Vibration damping system by means of a hydraulic actuation system

The invention claimed is: 1. A vibration damping system by means of a hydraulic actuation system, comprising: at least one hydraulic actuator having a movable part, and a corresponding hydraulic feeding circuit which supplies said hydraulic actuator, and hydraulic damping means for a vibrating force acting on the movable part of the hydraulic actuator; said damping means being connected to said hydraulic circuit to actuate a damping of said vibrating force, and characterized in that said damping means comprise a double chamber cylinder having a first chamber hydraulically connected to said hydraulic circuit, and a movable part connected to an electric damping part, and in that the first chamber is hydraulically connected to and communicating with a second chamber of the double chamber cylinder by means of a calibrated pipe or passage having a length and a diameter defining a critical frequency of the calibrated pipe, wherein according to the length and diameter of the calibrated pipe, a pressure wave propagation towards the second chamber is allowed to pass through the calibrated pipe allowing equalization of pressure in the first and second chambers in relation to frequencies lower than the critical frequency of the calibrated pipe and inhibited to pass through the calibrated pipe preventing equalization of pressure in the first and second chambers in relation to frequencies higher than the critical frequency of the calibrated pipe, thereby actuating the hydraulic damping means to dampen the pressure wave propagation. 2. A damping system according to claim 1 , wherein said first chamber has a smaller volume than a volume of said second chamber. 3. A system according to claim 2 , wherein a ratio between the volume of said first chamber and the volume of said second chamber is at least 10. 4. A damping system according to claim 1 , wherein said movable part comprises a first face projecting into the first chamber and a second face projecting into the second chamber, and wherein the surface of said first face is larger than the surface of the second face. 5. A damping system according to claim 1 , wherein said electric damping part is arranged inside one of the two chambers. 6. A damping system according to claim 4 , wherein said electric damping part comprises a piezoelectric actuator, and wherein a difference of the surfaces of said first face and of said second face is adapted to achieve a pre-load for the piezoelectric actuator. 7. A damping system according to claim 6 , wherein the system comprises a pre-loading spring acting on the piezoelectric actuator to define a pre-load thereof. 8. A damping system according to claim 1 , wherein said electric damping system is of the passive magnetic-electric type. 9. A system according to claim 1 , wherein operating parameters of said electric damping part are controllable, and wherein the damping system further comprises an electronic control unit connected to a sensor for measuring a movement and/or speed and/or acceleration of the movable part of the hydraulic actuator and/or a pressure in the hydraulic circuit, so as to control said operating parameters. 10. A damping system according to claim 9 , wherein said control unit is programmed to control the damping effect of said electric damping part when said sensor detect a vibrating frequency which is higher than said critical frequency. 11. A damping system according to claim 1 , wherein said electric damping part comprises an active electric actuator, and wherein the damping system further comprises an electronic control unit connected to a sensor for measuring a movement and/or speed and/or acceleration of the movable part of the hydraulic actuator and/or a pressure in the hydraulic circuit, so as to control said active actuator. 12. A damping system according to claim 11 , wherein said electric damping part comprises a piezoelectric actuator, and wherein the system comprises a pre-loading spring acting on the piezoelectric actuator to define a pre-load thereof. 13. A damping system according to claim 11 , wherein said control unit is programmed to control the damping effect of said electric damping part when said sensor detect a vibrating frequency which is higher than said critical frequency. 14. A damping system according to claim 1 , wherein said passage is made in a coupling of said double chamber cylinder and said movable part. 15. A damping system according to claim 14 , wherein said passage is either located in an angular sector of said coupling or is distributed along an entire perimeter of said movable part. 16. A rolling mill comprising at least one mill stand and at least one hydraulic actuator for the bending control and at least one corresponding damping system according to claim 1 .