allocation, input-output interface connections and draw ladder, ladder drawing is the key, while highlighting MM440 inverter the inverter principle, parameter settings and the motor and inverter and PLC interface connection.
System design is complete, it can reach the center, the inner and outer rings of nozzles spray three times, the inverter control inner nozzle change column height, PLC control start and stop the remaining nozzles, while at night there are three light changes, real-time display of music dynamic beauty.
KEY WORDS: musical fountain,control system, PLC, LAD,Transducer
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青岛理工大学毕业设计(论文)
目 录
摘 要 ............................................................................................................................... I ABSTRACT .................................................................................................................. II 第1章 绪 论 ................................................................................................................ 1
1.1 课题背景 .......................................................................................................... 1
1.1.1 音乐喷泉的发展历程 ............................................................................ 1 1.1.2 音乐喷泉的现状 .................................................................................... 2 1.2 课题研究内容 .................................................................................................. 2 第2章 PLC基础知识 ................................................................................................. 4
2.1 PLC的产生和发展 .......................................................................................... 4 2.2 PLC的特点和功能 .......................................................................................... 4 2.3 PLC的基本结构和工作原理 .......................................................................... 5 第3章 变频器基础知识 .............................................................................................. 7
3.1 变频器概述 ...................................................................................................... 7 3.2 变频器的分类 .................................................................................................. 7 3.3 变频器的工作原理及控制方式 ...................................................................... 7
3.3.1 变频器的工作原理 ................................................................................ 7 3.3.2 变频器的控制方式 ................................................................................ 8 3.4 MM440变频器 ................................................................................................ 9 第4章 系统方案分析及可行性分析 ........................................................................ 11
4.2 方案论证 ........................................................................................................ 12 4.3 对选定方案的分析 ........................................................................................ 13 第5章 系统总体设计 ................................................................................................ 14
5.1 音乐喷泉组成 ................................................................................................ 14
5.1.1 音乐喷泉水池设计 .............................................................................. 14 5.2 控制系统组成 ................................................................................................ 17 5.3 变频器设计 .................................................................................................... 18
5.3.1 变频器选型 .......................................................................................... 18 5.3.2 变频器控制接线图 .............................................................................. 18 5.3.3 变频器参数设置 .................................................................................. 19 5.4 PLC设计 ........................................................................................................ 19
5.4.1 PLC选型 .............................................................................................. 19 5.4.2 控制系统的I/O地址分配 .................................................................. 20 5.4.3 PLC控制接线图 .................................................................................. 22
第6章 PLC控制系统设计 ....................................................................................... 24
6.1 PLC控制流程 ................................................................................................ 24 6.2 变频器选择流程 ............................................................................................ 24 第7章 结 论 .............................................................................................................. 25 致 谢 ............................................................................................................................ 27 参考文献 ...................................................................................................................... 28 附 录 ............................................................................................................................ 29
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