DE102015100508A1 - Domestic appliance having an interface for externally receiving a circulation medium and method for operating a domestic appliance - Google Patents

Abstract

The invention relates to a domestic appliance (100, 118) with an interface for externally receiving a circulation medium provided by at least one further household appliance (304, 306, 308, 312, 314) as cooling medium and / or for externally outputting the circulation medium to the at least one further Domestic appliance (304, 306, 308, 312, 314) as heating medium.

Description

The invention relates to a domestic appliance having an interface for externally accommodating a circulation medium, a method for operating a domestic appliance with an external circulation medium, a heat pump device and a power supply unit.

In new buildings, which are built according to current or future heat protection standards (KFW 40, passive house standard, etc.), the internal heat sources of the building play an increasingly important role. They are partly responsible for the fact that these buildings, even in temperate latitudes, increasingly have to be cooled in summer. This creates a considerable additional energy expenditure. Domestic appliances as the largest energy consumers in these residential buildings play a decisive role. Here are released in use large amounts of energy in the environment z. On the fridge, dishwasher, oven, etc.

On the other hand, within domestic appliances, sometimes relatively inefficiently, electrical energy is converted into thermal energy, most of which is at the same or similar temperature levels in the building and provided by the building services for cooling and heating the building and generating hot water.

The DE 20 2010 017 733 U1 describes a cooling device for vaccines and / or drugs, with a cooling chamber enclosing a cooling tank, a cold storage and a heat pump.

The invention has for its object to provide an improved home appliance with an interface for externally receiving a circulation medium, an improved method for operating a domestic appliance with an external circulation medium, an improved heat pump device and an improved power supply unit.

According to the invention, this problem is solved by a domestic appliance having an interface for externally receiving a circulation medium, a method for operating a household appliance with an external circulation medium, furthermore a heat pump device and a power supply unit having the features of the main claims. Advantageous embodiments and further developments of the invention will become apparent from the following subclaims.

A connection of a household appliance such. B. a cooling device to an energy network system or refrigeration system in the house allows to outsource the actual temperature or refrigeration in a central station. This can increase the energy efficiency of the system, as a central heat pump can simultaneously generate usable process heat and process cooling. An undesirable heating of the living space by the internal heat source, for example a refrigerator condenser can be reduced so advantageous.

The approach presented here can be dispensed with in domestic appliances on compressors that generate waste heat, noise and vibration in the living space. In addition to the noiseless and vibration-free operation of household appliances with the concept presented herein, there are further advantages of a reduction of internal heat sources in the home and a more efficient use of energy by the central heat pump for the simultaneous provision of process heat and cold.

A domestic appliance has an interface for externally receiving a circulation medium provided by at least one further domestic appliance and / or a heat pump device as cooling medium and / or for externally outputting the circulation medium to the at least one further domestic appliance and / or the heat pump device as heating medium.

The domestic appliance and the further domestic appliance can be household appliances used in a private household or in industry, which work with a tempered medium such as air or water, for example to cool or freeze food, or to heat food or dishes and Clean textiles with warm water. The domestic appliance and the other domestic appliance can be located in different rooms of a building. The circulation medium may be a low boiling point fluid that circulates in a closed circuit in which the domestic appliances are directly or indirectly incorporated as consumers of thermal energy from the circulation medium. Under the external recording or output of the circulation medium is to be understood that the home appliances, the circulation medium is supplied from the outside of a power supply unit and is discharged from these again outward to the power supply unit.

According to one embodiment, the circulation medium may at least temporarily have a liquid phase and / or wherein the domestic appliance is designed to guide the circulation medium at least temporarily in a liquid phase. Thus, the circulation medium in the domestic appliance, for example, can advantageously be used as a coolant.

According to one embodiment of the domestic appliance, the interface may have a first media connection and / or a second media connection. The first media port may be configured to be coupled to a flow line of an external power supply unit to supply the circulation medium to the home appliance. The second media port may be configured to be coupled to a return line of the external power supply unit to drain the circulation medium from the domestic appliance. So the home appliance can be easily integrated into a circulation of the circulation medium.

