US20260110446A1
AIR CONDITIONING SYSTEM
Publication
Application
Classifications
IPC Classifications
CPC Classifications
Applicants
Danfoss A/S
Inventors
Xiangxun LU, Jeffrey Lee TUCKER, Tianlei LI, Leping ZHANG
Abstract
Disclosed is an air conditioning system. The air conditioning system includes an air conditioning subsystem, a phase change heat exchange subsystem, and a cross-system heat exchanger. The phase change heat exchange subsystem includes a phase change material container, a phase change material accommodated in the phase change material container, and a heat exchange circuit provided in the phase change material container.
The cross-system heat exchanger includes: a first circuit being connected to the air conditioning subsystem so that a heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit, and a second circuit being connected to the heat exchange circuit of the phase change heat exchange subsystem so that a heat exchange medium in a circuit composed of the second circuit and the heat exchange circuit of the phase change heat exchange subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container.
According to the present disclosure, the heat exchange efficiency of the air conditioning system is improved, and thus saving energy.
Figures
Description
TECHNICAL FIELD
[0001]Embodiments of the present disclosure relate to an air conditioning system.
BACKGROUND
[0002]Typically, an air conditioning system includes a compressor, a condenser, an expansion device and an evaporator.
SUMMARY
[0003]An object of embodiments of the present disclosure is to provide an air conditioning system, thereby improving the heat exchange efficiency of the air conditioning system, and thus saving energy.
[0004]According to an embodiment of the present disclosure, there is provided an air conditioning system. The air conditioning system includes: an air conditioning subsystem including: a compressor, a first heat exchanger acting as one of a condenser and an evaporator, and a second heat exchanger acting as the other of the condenser and the evaporator, wherein the compressor, the first heat exchanger and the second heat exchanger are connected in sequence from the compressor through the first heat exchanger to the second heat exchanger; a phase change heat exchange subsystem including: a phase change material container, a phase change material accommodated in the phase change material container, and a heat exchange circuit provided in the phase change material container; and a cross-system heat exchanger including: a first circuit being connected to the air conditioning subsystem so that a heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit, and a second circuit being connected to the heat exchange circuit of the phase change heat exchange subsystem so that a heat exchange medium in a circuit composed of the second circuit and the heat exchange circuit of the phase change heat exchange subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container.
[0005]According to an embodiment of the present disclosure, the cross-system heat exchanger also serves as at least one of the first heat exchanger and the second heat exchanger.
[0006]According to an embodiment of the present disclosure, the cross-system heat exchanger also serves as the first heat exchanger, the first heat exchanger acts as the evaporator, the second heat exchanger acts as the condenser, and the cross-system heat exchanger can selectively release heat obtained from the phase change heat exchange subsystem in the second circuit.
[0007]According to an embodiment of the present disclosure, the cross-system heat exchanger also serves as the second heat exchanger, the first heat exchanger acts as the condenser, the second heat exchanger acts as the evaporator, and the cross-system heat exchanger can selectively absorb cooling energy obtained from the phase change heat exchange subsystem in the second circuit.
[0008]According to an embodiment of the present disclosure, the cross-system heat exchanger also serves as the first heat exchanger, the first heat exchanger acts as the condenser, the second heat exchanger acts as the evaporator, and the cross-system heat exchanger can selectively release heat obtained from the phase change heat exchange subsystem in the second circuit.
[0009]According to an embodiment of the present disclosure, the first circuit of the cross-system heat exchanger is connected between the first heat exchanger and the second heat exchanger of the air conditioning subsystem, so that the heat exchange medium discharged from the compressor enters the cross-system heat exchanger after passing through one of the first heat exchanger and the second heat exchanger, and then enters the other of the first heat exchanger and the second heat exchanger.
[0010]According to an embodiment of the present disclosure, the heat exchange medium in the first circuit can exchange heat with the heat exchange medium in the second circuit in the cross-system heat exchanger.
[0011]According to an embodiment of the present disclosure, the air conditioning subsystem further includes an expansion device connected between the first heat exchanger and the second heat exchanger of the air conditioning subsystem, so that the heat exchange medium discharged from the compressor enters the expansion device after passing through one of the first heat exchanger and the second heat exchanger, and then enters the other of the first heat exchanger and the second heat exchanger.
