An air-conditioning apparatus includes a refrigerant circuit including a low-pressure shell structure compressor into which a refrigerant flowing through an injection pipe flows, a first heat exchanger, a second heat exchanger, a first expansion device, a refrigerant flow switching device, and a sec
An air-conditioning apparatus includes a refrigerant circuit including a low-pressure shell structure compressor into which a refrigerant flowing through an injection pipe flows, a first heat exchanger, a second heat exchanger, a first expansion device, a refrigerant flow switching device, and a second expansion device configured to allow the refrigerant which has passed through the first expansion device and flows from the second heat exchanger to the first heat exchanger to have an intermediate pressure, the compressor, the first heat exchanger, the second heat exchanger, the first expansion device, the refrigerant flow switching device, and the second expansion device being connected by pipes to constitute the refrigerant circuit, and further includes a controller that controls an amount of refrigerant flowing through the injection pipe into a compression chamber. A part of a high-pressure refrigerant flowing from the first heat exchanger to the second heat exchanger flows through the injection pipe.
대표청구항▼
1. An air-conditioning apparatus, comprising an indoor unit, an outdoor unit, and a relay unit that is separated from the outdoor unit and the indoor unit, connected by pipes, further comprising: a refrigerant circuit including a compressor that includes a compression chamber having an opening into
1. An air-conditioning apparatus, comprising an indoor unit, an outdoor unit, and a relay unit that is separated from the outdoor unit and the indoor unit, connected by pipes, further comprising: a refrigerant circuit including a compressor that includes a compression chamber having an opening into which a refrigerant flowing through an injection pipe flows,a first heat exchanger and at least one second heat exchanger that are configured to evaporate or condense the refrigerant,at least one first expansion device that is disposed corresponding to the at least second heat exchanger and reduces a pressure of the refrigerant,a refrigerant flow switching device that switches between a passage allowing a high-pressure refrigerant to pass through the first heat exchanger such that the first heat exchanger is allowed to function as a condenser and a passage allowing a low-pressure refrigerant to pass through the first heat exchanger such that the first heat exchanger is allowed to function as an evaporator,a second expansion device configured to allow the refrigerant which has been decompressed after passing through the first expansion device and flows from the second heat exchanger to the first heat exchanger to be further decompressed so that the refrigerant has an intermediate pressure which is lower than the high pressure and is higher than the low pressure,a first refrigerant branching portion that is disposed in a pipe between the first expansion device and the second expansion device, one of branched portions of the first refrigerant branching portion being connected to the injection pipe, the first refrigerant branching portion branching the refrigerant off from a refrigerant passage through which the refrigerant flows from the first heat exchanger to the first expansion device,a second refrigerant branching portion that is disposed in a pipe between the first expansion device and the second expansion device, one of branched portions of the second refrigerant branching portion being connected to the injection pipe, the second refrigerant branching portion branching the refrigerant off from a refrigerant passage through which the refrigerant flows from the first expansion device to the first heat exchanger, anda third expansion device disposed in the injection pipe and configured to regulate an amount of the refrigerant flowing into the compressor,the compressor, the first heat exchanger, the second heat exchanger, the first expansion device, the refrigerant flow switching device, the second expansion device, the first refrigerant branching portion, the second refrigerant branching portion, and the third expansion device, being connected by pipes to constitute the refrigerant circuit; anda controller that controls the amount of the refrigerant flowing through the injection pipe into the compression chamber, whereinwhile the first heat exchanger functions as a condenser, a part of the high-pressure refrigerant that is branched at the first refrigerant branching portion and flows from the first heat exchanger to the second heat exchanger is enabled to flow through the injection pipe, and while the first heat exchanger functions as an evaporator, a part of the refrigerant that is branched at the second refrigerant branching portion and has the intermediate pressure by adjusting opening degree of the first expansion device and the second expansion device is enabled to flow through the injection pipe, andthe outdoor unit accommodates the compressor, the refrigerant flow switching device, the first heat exchanger, the second expansion device, and the third expansion device. 