JP4305052B2 - Heat pump hot water supply air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a hot water supply air conditioner using a heat pump.
[0002]
[Prior art]
Conventionally, this type of heat pump hot water supply air conditioner switches between a hot water supply function and an air conditioning function with a single circuit (see, for example, Patent Document 1). FIG. 6 shows a heat pump system described in Patent Document 1. In FIG. In FIG. 6, a hot water supply unit 5 provided with a compressor 1, an indoor heat exchanger 2, a decompression means 3, a hot water storage tank 4, an outdoor heat exchanger 6, a high pressure side pipe 7, and a low pressure side pipe 8 are provided. The operation and the cooling operation are switched by opening and closing the on-off valves 9a, 9b, 9c, 9d, 9e, and 9f.
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 7-71839
[Problems to be solved by the invention]
However, in the configuration of the heat pump system of the above-described conventional example, the hot water supply and the air conditioning cannot be operated simultaneously, or the hot water supply capacity is insufficient due to the capacity distribution during the simultaneous operation and the air conditioning capacity is insufficient. In addition, the hot pump operates at a high pressure due to high-temperature boiling, and the compressor discharge temperature is increased so that the operating point of the heat pump differs between the hot water supply operation and the air conditioning operation. The refrigerant is also different. Therefore, in the above conventional example, there is a problem that it is not possible to select an optimum refrigerant that follows the hot water supply load with high efficiency in hot water supply operation and air conditioning operation using the same refrigerant.
[0005]
The present invention solves the above-mentioned conventional problems, and realizes simultaneous operation of hot water supply and air conditioning with high efficiency and at the same time realizes a high temperature during hot water supply operation and a small capacity of a hot water storage tank by increasing capacity. An object is to provide an apparatus.
[0006]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present invention provides a heat pump hot water supply air conditioner of the present invention, a heat pump hot water supply means having a hot water supply function, a heat pump hot water supply air conditioning means having a hot water supply function and an air conditioning function, a heat pump hot water supply means, and a heat pump hot water supply. During the simultaneous hot water supply operation of the hot water storage tank for storing hot water heated by the air conditioning means, the indoor unit, the heat pump hot water supply air conditioning means and the heat pump hot water supply means, the heat pump hot water supply means, the heat pump hot water supply air conditioning means, and the heat pump hot water supply means And a hot water supply circuit for circulating water in order .
[0007]
Thus, during simultaneous operation of hot water supply and air conditioning, hot water supply operation is performed by the heat pump hot water supply means, and air conditioning operation is performed by the heat pump hot water supply air conditioning means. When a large capacity is required during the hot water supply operation, the heat pump hot water supply means and the heat pump hot water supply air conditioning means are simultaneously operated to increase the hot water supply capacity. Therefore, it is possible to simultaneously operate hot water supply and air conditioning with high efficiency, and at the same time, increase the temperature during hot water supply operation, increase convenience, and reduce the capacity of the hot water storage tank. In addition, according to the present invention, high capacity and high temperature can be realized during hot water supply operation.
[0008]
The heat pump hot water supply air conditioner of the present invention stores heat pump hot water supply means having a hot water supply function, heat pump hot water supply air conditioning means having a hot water supply function and an air conditioning function, and hot water heated by the heat pump hot water supply means and the heat pump hot water supply air conditioning means. A hot water supply heat exchanger that includes a hot water storage tank and an indoor unit and heats water by the heat pump hot water supply air conditioning means is housed in the heat pump hot water supply means side.
[0009]
According to the present invention, water circuit components can be stored in a concentrated manner, so that the water circuit components can be simplified and the hot water supply heat exchanger can be integrated.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
The heat pump hot water supply air conditioner according to the first aspect of the present invention includes a heat pump hot water supply means having a hot water supply function, a heat pump hot water supply air conditioning means having a hot water supply function and an air conditioning function, and hot water heated by the heat pump hot water supply means and the heat pump hot water supply air conditioning means. Hot water supply that circulates water in the order of the heat pump hot water supply means, the heat pump hot water supply air conditioning means, and the heat pump hot water supply means during simultaneous hot water supply operation of the hot water storage tank, the indoor unit, the heat pump hot water supply air conditioning means and the heat pump hot water supply means And a circuit .