[0012]According to an embodiment of the present disclosure, the first heat exchanger acts as the condenser, the second heat exchanger acts as the evaporator, the first circuit of the cross-system heat exchanger is connected between the expansion device and the second heat exchanger acting as the evaporator of the air conditioning subsystem, and the phase change heat exchange subsystem reduces a temperature of the heat exchange medium expanded by the expansion device by the cross-system heat exchanger.
[0013]According to an embodiment of the present disclosure, the first heat exchanger acts as the condenser, the second heat exchanger acts as the evaporator, the first circuit of the cross-system heat exchanger is connected between the first heat exchanger acting as the condenser and the expansion device of the air conditioning subsystem, and the phase change heat exchange subsystem reduces a temperature of the heat transfer medium condensed by the condenser by the cross-system heat exchanger.
[0014]According to an embodiment of the present disclosure, the heat exchange circuit of the phase change heat exchange subsystem includes a first heat exchange circuit and a second heat exchange circuit; the cross-system heat exchanger includes a first cross-system heat exchanger and a second cross-system heat exchanger, the first cross-system heat exchanger includes a first circuit and a second circuit, the first circuit of the first cross-system heat exchanger being connected to the air conditioning subsystem so that the heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit of the first cross-system heat exchanger, and the second circuit of the first cross-system heat exchanger being connected to the first heat exchange circuit of the phase change heat exchange subsystem so that the heat exchange medium in a circuit composed of the second circuit of the first cross-system heat exchanger and the first heat exchange circuit of the phase change heat exchange subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container; and the second cross-system heat exchanger includes a first circuit and a second circuit, the first circuit of the second cross-system heat exchanger being connected to the air conditioning subsystem so that the heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit of the second cross-system heat exchanger, and the second circuit of the second cross-system heat exchanger being connected to the second heat exchange circuit of the phase change heat exchange subsystem so that the heat exchange medium in a circuit composed of the second circuit of the second cross-system heat exchanger and the second heat exchange circuit of the phase change heat exchange subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container, and the heat exchange medium in the first circuit of the second cross-system heat exchanger can exchange heat with the heat exchange medium in the second circuit of the second cross-system heat exchanger in the second cross-system heat exchanger.
[0015]According to an embodiment of the present disclosure, the heat exchange circuit of the phase change heat exchange subsystem includes a first heat exchange circuit; the cross-system heat exchanger includes a first cross-system heat exchanger and a second cross-system heat exchanger, the first cross-system heat exchanger includes a first circuit and a second circuit, the first circuit of the first cross-system heat exchanger being connected to the air conditioning subsystem so that the heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit of the first cross-system heat exchanger, and the second circuit of the first cross-system heat exchanger being connected to the first heat exchange circuit of the phase change heat exchange subsystem so that the heat exchange medium in a circuit composed of the second circuit of the first cross-system heat exchanger and the first heat exchange circuit of the phase change heat exchange subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container; and the second cross-system heat exchanger includes a first circuit and a second circuit, the first circuit of the second cross-system heat exchanger being connected to the air conditioning subsystem so that the heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit of the second cross-system heat exchanger, and the second circuit of the second cross-system heat exchanger being connected to the first heat exchange circuit of the phase change heat exchange subsystem so that the heat exchange medium in a circuit composed of the first circuit of the phase change heat exchange subsystem and the second heat exchange circuit of the second cross-system heat exchanger can selectively exchange heat with the phase change material accommodated in the phase change material container, and the heat exchange medium in the first circuit of the second cross-system heat exchanger can exchange heat with the heat exchange medium in the second circuit of the second cross-system heat exchanger in the second cross-system heat exchanger, the second circuit of the first cross-system heat exchanger and the second circuit of the second cross-system heat exchanger being connected in parallel to the first heat exchange circuit of the phase change heat exchange subsystem.
