PRODUCT CATEGORIES DESCRIPTION
What Is Angle Valve With Filter Net？
Angle valves with filter net are plumbing valves designed to control the flow of fluids while simultaneously filtering out unwanted debris or particles. The valves are commonly used in residential and commercial plumbing systems.
How Does The Angle Valve With Filter Net Work?
The working principle of angle valves with filter net is straightforward. Fluid flows through the valve body and is regulated by a valve mechanism that opens and closes the flow path. The filter net is placed within the valve body to trap debris and particles from the fluid flow, preventing them from entering downstream equipment or systems.
What Are The Main Features Of Angle Valve With Filter Net?
One of the key features of angle valves with filter net is their ability to filter out small particles from the fluid stream. The filter net is typically made of fine mesh materials that can trap debris as small as a few microns. Additionally, the valves are compact in size and are available in a variety of materials such as brass, stainless steel, and plastic.
What Is The Connection Type Of The Angle Valve With Filter Net?
Angle valves with filter net are available in a variety of connection types, including compression, solder, and thread. The valve body is typically designed with female connections to allow for easy installation into a plumbing system.
What Is The Application Of Angle Valve With Filter Net?
These valves are commonly used in applications where the fluid being transported may contain debris or particles that could cause damage to downstream equipment. Typical applications include water filtration systems, irrigation systems, and HVAC systems. The valves are also commonly used in residential plumbing systems to control the flow of water to specific fixtures.
What Are The Common Sizes Of Angle Valve With Filter Net?
Angle valves with filter net are available in a range of sizes, with the most common sizes being 1/2 inch and 3/4 inch. The size of the valve selected depends on the flow rate and pressure of the fluid being transported, as well as the size of the piping system.