[0011]
According to the present invention, at the time of simultaneous operation of hot water supply and air conditioning, hot water supply operation by the heat pump hot water supply means and air conditioning operation by the heat pump hot water supply air conditioning means can be realized, and hot water supply and air conditioning can be simultaneously operated with high efficiency and hot water supply operation. The convenience will be improved and the capacity of the hot water storage tank will be reduced by increasing the temperature and the capacity. In addition, according to the present invention, high capacity and high temperature can be realized during hot water supply operation.
[0012]
The heat pump hot water supply air-conditioning apparatus according to claim 2 is a heat pump hot water supply means having a hot water supply function, a heat pump hot water supply air conditioning means having a hot water supply function and an air conditioning function, and hot water heated by the heat pump hot water supply means and the heat pump hot water supply air conditioning means. A hot water storage tank for storing hot water and an indoor unit, and a hot water supply heat exchanger for heating water by the heat pump hot water supply air conditioning means is housed in the heat pump hot water supply means side.
[0013]
According to the present invention, water circuit components can be stored in a concentrated manner, so that the water circuit components can be simplified and the hot water supply heat exchanger can be integrated.
[0014]
The heat pump hot water supply air conditioner according to the third aspect of the present invention is such that the refrigerant circuit A of the heat pump hot water supply means and the refrigerant circuit B of the heat pump hot water supply air conditioning means are separate circuits.
[0015]
According to the present invention, since the refrigerant circuit during the hot water supply operation and the refrigerant circuit during the air conditioning operation are independent, the hot water supply operation is performed using the heat pump hot water supply means in which the refrigerant suitable for hot water supply is enclosed, and the air conditioning operation is suitable for air conditioning. It operates using the heat pump hot water supply air-conditioning means that encloses the refrigerant. Therefore, high-efficiency operation is realized with the capacity corresponding to each operation load of hot water supply and air conditioning.
[0016]
In the heat pump hot water supply air conditioner according to the fourth aspect of the present invention, the refrigerant circuit A of the heat pump hot water supply means comprises a supercritical heat pump cycle in which the pressure of the refrigerant is equal to or higher than the critical pressure.
[0017]
According to this invention, since the refrigerant flowing through the heat exchanger that heats the water during hot water storage operation is pressurized to a critical pressure or higher, even if the heat is taken away by the flowing water in the water flow path of the heat exchanger and the temperature drops There is no condensation. Therefore, it becomes easy to form a temperature difference between the refrigerant and water in the entire heat exchanger, high-temperature hot water can be obtained, and heat exchange efficiency can be increased .
[0018]
The heat pump hot water supply air-conditioning apparatus according to the fifth aspect of the present invention is one in which the heat pump hot water supply means and the heat pump hot water supply air conditioning means are stacked in two stages and stored in one unit.
[0019]
According to this invention, the installation area can be reduced.
[0020]
According to a sixth aspect of the present invention, there is provided a heat pump hot water supply air conditioner in which a heat pump hot water supply means, a heat pump hot water supply air conditioning means, and a hot water storage tank are housed in one unit.
[0021]
According to the present invention, the space space connecting the heat pump hot water supply means, the heat pump hot water supply air conditioning means, and the hot water storage tank can be reduced, and water piping work is not required.
[0022]
【Example】
Embodiments of the present invention will be described below with reference to the drawings. In the conventional example and each example, parts having the same configuration and the same operation are denoted by the same reference numerals, and detailed description thereof is omitted.