According to a further embodiment, the domestic appliance can have a tempering device which can be coupled to the interface. The tempering device can be designed to remove thermal energy from a temperature control chamber of the domestic appliance via the circulation medium from the domestic appliance. With the use of the tempering a suitable temperature can be set and held in the temperature control of the domestic appliance.

Furthermore, the domestic appliance can have a fan for moving an air volume in a temperature control room of the domestic appliance and by at least one partial area of a tempering device of the domestic appliance. By means of the fan, a uniform flow of tempering device with the air volume and a uniform distribution of the temperature-controlled air volume in the temperature control can be ensured.

Furthermore, the domestic appliance can have a temperature sensor unit for controlling a flow rate of the circulation medium through at least one partial area of a temperature control device of the household appliance and / or for controlling a power of a fan of the domestic appliance. The use of the temperature sensor unit can ensure that a setpoint temperature can be maintained in the temperature control room of the household appliance or can be quickly restored.

It is also favorable if the tempering device has a heat exchanger directly thermally coupled to a temperature control chamber of the domestic appliance. In this case, a first connection of the heat exchanger can be coupled to the first media connection or can be coupled, and a second connection of the heat exchanger can be coupled or coupled to the second media connection. Due to the spatial proximity between tempering and heat exchanger exchange of thermal energy between the temperature and the heat exchanger can be done with very low loss.

Alternatively, the tempering device may have a tempering circuit with a circulating medium circulating between a heat exchanger and a heat exchanger. In this case, a first connection of the heat exchanger can be coupled to the first media connection or can be coupled and a second connection of the heat exchanger can be coupled or coupled to the second media connection. The heat exchanger can be thermally coupled directly to a temperature control room of the household appliance. This embodiment of the concept presented herein enables an advantageous increase in the efficiency of the heat exchanger.

The tempering device may also have a compressor connected between the heat exchanger and the heat exchanger for compressing the phase change medium. In this way, an efficiency of the heat exchanger can be advantageously increased.

In particular, the domestic appliance may have a tempering space. The tempering space can be designed as a cooling space for cooling objects or a freezing space for freezing objects. With this embodiment of the domestic appliance, a shelf life of food can be extended advantageously.

A method for operating a household appliance comprises the following steps: supplying a circulation medium provided by a further domestic appliance and / or a heat pump device as a cooling medium to the domestic appliance via an interface for external reception of the circulation medium and / or;

Deriving the circulation medium from the domestic appliance to the at least one further domestic appliance and / or the heat pump device as a heating medium via an interface for external output of the circulation medium. Also by this embodiment of the invention in the form of a method, the object underlying the invention can be solved quickly and efficiently.

A heat pump device has the following features:
a heat pump;
a cold storage storage system for storing a low temperature circulation medium, a heat storage for storing the high temperature circulation medium, and a return storage, the cold storage being configured to be coupled to a supply line of a power supply unit for supplying the circulation medium to a domestic appliance Heat accumulator is designed to connect to a further flow line of the power supply unit for providing the circulation medium at least one further domestic appliance to be coupled, and the return storage is adapted to be coupled to a return line of the power supply unit for returning the circulation medium from the domestic appliance and / or the at least one other domestic appliance to the heat pump device, the heat pump coupled to the storage system or can be coupled and is designed to cool the circulation medium from the return accumulator during transfer into the cold storage and / or to heat up when transferred to the heat storage.

The heat pump device can be arranged at any distance from the above-mentioned domestic appliance. For example, the heat pump device may be located in a building outside of a room in which the domestic appliance is positioned.

According to one embodiment of the heat pump device, the cold storage may be configured to output the circulation medium at a temperature in a range between 0 ° C and 5 ° C, in particular at a temperature of 3 ° C, in the flow line. Thus, it can be ensured that the circulation medium is suitable for setting an optimum temperature in a temperature control room of a domestic appliance.

