초록 ▼

An air-conditioning apparatus uses a zeotropic refrigerant mixture, in which its saturated liquid refrigerant temperature is lower than the saturated gas refrigerant temperature under the same pressure condition, as the heat source side refrigerant. When one or some of a plurality of heat exchangers

An air-conditioning apparatus uses a zeotropic refrigerant mixture, in which its saturated liquid refrigerant temperature is lower than the saturated gas refrigerant temperature under the same pressure condition, as the heat source side refrigerant. When one or some of a plurality of heat exchangers related to heat medium functions as an evaporator, the air-conditioning apparatus executes an anti-freezing control that prevents the heat medium from freezing by estimating occurrence of freezing of the heat medium on the basis of a value obtained by subtracting a freezing temperature correction value that is set as a positive value larger than zero from an evaporating temperature of the refrigerant in the heat exchanger related to heat medium.

대표청구항 ▼

1. An air-conditioning apparatus, comprising: a refrigerant circuit that connects a compressor, a first refrigerant flow switching device, a heat source side heat exchanger, a plurality of first expansion devices, and refrigerant side passages of a plurality of heat exchangers related to a heat medi

1. An air-conditioning apparatus, comprising: a refrigerant circuit that connects a compressor, a first refrigerant flow switching device, a heat source side heat exchanger, a plurality of first expansion devices, and refrigerant side passages of a plurality of heat exchangers related to a heat medium by refrigerant pipes, the refrigerant circuit circulating a heat source side refrigerant;a heat medium circuit that connects a pump, a use side heat exchanger, and heat medium side passages of the plurality of heat exchangers related to heat medium by heat medium pipes, the heat medium circuit circulating the heat medium; andthe heat source side refrigerant and the heat medium exchanging heat in each of the heat exchangers related to heat medium, whereina zeotropic refrigerant mixture, in which a saturated liquid refrigerant temperature is lower than a saturated gas refrigerant temperature under a same pressure condition, is used as the heat source side refrigerant,when at least one of the heat exchangers related to heat medium is functioning as an evaporator, an anti-freezing control that prevents the heat medium from freezing is executed if a temperature obtained by subtracting a freezing temperature correction value set as a positive value corresponding to a temperature difference between the saturated gas refrigerant temperature and the saturated liquid refrigerant temperature of the heat source side refrigerant from an evaporating temperature of the refrigerant in an inlet side of the at least one of the heat exchangers related to heat medium drops below an anti-freezing temperature, whereinthe freezing temperature correction value is obtained by multiplying a coefficient by the temperature difference between the saturated gas refrigerant temperature and the saturated liquid refrigerant temperature, or is obtained by multiplying a weighting coefficient by the saturated gas refrigerant temperature and the saturated liquid refrigerant temperature, and whereinthe coefficient is other than 1. 2. The air-conditioning apparatus of claim 1, wherein the refrigerant circuit is formed by connecting the compressor, the first refrigerant flow switching device, the heat source side heat exchanger, the plurality of first expansion devices, the refrigerant side passages of the plurality of heat exchangers related to heat medium, and a plurality of second refrigerant flow switching devices with the refrigerant pipes, andthe heat medium circuit is formed by connecting the pump, the use side heat exchanger, the heat medium side passages of the plurality of heat exchangers related to heat medium, and a heat medium flow switching device with the heat medium pipes, the heat medium flow switching device selectively allowing either one of a cooled heat medium or a heated heat medium to be passed to the use side heat exchanger. 