[0023]
Example 1
FIG. 1 is a configuration diagram of a heat pump hot water supply air conditioner in Embodiment 1 of the present invention. In FIG. 1, reference numeral 11 denotes a heat pump hot water supply means, which houses a heat pump hot water supply circuit 16 to which a hot water supply compressor 12, a hot water supply heat exchanger a13, a pressure reduction means a14, and a hot water supply heat absorber 15 are connected. The heat pump hot water supply circuit uses, for example, carbon dioxide (CO2) as a refrigerant, and uses a supercritical heat pump cycle in which the refrigerant pressure on the high pressure side is equal to or higher than the critical pressure of the refrigerant. Reference numeral 17 denotes a heat pump hot water supply air conditioning unit, which is an outdoor unit that houses the air conditioning compressor 18, the hot water supply heat exchanger b19, the decompression unit b20, and the air conditioning heat absorber 21. A hot water tank 22 stores hot water heated by the heat pump hot water supply means 11 and the heat pump hot water supply air conditioning means 17. Reference numeral 23 denotes an indoor unit which is connected to the heat pump hot water supply air conditioning means 17 to constitute a heat pump hot water supply air conditioning circuit 24, and performs an indoor heating operation or a cooling operation. Reference numeral 25 denotes a water heat exchanger a, which is in a heat exchange relationship with the hot water supply heat exchanger a13, and water under the hot water tank 22 or water that has passed through the water supply pipe flows. A water heat exchanger b is in a heat exchange relationship with the hot water supply heat exchanger b19, and water below the hot water tank 22 or water that has passed through the water supply pipe flows. A circulation pump 27 is a variable flow rate DC pump, and controls the flow rate of water flowing through the water heat exchanger a25 and the water heat exchanger b26. A hot water temperature control means 28 controls the circulation pump 27 so that detection signals of the water temperature sensor 29 at the outlets of the water heat exchanger a25 and the water heat exchanger b26 become predetermined signals. Reference numeral 30 denotes a switching valve that allows water to flow through the water heat exchanger a25 during operation of the heat pump hot water supply means 11, and allows water to flow through the water heat exchanger b26 during hot water supply operation of the heat pump hot water supply air conditioning means 17. 31 is a temperature adjusting means, which mixes the hot water heated by the heat pump hot water supply means 11 and the heat pump hot water supply air conditioning means 17 with the hot water in the hot water storage tank 22 and controls it to a predetermined temperature to discharge from the hot water supply terminal. 32 is an outdoor unit of the heat pump hot water supply air conditioner, and houses the heat pump hot water supply means 11, the heat pump hot water supply air conditioning means 17, and the hot water tank 22 in one unit.
[0024]
About the heat pump hot water supply air-conditioning apparatus comprised as mentioned above, the operation | movement and an effect | action are demonstrated below. First, a hot water storage operation in which hot water is stored in a hot water storage tank using heat pump hot water supply means will be described. The high-temperature and high-pressure refrigerant discharged from the hot water supply compressor 12 flows into the water heat exchanger a25, and heats the water flowing from the lower part of the hot water tank 22 through the circulation pump 27. At that time, the hot water temperature control means 28 controls the water circulation flow rate of the circulation pump 27 so that the outlet temperature of the water heat exchanger a25 becomes a predetermined temperature. Then, the water heated to a predetermined temperature flows into the upper part of the hot water tank 22 and is stored therein. On the other hand, the refrigerant radiated by the hot water supply heat exchanger a13 is depressurized by the decompression means a14 and flows into the hot water supply heat absorber 15, absorbs atmospheric heat, evaporates, and returns to the hot water supply compressor 12. Hot water is stored from the upper part of the hot water tank 22 while repeating this cycle. Then, carbon dioxide gas (CO ₂ ) is used as a refrigerant, and the mixture is heated to a high temperature near the maximum temperature of 90 ° C. using a supercritical heat pump cycle in which the refrigerant pressure on the high pressure side is equal to or higher than the critical pressure of the refrigerant.
[0025]
Next, a hot water storage operation in which the heat pump hot water supply means 11 and the heat pump hot water supply air conditioning means 17 are operated to store hot water in the hot water storage tank 22 or an operation in which hot water is discharged directly to the hot water supply terminal without going through the hot water storage tank 22 will be described. The operation of the heat pump hot water supply means 11 is the same as described above, and will be omitted. The high-temperature and high-pressure refrigerant discharged from the air conditioning compressor 18 flows into the water heat exchanger b26 and heats the water flowing from the lower part of the hot water tank 22 through the circulation pump 27. At that time, the hot water temperature control means 29 controls the water circulation flow rate of the circulation pump 27 so that the outlet temperatures of the water heat exchanger a25 and the water heat exchanger b26 become a predetermined temperature. Then, the water heated to a predetermined temperature flows into the upper part of the hot water tank 22 and is stored therein. On the other hand, the refrigerant radiated by the hot water supply heat exchanger b19 is depressurized by the decompression means b20 and flows into the air conditioning heat absorber 21 to absorb atmospheric heat and evaporate to return to the air conditioning compressor 18. Therefore, a hot water storage operation is performed with high capacity using the heat pump hot water supply means 11 and the heat pump hot water supply air conditioning means 17. Moreover, since water is heated with a large capacity, the flow rate of water heated to a predetermined temperature by the water heat exchanger a25 and the water heat exchanger b26 is large, so that hot water can be discharged from the hot water supply terminal as it is. In that case, since it heats at 40-60 degreeC lower temperature than the time of hot water storage driving | operation, and sends water to a hot water supply terminal, system efficiency becomes very high. Moreover, since the hot water is not stored in the hot water storage tank 22 to keep the heat, the heat dissipation loss from the hot water storage tank 22 is reduced. Therefore, since the hot water supply operation can be performed with a large capacity, the convenience can be improved and the capacity of the hot water storage tank can be reduced.
