基于ZigBee的校园智能供暖管网系统的研究
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摘要
针对目前校园供暖管网温度固定,楼宇供暖温度不能随环境温度变化而进行调整,管网故障无法及时发现和处理,提出一种基于ZigBee的校园智能供暖管网系统。该系统以CC2530芯片为核心,组成温度、压力、水位等参数采集控制节点,将节点设置于校园各楼宇的阴、阳面及锅炉房等位置,保证锅炉安全运行;实现校园各个控制点温度及时随环境温度调节;管网出现堵塞或泄漏时,及时报警提示处置险情。实验表明,同一楼宇阴、阳面可实现室内温度标准统一,达到节能、舒适、安全、高效的供暖需求。
The temperature of heating pipe network on the current campus is fixed and the heating temperature of buildings can not be adjusted with the ambient temperature's change so that pipe network failure can not be detected and dealt with in time. The article tries to put forward a ZigBee-based network system of intelligent heating on campus. The system is composed of such parameters of controlling nodes as the temperature,pressure,water level,by taking the CC2530 chip as the core. The nodes in the system is set on the sunny side and nightside of the buildings to ensure the safe operation of the boiler,achieving the ambient temperature's adjustment in time in view of the temperature controlling point on the campus; Moreover,once the pipe network is in congestion or leakage,the alarm in dangerous situations is deal with promptly. The research shows that the uniform standards of the indoor temperature can be achieved on the nightside and sunny side in the same building to satisfy the energy-saving,comfortable heating needs.
The temperature of heating pipe network on the current campus is fixed and the heating temperature of buildings can not be adjusted with the ambient temperature's change so that pipe network failure can not be detected and dealt with in time. The article tries to put forward a ZigBee-based network system of intelligent heating on campus. The system is composed of such parameters of controlling nodes as the temperature,pressure,water level,by taking the CC2530 chip as the core. The nodes in the system is set on the sunny side and nightside of the buildings to ensure the safe operation of the boiler,achieving the ambient temperature's adjustment in time in view of the temperature controlling point on the campus; Moreover,once the pipe network is in congestion or leakage,the alarm in dangerous situations is deal with promptly. The research shows that the uniform standards of the indoor temperature can be achieved on the nightside and sunny side in the same building to satisfy the energy-saving,comfortable heating needs.
引文
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[3]周利娜,周建平,许燕,等.基于STM32F103C8T6和Zig Bee的油井压力监控系统研究[J].物联网技术,2014(6):38-41.
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[5]李学哲,胡兴志,封孝辉,等.基于Zig Bee的煤矿巷道压力监测系统设计[J].工矿自动化,2014(4):19-22.
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[7]常书林,卢峰,仇成群.基于Zig Bee的汽车内环境监测系统设计[J].电子科技,2016,29(4):66-70.
[8]宋玉琴,姬引飞,段俊瑞,等.基于Android和Zig Bee的智能家居系统的设计[J].西安工程大学学报,2015(4):442-446.
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[10]张秋伟,陈健,吴书全,等.基于Zig Bee的船用气囊压力采集系统[J].广东工业大学学报,2014,31(1):70-73.
[11]郑亚君,杨天阳,许琦,等.基于Zig Bee的低功耗低成本的温湿度控制系统[J].工业控制计算机,2015,28(9):50-54.
[12]张猛,房俊龙,韩雨.基于Zig Bee和Internet的温室群环境远程监控系统设计[J].农业工程学报,2013,29(4):171-174.
[13]陈斯,赵同彬,高建东,等.基于Zig Bee的综采工作面顶板压力无线监测系统[J].煤矿开采,2011(4):107-109.
[14]滕志军,张明儒,许建军,等.基于Zig Bee的学生宿舍智能限电控制系统[J].自动化与仪表,2015(9):25-28,83.
[15]孙金平.基于Lab VIEW的远程心电监护系统设计[J].电子科技,2015,28(10):173-175.
[16]林献坤,朱琳,高礼刚.基于Lab VIEW和OPC的三轴加载机测控系统开发[J].仪表技术与传感器,2016(5):59-61,64.
[2]周权,杨灵艳,李侃,等.高大厂房不同供暖方式温度分布及经济性比较[J].煤气与热力,2013,33(1):11-14.
[3]周利娜,周建平,许燕,等.基于STM32F103C8T6和Zig Bee的油井压力监控系统研究[J].物联网技术,2014(6):38-41.
[4]刘玮.基于Zig Bee技术的智能家居系统设计[J].电子科技,2016,29(11):51-53.
[5]李学哲,胡兴志,封孝辉,等.基于Zig Bee的煤矿巷道压力监测系统设计[J].工矿自动化,2014(4):19-22.
[6]李瑞,赵晓军,袁颖,等.基于RFID/Zig Bee的智慧家居控制系统的研究[J].微型机与应用,2015,34(19):60-63.
[7]常书林,卢峰,仇成群.基于Zig Bee的汽车内环境监测系统设计[J].电子科技,2016,29(4):66-70.
[8]宋玉琴,姬引飞,段俊瑞,等.基于Android和Zig Bee的智能家居系统的设计[J].西安工程大学学报,2015(4):442-446.
[9]易翔,吴蒙.基于Android和Zig Bee的监控系统的实现[J].计算机技术与发展,2015(6):234-237.
[10]张秋伟,陈健,吴书全,等.基于Zig Bee的船用气囊压力采集系统[J].广东工业大学学报,2014,31(1):70-73.
[11]郑亚君,杨天阳,许琦,等.基于Zig Bee的低功耗低成本的温湿度控制系统[J].工业控制计算机,2015,28(9):50-54.
[12]张猛,房俊龙,韩雨.基于Zig Bee和Internet的温室群环境远程监控系统设计[J].农业工程学报,2013,29(4):171-174.
[13]陈斯,赵同彬,高建东,等.基于Zig Bee的综采工作面顶板压力无线监测系统[J].煤矿开采,2011(4):107-109.
[14]滕志军,张明儒,许建军,等.基于Zig Bee的学生宿舍智能限电控制系统[J].自动化与仪表,2015(9):25-28,83.
[15]孙金平.基于Lab VIEW的远程心电监护系统设计[J].电子科技,2015,28(10):173-175.
[16]林献坤,朱琳,高礼刚.基于Lab VIEW和OPC的三轴加载机测控系统开发[J].仪表技术与传感器,2016(5):59-61,64.