煤矿安全生产监测系统研究
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摘要
针对煤矿安全生产监测控制进行了研究,提出了一个有效的监测系统方案。该系统由上位机和下位机两部分组成。其中,上位机部分采用面向对象的C++程序设计,完成了数据通信、数据采集和控制信号输出等功能;下位机分为主机模块和从机模块,主机主要负责信息中转,从机负责采集数据和执行命令,主机与从机之间通过RS-485总线通信,主机与上位机之间采用以太网通信。该系统架构极大地方便了矿井数据采集和设备状态监控。模拟实验结果表明该系统稳定、可靠、抗干扰性好。
This paper presents a coal mine safety supervisory control system,the system is divided into two parts,the upper-computer and the lower-computer.The upper-computer part is designed by object-oriented C++ programming,which implements these functions,such as data communication,data acquisition,signal control and so on.The lower-computer is made up of a master module and some slave modules.The master section is mainly responsible for information transfer,while the slave section is mainly responsible for data acquisition and execution command.The master and the slaves are connected by RS-485,and the master and the upper-computer are connected by Internet.The system architecture is more helpful in data acquisition and device status monitoring of coal mine.The results show that the system is stable,reliable,and good in immunity.
This paper presents a coal mine safety supervisory control system,the system is divided into two parts,the upper-computer and the lower-computer.The upper-computer part is designed by object-oriented C++ programming,which implements these functions,such as data communication,data acquisition,signal control and so on.The lower-computer is made up of a master module and some slave modules.The master section is mainly responsible for information transfer,while the slave section is mainly responsible for data acquisition and execution command.The master and the slaves are connected by RS-485,and the master and the upper-computer are connected by Internet.The system architecture is more helpful in data acquisition and device status monitoring of coal mine.The results show that the system is stable,reliable,and good in immunity.
引文
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[6]王家华,刘会亮.基于Qt的储量分析系统设计与实现[J].软件导刊,2011(8):87-88.
[7]原云峰.智能水位计监控程序的设计[J].太原科技,2010(2):98-100.
[8]Yi Peng,Fu Li,Ali Mili.Modeling the evolution of operating systems:An empirical study[J].The Journal of Systems&Software,2007,80(1):1-15.
[9]杨中华.基于Qt/Embedded的SQLite数据库研究及应用[D].成都:西华大学,2008:5-10.
[2]陈玉娟,刘东波,汪春梅,等.基于以太网的分布式煤矿温度远程监控系统[J].制造业自动化,2014,36(1):30-33.
[3]程远平,付建华,俞启香.中国煤矿瓦斯抽采技术的发展[J].采矿与安全工程学报,2009,26(2):127-139.
[4]范德辉.基于ZigBee网络的智能煤矿压力采集与分析装置的设计与实现[D].太原:太原理工大学,2012:1-15.
[5]王锐,秦建峰.矿用烟雾传感器检测装置设计和配置[J].煤,2012,21(10):37-38.
[6]王家华,刘会亮.基于Qt的储量分析系统设计与实现[J].软件导刊,2011(8):87-88.
[7]原云峰.智能水位计监控程序的设计[J].太原科技,2010(2):98-100.
[8]Yi Peng,Fu Li,Ali Mili.Modeling the evolution of operating systems:An empirical study[J].The Journal of Systems&Software,2007,80(1):1-15.
[9]杨中华.基于Qt/Embedded的SQLite数据库研究及应用[D].成都:西华大学,2008:5-10.