Air-conditioning apparatus

The invention claimed is: 1. An air-conditioning apparatus in which a refrigeration cycle is formed by connecting a compressor, a refrigerant flow channel switching device, a first heat exchanger, a first expansion device, and a second heat exchanger to one another with a refrigerant pipe and by causing a refrigerant that is a refrigerant mixture to circulate within the refrigerant pipe, the air-conditioning apparatus comprising: a pressure bypass pipe that connects a flow channel at a discharge side of the compressor and a flow channel at a suction side of the compressor; a second expansion device that is disposed in the pressure bypass pipe and decompresses the refrigerant flowing through the pressure bypass pipe; an inter-refrigerant heat exchanger that performs heat exchange between the refrigerant flowing on a front side of the second expansion device through the pressure bypass pipe and the refrigerant flowing on a behind side of the second expansion device through the pressure bypass pipe; a bypass-channel opening and closing device that is disposed in the pressure bypass pipe and opens and closes the flow channel of the pressure bypass pipe; and a controller, the controller is configured to calculate a composition ratio of the refrigerant mixture by using a low-pressure-side pressure of the refrigerant to be sucked into the compressor, a high-pressure-side temperature of the refrigerant at an inlet side of the second expansion device in the pressure bypass pipe, and a low-pressure-side temperature of the refrigerant at an outlet side of the second expansion device in the pressure bypass pipe, determine whether an operating state of the refrigeration cycle is a stable state in which all of the low-pressure-side pressure, the low-pressure-side temperature of the refrigerant at the outlet side of the second expansion device in the pressure bypass pipe, and the high-pressure-side temperature of the refrigerant at the inlet side of the second expansion device in the pressure bypass pipe are within respective predetermined ranges while the refrigeration cycle is in operation, close the bypass-channel opening and closing device when the refrigeration cycle is determined to be in the stable state, and then not re-calculate the composition ratio of the refrigerant mixture, and open the bypass-channel opening and closing device when the refrigeration cycle is determined to be not in the stable state, and then after opening the bypass-channel opening and closing device, re-calculate the composition ratio of the refrigerant mixture and control the compressor and the first expansion device on a basis of a result of the re-calculation of the composition ratio of the refrigerant mixture. 2. The air-conditioning apparatus of claim 1 , wherein, after the controller has opened the bypass-channel opening and closing device when the refrigeration cycle is determined to be not in the stable state, the controller is further configured to determine whether the refrigeration cycle becomes in the stable state, close the bypass-channel opening and closing device when the refrigeration cycle is determined to become in the stable state, and continue to maintain the bypass-channel opening and closing device in the open state when the refrigeration cycle is determined to not become in the stable state. 3. The air-conditioning apparatus of claim 1 , wherein the controller determines that the low-pressure-side pressure has been within the predetermined range when an amount of change in the low-pressure-side pressure that is a deviation from a value of the low-pressure-side pressure observed when the low-pressure-side pressure is in the stable state while the refrigeration cycle is in operation is less than ±0.025 MPa; and the controller determines that the low-pressure-side pressure is not within the predetermined range when an amount of change in the low-pressure-side pressure that is a deviation from the value of the low-pressure-side pressure observed when the low-pressure-side pressure is in the stable state while the refrigeration cycle is in operation is ±0.025 MPa or more. 4. The air-conditioning apparatus of claim 1 , wherein the controller determines that the low-pressure-side temperature is within a predetermined range when an amount of change in the low-pressure-side temperature that is a deviation from a value of the low-pressure-side temperature observed when the low-pressure-side temperature is in the stable state while the refrigeration cycle is in operation is less than ±1 degree C.; and the controller determines that the low-pressure-side temperature is not within the predetermined range when an amount of change in the low-pressure-side temperature that is a deviation from the value of the low-pressure-side temperature observed when the low-pressure-side temperature is in the stable state while the refrigeration cycle is in operation is ±1 degree C. or more. 5. The air-conditioning apparatus of claim 1 , wherein the controller determines that the high-pressure-side temperature is within the predetermined range when an amount of change in the high-pressure-side temperature that is a deviation from a value of the high-pressure-side temperature observed when the high-pressure-side temperature is in the stable state while the refrigeration cycle is in operation is less than ±10 degrees C.; and the controller determines that the high-pressure-side temperature is not within the predetermined range when an amount of change in the high-pressure-side temperature that is a deviation from the value of the high-pressure-side temperature observed when the high-pressure-side temperature is in the stable state while the refrigeration cycle is in operation is ±10 degrees C. or more. 6. The air-conditioning apparatus of claim 2 , wherein when the controller has predicted that the state of the refrigeration cycle will change since a state of a driving component forming the refrigeration cycle has changed, the controller, while opening the bypass-channel opening and closing device, when the first preset time elapses or when each of the low-pressure-side pressure, the low-pressure-side temperature, and the high-pressure-side temperature has been within the respective predetermined range again, closes the bypass-channel opening and closing device; and maintains a closed state of the bypass-channel opening and closing device until the second preset time elapses or until each of the low-pressure-side pressure, the low-pressure-side temperature and the high-pressure-side temperature has been within the respective predetermined range again. 7. The air-conditioning apparatus of claim 6 , wherein, when the compressor is started or when the refrigerant flow channel switching device performs a switching operation, the controller predicts that the state of the refrigeration cycle will change. 8. The air-conditioning apparatus of claim 6 , wherein a plurality of the second heat exchangers are provided, and the air-conditioning apparatus has a heating only operation mode in which all of the second heat exchangers in operation generate heating energy, a cooling only operation mode in which all of the second heat exchangers in operation generate cooling energy, and a cooling and heating mixed operation mode in which at least one of the second heat exchangers in operation generates heating energy and rest of the second heat exchangers in operation generates cooling energy; and when there has been a change in an operation mode among the operation modes, the controller predicts that the state of the refrigeration cycle will change. 9. The air-conditioning apparatus of claim 1 , wherein a first unit in which the compressor, the refrigerant flow channel switchi