System for controlling air flow rate into vehicle engine room and control method thereof

What is claimed is: 1. A system for controlling an air flow rate into a vehicle engine room, comprising: a fan shroud in which a cooling fan including a fan motor and a fan blade is mounted; a radial portion which is provided in the fan shroud while corresponding to an operation area of the fan blade, including a shutter hub positioned to a center thereof and a plurality of radial units disposed to the shutter hub and including a plurality of radial shutters telescopically extending from the shutter hub to external circumference directions or telescopically collapsing to the shutter hub direction; and a radial unit operating portion telescopically extending the plurality of radial units from the shutter hub to the external circumference directions or telescopically collapsing the plurality of radial units to the shutter hub direction. 2. The system of claim 1 , wherein a side of each of the radial units is overlapped with a side of a neighboring radial unit in order for each radial unit to support the neighboring radial unit. 3. The system of claim 2 , wherein: a guide groove and a guide rail are formed to each radial shutter, and the guide rail formed to the radial shutter positioned outside is inserted into the guide groove formed to the radial shutter positioned inside for guiding movement of the radial shutters. 4. The system of claim 3 , wherein the radial unit operating portion comprises: a hub gear disposed to the shutter hub; a flexible gear engaged with the hub gear and an outermost shutter of the radial shutters, moving the most outer shutter to a center direction or the external circumference directions according to rotation of the hub gear; and a servo motor selectively rotating the hub gear. 5. The system of claim 4 , wherein: a stopper is formed to each radial shutter, and each radial shutter is folded by the stopper when the outermost radial shutter moves toward a center of the radial portion. 6. The system of claim 4 , wherein: a driving thread is formed to the outermost radial shutter to be engaged with the flexible gear, and a gear guide portion is formed to each radial shutter except for the outermost radial shutter for guiding the flexible gear. 7. The system of claim 4 , wherein the servo motor is configured to control rotation speed and rotating direction. 8. The system of claim 1 , further comprising a plurality of flaps which are provided in the fan shroud, and open and close a part of a portion where the radial portion is not mounted. 9. The system of claim 8 , wherein: electromagnets are provided on the plurality of flaps so that the plurality of flaps are opened and closed in accordance with an electric current supplied to the electromagnets. 10. The system of claim 8 , wherein: the fan shroud in which the radial shutter and the plurality of flaps are provided, is mounted between an engine and a radiator. 11. The system of claim 10 , further comprising: an encapsulation which surrounds the engine room. 12. The system of claim 8 , further comprising: a control portion which controls operations of the radial unit operating portion, the flap and the cooling fan according to operation conditions of a vehicle in predetermined modes, wherein the predetermined modes comprise: a first mode in which the plurality of flaps is closed, the radial shutter is completely closed, and operation of the cooling fan is turned off; a second mode in which the plurality of flaps is closed, the radial shutter is completely opened, and the operation of the cooling fan is controlled based on an operating state of the vehicle; a third mode in which the plurality of flaps is opened, the radial shutter is completely opened, and the operation of the cooling fan is turned off; and a fourth mode in which the plurality of flaps is closed, the open area of the radial shutter is controlled, and the operation of the cooling fan is turned off. 13. The system of claim 12 , further comprising: an atmospheric temperature sensor which measures an atmospheric temperature, and outputs a corresponding signal; a speed sensor which measures a vehicle speed, and outputs a corresponding signal; an air conditioning pressure sensor which measures air conditioning internal pressure, and outputs a corresponding signal; an air conditioning switch sensor which measures an operational signal of an air conditioning switch, and outputs a corresponding signal; and a refrigerant temperature sensor which measures a refrigerant temperature, and outputs a corresponding signal, wherein the control unit determines the operating state of the vehicle based on the corresponding signals from the respective sensors, and controls operations of the radial unit operating portion, the plurality of flaps, and the cooling fan in accordance with the operating state of the vehicle in any one mode of the first to fourth modes. 14. The system of claim 13 , further comprising: an intercooler temperature sensor which measures a temperature of an intercooler, and outputs a corresponding signal, wherein the control unit further receives a signal from the intercooler temperature sensor so as to determine the operating state of the vehicle, and controls operations of the radial unit operating portion, the plurality of flaps, and the cooling fan in any one mode of the first to fourth modes. 15. A control method of a system for controlling an air flow rate into a vehicle engine room, and the method comprising: determining, by a control unit, an operating state of a vehicle based on sensor signals including signals of an atmospheric temperature sensor, a speed sensor, an air conditioning pressure sensor, an air conditioning switch sensor, a refrigerant temperature sensor, and a position sensor, and determining whether it is required to completely close a radial portion in accordance with the determined operating state of the vehicle; and completely closing, the radial portion, closing a plurality of flaps, and turning off operation of a cooling fan by the control unit in a state in which it is required to completely close a rotary shutter, wherein the system comprises the atmospheric temperature sensor which measures an atmospheric temperature, and outputs the corresponding signal, the speed sensor which measures a vehicle speed, and outputs the corresponding signal, the air conditioning pressure sensor which measures air conditioning internal pressure, and outputs the corresponding signal, the air conditioning switch sensor which measures an operational signal of an air conditioning switch, and outputs the corresponding signal, the refrigerant temperature sensor which measures a refrigerant temperature, and outputs the corresponding signal, a fan shroud in which the cooling fan including a fan motor and a fan blade is mounted, the radial portion which is provided in the fan shroud while corresponding to an operation area of the fan blade, including a shutter hub positioned to a center thereof and a plurality of radial units disposed to the shutter hub and including a plurality of radial shutters telescopically extending from the shutter hub to external circumference directions or telescopically collapsing to a shutter hub direction, a radial unit operating portion unfolding the plurality of radial units from the shutter hub to the external circumference directions or folding the plurality of radial units to the shutter hub direction, the plurality of flaps which are provided in the fan shroud, and opens and closes a part of a portion where the radial portion is not mounted and a control portion which controls operations of each radia