According to a further embodiment, the heat pump device may have an interface for the thermal coupling of the heat pump with a ventilation system. Thus, the heat pump device can be advantageously supplied with external energy and increased efficiency of the heat pump.

A power supply unit has the following features:
a heat pump device according to one of the previously explained embodiments;
a flow line for guiding a circulation medium from the heat pump device to a domestic appliance according to one of the embodiments explained above;
a further flow line for guiding the circulation medium from the heat pump device to at least one further domestic appliance according to one of the embodiments explained above; and
a return line for returning the circulation medium from the domestic appliance and the further domestic appliance to the heat pump device. The supply lines and the return line may be part of a centrally located in a building, bus system to power the building.

Embodiments of the invention are shown purely schematically in the drawings and will be described in more detail below. It shows

1A a schematic representation of a domestic appliance according to an embodiment of the present invention;

1B a schematic representation of a domestic appliance according to another embodiment of the present invention;

2 a flowchart of a method for operating a domestic appliance, according to an embodiment of the present invention; and

3 a schematic representation of a power supply unit according to an embodiment of the present invention.

1A shows a schematic representation of a household appliance 100 according to an embodiment of the present invention. The household appliance 100 can be used as a household appliance in a home or business. At the in 1A the embodiment shown is in the household appliance 100 around a fridge. The refrigerator 100 has a housing that has an interior 102 of the refrigerator 100 encloses. The interior 102 is in the exemplary refrigerator 100 designed as a tempering or cooling room for cooling food, drugs or chemicals.

The refrigerator 100 is positionable in a room of a building with a central power supply unit. To connect the refrigerator 100 with an energy bus of the power supply unit, this has an interface 104 for receiving a circulation medium of the power supply unit from one or more other household appliances via the power bus and / or for dispensing the circulation medium to the power bus for providing the circulation medium to the one or more other home appliances. The circulation medium is a fluid which flows through the energy supply unit and household appliances connected to it in a closed circuit in order to appropriately heat the domestic appliances according to their function. Here, a fluid is used, which evaporates at low pressure with heat and condenses again after compression to a higher pressure with heat release. For the in 1A shown exemplary refrigerator 100 The circulation medium is used in a liquid state of aggregation as a cooling medium for use. It is to the power supply unit with a temperature in a range between 0 ° C and 5 ° C, preferably with a temperature of 3 ° C, to the refrigerator 100 provided.

the interface 104 has a first media connection 106 and a second media port 108 on. The first media connection 106 is configured to be coupled to a supply line of the external power supply unit to the circulation medium as a cooling medium in the refrigerator 100 let in to the fridge 102 of the refrigerator 100 to cool by releasing thermal energy. The second media connection 108 is configured to be coupled to a return line of the external power supply unit to the circulation medium from the refrigerator 100 after the circulation medium its thermal energy to the tempering 102 dispensed and warmed up.

This in 1A shown embodiment of the refrigerator 100 has a tempering device 110 in the sense of a cooling unit. The exemplary tempering device 110 is designed to thermal energy from the temperature control room via the circulation medium 102 of the refrigerator 100 to dissipate, and includes a heat exchanger 112 and a fan 114 , In the heat exchanger 112 this is one with the interface 104 coupled air / liquid heat exchanger, which is adapted to the circulation medium thermal energy for controlling the tempering of the temperature 102 to withdraw. This is a first connection of the heat exchanger 112 with the first media connection 106 fluidly coupled and a second connection of the heat exchanger 112 with the second media connection 108 fluidly coupled. Like the illustration in 1A shows, is the with the temperature control room 102 directly thermally coupled heat exchangers 112 adjacent to the temperature control room 102 arranged.

