Speedaire quick-connect hose couplings are connectors that are used to connect and disconnect hoses & fittings in the automotive, agriculture, construction, plumbing and food & beverage industries. ...Read More
Speedaire quick-connect hose couplings are connectors that are used to connect and disconnect hoses & fittings in the automotive, agriculture, construction, plumbing and food & beverage industries. These universal hose couplings are ideal for connecting and disconnecting hoses & fittings for time efficiency and improved productivity. Read Less
Speedaire quick-connect couplings are connectors or fittings designed to mate fluid lines with equipment that need frequent connections and disconnections. They are suitable for heavy-duty use and are flexible, offering more damage resistance in comparison to softer metals and a broad working temperature range. These couplings are also known as sockets and take coupling plugs to attach tools to air, water or fluid lines. Choose from a range of these couplings, available in 1/4 and 3/8 inch barb sizes.
Features
Speedaire quick-connect hose couplings have a nitrile seal for preventing leakages.
They have brass / stainless steel construction for structural rigidity and enhanced durability.
These Speedaire hose couplings have flow rates up to 45 cfm.
They have an operating pressure range of 250 to 400 PSI.
These Speedaire quick connect hose couplings feature zinc plated finish for resisting corrosion on exposed surfaces.
Frequently Asked Questions
What is the operating temperature range of Speedaire quick-connect hose couplings?
They can be operated at temperatures ranging from -40 to 150 degrees F.
Which type of valve is used in these hose couplings?
These Speedaire quick-connect hose couplings have poppet-type valves to facilitate quick and convenient connection & disconnection of hose couplings.
What type of fittings are offered in these Speedaire quick-connect hose couplings?
Speedaire quick connect hose couplings offer MNPT / FNPT or hose barb fittings for controlling fluid flow.