In a vehicle air conditioning system, a cold accumulator is disposed between a downstream air side of a cooling heat exchanger and an upstream air side of a heating heat exchanger to be cooled by cold air having passed through the cooling heat exchanger. Further, the cold accumulator is disposed at
In a vehicle air conditioning system, a cold accumulator is disposed between a downstream air side of a cooling heat exchanger and an upstream air side of a heating heat exchanger to be cooled by cold air having passed through the cooling heat exchanger. Further, the cold accumulator is disposed at the upstream air side of an air mixing door.
대표청구항▼
1. An air conditioning system for a vehicle having a passenger compartment, the system comprising:a case defining an air passage through which air flows into the passenger compartment; a cooling heat exchanger in which refrigerant of a refrigerant cycle flows, the cooling heat exchanger being dispos
1. An air conditioning system for a vehicle having a passenger compartment, the system comprising:a case defining an air passage through which air flows into the passenger compartment; a cooling heat exchanger in which refrigerant of a refrigerant cycle flows, the cooling heat exchanger being disposed in the air passage; a heating heat exchanger disposed at a downstream side of the cooling heat exchanger in an air flow direction; an air mixing door disposed to adjust a flow amount ratio between air passing through the heating heat exchanger and air bypassing the heating heat exchanger; and a cold accumulator disposed in the case between the cooling heat exchanger and the air mixing door, the cold accumulator having a cold accumulating material that is sealed only within the cold accumulator. 2. The air conditioning system according to claim 1, further comprising:the case having a bypass passage through which air bypasses the cooling heat exchanger and the cold accumulator; and a bypass door disposed to adjust a flow amount of air passing through the bypass passage. 3. The air conditioning system according to claim 1, further comprising the cold accumulator and the cooling heat exchanger being integrally disposed to form an integrated structure.4. The air conditioning system according to claim 1, further comprising:the cold accumulator having a plurality of tubes each of which is made of a metal; and the cold accumulating material being sealed in the tubes. 5. The air conditioning system according to claim 4, further comprising the tubes of the cold accumulator being stacked adjacent each other to define a wave shaped cold air passage between adjacent tubes.6. The air conditioning system according to claim 1, further comprising:the cold accumulator having a tube formed in a serpentine shape to form a plurality of folded tube portions; and the cold accumulating material being sealed in the tube. 7. The air conditioning system according to claim 6, further comprising the cold accumulator further having a fin disposed between the folded tube portions.8. The air conditioning system according to claim 6, further comprising a plurality of the tubes, each of which is formed in a serpentine shape, being disposed to be connected integrally.9. The air conditioning system according to claim 1, further comprising the cold accumulator having a plurality of tubes filled with the cold accumulating material, and a fixing member disposed to fix both ends of each of the tubes.10. The air conditioning system according to claim 9, further comprising:each of the tubes having a flat shape in cross-section; the tubes being arranged so that a major direction of the flat shape of each tube is along the air flow direction in the cold accumulator; the fixing member having a plurality of recesses arranged to correspond to the arrangement of the tubes; and at least one side end of each of the tubes being fitted into a respective recess of the fixing member. 11. The air conditioning system according to claim 1, further comprising:the cold accumulator having a first cold accumulating portion and a second cold accumulating portion; and the cold accumulating material including a first material sealed in the first cold accumulating portion and a second material sealed in the second cold accumulating portion. 12. The air conditioning system according to claim 11, further comprising:the cold accumulator having therein an inner partition member; and the first cold accumulating portion and the second cold accumulating portion being integrally disposed to be defined by the inner partition member. 13. The air conditioning system according to claim 11, further comprising:the first material having a melting point higher than that of the second material; and the first cold accumulating portion being disposed at an upstream side of the second cold accumulating portion in the air flow direction. 14. The air conditioning system according to claim 1, further comprising:the cooling heat exchanger being an evaporator of the refrigerant cycle. 