[0026]
Next, the heating operation will be described. The high-temperature and high-pressure refrigerant discharged from the air-conditioning compressor 18 flows into the indoor unit 23, dissipates heat into the room, and heats the room. On the other hand, the refrigerant radiated by the indoor unit 23 is decompressed by the decompression means b20 and flows into the air conditioner heat absorber 21, absorbs atmospheric heat, evaporates, and returns to the air conditioner compressor 18. Then, by configuring the heat pump hot water supply means 11 and the heat pump hot water supply air conditioning means 17 in separate circuits, the hot pump hot water supply means 11 stores hot water in the hot water storage tank 22 when a command for reheating the hot water storage tank 22 is generated during the heating operation. Operate hot water storage, or send hot water to the hot water supply terminal to get out. Therefore, simultaneous operation of heating and hot water supply is possible, and operation is performed with the capacity and efficiency corresponding to the heating load and the hot water supply load.
[0027]
Next, the cooling operation will be described. The high-temperature and high-pressure refrigerant discharged from the air-conditioning compressor 18 flows into the air-conditioning heat absorber 21, dissipates heat to the atmosphere, is decompressed by the decompression means b20, flows into the indoor unit 23, absorbs heat from the room, and cools the room. Then, it evaporates and returns to the air conditioning compressor 18. Then, by configuring the heat pump hot water supply means 11 and the heat pump hot water supply air conditioning means 17 in separate circuits, the heat pump hot water supply means 11 stores hot water in the hot water storage tank when a command for reheating the hot water storage tank 22 is generated during the cooling operation. Do hot water storage operation or send hot water to the hot water supply terminal and take it out. Therefore, simultaneous operation of cooling and hot water supply is possible, and operation is performed with the capacity and efficiency corresponding to the cooling load and the hot water supply load.
[0028]
Further, the cooling operation and the hot water supply operation or hot water storage operation to the terminal can be performed simultaneously using the heat pump hot water supply air conditioning means 17. This hot water cooling operation will be described. The high-temperature and high-pressure refrigerant discharged from the air conditioning compressor 18 flows into the hot water supply heat exchanger b19, and heats the water flowing into the water heat exchanger b26 from the lower part of the hot water tank 22 through the circulation pump 27. At that time, the hot water temperature control means 28 controls the water circulation flow rate of the circulation pump 27 so that the outlet temperatures of the water heat exchanger a25 and the water heat exchanger b26 become a predetermined temperature. Then, the water heated to a predetermined temperature flows into the upper part of the hot water tank 22 and is stored therein. On the other hand, the refrigerant radiated by the hot water supply heat exchanger b19 is decompressed by the decompression means b20, flows into the indoor unit 23, absorbs heat from the room, and cools the room. Then, it evaporates and returns to the air conditioning compressor 18. Therefore, since the hot water is supplied or stored while cooling, the system efficiency becomes very high.
[0029]
Therefore, hot water supply and air conditioning can be operated simultaneously with high efficiency, while at the same time increasing the temperature during hot water supply operation, improving convenience by increasing capacity, and reducing the capacity of the hot water tank.
