Description

Compatible with rJET / rSYS 2x4 RH, 2x4 LT, 3x2 RR / LR and 2x3 RR / LR products in the light version (heavy-duty versions require item no. 001 109 - ST DN25s AD100 P60 RR 5)

Performance data

Description

For shutting off the upper and lower chamber of rCOL DN50 two- and three-chamber manifolds and rSTOR R2 buffer cylinders

Description

For actuating ball valves KuHV DN32 and KuH DN40 and DN50

Description

For constant control of the flow temperature with protection against condensation for calorific value boilers on buffer storage tanks (precise top loading) and prevention of cooling down of the buffer hot zone during pump run-on

Performance data

Description

For discharging a buffer For a fresh water station with effective use of the medium buffer volume - buffer hotter faster at the top and colder for longer at the bottom -

Performance data

Description

For discharging a buffer For a fresh water station with effective use of the medium buffer volume - buffer hotter faster at the top and colder for longer at the bottom -

Performance data

Description

Three-point controller with fixed setpoint for controlling a mixer motor

Description

Pump ball valve union set DN25s G1½(i)×Rp1

Description

For automatic hydronic balancing of individual heat exchangers such as domestic hot water storage tanks, air heaters, swimming pool heat exchangers and ventilation and air conditioning systems.

Performance data

Description

For automatic, hydraulic balancing of individual heat exchangers such as single-pipe heating trains, radiant ceiling panels and swimming pool heat exchangers. Not suitable for air heaters and ventilation systems due to inertia.

Performance data

Description

For optimum feed-in to buffer storage tanks in two zones from sources with fluctuating temperatures such as solar or fresh water modules.

Performance data

Description

For connecting an rSTOR to a single pipe with thermosiphon

Description

For optimum feed-in to buffer storage tanks in two zones from sources with fluctuating temperatures such as solar or fresh water modules.

Performance data

Description

For quick and easy installation of temperature sensors on steel buffer tanks

Description

Accessories, e.g. for direct connection of a valve with Eurocone to the return collector of an underfloor heating system with Eurocone

Description

For automatic hydronic balancing of individual heat exchangers such as domestic hot water storage tanks, air heaters, swimming pool heat exchangers and ventilation and air conditioning systems.

Performance data

Description

Two-part EPP-BOX for insulating ball valves DN32 (item no.: 000 139)

Description

For automatic hydronic balancing of individual heat exchangers such as domestic hot water storage tanks, air heaters, swimming pool heat exchangers and ventilation and air conditioning systems.

Performance data

Description

For individual room control of floor and wall heating circuits and for hydraulic balancing of individual heat consumers.

Performance data

Description

For automatic, hydraulic balancing of individual heat exchangers such as single-pipe heating trains, radiant ceiling panels and swimming pool heat exchangers. Not suitable for air heaters and ventilation systems due to inertia.

Performance data

Description

For hydraulic balancing of individual radiators

Performance data

Description

For individual room control of floor and wall heating circuits and for hydraulic balancing of individual heat consumers.

Performance data

Description

For discharging a stratified storage tank in a mixed low temperature circuit (2nd mixing circuit) with highly efficient use of the return flow of a mixed high temperature circuit (1st mixing circuit) with the lowest possible return flow temperature

Performance data

Description

For highly efficient use of the return flow of an unmixed high temperature circuit in a mixed low temperature circuit by means of highly efficient operation of a system separation via flow control from the differential pressure of the pump in the heat generator circuit (i.e. without an additional pump in the primary circuit of the system separation!) at a condensing boiler, a stratified storage tank or a heat transfer station

Performance data

Description

For highly efficient use of the return flow from high-temperature circuits in a mixed low-temperature circuit (two or three-chamber manifold) or for highly efficient two-zone discharge of a buffer tank through a mixed circuit (three-chamber manifold)

Performance data

Description

For highly efficient two-zone discharging of a buffer cylinder in a mixed low-temperature circuit (2nd mixing circuit) by means of highly efficient operation of a system separation via flow control with highly efficient use of the return flow of a mixed high-temperature circuit (1st mixing circuit)

Performance data

Description

For highly efficient two-zone discharging of a buffer cylinder through a mixing circuit

Performance data

Description

For highly efficient use of the return flow of an unmixed high temperature circuit in a mixed low temperature circuit by means of highly efficient operation of a system separation via flow control from the differential pressure of the pump in the heat generator circuit (i.e. without an additional pump in the primary circuit of the system separation!) at a condensing boiler, a stratified storage tank or a heat transfer station

Performance data

Description

For connecting an unmixed high-temperature circuit in conjunction with a highly efficient rendeMIX heat distribution system (two or three-chamber manifold)

Performance data

Description

For highly efficient use of the return flow of an unmixed high temperature circuit in a mixed low temperature circuit at a condensing boiler, a stratified storage tank or a heat transfer station

Performance data

Description

For highly efficient two-zone discharging of a buffer cylinder through a mixing circuit

Performance data

Description

For highly efficient two-zone discharging of a buffer cylinder through a mixing circuit

Performance data

Description

For highly efficient two-zone loading of a buffer cylinder by a heat generator with minimum circulation in heating mode and with priority DHW heating

Performance data

Description

For highly efficient two-zone loading of a buffer cylinder by a heat generator with minimum circulation in heating mode and with priority DHW heating

Performance data

Description

For highly efficient use of the return flow from high-temperature circuits in a mixed low-temperature circuit (two or three-chamber manifold) or for highly efficient two-zone discharge of a buffer tank through a mixed circuit (three-chamber manifold)

Performance data

Description

For highly efficient use of the return flow from high-temperature circuits in a mixed low-temperature circuit (two or three-chamber manifold) or for highly efficient two-zone discharge of a buffer tank through a mixed circuit (three-chamber manifold)

Performance data

Description

For discharging a stratified storage tank in a mixed low temperature circuit (2nd mixing circuit) with highly efficient use of the return flow of a mixed high temperature circuit (1st mixing circuit) with the lowest possible return flow temperature

Performance data

Description

For highly efficient use of the return flow of an unmixed high temperature circuit in a mixed low temperature circuit at a condensing boiler, a stratified storage tank or a heat transfer station

Performance data

Description

For highly efficient two-zone discharging of a buffer cylinder through a mixing circuit

Performance data

Description

For highly efficient use of the return flow of an unmixed high temperature circuit in a mixed low temperature circuit at a condensing boiler, a stratified storage tank or a heat transfer station

Performance data

Description

For highly efficient two-zone loading of a buffer cylinder by a heat generator with return temperature increase as a mixing circuit

Performance data

Description

For highly efficient two-zone loading of a buffer cylinder by a heat generator with return temperature increase as a mixing circuit

Performance data

Description

For highly efficient use of the return flow of an unmixed high temperature circuit in a mixed low temperature circuit at a condensing boiler, a stratified storage tank or a heat transfer station

Performance data

Description

For highly efficient two-zone discharging of a buffer cylinder in a mixed low-temperature circuit (2nd mixing circuit) with highly efficient use of the return flow of a mixed high-temperature circuit (1st mixing circuit)

Performance data

Description

For highly efficient two-zone discharging of a buffer cylinder in a mixed low-temperature circuit (2nd mixing circuit) with highly efficient use of the return flow of a mixed high-temperature circuit (1st mixing circuit)

Performance data

Description

For highly efficient two-zone loading of a buffer cylinder by a heat generator with minimum circulation in heating mode and with priority DHW heating

Performance data

Description

For highly efficient two-zone discharging of a buffer cylinder through a mixing circuit

Performance data