Lifting system, method for electrical testing, vibration damper, and machine assembly

The invention claimed is: 1. A lifting system comprising: a plurality of piezo actuators; a support; and a hydraulic stroke multiplier comprising an input side and an output side, wherein the hydraulic stroke multiplier is attached to each piezo actuator of the plurality of piezo actuators on the input side and the hydraulic stroke multiplier is attached to the support on the output side, and wherein the input side of the hydraulic stroke multiplier is positioned perpendicularly with the output side of the hydraulic stroke multiplier. 2. The lifting system of claim 1 , wherein the hydraulic stroke multiplier further comprises, at the input side and at the output side, a piston chamber and a piston guided therein. 3. The lifting system of claim 1 , wherein the hydraulic stroke multiplier further comprises, at the input side and at the output side, a corrugated bellows, wherein cross sections of the input-side and output-side corrugated bellows differ from one another. 4. The lifting system of claim 1 , wherein the hydraulic stroke multiplier comprises, at the input side, a plurality of elements, each element of the plurality of elements comprising a corrugated bellows or a piston chamber with a piston guided therein, wherein each corrugated bellows or piston chamber is in communication with a respective piezo actuator of the plurality of piezo actuators; wherein the hydraulic stroke multiplier further comprises, at the output side, an element comprising a corrugated bellows or a piston chamber with a piston guided therein, wherein the output side comprises fewer elements than the input side. 5. The lifting system of claim 4 , wherein the input-side and output-side piston chambers or the input-side and output-side corrugated bellows are hydraulically connected to one another. 6. The lifting system of claim 4 , wherein the input-side and output-side corrugated bellows or the input-side and output-side piston chambers are connected to one another by a hydraulic throttle. 7. The lifting system of claim 4 , wherein a cross section of the input-side piston chamber is greater than a cross section of the output-side piston chamber, or wherein a cross section of the input-side corrugated bellows is greater than a cross section of the output-side corrugated bellows. 8. A vibration damper comprising: a lifting system, wherein the lifting system comprises: a piezo actuator; a support; and a hydraulic stroke multiplier comprising an input side and an output side, wherein the hydraulic stroke multiplier is attached to the piezo actuator on the input side and the hydraulic stroke multiplier is attached to the support on the output side, wherein the vibration damper is configured to control the piezo actuator in a first operating mode such that a total force acting on the lifting system remains constant and to control the piezo actuator in a second operating mode such that the support vibrates with the least possible deflection. 9. The vibration damper of claim 8 , wherein the support is configured for positively locking, cohesively locking, non-positively locking, or a combination thereof, a connection to a part of a machine. 10. The vibration damper of claim 8 , further comprising: a linear actuator; an attachment piece; and a second hydraulic stroke multiplier comprising an input side and an output side, wherein the second hydraulic stroke multiplier is attached to the linear actuator on the input side and the second hydraulic stroke multiplier is attached to the attachment piece on the output side. 11. A machine assembly comprising: a machine; and a vibration damper comprising a lifting system having a piezo actuator, a support, and a hydraulic stroke multiplier, wherein the hydraulic stroke multiplier comprises an input side and an output side, and wherein the hydraulic stroke multiplier is attached to the piezo actuator on the input side and the hydraulic stroke multiplier is attached to the support on the output side, wherein the vibration damper is configured to control the piezo actuator in a first operating mode such that a total force acting on the lifting system remains constant and to control the piezo actuator in a second operating mode such that the support vibrates with a least possible deflection, and wherein the vibration damper is attached, with an attachment part, to a foot of the machine. 12. The lifting system of claim 2 , wherein cross sections of the input-side piston chamber and of the output-side piston chamber differ from one another. 13. The vibration damper of claim 9 , wherein the part of the machine comprises a machine foot of the machine. 14. The machine assembly of claim 11 , wherein the machine comprises an electric motor. 15. The vibration damper of claim 8 , wherein the hydraulic stroke multiplier further comprises, at the input side and at the output side, a piston chamber and a piston guided therein. 16. The vibration damper of claim 8 , wherein the hydraulic stroke multiplier further comprises, at the input side and at the output side, a corrugated bellows, wherein cross sections of the input-side and output-side corrugated bellows differ from one another. 17. The vibration damper of claim 8 , wherein the hydraulic stroke multiplier comprises, at the input side, a plurality of elements, each element of the plurality of elements comprising a corrugated bellows or a piston chamber with a piston guided therein, wherein the hydraulic stroke multiplier further comprises, at the output side, an element comprising a corrugated bellows or a piston chamber with a piston guided therein, wherein the output side comprises fewer elements than the input side. 18. The vibration damper of claim 17 , wherein the input-side and output-side piston chambers or the input-side and output-side corrugated bellows are hydraulically connected to one another. 19. The vibration damper of claim 17 , wherein the input-side and output-side corrugated bellows or the input-side and output-side piston chambers are connected to one another by a hydraulic throttle. 20. The vibration damper of claim 17 , wherein a cross section of the input-side piston chamber is greater than a cross section of the output-side piston chamber, or wherein a cross section of the input-side corrugated bellows is greater than a cross section of the output-side corrugated bellows.