[0016]According to an embodiment of the present disclosure, the heat exchange circuit of the phase change heat exchange subsystem further includes a third heat exchange circuit; the cross-system heat exchanger further includes a third cross-system heat exchanger, and the third cross-system heat exchanger includes a first circuit and a second circuit, the first circuit of the third cross-system heat exchanger being connected to the air conditioning subsystem so that the heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit of the third cross-system heat exchanger, and the second circuit of the third cross-system heat exchanger being connected to the third heat exchange circuit of the phase change heat exchange subsystem so that the heat exchange medium in a circuit composed of the second circuit of the third cross-system heat exchanger and the third heat exchange circuit of the phase change heat exchange subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container.
[0017]According to an embodiment of the present disclosure, the heat exchange circuit of the phase change heat exchange subsystem further includes a second heat exchange circuit; the cross-system heat exchanger further includes a third cross-system heat exchanger, and the third cross-system heat exchanger includes a first circuit and a second circuit, the first circuit of the third cross-system heat exchanger being connected to the air conditioning subsystem so that the heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit of the third cross-system heat exchanger, and the second circuit of the third cross-system heat exchanger being connected to the second heat exchange circuit of the phase change heat exchange subsystem so that the heat exchange medium in a circuit composed of the second circuit of the third cross-system heat exchanger and the second heat exchange circuit of the phase change heat exchange subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container.
[0018]According to an embodiment of the present disclosure, the air conditioning subsystem further includes an expansion device connected between the first heat exchanger and the second heat exchanger of the air conditioning subsystem, so that the heat exchange medium discharged from the compressor enters the expansion device after passing through one of the first heat exchanger and the second heat exchanger, and then enters the other of the first heat exchanger and the second heat exchanger, and the first circuit of the second cross-system heat exchanger is connected between the expansion device and the second heat exchanger of the air conditioning subsystem, so that the heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit of the second cross-system heat exchanger.
[0019]According to an embodiment of the present disclosure, the first cross-system heat exchanger also serves as the second heat exchanger, the first heat exchanger acts as the condenser, and the second heat exchanger acts as the evaporator.
[0020]According to an embodiment of the present disclosure, the first cross-system heat exchanger also serves as the second heat exchanger, and the third cross-system heat exchanger also serves as the first heat exchanger.
[0021]According to an embodiment of the present disclosure, the first heat exchanger acts as the evaporator, and the second heat exchanger acts as the condenser.
[0022]According to an embodiment of the present disclosure, the second cross-system heat exchanger is a plate heat exchanger.
[0023]According to an embodiment of the present disclosure, the air conditioning system further includes: a pump, connected between the first heat exchange circuit of the phase change heat exchange subsystem and the second circuit of the first cross-system heat exchanger and between the first heat exchange circuit of the phase change heat exchange subsystem and the second circuit of the second cross-system heat exchanger to promote a flow of the heat exchange medium in a circuit composed of the first heat exchange circuit of the phase change heat exchange subsystem and the second circuit of the first cross-system heat exchanger, and promote a flow of the heat exchange medium in a circuit composed of the first heat exchange circuit of the phase change heat exchange subsystem and the second circuit of the second cross-system heat exchanger.
[0024]According to an embodiment of the present disclosure, the cross-system heat exchanger also serves as the second heat exchanger, the first heat exchanger acts as the condenser, and the second heat exchanger acts as the evaporator, the heat exchange circuit of the phase change heat exchange subsystem includes a first heat exchange circuit and a second heat exchange circuit, the second circuit of the cross-system heat exchanger is connected to the first heat exchange circuit of the phase change heat exchange subsystem, so that the heat exchange medium in a circuit composed of the second circuit and the first heat exchange circuit can selectively exchange heat with the phase change material accommodated in the phase change material container, and the second heat exchange circuit and the first circuit of the cross-system heat exchanger are connected in parallel to the air conditioning subsystem, so that the heat exchange medium in the air conditioning subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container by the second heat exchange circuit.
[0025]According to an embodiment of the present disclosure, the first cross-system heat exchanger also serves as the second heat exchanger, and the second cross-system heat exchanger also serves as the first heat exchanger.
[0026]According to an embodiment of the present disclosure, the air conditioning system, further includes: a pump, connected between the first heat exchange circuit of the phase change heat exchange subsystem and the second circuit of the first cross-system heat exchanger to promote a flow of the heat exchange medium in a circuit composed of the first heat exchange circuit of the phase change heat exchange subsystem and the second circuit of the first cross-system heat exchanger; and a phase change heat exchange subsystem compressor and a phase change heat exchange subsystem expansion device, which are connected between the second heat exchanger of the phase change heat exchange subsystem and the second circuit of the second cross-system heat exchanger to compress and expand the heat exchange medium in a circuit composed of the second heat exchange circuit of the phase change heat exchange subsystem and the second circuit of the second cross-system heat exchanger.
