Hollow-cylindrical ultrasonic actuator and method of actuation

The invention claimed is: 1. A hollow-cylindrical ultrasonic actuator comprising: a central axis (ZA); an inner peripheral surface facing the central axis (ZA) and an outer peripheral surface facing away from the central axis (ZA) and spaced apart from the inner peripheral surface, wherein in a cross-section perpendicular to the central axis (ZA) the inner peripheral surface defines a closed inner contour curve and the outer peripheral surface defines a closed outer contour curve; at least one electrode arranged on each of the inner peripheral surface as well as the outer peripheral surface; and an electromechanical material provided between opposed electrodes, vibration deformations to be excited in the hollow-cylindrical ultrasonic actuator by electrically actuating the at least one electrode, these vibration deformations being utilizable for driving an element when in frictional contact with the hollow-cylindrical ultrasonic actuator, wherein in a non-actuated state of the hollow-cylindrical ultrasonic actuator, at least one of the closed inner contour curve or the closed outer contour curve includes at least three spaced-apart local points of maximum curvature. 2. The hollow-cylindrical ultrasonic actuator according to claim 1 , wherein the at least three spaced-apart local points of maximum curvature are spaced apart equidistantly along the closed inner contour curve and/or the closed outer contour curve. 3. The hollow-cylindrical ultrasonic actuator according to claim 1 , wherein the at least three spaced-apart local points of maximum curvature corresponds to an odd natural number. 4. The hollow-cylindrical ultrasonic actuator according to claim 1 , wherein a curvature of the closed inner contour curve or a curvature of the closed outer contour curve changes continuously along its respective profile. 5. The hollow-cylindrical ultrasonic actuator according to claim 1 , wherein a shape of the closed inner contour curve is geometrically similar to a shape of the closed outer contour curve and wherein a thickness of the hollow-cylindrical ultrasonic actuator is equal along a periphery. 6. The hollow-cylindrical ultrasonic actuator of claim 1 in combination with: a support device to form an arrangement, wherein the support device contacts the inner peripheral surface of the ultrasonic actuator at a section where a curvature of the closed inner contour curve exhibits a local maximum. 7. The hollow-cylindrical ultrasonic actuator of claim 6 , wherein contacts of the support device with the inner peripheral surface of the hollow-cylindrical ultrasonic actuator comprise: spherical sections or spherical elements. 8. The hollow-cylindrical ultrasonic actuator of claim 7 , wherein the spherical sections or the spherical elements are elastically deformable. 9. The hollow-cylindrical ultrasonic actuator of claim 6 , wherein the support device comprises: elastically deformable sections configured as flexure hinges. 10. The hollow-cylindrical ultrasonic actuator of claim 6 , wherein the support device has a star-shaped geometry which comprises: arm sections which extend from a common center. 11. The hollow-cylindrical ultrasonic actuator of claim 10 wherein a distal end of each arm section comprises: a spherical element, and wherein each arm section includes a deformable section formed integrally therewith and configured as a flexure hinge. 12. A method for driving an element, the method comprising: providing a hollow-cylindrical ultrasonic actuator having electrodes, an electromechanical material provided between opposed electrodes, a central axis (ZA), and an inner peripheral surface facing the central axis (ZA) and an outer peripheral surface facing away from the central axis (ZA) and spaced apart from the inner peripheral surface, wherein in a cross-section perpendicular to the central axis (ZA) the inner peripheral surface defines a closed inner contour curve and the outer peripheral surface defines a closed outer contour curve, the method comprising: arranging at least one electrode on each of the inner peripheral surface as well as the outer peripheral surface; and electrically activating the at least one electrode to excite the vibration deformations, these vibration deformations driving an element in frictional contact with the hollow-cylindrical ultrasonic actuator, wherein in a non-actuated state of the hollow-cylindrical ultrasonic actuator, at least one of the closed inner contour curve or the closed outer contour curve include at least three spaced-apart local points of maximum curvature. 13. The hollow-cylindrical ultrasonic actuator according to claim 2 , wherein the at least three spaced-apart local points of maximum curvature corresponds to an odd natural number. 14. The hollow-cylindrical ultrasonic actuator according to claim 13 , wherein a curvature of the closed inner contour curve or a curvature of the closed outer contour curve changes continuously along its respective profile. 15. The hollow-cylindrical ultrasonic actuator according to claim 14 , wherein a shape of the closed inner contour curve is geometrically similar to a shape of the closed outer contour curve and wherein a thickness of the hollow-cylindrical ultrasonic actuator is therefore equal along a periphery. 16. The hollow-cylindrical ultrasonic actuator of claim 15 in combination with: a support device to form an arrangement, wherein the support device contacts the inner peripheral surface of the hollow-cylindrical ultrasonic actuator at a section where a curvature of the closed inner contour curve exhibits a local maximum.