What are the structural characteristics of BRASS BALL VALVES?

The main body of BRASS BALL VALVES is usually cast from high-quality brass. This material has good mechanical properties and corrosion resistance, and can withstand high working pressure and temperature changes. The valve body uses precision machining technology to ensure smooth and unobstructed flow, reduce fluid resistance, and improve flow efficiency. The connection methods at both ends of the valve body are diverse, such as threaded connection, flange connection, etc., which can be flexibly selected according to actual needs to meet the installation requirements under different working conditions.

The ball is the core component of BRASS BALL VALVES, which directly controls the on and off of the fluid. The surface of the ball is specially treated to ensure that an effective sealing surface is formed between the valve seat. When the valve is closed, the ball rotates 90 degrees so that the sealing surface fits tightly with the valve seat to achieve a reliable sealing effect. The design of the ball makes the valve flexible to rotate during opening and closing, easy to operate, and can quickly cut off the fluid to reduce the risk of leakage.

The valve seat of BRASS BALL VALVES is usually made of elastic materials, such as PTFE (polytetrafluoroethylene), which has good wear resistance, corrosion resistance and high temperature resistance, and can ensure that the valve maintains stable sealing performance during long-term use. The selection of sealing materials also fully considers the characteristics of the medium and working conditions to ensure that the valve can operate reliably under various working conditions.

The operating mechanism design of BRASS BALL VALVES is flexible and diverse, and a variety of drive modes such as handle, worm gear, pneumatic or electric can be selected according to actual needs. The handle operation is simple and intuitive, suitable for small valves and occasions with frequent manual operation; the worm gear operation is suitable for occasions that require large torque or remote operation; the pneumatic and electric drive modes further improve the automation of the valve and meet the requirements of modern industry for fluid control accuracy.