Lightweight joint for transmitting rotational movements

The invention claimed is: 1. A connecting joint for transmitting a rotation movement from a first to a second rotating shaft, comprising: a joint outer part configured to be coupled to the first rotating shaft; a joint inner part disposed at least partially within said joint outer part and configured to be coupled to the second rotating shaft; a joint central part disposed between and operatively coupled to said joint outer part and said joint inner part; a first ball track and a second ball track defined between said joint outer part and said joint central part; a third ball track and a fourth ball track defined between said joint inner part and said joint central part; a plurality of balls disposed in each of said first, second, third, and fourth ball tracks that are configured to change their respective position in relation to at least one of said joint outer, inner, or central parts, wherein said balls in said ball tracks are disposed about a common radius in a radial plane of the connecting joint, said joint outer part is pivotable with respect to said joint central part about a first pivot axis (A) by said balls disposed in at least said first and said second ball tracks, said joint inner part is pivotable with respect to said joint central part about a second pivot axis (B) by said balls disposed in at least said third and said fourth ball tracks, said first pivot axis (A) being oriented at an angle of 90° with respect to said second pivot axis (B), and rotational movement of either of said joint inner or outer part is transmitted, by said plurality of balls disposed in each of said ball tracks, to said joint central part, and further to the other of said joint inner or outer part. 2. The connecting joint of claim 1 , wherein at least two balls are provided in each of said first, second, third, and fourth ball tracks. 3. The connecting joint of claim 1 , wherein said ball tracks are configured to permit at least one of said joint outer part and said joint inner part to be pivotable by an angle of at least 40° in each pivoting direction about the first pivot axis (A) and the second pivot axis (B). 4. The connecting joint of claim 1 , wherein said joint outer part includes a plurality of first grooves defined in an interior surface thereof and said joint central part includes a plurality of complementary second grooves defined in an exterior surface thereof, which first and second grooves together define said first and second ball tracks in which said balls are disposed therein, and said joint central part further includes a plurality of third grooves defined in an interior surface thereof and said joint inner part includes a plurality of complementary fourth grooves defined in an exterior surface thereof, which third and fourth grooves together define said third and fourth ball tracks in which said balls are disposed therein. 5. The connecting joint of claim 1 , wherein one or more of said joint outer part, central part, or inner part is manufactured from at least one of rotationally symmetrical circular blanks, tube portions, or extrusion-press blanks. 6. The connecting joint of claim 1 , wherein one or more of said joint outer part, central part, or inner part are heat treated. 7. The connecting joint of claim 1 , wherein at least two of said first, second, third, or fourth ball tracks are each configured as double-track ball tracks having two tracks running adjacent and parallel to each other. 8. The connecting joint of claim 1 , wherein at least one of said joint outer part or said joint inner part has an end facing the respective first or second rotating shaft, on which end is disposed a joint journal configured to connect to the respective first or second rotating shaft. 9. A connecting joint for transmitting a rotation movement from a first to a second rotating shaft, comprising: a joint outer part configured to be coupled to the first rotating shaft; a joint inner part disposed at least partially within said joint outer part and configured to be coupled to the second rotating shaft; a joint central part disposed between and operatively coupled to said joint outer part and said joint inner part; a first ball track and a second ball track defined between said joint outer part and said joint central part; a third ball track and a fourth ball track defined between said joint inner part and said joint central part; a plurality of balls disposed in each of said first, second, third, and fourth ball tracks that are configured to change their respective position in relation to at least one of said joint outer, inner, or central parts, wherein said joint outer part is pivotable with respect to said joint central part about a first pivot axis (A) by said balls disposed in at least said first and said second ball tracks, said joint inner part is pivotable with respect to said joint central part about a second pivot axis (B) by said balls disposed in at least said third and said fourth ball tracks, said first pivot axis (A) being oriented at an angle of 90° with respect to said second pivot axis (B), rotational movement of either of said joint inner or outer part is transmitted, by said plurality of balls disposed in each of said ball tracks, to said joint central part, and further to the other of said joint inner or outer part, and the first, second, third, and fourth ball tracks have a contact angle of more than 45° in relation to said balls that are disposed in said respective ball tracks. 10. The connecting joint of claim 9 , wherein at least two balls are provided in each of said first, second, third, and fourth ball tracks. 11. The connecting joint of claim 9 , wherein said ball tracks are configured to permit at least one of said joint outer part and said joint inner part to be pivotable by an angle of at least 40° in each pivoting direction about the first pivot axis (A) and the second pivot axis (B). 12. The connecting joint of claim 9 , wherein said balls in said ball tracks are disposed about a common radius in a radial plane of the connecting joint. 13. The connecting joint of claim 9 , wherein said joint outer part includes a plurality of first grooves defined in an interior surface thereof and said joint central part includes a plurality of complementary second grooves defined in an exterior surface thereof, which first and second grooves together define said first and second ball tracks in which said balls are disposed therein, and said joint central part further includes a plurality of third grooves defined in an interior surface thereof and said joint inner part includes a plurality of complementary fourth grooves defined in an exterior surface thereof, which third and fourth grooves together define said third and fourth ball tracks in which said balls are disposed therein. 14. The connecting joint of claim 9 , wherein one or more of said joint outer part, central part, or inner part is manufactured from at least one of rotationally symmetrical circular blanks, tube portions, or extrusion-press blanks. 15. The connecting joint of claim 9 , wherein one or more of said joint outer part, central part, or inner part are heat treated. 16. The connecting joint of claim 9 , wherein at least two of said first, second, third, or fourth ball tracks are each configured as double-track ball tracks having two tracks running adjacent and parallel to each other. 17. The connecting joint of claim 9 , wherein at least one of said joint outer part or said joint inner part has an end facing the respective first or second rotating shaft, on which end