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摘要随着计算机硬件和软件技术的发展,自动化产品呈现出小型化,网络化,PC化,开放式和低成本的发展趋势,并逐渐形成了各种标准的硬件,软件和网络结构系统。监控组态软件已经成为其中的桥梁和纽带,是自动化系统集成中不可缺少的关键组成部分。现实生活中,人们对交通工具的安全性和环境适应性提出了更高的要求,在海拔仓设置的各种环境条件下,进行模拟试验,这样才能真实检测产品的各种性能。因此,建设自动化的海拔仓试验室必须提上日程。41682
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本海拔仓控制系统设计主要是运用西门子 WINCC 组态软件和SIMATIC S7-300系列PLC来设计海拔仓试验室控制系统。首先总体介绍系统工艺流程和功能需求,并就此完善系统总体设计方案。其次通过WINCC组态软件进行上位机完整设计,包括报警记录、变量组态、交叉索引和用户管理等界面。
关键词 海拔仓 控制系统 WINCC S7-300PLC 温湿度控制 PID
毕业设计说明书(毕业论文)外文摘要
Title WINCC-based Control Systems for altitude bin
Abstract
With the development of computer hardware and software technology and automation products showing a miniaturization, network, PC, the development trend of open and low cost, and gradually formed a variety of standard hardware, software and network structure system. Monitoring configuration software has become one of the bridges and ties, it is an indispensable key component in automation system integration. In real life, people of transportation safety and environmental adaptability of the proposed higher requirements, set at an altitude of positions of various environmental conditions, a simulation test is carried out. In this way, the actual product testing various properties. Therefore, the construction of an automated warehouse test room must be put on the agenda.
Motomi Kura control system design is the use of SIEMENS WINCC configuration software and S7-300 SIMATIC series PLC to design the altitude chamber test room temperature and humidity and pressure control system. At first, the process flow and functional requirements of the system are summarized, and the overall design scheme of the system is improved. Secondly, through the WINCC configuration software to complete the design of the host computer, including alarm records, variable configuration, cross index and user management interface.
Keywords altitude bin control system WINCC S7-300PLC Temperature control PID
目 录
1 绪论 1
1.1 引言 1
1.2 国内外研究现状及发展情况 1
1.3 课题研究内容 2
2 监控系统整体方案 4
2.1 海拔仓实验室系统主要用途 4
2.2 海拔仓实验室系统结构及设备组成简介 4
2.3 海拔仓控制系统工艺过程 6
2.4 海拔仓控制系统整体控制方案 7
2.5 海拔仓控制系统整体控制方案设计 8
2.6 组态软件简介 11
2.7 本章总结 16
3 海拔仓控制系统软件设计 17
3.1 海拔仓实验室控制系统组成 17
3.2 WINCC 组态软件通信和变量设计 17
3.3 WINCC 组态系统框架设计 20