Air conditioning system for vehicle

What is claimed is: 1. An air conditioning system for a vehicle comprising: an air-conditioning case having a cold air passageway extending in an air flow direction and having a heat exchanger for cooling and a warm air passageway extending in the air flow direction and having a heat exchanger for heating; an air blower which is mounted at an inlet of the air-conditioning case to blow air to the cold air passageway and the warm air passageway; an indoor and outdoor air supplying means which is connected to the air blower to supply indoor air and outdoor air; and a controller configured to control the indoor and outdoor air supplying means to inhale the indoor air of the vehicle, to pass the indoor air through the heat exchanger for cooling, and to discharge some or the whole of the indoor air to the exterior of the vehicle and configured to control the indoor and outdoor air supplying means to inhale the indoor air and the outdoor air of the vehicle and supply mixed air of the indoor air and the outdoor air to the heat exchanger for cooling and to the heat exchanger for heating; wherein the air blower comprises a first blower for blowing air to the cold air passageway and a second blower for blowing air to the warm air passageway; wherein the first blower includes a scroll case which is connected to the inlet of the cold air passageway of the air-conditioning case, a blast fan rotatably mounted inside the scroll case, an inlet ring which is formed on one side of the scroll case to induce indoor air and outdoor air, and a motor which is mounted on the other side of the scroll case to rotate the blast fan; wherein the second blower includes a scroll case which is connected to the inlet of the warm air passageway of the air-conditioning case, a blast fan rotatably mounted inside the scroll case, an inlet ring which is formed on one side of the scroll case to induce indoor air and outdoor air, and a motor which is mounted on the other side of the scroll case to rotate the blast fan; wherein the indoor and outdoor air supplying means comprises: an intake duct which is communicatingly connected with the first and second blowers and has an indoor air inlet and an outdoor air inlet; a first indoor and outdoor air converting door which selectively opens the outdoor air inlet and the indoor air inlet relative to the first blower; a second indoor and outdoor air converting door which selectively opens the outdoor air inlet and the indoor air inlet relative to the second blower; wherein the first blower and the second blower are spaced from one another in a horizontal direction; wherein the intake duct is mounted between the first blower and the second blower in the horizontal direction and extends continuously in a vertical direction being perpendicular to the horizontal direction between an upper part defining the outdoor air inlet and a lower part defining the indoor air inlet; wherein the first and second indoor and outdoor air converting doors are positioned in the intake duct between the outdoor air inlet and the indoor air inlet in the vertical direction, and between the first and second blowers in the horizontal direction. 2. The air conditioning system according to claim 1 , wherein the controller is further configured to control the indoor and outdoor air supplying means in a heating mode wherein the warm air passing through the heat exchanger for heating is supplied to the interior of the vehicle and, wherein the cold air passing through the heat exchanger for cooling is discharged to the exterior of the vehicle. 3. The air conditioning system according to claim 1 , wherein the controller is further configured to control the indoor and outdoor air supplying means in a dehumidification mode wherein the warm air passing through the heat exchanger for heating is supplied to the interior of the vehicle and some of the cold air passing through the heat exchanger for cooling is discharged to the exterior of the vehicle and to supply some of the cold air flow to the warm air passageway to the interior of the vehicle after passing through the heat exchanger for heating. 4. The air conditioning system according to claim 1 , wherein the controller is configured to open the first indoor and outdoor air converting door to open the indoor air inlet and the outdoor air inlet relative to the first blower and the controller is configured to open the second indoor and outdoor air converting door to open the indoor air inlet and the outdoor air inlet relative to the second blower. 5. The air conditioning system according to claim 1 , wherein the controller is further configured to control the indoor and outdoor air supplying means to recirculate a predetermined amount of the indoor air, which will be discharged from the interior to the exterior of the vehicle, to the heat exchanger for cooling. 6. The air conditioning system according to claim 1 , wherein an extractor is mounted on the vehicle in order to discharge the indoor air of the vehicle to the exterior of the vehicle, and wherein the controller is further configured to control the indoor and outdoor air supplying means to recirculate a predetermined amount of the indoor air, which will be discharged to the extractor, to the heat exchanger for heating and the heat exchanger for cooling. 7. The air conditioning system according to claim 1 , wherein the controller is configured to control the indoor and outdoor air supplying means to supply more outdoor air than the indoor air to the heat exchanger for cooling and supply more indoor air than the outdoor air to the heat exchanger for heating. 8. The air conditioning system according to claim 1 , wherein the controller is configured to control the indoor and outdoor air supplying means to discharge some or the whole of the mixed air of the indoor air and the outdoor air passing through the heat exchanger for cooling to the exterior of the vehicle. 9. The air conditioning system according to claim 1 , wherein the cold air passageway and the warm air passageway are formed to be partitioned from each other in a vertical direction inside the air-conditioning case, wherein a cold air outflow port for discharging the cold air passing through the heat exchanger for cooling to the interior of the vehicle and a cold air discharge port for discharging the cold air to the exterior of the vehicle are mounted at an outlet of the cold air passageway of the air-conditioning case, and wherein a warm air outflow port for discharging the warm air passing through the heat exchanger for heating to the interior of the vehicle and a warm air discharge port for discharging the warm air to the exterior of the vehicle are mounted at an outlet of the warm air passageway of the air-conditioning case. 10. The air conditioning system according to claim 1 , wherein the heat exchanger for cooling and the heat exchanger for heating are connected with a compressor and expansion means through a refrigerant circulation line. 11. The air conditioning system according to claim 10 , wherein the heat exchanger for cooling is an evaporator, and the heat exchanger for heating is a condenser. 12. The air conditioning system according to claim 1 wherein a partition wall is positioned between the cold air passage way and the warm air passageway, wherein a bypass passageway is formed between the cold air passageway and the warm air passageway, and wherein a bypass door is positioned in the bypass passage for opening and closing the bypass passageway. 13. The air conditioning system according to claim 12 wherein the heat exchanger for cooling is disposed below the partition wall in the cold air passageway and