UNOX 3 Way L-Port Ball Valve With Double Acting Pneumatic Actuator

3 Way L-Port Ball Valve With Double Acting Pneumatic Actuator

The UNOX 3 Way L-Port Ball Valve with Double Acting Pneumatic Actuator Stainless delivers high-performance flow diversion and mixing for demanding industrial processes. Made from AISI 304 stainless steel, this rugged valve provides exceptional resistance to corrosion, chemicals, and high temperatures, ensuring long service life in applications such as chemical plants, food and beverage, pharmaceuticals, water treatment, and general industrial automation.

Featuring an L-Port flow pattern, the 3-way design allows fluid to be directed from one inlet to either of two outlet ports (or vice versa) with minimal pressure drop. The double acting pneumatic actuator provides bi-directional air operation for both opening and closing, ensuring rapid and reliable switching. Constructed with aluminum extruded housing, aluminum die-cast pistons, and nitrile rubber seals, the actuator offers dependable performance even under continuous operation.

This ball valve supports BSP or NPT threaded connections, with an optional ISO 5211 mounting pad for easy automation integration. With a working pressure rating of up to PN63 (≈915 psi) and a temperature range of -20 °C to +180 °C (-4 °F to +356 °F), the valve meets the requirements of diverse industrial systems.

Key Features:

• Body Material: AISI 304 stainless steel for superior corrosion resistance
• Port Configuration: L-Port 3 way valve for directional flow control or diversion
• Connection Type: BSP or NPT threaded, ISO 5211 mounting pad for actuators
• Working Pressure: Up to PN63 (≈915 psi)
• Temperature Range: -20 °C to +180 °C (-4 °F to +356 °F)
• Actuator Type: Double acting pneumatic actuator for precise and reliable operation
• Sealing: PTFE seats for tight shut-off and chemical resistance
• Maintenance: Easy to install, operate, and service with minimal downtime

The UNOX 3 Way L-Port Ball Valve with Double Acting Pneumatic Actuator ensures safe, efficient, and automated flow control, making it ideal for applications that require frequent switching and process flexibility.