Hydraulic servo-control of a servo-controlled gearbox

What is claimed is: 1. A hydraulic servo-control of a servo-controlled gearbox comprising: a plurality of hydraulic actuators having respective chambers; a storing tank containing control fluid used by the hydraulic actuators at room pressure; a hydraulic accumulator including an outer housing having an axis (X) and comprising a lateral cylindrical wall coaxial to the axis (X) and an upper wall; and a piston, which is moveable inside the outer housing so as to slide along the axis (X), said piston acting to define, inside the outer housing, a first variable-volume chamber (C 1 ) for a gaseous material and a second variable-volume chamber (C 2 ) for a control fluid under pressure; and a lower stop element is located at an open end of the outer housing and serves to limit the travel of the piston inside the outer housing; a pump, which draws the control fluid from the storing tank and feeds the control fluid under pressure to the hydraulic accumulator; a number of solenoid valves, which are adapted to selectively connect the chambers of the hydraulic actuators to the storing tank and to the hydraulic accumulator; the outer housing has an upper stop element for the travel of the piston inside the outer housing, the upper stop element being provided as a shoulder coaxial to the axis (X) obtained in an inner surface of the lateral cylindrical wall of the outer housing and arranged in proximity to the upper wall; the piston is provided movable between an upper stop position defined by the upper stop element and a lower stop position defined by the lower stop element; said lower stop element including a circlip having a annular shape and a perforated plate, which is interposed in use between the circlip and the piston, and wherein the perforated plate is not provided with sealing elements and/or gaskets. 2. The servo-control as set forth in claim 1 , wherein the perforated plate has a discoid shape with a diameter approximating the size of an inner surface of the outer housing, and has at least one through hole, which acts to define a hydraulic passage for the control fluid. 3. The servo-control as set forth in claim 1 , wherein the perforated plate is provided with a single through opening, which is coaxial to the axis (X) and has a size that acts to define a hydraulic passage for the control fluid. 4. The servo-control as set forth in claim 1 , wherein the lower limit stop includes a ring-shaped circlip having a having an opening. 5. The servo-control as set forth in claim 4 , wherein the opening in said ring-shaped circlip has a size that is less than or equal to 1 mm. 6. The servo-control as set forth in claim 4 , wherein the opening in said ring-shaped circlip has a size that is less than or equal to 20 mm. 7. The servo-control as set forth in claim 1 , wherein the circlip has an annular shape that is accommodated in an inner surface of the outer housing, so as to project towards the interior of the outer housing.