Description
The Direct Acting Solenoid Valve with a brass body is a critical component designed for precise control in various industrial applications. Operating on a 12V DC power supply, this normally closed valve effectively isolates flow, regulates pressure, and ensures the safe direction of media in systems with pressures ranging from 0 to 5 bar. With an orifice size of 6 and a media temperature range of -10 to 100 degrees Celsius, it is ideal for use in manufacturing, water treatment, and compressed air systems. Its durable construction, featuring Teflon for enhanced corrosion resistance, guarantees reliable operation and leak prevention, contributing to overall system safety and operational efficiency in demanding environments.
Features
- Compact 1/2" size suitable for space-constrained applications.
- 6mm orifice for efficient flow control and minimal pressure drop.
- Wide media temperature range from -10 to 100 degrees Celsius.
- Operates on 12V DC for versatile power supply options.
- Normally Closed (N.C) function ensures safety and reliability in operation.
- Compatible with air and fluid pressures up to 5 Bar for robust performance.
- Vacuum capability of 27 inches Hg for effective sealing and operation.
- Durable brass body construction with Teflon sealing for enhanced longevity.
Applications
- Used in fluid handling systems for precise control of water and chemical flow in industrial processes.
- Ideal for compressed air applications, ensuring reliable operation in pneumatic systems.
- Employed in water distribution networks to manage flow and prevent backflow in pipelines.
- Utilised in gas pipelines for safe and efficient control of gas flow under varying pressure conditions.
- Applied in steam systems to regulate steam flow and maintain optimal pressure levels.
- Incorporated in process control systems for automated control of liquid and gas media.
- Serves as an equipment isolation valve, providing safety and maintenance capabilities in machinery.
- Effective in vacuum systems, maintaining integrity and performance under low-pressure conditions.
