Heat pump system for vehicle

What is claimed is: 1. A heat pump system for a vehicle, comprising: a compressor mounted on a refrigerant circulation line for compressing and discharging refrigerant; an internal heat exchanger mounted inside an air-conditioning case for exchanging heat between the air inside the air-conditioning case and the refrigerant discharged from the compressor; an evaporator mounted inside the air-conditioning case for exchanging heat between the air inside the air-conditioning case and the refrigerant supplied to the compressor; an external heat exchanger mounted outside the air-conditioning case for exchanging heat between the refrigerant circulating through the refrigerant circulation line and an outdoor air; a coolant circulation line configured to circulate coolant toward electronics of the vehicle to cool the electronics; and a refrigerant-coolant heat exchanger configured to exchange heat between the refrigerant circulating through the refrigerant circulation line and the coolant circulating through the coolant circulation line, wherein an air-cooling radiator is mounted on the coolant circulation line to cool the coolant circulating through the coolant circulation line, and wherein the refrigerant-coolant heat exchanger is mounted inside the air-cooling radiator, wherein the refrigerant circulation line is configured in such a way that the refrigerant circulates in order of the compressor, the internal heat exchanger, the refrigerant-coolant heat exchanger, the external heat exchanger, the first expansion valve, the evaporator and the compressor in the air-conditioning mode, so that the refrigerant circulating in the refrigerant circulation line radiates heat to the coolant and the outdoor air through the refrigerant-coolant heat exchanger and the external heat exchanger. 2. The heat pump system according to claim 1 , further comprising: first expansion valve mounted on the refrigerant circulation line located at an inlet of the evaporator to expand the refrigerant supplied to the evaporator; and second expansion valve mounted on the refrigerant circulation line located at an outlet of the internal heat exchanger to selectively expand refrigerant discharged from the internal heat exchanger. 3. The heat pump system according to claim 2 , wherein the refrigerant circulation line is configured in such a way that the refrigerant circulates in order of the compressor, the internal heat exchanger, the second expansion valve, the external heat exchanger, the refrigerant-coolant heat exchanger and the compressor in the heat pump mode, so that the refrigerant circulating in the refrigerant circulation line absorbs heat from the outdoor air and the coolant through the external heat exchanger and the refrigerant-coolant heat exchanger. 4. The heat pump system according to claim 2 , wherein the refrigerant circulation line comprises two lines diverging in the refrigerant circulation line located at the outlet of the internal heat exchanger, the two lines including: a first refrigerant circulation line which is configured in such a way that the refrigerant discharged from the internal heat exchanger circulates in order of the refrigerant-coolant heat exchanger, the external heat exchanger, the first expansion valve, the evaporator and the compressor in the air-conditioning mode; and a second refrigerant circulation line which is configured in such a way that the refrigerant discharged from the internal heat exchanger circulates in order of the second expansion valve, the external heat exchanger, the refrigerant-coolant heat exchanger and the compressor in the heat pump mode. 5. The heat pump system according to claim 1 , wherein the air-cooling radiator comprises: a pair of header tanks which have an inlet pipe and an outlet pipe to be connected with the coolant circulation line and are spaced apart from each other at a predetermined interval; a plurality of tubes of which both end portions are connected to the header tanks to communicate the header tanks with each other; and radiation fins which are interposed among the tubes, wherein the refrigerant-coolant heat exchanger is inserted and mounted into the header tank of the two header tanks. 6. The heat pump system according to claim 5 , wherein the inlet and outlet pipes are spaced apart from each other on the header tank opposed to the header tank on which the refrigerant-coolant heat exchanger is mounted, and a partition wall for partitioning the inside of the header tank is mounted inside the header tank between the inlet pipe and the outlet pipe, so that the coolant flowing into the inlet pipe is discharged to the outlet pipe by making a U-turn at the header tank in which the refrigerant-coolant heat exchanger is mounted. 7. The heat pump system according to claim 5 , wherein the inlet pipe is disposed in one of the header tank of the two header tanks, and the outlet pipe is disposed in the other header tank, and wherein a four-way valve for reversely converting the flow direction of the coolant circulating through the coolant circulation line is mounted on the coolant circulation line. 8. The heat pump system according to claim 4 , wherein a first direction changing valve is mounted at the diverging point between the first refrigerant circulation line and the second refrigerant circulation line to regulate a flow direction of the refrigerant discharged from the internal heat exchanger to the first refrigerant circulation line or the second refrigerant circulation line according to the air-conditioning mode or the heat pump mode. 9. The heat pump system according to claim 4 , wherein a bypass line is mounted on the second refrigerant circulation line in parallel so that the refrigerant circulating the second refrigerant circulation line bypasses the external heat exchanger, and wherein a second direction changing valve for regulating the flow direction of the refrigerant is mounted at a diverging point of the second refrigerant circulation line and the bypass line. 10. The heat pump system according to claim 9 , wherein an inlet of the bypass line is connected with the second refrigerant circulation line located at an inlet of the external heat exchanger, and wherein an outlet of the bypass line is connected with the second refrigerant circulation line located at an outlet of the external heat exchanger. 11. The heat pump system according to claim 5 , wherein a first on-off valve is mounted at the first refrigerant circulation line located at the outlet of the external heat exchanger to regulate the flow of the refrigerant. 12. The heat pump system according to claim 4 , wherein a second on-off valve is mounted at the second refrigerant circulation line located at an outlet of the refrigerant-coolant heat exchanger to regulate the flow of the refrigerant. 13. The heat pump system according to claim 11 , wherein in a dehumidification mode under the heat pump mode, the first on-off valve is opened so that some of the refrigerant passing through the second expansion valve in the second refrigerant circulation line is supplied to the first expansion valve and the evaporator through the first refrigerant circulation line. 14. The heat pump system according to claim 4 , wherein the first refrigerant circulation line and the second refrigerant circulation line diverging from the refrigerant circulation line at the outlet of the internal heat exchanger are formed into a single line in a section ranging from the external heat exchanger to the refrigerant-coolant heat exchanger, so that the refrigerant flows reversely in the single line section in the air-conditioning mode and the heat pump mode.