3/4” Stainless Steel Electric Solenoid Valve, 24V DC, Normally Open with Viton Seal
This solenoid valve is constructed from industrial-grade stainless steel, providing excellent corrosion resistance and ease of welding, making it an ideal choice for high-temperature applications. Its compatibility with various fluids such as diesel fuel, natural gas, air, and safe for use with drinking water or other water-based liquids makes it a versatile solution. Engineered for rapid responsiveness, it can open or close within one second when activated, ensuring immediate flow control when switched on or off. With proper maintenance and operation, it is estimated to have a life cycle of over a million cycles.
In its default state, the solenoid valve utilizes the magnetic field of the solenoid to move the plunger and close the orifice, halting the flow of fluid or gas. Upon energization, the valve function changes. Equipped with a Viton gasket known for its chemical inertness and compatibility with substances like gasoline, kerosene, and organic solvents, this direct-acting solenoid valve can be applied across various sectors, including water treatment, chemical industry, power generation, and healthcare. Its precise fluid control capabilities make it well-suited for applications ranging from brewing systems to automated irrigation.
Specifications:
- Size: 3/4"
- Body Material: Stainless Steel
- Flow Aperture: 20 mm
- Gasket / Diaphragm / Seal: VITON
- Rated voltage: DC 24 V, ± 10%
- Power rating: 20 W
- Operation Type: Semi-direct lift valve
- Operation Mode: Normally Open
- Operational pressure range: 0 to 101 PSI / 0-0.7 Mpa (for Air, Water); 0 to 72 PSI / 0-0.5 Mpa (for Oil)
- Flow value: 7.6 Cv
- Flow capacity: 7.6 gallons per minute (GPM) of water at 60°F with a pressure drop of 1 PSI
- Operational temperature: 14 - 248 degrees Fahrenheit
OVERHEATING WARNING: This solenoid valve is not intended for continuous operation and does not have a 100% duty cycle. When energized under normal conditions, it will become hot, with the coil reaching a maximum temperature of about 80°C. It fully complies with national standard JB/T7352-2010. Continuous energization for over 8 hours may cause the coil to burn.
