A channel on an upstream side of a third expansion device and a channel on an upstream side of a second expansion device are connected during a heating operation, and medium pressure refrigerant generated by the third expansion device during the heating operation is introduced on a suction side of a
A channel on an upstream side of a third expansion device and a channel on an upstream side of a second expansion device are connected during a heating operation, and medium pressure refrigerant generated by the third expansion device during the heating operation is introduced on a suction side of a compressor via the second expansion device and a suction injection pipe.
대표청구항▼
1. An air conditioning apparatus, wherein a compressor including a compression chamber inside a hermetically sealed container thereof, a first refrigerant flow switching device, a first heat exchanger, at least one first expansion device, and at least one second heat exchanger are connected by refri
1. An air conditioning apparatus, wherein a compressor including a compression chamber inside a hermetically sealed container thereof, a first refrigerant flow switching device, a first heat exchanger, at least one first expansion device, and at least one second heat exchanger are connected by refrigerant pipes to form a circuit constituting a refrigeration cycle,the air-conditioning apparatus comprising an accumulator for accumulating excess refrigerant provided on a channel on a suction side of the compressor, a suction injection pipe for externally introducing refrigerant in a liquid or a two-phase state into a channel between the compressor and the accumulator, and a second expansion device provided to the suction injection pipe,the air-conditioning apparatus being able to perform a heating operation, in which at least low pressure refrigerant flows into the first heat exchanger to cause it to serve as an evaporator, and high pressure refrigerant flows into some or all of the at least one second heat exchanger to cause them to serve as at least one condenser,the air conditioning apparatus comprising a third expansion device that generates a medium pressure smaller than the high pressure and larger than the low pressure during the heating operation in a channel of refrigerant from the at least one second heat exchanger to the first heat exchanger during the heating operation, andwherein a channel on an upstream side of the third expansion device and a channel on an upstream side of the second expansion device are connected during the heating operation, and the medium pressure refrigerant generated by the third expansion device during the heating operation is introduced on a suction side of the compressor via the second expansion device and the suction injection pipe. 2. The air conditioning apparatus of claim 1, wherein by action of the first refrigerant flow switching device, it is possible to switch betweencooling operation, in which high pressure refrigerant flows into the first heat exchanger to cause it to serve as a condenser, and low pressure refrigerant flows into some or all of the at least one second heat exchanger to cause them to serve as at least one evaporator, andheating operation, in which low pressure refrigerant flows into the first heat exchanger to cause it to serve as an evaporator, and high pressure refrigerant flows into some or all of the at least one second heat exchanger to cause them to serve as at least one condenser,wherein during the cooling operation, the refrigerant circulates through the circuit without going through the third expansion device, and the high pressure refrigerant is introduced on a suction side of the compressor via the second expansion device and the suction injection pipe, andduring the heating operation, the refrigerant circulates through the circuit by going through the third expansion device, and the medium pressure refrigerant generated by the third expansion device is introduced on a suction side of the compressor via the second expansion device and the suction injection pipe. 3. The air conditioning apparatus of claim 1, comprising a first branching unit that causes refrigerant to branch from a refrigerant channel in a case where refrigerant is flowing from the first heat exchanger to the at least one first expansion device,a second branching unit that diverts refrigerant from a refrigerant channel in a case where refrigerant is flowing from the at least one first expansion device to the first heat exchanger;a branch pipe that connects the first branching unit and the second branching unit, with the suction injection pipe connected thereto,a first conducting device installed between the first branching unit and a joint between the branch pipe and the suction injection pipe, anda second conducting device installed between the second branching unit and the joint. 4. The air conditioning apparatus of claim 3, wherein the first conducting device is an opening/closing device that opens and closes a refrigerant channel in the branch pipe, andthe second conducting device is a backflow prevention device that conducts refrigerant only in a flowing direction from the second branching unit to the suction injection pipe. 5. The air conditioning apparatus of claim 3, wherein the first branching unit is placed such that refrigerant flows in from a same direction in both cases of the cooling operation and the heating operation. 6. The air conditioning apparatus of claim 3, wherein the first branching unit and the second branching unit are placed such that a flow of refrigerant in an opposite direction with respect to a gravitational direction is formed and diverted. 7. The air conditioning apparatus of claim 3, wherein the first conducting device is a backflow prevention device that conducts refrigerant only in a flowing direction from the first branching unit to the suction injection pipe, andthe second conducting device is a backflow prevention device that conducts refrigerant only in a flowing direction from the second branching unit to the suction injection pipe. 8. The air conditioning apparatus of claim 7, wherein the first branching unit is placed such that a direction of refrigerant flow into the first branching unit is reversed in direction between the case of the cooling operation and the case of the heating operation. 9. The air conditioning apparatus of claim 3, wherein during the cooling operation, the first branching unit is placed such that a flow of refrigerant in an opposite direction with respect to a gravitational direction is formed and diverted, andduring the cooling operation and during the heating operation, the second branching unit is placed such that a flow of refrigerant in an opposite direction with respect to a gravitational direction is formed and diverted. 