[0030]
Further, each refrigerant circuit of the heat pump hot water supply means 11 and the heat pump hot water supply air conditioning means 17 is made a separate circuit, and the refrigerant sealed in the refrigerant circuit of the heat pump hot water supply means 11 is constituted by a supercritical heat pump cycle in which the pressure becomes a critical pressure or more. By configuring the refrigerant of the heat pump hot water supply air-conditioning means 17 with a heat pump cycle below the critical pressure, high temperature and high efficiency during hot water storage hot water storage operation are realized. And high efficiency at the time of air-conditioning operation is realized. In addition, chlorofluorocarbon gas, HC refrigerant (propane, butane, etc.), ammonia, etc. may be used as the refrigerant of the heat pump hot water supply means and the heat pump hot water supply air conditioning means. Therefore, the maximum boiling temperature is slightly lower than that of the carbon dioxide CO ₂ refrigerant.
[0031]
Further, the installation area can be reduced by stacking two stages of the heat pump hot water supply means and the heat pump hot water supply air conditioning means and storing them in one unit.
[0032]
Moreover, by storing the heat pump hot water supply means 11, the heat pump hot water supply air conditioning means 17 and the hot water storage tank 22 in one outdoor unit 32, the space space connecting the heat pump hot water supply means 11, the heat pump hot water supply air conditioning means 17 and the hot water storage tank 22 can be reduced. At the same time, water piping work becomes unnecessary. Further, the water piping is not damaged by freezing.
[0033]
Further, as shown in FIG. 2, the same effect can be obtained by connecting the water supply pipe 33 to the hot water storage tank 22 and passing water from the hot water storage tank 22 to the water heat exchanger a25 and the water heat exchanger b26.
[0034]
Further, as shown in FIG. 2, during hot water storage operation, hot water is stored in such a manner that water is passed through the on-off valve 34 to the upper part of the hot water storage tank 22 as indicated by the broken arrow direction in FIG. 2. When the hot water is supplied from the heat pump hot water supply means 11 and the heat pump hot water supply air conditioning means 17 to the hot water supply terminal, the on-off valve 34 is closed and the hot water is passed to the hot water supply terminal as indicated by the solid line arrow in FIG. There is an effect. Further, this configuration has an effect of simultaneously realizing hot water storage operation and hot water discharge from the hot water storage tank.
[0035]
Further, as shown in FIG. 3, a hot water temperature control means 28a and a water temperature sensor 29a are provided so that the outlet water temperature of the water heat exchanger a25 becomes a predetermined temperature, and the outlet water temperature of the water heat exchanger b26 becomes a predetermined temperature. The same effect can be obtained by providing the hot water temperature control means 28b and the water temperature sensor 29b. Furthermore, when the loads of the heat pump hot water supply means 11 and the heat pump hot water supply air conditioning means 17 are different, or when the operating point of the heat pump cycle is different, for example, when performing hot water supply operation while cooling, the hot water supply heating capacity of the heat pump hot water supply air conditioning means 17 is the heat pump hot water supply. Although it differs from the hot water supply heating capability of the means 11, the outlet water temperature of the water heat exchanger b26 can be controlled to be a predetermined temperature.
[0036]
Also, as shown in FIG. 4, the same effect can be obtained by controlling the flow rate using the circulation pump 35 and the flow rate control means 36 instead of the variable flow rate pump DC pump of the circulation pump 27.
[0037]
Further, as shown in FIG. 5, a hot water supply circuit 37 that circulates water in the order of the heat pump hot water supply means 11, the heat pump hot water supply air conditioning means 17, and the heat pump hot water supply means 11 during simultaneous hot water supply operation of the heat pump hot water supply means 11 and the heat pump hot water supply air conditioning means 17 is provided. The low temperature at which water enters is heated by the heat pump hot water supply means 11. And since the heated water is heated with the heat pump hot water supply air-conditioning means 17, and finally heated to the high temperature water with the heat pump hot water supply means 11 and stored in the hot water storage tank, carbon dioxide gas CO2 is used as the refrigerant of the heat pump hot water supply means. Since the refrigerant flowing through the hot water supply heat exchanger a13 is pressurized to a critical pressure or higher by the hot water supply compressor 12, the temperature of the hot water supply heat exchanger a13 is deprived of heat by the flowing water flowing through the hot water supply circuit. However, it does not condense. Accordingly, since it becomes easy to form a temperature difference between the refrigerant and water in the entire hot water supply heat exchanger a13, the refrigerant outlet of the hot water supply heat exchanger a13 and the water inlet are subjected to heat exchange, and the refrigerant of the hot water supply heat exchanger a13. Heat is exchanged between the inlet and the water outlet to increase the temperature and heat exchange efficiency.