15. The air conditioning system according to claim 1, further comprising:a control unit for controlling temperature of air to be blown into the passenger compartment; the control unit controlling temperature of the cooling heat exchanger to a target cooling temperature; the control unit setting the target cooling temperature at an initial target temperature in a cold accumulation mode; and when the control unit determines a finish of the cold accumulation mode, the control unit sets the target cooling temperature to a temperature that is higher than the initial target temperature. 16. An air conditioning system for a vehicle having a passenger compartment, the system comprising:a case defining an air passage through which air flows into the passenger compartment; a cooling heat exchanger in which refrigerant of a refrigerant cycle flows, the cooling heat exchanger being disposed in the air passage; a heating heat exchanger disposed at a downstream side of the cooling heat exchanger in an air flow direction; a heating adjustment member which is disposed to adjust a heating capacity of the heating heat exchanger; and a cold accumulator disposed in the case between the cooling heat exchanger and the heating heat exchanger, the cold accumulator having a cold accumulating material that is sealed only in the cold accumulator. 17. The air conditioning system according to claim 16, further comprising:the case having a bypass passage through which air bypasses the cooling heat exchanger and the cold accumulator; and a bypass door disposed to adjust a flow amount of air passing through the bypass passage. 18. The air conditioning system according to claim 16, further comprising the cold accumulator and the cooling heat exchanger being integrally disposed to form an integrated structure.19. The air conditioning system according to claim 16, further comprising:the cold accumulator having a plurality of tubes each of which is made of a metal; and the cold accumulating material being sealed in the tubes. 20. The air conditioning system according to claim 19, further comprising the tubes of the cold accumulator being stacked adjacent each other to define a wave shaded cold air passage between adjacent tubes.21. The air conditioning system according to claim 16, further comprising:the cold accumulator having a tube formed in a serpentine shape to form a plurality of folded tube portions; and the cold accumulating material being sealed in the tube. 22. The air conditioning system according to claim 21, further comprising the cold accumulator having a fin disposed between the folded tube portions.23. The air conditioning system according to claim 21, further comprising a plurality of the tubes, each of which is formed in a serpentine shape, being disposed to be connected integrally.24. The air conditioning system according to claim 16, further comprising the cold accumulator having a plurality of tubes filled with the cold accumulating material, and a fixing member disposed to fix both ends of each of the tubes.25. The air conditioning system according to claim 24, further comprising:each of the tubes having a flat shape in cross-section; the tubes being arranged so that a major direction of the flat shape of each tube is along the air flow direction in the cold accumulator; the fixing member having a plurality of recesses arranged to correspond to the arrangement of the tubes; and at least one side end of each of the tubes being fitted into respective recess of the fixing member. 26. The air conditioning system according to claim 16, further comprising:the cold accumulator having a first cold accumulating portion and a second cold accumulating portion; and the cold accumulating material including a first material sealed in the first cold accumulating portion and a second material sealed in the second cold accumulating portion. 27. The air conditioning system according to claim 26, further comprising:the cold accumulator having therein an inner partition member; and the first cold accumulating portion and the second cold accumulating portion being integrally disposed to be defined by the inner partition member. 28. The air conditioning system according to claim 26, further comprising:the first material having a melting point higher than that of the second material; and the first cold accumulating portion being disposed at an upstream side of the second cold accumulating portion in the air flow direction. 29. The air conditioning system according to claim 16, further comprising:the cooling heat exchanger being an evaporator of the refrigerant cycle. 30. The air conditioning system according to claim 16, further comprising:a control unit for controlling temperature of air to be blown into the passenger compartment; and the control unit controlling temperature of the cooling heat exchanger to a target cooling temperature; the control unit sets the target cooling temperature at an initial target temperature in a cold accumulation mode; and when the control unit determines a finish of the cold accumulation mode, the control unit sets the target cooling temperature to a temperature that is higher than the initial target temperature.
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이 특허에 인용된 특허 (16)
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Kozinski Richard C. (27671 Dowland Warren MI 48092), Integral evaporator and suction accumulator for air conditioning system utilizing refrigerant recirculation.
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