3/2-Way Single Command Piloted Valve 1/4 (F) NPT OPTIMA
3/2-Way Single Command Piloted Valve 1/4 (F) NPT OPTIMA
Description
Built for 15 million cycles, this quick-acting valve delivers a high flow rate in a compact body, ensuring long-lasting performance and consistent operation. Its spool-type construction guarantees exceptional reliability, durability, and efficiency, even in demanding industrial environments.
This pilot-operated pneumatic valve can be pipe-mounted directly or installed on a manifold, allowing for easy and flexible integration into any compressed air or automation system.
Technical Specifications
- Product Series80
- Product TypePiloted Valves
- Sub-BrandOPTIMA
- Default PositionNormally Closed
- Operation TypeDirect
- Return MechanismAir and Spring
- Number of Pneumatic ControlsSingle Remote Pilot
- Number of Positions2
- Number of Ways3
- Type of ActuationPneumatic
- Coefficient of Velocity (CV)1.06
- Inlet Connection TypeThreaded
Documents
There are no documents available.
Warranty
G2: 2 Year Warranty
The replacement warranty (G) means that the product, or parts of the product, may be replaced by a new product and/or parts or equivalent. The warranty covers any manufacturing or material defect. The warranty does not cover installation and/or removal costs incurred by the customer nor shipping costs.
Failure to comply with the technical specifications, failure to follow the guidelines in the installation guide and/or the technical sheet, inappropriate or excessive tightening, misuse and/or abuse, failure to comply with the maintenance guidelines, normal wear, contamination and/or corrosion, neglect/accident, unauthorized repair attempt and/or disassembly, alteration of the product, assembly with incompatible products.
If the product contains one or more parts with a 1-month limited warranty (GL), these parts will be excluded from the 2-year warranty (G2).
Disclaimer
Please note that while we make every effort to accurately represent our products on our website, slight variations in design and appearance may occur due to factors such as manufacturing processes and materials used.