[0027]According to an embodiment of the present disclosure, the cross-system heat exchanger includes: a first heat exchange tube used to form the first circuit and a second heat exchange tube used to form the second circuit, wherein at least some of a plurality of sets of first heat exchange tubes and at least some of a plurality of sets of second heat exchange tubes are alternately arranged, each set of first heat exchange tubes includes at least one first heat exchange tube, and each set of second heat exchange tubes includes at least one second heat exchange tube.
[0028]According to an embodiment of the present disclosure, the cross-system heat exchanger is a plate heat exchanger.
[0029]According to an embodiment of the present disclosure, the heat exchange medium in the second circuit of the cross-system heat exchanger is water or ethylene glycol.
[0030]According to an embodiment of the present disclosure, the condenser and the evaporator referred to are in the context of the air conditioning system under cooling working conditions.
[0031]According to an embodiment of the present disclosure, the condenser and the evaporator referred to are in the context of the air conditioning system under heating working conditions.
[0032]By adopting the air conditioning system according to the embodiments of the present disclosure, the heat exchange efficiency of the air conditioning system can be improved, and thus saving energy.
BRIEF DESCRIPTION OF THE DRAWINGS
[0033]
[0034]
[0035]
[0036]
[0037]
[0038]
[0039]
[0040]
[0041]
[0042]
[0043]
[0044]
DETAILED DESCRIPTION
[0045]The present disclosure will be further described below in conjunction with the accompanying drawings and specific embodiments.
[0046]
[0047]
[0048]Referring to
[0049]Referring to
[0050]Referring to
[0051]Referring to
[0052]In the embodiments shown in
[0053]In the embodiments shown in
[0054]Referring to
[0055]Referring to
[0056]In the embodiment shown in
[0057]In the embodiment shown in
[0058]Referring to
[0059]In the embodiment shown in
[0060]Referring to
[0061]In the embodiment shown in
[0062]Referring to
[0063]Referring to
[0064]In the examples of the present disclosure, referring to
[0065]In the embodiments shown in
[0066]Referring to
[0067]Referring to
[0068]In the embodiment shown in
[0069]Referring to
[0070]Referring to
[0071]According to the examples of the disclosure, the first cross-system heat exchanger 30A also serves as the second heat exchanger 12B, and the third cross-system heat exchanger 30C also serves as the first heat exchanger 12A. Under the heating working condition of the air conditioning subsystem 10, the first heat exchanger 12A acts as the evaporator, and the second heat exchanger 12B acts as the condenser.
[0072]In the embodiment shown in
[0073]Referring to
[0074]In the embodiment shown in
[0075]Referring to
[0076]In other embodiments of the present disclosure, the cross-system heat exchanger 30 is a plate heat exchanger. In the case that the cross-system heat exchanger 30 does not serve as the first heat exchanger 12A or the second heat exchanger 12B, the cross-system heat exchanger 30 may be a plate heat exchanger. The heat exchange medium in the second circuit 31B of the cross-system heat exchanger 30 may be water or ethylene glycol.
[0077]According to the embodiments of the present disclosure, the efficiency of the heat exchanger may be effectively improved, and at the same time, the electric energy at power consumption valleys can be used to cool or heat the phase change material in the phase change material container 21, so as to use the phase change material in the phase change material container 21 for cooling or heating at power consumption peaks. In addition, the phase change material in the phase change material container 21 can be cooled or heated by electric energy generated by solar energy during the day, so as to use the phase change material in the phase change material container 21 for cooling or heating at night, thereby achieving the grid-independent air conditioning system.
[0078]In addition, the air conditioning system according to the embodiments of the present disclosure improves the distribution of the heat exchange medium in the evaporator, and can effectively use the phase change material in the phase change material container 21 to defrost the heat exchanger under the heating working conditions, and reduces the load of the compressor when the exhaust temperature is too high.
