Thermal management system for electric vehicle and its control method

The invention claimed is: 1. A thermal management system for an electric vehicle that is used in the electric vehicle driven by an electric motor, comprising: a refrigerant loop for an air conditioner that includes a compressing unit for compressing a refrigerant for the air conditioner, a condensing unit for condensing the refrigerant for the air conditioner by radiating heat of the refrigerant for the air conditioner, a pressure reducing unit for expanding and reducing pressure of the refrigerant for the air conditioner, and an evaporating unit for evaporating the refrigerant for the air conditioner by allowing the refrigerant for the air conditioner to absorb heat, and that allows the refrigerant for the air conditioner to circulate; a refrigerant loop for a battery that allows a refrigerant for the battery to circulate among the battery that accumulates power to be supplied to the electric motor, the evaporating unit that is common to the refrigerant loop for the air conditioner, and a heating device that heats the refrigerant for the battery; a thermal management controlling unit adapted to allow the refrigerant for the battery to circulate during charging, during when the battery is in a state of accumulating power supplied from an external power supply, heat the refrigerant for the battery by using the heating device when temperature of the refrigerant for the battery is lower than target temperature of the refrigerant for the battery, and allow the refrigerant for the air conditioner to circulate and to absorb heat from the refrigerant for the battery, in the evaporating unit, when the temperature of the refrigerant for the battery is higher than the target temperature of the refrigerant for the battery, a refrigerant loop for a heater that allows a refrigerant for the heater to circulate through the condensing unit that is common to the refrigerant loop for the air conditioner; and a circulating unit of the refrigerant for the heater adapted to allow the refrigerant for the heater to circulate during charging of the battery, wherein the refrigerant loop for the heater includes an out-of-vehicle radiating device that radiates heat from the refrigerant for the heater to air outside the vehicle, and wherein, when temperature of the refrigerant for the heater is higher than upper-limit temperature during heating, the thermal management controlling unit allows heat to be radiated, in the out-of-vehicle radiating device, from the refrigerant for the heater, during charging of the battery. 2. The thermal management system for the electric vehicle according to claim 1 , wherein, when target blowout temperature of an air conditioning unit that adjusts temperature of air inside a cabin is higher than the temperature of the air inside the cabin, the target temperature of the refrigerant for the battery is set at allowable upper-limit temperature of the battery, and when the target blowout temperature of the air conditioning unit is lower than the temperature of the air inside the cabin, the target temperature of the refrigerant for the battery is set at allowable lower-limit temperature of the battery. 3. The thermal management system for the electric vehicle according to claim 1 , wherein the refrigerant loop for the heater includes an in-vehicle radiating device that radiates heat from the refrigerant for the heater to air introduced into the vehicle, and wherein, when target blowout temperature of an air conditioning unit is higher than temperature of air inside a cabin, and when temperature of the refrigerant for the heater is higher than lower-limit temperature during heating, the thermal management controlling unit allows heat to be radiated, in the in-vehicle radiating device, from the refrigerant for the heater, during charging of the battery. 4. The thermal management system for the electric vehicle according to claim 1 , wherein, when the battery is being charged and when target blowout temperature of an air conditioning unit is lower than temperature of air inside a cabin, the thermal management controlling unit allows heat to be radiated, in the out-of-vehicle radiating device, from the refrigerant for the heater, irrespective of the temperature of the refrigerant for the heater, when the refrigerant for the air conditioner is allowed to circulate. 5. The thermal management system for the electric vehicle according to claim 1 , wherein the heating device comprises the heater, the heater being an electric heater operated by power supplied from the battery. 6. The thermal management system for the electric vehicle according to claim 1 , wherein the evaporating unit is formed by a first evaporating device, in which the refrigerant for the air conditioner absorbs heat from air introduced into the vehicle, and a second evaporating device provided along the refrigerant loop for the air conditioner in parallel with the first evaporating device, in which the refrigerant for the air conditioner absorbs heat from the refrigerant for the battery, and wherein a switching unit adapted to allow the refrigerant for the air conditioner to circulate to at least one of a side of the first evaporating device or a side of the second evaporating device is provided. 7. The thermal management system for the electric vehicle according to claim 1 , wherein the evaporating unit is formed by a first evaporating device, in which the refrigerant for the air conditioner absorbs heat from air introduced inside the vehicle, and a second evaporating device provided along the refrigerant loop for the air conditioner in series with the first evaporating device, in which the refrigerant for the air conditioner absorbs heat from the refrigerant for the battery. 8. The thermal management system for the electric vehicle according to claim 1 , wherein air is used as the refrigerant for the battery in the refrigerant loop for the battery. 9. A control method of a thermal management system for an electric vehicle that is used in the electric vehicle driven by an electric motor, wherein the thermal management system for the electric vehicle comprises a refrigerant loop for an air conditioner that includes a compressing unit for compressing a refrigerant for the air conditioner, a condensing unit for condensing the refrigerant for the air conditioner by radiating heat of the refrigerant for the air conditioner, a pressure reducing unit for expanding and reducing pressure of the refrigerant for the air conditioner, and an evaporating unit for evaporating the refrigerant for the air conditioner by allowing the refrigerant for the air conditioner to absorb heat, and that allows the refrigerant for the air conditioner to circulate, a refrigerant loop for a battery that allows a refrigerant for the battery to circulate among the battery that accumulates power to be supplied to the electric motor, the evaporating unit that is common to the refrigerant loop for the air conditioner, and a heating device that heats the refrigerant for the battery, a refrigerant loop for a heater that allows a refrigerant for the heater to circulate through the condensing unit that is common to the refrigerant loop for the air conditioner; and a circulating unit of the refrigerant for the heater adapted to allow the refrigerant for the heater to circulate during charging of the battery, wherein the control method comprises: allowing the refrigerant for the battery to circulate during charging, during when the battery is in a state of accumulating power supplied from an external power supply; heating the refrigerant for the battery by using the heating device when temperature of the refrigerant for the battery is lower than target temperature of the refrigerant for the battery;