河北工业科技2017,Vol.34Issue(3):189-193,5.DOI:10.7535/hbgykj.2017yx03007
一种合理利用峰谷电的智能饮水机设计
Design of an intelligent drinking fountain with rational use of peak and valley power
摘要
Abstract
To solve the problems of existing drinking fountains,such as inconveniently replacement heating equipment,harmful cold-hot mixing water and secondary pollution of drinking water,and to balance the urgent requirement of the national peak valley electricity,an intelligent drinking water machine controlled by microcontroller is designed.The drinking fountain could reasonably utilize the peak and valley electricity.It consists of heating device,rapidly replacing structure,hot water storage structure,clean cap structure of ventilation hole and single chip microcontroller controlling system.It adopts back pressure type water supply heat structure,making the heating more efficient.Its heating unit is visible,making it quickly to replace the heat pipe.Its clean cap structure of ventilation hole separates the inside and the outside,reducing the incoming of pollutants and rejection of heat.Its electromagnetic valve controller controls the flow direction of water,thoroughly separating cold water and hot water,avoiding unboiled water and boiled water,improving drinking water quality.It has temperature sensor,liquidlevel sensor and alarming protection function,which can solve the problem of electric energy waste because of water shortage in peak usage and repeatedly heating in valley usage.Through setting the time range of valley stage,it can realize water heat and storage in valley stage,rationally using peak and valley power while saving money for the users,and its widely use can make contribution to the national power grid optimization of cutting peak and filling valley.关键词
自动化技术应用/智能饮水机/单片机控制/峰谷电/即热管/储水Key words
automation technology application/intelligent drinking fountain/SCM control/peak and valley power/instant heat pipe/storage water分类
信息技术与安全科学引用本文复制引用
赵月静,秦志英,万海城,王博,张振杨,李奇..一种合理利用峰谷电的智能饮水机设计[J].河北工业科技,2017,34(3):189-193,5.基金项目
河北科技大学大学生创新创业训练项目(2015047) (2015047)