2. The air-conditioning apparatus of claim 1, wherein while the first heat exchanger functions as a condenser, the refrigerant flows between the first heat exchanger and the second heat exchanger without passing through the second expansion device such that the refrigerant on the high-pressure side is supplied to the opening, and while the first heat exchanger functions as an evaporator, the refrigerant flows from the second heat exchanger through the second expansion device to the first heat exchanger such that the refrigerant on the intermediate-pressure side provided by the second expansion device is supplied to the opening. 3. The air-conditioning apparatus of claim 1, wherein the refrigerant is R32, a refrigerant mixture of R32 and HFO1234yf in which a mass percent of R32 is greater than or equal to 62%, or a refrigerant mixture of R32 and HFO1234ze in which the mass percent of R32 is greater than or equal to 43%. 4. The air-conditioning apparatus of claim 1, further comprising: an opening and closing device that is disposed in a branch pipe and permits the refrigerant to pass therethrough only in a direction from the first refrigerant branching portion to the injection pipe; anda backflow prevention device disposed in a passage between a connection port and the second refrigerant branching portion in the branch pipe. 5. The air-conditioning apparatus of claim 4, wherein the first refrigerant branching portion and the second refrigerant branching portion are arranged such that the flow of the refrigerant is divided into parts while the flow of the refrigerant is provided in a direction opposite to the direction of gravity. 6. The air-conditioning apparatus of claim 4, wherein the third expansion device includes an injection refrigerant expansion portion that changes an opening area in a passage on the basis of an instruction from the controller, andan injection refrigerant agitator that agitates the refrigerant in a two-phase state at a position closer to a refrigerant inlet than the injection refrigerant expansion portion. 7. The air-conditioning apparatus of claim 6, wherein a distance between the injection refrigerant expansion portion and the injection refrigerant agitator is less than or equal to six times an inside diameter of a pipe at the refrigerant inlet of the third expansion device. 8. The air-conditioning apparatus of claim 6, wherein the injection refrigerant agitator comprises a porous metal having a porosity of 80% or higher. 9. The air-conditioning apparatus of claim 4, further comprising: a refrigerant-refrigerant heat exchanger that is disposed in the injection pipe and that exchanges heat between the refrigerant flowing to the third expansion device and the refrigerant flowing from the third expansion device. 10. The air-conditioning apparatus of claim 1, wherein the second expansion device includes an intermediate-pressure refrigerant expansion portion that changes an opening area in a passage on the basis of an instruction from the controller, andan intermediate-pressure refrigerant agitator that agitates the refrigerant in a two-phase state at a position closer to a refrigerant inlet than the intermediate-pressure refrigerant expansion portion. 11. The air-conditioning apparatus of claim 10, wherein a distance between the intermediate-pressure expansion portion and the intermediate-pressure refrigerant agitator is less than or equal to six times an inside diameter of a pipe at the refrigerant inlet of the second expansion device. 12. The air-conditioning apparatus of claim 10, wherein the intermediate-pressure refrigerant agitator comprises a porous metal having a porosity of 80% or higher. 13. The air-conditioning apparatus of claim 1, further comprising: an intermediate-pressure detection device that is disposed at a position where a pressure, serving as the intermediate-pressure, is detectable and that detects a pressure or a temperature, whereinthe controller controls driving of the second expansion device such that a pressure related to detection by the intermediate-pressure detection device, a saturation pressure based on a temperature related to detection by the intermediate-pressure detection device, or a saturation temperature based on the temperature or pressure related to detection by the intermediate-pressure detection device approaches a target value or lies within a target range. 14. The air-conditioning apparatus of claim 4, wherein the outdoor unit accommodating the compressor, the refrigerant flow switching device, and the first heat exchanger is connected by two refrigerant pipes to the relay unit which accommodates the first expansion device and the second heat exchanger,wherein the relay unit is connected to a plurality of indoor units for heating or cooling air in an air-conditioning target space by pipes for circulating a heat medium different from the refrigerant,wherein the apparatus has, as operation patterns, a cooling only operation mode in which a high-pressure liquid refrigerant flows through one of the two refrigerant pipes and a low-pressure gas refrigerant flows through the other refrigerant pipe and a heating only operation mode in which a high-pressure gas refrigerant flows through one of the two refrigerant pipes and an intermediate-pressure two-phase refrigerant or an intermediate-pressure liquid refrigerant flows through the other refrigerant pipe,wherein when an operation in the cooling only operation mode is performed, the controller causes the opening and closing device to open to allow the high-pressure liquid refrigerant to flow from the first refrigerant branching portion through the opening and closing device into the injection pipe, andwherein