Air-conditioning apparatus

The invention claimed is: 1. An air-conditioning apparatus comprising: a refrigeration cycle configured by connecting, by a refrigerant pipe, a compressor which compresses a heat-source-side refrigerant, a first intermediate heat exchanger which performs heat exchange between the heat-source-side refrigerant and a heat medium to cool the heat medium, an expansion device which decompresses the heat-source-side refrigerant, and a heat-source-side heat exchanger which performs heat exchange between outside air and the heat-source-side refrigerant, the refrigeration cycle including a bypass pipe for allowing part of or the entire heat-source-side refrigerant that is to flow in the first intermediate heat exchanger to perform bypassing, and a bypass device which is provided at the bypass pipe and which adjusts a flow rate of the heat-source-side refrigerant that performs bypassing; a heat medium circuit configured by connecting, by a heat medium pipe, a first pump which pressure-feeds the heat medium which has been cooled by the first intermediate heat exchanger, a use-side heat exchanger which performs heat exchange between the heat medium and air in an air-conditioned space, and the first intermediate heat exchanger; a refrigerant temperature detection device configured to detect a temperature of the heat-source-side refrigerant flowing into the first intermediate heat exchanger; first temperature detection device configured to detect a temperature of the heat medium circulating in the first intermediate heat exchanger; and a controller configured to adjust opening degrees of the expansion device and the bypass device, wherein, responsive to a case where the controller determines that the temperature of the heat-source-side refrigerant detected by the refrigerant temperature detection device has become lower than a predetermined refrigerant temperature: the bypass device is adjusted to open the opening degree thereof by the controller and the expansion device is also adjusted to close the opening degree thereof by the controller, and the first pump pressure-feeds the heat medium so that the use-side heat exchanger exchanges heat between the heat medium and the air in the air-conditioned space. 2. The air-conditioning apparatus of claim 1 , further comprising: a heat medium flow control device provided within the heat medium circuit and configured to adjust a flow rate of the heat medium flowing into the use-side heat exchanger, wherein the controller, in a heat medium temperature rise control, by adjusting an opening degree of the heat medium flow control device to adjust the flow rate of the heat medium flowing into the use-side heat exchanger, raises the temperature of the heat medium. 3. The air-conditioning apparatus of claim 2 , wherein the controller, in the heat medium temperature rise control, increases the opening degree of the heat medium flow control device such that the flow rate of the heat medium flowing into the use-side heat exchanger becomes greater than the flow rate before commencing the heat medium temperature rise control. 4. The air-conditioning apparatus of claim 3 , further comprising: a suction air temperature detection device configured to detect a suction air temperature of the use-side heat exchanger, wherein the controller, based on the suction air temperature detected by the suction air temperature detection device, increases the opening degree of the heat medium flow control device in a stepwise or continuous manner to increase the flow rate of the use-side heat exchanger. 5. The air-conditioning apparatus of claim 2 , further comprising a second temperature detection device configured to detect a temperature of the heat medium flowing in the heat medium flow control device, wherein, in the case where the controller determines that the temperature of the heat-source-side refrigerant detected by the refrigerant temperature detection device has become lower than the predetermined refrigerant temperature, the controller further: stores (a) the opening degree of the expansion device before adjusting the expansion device to close the opening degree thereof, and (b) the opening degree of the bypass device before adjusting the bypass device to open the opening degree thereof, controls the first pump to maintain the pressure-feed of the heat medium for at least a predetermined time until the temperature of the heat-source-side refrigerant becomes not higher than a predetermined heat medium temperature, responsive to the temperature of the heat-source-side refrigerant becoming not higher than the predetermined heat medium temperature, controls (a) the opening degree of the expansion device to become the stored opening degree of the expansion device, and (b) the opening degree of the bypass device to become the stored opening degree of the bypass device, which were stored before changing the opening degree. 6. The air-conditioning apparatus of claim 5 , wherein the controller determines the predetermined refrigerant temperature among one of a plurality of predetermined freezing refrigerant temperatures, based on the temperature of the heat-source-side refrigerant, wherein the temperature of the heat-source-side refrigerant represents a flow-passage wall-surface temperature of the heat medium pipe. 7. The air-conditioning apparatus of claim 1 , further comprising: a second intermediate heat exchanger configured to heat exchange between the heat-source-side refrigerant and the heat medium to heat the heat medium; and a second pump configured to pressure-feed the heat medium which has been heated by the second intermediate heat exchanger, wherein the use-side heat exchanger includes a plurality of use-side heat exchangers, wherein the heat medium circuit includes a cooling circulation circuit in which the heat medium which has been cooled by the first intermediate heat exchanger is pressure-fed to part of the plurality of use-side heat exchangers by the first pump, and a cooling operation is performed at the part of the plurality of use-side heat exchangers, a heating circulation circuit in which the heat medium which has been heated by the second intermediate heat exchanger is pressure-fed to part of the plurality of use-side heat exchangers by the second pump, and a heating operation is performed at the part of the plurality of use-side heat exchangers, and a mixing device configured to mix a heated heat medium flowing in the heating circulation circuit with a cooled heat medium flowing in the cooling circulation circuit, and wherein the controller, in a heat medium temperature rise control, causes the mixing device to mix at least part of the heated heat medium flowing in the heating circulation circuit with the heat medium flowing in the cooling circulation circuit. 8. The air-conditioning apparatus of claim 7 , wherein the mixing device includes heat medium flow switching devices corresponding to the plurality of use-side heat exchangers, and the heat medium flow switching devices each include one inflow-side part into which the heat medium flows in and two outflow-side parts from which the heat medium flows out, and are capable of continuously changing a ratio of the flow rates of the heat medium flowing out of the two outflow-side parts with a specific opening degree, wherein the inflow-side part is connected to an outflow side of the heat medium of the corresponding use-side heat exchanger, wherein one of the outflow-side parts is connected to an inflow side of the heat medium of the first intermediate heat exchanger, wherein the other one of the outflow-side parts is connected to an inflow side of the heat medium of the second intermediate heat exchanger, and wherein the controller, in the heat med