Thermal management system for vehicle

What is claimed is: 1. A thermal management system for a vehicle, comprising: a compressor that draws and discharges a refrigerant in a refrigeration cycle; an air heater that heats air to be blown into a vehicle interior by using heat of a high-pressure side refrigerant in the refrigeration cycle; a chiller that cools a heat medium by exchanging heat between a low-pressure side refrigerant in the refrigeration cycle and the heat medium; a cooler core that cools the air by exchanging heat between the air and the heat medium cooled by the chiller; a cooler cooling circuit that causes the heat medium to circulate through the chiller and the cooler core; a cooler pump that draws and discharges the heat medium in the cooler cooling circuit; an engine cooling circuit in which an engine is disposed, the heat medium circulating in the engine cooling circuit circulates through the engine; an engine pump that draws and discharges the heat medium in the engine cooling circuit; an engine radiator that exchanges heat between the heat medium in the engine cooling circuit and outside air; a switching device that switches between an independent mode in which the heat medium circulates respectively independently through the cooler cooling circuit and the engine cooling circuit, and a communication mode in which the cooler cooling circuit and the engine cooling circuit communicate with each other to cause the heat medium to flow between the chiller and the engine radiator; and a controller that controls an operation of the switching device to switch to the communication mode when a temperature of the heat medium in the engine cooling circuit is lower than a first heat-medium temperature, wherein in the communication mode, the switching device is capable of setting a cooler core communication mode in which the cooler cooling circuit and the engine cooling circuit communicate with each other to cause the heat medium to flow even between the chiller and the cooler core. 2. The thermal management system for a vehicle according to claim 1 , wherein even if the temperature of the heat medium in the engine cooling circuit is lower than the first heat-medium temperature, the controller controls the operation of the switching device to be in the independent mode, (i) when a volume of the air blowing to the air heater is smaller than a value, (ii) when the air blowing to the air heater is stopped, or (iii) when the air heater does not use heat of the high-pressure side refrigerant. 3. The thermal management system for a vehicle according to claim 1 , wherein the controller controls the operation of the switching device to be in the cooler core communication mode during dehumidifying and air-heating of the vehicle interior in the communication mode, (i) when a difference between a temperature of air blowing from the cooler core and a target cooler-core blowing temperature is less than a predetermined value and the temperature of the air blowing from the air heater is lower than a target heating temperature by a predetermined temperature or more, or (ii) when air-heating performance does not satisfy a predetermined performance. 4. The thermal management system for a vehicle according to claim 3 , further comprising: an engine-radiator flow-rate adjustment device that adjusts a flow rate of the heat medium flowing in the engine radiator; and a refrigerant flow-rate adjustment device that adjusts a flow rate of the refrigerant flowing through the refrigeration cycle, wherein the controller controls an operation of the engine-radiator flow-rate adjustment device or the refrigerant flow-rate adjustment device in the cooler core communication mode in such a manner that a temperature in connection with the temperature of the air blowing from the cooler core approaches the first target blowing temperature, and that a temperature in connection with the temperature of the air blowing from the air heater approaches a second target blowing temperature. 5. The thermal management system for a vehicle according to claim 1 , wherein the switching device is capable of communicating the cooler cooling circuit with the engine cooling circuit so as to cause the heat medium to flow between the cooler core and the engine radiator. 6. The thermal management system for a vehicle according to claim 1 , wherein the controller controls the operation of the switching device to switch to the independent mode when a temperature of the heat medium in the engine cooling circuit exceeds a second heat-medium temperature in the communication mode. 7. The thermal management system for a vehicle according to claim 1 , further comprising: a communication flow path that communicates the cooler cooling circuit with the engine cooling circuit in either the independent mode or the communication mode; and a reserve tank disposed in the engine cooling circuit or the cooler cooling circuit, and adapted to store the heat medium. 8. The thermal management system for a vehicle according to claim 7 , wherein the communication flow path communicates a part of the cooler cooling circuit located on a heat-medium discharge side of the cooler pump and on a heat-medium inlet side of the cooler core with a part of the engine cooling circuit located on a heat-medium discharge side of the engine pump and on a heat-medium inlet side of the engine radiator. 9. The thermal management system for a vehicle according to claim 7 , further comprising an engine-radiator flow path that communicates the cooler cooling circuit with the engine cooling circuit, wherein the switching device switches between the independent mode and the communication mode by switching between a state in which the heat medium in the engine cooling circuit flows through the engine-radiator flow path and a state in which the heat medium in the engine cooling circuit does not flow through the engine-radiator flow path. 10. The thermal management system for a vehicle according to claim 1 , wherein the controller stops the compressor while controlling the operation of the switching device such that the heat medium flows between the cooler core and the engine radiator, when the temperature of the heat medium in the engine cooling circuit is lower than a third heat-medium temperature and a temperature of the outside air is lower than a first outside-air temperature. 11. The thermal management system for a vehicle according to claim 1 , further comprising: a radiator bypass flow path that causes the heat medium in the engine cooling circuit to flow while bypassing the engine radiator; and an engine heat-absorption flow path that connects the radiator bypass flow path to the switching device, wherein the switching device switches between a state in which the heat medium in the engine cooling circuit flows through the radiator bypass flow path and a state in which the heat medium in the engine cooling circuit does not flow through the radiator bypass flow path. 12. The thermal management system for a vehicle according to claim 11 , wherein the controller controls the operation of the switching device to switch to the state in which the heat medium in the engine cooling circuit flows through the radiator bypass flow path, when a temperature of the outside air is lower than a second outside air temperature. 13. The thermal management system for a vehicle according to claim 1 , further comprising: a request outputting portion that outputs a request for increasing an amount of exhaust heat from the engine, a request for increasing an operating rate of the engine, a request for increasing a temperature of the heat medium in the engine cooling circuit,