AT504285B1 - METHOD FOR OPERATING A FLOW HEATER WITH MULTIPLE ZAPFSTELLEN - Google Patents

Description

2 AT 504 285 B1

The invention relates to a method for operating a water heater with multiple taps.

From AT 409 572 B an electric instantaneous water heater is known to which several tapping points are connected. At each tap there is a radio remote control to which the setpoint temperature can be set. The setpoint temperature is changed by pressing a signal button on one of the remote controls. If water is tapped alternately at several taps, the respective button must be pressed to change the temperature.

From DE 37 01 832 A1 a hot water supply system with several tapping points is known. The taps open into electrically operated valves. When tapping the electric valve must be actuated. This triggers a corresponding signal in the water heater, after which the water heater adjusts the outlet temperature to the target temperature of the individual tap. However, this has the disadvantage that the taps must be provided with an electronic valve, which is not the case in normal households.

The invention has for its object to provide a method for operating a water heater with multiple taps, where individually for each tapping point of the water heater provides the appropriate temperature.

According to the invention this is achieved according to the features of claim 1, characterized in that there are sensors in the supply line to the taps, which detect a tap and send a corresponding signal to the water heater. This adjusts the set outlet temperature to the temperature desired individually at the tap. Advantageous embodiments result from the features of the dependent claims.

The volume flow can be measured in a simple embodiment by means of flow meter with impeller. There is the possibility that the flow meter with impeller produces electricity at the same time. By means of this power production, the data transfer from the flow meter to the flow heater can be done, if necessary - but not necessarily - can here additionally an accumulator, which energy caching can be used. Since only small amounts of electrical power are required for data transmission, a capacitor can also be sufficient as energy storage.

The data transmission can be sent via electrical lines, via a radio transmitter, which is connected directly to the volume flow meter or via a remote control, which is arranged at the tap to specify the outlet temperature.

The invention will now be explained in detail with reference to FIG.

The FIGURE shows an electrical instantaneous water heater 1 with a controller 2 and a receiver 3 connected to the controller 2. Furthermore, an input device 12 is located in the instantaneous water heater 1. A cold water pipe 14 opens into the electric instantaneous water heater 1. A hot water pipe 13 leads out of the instantaneous water heater Connecting lines 15, 16, 17 to three taps 4, 5, 6. In front of the taps 4, 5, 6 are volumetric flow meter 7, 9, 10. At the volumetric flow meter 7 at the tapping point 4, a radio remote control 8 is connected. This radio remote control 8 is in communication with the receiver 3 of the instantaneous water heater 1. The volume flow meter 9 at the tap 5 has an integrated radio transmitter, which is in communication with the receiver 3 of the instantaneous water heater 1. The volumetric flow meter 10 of the tap 6 is connected directly to the control unit 2 via a data line 11.

The target temperature of the tapping point 4 can be entered via the remote control 8 and forwarded via radio to the receiver 3. The target temperature of the tapping point 5 is over

Claims (4)

3 AT 504 285 B1, the input device 12 at the water heater 1 specified. Also, the target temperature of the tap 6 is set via the input device 12 to the water heater 1. It is also possible to enter the temperature of the tapping point 4 - alternatively to the input via the radio remote control 8 - at the input device 12. If the valve is opened at the tapping point 4, the volume flow meter 7 registers this. The remote control 8, which is connected to the volumetric flow meter 7, gives a corresponding signal to the receiver 3 of the water heater 1. Thereafter, the controller 2, the water heater 1 such that the outlet temperature of the water, which via the hot water pipe 13 to the tapping point 4th flows, has the corresponding target temperature. If the next dispensing operation is started at tapping point 5, the volume flow meter 9 registers a volume flow which it forwards via the radio transmitter of the volume flow meter 9 to the receiver 3. The water heater 1 is now the outlet temperature to the tapping point 5 associated setpoint temperature. The same applies to the tapping point 6, in which case the signal of the water tapping takes place via the data line 11. While the remote control 8 has its own power supply and the volumetric flow meter 10 due to the direct connection to the controller 2 requires no power supply, the radio transmitter of the volumetric flow meter 9 must be equipped with a power supply. These may be batteries or accumulators or their own voltage generation, for example in the form of an impeller in the connecting line 16. If water is tapped at several taps at the same time, then the principle known from the prior art applies that the tapping point, which first sends a signal, specifies the desired temperature. However, if the first point has given a temperature above the scalding temperature and a subsequent tap point is at a temperature below the scalding temperature of 38 ° C, then the lower temperature will be used as the default temperature to scald at the corresponding tap to prevent a consumer. If a tapping point does not have a corresponding signal generator, the water is either set to a specified standard temperature or the last tapping temperature. Instead of a continuous flow heater with variable heating power and a hot water tank with downstream electronic mixing valve for adjusting the outlet temperature can be used. 1. A method for operating a water heater (1) with at least two taps (4, 5, 6), wherein at least two temperature settings for adjusting the outlet temperature of the water heater (1) on the water heater (1) or remote controls (8) are present , characterized in that in the connecting line (15, 16, 17) of the water heater (1) to at least one tap (4, 5, 6) each have a device for detecting a volume flow (7, 9, 10) is present, the device for detecting a volume flow (7, 9, 10) with means for data transmission to the water heater (1) is provided and in the case of the presence of a volume flow through this device for detecting a volume flow (7, 9, 10), a corresponding signal indicating the presence a water tap and the corresponding device for detecting a volume flow (7, 9, 10), is sent to the flow heater (1) and the water heater ( 1) selects a corresponding temperature specification as set temperature for the outlet temperature of the water heater (1) according to the signal. 4 AT 504 285 B1 2. A method for operating a water heater (1) according to claim 1, characterized in that the device for detecting a volume flow (7, 9, 10) is a flow meter with impeller. 3. A method for operating a water heater (1) according to claim 2, characterized in that the flow meter with impeller simultaneously produces electricity, which is preferably used for data transmission to the water heater (1). 4. A method for operating a water heater (1) according to one of claims 1 to 3, characterized in that the data transmission via an electrical line (11) connected to the device for detecting a volume flow (9) radio transmitter and / or via a with the device for detecting a volume flow (7) connected remote control (8) for specifying the outlet temperature. For this purpose 1 sheet of drawings