JRGUMAT JRG3410 thermostatic mixing valve is a gunmetal-bodied, three-way thermostatic mixing valve designed to provide accurate and stable mixed water temperatures without the need for external power. Using an integral thermostatic element, the valve continuously modulates hot and cold water flows to maintain the selected outlet temperature, ensuring reliable performance and user safety.
Designed for central hot water systems, the JRGUMAT delivers high control accuracy and temperature stability across a wide range of operating conditions. It is suitable for residential, healthcare, aged care, hospitality, sports, commercial, and industrial applications where controlled mixed water temperatures are required. The valve may also be used as a thermal switching device and for over-temperature protection in systems incorporating renewable or alternative heat sources such as solar, biomass, wood, or pellet heating.
To ensure optimal performance, the hot water supply should be at least 5 K above the desired mixed water temperature, and balanced hydraulic conditions should be maintained at the hot and cold water inlets.
Features:
- Three-way thermostatic mixing valve.
- Gunmetal body construction for durability and corrosion resistance.
- Delivers constant mixed water temperature.
- High control accuracy for stable system performance.
- Operates without external power or auxiliary energy.
- Provides scald protection and improved user safety.
- Suitable for use as a thermal switching valve.
- Compatible with conventional and renewable heating systems.
- Energy-efficient operation through precise temperature control.
- Supplied with 1x union connection for the recirculation port to accept return water at system temperature, reducing unnecessary reheating and improving energy efficiency.
Applications - Suitable for domestic hot water systems in apartment buildings, hospitals, aged care facilities, hotels, sports facilities, commercial buildings, and industrial applications where stable mixed water temperatures, user safety, and energy efficiency are critical design requirements.
