Robotic ankle

The invention claimed is: 1 . An ankle prosthesis comprising: a main body, having a foot portion configured to rest on a walking surface; stump supporting means, configured to couple with a leg prosthetic element; linear actuation means, comprising a coupling between a screw element and a nut screw element having a friction coefficient lower than 0.16, wherein said stump supporting means, said screw element and said nut screw element are constrained to said main body according to a substantially four-bar linkage configuration, so that a relative rotation between said supporting means and said main body is allowed and so that said actuation means is configured to act as damping element along a damping direction (S) and is movable between an advanced position (P sup ) and a rearward position (P inf ) with respect to said damping direction (S), wherein said foot portion comprises a first and a second contact position during a resting phase on the walking surface, wherein to said first and second contact position corresponds a respective opposite movement of said actuation means between said advanced position (P sup ) and said rearward position (P inf ) during a damping condition of the loads transferred on said main body by the leg element. 2 . The ankle prosthesis according to claim 1 , wherein said actuation means is movable in approach to said rearward position (P inf ) in said first contact position and is movable in approach to said advanced position (P sup ) in said second contact position. 3 . The ankle prosthesis according to claim 1 , wherein said damping direction (S) is parallel to the axis of said screw element. 4 . The ankle prosthesis according to claim 1 , wherein the efficiency of the coupling between said screw element and said nut screw element is between 45% and 55%. 5 . The ankle prosthesis according to claim 1 , wherein said screw element has a helix angle of between 3° and 11°. 6 . The ankle prosthesis according to claim 1 , wherein said screw element is treated with a treatment selected from the group consisting of a diamond like carbon (DLC) treatment, a polytetrafluoroethylene treatment, a tungsten disulfide treatment and a molybdenum disulfide treatment. 7 . The ankle prosthesis according to claim 1 , wherein said screw element is made of steel and said nut screw element is made of a material selected from the group consisting of steel, bronze, brass and a reinforced polymer. 8 . The ankle prosthesis according to claim 1 , wherein a first arm of said four-bar linkage has a variable extension according to the rotation of said supporting element, said extension being variable between said advanced position (P sup ) and said rearward position (P inf ). 9 . The ankle prosthesis according to claim 1 , wherein a second arm of said four-bar linkage connects said supporting element and said nut screw element to each other. 10 . The ankle prosthesis according to claim 9 , wherein said second arm has a length between 40 mm and 60 mm. 11 . The ankle prosthesis according to claim 1 , wherein said supporting element and said main body are coupled at a joint lying on an axis, wherein said axis orthogonally intercepts a direction of development of said foot portion, when resting on the walking surface, at one third of its extension with respect to a heel terminal end. 12 . The ankle prosthesis according to claim 1 , wherein said actuation means comprises a planetary reduction gear. 13 . The ankle prosthesis according to claim 1 , further comprising sensor means configured to actuate said actuation means in function of a detection of a bending of said main body. 14 . The ankle prosthesis according to claim 1 , wherein said main body comprises an energy-returning carbon fibre foot structure.