Film transducer

What is claimed: 1. A film transducer comprising a holding part, an electroactive composite structure including at least two deformable carriers and at least two electrodes arranged on opposite sides of said deformable carriers, said composite structure having two opposite ends facing away from each other, and a load application member mounted to said composite structure, said holding part engaging said ends of said composite structure, said load application member being arranged between said ends of said composite structure wherein said composite structure includes two or more deformable carriers stacked one on top of another, said electrodes are plated through in an area of said holding part by using a first electrode to jointly contact a first set of electrodes and a second electrode to jointly contact a second set of electrodes, wherein said load application member has a magnet assigned to it by which the load application member can be coupled to a further component, for example a valve element, by magnetic forces of attraction. 2. The film transducer of claim 1 wherein a spring element is provided which urges said load application member in one direction. 3. The film transducer of claim 1 comprising a folded sequence of carrier sections with electrodes. 4. The film transducer of claim 1 wherein said composite structure has a rectangular basic shape. 5. The film transducer of claim 1 wherein said carrier is a dielectric material. 6. The film transducer of claim 5 wherein said carrier is a sheet or a film made from a dielectric polymer. 7. The film transducer of claim 5 wherein said carrier is a printed component which has been produced as a thin film by screen printing processes, pad printing processes, 3D printing processes. 8. The film transducer of claim 5 wherein said carrier is a cast component. 9. The film transducer of claim 1 wherein said electrodes are a printed component which has been applied as a thin layer by screen printing processes, pad printing processes, 3D printing processes, lamination, inkjet printing processes or aerosol jet processes. 10. The film transducer of claim 1 wherein said electrode is bonded to the carrier. 11. The film transducer of claim 1 wherein said electrode is configured to be continuous on one side of said carrier. 12. The film transducer of claim 1 wherein said electrode consists of two separate electrode sections on one side of said carrier. 13. The film transducer of claim 1 wherein said composite structure has an elongated, rectangular basic shape and said holding part engages at two sides of said composite structure which are shorter than two other sides. 14. The film transducer of claim 1 wherein said holding part consists of two fixing sections each of which is arranged at one of said ends of said composite structure. 15. The film transducer of claim 14 wherein said two fixing sections are connected to each other by connecting sections. 16. The film transducer of claim 15 wherein predetermined breaking points in the form of thin material webs or areas of reduced wall thickness are provided between the fixing sections and the connecting sections. 17. The film transducer of claim 15 wherein a distance of said connecting sections from each other is greater than a width of said load application member. 18. The film transducer of claim 14 wherein said fixing sections are connected to each other only indirectly by means of said composite structure. 19. The film transducer of claim 14 wherein said fixing sections are provided with fastening openings. 20. The film transducer of claim 14 wherein said fixing sections have edges facing said composite structure, said edges having a rounded shape. 21. The film transducer of claim 1 wherein said holding part consists of a material having a hardness that is higher than a hardness of said deformable carrier. 22. The film transducer of claim 1 wherein said load application member has at least one side edge having a rounded shape. 23. The film transducer of claim 1 wherein an elastically deformable insulating layer is applied to the electrode. 24. The film transducer of claim 1 wherein said insulating layer has been applied by chemical vapor deposition. 25. The film transducer of claim 24 wherein said insulating layer is laminated on the electrode. 26. The film transducer of claim 25 wherein said insulating layer is a printed component which has been applied by screen printing processes, pad printing processes or 3D printing processes. 27. The film transducer of claim 24 wherein said insulating layer has a hardness that is lower than a hardness of said composite structure. 28. The film transducer according to claim 23 , characterized in that the insulating layer is made from silicone, acrylate or polyurethane. 29. The film transducer of claim 1 wherein said holding part is a printed component. 30. The film transducer of claim 1 wherein said holding part is printed on said composite structure. 31. The film transducer of claim 1 wherein said holding part has been printed by screen printing processes, pad printing processes or 3D printing processes. 32. The film transducer of claim 1 wherein said holding part is an injection molded part. 33. The film transducer of claim 1 wherein said holding part is laminated on the composite structure. 34. The film transducer of claim 1 wherein said holding part consists of an epoxy resin. 35. The film transducer of claim 1 wherein said holding part is provided with conductor tracks. 36. The film transducer of claim 1 wherein said holding part includes at least one separating web by which it is connected with a neighboring holding part during the manufacturing process. 37. The film transducer of claim 1 wherein said composite structure has intrinsic sensory properties. 38. The film transducer of claim 1 wherein when there is an even number of said carriers, wherein the electrodes have an area size and said carriers have an area size, the area sizes having a ratio electrode area size to carrier area size of approximately 1 to prevent electrical sparkovers.