1" Stainless Steel Solenoid Valve - 110V AC Normally Open, Viton Seal
This solenoid valve is constructed from industrial-grade stainless steel to provide superior corrosion resistance and ease of welding, making it suitable for high-temperature applications. Its versatility is evident in its compatibility with diesel fuel, natural gas, air, and even drinking water or other water-based projects. Engineered for swift response, this solenoid valve can open or close in less than a second, ensuring immediate flow control upon activation. With proper maintenance and operating conditions, our engineers estimate its life cycle to exceed a million cycles.
In its default state, the solenoid valve relies on the solenoid's magnetic field to move the plunger and close the orifice, effectively stopping fluid or gas flow. Once energized, the valve operates differently, aided by a Viton gasket, a chemical inert material widely used with gasoline, kerosene, and organic solvents. This direct-acting solenoid valve finds application in various industries such as water projects, chemical processing, power generation, and healthcare, thanks to its quick and precise fluid control. It is well-suited for applications ranging from brewing systems to automatic irrigation.
Specifications:
- Size: 1"
- Body Material: Stainless Steel
- Flow Aperture: 25 mm
- Gasket / Diaphragm / Seal: VITON
- Rated voltage: AC 110 V, ± 10%
- Power rating: 24 VA
- 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 capacity: 12 gallons per minute (GPM) of water at 60℉ with a pressure drop of 1 PSI
- Operational temperature: 14 - 248 degrees Fahrenheit
OVERHEATING WARNING: Not designed for continuous operation (not a 100% duty cycle). While energized, under normal operating conditions, the solenoid valve will generate heat. The coil will reach a maximum temperature of about 80℃. It fully complies with national standard: JB/T7352-2010. Continuous energization for more than 8 hours may result in coil burnout.
