Range of concealed, thermostatic blending valves with 2 or 3 shower outlets, incorporating a thermostatic cartridge controlling the temperature with a dome type operating member that incorporates a manual override button and ceramic disc diverters or quarter turn ceramic disc headworks controlling the flow with dome type operating members. The products incorporate an approved check valve cartridge; however, the complete product has not been fully tested to demonstrate it provides backflow prevention. Maximum working pressure 10.0 bar.
Non-metallic materials and components comply with BS6920 at 60°C
Range of wall mounted, two-hole, thermostatic blending valves, (chrome plated brass bodies) incorporating two detent headworks controlling the flow. The temperature is controlled independently via a thermostatic cartridge with switch type operating member that incorporates a manual override button. The product is supplied with an overhead shower, shower hose, handset and riser rail assembly. The inlets incorporate approved check valve cartridges 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 70°C
Series of wall mounted, thermostatic mixer valve with brass bodies, diverter headwork that controls flow between one, two or three outlets (see model) with various type of operating member. The temperature is controlled independently via a thermostatic cartridge operating member with a manual override button. Inlets incorporate a stainless-steel strainer and approved check valve cartridges, however, the complete product has not been fully tested to demonstrate it provides backflow protection. Maximum working pressure 5.0 bar.
Non-metallic materials and components comply with BS6920 at 55°C
Range of wall mounted, concealed, thermostatic shower valves incorporating ceramic disc diverter headworks controlling the flow with dome type operating member. The temperature is controlled independently via a thermostatic cartridge, with dome, cube or single lever operating members that also incorporate a manual override button.. The inlets incorporate a stainless steel strainers and approved check valve cartridges, however, the complete product has not been fully tested to demonstrate it provides backflow protection. Maximum working pressure 5.0 bar.
Non-metallic materials and components comply with BS6920 at 85°C
Range of wall mounted thermostatic bar shower mixers, (brass bodies - various finishes), incorporating two way diverter valve controlling the flow with dome type operating members. Temperature is controlled independently via a thermostatic cartridge with dome type operating members that incorporate a manual override button. The inlets incorporate stainless steel strainers and approved check valve cartridges, however, the complete product has not been fully tested to demonstrate it provides backflow protection. The products are supplied with a shower hose, handset and overhead shower and riser rail assembly. The handset with model RTSDEF also incorporates a flow regulator. Maximum working pressure 10 bar.
Non-metallic materials and components comply with BS6920 at 60°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
Range of wafer, lugged and flanged type butterfly valves with bronze, stainless steel or ductile iron bodies (orange epoxy coated) with bronze, stainless steel or ductile iron disc materials and EPDM seats. Maximum working pressure 16.0 Bar
Non-metallic materials and components comply with BS6920 at 50°C
Range of wafer and lug type butterfly valves incorporating blue epoxy coated ductile iron bodies, either stainless steel (SS316/SS304) or epoxy coated ductile iron discs and EPDM seat. Maximum working pressure 16.0 bar Maximum operating temperature 85°C.
Range of manually operated double regulation and commissioning valves with gunmetal bodies, incorporating a PTFE sealing ring and EPDM ‘O’- rings. Flow is controlled via a non-rising spindle headwork. Maximum working pressure 25.0 bar. Maximum operating temperature 90°C.
Range of in-line, pressure reducing valves with DZR brass bodies and stainless-steel strainers. Maximum inlet supply pressure 16.0 bar. Outlet supply pressure is adjustable within the range of 1.5 bar to 6.0 bar. Maximum operating temperature 45°C or 65°C, please refer to model.
Range of in-line adjustable pressure reducing valves, with DZR brass bodies and EPDM membrane. Maximum inlet supply pressure 16.0 bar. Outlet pressure 1.5 bar to 6.0 bar.
Non-metallic materials and components comply with BS6920 at 80°C
‘Jet 806’ range of pre-set pressure relief valves incorporating gunmetal bodies, PTFE seat and lever operated easing gear. Each valve is available with a pre-set rating of between 1.0 bar and 12.5 bar, in increments of 0.1 bar. Maximum operating temperature 95˚C.
‘Jet 806’ range of pre-set pressure relief valves incorporating gunmetal bodies, PTFE seat and lever operated easing gear. Each valve is available with a pre-set rating of between 1.0 bar and 12.5 bar, in increments of 0.1 bar. Maximum operating temperature 95˚C.
Range of normally closed, normally open or latching inline solenoid valves with brass bodies and EPDM ‘O’-rings and diaphragms. Maximum working pressure: PU225DN-03, PU225DN-04, PU225DN-08, PU225DN-12, PU225DN-14, LPU225D-03, LPU225D-04, LPU225D-08, LPU225D-12 & LPU225D-14 models - 7.0 bar. All other models - 10.0 bar. Cold water use only.
AVK series 41 range of swing gate valves with blue epoxy coated ductile iron bodies and metal to metal seal. Maximum working pressure 16.0 bar. Maximum operating temperature 85°C.
Range of press fit spherical valves with DZR brass bodies and balls. For use with copper pipe (EN1057) and stainless steel pipe (EN10312) Maximum working pressure 17.2 bar. Maximum operating temperature 100°C.
Range of press fit spherical valves with DZR brass bodies and balls. For use with copper pipe (EN1057) and stainless steel pipe (EN10312) Maximum working pressure 17.2 bar. Maximum operating temperature 100°C.
Range of pressfit connection spherical valves incorporating DZR brass bodies, PTFE seat and packing, NBR ‘O’-rings and various operating members: lever, lever lockable, T-handle and butterfly. For use with copper pipe (manufactured to BS EN 1057), stainless steel pipe (manufactured to BS EN 10312) and carbon steel pipe (ISO 4200 Groupe 1 Series 3). Maximum working pressure 16.0 bar. Maximum operating temperature 99°C.
Range of inline spherical valves, (nickel plated brass bodies), chrome plated brass balls, PTFE seats and washers with lock-shield, single lever or T-type operating members. Maximum working pressure: ¼” to 1” = 40.0 bar, 1¼” to 2” = 32.0 bar, 2½” to 3” = 25.0 bar, 4” = 20.0 bar.
Non-metallic materials and components comply with BS6920 at 85°C
Pre-piping arrangement consisting of a framework fitted with a range of spherical valves with brass bodies and balls, PTFE seats and EPDM ‘O’-rings. Maximum working pressure 10.0 bar.
Non-metallic materials and components comply with BS6920 at 85°C
Page 223 of 509
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.