[0079]The air conditioning system according to the embodiments of the present disclosure improves the heat exchange efficiency, thereby saving energy. Since existing components of conventional air conditioning systems are used as much as possible and these components are used efficiently, the air conditioning system according to the embodiments of the present disclosure may reduce the cost of the system. Due to the use of the heat exchanger shown in
[0080]Due to the use of the heat exchanger shown in
Claims
What is claimed is:
1. An air conditioning system, comprising:
an air conditioning subsystem comprising: a compressor; a first heat exchanger acting as one of a condenser and an evaporator; and a second heat exchanger acting as the other of the condenser and the evaporator, wherein the compressor, the first heat exchanger and the second heat exchanger are connected in sequence from the compressor through the first heat exchanger to the second heat exchanger;
a phase change heat exchange subsystem comprising: a phase change material container; a phase change material accommodated in the phase change material container; and a heat exchange circuit provided in the phase change material container; and
a cross-system heat exchanger comprising: a first circuit being connected to the air conditioning subsystem so that a heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit, and a second circuit being connected to the heat exchange circuit of the phase change heat exchange subsystem so that a heat exchange medium in a circuit composed of the second circuit and the heat exchange circuit of the phase change heat exchange subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container.
2. The air conditioning system according to
the cross-system heat exchanger also serves as at least one of the first heat exchanger and the second heat exchanger.
3. The air conditioning system according to
the cross-system heat exchanger also serves as the first heat exchanger, the first heat exchanger acts as the evaporator, the second heat exchanger acts as the condenser, and the cross-system heat exchanger can selectively release heat obtained from the phase change heat exchange subsystem in the second circuit.
4. The air conditioning system according to
the cross-system heat exchanger also serves as the second heat exchanger, the first heat exchanger acts as the condenser, the second heat exchanger acts as the evaporator, and the cross-system heat exchanger can selectively absorb cooling energy obtained from the phase change heat exchange subsystem in the second circuit.
5. The air conditioning system of
the cross-system heat exchanger also serves as the first heat exchanger, the first heat exchanger acts as the condenser, the second heat exchanger acts as the evaporator, and the cross-system heat exchanger can selectively release heat obtained from the phase change heat exchange subsystem in the second circuit.
6. The air conditioning system according to
the first circuit of the cross-system heat exchanger is connected between the first heat exchanger and the second heat exchanger of the air conditioning subsystem, so that the heat exchange medium discharged from the compressor enters the cross-system heat exchanger after passing through one of the first heat exchanger and the second heat exchanger, and then enters the other of the first heat exchanger and the second heat exchanger.
7. The air conditioning system according to
the heat exchange medium in the first circuit can exchange heat with the heat exchange medium in the second circuit in the cross-system heat exchanger.
8. The air conditioning system of
the air conditioning subsystem further comprises an expansion device connected between the first heat exchanger and the second heat exchanger of the air conditioning subsystem, so that the heat exchange medium discharged from the compressor enters the expansion device after passing through one of the first heat exchanger and the second heat exchanger, and then enters the other of the first heat exchanger and the second heat exchanger.
9. The air conditioning system according to
the first heat exchanger acts as the condenser, the second heat exchanger acts as the evaporator, the first circuit of the cross-system heat exchanger is connected between the expansion device and the second heat exchanger acting as the evaporator of the air conditioning subsystem, and the phase change heat exchange subsystem reduces a temperature of the heat exchange medium expanded by the expansion device by the cross-system heat exchanger.
10. The air conditioning system according to
the first heat exchanger acts as the condenser, the second heat exchanger acts as the evaporator, the first circuit of the cross-system heat exchanger is connected between the first heat exchanger acting as the condenser and the expansion device of the air conditioning subsystem, and the phase change heat exchange subsystem reduces a temperature of the heat transfer medium condensed by the condenser by the cross-system heat exchanger.
