Milling device for prosthetic surgery

The invention claimed is: 1. Milling device for prosthetic surgery comprising: a milling tool; a handler body with a rotating drive shaft which develops along a longitudinal axis of rotation, connected to said milling tool to rotate said milling tool; wherein said rotating shaft is cannulated, being internally hollow and having a guide channel parallel to said longitudinal axis and having an axis coaxial to said longitudinal axis and extending through said milling tool and suitable to accommodate a guide element necessary to axially position the device in the desired milling position during surgery, wherein said rotating shaft comprises an angular joint rotatably coupled with said milling tool to selectively define a plurality of inclined positions of said milling tool with respect to said longitudinal axis, said handler body comprises a guide member which comprises a stabilizer body disposed eccentric with respect to said longitudinal axis, configured to cooperate with said milling tool so as to selectively define, amongst said plurality of inclined positions, a single specific stable inclined position of said milling tool, in which said milling tool is able to rotate on itself around a specific milling axis inclined with respect to said longitudinal axis, thereby said milling axis being inclined with respect to said axis of said guide channel. 2. Device as in claim 1 , wherein said stabilizer body is configured to achieve a same-shape coupling with said milling tool, so as to define said single specific stable inclined position of said milling tool with respect to said longitudinal axis, according to the eccentricity with respect to said longitudinal axis. 3. Device as in claim 2 , wherein said handler body comprises a tubular handle coaxially coupled in a removable manner with said shaft and comprising said guide member. 4. Device as in claim 3 , further comprising anti-rotation constraining elements on a distal end of said shaft, operatively coupled with coupling seatings provided inside a concave coupling seating of said milling tool. 5. Device as in claim 4 , wherein said angular joint has one or more convex curved portions disposed around said longitudinal axis. 6. Device as in claim 5 , wherein said one or more convex curved portions are sphere portions. 7. Device as in claim 6 , wherein said angular joint has at least two convex curved portions disposed diametrically opposite with respect to said longitudinal axis. 8. Device as in claim 7 , wherein said angular joint comprises elastic keying tabs each provided with one of said convex curved portions. 9. Device as in claim 8 , wherein said anti-rotation constraining elements are disposed around said longitudinal axis, alternating with said convex curved portions. 10. Device as in claim 9 , wherein said anti-rotation constraining elements comprise rigid transmission tabs mating in shape with corresponding coupling seatings present on said milling tool, in order to transmit the rotational motion to the milling tool. 11. Device as in claim 10 , wherein said stabilizer body has an external surface in sliding coupling with an internal surface of the concave coupling seating of the milling tool, said external surface being defined by a cylindrical portion and being inclined with respect to said longitudinal axis by an angle of inclination which substantially defines the angle of said milling axis with respect to the longitudinal axis, said internal surface of the concave coupling seating having a cylindrical profile with a diameter slightly greater than the diameter of said cylindrical portion which defines said external surface. 12. Device as in claim 1 , wherein said handler body comprises a tubular handle coaxially coupled in a removable manner with said shaft and comprising said guide member. 13. Device as in claim 1 , further comprising anti-rotation constraining elements on a distal end of said shaft, operatively coupled with coupling seatings provided inside a concave coupling seating of said milling tool. 14. Device as in claim 1 , wherein said angular joint has one or more convex curved portions disposed around said longitudinal axis. 15. Device as in claim 14 , wherein said one or more convex curved portions are sphere portions. 16. Device as in claim 14 , wherein said angular joint has at least two convex curved portions disposed diametrically opposite with respect to said longitudinal axis. 17. Device as in claim 14 , wherein said angular joint comprises elastic keying tabs each provided with one of said convex curved portions. 18. Device as in claim 14 , wherein said anti-rotation constraining elements are disposed around said longitudinal axis, alternating with said convex curved portions. 19. Device as in claim 18 , wherein said anti-rotation constraining elements comprise rigid transmission tabs mating in shape with corresponding coupling seatings present on said milling tool, in order to transmit the rotational motion to the milling tool. 20. Device as in claim 1 , wherein said stabilizer body has an external surface in sliding coupling with an internal surface of the concave coupling seating of the milling tool, said external surface being defined by a cylindrical portion and being inclined with respect to said longitudinal axis by an angle of inclination which substantially defines the angle of said milling axis with respect to the longitudinal axis, said internal surface of the concave coupling seating having a cylindrical profile with a diameter slightly greater than the diameter of said cylindrical portion which defines said external surface.