Device for generating an atmospheric-pressure plasma

The invention claimed is: 1. A device for generating an atmospheric-pressure plasma, the device comprising: a piezoelectric transformer comprising an input region and an output region, wherein the input region is designed to convert an applied alternating voltage into a mechanical oscillation, wherein the output region is designed to convert a mechanical oscillation into a voltage, and wherein the output region adjoins the input region in a longitudinal direction; a contact element fastened to the piezoelectric transformer, the contact element being designed to apply the alternating voltage to the input region, wherein the contact element has two wires; and a holder, wherein the contact element is connected to the holder by a form-fit connection, in such a manner that a movement of the piezoelectric transformer in the longitudinal direction, relative to the holder, is prevented, wherein the holder has openings, a diameter of which corresponds to a diameter of the wires and wherein each of the two wires goes through two respective openings in the holder and are thereby connected to the holder in a form-fitting manner. 2. The device as claimed in claim 1 , wherein the holder has two projections, and wherein, on both sides, the contact element bears directly against respectively one of the two projections in the longitudinal direction. 3. The device as claimed in claim 1 , wherein the holder has slot-type recesses in which the contact element is arranged, and through which the contact element is run out from the holder, from an interior of the holder. 4. The device as claimed in claim 1 , wherein the contact element is fastened to the piezoelectric transformer by a non-separable fastening. 5. The device as claimed in claim 1 , wherein the holder has at least two support elements, on which the piezoelectric transformer is supported and which prevent a movement of the piezoelectric transformer in a direction perpendicular to the longitudinal direction. 6. The device as claimed in claim 5 , wherein the support elements are of a shape that tapers in the form of a wedge toward the piezoelectric transformer and bear against the piezoelectric transformer in a virtually linear manner. 7. The device as claimed in claim 5 , wherein the support elements are arranged in such a manner that they bear against the piezoelectric transformer, in the longitudinal direction, at a position that corresponds to one quarter of a length of the piezoelectric transformer, and/or wherein the support elements are arranged in such a manner that they bear against the piezoelectric transformer, in the longitudinal direction, at a position that corresponds to three quarters of the length of the piezoelectric transformer. 8. The device as claimed in claim 1 , wherein the holder is composed of a material that deforms predominantly elastically. 9. The device as claimed in claim 1 , wherein the holder has two half-shells that are connected to each other. 10. The device as claimed in claim 9 , wherein the two half-shells are identical, and wherein the two half-shells are made from one material. 11. A plasma generator comprising: a device as claimed in claim 1 ; and a housing in which the device is arranged. 12. The plasma generator as claimed in claim 11 , wherein the device is separably fastened in the housing, such that the device can be removed from the housing. 13. The plasma generator as claimed in claim 11 , wherein the holder is fastened in the housing by a screwed connection or a latching connection. 14. The plasma generator as claimed in claim 11 , wherein the device is fastened in the housing by a material connection. 15. The plasma generator as claimed claim 11 , wherein a trigger circuit, for triggering the piezoelectric transformer, which is electrically contacted to the piezoelectric transformer via the contact element, is arranged in the housing. 16. A device for generating an atmospheric-pressure plasma, the device comprising: a piezoelectric transformer comprising an input region and an output region, wherein the input region is designed to convert an applied alternating voltage into a mechanical oscillation, wherein the output region is designed to convert a mechanical oscillation into a voltage, and wherein the output region adjoins the input region in a longitudinal direction; a contact element fastened to the piezoelectric transformer, the contact element being designed to apply the alternating voltage to the input region, wherein the contact element has a metal plate that comprises copper-invar-copper; and a holder, wherein the contact element is connected to the holder by a form-fit connection, in such a manner that a movement of the piezoelectric transformer in the longitudinal direction, relative to the holder, is prevented. 17. The device as claimed in claim 16 , wherein the metal plate has a first portion, which bears against the piezoelectric transformer, and a second portion, which is arranged on an exterior of the holder. 18. The device as claimed in claim 17 , wherein the metal plate comprises additionally a middle portion, which connects the first portion to the second portion, and wherein the metal plate is bent in a U shape. 19. The device as claimed in claim 17 , wherein the second portion has a bent sub-portion, which is connected to the holder in a form-fitting manner. 20. The device as claimed in claim 17 , wherein the device additionally has a web that bears against an input-side end face of the piezoelectric transformer and thereby prevents a movement of the piezoelectric transformer in the longitudinal direction toward the web. 21. A device for generating an atmospheric-pressure plasma, the device comprising: a piezoelectric transformer comprising an input region and an output region, wherein the input region is designed to convert an applied alternating voltage into a mechanical oscillation, wherein the output region is designed to convert a mechanical oscillation into a voltage, and wherein the output region adjoins the input region in a longitudinal direction; a contact element fastened to the piezoelectric transformer, the contact element being designed to apply the alternating voltage to the input region; and a holder, wherein the contact element is connected to the holder by a form-fit connection, in such a manner that a movement of the piezoelectric transformer in the longitudinal direction, relative to the holder, is prevented, and wherein the holder has two identical half-shells that are connected to each other, the two half-shells being made from one material.