11. The air conditioning system according to
the heat exchange circuit of the phase change heat exchange subsystem comprises a first heat exchange circuit and a second heat exchange circuit;
the cross-system heat exchanger comprises a first cross-system heat exchanger and a second cross-system heat exchanger,
the first cross-system heat exchanger comprises a first circuit and a second circuit, the first circuit of the first cross-system heat exchanger being connected to the air conditioning subsystem so that the heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit of the first cross-system heat exchanger, and the second circuit of the first cross-system heat exchanger being connected to the first heat exchange circuit of the phase change heat exchange subsystem so that the heat exchange medium in a circuit composed of the second circuit of the first cross-system heat exchanger and the first heat exchange circuit of the phase change heat exchange subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container; and
the second cross-system heat exchanger comprises a first circuit and a second circuit, the first circuit of the second cross-system heat exchanger being connected to the air conditioning subsystem so that the heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit of the second cross-system heat exchanger, and the second circuit of the second cross-system heat exchanger being connected to the second heat exchange circuit of the phase change heat exchange subsystem so that the heat exchange medium in a circuit composed of the second circuit of the second cross-system heat exchanger and the second heat exchange circuit of the phase change heat exchange subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container, and the heat exchange medium in the first circuit of the second cross-system heat exchanger can exchange heat with the heat exchange medium in the second circuit of the second cross-system heat exchanger in the second cross-system heat exchanger.
12. The air conditioning system according to
the heat exchange circuit of the phase change heat exchange subsystem comprises a first heat exchange circuit;
the cross-system heat exchanger comprises a first cross-system heat exchanger and a second cross-system heat exchanger,
the first cross-system heat exchanger comprises a first circuit and a second circuit, the first circuit of the first cross-system heat exchanger being connected to the air conditioning subsystem so that the heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit of the first cross-system heat exchanger, and the second circuit of the first cross-system heat exchanger being connected to the first heat exchange circuit of the phase change heat exchange subsystem so that the heat exchange medium in a circuit composed of the second circuit of the first cross-system heat exchanger and the first heat exchange circuit of the phase change heat exchange subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container; and
the second cross-system heat exchanger comprises a first circuit and a second circuit, the first circuit of the second cross-system heat exchanger being connected to the air conditioning subsystem so that the heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit of the second cross-system heat exchanger, and the second circuit of the second cross-system heat exchanger being connected to the first heat exchange circuit of the phase change heat exchange subsystem so that the heat exchange medium in a circuit composed of the first circuit of the phase change heat exchange subsystem and the second heat exchange circuit of the second cross-system heat exchanger can selectively exchange heat with the phase change material accommodated in the phase change material container, and the heat exchange medium in the first circuit of the second cross-system heat exchanger can exchange heat with the heat exchange medium in the second circuit of the second cross-system heat exchanger in the second cross-system heat exchanger, the second circuit of the first cross-system heat exchanger and the second circuit of the second cross-system heat exchanger being connected in parallel to the first heat exchange circuit of the phase change heat exchange subsystem.
13. The air conditioning system according to
the heat exchange circuit of the phase change heat exchange subsystem further comprises a third heat exchange circuit;
the cross-system heat exchanger further comprises a third cross-system heat exchanger, and
the third cross-system heat exchanger comprises a first circuit and a second circuit, the first circuit of the third cross-system heat exchanger being connected to the air conditioning subsystem so that the heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit of the third cross-system heat exchanger, and the second circuit of the third cross-system heat exchanger being connected to the third heat exchange circuit of the phase change heat exchange subsystem so that the heat exchange medium in a circuit composed of the second circuit of the third cross-system heat exchanger and the third heat exchange circuit of the phase change heat exchange subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container.
14. The air conditioning system according to
the heat exchange circuit of the phase change heat exchange subsystem further comprises a second heat exchange circuit;
the cross-system heat exchanger further comprises a third cross-system heat exchanger; and
the third cross-system heat exchanger comprises a first circuit and a second circuit, the first circuit of the third cross-system heat exchanger being connected to the air conditioning subsystem so that the heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit of the third cross-system heat exchanger, and the second circuit of the third cross-system heat exchanger being connected to the second heat exchange circuit of the phase change heat exchange subsystem so that the heat exchange medium in a circuit composed of the second circuit of the third cross-system heat exchanger and the second heat exchange circuit of the phase change heat exchange subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container.