10. The air conditioning apparatus of claim 1, wherein the second expansion device is provided with a refrigerant expansion unit that varies an aperture area in a channel, and a refrigerant mixing device that mixes refrigerant in a two-phase state on a refrigerant inflow side of the refrigerant expansion unit. 11. The air conditioning apparatus of claim 1, further comprising a controller thatcontrols the second expansion device such that either a refrigerant discharge temperature on a discharge side of the compressor, or a refrigerant discharge superheat degree computed from the refrigerant discharge temperature and a pressure on a discharge side of the compressor, approaches a target value, or is within a target range andcontrols a flow rate of refrigerant flowing to a suction side of the compressor via the second expansion device and the suction injection pipe. 12. The air conditioning apparatus of claim 11, further comprising a detection device that detects a pressure or a temperature of the medium pressure refrigerant,wherein the controller controls the third expansion device such that a detected pressure of the detection device or a saturation pressure of a detected temperature of the detection device, or alternatively, a detected temperature of the detection device or a saturation temperature of the detected pressure of the detection device, approaches a target value, or is within a target range. 13. The air conditioning apparatus of claim 6, wherein the compressor, the first refrigerant flow switching device, and the first heat exchanger are housed in an outdoor unit,the at least one first expansion device and the at least one second heat exchanger are housed in a relay unit,the outdoor unit and the relay unit are connected by two refrigerant pipes internally carrying the refrigerant,the relay unit and a plurality of indoor units that heat or cool air in an air-conditioning target space are connected by pipes carrying the refrigerant or a heat medium,the air-conditioning apparatus having a cooling only operating mode in which high pressure liquid refrigerant flows through one of the two refrigerant pipes while low pressure gas refrigerant flows through the other, and a heating only operating mode in which high pressure gas refrigerant flows through one of the two refrigerant pipes while medium pressure two-phase refrigerant flows through the other, andin the cooling only operating mode, the opening/closing device opens, introducing high pressure liquid refrigerant into the branch pipe from the first branching unit via the opening/closing device, while in the heating only operating mode, the opening/closing device closes, introducing medium pressure two-phase refrigerant into the branch pipe from the second branching unit. 14. The air conditioning apparatus of claim 13, further comprising an intermediate heat exchanger for heating and an intermediate heat exchanger for cooling as the at least one second heat exchanger, andfurther having, as operating modes, a cooling main operating mode in which high pressure two-phase refrigerant flows through one of the two refrigerant pipes while low pressure gas refrigerant flows through the other, and a heating main operating mode in which high pressure gas refrigerant flows through one of the two refrigerant pipes while medium pressure two-phase refrigerant flows through the other,wherein, when conducting operation in the cooling main operating mode, the controller opens the opening/closing device to allow high pressure two-phase refrigerant to flow into the suction injection pipe from the first branching unit via the opening/closing device, andwhen conducting operation in the heating main operating mode, the controller closes the opening/closing device to allow medium pressure two-phase refrigerant to flow into the suction injection pipe from the second branching unit. 15. The air conditioning apparatus of claim 7 wherein the compressor, the first refrigerant flow switching device, and the first heat exchanger are housed in an outdoor unit,the at least one first expansion device and the at least one second heat exchanger are housed in a relay unit,the outdoor unit and the relay unit are connected by two refrigerant pipes through which the refrigerant flows internally,the relay unit and a plurality of indoor units that heat or cool air in an air-conditioning target space are connected by a pipe carrying the refrigerant or a heat medium,the air-conditioning apparatus further having a cooling only operating mode in which high pressure liquid refrigerant flows through one of the two refrigerant pipes while low pressure gas refrigerant flows through the other, and a heating only operating mode in which high pressure gas refrigerant flows through one of the two refrigerant pipes while medium pressure two-phase refrigerant flows through the other, andin the cooling only operating mode, high pressure liquid refrigerant is introduced into the branch pipe from the first branching unit via the first conducting device which is a backflow prevention device, while in the heating only operating mode, medium pressure two-phase refrigerant is introduced into the branch pipe from the second branching unit. 16. The air conditioning apparatus of claim 15, further comprising an intermediate heat exchanger for heating and an intermediate heat exchanger for cooling as the at least one second heat exchanger,further having, as operating modes, a cooling main operating mode in which high pressure two-phase refrigerant flows through one of the two refrigerant pipes while low pressure gas refrigerant flows through the other, and a heating main operating mode in which high pressure gas refrigerant flows through one of the two refrigerant pipes while medium pressure two-phase refrigerant flows through the other,wherein, when conducting operation in the cooling main operating mode, the controller causes high pressure two-phase refrigerant to flow into the suction injection pipe from the first branching unit via the first conducting device which is a backflow prevention device, and when conducting operation in the heating main operating mode, the controller causes medium pressure two-phase refrigerant to flow into the suction injection pipe from the second branching unit. 17. The air conditioning apparatus of claim 1, wherein the suction injection pipe externally introduces the refrigerant in the liquid or a two-phase state directly into the channel between the compressor and the accumulator.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (7)
Uehra Yuzuru (Ann Arbor MI), Air conditioner having high heating capacity.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.