Today, with the accelerated urbanization process, urban waterlogging has become a major hidden danger threatening public safety and residents' lives. The frequent occurrence of extreme weather and the overburdened urban drainage system have led to frequent urban flooding incidents, which have seriously affected urban traffic, residents' lives and even the safety of lives and property. As an important component of the modern urban flood control and drainage system, the electronic water gauge water accumulation monitoring station, with its advantages of high precision and real-time monitoring, provides strong technical support for urban waterlogging monitoring and early warning.

The WX-JS1S electronic water gauge water accumulation monitoring station integrates advanced sensor technology, remote communication technology and intelligent data processing algorithms, and is capable of real-time monitoring of water accumulation depth in areas prone to water accumulation such as low-lying areas in cities, tunnels and under overpasses. Its high-precision sensor can accurately measure water level changes with minimal error, ensuring the authenticity and reliability of the data. Meanwhile, the monitoring station also has a remote transmission function, which can upload real-time monitoring data to the cloud platform in real time for management personnel to conduct remote monitoring and analysis. In addition, the electronic water gauge water accumulation monitoring station also features easy installation, low maintenance cost and strong adaptability, and can operate stably in various complex environments.

By monitoring key information such as the depth and range of water accumulation in real time, managers can promptly understand the operational status of the urban drainage system, identify potential risk points of urban flooding, and provide a scientific basis for formulating effective response measures. Meanwhile, monitoring data can also provide important references for urban planning and infrastructure construction, promoting the improvement of urban flood control and drainage capabilities.

In addition, the early warning system can also predict and assess the risk of urban waterlogging based on historical monitoring data and meteorological forecast information by applying big data analysis technology. By constructing a waterlogging risk model, the system can predict the possible areas and severity of urban waterlogging in the coming period, providing forward-looking guidance for urban flood control and drainage work.