HERZ dynamic thermostatic valve
The radiator valve of the future
In the dynamic world of heating control, HERZ proudly presents the radiator valve of the future - HERZ Dynamic Thermostatic Valve. This valve, which is mounted directly on radiators, skilfully combines the tried and tested functionality of a classic thermostatic valve with a differential pressure controller in one housing. The integrated differential pressure controller ensures that the required amount of water is available to each radiator. The combination of these two crucial functions is the easiest way to achieve an efficient heat supply.
The integrated differential pressure controller enables the HERZ dynamic thermostatic valve to keep the flow rate at the radiator constant under changing pressure conditions. Pressure fluctuations caused by the opening or closing of other radiators in the system are regulated completely automatically. A decisive advantage: neither system changes or system extensions require readjustment or a change to the setting on the dynamic thermostatic valve, which minimises the effort required for hydronic balancing.
In combination with the HERZ thermostatic heads, the tried and tested HERZ thermostatic valve insert provides highly efficient and reliable room temperature control. Precision, accuracy and efficiency meet the high expectations of a HERZ thermostatic valve.
The HERZ dynamic thermostatic valve offers a flexible solution for different areas of application in the angle version, straight-through version and reverse angle version. The control of flow rates from 10 l/h to 120 l/h and the maximum differential pressure of 60 kPa enable a wide range of applications. HERZ dynamic thermostatic valve will be available from April 2024 in the angle and straight-through versions in DN 15, followed by the reverse angle version from Autmn 2024.
Benefits
- Optimum energy-efficient room temperature control with HERZ thermostatic heads
- Precise flow control independent of differential pressure
- No readjustment effort for system changes
- Automatic mode of operation
© 2024. HERZ
