Thermal management device for vehicle

What is claimed is: 1. A thermal management device for a vehicle comprising: a plurality of heat medium circuits that allow a heat medium to circulate therethrough separately; a reserve tank that is configured to separate an air bubble contained in the heat medium from the heat medium; a connector that allows the reserve tank to come in communication with the plurality of heat medium circuits selectively depending on degrees of heat loss in the plurality of heat medium circuits; and a controller that controls an operation of the connector, wherein when a specified time elapses after the reserve tank comes in communication with at least one heat medium circuit of the plurality of heat medium circuits, the controller controls the connector to allow the reserve tank to come in communication with an other heat medium circuit of the plurality of heat medium circuits other than the at least one heat medium circuit. 2. The thermal management device for a vehicle according to claim 1 , wherein the controller is further configured to determine whether a temperature difference of the heat medium between at least two heat medium circuits of the plurality of heat medium circuits is within a specified range, and control the connector to allow the reserve tank to come in communication with the at least two heat medium circuits upon determining the temperature difference of the heat medium is within the specified range. 3. The thermal management device for a vehicle according to claim 1 , further comprising: a heat medium cooling heat exchanger that is configured to cool the heat medium; and a cool-heat-medium heat exchanger that is configured to exchange heat with the heat medium cooled in the heat medium cooling heat exchanger, wherein one of the plurality of heat medium circuits is a cool heat medium circuit that allows the heat medium, which is cooled in the heat medium cooling heat exchanger, to circulate therethrough, and the controller, in a cooling operation in which the cool-heat-medium heat exchanger performs the heat exchange, controls the connector to operate an operation mode in which the reserve tank is in communication with the plurality of heat medium circuits other than the cool heat medium circuit and an operation mode in which the reserve tank is in communication with the cool heat medium circuit. 4. The thermal management device for a vehicle according to claim 3 , wherein the cool-heat-medium heat exchanger is an air cooling heat exchanger that is configured to perform a heat exchange between the heat medium, which is cooled in the heat medium cooling heat exchanger, and air, which is supplied to a vehicle compartment, thereby cooling the air. 5. The thermal management device for a vehicle according to claim 1 , further comprising: a heat-medium heating heat exchanger that is configured to heat the heat medium; and a warm-heat-medium heat exchanger that is configured to exchange heat with the heat medium heated in the heat-medium heating heat exchanger, wherein one of the plurality of heat medium circuits is a warm heat medium circuit that allows the heat medium, which is heated in the heat-medium heating heat exchanger, to circulate therethrough, and the controller, in a heating operation in which the warm-heat-medium heat exchanger performs the heat exchange, controls the connector to operate an operation mode in which the reserve tank is in communication with the plurality of heat medium circuits other than the warm heat medium circuit and an operation mode in which the reserve tank is in communication with the warm heat medium circuit. 6. The thermal management device for a vehicle according to claim 5 , wherein the warm-heat-medium heat exchanger is an air heating heat exchanger that is configured to perform a heat exchange between the heat medium, which is heated in the heat-medium heating heat exchanger, and air, which is supplied to the vehicle compartment, thereby heating the air. 7. The thermal management device for a vehicle according to claim 1 , further comprising a pipe that defines a passage therein allowing the heat medium to flow therethrough and connects the reserve tank to each of the plurality of the heat medium circuits, wherein the connector includes a switching valve that is configured to open and close the passage of the pipe. 8. The thermal management device for a vehicle according to claim 1 , further comprising a pipe that defines a passage therein allowing the heat medium to flow therethrough and connects the reserve tank to each of the plurality of the heat medium circuits, wherein the connector includes a shutoff valve that is configured to shutoff a transmission of a pressure among the plurality of heat medium circuits. 9. The thermal management device for a vehicle according to claim 1 , further comprising a pipe that defines a passage therein allowing the heat medium to flow therethrough and that connects the reserve tank to the plurality of heat medium circuits, wherein the pipe includes a common pipe that is connected to the reserve tank and a plurality of circuit pipes that branch from the common pipe toward the plurality of heat medium circuits, the plurality of heat medium circuits include a high-temperature heat medium circuit through which the heat medium in a high-temperature range flows and a low-temperature heat medium circuit through which the heat medium in a low-temperature range flows, the plurality of circuit pipes includes one circuit pipe connected to the high-temperature heat medium circuit and an other circuit pipe connected the low-temperature heat medium circuit, and the one circuit pipe is arranged closer to the reserve tank than the other circuit pipe. 10. The thermal management device for a vehicle according to claim 1 , further comprising a pipe that defines a passage therein allowing the heat medium to flow therethrough and that connects the reserve tank to the plurality of heat medium circuits, wherein the pipe includes a common pipe and a plurality of circuit pipes that branch from the common pipe toward the plurality of heat medium circuits, the plurality of heat medium circuits include a high-temperature heat medium circuit through which the heat medium in a high-temperature range flows and a low-temperature heat medium circuit through which the heat medium in a low-temperature range flows, the plurality of circuit pipes includes one circuit pipe connected to the high-temperature heat medium circuit and an other circuit pipe connected the low-temperature heat medium circuit, and the one circuit pipe has an inner diameter that is greater than an inner diameter of the other circuit pipe. 11. The thermal management device for a vehicle according to claim 1 , further comprising: a blower that is configured to blow air into a vehicle compartment; and an air-conditioning heat exchanger that is configured to perform a heat exchange between air blown by the blower and the heat medium, wherein the controller controls an operation of the connector to allow the reserve tank to come in communication with all of the plurality of heat medium circuits when the blower is stopped. 12. The thermal management device for a vehicle according to claim 1 , wherein the controller controls an operation of the connector to allow the reserve tank to come in communication with all of the plurality of heat medium circuits when the vehicle starts moving or after being stopped. 13. The thermal management device for a vehicle according to claim 1 , further comprising a high-temperature heat medium circuit that is one of the plurality of