Suspension for vehicles

What is claimed is: 1. A suspension apparatus for a vehicle, the apparatus comprising: a suspension arm connected to a wheel of the vehicle; a damper housing connected to a vehicle body; a shock absorbing module connecting the suspension arm and the damper housing and configured to convert rotation motion of the suspension arm into translational motion of the shock absorbing module to absorb shocks applied to the suspension arm, wherein the shock absorbing module includes: a damper gear mounted in the damper housing, connected to the suspension arm, and configured to rotate together with the suspension arm in response that the suspension arm rotates; and a ball screw gear mounted in the damper housing and configured to rotate in gear-engagement with the damper gear. 2. The suspension apparatus of claim 1 , wherein the shock absorbing module is disposed in a front and rear direction of the vehicle to perform the translational motion in the front and rear direction of the vehicle in response that the suspension arm rotates. 3. The suspension apparatus of claim 1 , wherein the shock absorbing module further includes: a damper engaged to the suspension arm and configured to receive the rotation motion of the suspension arm and convert the rotation motion of the suspension arm into a translational motion of the damper in a front and rear direction of the vehicle; and a damper spring connected to the damper and configured to generate a damping force while being compressed by the translational motion of the damper. 4. The suspension apparatus of claim 3 , wherein the shock absorbing module further includes: a ball screw including an end portion thereof connected to the ball screw gear and rotating together with the ball screw gear; and a ball nut coupled to the ball screw to move along the ball screw in response that the ball screw rotates, and connected to the damper to translate the damper. 5. The suspension apparatus of claim 4 , wherein an external ring of an arm bearing is fixedly coupled to each of a front surface and a rear surface of the damper housing, and the suspension arm and the damper gear are coupled with an internal ring of the arm bearing so that in response that the suspension arm rotates, the internal ring of the arm bearing and the damper gear rotate with respect to the external ring of the arm bearing. 6. The suspension apparatus of claim 4 , wherein a bush is coupled to each of a front surface and a rear surface of the damper housing, and the suspension arm and the damper gear are connected through the bush. 7. The suspension apparatus of claim 4 , wherein the damper gear has a diameter greater than a diameter of the ball screw gear, so that the ball screw gear rotates more than one turn in response that the damper gear rotates one turn. 8. The suspension apparatus of claim 4 , wherein one or more ball screws are provided parallel to the damper. 9. The suspension apparatus of claim 8 , wherein one or more ball screw gears are provided on the one or more ball screws and gear-engaged to the damper gear, and wherein one or more ball nuts are connected to each other and engaged on the one or more ball screws. 10. The suspension apparatus of claim 4 , wherein a first end portion and a second end portion of the ball screw is rotatably coupled to a front surface and a rear surface of the damper housing, respectively, by a support bearing. 11. The suspension apparatus of claim 4 , further including: a damper rod connected with the damper gear to rotate together with the damper gear, wherein the damper is configured to perform the translational motion along the damper rod. 12. The suspension apparatus of claim 11 , further including: a bump stopper connected to the damper rod to limit a translational stroke of the damper. 13. The suspension apparatus of claim 11 , further including: a damper bearing including a center portion thereof penetrated by the damper rod, wherein an end portion of the damper spring is supported by the damper bearing to prevent rotation of the damper spring while the damper rod rotates. 14. The suspension apparatus of claim 11 , wherein a damper bearing is rotatably mounted on the damper rod, and wherein an end portion of the damper spring is supported by the damper bearing to prevent rotation of the damper spring while the damper rod rotates. 15. The suspension apparatus of claim 4 , wherein the damper and the ball screw are spaced apart in a left and right direction of the vehicle and are placed in parallel. 16. The suspension apparatus of claim 4 , wherein the ball screw and the damper are spaced apart in a vertical direction of the vehicle and are placed in parallel. 17. The suspension apparatus of claim 4 , further including: an actuator connected to a connection portion between the damper and the ball nut and configured for length change in the front and rear direction of the vehicle, wherein by operation of the actuator, rotation of the ball screw, the ball screw gear, the damper gear, and the suspension arm is induced, and due to the rotation of the suspension arm, vehicle height is adjusted. 18. The suspension apparatus of claim 1 , wherein the suspension arm connected to the shock absorbing module is a double-wishbone type upper arm or a lower arm.