Range of pressure sensors with stainless steel bodies. Models consist of a sensor and male threaded end. Maximum working pressure: See Models. Maximum operating temperature 90°C.
Drain off cock with a DZR brass body, non-rising spindle headwork and EPDM seals and washers. Maximum working pressure 16.0 bar. Maximum operating temperature 85°C.
Range of pillar taps (chrome plated brass bodies), incorporating non-rising spindle headworks with dome type operating members. The spout outlets incorporate plastic flow straighteners. The products are supplied with metal backnuts. Maximum working pressure 10.0 bar. Maximum operating temperature 65°C.
Range of pillar taps with brass bodies (chromium plated) incorporating either a quarter turn ceramic disc headworks with single lever operating members (TAP9013 model) or non-rising spindle headwork with dome type operating members (TAP1118 model). The spout outlets incorporate a plastic flow straingtener. The products are supplied with metal backnuts. Maximum working pressure 5.5 bar. Maximum operating temperature 70°C.
Range of pillar taps (chrome plated brass bodies), incorporating non-rising spindle headworks with dome type operating members. The spout outlets incorporate plastic flow straighteners. The products are supplied with metal backnuts. Maximum working pressure 10.0 bar. Maximum operating temperature 65°C.
Range of Single Layer PPRCT Solid Pipes (SDR7.4) comprising of green coloured PPRCT material. Not approved for use with any fittings. Maximum working pressure 23.4 bar. Cold water above ground use only.
PVC flexible hose assembly for use with washing machines. Maximum working pressure 10.0 Bar. Cold water use only – not for wholesome water use.
Range of stainless steel or polymeric braided, PERT and LDPE lined flexible hose assemblies with EPDM O-rings. Available with a variety of end connections for each size and model. Compression connection to be used with copper pipe (manufactured to EN1057). Maximum working pressure 10.0 bar. Maximum operating temperature 85°C.
Range of stainless steel over braided, PEX lined flexible hoses, incorporating EPDM or fibre washers. Maximum working pressure: 6.0 bar. Maximum operating temperature: 65°C.
Range of stainless steel or nylon braided, PEX lined flexible hose assemblies with various brass end connections. Maximum working pressure 10.0 Bar. Maximum operating temperature 85 °C.
Stainless steel braided hose incorporating an EPDM liner and NBR ‘O’-rings. Maximum working pressure 10.0 bar. Maximum operating temperature 85°C.
Shower hose with a PVC liner and stainless steel interlocked outer casing. Maximum operating temperature 65°C Open outlet use only.
Range of stainless steel, stainless steel with nylon or nylon braided, EPDM lined hose assemblies. Some models incorporate servicing valves. Maximum working pressure 10.0 bar. Maximum operating temperature 85°C.
Range of PVC outer layer shower hoses with a PVC internal layer and EPDM washers. Open outlet use only. Maximum operating temperature:60C
Range of stainless-steel braided EPDM lined flexible hose assemblies with EPDM seals, available with a variety of end connections. Maximum working pressure: 6.0 bar @ 65°C Maximum working pressure: 12.0 bar @ 20°C
Range of ‘Ridgeline’ stainless steel flexible connectors. Maximum working pressure 6.0 bar. Maximum operating temperature 80°C.
temperature and pressure relief valve set at 7.0 bar@90˚C. A safety kit (manifold) consisting of a check valve cartridge (verified by test, suitable for backflow protection against Fluid category 2) strainer, an expansion relief valve set at 6.0 bar and pressure reducing valve set at 3.0 bar. A tundish, expansion vessel and a filling loop assembly, incorporating a stainless steel braided EPDM lined flexible hose, brass bodied isolation valve and a DZR brass non-verifiable double check valve assembly that incorporates an isolation valve. Maximum working pressures: Secondary circuit 5.5 bar. Primary circuit 3.0 bar Maximum operating temperature 90.0°C
Mitsubishi “ECODAN” EHPT20X– MEHEW indirectly heated stainless-steel storage cylinder. The secondary circuit is factory fitted with a temperature and pressure relief valve set at 7.0 bar and 90˚C. The product is supplied with a safety kit (manifold) consisting of a single check valve cartridge (verified by test, suitable for backflow protection against Fluid Category 2), strainer, a pressure relief valve set at 6.0 bar and a pressure reducing valve set at 3.5 bar. The product is also supplied with a tundish, an expansion vessel and a filling loop assembly, consisting of a stainless-steel braided EPDM lined flexible hose, a lever operated brass spherical valve and a DZR brass double check valve assembly (suitable for backflow protection against Fluid Category 3) that incorporates a lever operated spherical valve Maximum working pressures: Secondary: 5.5 Bar Primary/CH circuit: 2.5 Bar Maximum operating temperature 75.0°C
Range of vertical cased and insulated direct and indirect unvented stainless steel hot water storage cylinders. Fitted with a Caleffi 309463 GLD temperature and pressure relief valve sat at 6 bar & 90°C, and supplied with an inlet control group consisting of in-line pressure reducing valve (Caleffi set at 3 bar) and pressure relief valve (Caleffi CWIC200055) set at 4.5 bar, and incorporates a stainless-steel mesh and an approved check valve cartridge (verified by test suitable for backflow protection against Fluid Category 2), expansion vessel and filling loop. Maximum working pressure 4.4 bar. Maximum operating temperature 99°C.
Range of wall mounted, manually operated shower valves (brass bodies – various finishes) Incorporating a ceramic cartridge headwork with a single lever operating member. The shower outlet incorporates a single check valve cartridge, however, the complete assembly has not been tested to demonstrate it provides suitable backflow protection. Maximum working pressure 10.0 Bar. Maximum operating temperature 60.0°C.
Page 552 of 556
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.
