Range of shower handsets with chrome plated plastic bodies. Some models incorporate a plastic aerator at the outlet of the shower and/or a plastic flow regulator and strainer on the inlet.
Non-metallic materials and components comply with BS6920 at 60°C
Range of shower outlets and shower handsets with plastic bodies (various finishes) and multi-spray patterns depending on model. Maximum operating temperature 50°C.
Range of wall mounted overhead shower outlets, (chrome or gold plated brass bodies).
Non-metallic materials and components comply with BS6920 at 85°C
Range of shower handsets, (plastic bodies - various finishes) incorporating a plastic flow regulator on the inlet.
Non-metallic materials and components comply with BS6920 at 65°C
Range of single and multi-function overhead shower outlets, (plastic bodies - various finishes). The inlets incorporate a combined washer with a stainless-steel strainer. The inlets also incorporate a plastic flow restrictor (except for the A957516##, A957517##, A957518## and A957519## models).
Non-metallic materials and components comply with BS6920 at 65°C
Range of drain taps with a brass body and rising spindle headwork. Maximum working pressure 10.0 bar. Maximum operating temperature 85°C.
Range of basin pillar taps (brass bodies - various finishes), incorporating self-closing headwork and a plastic aerator in the outlet. Maximum working pressure 10.0 Bar.
Non-metallic materials and components comply with BS6920 at 60°C
Range of pillar taps ( brass bodies – various finishes), incorporating quarter turn ceramic disc headworks with various type operating members. The spout outlets incorporate plastic flow straighteners (except models 173601 & 173602 that have open outlets) and the products are supplied with metal back nuts. Maximum working pressure 10 bar. Maximum operating temperature 85°C.
Range of pillar taps ( brass bodies – various finishes), incorporating quarter turn ceramic disc headworks with various type operating members. The spout are open outlets and the products are supplied with metal back nuts. Maximum working pressure 10 bar. Maximum operating temperature 85°C.
Range of self-closing valves with chromium plated brass bodies and dome type operating members. Maximum working pressure 5.0 Bar.
Non-metallic materials and components comply with BS6920 at 60°C
Range of stainless steel braided PEX lined flexible hose assemblies, incorporating EPDM O-Rings and gaskets. Maximum working pressure 10.0 bar.
Non-metallic materials and components comply with BS6920 at 70°C
Range of stainless-steel braided EPDM lined flexible hose assemblies with a variety of end connections. Some models incorporate screwdriver operated isolation valves. Maximum working pressure 16.0 bar.
Non-metallic materials and components comply with BS6920 at 85°C
Range of stainless-steel braided EPDM lined flexible hose assemblies with a variety of end connections. Some models incorporate screwdriver operated isolation valves. Maximum working pressure 16.0 bar.
Non-metallic materials and components comply with BS6920 at 85°C
Range of flexible tap connector hoses incorporating corrugated stainless steel bodies with a blue or red PE outer sleeve and an EPDM ‘O’-ring and gasket. Maximum working pressure 10.0 bar.
Non-metallic materials and components comply with BS6920 at 85°C
Range of 2 and 3 port manifold assemblies with brass bodies incorporating ‘Tectite Classic’ push-fit fittings for use with either copper pipe (manufactured to EN1057), PEX pipe (manufactured to BS7291-3:2010) or PB pipe (manufactured to BS7291-2). Maximum working temperature and pressure: Use with copper pipe: 16.0 bar @ 30°C, 10.0 bar @ 65°C & 6.0 bar @ 95°C. Use with PEX & Polybutylene: 12.0 bar @ 20°C, 6.0 bar @ 65°C & 3.0 bar @ 92°C.
Non-metallic materials and components comply with BS6920 at See description °C
6300E7 series of nickel plated brass manifolds and 6300R8 series of chromium plated brass manifolds with two, three or four outlets, for use with copper pipe (manufactured to EN1057). The products incorporate a screw down isolation valve at each port. Maximum working pressure 6.0 bar. Maximum operating temperature 85°C.
Range of air release valves with blue epoxy coated ductile iron bodies, EPDM O-rings, seats and stainless-steel floats. Maximum working pressure 16.0 bar.
Non-metallic materials and components comply with BS6920 at 80°C
Range of wall mounted, manual blending shower mixers with (brass bodies - various finishes), incorporating a ceramic cartridge headwork and single lever operating member. The shower outlet incorporates an approved check valve cartridge, however, the complete product has not been fully tested to demonstrate it provides backflow protection. Maximum working pressure 10.0 Bar
Non-metallic materials and components comply with BS6920 at 60°C
Range of wall mounted, concealed, thermostatic mixing vales with brass bodies and chrome plated trim sets, incorporating one or two quarter turn ceramic disc headworks with Single Lever operating members. Temperature is controlled independently via a thermostatic cartridge with various operating members (see model) which incorporates a manual override button. Both inlets incorporate an approved check valve cartridge, however, the complete product has not been fully tested to demonstrate it provides backflow protection. Maximum working pressure 6.0 bar. Maximum operating temperature 85°C.
Wall mounted, concealed, thermostatic shower valve with a brass body (chrome trim set) incorporating a two-way ceramic disc diverter controlling the flow from shower handset arrangement to a secondary outlet with a dome type operating member. The temperature is controlled independently via a thermostatic cartridge with a dome type operating member that incorporates a manual override button. The product incorporates single check valve cartridges, however, the complete product has not been fully tested to demonstrate backflow protection. Maximum working pressure 10.0 Bar.
Non-metallic materials and components comply with BS6920 at 85°C
Page 197 of 522
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.
