Range of wall mounted outlet brackets, (brass bodies - various finishes).Open outlet use only.
Non-metallic materials and components comply with BS6920 at 65°C
Range of wall mounted overhead showers incorporating stainless steel strainers and flow regulator in the inlet. Open outlet use only.
Range of overhead shower outlets (chrome plated brass bodies) incorporating NBR ‘O’ rings.
Non-metallic materials and components comply with BS6920 at 65°C
Overhead shower outlet (brass body – various finishes) incorporating a plastic flow regulator.
Non-metallic materials and components comply with BS6920 at 65°C
Range of overhead shower outlets (brass bodies – various finishes), the inlets incorporate a stainless-steel filter washer and an approved check valve cartridge, however, the complete assembly has not been tested to demonstrate that it provides back flow protection.
Non-metallic materials and components comply with BS6920 at 65°C
Range of shower outlets (brass or stainless-steel bodies – various finishes) incorporating EPDM O-rings. Maximum operating temperature 60.0°C
Non-metallic materials and components comply with BS6920 at 60°C
Range of Y type strainers with blue epoxy coated ductile iron bodies and EPDM ‘O’-rings. Maximum working pressure 25.0 bar. Maximum operating temperature 85°C
Range of draining taps with DZR brass, brass or chrome plated brass bodies. Incorporating a rising spindle headwork, EPDM or NBR seals and washers. Maximum working pressure 16.0 bar.
Non-metallic materials and components comply with BS6920 at 85°C
Range of wall mounted, two hole (models BT1714WSA & BT1714BH-WSA) or single hole (model BT3100-232SWSA) laboratory taps incorporating brass bodies and rising spindle headwork with either dome type or single lever operating members. Models BT1714WSA & BT1714BH-WSA have a swivel spout with a hose union connection. Model BT3100-232SWSA has two fixed hose union connections attached to the main body. The products are supplied with a metal backnut. Maximum working pressure 10.0 Bar.
Non-metallic materials and components comply with BS6920 at 85°C
Range of deck mounted, two hole (models BT1614-55WSA & BT1624WSA) or single hole (models BT414-55 & BT424), single outlet (swivel) laboratory taps incorporating brass bodies and rising spindle headworks with either dome type or single lever operating members. The spout outlets incorporate a plastic aerator and the products are supplied with a metal backnut. Maximum working pressure 10.0 Bar.
Non-metallic materials and components comply with BS6920 at 85°C
Range of deck mounted, single hole, single outlet (fixed or swivel) laboratory taps incorporating brass bodies and rising spindle headwork with either dome type or single lever operating members. The spout outlets incorporate a plastic aerator and the products are supplied with a metal backnut. Maximum working pressure 10.0 Bar.
Non-metallic materials and components comply with BS6920 at 85°C
Range of wall mounted, two hole, single outlet (swivel) laboratory taps incorporating brass bodies and rising spindle headwork with either dome type or single lever operating members. The spout outlets incorporate a plastic aerator and the products are supplied with a metal backnut. Maximum working pressure 10.0 Bar.
Non-metallic materials and components comply with BS6920 at 85°C
Pillar taps with chromium plated - brass bodies incorporating a quarter turn ceramic disc headwork, with single lever type operating members. The spout outlet incorporates a flow straightener. The product is supplied with plastic backnuts. Maximum working pressure 10 bar.
Non-metallic materials and components comply with BS6920 at 45°C
Range of pillar taps (chrome plated brass bodies) incorporating quarter turn ceramic disc headworks with cross top operating members. The products are supplied with metal back nuts. Maximum working pressure 10.0 bar.
Non-metallic materials and components comply with BS6920 at 60°C
Range of pillar taps (chrome plated brass bodies) incorporating quarter turn ceramic disc headworks with cross top operating members. The product is supplied with metal back nuts. Maximum working pressure 10.0 bar.
Non-metallic materials and components comply with BS6920 at 60°C
Range of dual layer reinforced hose assemblies, with elbow and straight end fittings, For use with free standing appliances. Available with a grey, blue, red or white PVC outer layer and black PVC inner layer, and EPDM or NBR gaskets. End connections incorporate plastic filters. Maximum working pressure 10.0 bar.
Non-metallic materials and components comply with BS6920 at 60°C
Range of stainless steel braided, EPDM lined flexible hose assemblies with various brass end connections. The hoses are supplied with EPDM O-rings or washers. Maximum working pressure 10.0 bar.
Non-metallic materials and components comply with BS6920 at 85°C
Air vent valve with a brass body and plastic float. Maximum working pressure 10.0 bar. Maximum operating temperature 100°C.
Wall mounted, concealed, manually operated blending valve with a DZR brass body and chromium plated trim, incorporating a ceramic cartridge headwork and single lever operating member. Maximum working pressure 10.0 bar.
Non-metallic materials and components comply with BS6920 at 70°C
Range of high pressure and low pressure thermostatic mixing valves. Flow is controlled by a solenoid valve and temperature is thermostatically controlled. Low pressure models incorporate a pump. The inlets of the valves incorporate an isolation valve, stainless steel strainer and a single check valve cartridge however, the complete assembly has not been tested to demonstrate it provides adequate backflow protection. The valves can be supplied with a shower rail, hose, handshower and/or ceiling mounted shower outlet. Valves with ‘HP’ in model have a maximum working pressure of 5.0 bar. All other valves marked with ‘LP’ have a maximum working pressure of 1.0 bar.
Non-metallic materials and components comply with BS6920 at 45°C
Page 290 of 566
We use cookies to give you the best possible experience with WRAS. Some are essential to provide website functions and ensure the website is secure. We also use cookies to help us understand how people use the site and to make improvements. Click "Accept All" to enable recommended settings or click "Manage cookies" to adjust your settings. For more details, see our Cookie Policy.
