Air suspension system for vehicles and method of controlling the same

What is claimed is: 1. An air suspension system comprising: air springs, each having a first input port connected to a main hydraulic unit configured to regulate a flow of compressed air and adjust a vehicle height according to a roll situation of a vehicle, the air springs adjusting heights of left and right front and rear wheels of the vehicle based on the compressed air; a data collection unit configured to receive data regarding a vehicle state from a vehicle controller; a solenoid valve configured to control the flow of the compressed air additionally introduced into a second input port of each of the air springs; a double-acting cylinder including a piston rod configured to bilaterally move to guide the flow of the compressed air in left and right directions, so that the compressed air is individually supplied to the left and right air springs through the solenoid valves connected to respective left and right sides of the double-acting cylinder; a drive unit including a drive motor configured to bilaterally move the piston rod; and a sub-control unit configured to determine a roll moment situation and set a driving position and driving acceleration, based on the data regarding a vehicle state received by the data collection unit, and to operate the solenoid valve and the drive unit. 2. The air suspension system according to claim 1 , wherein each of the air springs comprises a two-chamber air spring having the first and second input ports. 3. The air suspension system according to claim 1 , wherein the vehicle state comprises at least one of a steering angle, a vehicle speed, a roll angle, a roll moment, and a difference in vehicle left and right heights. 4. The air suspension system according to claim 1 , wherein the data collection unit is further configured to input an air spring actuation signal from a main control unit, and the sub-control unit is configured to operate the solenoid valve and the drive unit according to at least one of the air spring actuation signal and the data regarding a vehicle state received by the data collection unit. 5. The air suspension system according to claim 1 , wherein the drive motor of the drive unit is connected to the piston rod in a rack-pinion arrangement. 6. The air suspension system according to claim 1 , wherein the double-acting cylinder comprises: a first double-acting cylinder configured to supply the compressed air to first and second solenoid valves that control the compressed air additionally introduced to first and second air springs installed to the respective left and right front wheels; and a second double-acting cylinder configured to supply the compressed air to third and fourth solenoid valves that control the compressed air additionally introduced to third and fourth air springs installed to the respective left and right rear wheels. 7. The air suspension system according to claim 6 , wherein the first double-acting cylinder comprises: a first left line through which the compressed air discharged in the left direction by left movement of a first piston rod is supplied to the first solenoid valve installed to the left front wheel; and a first right line through which the compressed air discharged in the right direction by right movement of the first piston rod is supplied to the second solenoid valve installed to the right front wheel. 8. The air suspension system according to claim 6 , wherein the second double-acting cylinder comprises: a second left line through which the compressed air discharged in the left direction by left movement of a second piston rod is supplied to the third solenoid valve installed to the left rear wheel; and a second right line through which the compressed air discharged in the right direction by right movement of the second piston rod is supplied to the fourth solenoid valve installed to the right rear wheel. 9. The air suspension system according to claim 1 , wherein the solenoid valve is a normally closed valve. 10. A method of controlling an air suspension system, comprising: receiving, by a sub-control unit, at least one of an air spring actuation signal received from a main control unit and data regarding a vehicle state received from a vehicle controller through a data collection unit; operating, by the sub-control unit, a solenoid valve to control a flow of compressed air additionally introduced into each of air springs installed to respective left and right front and rear wheels of a vehicle according to at least one of the air spring actuation signal and the vehicle state; and operating, by the sub-control unit, a drive unit after operating the solenoid valve, so that the drive unit bilaterally moves a piston rod to guide the flow of compressed air in left and right directions in a double-acting cylinder and supply the compressed air to the solenoid valve. 11. The method according to claim 10 , wherein in the operating, by the sub-control unit, a solenoid valve, the sub-control unit opens the closed solenoid valve in response to the air spring actuation signal. 12. The method according to claim 10 , wherein the vehicle state comprises at least one of a steering angle, a vehicle speed, a roll angle, a roll moment, and a difference in vehicle left and right heights. 13. The method according to claim 10 , wherein in the operating, by the sub-control unit, a drive unit, the sub-control unit operates the drive unit by setting a driving position and driving acceleration according to the vehicle state.