DE10201396A1 - Thermally disinfecting hot water installation tanks with minimum switching requirements has three way valve directing flow of stratified tank into solar tank - Google Patents

Abstract

The solar tank (20) has a cold water inlet (20.1) and warm water outlet (20.2) into the stratified tank (10) inlet (10.1) and a thermostat (11) controls a three way valve (17) to feed the heat exchanger output back to the solar tank.

Description

The invention relates to a hot water system with a solar storage and a stratified storage tank, in which cold water can be supplied to the solar storage tank and Hot water for the stratified storage tank is removable and at which Stratified charge accumulator a series connection of charge pump, backflow preventer and secondary heat exchanger is connected in parallel as a charging circuit.

State of the art

These known hot water systems are used for thermal disinfection the storage content via a circulation pump with backflow preventer circulated. The circuitry involved, in particular through the use a circulation pump considerably.

It is an object of the invention in a hot water system at the beginning mentioned type a thermal disinfection of both the solar storage and to execute the stratified storage and still the Keep circuitry small.

Advantages of the invention

This object is achieved according to the invention in that for disinfection of solar storage and stratified charge storage while maintaining the Charging circuit is part of the hot water delivered by the secondary heat exchanger as long as it can be fed to the cold water inlet of the solar storage tank, up to one Temperature sensor of the stratified storage tank a predetermined Disinfection temperature is reached.

The supply of part of the output from the secondary heat exchanger Hot water to the solar storage tank also receives it in disinfection mode Content and can be achieved with a simple switch, so that a circulation pump is unnecessary.

It is provided that the part of the secondary heat exchanger in the Disinfection mode dispensed hot water via a Backflow preventer can be fed to the cold water inlet of the solar storage, then the Cold water supply and hot water supply in the disinfection operation on Cold water input of the solar storage decoupled.

The hot water system is switched to disinfection mode in a simple way that the hot water outlet of the Secondary heat exchanger via a throttle with the upper connection and the Charge pump are connected to the lower connection of the stratified charge accumulator, at which the hot water output of the solar storage tank is switched on, and that the hot water outlet of the secondary heat exchanger via a Three-way valve with the upper connection of the stratified storage tank and over the Backflow preventer with the cold water inlet of the solar storage is connected, these connections only switched in the disinfection mode are.

It can be provided that the disinfection operation by means of a Timer can be specified, which an electrically controllable three-way valve on and switches off to repeat the disinfection at predefinable time intervals perform.

According to one embodiment, disinfection is initiated in that the time switch changes the temperature specification for the system control and that the temperature at the temperature sensor of the stratified storage tank is too low the afterheating is initiated until the specified disinfection temperature is reached.

The switch back to hot water operation is made possible in that Hot water operation the three-way valve is off, and the connections to the solar storage and to the stratified storage and that the Then the charge circuit of the switch load memory is only via the choke and the open one Path of the three-way valve leads.

drawing

The invention is illustrated by means of one in the drawings Embodiment explained in more detail. Show it;

Fig. 1 in the basic circuit diagram of a hot water supply with solar and storage layer load memory which contains a disinfecting device according to the invention,

Fig. 2 shows the three-way valve of Fig. 1 in "normal" stratified operation and

Fig. 3 shows the three-way valve of Fig. 1 in the on position of the disinfection operation.

embodiment

As the principle diagram of Fig. 1 shows, the basic structure of the hot water system is maintained.

The stratified charge store 10 with the lower connection 10.1 and the upper connection 10.2 is charged via a charging circuit known per se. The charging circuit consists of a series connection, starting from the lower connection 10.1 , of a charging pump 15 , a backflow preventer 12 and a secondary heat exchanger 16 , the input 16.1 of which with the backflow preventer 12 and the hot water output 16.1 of which via a throttle 13 to the upper connection 10.2 of the stratified storage tank 10 leads. The hot water WW is taken from the stratified storage tank 10 at a special connection 10.3 .

The hot water system further comprises a solar storage 20 , which is fed to a cold water connection 20.1 cold water KW. The heated hot water WW is fed to the lower connection 10.1 of the stratified storage tank 10 via the hot water outlet 20.2 . These parts of the hot water system work in hot water operation in a known manner, a temperature sensor 11 monitoring the temperature of the storage content of the stratified storage tank 10 and emitting control signals for the system control for controlling and regulating the heat generator and the charging circuit.

