Joint arrangement, drive system for driving control surfaces of an aircraft and aircraft with such a drive system

The invention claimed is: 1. A joint arrangement comprising: an outer joint component having a spherical inner surface surrounding a hollow space and a first interface section, the inner surface comprising at least first and second outer ball recesses; an inner joint component positioned inside the hollow space of the outer joint component, the inner joint component having a spherical outer surface and a second interface section, the outer surface comprising at least first and second inner ball recesses; a spherical cage arranged in the hollow space between the inner surface of the outer joint component and the outer surface of the inner joint component, the cage comprising at least first and second openings extending from a side facing the outer joint component to a side facing the inner joint component; at least first and second balls; and at least first and second pressing devices, wherein the at least first and second balls are arranged in the first and second outer ball recesses, the first and second inner ball recesses and the first and second openings, respectively, of the cage for transferring a torque from the first interface section to the second interface section, wherein the at least first and second pressing devices are arranged in one of the inner joint component, the outer joint component and the cage, each in mechanical contact with one of the at least first and second balls, wherein the at least first and second pressing devices are adapted for holding the at least first and second balls in a respective recess with a predetermined maximum pressing force for limiting a maximum transferable torque of the joint arrangement. 2. The joint arrangement of claim 1 , wherein each of the outer ball recesses constitutes a ball recess pair with an inner ball recess and corresponds to an opening in the cage, and wherein at least first and second first balls are arranged in the ball recess pairs and a corresponding opening of the cage. 3. The joint arrangement of claim 1 , wherein the outer ball recesses comprise outer ball grooves comprising a radius of curvature exceeding the radius of curvature of the respective balls arranged therein, and wherein the center of curvature of the outer ball grooves is distanced from a geometrical center of the outer joint component. 4. The joint arrangement of claim 3 , wherein the radius of curvature of the ball grooves are at least twice the radius of curvature of the respective balls arranged therein. 5. The joint arrangement of claim 1 , wherein the outer ball recesses comprise outer ball grooves comprising a radius of curvature equaling the radius of curvature of the respective balls arranged therein, and wherein a central angle (β) of a cross-section of the inner ball recess exceeds a central angle (α) of a cross-section of the outer ball recess. 6. The joint arrangement of claim 1 , wherein the pressing devices are arranged in the cage and support the respective balls in a radially flexible position relative to the cage, and wherein the cage comprises an inner cage surface having at least first and second rotatably supported second balls, and wherein the at least first and second second balls are arranged in corresponding inner recesses. 7. The joint arrangement of claim 1 , wherein the cage is at least partially divided in a radial direction into a first cage part and a second cage part, wherein the second cage part surrounds the first cage part at least partially, each of the first and second cage part having at least first and second cage part recesses arranged in corresponding positions, wherein the pressing devices are arranged in one of the first cage part and the second cage part and support the at least first and second first balls in a radially flexible position relative to one of the first cage part and the second cage part, wherein the cage comprises an inner cage surface having at least first and second rotatably supported second balls and wherein the at least first and second second balls are arranged in corresponding inner recesses of the inner joint component, and wherein the cage comprises an outer cage surface having at least first and second rotatably supported third balls and wherein the at least first and second third balls are arranged in corresponding outer ball recesses of the outer joint component. 8. The joint arrangement of claim 1 , wherein the pressing devices comprise springs arranged in pressing device recesses, and wherein each spring is mechanically coupled with an end face of the pressing device recess and the respective ball. 9. The joint arrangement of claim 1 , wherein each first ball is supported on a ball cup. 10. The joint arrangement of claim 1 , wherein at least two of the outer joint component, the inner joint component and the cage are adapted to constitute an electric generator. 11. The joint arrangement of claim 1 , wherein the at least first and second pressing devices provide a radially flexible position support to the at least first and second balls, respectively. 12. The joint arrangement of claim 1 , wherein, if a predetermined maximum shearing force between the outer joint component and the inner joint component is exceeded, at least one of the first and second balls is configured to move radially and leave the corresponding outer ball recess. 13. A drive system for control surfaces of an aircraft, comprising: a power control unit; at least one transmission shaft having a plurality of transmission shaft sections; and at least one drive station, wherein the transmission shaft sections are coupled by a joint arrangement comprising: an outer joint component having a spherical inner surface surrounding a hollow space and a first interface section, the inner surface comprising at least first and second outer ball recesses; an inner joint component positioned inside the hollow space of the outer joint component, the inner joint component having a spherical outer surface and a second interface section, the outer surface comprising at least first and second inner ball recesses; a spherical cage arranged in the hollow space between the inner surface of the outer joint component and the outer surface of the inner joint component, the cage comprising at least first and second openings extending from a side facing the outer joint component to a side facing the inner joint component; at least first and second balls; and at least first and second pressing devices, wherein the at least first and second balls are arranged in the first and second outer ball recesses, the first and second inner ball recesses and the first and second openings, respectively, of the cage for transferring a torque from the first interface section to the second interface section, wherein the at least first and second pressing devices are arranged in one of the inner joint component, the outer joint component and the cage, each in mechanical contact with one of the at least first and second balls, wherein the at least first and second pressing devices are adapted for holding the at least first and second balls in a respective recess with a predetermined maximum pressing force for limiting a maximum transferable torque of the joint arrangement. 14. An aircraft comprising: a drive system comprising: a power control unit; at least one transmission shaft having a plurality of transmission shaft sections; and at least one drive station, wherein the transmission shaft sections are coupled by a joint arrangement comprising: an outer joint component having a spherical inner surface surrounding a hollow space and a first interface sec