MYRSP040-10J
Product classification:MYRSP Series 2 Position 2 Way Pilot Solenoid Valve 3/8”~2”
Working medium: Water, liquid, air, light oil (viscosity≤20cst)
Medium temperature: -5℃ ~80℃
Working pressure: 0.3~16bar (details see specification table)
Working type: Pilot operated (nc)
Valve body material: Brass ss316
Sealing material: Nbr
Interface: G thread, npt thread
Working voltage: Ac220~240v ac110v 50/60hz 22va
Dc24v/12v 13w ip65 h degree
Options:
Sealing material: EPDM, VITON
Rc thread digital timer, LED light connector
Es: low power energy saving coil (AC220V 3VA DC24V 3W)
Ex: Encapsulated Ex-proof (AC220V 5VA DC24V 4W)
Solenoid valves are devices used to control the flow of liquids or gases, and they are commonly employed in various industrial and commercial applications, including the following areas:
Automation Control Systems: Solenoid valves are widely used in automation control systems to regulate the flow of liquids or gases, such as in automated production lines, industrial robots, and manufacturing equipment.
Hydraulic and Pneumatic Systems: Solenoid valves play a crucial role in hydraulic and pneumatic systems, controlling the direction and pressure of hydraulic oil or compressed air, used in applications like hydraulic jacks, pneumatic cylinders, and hydraulic machine tools.
Cooling and Heating Systems: Solenoid valves can be utilized to control the flow of cooling water or heating fluids in cooling equipment or heating systems, such as air conditioning systems, heating systems, and cooling towers.
Drinking Water and Wastewater Treatment: Solenoid valves can be applied in drinking water treatment and wastewater treatment systems to control water flow, filtration, and mixing operations.
Medical Devices: In medical equipment, solenoid valves are used to control the flow of gases and liquids in devices like respirators, infusion equipment, and dialysis machines.
Laboratory Equipment: Solenoid valves are widely used in laboratories for the automated control of liquid or gas distribution and flow, in equipment such as automated experiment setups, liquid chromatographs, and gas chromatographs.
The advantages of solenoid valves include:
Fast Response: Solenoid valves can rapidly open or close, providing quick fluid control, suitable for applications that require rapid response.
Precise Control: Solenoid valves offer precise fluid control, allowing for the adjustment of fluid flow and pressure by modifying the valve's operation.
Remote Control Capability: Solenoid valves can be integrated with control systems, enabling remote control and automation, reducing the need for manual intervention.
Durability: Solenoid valves typically have a long service life and can operate in various harsh environments, including high temperatures, low temperatures, high pressures, and corrosive media.
Multiple Specifications and Types: Solenoid valves come in various specifications and types to meet the diverse requirements of different applications, including varying sizes, materials, and operating principles.
In summary, solenoid valves play a critical role in various industrial and commercial applications, providing precise fluid control and automation capabilities, which enhance efficiency, reliability, and safety.
Medium temperature: -5℃ ~80℃
Working pressure: 0.3~16bar (details see specification table)
Working type: Pilot operated (nc)
Valve body material: Brass ss316
Sealing material: Nbr
Interface: G thread, npt thread
Working voltage: Ac220~240v ac110v 50/60hz 22va
Dc24v/12v 13w ip65 h degree
Options:
Sealing material: EPDM, VITON
Rc thread digital timer, LED light connector
Es: low power energy saving coil (AC220V 3VA DC24V 3W)
Ex: Encapsulated Ex-proof (AC220V 5VA DC24V 4W)
Solenoid valves are devices used to control the flow of liquids or gases, and they are commonly employed in various industrial and commercial applications, including the following areas:
Automation Control Systems: Solenoid valves are widely used in automation control systems to regulate the flow of liquids or gases, such as in automated production lines, industrial robots, and manufacturing equipment.
Hydraulic and Pneumatic Systems: Solenoid valves play a crucial role in hydraulic and pneumatic systems, controlling the direction and pressure of hydraulic oil or compressed air, used in applications like hydraulic jacks, pneumatic cylinders, and hydraulic machine tools.
Cooling and Heating Systems: Solenoid valves can be utilized to control the flow of cooling water or heating fluids in cooling equipment or heating systems, such as air conditioning systems, heating systems, and cooling towers.
Drinking Water and Wastewater Treatment: Solenoid valves can be applied in drinking water treatment and wastewater treatment systems to control water flow, filtration, and mixing operations.
Medical Devices: In medical equipment, solenoid valves are used to control the flow of gases and liquids in devices like respirators, infusion equipment, and dialysis machines.
Laboratory Equipment: Solenoid valves are widely used in laboratories for the automated control of liquid or gas distribution and flow, in equipment such as automated experiment setups, liquid chromatographs, and gas chromatographs.
The advantages of solenoid valves include:
Fast Response: Solenoid valves can rapidly open or close, providing quick fluid control, suitable for applications that require rapid response.
Precise Control: Solenoid valves offer precise fluid control, allowing for the adjustment of fluid flow and pressure by modifying the valve's operation.
Remote Control Capability: Solenoid valves can be integrated with control systems, enabling remote control and automation, reducing the need for manual intervention.
Durability: Solenoid valves typically have a long service life and can operate in various harsh environments, including high temperatures, low temperatures, high pressures, and corrosive media.
Multiple Specifications and Types: Solenoid valves come in various specifications and types to meet the diverse requirements of different applications, including varying sizes, materials, and operating principles.
In summary, solenoid valves play a critical role in various industrial and commercial applications, providing precise fluid control and automation capabilities, which enhance efficiency, reliability, and safety.
