Applicator comprising a sealing membrane

The invention claimed is: 1. An applicator for applying a coating agent to a component, said applicator comprising: a) a nozzle chamber having a plurality of nozzles for dispensing the coating agent in the form of continuous jets or droplets, the coating agent flowing in use through the nozzle chamber to the nozzles so that the nozzle chamber is filled with the coating agent in use, b) a plurality of displaceable valve needles which are assigned to the individual nozzles and selectively open or close the respective nozzle as a function of the position of the valve needle, c) an actuator chamber for accommodating actuators for displacing the valve needles, and d) a sealing element, which fluidically separates the actuator chamber from the nozzle chamber in order to avoid contamination of the actuator chamber with the coating agent in the nozzle chamber, e) wherein the sealing element is designed such that the individual valve needles can be displaced independently of one another without a displacement of one of the valve needles affecting the opening and closing of the nozzles at the adjacent valve needle. 2. An applicator according to claim 1 , wherein the sealing element has a three-dimensional structure which prevents a displacement of one of the valve needles from affecting the opening and closing of the nozzles at the adjacent valve needles. 3. An applicator according to claim 2 , wherein the three-dimensional structure of the sealing element is located only on the side of the actuator chamber. 4. An applicator according to claim 2 , wherein the three-dimensional structure of the sealing element is located only on the side of the nozzle chamber. 5. An applicator according to claim 2 , wherein the three-dimensional structure of the sealing element is located both on the side of the nozzle chamber and on the side of the actuator chamber. 6. An applicator according to claim 2 , wherein the three-dimensional structure comprises at least one of the following structural elements: a1) cube, a2) cuboid, a3) tetrahedron a4) prism, a5) rib, a6) recess. 7. An applicator according to claim 6 , wherein the individual structural elements of the sealing element have at least one of the following forms in a top view: b1) square, b2) rectangular, b3) triangular, b4) parallelogram, b5) round, b6) circular, b7) ellipsoidal. 8. An applicator according to claim 6 , wherein the height of the structural elements is substantially constant perpendicular to the sealing element within the individual structural elements. 9. An applicator according to claim 6 , wherein the height of the structural elements varies perpendicularly to the sealing element within the individual structural elements, the height increasing or decreasing towards the adjacent hole. 10. An applicator according to claim 1 , wherein a) the sealing element has at least one row of holes of holes for the individual valve needles, b) individual structural elements of the three-dimensional structure are in each case elongate and are aligned with their longitudinal axis in each case parallel or transversely to the row of holes, and c) the individual structural elements of the three-dimensional structure are arranged in at least one row parallel to the row of holes. 11. An applicator according to claim 10 , wherein the sealing element has, at the circumferential edge of the holes, in each case a sealing collar in order to seal the respective hole. 12. An applicator according to claim 11 , wherein the sealing collar projects only towards the actuator chamber from the sealing element. 13. An applicator according to claim 11 , wherein the sealing collar projects only towards the nozzle chamber from the sealing element. 14. An applicator according to claim 11 , wherein the sealing collar projects both towards the nozzle chamber and towards the actuator chamber from the sealing element. 15. An applicator according to claim 10 , wherein a) the individual valve needles are each held in the holes of the sealing element by a press connection with a predetermined contact force. 16. An applicator according to claim 15 , wherein the contact pressure is such that the valve needles are axially fixed in the holes of the sealing member and do not slide axially in the holes of the sealing member so that displacement of one of the valve needles results in corresponding deflection of the sealing member. 17. An applicator according to claim 15 , wherein the contact pressure is such that the valve needles slide axially freely in the holes of the sealing member so that displacement of one of the valve needles does not result in corresponding deflection of the sealing member. 18. An applicator according to claim 15 , wherein the contact pressure is such that the valve needles slide partially freely in the holes of the sealing element and are partially axially fixed, so that a displacement of one of the valve needles on one part of the movement of the valve needle does not lead to a corresponding deflection of the sealing element and on another part of the movement of the valve needle leads to a corresponding deflection of the sealing element. 19. An applicator according to claim 10 , wherein a) the nozzle chamber has a volume not exceeding 100 ml; and b) the holes in the sealing element have an inside diameter which is smaller than the outside diameter of the valve needles, and c) the sealing element consists of one of the following materials: c1) plastics material, c2) metal, c3) ceramics, and d) there is a radial deviation of less than 0.2 mm between the centre of the holes of the sealing element on the one hand and the longitudinal axis of the associated valve needles on the other hand, and e) the sealing element consists of a material with a hardness of 20-100 Shore-A according to DIN EN ISO 868 and DIN ISO 7619-1, and f) the sealing member is manufactured by one of the following manufacturing methods: f1) subtractive manufacturing processes, f2) additive manufacturing processes, f3) injection moulding process, f4) thermoforming process, or f5) vacuum melting process. 20. An applicator according to claim 1 , wherein the sealing element has an annular bulge around each of the individual holes. 21. An applicator according to claim 20 , wherein the annular bulges are arranged only on the side of the actuator chamber. 22. An applicator according to claim 20 , wherein the annular bulges are arranged only on the side of the nozzle chamber. 23. An applicator according to claim 20 , wherein the annular bulges are arranged both on the side of the actuator chamber and on the side of the nozzle chamber. 24. An applicator according to claim 1 , wherein a) the sealing element has a multi-layer structure, and b) a leakage bore opens out of the applicator between the layers of the sealing element in order to be able to detect a leakage of one of the layers. 25. An applicator according to claim 24 , wherein the leakage bore is connected to a sensor which detects a leakage due to a coating agent escaping through the leakage bore. 26. An applicator according to claim 24 , wherein the leakage bore opens into a sight glass or a transparent tube to make a leakage optically visible. 27. An applicator according to claim 24 , wherein the leakage bore leads to a dirt diluent disposal or ends at the applicator.