Chassis actuator and method for operating a transmission assembly of a chassis actuator

The invention claimed is: 1. A chassis actuator, comprising: a rotational-linear transmission adapted for coupling, on an output side, to at least one chassis element, the rotational-linear transmission having: an input-side element threadably engaged with an output element via non-trapezoidal threads such that rotation of the input-side element linearly displaces the output element to actuate the at least one chassis element, the input-side element mounted in a housing via at least one axial bearing, an adjustable preloading device mounted to the housing, the adjustable preloading nut applying an adjustable axial force to the at least one axial bearing and the input-side element so as to adjust an efficiency of the chassis actuator to a value corresponding to a locked condition of the rotational-linear transmission. 2. The chassis actuator according to claim 1 , wherein the adjustable pre-loading device comprises an adjustable preloading nut screwed into an internal thread of the housing. 3. The chassis actuator according to claim 2 , wherein the adjustable preloading nut is in direct contact with a bearing ring of the at least one axial bearing. 4. The chassis actuator according to claim 3 , wherein the at least one axial bearing is a roller bearing. 5. The chassis actuator according to claim 4 , wherein the at least one axial bearing comprises rolling elements configured to perform both an axial bearing function and a radial bearing function. 6. The chassis actuator of claim 2 , wherein the input-side element is a spindle nut and the output element is a threaded spindle. 7. The chassis actuator according to claim 1 , wherein the at least one axial bearing comprises a first axial bearing having: first rolling elements configured to exclusively perform an axial bearing function, and second rolling elements configured to exclusively perform a radial bearing function, and the first rolling elements and the second rolling elements are configured to roll directly on a same bearing ring. 8. The chassis actuator according to claim 1 , wherein the rotational-linear transmission is a planetary roller gear system. 9. The chassis actuator according to claim 8 , wherein the input-side element is rotatably driven via a belt drive. 10. The chassis actuator of claim 1 , wherein the at least one axial bearing includes a first axial roller bearing and a second axial roller bearing, and the input-side element is mounted in the housing via: i) the first axial roller bearing arranged on a first side of the input-side element, and ii) the second axial roller bearing arranged on a second side of the input-side element, and the first axial roller bearing and the second axial roller bearing are configured to receive the adjustable axial force. 11. The chassis actuator of claim 10 , wherein: the first axial roller bearing comprises: first rolling elements configured to exclusively perform an axial bearing function, and second rolling elements configured to exclusively perform a radial bearing function, and the second axial roller bearing comprises: third rolling elements configured to exclusively perform an axial bearing function, and fourth rolling elements configured to exclusively perform a radial bearing function. 12. The chassis actuator of claim 1 , wherein the at least one axial bearing comprises two axial bearings, and the adjustable preloading device loads the two axial bearings. 13. The chassis actuator of claim 1 , wherein the efficiency of the chassis actuator is adjusted from a value greater than 50%, which corresponds to an unlocked condition of the rotational-linear transmission, to a value between 35% and 45%, which corresponds to the locked condition of the rotational-linear transmission. 14. A chassis actuator, comprising: a rotational-linear transmission adapted for coupling, on an output side, to at least one chassis element, the rotational-linear transmission having: an input-side element threadably engaged with an output element such that rotation of the input-side element linearly displaces the output element to actuate the at least one chassis element, the input-side element mounted in a housing via at least one axial bearing, an adjustable preloading device mounted to the housing, the adjustable preloading nut applying an adjustable axial force to the at least one axial bearing and the input-side element so as to adjust an efficiency of the chassis actuator from a value corresponding to a back-drivable chassis actuator to a value corresponding to a non-back-drivable chassis actuator. 15. The chassis actuator of claim 14 , wherein input-side element is a spindle nut and the output element is a threaded spindle, and the adjustable axial force is configured to load the spindle nut against the threaded spindle.