The circulation medium is in liquid state via the first media connection 106 the tempering device 110 fed where their thermal energy for cooling the refrigerator 102 is withdrawn, and in gaseous state of aggregation via the second medium connection 108 again from the tempering device 110 and the fridge 100 led out to be fed via the central power supply unit as a heating medium another household appliance. The fan 114 is optional and adapted to an air volume in the temperature control room 102 the heat exchanger 112 feed and evenly in the temperature control room 102 to distribute.

The in 1A shown exemplary refrigerator 100 also has one of the tempering device 110 associated temperature sensor unit 116 on. The temperature sensor unit 116 includes a temperature sensor for detecting a current temperature of the refrigerator 102 representing temperature value. The temperature sensor unit 116 is configured to use the temperature value, a flow rate of the circulation medium through the heat exchanger 112 and additionally or alternatively, a performance of the fan 114 be controlled so that a constant temperature, for example in a range between 2 ° C and 8 ° C, in the tempering 102 is maintained.

1B shows in a further schematic representation of a domestic appliance according to another embodiment of the present invention. In 1B is the home appliance as a freezer 118 designed to freeze objects such as food, medicines and chemicals. In construction, the exemplary freezer 118 in 1B the same elements as the one in 1A shown refrigerator, so housing with tempering 102 , Media connections 106 . 108 as well as a tempering device 110 with assigned fan 114 and associated temperature sensor unit 116 ,

Unlike the fridge 1A includes at the in 1B shown freezer 118 the tempering device 110 in addition a closed temperature control circuit 120 , a heat exchanger 122 and a compressor 124 , The temperature control circuit 120 forms a primary cooling circuit of the freezer 118 and has a phase change medium between the heat exchanger 122 and the heat exchanger 112 circulated. In this cooling arrangement forms the heat exchanger 122 the condenser for the phase change medium and the heat exchanger 112 the evaporator for the phase change medium. The in the cooling circuit 120 between the heat exchanger 112 and the heat exchanger 122 switched compressor 124 is adapted to the phase change medium from the evaporator 112 suck in and before entering the heat exchanger 122 to condense.

In particular, in the in 1B shown exemplary freezer 118 unlike in 1A shown embodiment of the domestic appliance as a refrigerator instead of the with the tempering 102 directly thermally coupled heat exchanger 112 that of the temperature control room 102 remotely located heat exchanger 122 connected to the power bus of the central power supply system, by a fluidic coupling of a first terminal of the heat exchanger 122 with the first media connection 106 and a fluidic coupling of a second port of the heat exchanger 122 with the second media connection 108 ,

Using the primary cooling circuit 120 with the phase change medium is the inside of the freezer 118 as usual thermal energy withdrawn. This thermal energy is at the heat exchanger or condenser 122 but not delivered to the room air, but with the help of the heat exchanger 122 attributed to the energy composite system.

According to embodiments, the concept presented herein may also be used instead of the separate embodiment with a refrigerator or freezer in a home appliance combination, such as a fridge-freezer combination.

2 shows a flowchart of an embodiment of a method 200 for operating a household appliance. The procedure 200 can be used to operate in 1A shown refrigerator or the in 1B shown freezer. In a step of supplying 202 is supplied via a suitable interface with a central power supply unit provided by another household appliance circulation medium to the domestic appliance to be used there as a cooling medium. In a step of deriving 204 is the circulation medium, after it was removed by means of a heat exchanger or a heat transfer in the domestic appliance thermal energy, fed back via the interface from the domestic appliance back into the power supply unit to be supplied as a heating medium to the other domestic appliance.

3 shows a schematic representation of an energy interconnection system according to an embodiment of the present invention. The energy interconnection system can be provided in a building and has a central power supply unit 300 and various customers in the building by means of a circulation medium from the power supply unit 300 be supplied with thermal energy. As customers are in 3 an example of a refrigerator 100 , a freezer 118 , an oven 304 , a hob 306 , a clothes dryer 308 , a cold water storage tank 310 , a dishwasher 312 , a washing machine 314 and a fitting 316 shown for hot water.

