Summary: 200mm Square Head - Thermostatic Mixer Shower Kit
Smart edges, sharp contours and the beautiful chrome detailing make our 200mm Square Shower Head look delightfully modern. It is also fitted with high quality Vernet thermostatic control which is enabled with automatic shut down in case the cold water pressure fails, you can be assured that no water above 42 degree ever leaves your shower. Neoperl check valves ensure that water only flows in one direction preventing any backward flow. To make this more practical for you, the whole kit is covered by an astounding free 10 year warranty.
Product Specification
SKU: | SS9120 |
Mixer Height: | 210mm |
Mixer Width: | 120mm |
Head Diameter: | 200mm |
Projection Of Arm: | 400mm |
Mixer Material: | Chrome plated solid brass |
Head Material: | Chrome Plated Plastic |
Outlets / Diverter Style: | 1 Way |
Head Style: | Square |
Shower Head Fitting: | Wall Mounted |
Shower Arm Material: | Chrome plated solid brass |
Minimum Pressure: | 0.2 BAR |
Recommended Pressure: | 1 to 3 BAR |
Flow Rate (at Minimum Pressure): | 2.2 L/min |
Flow Rate (at Optimal Pressure): | 16 L/min |
Accreditations & Testing
• WRAS approved flow cartridge |
Additional Information
Includes: | Shower Arm (SA24) |
Shower Head (SH4103) | |
Concealed Shower Mixer (SM525) |
Please Note:
Working Requirements
Our thermostatic showers work on water systems that produce a minimum of 0.2 bar water pressure. This can be achieved by using one of the following systems:
- Combination boiler systems
- Gravity fed systems (only with a pump)
- Megaflow system
- Pumped hot water systems
- Un-vented hot water systems
- Standard pressurized hot water cylinder type systems
Temperature control cartridge: The included VERNET thermostatic control valve has its temperature pre-set at a maximum of 42 degree for extra safety. There is also an automatic shutdown function if cold water pressure should suddenly fail.
Check Valves: Neoperl check valves are included, which permit water to merely flow in one direction and prevent unwanted backflow of water in the opposite direction.