Description
The Direct Acting Solenoid Valve with a brass body is a critical component designed for precise control in various industrial applications. Operating at a voltage of 24V DC, this normally closed valve effectively isolates flow, regulates pressure, and ensures the safe direction of media in systems such as manufacturing, mining, water treatment, and compressed air systems. With an orifice size of 4 and capable of handling media temperatures ranging from -10 to 100 degrees Celsius, it operates efficiently under pressures of 0-7 bar for both air and fluid. Its robust construction offers durability and corrosion resistance, ensuring reliable operation and leak prevention, which enhances system safety and operational efficiency in process plants and pipelines.
Features
- Compact ⅛” size suitable for tight installation spaces.
- 4mm orifice for efficient flow control in various applications.
- Media temperature range from -10 to 100°C for versatile usage.
- Operates on 24V DC voltage for energy-efficient performance.
- Normally Closed (N.C) function ensures safety and reliability.
- Handles air/fluid pressures up to 7 Bar for robust operation.
- Vacuum capability of 27 Hg” for effective suction applications.
- Durable brass body construction for enhanced longevity and corrosion resistance.
Applications
- Used in fluid handling systems for precise control of water and other liquids in industrial applications.
- Ideal for compressed air systems, ensuring reliable operation in pneumatic control circuits.
- Applied in water distribution networks to manage flow and prevent backflow in pipelines.
- Utilised in gas pipelines for safe and efficient shut-off in emergency situations.
- Employed in steam systems to regulate steam flow and maintain optimal pressure levels.
- Incorporated in process control systems for automated control of various industrial processes.
- Serves as equipment isolation valves, providing safety and maintenance capabilities in machinery.
- Effective in vacuum applications, maintaining integrity in systems requiring low-pressure environments.
