Refrigeration cycle apparatus

The invention claimed is: 1. A refrigeration cycle apparatus comprising: a refrigerant circuit formed by connecting refrigerant pipes, a compressor, a condenser, a first subcooling device, a second subcooling device, a flow controller, a bypass pipe, a pressure reducing device, and an evaporator, the compressor configured to compress refrigerant; the condenser configured to condense the refrigerant; the first subcooling device configured to cause heat exchange between the refrigerant and an air and to subcool the refrigerant; the second subcooling device configured to cause heat exchange between first and second streams of the refrigerant obtained by branching by a branch pipe for causing the refrigerant to branch off and to subcool the first stream of the refrigerant relating to the branching; the flow controller configured to adjust a flow rate of the second stream of the refrigerant relating to the branching with an adjustable opening degree of the flow controller and to cause the second stream of the refrigerant to flow through the second subcooling device; the bypass pipe that allows the refrigerant passing through the flow controller and the second subcooling device to flow therethrough; the pressure reducing device configured to reduce pressure of the refrigerant; the evaporator configured to cause the refrigerant to evaporate; a fan configured to convey the air to the first subcooling device; and a controller configured to control an amount of heat exchanged in the first subcooling device by controlling a rotation speed of the fan to control an amount of the air exchanging heat with the refrigerant in the first subcooling device based on a temperature of the air, control an amount of heat exchanged in the second subcooling device by controlling the opening degree of the flow controller based on the temperature of the air, change a subcooling ratio which is a ratio of an amount of cooling in the second subcooling device to a total amount of cooling which is a sum of an amount of cooling in the first subcooling device and the amount of cooling in the second subcooling device, such that in accordance with a decrease in the temperature of the air, the controller controls to decrease the subcooling ratio by performing control of the rotation speed of the fan and/or performing control of the opening degree of the flow controller such that, in accordance with the decrease in the temperature of the air, the amount of heat exchanged in the first subcooling device becomes larger as compared to the amount of heat exchanged in the second subcooling device in an operation after activation of the refrigeration cycle apparatus. 2. The refrigeration cycle apparatus of claim 1 , wherein the controller is further configured to control the opening degree of the flow controller of the second subcooling device at control time intervals shorter than those for controlling the rotation speed of the fan of the first subcooling device. 3. The refrigeration cycle apparatus of claim 1 , wherein the compressor includes an injection pipe and is capable of receiving an incoming refrigerant through the injection pipe in an intermediate section in a compression stroke and of discharging the refrigerant therefrom, and the bypass pipe is connected to the injection pipe. 4. The refrigeration cycle apparatus of claim 1 , wherein the bypass pipe is connected to a pipe on a suction side of the compressor. 5. The refrigeration cycle apparatus of claim 4 , wherein the bypass pipe connected to the pipe on the suction side of the compressor extends from the second subcooling device to the suction side of the compressor. 6. The refrigeration cycle apparatus of claim 1 , further comprising a shared fan configured to convey the air to both the condenser and the first subcooling device. 7. The refrigeration cycle apparatus of claim 1 , wherein the controller is further configured to selectively adjust the subcooling ratio which is the ratio of an amount of cooling in the second subcooling device to the total amount of cooling in both the first subcooling device and the second subcooling device to suppress an electrical input requirement of both the fan and the compressor. 8. The refrigeration cycle apparatus of claim 1 , further comprising a condenser fan configured to convey air to the condenser configured to condense the refrigerant, wherein the controller is configured to selectively control the condenser fan of the condenser and the fan of the first subcooling device. 9. The refrigeration cycle apparatus of claim 1 , further comprising a reservoir fluidly connected to the refrigerant circuit at a position in the refrigerant circuit between the condenser and the first subcooling device, wherein the first subcooling device is directly connected to both the reservoir and the second subcooling device in the refrigerant circuit. 10. The refrigeration cycle apparatus of claim 1 , wherein the controller is configured to set a first control-time interval to control the rotation speed of the fan of the first subcooling device and a second control-time interval to control the opening degree of the flow controller of the second subcooling device, and the controller is further configured to set the first control-time interval of the first subcooling device to be different than the second control-time interval of the second subcooling device. 11. The refrigeration cycle apparatus of claim 10 , wherein the controller is further configured to set the first control-time interval of the first subcooling device to be longer than the second control-time interval of the second subcooling device.