Brass Swing Check Valve Specifications
ModelNR-C005
| Material | Brass CW617N,HPB59-1,DZR CW602N,lead free brass C46500,CW511L,etc |
Working Medium | Waterand Non-corrosive liqid |
Working Pressure | 16 bar |
Working Temperature | -20°℃ to 120℃ |
Size Range | from 1/2"to 4" |
Connection type | Thread(BSP.NPT) |
Production method | Forging +machining |
Standard Ref | BS or ISO standard |
Features of Brass Swing Check Valve
Material
It is made of brass, which is highly durable and resistant to corrosion. This makes the valve suitable for use in various fluid environments, ensuring a long service life without being easily affected by rust or other forms of deterioration.
Working Principle
The valve operates based on the principle of fluid flow. When the fluid flows in the forward direction with sufficient pressure, it pushes the disc inside the valve to swing open, allowing the fluid to pass through smoothly. When the fluid flow stops or reverses, the disc swings back to its original position under the action of gravity and fluid pressure, closing the valve tightly to prevent the backflow of fluid. This automatic control of fluid flow direction helps maintain the normal operation of the system and protects other components from being damaged by reverse flow.
Design Features
Swinging Disc Design: The swinging disc design enables quick response to changes in fluid flow. It can open and close rapidly, ensuring efficient fluid control. The disc is usually designed with a certain shape and weight to ensure smooth operation and a tight seal when closed.
Compact Structure: The valve has a relatively compact structure, which makes it easy to install in different piping systems. It doesn't take up much space, allowing for flexible layout in various engineering applications.
Applications
Brass Swing Check Valves are widely used in many fields. In water supply systems, they prevent water from flowing back and contaminating the water source. In heating and cooling systems, they ensure the normal circulation of fluids and maintain the stability of the system. In industrial processes, they are used to control the flow direction of various fluids, protecting equipment and ensuring the safety and efficiency of production.
