Coupled torsion beam axle type of suspension system

What is claimed is: 1. A coupled torsion beam axle (CTBA) suspension system comprising: a trailing arm connected to each end of a torsion beam; a vehicle body fastener mounted at a front end of each trailing arm for mounting a vehicle body thereto; and a spindle bracket mounted to a rear outer side of the trailing arm, wherein each vehicle body fastener includes: a trailing arm bush formed integrally with the trailing arm at the front end of the trailing arm; a bush link installed in front of and fastened to the trailing arm bush in a vehicle width direction; a lower mounting bush formed inside the bush link in a vehicle height direction at a front outer side of the trailing arm bush and fastened to a lower side of the vehicle body in the vehicle height direction; and an upper mounting bush mounted at a rear side of the lower mounting bush and moving up and down between the bush link and the vehicle body by a cylinder unit which is disposed between the bush link and the vehicle body. 2. The system of claim 1 , wherein the bush link includes: a vertical pocket for inserting the trailing arm bush therein and fastening the trailing arm bush thereto; a horizontal pocket formed integrally with the vertical pocket at a front outer side of the vertical pocket for mounting the lower mounting bush thereto; and a cylinder body having a lower cylinder of the cylinder unit formed therein to connect one side of the upper mounting bush to the lower cylinder inside the cylinder body at a rear side of the horizontal pocket. 3. The system of claim 1 , wherein the cylinder unit includes: a lower cylinder formed inside the bush link behind the lower mounting bush in the vehicle height direction to insert a lower piston which is formed as one unit with a lower side of a bush bracket of the upper mounting bush inside the lower cylinder, an upper cylinder mounted to one side of the vehicle body in the vehicle height direction corresponding to the lower cylinder for inserting an upper piston formed as one unit with an upper side of the upper mounting bush therein, and a hydraulic pump connected to the lower cylinder and the upper cylinder with hydraulic pressure lines to supply and discharge a hydraulic oil respectively to and from each of the cylinders according to a driving condition. 4. The system of claim 3 , wherein the lower cylinder and the upper cylinder have the same in and out flow rates. 5. The system of claim 3 , wherein the lower piston and the upper piston have the same front end cross-sectional areas. 6. The system of claim 3 , wherein the lower piston and the upper piston have polygon shape cross-sections for being secured in a rotation direction with respect to the lower cylinder and the upper cylinder, respectively. 7. The system of claim 3 , wherein the upper mounting bush is fastened to the bush bracket in the vehicle width direction. 8. The system of claim 1 , further comprising a stay having one end fastened to a pipe nut at a lower side of the vehicle body together with the lower mounting bush from a lower side of the lower mounting bush by a bush bolt and another end mounted to the vehicle body by a fastener. 9. The system of claim 8 , wherein the lower mounting bush is fastened to the pipe nut at a lower side of a side member of the vehicle body together with the stay in the vehicle height direction. 10. The system of claim 1 , wherein left and right extension lines, each of which passes a center of the lower mounting bush and a center of the trailing arm bush, form an acute angle with a vehicle body length direction center line which passes the center of the trailing arm bush, and an instantaneous center of rotation, which is a crossing point of the left and the right extension line, is set to be behind a center of wheels. 11. A coupled torsion beam axle suspension system comprising: a trailing arm connected to each end of a torsion beam; a vehicle body fastener mounted at a front end of each trailing arm for mounting a vehicle body thereto; and a spindle bracket provided at a rear outer side of the trailing arm, wherein each vehicle body fastener includes: a trailing arm bush formed integrally with the trailing arm at the front end of the trailing arm; a bush link installed in front of the trailing arm bush and fastened to the trailing arm bush in a vehicle width direction; a lower mounting bush formed inside the bush link in a vehicle height direction at a front outer side of the trailing arm bush and fastened to a lower side of the vehicle body in the vehicle height direction; an upper mounting bush mounted at a rear side of the lower mounting bush to move the upper mounting bush up and down between the bush link and the vehicle body by a cylinder unit disposed between the bush link and the vehicle body; and a stay having one end fastened to one side of a lower surface of a side member of the vehicle body in the vehicle height direction together with the lower mounting bush from a lower side of the lower mounting bush by a bush bolt and another end mounted to the vehicle body by a fastener, and wherein an extension line, which passes a center of the lower mounting bush and a center of the trailing arm bush, forms an acute angle with a vehicle body length direction center line which passes the center of the trailing arm bush, and an instantaneous center of rotation, which is a crossing point of the left and the right extension line, is set to be behind a center of wheels. 12. The system of claim 11 , wherein the bush link includes: a vertical pocket for inserting the trailing arm bush therein and fastening the trailing arm bush thereto; a horizontal pocket formed integrally with the vertical pocket at a front outer side of the vertical pocket for mounting the lower mounting bush to the horizontal pocket; and a cylinder body having a lower cylinder of the cylinder unit formed therein to connect one side of the upper mounting bush to the lower cylinder inside the cylinder body at a rear side of the horizontal pocket. 13. The system of claim 11 , wherein the cylinder unit includes: a lower cylinder formed in the bush link behind the lower mounting bush in the vehicle height direction to insert a lower piston formed as one unit with a lower side of a bush bracket of the upper mounting bush therein, an upper cylinder mounted to one side of the vehicle body in the vehicle height direction corresponding to the lower cylinder for inserting an upper piston formed as one unit with an upper side of the upper mounting bush therein, and a hydraulic pump connected to the lower cylinder and the upper cylinder with hydraulic pressure lines to supply and discharge a hydraulic oil respectively to and from each of the cylinders according to a driving condition. 14. The system of claim 13 , wherein the lower cylinder and the upper cylinder have the same in and out flow rates. 15. The system of claim 13 , wherein the lower piston and the upper piston have the same front end cross-sectional area. 16. The system of claim 13 , wherein the lower piston and the upper piston have polygon shaped cross-sections to be secured in a rotational direction with respect to the lower cylinder and the upper cylinder, respectively. 17. The system of claim 13 , wherein the upper mounting bush is fastened to the bush bracket in a vehicle width direction. 18. The system of claim 11 , wherein the lower mounting bush is fastened to a pipe nut on one side of a lower surface of a side member of the vehicle body together