In fields such as meteorological monitoring, urban drainage management, and agricultural irrigation, accurate monitoring of rainfall is of great significance for preventing flood disasters, optimizing water resource allocation, and ensuring agricultural production. With the advancement of technology, the tipping bucket type rainwater online monitoring system, featuring safety, efficiency and accuracy, has gradually become the preferred solution in the field of rainfall monitoring.

The WX-YJ1 tipping bucket rainwater online monitoring system is a device that uses tipping bucket rain gauges for real-time monitoring of rainfall. This system, through its built-in sensors and signal processing circuits, can sense and record the descent of rainwater in real time, and then calculate accurate rainfall data. Its working principle is based on the linear relationship between the number of flips of the tipping bucket and the amount of rainfall. By precisely measuring the number of flips of the tipping bucket, the corresponding amount of rainfall can be obtained.

The tipping bucket type online rainwater monitoring system features multiple core characteristics, ensuring its outstanding performance in the field of rainfall monitoring. Firstly, the system adopts a non-contact measurement method, avoiding the errors and damage caused by contact with rainwater in traditional methods. Secondly, the system is equipped with high-precision and high-sensitivity sensors, which can accurately and in real time perceive the descent of rainwater, ensuring the accuracy of the monitoring data. In addition, the system also has powerful data processing and analysis capabilities, capable of conducting in-depth analysis and mining of the collected rainfall data, providing a scientific basis for decision-making.

The application scenarios of the tipping bucket type rainwater online monitoring system are very extensive. In the field of meteorological monitoring, this system can be used to monitor rainfall in real time, providing accurate data support for meteorological forecasting and disaster warnings. In terms of urban drainage management, the system can monitor the rainfall in various areas of the city in real time, providing a scientific basis for drainage dispatching and flood control and disaster reduction. In the field of agricultural irrigation, the system can automatically adjust the irrigation water volume according to the rainfall, achieving the rational utilization and conservation of water resources.