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Intelligent flood prevention retaining wall system of power distribution station and working method of intelligent flood prevention retaining wall system
The invention provides a power distribution station intelligent flood prevention retaining wall system and a working method thereof. The system comprises a baffle system, a rainfall monitoring system, a water level and water flow monitoring system and a drainage system. The baffle system comprises a flood prevention retaining wall of a frame structure formed by splicing flood prevention baffles, water stop sealing parts installed at the bottoms of the flood prevention baffles, embedded parts arranged below the flood prevention baffles and stand columns installed perpendicular to the ground. The rainfall detection system comprises at least one rainfall sensor and a rainfall microcomputer collector connected with the at least one rainfall sensor; the water level and water flow monitoring system comprises at least one water level sensor installed on the stand columns at different heights. The drainage system comprises a drainage ditch and a water-collecting well which are arranged on the inner side of the flood prevention retaining wall, a water-collecting tank communicated with the water-collecting well and a drainage pump arranged in the water-collecting well. The height of the baffle can be intelligently adjusted according to the water inflow, the drainage system can be reasonably used in a matched mode according to the rainfall and the water level, and blocking and drainage are combined.
本申请提供了一种配电站智能防汛挡墙系统及其工作方法,系统包括挡板系统、降雨监测系统、水位和水流监测系统以及排水系统;挡板系统包括由防汛挡板拼合成框架结构的防汛挡墙、安装在防汛挡板底部的止水密封件、设置在防汛挡板下方的预埋件以及垂直于地面安装的立柱;降雨检测系统包括至少一个雨量传感器和与至少一个雨量传感器连接的雨量微电脑采集器;水位和水流监测系统包括安装在不同高度的立柱上的至少一个水位传感器;排水系统包括设置在防汛挡墙内侧的排水沟和集水井、与集水井连通的集水槽以及设置在集水井内部的排水泵。可根据来水量大小智能调整挡板高度,以及可根据降雨量大小和水位高低合理配合使用排水系统,挡排结合。
Intelligent flood prevention retaining wall system of power distribution station and working method of intelligent flood prevention retaining wall system
The invention provides a power distribution station intelligent flood prevention retaining wall system and a working method thereof. The system comprises a baffle system, a rainfall monitoring system, a water level and water flow monitoring system and a drainage system. The baffle system comprises a flood prevention retaining wall of a frame structure formed by splicing flood prevention baffles, water stop sealing parts installed at the bottoms of the flood prevention baffles, embedded parts arranged below the flood prevention baffles and stand columns installed perpendicular to the ground. The rainfall detection system comprises at least one rainfall sensor and a rainfall microcomputer collector connected with the at least one rainfall sensor; the water level and water flow monitoring system comprises at least one water level sensor installed on the stand columns at different heights. The drainage system comprises a drainage ditch and a water-collecting well which are arranged on the inner side of the flood prevention retaining wall, a water-collecting tank communicated with the water-collecting well and a drainage pump arranged in the water-collecting well. The height of the baffle can be intelligently adjusted according to the water inflow, the drainage system can be reasonably used in a matched mode according to the rainfall and the water level, and blocking and drainage are combined.
本申请提供了一种配电站智能防汛挡墙系统及其工作方法,系统包括挡板系统、降雨监测系统、水位和水流监测系统以及排水系统;挡板系统包括由防汛挡板拼合成框架结构的防汛挡墙、安装在防汛挡板底部的止水密封件、设置在防汛挡板下方的预埋件以及垂直于地面安装的立柱;降雨检测系统包括至少一个雨量传感器和与至少一个雨量传感器连接的雨量微电脑采集器;水位和水流监测系统包括安装在不同高度的立柱上的至少一个水位传感器;排水系统包括设置在防汛挡墙内侧的排水沟和集水井、与集水井连通的集水槽以及设置在集水井内部的排水泵。可根据来水量大小智能调整挡板高度,以及可根据降雨量大小和水位高低合理配合使用排水系统,挡排结合。
Intelligent flood prevention retaining wall system of power distribution station and working method of intelligent flood prevention retaining wall system
一种配电站智能防汛挡墙系统及其工作方法
CAI MULIANG (author) / YANG XIAOBIN (author) / CHEN LIRONG (author) / JIANG SHUIHUA (author) / ZHOU QIUKUAN (author) / QIU ZHIBIN (author) / LIU BEI (author) / CHEN CHEN (author) / XIONG JIANHAO (author) / HUANG YANGQI (author)
2022-03-04
Patent
Electronic Resource
Chinese
European Patent Office | 2024
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