Guided milling device for prosthetic surgery

The invention claimed is: 1. Guided milling device for prosthetic surgery for creating glenoid seatings for shoulder joint prostheses, said device comprising: a milling tool rotating about a milling axis; a handling body having a drive rotating rod which develops along a longitudinal axis of linear rotation, connected to said milling tool in order to make said milling tool rotate about said milling axis; wherein said rotating rod is internally hollow and has a guide channel parallel to the longitudinal axis in which a guide rod is housed coaxially in a slidable manner, able to be positioned to extend beyond said milling tool along said longitudinal axis, wherein said milling axis is inclined with respect to said longitudinal axis, so that said milling tool is disposed inclined with respect to said rotating rod and also to said guide rod, wherein the point of intersection of the milling axis and of the longitudinal axis falls outside the milling tool. 2. Device as in claim 1 , wherein said rotating rod is provided, in the head or distal position, with a front milling tip outside the milling tool. 3. Device as in claim 1 , wherein it comprises an angular positioning assembly configured to define the inclined disposition of said milling tool with respect to said guide rod and said rotating rod. 4. Device as in claim 3 , wherein said angular positioning assembly comprises articulation means to connect said milling tool to said rotating rod in an articulated manner, allowing to selectively define a plurality of inclined positions of said milling tool with respect to said longitudinal axis, and a positioning member which comprises a stabilizing body disposed eccentric with respect to said longitudinal axis, configured to cooperate with said milling tool so as to selectively define, from among said plurality of inclined positions, a single specific stable inclined position of said milling tool in which said milling tool is able to rotate along said milling axis inclined with respect to said longitudinal axis. 5. Device as in claim 4 , wherein said handling body comprises said positioning member. 6. Device as in claim 4 , wherein said stabilizing body is configured to make 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, based on the eccentricity with respect to said longitudinal axis. 7. Device as in claim 4 , wherein said handling body comprises a tubular handle coaxially coupled in a removable manner to said rotating rod and comprising said positioning member. 8. Device as in claim 4 , wherein said articulation means comprise an angular joint rotatably coupled with said milling tool. 9. Device as in claim 8 , wherein said angular joint has one or more convex curved portions disposed around said longitudinal axis. 10. Device as in claim 9 , wherein said one or more convex curved portions are sphere portions. 11. Device as in claim 9 , wherein said angular joint has at least two convex curved portions disposed diametrically opposite with respect to said longitudinal axis. 12. Device as in claim 9 , wherein said angular joint comprises elastic keying tongues, each provided with one of said convex curved portions. 13. Device as in claim 4 , wherein said stabilizing body has a seating having an internal surface coupled slidingly with an external surface of the central body of the concave coupling seating of the milling tool. 14. Device as in claim 13 , wherein said internal surface is defined by a cylindrical portion and is 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. 15. Device as in claim 13 , wherein said external surface of the central body of the concave coupling seating has a cylindrical profile with a diameter slightly smaller than the diameter of said cylindrical portion that defines said internal surface. 16. Device as in claim 4 , wherein said articulation means comprise respective curved articulation surfaces provided on said rotating rod and on said milling tool. 17. Device as in claim 4 , wherein the stabilizing body is coupled outside the milling tool. 18. Device as in claim 1 , wherein said milling tool has a concave coupling seating having a polar coupling aperture, said rotating rod being provided with a distal end connected to the milling tool in correspondence with, or in the proximity of, the polar coupling aperture, said distal end being open in order to allow the insertion of the guide rod into said guide channel. 19. Device as in claim 18 , wherein it comprises anti-rotation constraint elements present on said distal end of said rotating rod, operatively coupled with coupling seatings provided inside said concave coupling seating. 20. Device as in claim 19 , wherein said anti-rotation constraint elements are disposed around said longitudinal axis alternating with said convex curved portions. 21. Device as in claim 19 , wherein said anti-rotation constraint elements comprise rigid transmission tongues with a shape mating with corresponding coupling seatings present on said milling tool, in order to transmit the rotational motion to the milling tool.