Inlet control group consisting of an in-line pressure reducing valve (adjustable pressure - see model) and a pre-set expansion relief valve (pre-set pressure - see model) housed in a DZR brass body with an EPDM rubber diaphragm. The product incorporates a check valve cartridge, verified by test (suitable for backflow protection against Fluid Category 2). Compression connection to be used with copper pipe EN1057 only. Maximum supply pressure 10.0 bar. Maximum operating temperature 40°C.
Range of pilot operated, pressure reducing valves with blue epoxy coated ductile iron bodies, stainless steel filter, EPDM ‘O’-rings and diaphragm. The valve has an adjustable pressure reducing facility controlled via a pilot valve, with auxiliary components including stainless steel tubing and fittings, and stainless-steel spherical valves. Maximum inlet supply pressure 16.0 bar. Outlet pressure setting is adjustable in the range of 1.0 - 12.0 bar.
Non-metallic materials and components comply with BS6920 at 60°C
Range of pre-set pressure relief valves (set at 3.0 bar) with nylon bodies, EPDM diaphragms and ‘O’-rings.
Non-metallic materials and components comply with BS6920 at 85°C
Range of latching solenoid valves with brass bodies, EPDM diaphragms and ‘O’-rings.. Maximum working pressure 10.0 Bar.
Non-metallic materials and components comply with BS6920 at 70°C
Range of normally closed solenoid valves with plastic bodies, EPDM ‘O’-rings and diaphragm. The inlet incorporates a combined plastic filter and stainless-steel strainer. Maximum working pressure 10.0 bar. Maximum operating temperature 85°C.
Range of solenoid valves with plastic bodies and silicone membrane. Maximum working pressure 8.0 Bar. Maximum operating temperature 65°C.
Non-metallic materials and components comply with BS6920 at 65°C
Range of spherical valves with nickel plated brass bodies and brass balls, incorporating PTFE washers. R950W models are lever operated and R951W models have a butterfly operating member. Maximum working pressure is either 42.0 bar (up to and including ¾”) or 35.0 bar (up to and including 2”). Maximum operating temperature 85°C.
Non-metallic materials and components comply with BS6920 at 85°C
Range of lever operated, full bore spherical valves with brass bodies (brushed chrome) and chrome plated brass balls and a range of different operating members. Sizes ¼” to ½” have a maximum working pressure of 64.0 bar. Sizes ¾” to 2½” have a maximum working pressure of 40.0 bar. Cold water use only.
Range of stainless-steel spherical valves, incorporating a stainless-steel ball, PTFE seats and EPDM ‘O’-rings with single lever operating members. Maximum working pressure 63.0 Bar. Maximum operating temperature 23.0°C
“Ballofix®Lock” range of in-line hex key operated spherical valves with PTFE seals and EPDM ‘O’-rings. 3399300 & 3499300 models have a brass body. 3599300, 37199300 & 38199300 models have a DZR brass body. All models have a DZR brass ball (chromium plated). Maximum working pressures: 3399300, 3499300 and 3599300 models are 16.0 bar. 37199300 and 38199300 models are 25.0 bar. Maximum operating temperature 95°C.
‘3029’ range of lever operated spherical valves with chromium plated brass bodies and balls, incorporating PTFE seats and EPDM ‘O’-rings. Maximum working pressure 25.0 bar. Maximum operating temperature 99°C.
Range of bronze spherical valves, incorporating chrome plated brass balls, PTFE seats and EPDM O-rings. Model (BW-Q01) incorporates a single lever operating member. Model (BW-Q01B) incorporates a butterfly type operating member. Maximum working pressure 16 bar. Maximum operating temperature 85°C
Range of resilient seated gate valves with cast iron bodies (blue epoxy coated), EPDM coated cast iron wedges and a handwheel operating member. Maximum working pressure 16.0 bar.
Non-metallic materials and components comply with BS6920 at 85°C
Range of gate valves with a non-rising spindle with a handwheel operating member. All models have brass body and brass wedge. For use with copper pipe (manufactured to EN1057). Maximum working pressure 16.0 bar.
Non-metallic materials and components comply with BS6920 at 85°C
Range of cast iron gate valves with blue epoxy coating, EPDM coated disc, PTFE gasket and EPDM seals. The valves are operated via a non-rising spindle headwork with a hand wheel operating member. Maximum working pressure 16.0 bar. Maximum operating temperature 85°C.
Range of brass and DZR brass stopcock incorporating EPDM and PTFE washers. Compression connections, to be used with copper pipe EN1057 only. Maximum working pressure 16.0 bar.
Non-metallic materials and components comply with BS6920 at 85°C
Range of unvented monobloc groups consisting of an in-line pressure reducing valve (PRV) (adjustable between 2.7 and 3.3 bar or 3.2 and 3.8 bar - see model) and a pre-set expansion relief valve (SRV) (pre-set at either 4.5, 4.75, 5.0, 6.0 or 8.0 bar - see model) housed in a DZR brass body with an EPDM rubber diaphragm. The product incorporates a check valve cartridge, verified by test (suitable for backflow protection against Fluid Category 2). The expansion relief valve is fitted with a rotary type easing gear and the products are for use with copper pipe (manufactured to EN1057). Maximum inlet supply pressure 10.0 bar. Maximum operating temperature 85°C.
Range of commercial, salt regenerated, electronically controlled ion exchange water softeners. Maximum working pressure 7.0 bar. Cold water use only.
Non-metallic materials and components comply with BS6920 at Cold water use only°C
'POM-020 Black'. Black coloured, injection moulded POM material. For use with water up to 85°C.
‘X086 Ceramic Dome’. Grey coloured, hydraulically pressed ceramic dome component. For use with water up to 23°C.
Page 201 of 390
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.
