RIEGLER 106841 452.014 8 Shut Off Valve, Locked (Input) Weight (Outlet), G1/4, End 8, Pack of 1
Featured
|
€ 35.00 |
To Shop
|
|
€ 35.00 |
To Shop
|
Description
Amazon
Product name: Riegler shut-off valve. This shut-off valve with the designation 106841-452.014-8 is a high-quality product from the Riegler, ideal for manual opening and closing of compressed air lines Craftsmanship: high-quality materials - The shut-off valve consists of a technopolymer base body and inner parts made of nickel-plated brass, brass, technopolymer and stainless steel, which ensures a long service life and robustness Performance features: temperature range and operating pressure - The temperature range ranges from -20°C to 60°C, and the operating pressure can be a maximum of 10 bar, which allows a variety of uses Connectivity: thread and hose diameter - The shut-off valve is equipped with G 1/4 threads and is suitable for hose diameters of 8 mm, ensuring easy installation and integration into your system Technical details: flow rate - The flow rate at 6.3 bar and Δp 1.0 bar is 470 Nl/min, which ensures efficient performance
Product name: Riegler shut-off valve. This shut-off valve with the designation 106841-452.014-8 is a high-quality product from the Riegler, ideal for manual opening and closing of compressed air lines Craftsmanship: high-quality materials - The shut-off valve consists of a technopolymer base body and inner parts made of nickel-plated brass, brass, technopolymer and stainless steel, which ensures a long service life and robustness Performance features: temperature range and operating pressure - The temperature range ranges from -20°C to 60°C, and the operating pressure can be a maximum of 10 bar, which allows a variety of uses Connectivity: thread and hose diameter - The shut-off valve is equipped with G 1/4 threads and is suitable for hose diameters of 8 mm, ensuring easy installation and integration into your system Technical details: flow rate - The flow rate at 6.3 bar and Δp 1.0 bar is 470 Nl/min, which ensures efficient performance