[0038]
Further, as shown in FIG. 5, a hot water supply heat exchanger b19 for heating water by the heat pump hot water supply air conditioning means 17 is housed on the heat pump hot water supply means 11 side, and the heat pump hot water supply air conditioning means 17 and the hot water supply heat exchanger b19 are connected to the refrigerant pipe. Connect with. As a result, water circuit components can be stored in a concentrated manner on the heat pump hot water supply means 11 side, so that the water components can be simplified.
[0039]
【The invention's effect】
As described above, according to the present invention, a heat pump hot water supply air-conditioning apparatus that can simultaneously operate hot water supply air conditioning with high efficiency and achieves high convenience during hot water supply operation, increased convenience and reduced capacity of a hot water storage tank. Can be provided.
[Brief description of the drawings]
FIG. 1 is a block diagram of a heat pump hot water supply air-conditioning apparatus according to a first embodiment of the present invention. FIG. 2 is a block diagram of a heat pump hot water supply air conditioning apparatus according to another embodiment of the first embodiment of the present invention. FIG. 4 is a block diagram of a heat pump hot water supply air conditioner in another embodiment of the first embodiment of the present invention. FIG. 5 is a heat pump in another embodiment of the first embodiment of the present invention. Schematic diagram of hot water supply air conditioner [Figure 6] Schematic diagram of conventional heat pump hot water supply air conditioner [Explanation of symbols]
11 Heat pump hot water supply means 12 Compressor for hot water supply 13 Heat exchanger for hot water supply a
14 Pressure reducing means a
DESCRIPTION OF SYMBOLS 15 Heat exchanger for hot water supply 16 Heat pump hot-water supply circuit 17 Heat pump hot-water supply air-conditioning means 18 Air-conditioning compressor 19 Hot-water supply heat exchanger b
20 Pressure reducing means b
21 Heat absorber for air conditioning 22 Hot water storage tank 23 Indoor unit 24 Heat pump hot water supply air conditioning circuit 25 Water heat exchanger a
26 Water heat exchanger b
27, 27a, 27b, 36 Circulating pumps 28, 28a, 28b Hot water temperature control means 29, 29a, 29b Water temperature sensor 30 Switching valve 31 Temperature adjustment means 32 Outdoor unit 33 Water supply pipe 34 Open / close valve 35 Hot water supply circuit 37 Flow rate control means

Claims (6)

A heat pump hot water supply means having a hot water supply function, a heat pump hot water supply air conditioning means having a hot water supply function and an air conditioning function, a hot water storage tank for storing hot water heated by the heat pump hot water supply means and the heat pump hot water supply air conditioning means, an indoor unit, and the heat pump hot water supply A heat pump hot water supply air conditioner provided with a hot water supply circuit for circulating water in the order of the heat pump hot water supply means, the heat pump hot water supply air conditioning means, and the heat pump hot water supply means during simultaneous hot water supply operation of the air conditioning means and the heat pump hot water supply means . A heat pump hot water supply means having a hot water supply function, a heat pump hot water supply air conditioning means having a hot water supply function and an air conditioning function, a hot water storage means for storing hot water heated by the heat pump hot water supply means and the heat pump hot water supply air conditioning means, and an indoor unit, A heat pump hot water supply air conditioner in which a hot water supply heat exchanger that heats water by a heat pump hot water supply air conditioning means is housed on the heat pump hot water supply means side . The heat pump hot water supply air conditioning apparatus according to claim 1 or 2, wherein the refrigerant circuit A of the heat pump hot water supply means and the refrigerant circuit B of the heat pump hot water supply air conditioning means are separate circuits. The heat pump hot water supply air conditioner according to any one of claims 1 to 3, wherein the refrigerant circuit A of the heat pump hot water supply means includes a supercritical heat pump cycle in which the pressure of the refrigerant is equal to or higher than a critical pressure. The heat pump hot water supply air-conditioning apparatus according to any one of claims 1 to 4 , wherein the heat pump hot water supply means and the heat pump hot water supply air conditioning means are stacked in two stages and stored in one unit. The heat pump hot water supply air conditioning apparatus according to any one of claims 1 to 5 , wherein the heat pump hot water supply means, the heat pump hot water supply air conditioning means, and the hot water storage tank are housed in one unit.

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