Gas Solenoid Valve
- Description
- Features
Uflow Gas Solenoid Valve – Reliable and Efficient Gas Flow Control
Description:
The Uflow Gas Solenoid Valve is designed for seamless gas flow control, offering exceptional performance and reliability in a range of industrial and residential applications. Built with a durable aluminum pressure die-cast body and equipped with a Nitrile (NBR) diaphragm, this valve ensures efficient operation even in extreme conditions. Its precise flow adjustments, quick-release functionality, and user-friendly design make it the perfect choice for air, natural gas, and town gas applications.
Key Specifications:
- Valve Type: Gas Solenoid Valve
- Media Compatibility: Air, natural gas, and town gas
- Diaphragm Material: Nitrile (NBR)
- Operating Voltage: 230V AC / 30W and 110V AC / 30W
- Temperature Range:
- Media: -30°C to 90°C
- Ambient: -10°C to 70°C
- Connection Details: Screwed BSP connections (details in the technical data sheet)
Applications:
The Uflow Gas Solenoid Valve is ideal for a variety of uses, including:
- Industrial gas systems
- Residential heating systems
- Gas compressors and regulators
For dependable gas flow management with high precision and safety, choose the Uflow Gas Solenoid Valve—crafted to meet the highest industry standards.
- Flow Rate Adjustment: Effortlessly control the gas flow for optimal performance.
- Adjustable Opening Time: Customize opening times for efficient operation.
- Quick Release Mechanism: Simplifies initial flow adjustments.
- Robust Coil Design:
- Highly reliable and resistant to voltage surges.
- Easy to replace and lock in four 90° positions or freely adjust as needed.
- Complies with IEC-60335-1 standards (LVD and EMC).
- Sturdy Build:
- Body made from pressure die-cast aluminum for durability.
- Coil housing constructed from robust epoxy material.
- Filter Recommendation: It is advised to install a filter at the inlet port for extended valve life and performance.
- Standards Compliance: Fully adheres to EN-161 requirements, ensuring safety and efficiency.