The internal structure of Ethernet pressure scanners is relatively complex, integrating a variety of precision components for precise control and measurement of pressure. One of the main structures of Ethernet pressure scanners is the valve body, and a flow channel is arranged inside it for the flow of gas. It is made of high-strength, corrosion-resistant metallic materials to withstand high pressure and chemical attack. Installed in or connected to the valve body is a pressure sensor for real-time monitoring of fluid pressure.
The surface of Ethernet pressure scanners is composed of purge end, calibration end, push valve end, exhaust port, nozzle street, air pressure plate, reference end, X1 connector and equipment nameplate, etc. Among them, the air circuit connection port of Ethernet pressure scanners is located On the air pressure plate, the corresponding air circuit name is marked next to each air pressure port, and the channel number is "CH1 ~ CH16". Users can choose the corresponding channel for connection according to their own needs. In the high pressure measurement, need to use the pressure tube withstand pressure. It also includes components such as control components, seals, electronic circuit boards and communication modules, which together constitute a powerful flow field measurement and control device.
With its exquisite internal structure and in-depth combination of cutting-edge technology, Windtuner Ethernet Intelligent Pressure Scanners not only successfully achieves precise regulation and real-time monitoring of fluid pressure, but also demonstrates superior performance in a wide range of application scenarios with strong adaptability and impeccable stability. Ethernet pressure scanners uses a strong valve body made of high-strength corrosion-resistant materials, is equipped with a high-sensitivity sensor, and integrates an advanced electronic control platform. Every link has been carefully designed to ensure the accuracy of measurement data and the foolproof operation of the system. Windtuner technology will make every practice of fluid measurement and control more intuitive and efficient.
