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A platform for research: civil engineering, architecture and urbanism
Intelligent caisson pressurized water control method
The invention discloses an intelligent caisson pressurized water control method which comprises the following steps that firstly, a deepwater electromagnetic valve is started, seawater on the outer side of a caisson side wall enters a caisson bin cell through a water inlet under the action of water pressure, and then the caisson pressurized water is controlled through real-time monitoring data of a liquid level meter in the caisson bin cell. The data acquisition and transmission control center can selectively close the deepwater electromagnetic valve according to the liquid level difference; and finally, according to monitoring data of the liquid level meter, after the liquid level elevation of each caisson bin meets the requirement, all the electromagnetic valves are closed, and remote caisson water pressing is completed. According to the system, the underwater water feeding and stopping functions are remotely controlled through the deepwater electromagnetic valve, the caisson bin water level change condition is remotely monitored through the throw-in type liquid level meter, the deepwater electromagnetic valve can be remotely controlled in real time according to the water level condition, and it is ensured that the whole caisson water pressing process is efficient in operation, safe, controlled, energy-saving and environmentally friendly.
本发明公开一种智能化沉箱压水控制方法,包括以下步骤:首先开启深水电磁阀,沉箱侧墙的外侧海水在水压力作用下,通过进水口进入沉箱仓格,然后通过沉箱仓格内液位计的实时监测数据,数据采集传输控制中心可根据液位差有选择性地关闭深水电磁阀;最后依据液位计的监测数据,待各沉箱仓格液位标高达到要求后,关闭所有电磁阀,完成远程沉箱压水。本发明通过深水电磁阀远程控制水下进水与停水功能,通过投入式液位计远程监测沉箱仓格水位变化情况,根据水位情况可实时远程控制深水电磁阀,确保沉箱压水全过程高效作业、安全受控、节能环保。
Intelligent caisson pressurized water control method
The invention discloses an intelligent caisson pressurized water control method which comprises the following steps that firstly, a deepwater electromagnetic valve is started, seawater on the outer side of a caisson side wall enters a caisson bin cell through a water inlet under the action of water pressure, and then the caisson pressurized water is controlled through real-time monitoring data of a liquid level meter in the caisson bin cell. The data acquisition and transmission control center can selectively close the deepwater electromagnetic valve according to the liquid level difference; and finally, according to monitoring data of the liquid level meter, after the liquid level elevation of each caisson bin meets the requirement, all the electromagnetic valves are closed, and remote caisson water pressing is completed. According to the system, the underwater water feeding and stopping functions are remotely controlled through the deepwater electromagnetic valve, the caisson bin water level change condition is remotely monitored through the throw-in type liquid level meter, the deepwater electromagnetic valve can be remotely controlled in real time according to the water level condition, and it is ensured that the whole caisson water pressing process is efficient in operation, safe, controlled, energy-saving and environmentally friendly.
本发明公开一种智能化沉箱压水控制方法,包括以下步骤:首先开启深水电磁阀,沉箱侧墙的外侧海水在水压力作用下,通过进水口进入沉箱仓格,然后通过沉箱仓格内液位计的实时监测数据,数据采集传输控制中心可根据液位差有选择性地关闭深水电磁阀;最后依据液位计的监测数据,待各沉箱仓格液位标高达到要求后,关闭所有电磁阀,完成远程沉箱压水。本发明通过深水电磁阀远程控制水下进水与停水功能,通过投入式液位计远程监测沉箱仓格水位变化情况,根据水位情况可实时远程控制深水电磁阀,确保沉箱压水全过程高效作业、安全受控、节能环保。
Intelligent caisson pressurized water control method
一种智能化沉箱压水控制方法
ZHANG XIAOBO (author) / LIU MING (author) / YANG MING (author) / ZHANG QUANLIN (author) / YANG RUNLAI (author) / SUN JUNFENG (author) / XIE LIANZHONG (author) / YANG LEI (author) / JU QINGFU (author) / ZHANG ZEXIN (author)
2022-04-22
Patent
Electronic Resource
Chinese
| European Patent Office | 2024