Vehicle air conditioning system and vehicle air conditioning method

The invention claimed is: 1. A vehicle air conditioning system, comprising: a refrigerant circuit in which a refrigerant circulates in accordance with a refrigeration cycle; a heat medium circuit including a high-temperature medium circuit in which a heat medium absorbing heat from the refrigerant in the refrigerant circuit circulates and a low- temperature medium circuit in which a heat medium dissipating heat to the refrigerant in the refrigerant circuit circulates; a vehicle-interior heat exchanger configured to exchange heat between the heat medium and air; a vehicle-exterior heat exchanger configured to exchange heat between the heat medium and air and including a first heat exchanger and a second heat exchanger disposed in series with respect to a flow of air generated by an air blower; a switching unit configured to switch a flow of the heat medium; a detection unit configured to detect a degree of frost formation on each of the first heat exchanger and the second heat exchanger; and a control device configured to control operation of the switching unit in accordance with an operation mode of the vehicle air conditioning system, wherein the operation mode includes a defrosting mode in which the heat medium in the high-temperature medium circuit is supplied to a defrosting target to be selected as either the first heat exchanger or the second heat exchanger connected in parallel in the heat medium circuit by the operation of the switching unit, and in selecting the defrosting target by the operation of the switching unit and on the basis of a detection result of the degree of frost formation by the detection unit, the control device selects the first heat exchanger as the defrosting target when it is determined that only the first heat exchanger needs to be defrosted, selects the second heat exchanger as the defrosting target when it is determined that only the second heat exchanger needs to be defrosted, and selects, as the defrosting target, the first heat exchanger located on an upwind side in preference to the second heat exchanger located on a downwind side when it is determined that both the first heat exchanger and the second heat exchanger need to be defrosted. 2. The vehicle air conditioning system according to claim 1 , wherein the control device includes a defrosting necessity determination unit configured to determine necessity of defrosting each of the first heat exchanger and the second heat exchanger on the basis of the detection result and a defrosting target selection unit configured to select the defrosting target on the basis of the necessity of defrosting determined by the defrosting necessity determination unit while giving preference to the first heat exchanger on the upwind side, and the defrosting target selection unit starts a first defrosting processing for supplying the heat medium in the high-temperature medium circuit to the first heat exchanger as the defrosting target when it is determined that the first heat exchanger needs to be defrosted, terminates the first defrosting processing after start of the first defrosting processing and when it is determined that the first heat exchanger no longer needs to be defrosted, starts a second defrosting processing for supplying the heat medium in the high-temperature medium circuit to the second heat exchanger as the defrosting target when it is determined that the second heat exchanger needs to be defrosted and when it is determined that the first heat exchanger does not need to be defrosted, and terminates the second defrosting processing after start of the second defrosting processing and when it is determined that the first heat exchanger needs to be defrosted or when it is determined that the second heat exchanger no longer needs to be defrosted. 3. The vehicle air conditioning system according to claim 1 , wherein the detection unit includes a first temperature detection unit configured to detect temperature information indicating a temperature decrease of the heat medium due to a frost formation on the first heat exchanger and a second temperature detection unit configured to detect temperature information indicating a temperature decrease of the heat medium due to a frost formation on the second heat exchanger. 4. The vehicle air conditioning system according to claim 1 , wherein the operation mode includes a heating mode in which the heat medium in the low-temperature medium circuit is supplied to the first heat exchanger and the second heat exchanger connected in series by the operation of the switching unit, and in the heating mode, the heat medium flows through the second heat exchanger and the first heat exchanger from the downwind side to the upwind side. 5. The vehicle air conditioning system according to claim 1 , wherein the switching unit includes a three-way valve located between the first heat exchanger and the second heat exchanger. 6. A vehicle air conditioning method using a vehicle air conditioning system, the vehicle air conditioning system comprising: a refrigerant circuit in which a refrigerant circulates in accordance with a refrigeration cycle; a heat medium circuit including a high-temperature medium circuit in which a heat medium absorbing heat from the refrigerant in the refrigerant circuit circulates and a low-temperature medium circuit in which the heat medium dissipating heat to the refrigerant in the refrigerant circuit circulates; a vehicle-interior heat exchanger configured to exchange heat between the heat medium and air; a vehicle-exterior heat exchanger configured to exchange heat between the heat medium and air and including a first heat exchanger and a second heat exchanger disposed in series with respect to a flow of air generated by an air blower; and a switching unit configured to switch a flow of the heat medium, the vehicle air conditioning method comprising: in supplying the heat medium in the high-temperature medium circuit to a defrosting target to be selected as either the first heat exchanger or the second heat exchanger connected in parallel by operation of the switching unit and on the basis of a detection result of a degree of frost formation on each of the first heat exchanger located on an upwind side and the second heat exchanger located on a downwind side, selecting the first heat exchanger as the defrosting target when it is determined that only the first heat exchanger needs to be defrosted; selecting the second heat exchanger as the defrosting target when it is determined that only the second heat exchanger needs to be defrosted; and selecting, as the defrosting target, the first heat exchanger in preference to the second heat exchanger when it is determined that both the first heat exchanger and the second heat exchanger need to be defrosted. 7. The vehicle air conditioning method according to claim 6 , comprising: in defrosting each of the first heat exchanger and the second heat exchanger while selecting the defrosting target on the basis of the degree of frost formation determined by the detection result while giving preference to the first heat exchanger, starting a first defrosting processing for supplying the heat medium in the high-temperature medium circuit to the first heat exchanger as the defrosting target if it is determined that the first heat exchanger needs to be defrosted; terminating the first defrosting processing after start of the first defrosting processing and if it is determined that the first heat exchanger no longer needs to be defrosted; starting a second defrosting processing for supplying the heat medium in the high-temperature medium circuit to the second heat exchanger as the defrosting target when it is determined that the second heat exchanger needs to be d