The power supply unit 300 includes a heat pump device 318 and an energy bus 320 the power supply unit 300 with a flow line 322 , another supply line 324 and a return line 326 , About the power bus 320 the circulation medium is in a closed circuit of the heat pump device 318 to the customers 100 . 302 . 304 . 306 . 308 . 310 . 312 . 314 . 316 and from these back to the heat pump device 318 guided.

The heat pump device 318 includes a heat pump 328 , one with the heat pump 328 thermally coupled ventilation system 330 as well as a storage system 332 with a cold storage 334 , a return memory 336 and a heat storage 338 , The cold storage 334 designed to store the low-temperature circulation medium, the heat storage 338 is designed to store the high-temperature circulation medium, and the return storage 336 is trained to by the customers 100 . 302 . 304 . 306 . 308 . 310 . 312 . 314 . 316 to recirculate returned circulation medium. The heat pump 328 is with the storage system 332 connected and adapted to the circulation medium from the return storage 336 during transfer to the cold storage 334 cool and transfer to the heat storage 338 warm.

The supply line 322 is with the cold storage 334 fluidly coupled and 334 formed to the circulation medium as a cooling medium of the cold storage 334 to the fridge 100 and the freezer 118 to lead with a cold side 340 the power supply unit 300 are connected. The further supply line 324 is with the heat storage 338 fluidly coupled and adapted to the circulation medium as the heating medium from the heat storage 338 to the oven 304 , the hob 306 , the tumble dryer 308 , the cold water storage tank 310 , the dishwasher 312 , of the washing machine 314 and the fitting 316 to lead to the hot water, which with a warm side 342 the power supply unit 300 are connected. The return line 326 is with the return memory 336 fluidly coupled and adapted to the circulation medium of the customers 100 . 302 . 304 . 306 . 308 . 310 . 312 . 314 . 316 to the heat pump device 318 due to the thermal energy on the cold side 340 and the warm side 342 was withdrawn.

On the cold side 340 the system will do this by means of the heat pump 328 cooled circulation medium via the feed line 322 according to an embodiment with a temperature in a range of 0 ° C to 5 ° C the refrigerator 100 and the freezer 118 fed. On the warm side 342 the system will do this by means of the heat pump 328 heated circulation medium via the further supply line 324 including the cold water storage tank 310 supplied to heat the water stored in it and as hot water in the dishwasher 312 , the washing machine 314 and the fitting 316 to initiate the hot water purchase.

Using the in 3 Illustrated cooling or power supply system, inter alia, a cooling capacity is provided, which via the flow line 322 can be requested via a liquid medium, that of the central station 300 is provided as a circulation medium.

The refrigerator 100 and the freezer 118 that shown in the above 1A and 1B are executed in detail, are on the cold side 340 connected to the system. The flow temperature of the system on the cold side 340 is about 3 ° C. Using the in 1A shown water / air heat exchanger 112 of the refrigerator 100 as well as in 1B shown heat exchanger 122 of the freezer 118 becomes the medium inside the refrigerator 102 withdrawn thermal energy. The likewise in the 1A and 1B shown fan 114 ensures a flow through the heat exchanger 112 and a circulation of the air volume in the interior 102 of the refrigerator 100 or the freezer 118 , A temperature sensor controls the flow rate of the medium and the air flow of the fan 114 to ensure an optimal, consistent temperature in the interior 102 the home appliances 100 . 118 to ensure.

The interior 102 of the refrigerator 100 For example, can be cooled to 4 ° C to 5 ° C with this method. The cooling of the interior 102 of the freezer 118 to below 0 ° C through the primary circuit of the refrigeration unit of the freezer 118 can be effectively supported by the thermal connection of the primary circuit to the power bus. The medium used can be returned by means of the return line 326 back to the system center 300 be guided.

In the concept presented here for the external temperature control of household appliances 100 . 302 . 304 . 306 . 308 . 312 . 314 No large areas are needed for cooling or heat transfer. Due to existing high temperature differences between the system control center and the customers 100 . 302 . 304 . 306 . 308 . 310 . 312 . 314 . 316 High cooling and heat outputs can be transmitted.

