Heat pump system for vehicle

What is claimed is: 1. A heat pump system for a vehicle in which an interior heat exchanger and an evaporator mounted inside an air-conditioning case and a compressor and an exterior heat exchanger mounted outside the air-conditioning case are connected to a refrigerant circulation line and in which refrigerant circulates the compressor, the interior heat exchanger, the exterior heat exchanger and the evaporator in order, wherein the heat pump system comprises: a bypass line which is mounted in a specific zone of the refrigerant circulation line, such that the refrigerant circulating along the refrigerant circulation line selectively bypasses the evaporator; and a first complex valve device including a three-way valve, an on-off valve and connection blocks, wherein the three-way valve, on-off valve, and connection blocks are formed integrally with one another, wherein the three-way valve is connected to the refrigerant circulation line of an inlet of the exterior heat exchanger such that the refrigerant selectively bypasses the exterior heat exchanger, the on-off valve is connected to an inlet of the bypass line to open and close the bypass line, and the connection blocks connect the three-way valve and the on-off valve with the refrigerant circulation line of an outlet of the exterior heat exchanger to communicate with each other. 2. The heat pump system according to claim 1 , wherein the first complex valve device includes an expansion means, wherein the expansion means is connected to an inlet of the three-way valve to selectively expand refrigerant discharged from the interior heat exchanger. 3. The heat pump system according to claim 2 , wherein the expansion means further includes: a second on-off valve is mounted to connect the refrigerant circulation lines of the inlet of the three-way valve and an outlet of the interior heat exchanger to regulate a flow of the refrigerant; and an orifice disposed integrally with the second on-off valve to expand the refrigerant, wherein the expansion means makes the refrigerant flow in an unexpanded state when the second on-off valve is opened but makes the refrigerant flow in an expanded state through the orifice when the second on-off valve is closed. 4. The heat pump system according to claim 3 , wherein the second on-off valve further includes: a flow channel formed to make the refrigerant flow inside the second on-off valve; and a valve member mounted to open and close the flow channel, wherein the orifice is formed on the valve member. 5. The heat pump system according to claim 4 , wherein the valve member includes: a shaft connected with an operating device mounted at one side of the second on-off valve; and a valve plate formed on the shaft to open and close the flow channel, wherein the orifice is formed through the valve plate of the valve member. 6. The heat pump system according to claim 4 , wherein the valve member further includes: a hollow shaft connected with an operating device mounted at one side of the second on-off valve; and a valve plate formed on the shaft to open and close the flow channel, wherein the orifice is formed through the inside and outside of the hollow shaft of the valve member. 7. The heat pump system according to claim 2 , wherein the three-way valve includes: one inlet connected with the expansion means; two outlets which are branched from the inlet and respectively connected with the refrigerant circulation line of the inlet of the exterior heat exchanger and the connection block; and a valve for selectively opening and closing the two outlets. 8. The heat pump system according to claim 1 , wherein the connection blocks include a four-way flow channel formed to communicatably connect the three-way valve, the on-off valve and the refrigerant circulation line of the outlet of the exterior heat exchanger. 9. The heat pump system according to claim 1 , further comprising: a second complex valve device which is mounted on the refrigerant circulation line of the inlet of the evaporator, wherein the second complex valve includes: an expansion valve having an expansion channel for expanding the refrigerant supplied to the evaporator; and a third on-off valve for regulating a flow of the refrigerant passing the expansion channel, wherein the expansion valve and the third on-off valve are formed integrally with each other. 10. The heat pump system according to claim 9 , wherein the expansion valve further includes: a main body connected with the refrigerant circulation line, wherein the main body has the expansion channel for expanding the refrigerant; a communication channel in which the refrigerant passing the expansion channel flows; and an opening and closing means mounted on the main body to open and close the expansion channel. 11. The heat pump system according to claim 10 , wherein the expansion valve further includes a notch formed on the inner face of the expansion channel, such that some of the refrigerant flows through the expansion channel even though the expansion channel is closed by the opening and closing means. 12. The heat pump system according to claim 10 , wherein the opening and closing means includes: a ball arranged at one side of the expansion channel to open and close the expansion channel; and an operating shaft elevatably mounted inside the main body to operate the ball. 13. The heat pump system according to claim 10 , wherein the third on-off valve includes: an operating device joined to one side of the main body; and an operating valve reciprocatably mounted on the operating device to open and close the communication channel. 14. The heat pump system according to claim 13 , wherein the operating device is a solenoid which makes the operating valve carry out a rectilinearly reciprocating motion. 15. The heat pump system according to claim 1 , wherein a water cooling type heat exchanger is mounted on the bypass line and includes: a refrigerant heat exchanging part in which the refrigerant flowing the bypass line flows to supply waste heat of an electronic unit of the vehicle to the refrigerant; and a cooling water heat exchanging part which is disposed at one side of the refrigerant heat exchanging part to exchange heat and in which cooling water circulating the electronic unit of the vehicle flows.