Telescopic actuator

The invention claimed is: 1. Telescopic actuator comprising: an actuator body ( 2 ) defining a first cylindrical cavity ( 3 ) of longitudinal axis (X); a rod ( 4 ) mounted to slide telescopically in the first cylindrical cavity ( 3 ) along the longitudinal axis (X); a nut ( 6 ) securely attached to the rod ( 4 ); a hollow lead screw ( 5 ) mounted in the first cylindrical cavity ( 3 ) to extend and rotate on the longitudinal axis (X) and cooperate with the nut ( 6 ) such that a rotation of the lead screw ( 5 ) results in a telescopic displacement of the rod ( 4 ) in the first cylindrical cavity ( 3 ); means for driving the lead screw in rotation; a fixed piston ( 9 ) comprising a first tail ( 10 ) which extends in the lead screw ( 5 ) and a piston head ( 11 ), said piston head ( 11 ) cooperating in a seal-tight manner with an internal wall of the rod to define, between the head and a bottom of the rod, a first chamber (C 1 ) of variable volume upon the displacement of the rod; characterized in that the actuator comprises a first hydraulic connection channel ( 16 ) extending through the first tail ( 10 ) to fluidically connect the first chamber (C 1 ) with a source of hydraulic fluid ( 17 ), and in that the channel ( 16 ) comprises first damping means suitable for slowing down the rod ( 4 ) when the latter is depressed by regulating a hydraulic fluid flow rate in the first channel provoked by the depression of the rod. 2. Telescopic actuator according to claim 1 , in which the first damping means comprise restriction means suitable for laminating the hydraulic fluid when the latter is discharged from the first chamber when the rod is depressed in the body. 3. Telescopic actuator according to claim 2 , in which the restriction means comprise a check valve ( 19 ) arranged in the first channel to block the latter and to open in response to an overpressure in the first chamber when the rod ( 4 ) is depressed. 4. Telescopic actuator according to claim 3 , in which the check valve is calibrated and adapted to open to admit fluid into the first chamber when the rod ( 4 ) is extended. 5. Telescopic actuator according to claim 1 , further comprising second means for damping the rod ( 4 ) suitable for slowing down the rod ( 4 ) at the end of depression. 6. Telescopic actuator according to claim 5 , in which the second damping means comprise a sliding piston ( 26 ) cooperating in a seal-tight manner with an internal wall of the head ( 11 ) of the fixed piston ( 9 ) to define, between the head ( 11 ) and the bottom of the sliding piston ( 26 ), a second chamber (C 2 ), a second connecting channel ( 28 ) being formed in the sliding piston ( 26 ) to fluidically connect the second chamber (C 2 ) with the first connecting channel ( 16 ), the sliding piston ( 26 ) being arranged in such a way that, at the end of travel, the bottom of the rod abuts against the sliding piston forcing the latter to be depressed into the head ( 11 ) and thus resulting in the discharging of the hydraulic fluid contained in the second chamber via the second connecting channel. 7. Telescopic actuator according to claim 6 , in which the second damping means comprise means ( 30 ) for progressively blocking the second channel during the depression of the sliding piston in the head ( 11 ). 8. Telescopic actuator according to claim 7 , in which the progressive blocking means comprise a jacket ( 30 ) fitted with little play against an internal wall of a second tail ( 31 ) of the sliding piston ( 26 ) into which the second channel emerges, the jacket ( 30 ) progressively obstructing the second channel when the sliding piston is depressed in the head ( 11 ). 9. Telescopic actuator according to claim 7 , in which the sliding piston ( 26 ) comprises at least one ball valve ( 32 ) adapted to open to admit fluid into the second chamber when the rod is extended. 10. Telescopic actuator according to claim 2 , further comprising second means for damping the rod ( 4 ) suitable for slowing down the rod ( 4 ) at the end of depression. 11. Telescopic actuator according to claim 3 , further comprising second means for damping the rod ( 4 ) suitable for slowing down the rod ( 4 ) at the end of depression. 12. Telescopic actuator according to claim 4 , further comprising second means for damping the rod ( 4 ) suitable for slowing down the rod ( 4 ) at the end of depression. 13. Telescopic actuator according to claim 10 , in which the second damping means comprise a sliding piston ( 26 ) cooperating in a seal-tight manner with an internal wall of the head ( 11 ) of the fixed piston ( 9 ) to define, between the head ( 11 ) and the bottom of the sliding piston ( 26 ), a second chamber (C 2 ), a second connecting channel ( 28 ) being formed in the sliding piston ( 26 ) to fluidically connect the second chamber (C 2 ) with the first connecting channel ( 16 ), the sliding piston ( 26 ) being arranged in such a way that, at the end of travel, the bottom of the rod abuts against the sliding piston forcing the latter to be depressed into the head ( 11 ) and thus resulting in the discharging of the hydraulic fluid contained in the second chamber via the second connecting channel. 14. Telescopic actuator according to claim 11 , in which the second damping means comprise a sliding piston ( 26 ) cooperating in a seal-tight manner with an internal wall of the head ( 11 ) of the fixed piston ( 9 ) to define, between the head ( 11 ) and the bottom of the sliding piston ( 26 ), a second chamber (C 2 ), a second connecting channel ( 28 ) being formed in the sliding piston ( 26 ) to fluidically connect the second chamber (C 2 ) with the first connecting channel ( 16 ), the sliding piston ( 26 ) being arranged in such a way that, at the end of travel, the bottom of the rod abuts against the sliding piston forcing the latter to be depressed into the head ( 11 ) and thus resulting in the discharging of the hydraulic fluid contained in the second chamber via the second connecting channel. 15. Telescopic actuator according to claim 12 , in which the second damping means comprise a sliding piston ( 26 ) cooperating in a seal-tight manner with an internal wall of the head ( 11 ) of the fixed piston ( 9 ) to define, between the head ( 11 ) and the bottom of the sliding piston ( 26 ), a second chamber (C 2 ), a second connecting channel ( 28 ) being formed in the sliding piston ( 26 ) to fluidically connect the second chamber (C 2 ) with the first connecting channel ( 16 ), the sliding piston ( 26 ) being arranged in such a way that, at the end of travel, the bottom of the rod abuts against the sliding piston forcing the latter to be depressed into the head ( 11 ) and thus resulting in the discharging of the hydraulic fluid contained in the second chamber via the second connecting channel. 16. Telescopic actuator according to claim 13 , in which the second damping means comprise means ( 30 ) for progressively blocking the second channel during the depression of the sliding piston in the head ( 11 ). 17. Telescopic actuator according to claim 14 , in which the second damping means comprise means ( 30 ) for progressively blocking the second channel during the depression of the sliding piston in the head ( 11 ). 18. Telescopic actuator according to claim 15 , in which the second damping means comprise means ( 30 ) for progressively blocking the second channel during the depression of the sliding piston in the head ( 11 ).