Roll stabilizer for a motor vehicle

The invention claimed is: 1. A roll stabilizer for a motor vehicle, comprising: a torsion bar comprising two torsion bar parts; an actuator disposed between the torsion bar parts for transferring a torque; a vibration damper for reducing vibrations of the roll stabilizer, the vibration damper comprising two half-shell components that form an annular clamp configured to vibrate with respect to the torsion bar; and a damper spring disposed between the torsion bar and the vibration damper; and the vibration damper includes at least one adjusting screw configured for adjusting a rigidity of the damper spring to a selected one of a plurality of different rigidities; and an upper retaining clamp and at least one lower retaining bracket configured to enable orienting the vibration damper in any rotational direction with respect to a longitudinal axis of the torsion bar. 2. The roll stabilizer of claim 1 , wherein the annular clamp is configured to vibrate along a vibrational axis of the vibration damper. 3. The roll stabilizer of claim 2 , wherein the vibration damper is configured to be oriented in any rotational direction with respect to a longitudinal axis of the roll stabilizer. 4. The roll stabilizer of claim 3 , wherein the vibration damper is configured to be oriented such that the vibrational axis coincides with a direction of vibration of the roll stabilizer. 5. The roll stabilizer of claim 1 , wherein the at least one adjusting screw is configured for varying a clamping force on the damper spring. 6. The roll stabilizer of claim 1 , wherein the damper spring comprises an elastomer clamped between the two half-shell components via the at least one adjusting screw. 7. The roll stabilizer of claim 1 , wherein the damper spring comprises two separated plate-shaped elastomer components arranged on opposite sides of the vibration damper. 8. A vibration damper for reducing vibrations of a roll stabilizer for a motor vehicle, comprising: an upper retaining clamp and one or more lower retaining brackets for attaching to a torsion bar comprising the roll stabilizer; a first damper element arranged on a first longitudinal edge of the upper retaining clamp; a second damper element, separated from the first damper element, arranged on a second longitudinal edge of the upper retaining clamp; an annular clamp for clamping the first damper element and the second damper element; and a first adjustment component for varying a rigidity of the first damper element and a second adjustment component for varying a rigidity of the second damper element. 9. The vibration damper of claim 8 , wherein the annular clamp comprises first and second half-shell components. 10. The vibration damper of claim 8 , wherein the first damper element is a first plate-shaped elastomer component and the second damper element is a second plate-shaped elastomer component. 11. The vibration damper of claim 10 , wherein: the first plate-shaped elastomer component includes: a first section clamped by the annular clamp; and a second exposed section arranged radially between the first section and the first longitudinal edge; and the second plate-shaped elastomer component includes: a third section clamped by the annular clamp; and a fourth exposed section arranged radially between the third section and the second longitudinal edge. 12. A method for reducing an undesired vibration of a roll stabilizer for a motor vehicle, comprising: fastening, via a first plurality of fasteners, an upper retaining clamp and one or more lower retaining brackets to a torsion bar comprising the roll stabilizer; fastening two half-shell components of an annular clamp onto damper elements via a second plurality of fasteners such that: i) the upper retaining clamp extends through the annular clamp, ii) the second plurality of fasteners extend through the damper elements without extending through the upper retaining clamp, and, iii) the first plurality of fasteners are arranged outside of the annular clamp; and adjusting the damper elements to a frequency of an undesired vibration via the second plurality of fasteners. 13. The method of claim 12 , wherein fastening the annular clamp onto the damper elements comprises fastening the annular clamp onto plate-shaped elastomer components of the damper elements.