This known hot water system is supplemented by a simple type of disinfection device. The throttle 13 is assigned a three-way valve 17 , which is switched on in the disinfection mode and switches connections from the hot water outlet 16.2 of the secondary hot water exchanger 16 to the upper connection 10.2 of the stratified charge storage device 10 and via a backflow preventer 18 to the cold water connection 20.1 of the solar storage device 20 . In this way, both stores are heated up in parallel, the temperature sensor 11 again monitoring the temperature. Fig. 3 shows this switching position of the three-way valve 17 schematically.

A timer, not shown, controls the system control to initiate the disinfection operation at predetermined time intervals. The three-way valve 17 is switched on. The system control sets the disinfection temperature of e.g. B. 70 ° C solid. The normal temperature at the temperature sensor 11 is, for. B. selected by 60 °. Since the disinfection temperature is not available when the disinfection mode is started, after-heating is initiated via the system control until the temperature sensor 1 l indicates that the disinfection temperature has been reached. When the three-way valve 17 is switched on, a common circuit is connected via the solar accumulator 20 and the stratified charge accumulator 10 , which circuit is charged to the disinfection temperature. The charge circuit of the stratified charge store 10 can be maintained. This parallel operation is marked by the arrows shown in FIGS. 1 and 3.

At the end of the disinfection operation, the three-way valve 17 is switched off via the temperature sensor 11 and the system control. It interrupts the connections from the hot water outlet 16.2 of the secondary heat exchanger 16 to the upper connection 10.2 of the stratified storage tank 10 and to the backflow preventer 18 , as shown in FIG. 2. The hot water system thus returns to the hot water mode by receiving the switchover command for a new disinfection mode via the time switch.

The three-way valve 17 can be controlled both thermally and electrically. The thermal drive is housed in the three-way valve 17 and requires no further control. Alternatively, the three-way valve can also be controlled electrically.

Claims (6)

1.Hot water system with a solar store and a stratified charge store, in which cold water can be supplied to the solar store and hot water can be removed for the stratified charge store and in which the stratified charge store has a series circuit comprising a charge pump, backflow preventer and secondary heat exchanger connected in parallel as a charging circuit, characterized in that for disinfection of solar storage ( 20 ) and stratified storage ( 10 ) while maintaining the charging circuit, part of the hot water delivered by the secondary heat exchanger ( 16 ) as long as the cold water input ( 20.1 ) of the solar storage ( 20 ) can be supplied until at a temperature sensor ( 11 ) Stratified storage ( 10 ) a predetermined disinfection temperature is reached. 2. Hot water system according to claim 1, characterized in that the part of the hot water discharged from the secondary heat exchanger ( 16 ) in the disinfection mode can be fed via a backflow preventer ( 18 ) to the cold water inlet ( 20.1 ) of the solar storage tank ( 20 ). 3. Hot water system according to claim 1 or 2, characterized in
that the hot water outlet ( 16.2 ) of the secondary heat exchanger ( 16 ) is connected via a throttle ( 13 ) to the upper connection ( 10.2 ) and the charge pump ( 15 ) to the lower connection ( 10.1 ) of the stratified storage tank ( 10 ) which also the hot water output ( 20.2 ) of the solar storage ( 20 ) is switched on, and
that the hot water outlet ( 16.2 ) of the secondary heat exchanger ( 16 ) via a three-way valve ( 17 ) with the upper connection ( 10.2 ) of the stratified tank ( 10 ) and via the backflow preventer ( 18 ) with the cold water inlet ( 20.1 ) of the solar tank ( 20 ) is connected, these connections being switched only in the disinfection operation. 4. Hot water system according to one of claims 1 to 3, characterized in that the disinfection operation can be predetermined by means of a timer which switches a thermally or electrically controllable three-way valve ( 17 ) on and off. 5. Hot water system according to claim 4, characterized in
that the time switch changes the temperature specification for the system control and
that the too low temperature (e.g. 60 ° C) at the temperature sensor ( 11 ) of the stratified storage tank ( 10 ) causes the after-heating until the specified disinfection temperature (e.g. 70 ° C) is reached. 6. Hot water system according to one of claims 1 to 5, characterized in that the three-way valve ( 17 ) is switched off in hot water operation, and interrupts the connections to the solar store ( 20 ) and to the stratified charge store ( 10 ).