Vibration sensor

What is claimed is: 1. A vibration sensor, comprising: a frame; at least one spring; a mass block supported with the aid of the at least one spring in a manner allowing movement relative to the frame in a measuring direction; a position-measurement device adapted to detect a displacement of the mass block in the measuring direction relative to the frame, the position-measurement device including a measuring standard and a scanning head aligned with the measuring standard, a first one of the measuring standard and the scanning head being secured on the mass block, a second one of the measuring standard and the scanning head being secured on the frame. 2. A vibration sensor, comprising: a frame; at least one spring; a mass block supported with the aid of the at least one spring in a manner allowing movement relative to the frame in a measuring direction; a position-measurement device adapted to detect a displacement of the mass block in the measuring direction relative to the frame, the position-measurement device including a measuring standard and a scanning head aligned with the measuring standard, a first one of the measuring standard and the scanning head being secured on the mass block, a second one of the measuring standard and the scanning head being secured on the frame; wherein the mass block is retained by two leaf springs in a manner allowing movement relative to the frame in measuring direction and blocking movement in all other degrees of freedom of the mass block. 3. The vibration sensor according to claim 1 , wherein the measuring standard is disposed on the mass block, and the scanning head is disposed on the frame. 4. The vibration sensor according to claim 1 , wherein the scanning head is adapted to scan the measuring standard with the aid of light. 5. The vibration sensor according to claim 1 , further comprising at least one damping magnet adapted to damp movement of the mass block by an eddy-current braking. 6. The vibration sensor according to claim 5 , wherein damping magnets of different magnetic alignment are disposed on the mass block and are aligned with an electrically conductive wall of the frame. 7. The vibration sensor according to claim 1 , wherein the measuring direction has a component in a direction of the gravitational force, at least a portion of the gravitational force of the mass block being offset by a configuration of magnets. 8. The vibration sensor according to claim 7 , wherein at least two magnets are secured on the frame and on the mass block such that the gravitational force on the mass block is offset at least partially by an attractive force between the magnets. 9. The vibration sensor according to claim 7 , wherein one pair of the magnets is adapted to compensate partially for the gravitational force on the mass block with the aid of a repelling force, and a further pair of the magnets is adapted to compensates partially for the gravitational force on the mass block with the aid of an attractive force. 10. The vibration sensor according to claim 7 , wherein a vertical position of at least one of the magnets is adjustable. 11. The vibration sensor according to claim 1 , wherein a portion of the gravitational force on the mass block not compensated for by the magnets is compensated for by an excursion of the leaf springs and a resultant spring force. 12. The vibration sensor according to claim 1 , wherein the vibration sensor is adapted to be mounted on a platform and measure vibrations of the platform, signals of the vibration sensor being adapted for active attenuation of the vibrations of the platform. 13. The vibration sensor according to claim 1 , wherein the vibration sensor is adapted to measure an imbalance of a rotating shaft of a machine tool. 14. A method, comprising: measuring, with the vibration sensor according to claim 1 , vibrations of a platform on which the vibration sensor is mounted; and actively attenuating the vibrations of the platform in accordance with signals of the vibration sensor. 15. A method, comprising: measuring, with the vibration sensor according to claim 1 , an imbalance of a rotating shaft of a machine tool.