Into the household appliances 100 . 302 . 304 . 306 . 308 . 312 . 314 integrated evaporator and capacitors, which are characterized by low efficiency, can be advantageously dispensed with.

For example, a refrigerator 100 or a freezer 118 that of an external cold source proposed here 300 is supplied, almost noiseless and vibration-free work. Only a blower 114 for air circulation in the interior 102 is in the device 100 . 118 required. Dusting of the condenser is no longer possible with the concept presented here.

In addition, in the interior 102 absorbed heat no longer to the environment, eg. B., the apartment, delivered. Accordingly, additional air conditioning measures in turn with poor efficiency, eg. As an air conditioner to promote the heat from the apartment, be waived.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• DE 202010017733 U1 [0004]

Claims (15)

Domestic appliance ( 100 ; 118 ) with an interface ( 104 ) for externally receiving one of at least one further household appliance ( 304 . 306 . 308 . 312 . 314 ) and / or a heat pump device ( 318 ) provided circulation medium as a cooling medium and / or for externally outputting the circulation medium to the at least one further domestic appliance ( 304 . 306 . 308 . 312 . 314 ) and / or the heat pump device ( 318 ) as heating medium. Domestic appliance ( 100 ; 302 ) according to claim 1, characterized in that the domestic appliance is designed to guide the circulation medium at least temporarily in a liquid phase. Domestic appliance ( 100 ; 118 ) according to one of the preceding claims, characterized in that the interface ( 104 ) a first media connection ( 106 ) and / or a second media connection ( 108 ), wherein the first media connection ( 106 ) is designed to communicate with a flow line ( 322 ) an external power supply unit ( 300 ) to connect the circulation medium to the domestic appliance ( 100 ; 118 ), and the second media connection ( 108 ) is designed to be connected to a return line ( 326 ) of the external power supply unit ( 300 ) to the circulation medium of the domestic appliance ( 100 ; 118 ). Domestic appliance ( 100 ; 118 ) according to one of the preceding claims, characterized in that the domestic appliance ( 100 ; 118 ) one with the interface ( 104 ) coupled or couplable tempering device ( 110 ), wherein the tempering device ( 110 ) is adapted to thermal energy from a temperature control room ( 102 ) of the household appliance ( 100 ; 118 ) via the circulation medium from the domestic appliance ( 100 ; 118 ) dissipate. Domestic appliance ( 100 ; 118 ) according to one of the preceding claims, characterized in that the domestic appliance ( 100 ; 118 ) a fan ( 114 ) for moving an air volume in a temperature control room ( 102 ) of the household appliance ( 100 ; 118 ) and by at least a portion of a tempering ( 110 ) of the household appliance ( 100 ; 118 ) having. Domestic appliance ( 100 ; 118 ) according to one of the preceding claims, characterized in that the domestic appliance ( 100 ; 118 ) a temperature sensor unit ( 116 ) for controlling a flow rate of the circulation medium through at least a portion of a tempering device ( 110 ) of the household appliance ( 100 ; 118 ) and / or for controlling a performance of a fan ( 114 ) of the household appliance ( 100 ; 118 ) having. Domestic appliance ( 100 ; 118 ) according to one of claims 3 to 6, characterized in that the tempering device ( 110 ) one with a temperature control room ( 102 ) of the household appliance ( 100 ; 118 ) directly thermally coupled heat exchanger ( 112 ), wherein a first connection of the heat exchanger ( 112 ) with the first media connection ( 106 ) is coupled or coupled and a second connection of the heat exchanger ( 112 ) with the second media connection ( 108 ) is coupled or can be coupled. Domestic appliance ( 100 ; 118 ) according to one of claims 3 to 6, characterized in that the tempering device ( 110 ) a temperature control circuit ( 120 ) with one between a heat exchanger ( 122 ) and a heat exchanger ( 112 ) has circulating phase change