Diaphragm arrangement for generating sound

The invention claimed is: 1. A diaphragm arrangement configured to be fitted to a structural component for the purpose of generating sound, the diaphragm arrangement comprising: an electrically conductive diaphragm which can oscillate, two piezo crystals which are fitted opposite one another on either side of the electrically conductive diaphragm, wherein the piezo crystals are each fastened to the diaphragm, wherein the piezo crystals are each electrically conductively connected to a separate contact plate on their side opposite said diaphragm, a pair of contact strips extending substantially in the direction of the structural component, wherein the first contact strip includes a free end and a second opposite end connected to one of the contact plates, and wherein the second contact strip includes a free end and a second opposite end connected to the other of the two contact plates, wherein each free end has an electrical connection contact point. 2. The diaphragm arrangement according to claim 1 , wherein said diaphragm arrangement is round or oval. 3. The diaphragm arrangement according to claim 1 , further comprising a fixing ring adapted to be fitted to the structural component, and wherein the contact strips are configured to be attached to said fixing ring. 4. The diaphragm arrangement according to claim 3 , wherein the contact strips are fitted to the fixing ring, and the connection contacts are connected to outer connections, which are situated next to one another on the fixing ring, in an electrically conductive manner. 5. The diaphragm arrangement according to claim 1 , wherein an electrically conductive filling material for the purpose of electrical connection is in each case arranged between the two piezo crystals and the diaphragm or the contact plates, adhesive passing through said filling material in order to fix the piezo crystals to said diaphragm in an electrically conductive manner. 6. The diaphragm arrangement according to claim 1 , wherein the piezo crystals are fastened to the diaphragm in a mechanically prestressed manner in such a way that no tensile stresses occur in said diaphragm during operation. 7. The diaphragm arrangement according to claim 1 , wherein each of the contact strips extends, starting from the respective contact plate, initially in the direction of the contact connection and then further extends at a short distance from a diaphragm plane. 8. The diaphragm arrangement according to claim 1 , wherein the contact plates project radially beyond the edge of the piezo crystals. 9. The diaphragm arrangement according to claim 8 , wherein sealing rings are in each case arranged beneath the contact plates outside the narrow sides of the piezo crystals. 10. The diaphragm arrangement according to claim 1 , further comprising a non-conductive fiber-reinforced composite. 11. The diaphragm arrangement according to claim 10 , wherein the fiber-reinforced composite extends beyond the diaphragm in the plane of said diaphragm and can be fixed to the outside of the fixing ring, wherein at least one contact strip, which extends in the direction of the fixing ring, is provided on the diaphragm, the end of said contact strip having a connection contact. 12. The diaphragm arrangement according to claim 1 , wherein the diaphragm has two radially opposite contact strips. 13. A gas turbine, comprising: an engine having a plurality of stator blades, wherein the diaphragm arrangement of claim 1 is fitted to at least one of said plurality of stator blades. 14. A wing, comprising: a slot actuator system for influencing the boundary layer, wherein said wing further includes the diaphragm arrangement of to claim 1 . 15. A diaphragm arrangement configured to be fitted to a structural component for the purpose of generating sound, the diaphragm arrangement comprising: an electrically conductive diaphragm which can oscillate, two piezo crystals which are fitted opposite one another on either side of the electrically conductive diaphragm, wherein the piezo crystals are each fastened to the diaphragm, wherein the piezo crystals are each electrically conductively connected to a separate contact plate on their opposite side, wherein each contact plate has at least one contact strip which extends substantially in the direction of the structural component, wherein the free end has an electrical connection contact point, wherein an electrically conductive filling material for the purpose of electrical connection is in each case arranged between the two piezo crystals and the diaphragm or the contact plates, adhesive passing through said filling material in order to fix the piezo crystals to said diaphragm in an electrically conductive manner, and wherein the filling material is a metal wire mesh composed of a copper alloy.