15. The air conditioning system according to any one of
the air conditioning subsystem further comprises an expansion device connected between the first heat exchanger and the second heat exchanger of the air conditioning subsystem, so that the heat exchange medium discharged from the compressor enters the expansion device after passing through one of the first heat exchanger and the second heat exchanger, and then enters the other of the first heat exchanger and the second heat exchanger, and
the first circuit of the second cross-system heat exchanger is connected between the expansion device and the second heat exchanger of the air conditioning subsystem, so that the heat exchange medium of the air conditioning subsystem can selectively flow through the first circuit of the second cross-system heat exchanger.
16. The air conditioning system according to any one of
the first cross-system heat exchanger also serves as the second heat exchanger, the first heat exchanger acts as the condenser, and the second heat exchanger acts as the evaporator.
17. The air conditioning system according to
the first cross-system heat exchanger also serves as the second heat exchanger, and the third cross-system heat exchanger also serves as the first heat exchanger.
18. The air conditioning system according to
the first heat exchanger acts as the evaporator, and the second heat exchanger acts as the condenser.
19. The air conditioning system according to any one of
the second cross-system heat exchanger is a plate heat exchanger.
20. The air conditioning system according to
a pump, connected between the first heat exchange circuit of the phase change heat exchange subsystem and the second circuit of the first cross-system heat exchanger and between the first heat exchange circuit of the phase change heat exchange subsystem and the second circuit of the second cross-system heat exchanger, to promote a flow of the heat exchange medium in a circuit composed of the first heat exchange circuit of the phase change heat exchange subsystem and the second circuit of the first cross-system heat exchanger, and promote a flow of the heat exchange medium in a circuit composed of the first heat exchange circuit of the phase change heat exchange subsystem and the second circuit of the second cross-system heat exchanger.
21. The air conditioning system according to
the cross-system heat exchanger also serves as the second heat exchanger, the first heat exchanger acts as the condenser, and the second heat exchanger acts as the evaporator,
the heat exchange circuit of the phase change heat exchange subsystem comprises a first heat exchange circuit and a second heat exchange circuit,
the second circuit of the cross-system heat exchanger is connected to the first heat exchange circuit of the phase change heat exchange subsystem, so that the heat exchange medium in a circuit composed of the second circuit and the first heat exchange circuit can selectively exchange heat with the phase change material accommodated in the phase change material container, and
the second heat exchange circuit and the first circuit of the cross-system heat exchanger are connected in parallel to the air conditioning subsystem, so that the heat exchange medium in the air conditioning subsystem can selectively exchange heat with the phase change material accommodated in the phase change material container by the second heat exchange circuit.
22. The air conditioning system according to
the first cross-system heat exchanger also serves as the second heat exchanger, and the second cross-system heat exchanger also serves as the first heat exchanger.
23. The air conditioning system according to
a pump, connected between the first heat exchange circuit of the phase change heat exchange subsystem and the second circuit of the first cross-system heat exchanger, to promote a flow of the heat exchange medium in a circuit composed of the first heat exchange circuit of the phase change heat exchange subsystem and the second circuit of the first cross-system heat exchanger; and
a phase change heat exchange subsystem compressor and a phase change heat exchange subsystem expansion device, which are connected between the second heat exchanger of the phase change heat exchange subsystem and the second circuit of the second cross-system heat exchanger to compress and expand the heat exchange medium in a circuit composed of the second heat exchange circuit of the phase change heat exchange subsystem and the second circuit of the second cross-system heat exchanger.
24. The air conditioning system according to any one of
the cross-system heat exchanger comprises: a first heat exchange tube used to form the first circuit and a second heat exchange tube used to form the second circuit, wherein at least some of a plurality of sets of first heat exchange tubes and at least some of a plurality of sets of second heat exchange tubes are alternately arranged, each set of first heat exchange tubes comprises at least one first heat exchange tube, and each set of second heat exchange tubes comprises at least one second heat exchange tube.
25. The air conditioning system according to any one of
the cross-system heat exchanger is a plate heat exchanger.
26. The air conditioning system according to
the heat exchange medium in the second circuit of the cross-system heat exchanger is water or ethylene glycol.
27. The air conditioning system according to any one of
the condenser and the evaporator referred to are in the context of the air conditioning system under cooling working conditions.
28. The air conditioning system according to
the condenser and the evaporator referred to are in the context of the air conditioning system under heating working conditions.