摘要
三峡双向五级船闸通过布置在24个反向弧形门控制输水廊道的通断,实现各级闸室以及与上下游间的水位控制。通过对光电开关式反弧门限位装置在现有三峡船闸运行工况进行原理性研究,改变以往反弧门限位装置感应方式,为光电开关式反弧门限位装置在三峡船闸的应用提供基础。
Three Gorges two-way five-stage ship locks control the passage of water transmission corridor by arranging in 24 reverse-arc gates to achieve water level control at all levels of the lock chamber and with the upstream and downstream.Through the photoelectric switch type reverse arc gate limit device in the existing Three Gorges locks operating conditions for principle research,change the previous reverse arc gate limit device induction mode,for photoelectric switch type reverse arc gate limit device in the Three Gorges locks application to provide the basis.
作者
佘立子
杜满
卢昊天
望昊
朱小龙
She Lizi;Du Man;Lu Haotian;Wang Hao;Zhu Xiaolong(Yangtze River Three Gorges Navigation Management Bureau,Yichang Hubei 443002)
出处
《现代工业经济和信息化》
2022年第4期299-300,334,共3页
Modern Industrial Economy and Informationization
基金
长江三峡通航管理局科技项目(项目编号:KJ2020-03C)。
关键词
三峡船闸
限位装置
光电开关
three gorges locks
limit device
photoelectric switch
