Basher tank, a classical water flow measuring device from Europe, has been widely used in the world since its birth because of its simple structure and accurate measurement. Different from traditional flowmeters, the Basher channel open channel flowmeter through a specific tank design, so that the water flow through the formation of a stable critical flow state, thus ensuring that no matter the size of the flow, can obtain high precision measurement results. This design principle is like installing a "smart scale" on the water flow, so that the flow of every drop of water becomes quantifiable and traceable.

WX-MQ50 open channel flowmeter design highlights: precision and durability

Precise measurement: The core of the Basher trough lies in its unique throat design, which ensures that the water flow reaches the critical flow rate when passing through, and there is a fixed relationship between the water cross section area and the flow rate, which greatly simplifies the measurement calculation and improves the measurement accuracy.

Strong adaptability: Whether it is a clear stream or a muddy river, Basher trough can adapt to a variety of complex environments by virtue of its rugged materials (such as stainless steel, fiberglass, etc.) and flexible installation methods to ensure long-term stable operation.

Easy maintenance: The clever design is not only reflected in the measurement accuracy, but also reflected in the convenience of daily maintenance. The structure of Basher tank is simple, easy to clean and maintain, and the operation and maintenance cost is greatly reduced.

In many fields such as smart cities, agricultural irrigation, and sewage treatment, open channel flowmeters are playing an irreplaceable role. It can not only monitor the amount of water in real time, provide a scientific basis for water resource scheduling, but also effectively monitor water quality changes and contribute to environmental protection. Especially in the agricultural irrigation system, the precise control of water quantity not only ensures the needs of crop growth, but also avoids the waste of water resources, and achieves the dual goal of saving water and increasing efficiency.