3. The air-conditioning apparatus of claim 1, further comprising a high-low pressure bypass pipe that connects a discharge side and a suction side of the compressor,a second expansion device disposed in the high-low pressure bypass pipe, anda refrigerant-to-refrigerant heat exchanger that mutually exchanges heat between the high-low pressure bypass pipe before and after the second expansion device, whereina circulation composition that is a composition ratio of the heat source side refrigerant circulating in the refrigerant circuit is computed by using a low-pressure side pressure on a suction side of the compressor, a high-pressure side temperature on an inlet side of the second expansion device, and a low-pressure side temperature on an outlet side of the second expansion device, andthe freezing temperature correction value is obtained on the basis of the saturated liquid refrigerant temperature and the saturated gas refrigerant temperature of the heat source side refrigerant after the saturated liquid refrigerant temperature and the saturated gas refrigerant temperature of the heat source side refrigerant are computed from the circulation composition, or the freezing temperature correction value is obtained and is stored after being made to correspond with the circulation composition. 4. The air-conditioning apparatus of claim 3, wherein the freezing temperature correction value is substantially one half of the temperature difference between the saturated gas refrigerant temperature and the saturated liquid refrigerant temperature. 5. The air-conditioning apparatus of claim 3, wherein a frequency of the compressor is controlled on the basis of an evaporating temperature, which corresponds to a low-pressure side pressure, computed by a low-pressure side pressure on the suction side of the compressor and the circulation composition. 6. The air-conditioning apparatus of claim 1, wherein the anti-freezing control is executed such that the temperature of the heat source side refrigerant flowing in the plurality of heat exchangers related to heat medium is controlled to be a temperature that is higher than the temperature in which the heat medium in the heat exchanger related to heat medium freezes and clogs a passage. 7. The air-conditioning apparatus of claim 6, wherein the anti-freezing control is executed such that the frequency of the compressor is reduced. 8. The air-conditioning apparatus of claim 6, wherein the anti-freezing control is executed such that the compressor is stopped. 9. The air-conditioning apparatus of claim 6, wherein the anti-freezing control is executed such that opening degrees of the plurality of first expansion devices are increased. 10. The air-conditioning apparatus of claim 6, wherein the anti-freezing control is executed such that an opening degree of the first expansion device corresponding to the at least one of the heat exchangers related to heat medium that is functioning as an evaporator is set to a substantially closed state to prevent the heat source side refrigerant from flowing into the heat exchanger related to heat medium. 11. The air-conditioning apparatus of claim 6, wherein the anti-freezing control is executed such that either or all of the plurality of heat exchangers related to heat medium functioning as an evaporator is made to function as a condenser. 12. The air-conditioning apparatus of claim 1, further comprising an outdoor unit that houses the compressor, the first refrigerant flow switching device, and the heat source side heat exchanger,a heat medium relay unit that houses at least the heat exchangers related to heat medium, the first expansion devices, and the pump,an indoor unit that houses the use side heat exchanger,the outdoor unit, the heat medium relay unit, and the indoor unit being formed as respective separate housings that can be disposed at separate positions, anda controller that corresponds to each of the outdoor unit, the heat medium relay unit, and the indoor unit, whereinthe anti-freezing control is executed such that a correction value of an evaporating temperature corresponding to a low-pressure side pressure is communicated from a controller corresponding to the outdoor unit to a controller corresponding to the heat medium relay unit to raise the evaporating temperature corresponding to the low-pressure side pressure in the heat medium relay unit. 13. The air-conditioning apparatus of claim 1, comprising: a heating only operation mode in which all of the plurality of heat exchangers related to heat medium function as condensers,a cooling only operation mode in which all of the plurality of heat exchangers related to heat medium function as evaporators, anda cooling and heating mixed operation mode in which part of the plurality of heat exchangers related to heat medium functions as a condenser and other part of the remaining plurality of heat exchangers related to heat medium functions as an evaporator. 14. The air-conditioning apparatus of claim 1, wherein the refrigerant and the heat medium flow in parallel to each other in the at least one of the heat exchangers related to heat medium that is functioning as an evaporator. 15. The air-conditioning apparatus of claim 1, wherein a refrigerant mixture of at least a refrigerant expressed by a chemical formula C3H2F4 having a single double bond in a molecular structure and a refrigerant expressed by a chemical formula CH2F2 is used as the heat source side refrigerant.