Heat pump system for vehicle

What is claimed is: 1. A heat pump system for a vehicle comprising: heat pump cycle components including a compressor, an indoor heat exchanger, an expansion valve unit, an outdoor heat exchanger and an evaporator; a refrigerant circulation line R connecting said heat pump cycle components; a bypass line and a second valve unit disposed on the refrigerant circulation line to allow a refrigerant circulating the refrigerant circulation line to bypass at least one component among the heat pump cycle components; and a controller adapted to change the direction of the flow of refrigerant through the second valve unit in case a mode change signal to change between an air conditioner mode and a heat pump mode is received, characterized in that: when the mode change signal is received, the controller changes the direction of the second valve unit after a first delay time from the mode change signal receiving time; wherein the expansion valve unit comprises an on/off valve disposed on the refrigerant circulation line between the indoor heat exchanger and the outdoor heat exchanger to perform an opening/closing operation for the flow of the refrigerant and an orifice integrally formed with the on/off valve to expand the refrigerant, so that upon the air conditioner mode, the expansion valve unit opens the on/off valve to allow the refrigerant to flow therethrough in a state where the refrigerant is in an unexpanded state, and upon the heat pump mode, the expansion valve unit closes the on/off valve to allow the refrigerant to be expanded through the orifice and thus flow therethrough; wherein upon receiving the mode change signal, the controller delays the opening/closing operation of the on/off valve for a second delay time and then conducts the opening/closing operation. 2. The heat pump system according to claim 1 , wherein upon receiving the mode change signal, the controller first turns off the compressor and then delays the change of the direction of the second valve unit for the first delay time and the opening/closing operation of the on/off valve for the second delay time. 3. The heat pump system according to claim 2 , wherein the first delay time is different from the second delay time so that the controller sequentially conducts the change of the direction of the second valve unit and the opening/closing operation of the on/off valve. 4. The heat pump system according to claim 2 , wherein the mode change signal is for changing the heat pump mode to the air conditioner mode. 5. The heat pump system according to claim 3 , wherein the mode change signal is for changing the air conditioner mode to the heat pump mode. 6. The heat pump system according to claim 2 , wherein the controller turns on the compressor again after conducting the change of the direction of the second valve unit and the opening/closing operation of the on/off valve. 7. The heat pump system according to claim 1 , wherein the first delay time is increased or decreased in proportion to the temperature of outdoor air. 8. The heat pump system according to claim 1 , wherein the bypass line connects the refrigerant circulation line at the outlet side of the outdoor heat exchanger and the refrigerant circulation line at the inlet side of the compressor, and the second valve unit is disposed on a branch point of the bypass line and the refrigerant circulation line. 9. The heat pump system according to claim 1 , wherein when the vehicle is keyed off or the heat pump system is turned off during the operation of the air conditioner mode and then the vehicle is keyed on or the heat pump system is turned on again and the controller receives the mode change signal to the heat pump mode, the controller counts the first delay time from the time point when the vehicle is keyed off or the heat pump system is turned off. 10. The heat pump system according to claim 1 , wherein when the vehicle is keyed off or the heat pump system is turned off during the operation of the air conditioner mode and then the vehicle is keyed on or the heat pump system is turned on again and the controller receives the mode change signal to the heat pump mode, the controller counts the second delay time from the time point when the vehicle is keyed off or the heat pump system is turned off. 11. The heat pump system according to claim 1 , wherein when the vehicle is keyed off or the heat pump system is turned off during the operation of the heat pump mode and then the vehicle is keyed on or the heat pump system is turned on again and the controller receives the mode change signal to the air conditioner mode, the controller counts the first delay time from the time point when the vehicle is keyed off or the heat pump system is turned off. 12. The heat pump system according to claim 1 , wherein when the vehicle is keyed off or the heat pump system is turned off during the operation of the heat pump mode and then the vehicle is keyed on or the heat pump system is turned on again and the controller receives the mode change signal to the air conditioner mode, the controller counts the second delay time from the time point when the vehicle is keyed off or the heat pump system is turned off. 13. The heat pump system according to claim 1 , wherein the on/off valve is adapted to open and close a refrigerant passage formed at the inside thereof and has a valve member on which the orifice is formed and a solenoid mounted on one side thereof to operate the valve member. 14. The heat pump system according to claim 1 , wherein the on/off valve is adapted to open and close a refrigerant passage formed at the inside thereof and has a valve member on which the orifice is formed and a motor mounted on one side thereof to rotate the valve member. 15. The heat pump system according to claim 14 , wherein upon receiving the mode change signal, the controller controls the rotating speed of the valve member so as to delay the opening/closing operation of the valve member. 16. A heat pump system for a vehicle comprising: heat pump cycle components including a compressor, an indoor heat exchanger, an expansion valve unit, an outdoor heat exchanger and an evaporator; a refrigerant circulation line R connecting said heat pump cycle components; a bypass line and a second valve unit disposed on the refrigerant circulation line to allow a refrigerant circulating the refrigerant circulation line to bypass at least one component among the heat pump cycle components; and a controller adapted to change the direction of the flow of refrigerant through the second valve unit in case a mode change signal to change between an air conditioner mode and a heat pump mode is received, characterized in that: when the mode change signal is received, the controller changes the direction of the second valve unit after a first delay time from the mode change signal receiving time; wherein the expansion valve unit comprises an on/off valve disposed on the refrigerant circulation line between the indoor heat exchanger and the outdoor heat exchanger to perform an opening/closing operation for the flow of the refrigerant and an orifice integrally formed with the on/off valve to expand the refrigerant, so that upon the air conditioner mode, the expansion valve unit opens the on/off valve to allow the refrigerant to flow therethrough in a state where the refrigerant is in an unexpanded state, and upon the heat pump mode, the expansion valve unit closes the on/off valve to allow the refrigerant to be expanded through the orifice and thus flow therethrough; wherein the on/off valve is adapted to open and close a refrig