when an operation in the heating only operation mode is performed, the controller causes the opening and closing device to close to allow the intermediate-pressure two-phase refrigerant or the intermediate-pressure liquid refrigerant to flow from the second refrigerant branching portion into the injection pipe. 15. The air-conditioning apparatus of claim 14, wherein the apparatus further has, as operation patterns, a cooling main operation mode in which a high-pressure two-phase refrigerant flows through one of the two refrigerant pipes and a low-pressure gas refrigerant flows through the other refrigerant pipe and a heating main operation mode in which a high-pressure gas refrigerant flows through one of the two refrigerant pipes and an intermediate-pressure two-phase refrigerant flows through the other refrigerant pipe,wherein when an operation in the cooling main operation mode is performed, the controller causes the opening and closing device to open to allow the high-pressure two-phase refrigerant to flow from the first refrigerant branching portion through the opening and closing device into the injection pipe, andwherein when an operation in the heating main operation mode is performed, the controller causes the opening and closing device to close to allow the intermediate-pressure two-phase refrigerant to flow from the second refrigerant branching portion into the injection pipe. 16. The air-conditioning apparatus of claim 4, further comprising: a discharge temperature detection device configured to detect a discharge temperature of the compressor,wherein while the first heat exchanger is allowed to function as a condenser, the controller controls the third expansion device such that a temperature detected by the discharge temperature detection device approaches a target temperature or does not exceed the target temperature or lies within a target range, andwherein while the first heat exchanger is allowed to function as an evaporator, the controller controls the third expansion device or the second and third expansion devices such that a temperature detected by the discharge temperature detection device approaches a target temperature or does not exceed the target temperature or lies within a target range. 17. The air-conditioning apparatus of claim 4, further comprising: a discharge temperature detection device configured to detect a discharge temperature of the compressor and a high-pressure detection device configured to detect a high pressure of the compressor,wherein while the first heat exchanger is allowed to function as a condenser, the controller controls the third expansion device such that a degree of discharge superheat calculated from a temperature detected by the discharge temperature detection device and a pressure detected by the high-pressure detection device approaches a target degree of superheat or does not exceed the target degree of superheat or lies within a target range, andwherein while the first heat exchanger is allowed to function as an evaporator, the controller controls the third expansion device or the second and third expansion devices such that a degree of discharge superheat calculated from a temperature detected by the discharge temperature detection device and a pressure detected by the high-pressure detection device approaches a target degree of superheat or does not exceed the target degree of superheat or lies within a target range. 18. The air-conditioning apparatus of claim 4, wherein while a defrosting operation for melting frost deposited on the first heat exchanger is performed, the controller controls the third expansion device such that the refrigerant cooled by the first heat exchanger while passing therethrough is allowed to flow through the injection pipe into the compression chamber. 19. The air-conditioning apparatus of claim 1, wherein the indoor unit is disposed at a position where it can perform air-conditioning of an air-conditioning target space and accommodates the second heat exchanger exchanging heat with air in the air-conditioning target space and the first expansion device;the outdoor unit is placed outdoors or in a machine room; anda pair of pipes that connect the indoor unit and the relay unit and connect the outdoor unit and the relay unit are provided such that the refrigerant is circulated through the relay unit between the outdoor unit and the indoor unit. 20. The air-conditioning apparatus of claim 1, wherein the indoor unit is placed at a position where it can perform air-conditioning of an air-conditioning target space and accommodates a use side heat exchanger exchanging heat with air in the air-conditioning target space;the outdoor unit is placed outdoors or in a machine room;the relay unit accommodates the second heat exchanger and the first expansion device; andthe air-conditioning apparatus further comprises a pair of pipes that connect the outdoor unit and the relay unit to circulate the refrigerant therebetween, anda pair of pipes that connect the indoor unit and the relay unit to circulate a heat medium different from the refrigerant therebetween, whereinthe second heat exchanger exchanges heat between the refrigerant and the heat medium.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (5)
Yoshida Yuji,JPX ; Funakura Masami,JPX ; Matsuo Mitsuharu,JPX ; Tagashira Minoru,JPX, Apparatus and method for charging three-component mixed refrigerant.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.