medium, wherein a first connection of the heat exchanger ( 122 ) with the first media connection ( 106 ) is coupled or can be coupled and a second connection of the heat exchanger ( 122 ) with the second media connection ( 108 ) is coupled or couplable, and wherein the heat exchanger ( 112 ) with a temperature control room ( 102 ) of the household appliance ( 100 ; 118 ) is thermally coupled directly. Domestic appliance ( 100 ; 118 ) according to claim 8, characterized in that the tempering device ( 110 ) one between the heat exchangers ( 112 ) and the heat exchanger ( 122 ) connected compressor ( 124 ) for compressing the phase change medium. Domestic appliance ( 100 ; 118 ) according to one of the preceding claims, characterized in that the household appliance has a temperature control room ( 102 ) formed as a refrigerator for cooling objects or a freezer for freezing objects. Procedure ( 200 ) for operating a domestic appliance ( 100 ; 118 ), the process ( 200 ) comprises the following steps: 202 ) one of another household appliance ( 304 . 306 . 308 . 312 . 314 ) and / or a heat pump device ( 318 ) provided circulation medium as a cooling medium to the domestic appliance ( 100 ; 118 ) via an interface ( 104 ) for externally receiving the circulation medium and / or; Derive ( 204 ) of the circulation medium from the domestic appliance ( 100 ; 118 ) to the at least one further domestic appliance ( 304 . 306 . 308 . 312 . 314 ) and / or the heat pump device ( 318 ) as a heating medium via an interface ( 104 ) for externally discharging the circulation medium. Heat pump device ( 318 ) with the following features: a heat pump ( 328 ); a storage system ( 332 ) with a cold storage ( 334 ) for storing a low-temperature circulation medium, a heat store ( 338 ) for storing the high-temperature circulation medium and a reflux memory ( 336 ), wherein the cold storage ( 334 ) is designed to communicate with a flow line ( 322 ) a power supply unit ( 300 ) for providing the circulation medium to a domestic appliance ( 100 ; 118 ), the heat storage ( 338 ) is designed to be connected to a further flow line ( 324 ) of the power supply unit ( 300 ) for providing the circulation medium to at least one further domestic appliance ( 304 . 306 . 308 . 312 . 314 ) and the flyback memory ( 336 ) is designed to be connected to a return line ( 326 ) of the power supply unit ( 300 ) for returning the circulation medium from the domestic appliance ( 100 ; 118 ) and / or the at least one further domestic appliance ( 304 . 306 . 308 . 312 . 314 ) to the heat pump device ( 318 ), the heat pump ( 328 ) with the storage system ( 332 ) is coupled or can be coupled and is designed to remove the circulation medium from the return reservoir ( 336 ) when transferred to the cold storage ( 334 ) and / or when transferred to the heat storage ( 338 ) to warm up. Heat pump device ( 318 ) according to claim 12, characterized in that the cold storage ( 334 ) is adapted to the circulation medium at a temperature in a range between 0 ° C and 5 ° C, in particular at a temperature of 3 ° C, in the flow line ( 322 ). Heat pump device ( 318 ) according to claim 12 or 13, characterized in that the heat pump device ( 318 ) an interface for the thermal coupling of the heat pump ( 328 ) with a ventilation system ( 330 ) having. Power supply unit ( 300 ) having the following features: a heat pump device ( 318 ) according to any one of claims 12 to 14; a supply line ( 322 ) for guiding a circulation medium from the heat pump device ( 318 ) to a household appliance ( 100 ; 118 ) according to any one of claims 1 to 10; another supply line ( 324 ) for guiding the circulation medium from the heat pump device ( 318 ) to at least one other domestic appliance ( 304 . 306 . 308 . 312 . 314 ) according to any one of claims 1 to 10; and a return line ( 326 ) for returning the circulation medium from the domestic appliance ( 100 ; 118 ) and the other domestic appliance ( 304 . 306 . 308 . 312 . 314 ) to the heat pump device ( 318 ).

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