1.5″ BSP 4 Stepped Black Threaded Hosetail and 1.5″ Backnut
With this hosetail kit, you will receive a threaded hosetail, threaded backnut, and a sealing “O” ring.
The addition of a backnut with aid when fixing a hosetail to a ridged tank/filter box. The backnut will firmly secure the hosetail in place while offering a superb watertight seal.
This hosetail can be used in conjunction with flexible hose with an internal diameter (ID) of 20mm (3/4″) -25mm (1″) 32mm- (1.25″) 38mm-(1.5″) flexi hose.
Joining Spigot: 1.5” Male BSP Thread
For further information on sizing please view the dimension charts supplied
Stepped hosetails have numerous different uses when it comes to converting flexible hoses to rigid pipes or other equipment. Hosetail are simple and easy to use.
When connecting any form of flexible hose to a hosetail please bear in mind that the internal diameter (ID) of the flexible hose will have to match one of the steps on the hosetail. We sell a wide range of hosetails that will connect to most hoses on the market so please ensure you are using the correct size. Please refer to our stepped hosetail dimensions chart for further details/sizes.
Solvent weld: Solvent weld hosetails can be used in conjunction with fittings, ridged pipe, and equipment, providing the correct size is used. Our solvent weld hosetails can be joined using the outside diameter (OD) of the joining spigot and the internal diameter (ID), please refer to our stepped hosetail dimensions chart for further details/sizes. Always use a non-Toxic adhesive
BSP Thread: Our range of threaded hosetails are manufactured to BSP standards, making them compatible with any other equipment/branded items that have the same thread size. If unsure about the sizing of BSP please refer to the male and female BSP thread conversion chart for more information.
Threaded hosetails can be used for many applications with or without a back nut
Threaded hosetails are supplied with a sealing washer ensuring a watertight seal
Always cut your Hosetail to the correct size and de-burr the cut for maximum flow