Print head for the application of a coating agent on a component

The invention claimed is: 1. A printhead for applying a coating agent to a component, having a) a first plate defining a plurality of outlet openings for dispensing the coating agent, b) a coating agent supply for supplying the coating agent to the plurality of outlet openings, c) a second plate supporting a plurality of movable valve elements, each valve element of the plurality of movable valve elements movable between an open position and a closed position, each valve element of the plurality of movable valve elements closing a respective one of the plurality of outlet openings, whereas each valve element of the plurality of movable valve elements releases the respective one of the plurality of outlet openings in the open position, and d) a plurality of valve actuators for moving the plurality of movable valve elements between the open positions and the closed positions, e) further comprising a continuous flexible membrane which separates the plurality of valve actuators from the coating agent supply, wherein an actuator side of the continuous flexible membrane faces the valve actuators and a coating agent side of the continuous flexible membrane is exposed to the coating agent in the coating agent supply, and wherein the continuous flexible membrane is fixed to the second plate between each moveable valve element of the plurality of movable valve elements. 2. The printhead according to claim 1 , wherein a return spring is disposed between the second plate and the continuous flexible membrane, the return spring pressing the continuous flexible membrane away from the second plate. 3. The printhead according to claim 1 , wherein the continuous flexible membrane is elastic and presses the movable valve element away from the first plate. 4. The printhead according to claim 1 , wherein the continuous flexible membrane is magnetic or magnetizable and each valve actuator of the plurality of valve actuators has a magnetic actuator which either attracts or repels the magnetic or magnetizable continuous flexible membrane. 5. The printhead according to claim 4 , wherein the continuous flexible membrane contains magnetic or magnetizable particles to make the continuous flexible membrane magnetic. 6. The printhead according to claim 1 , wherein each valve actuator of the plurality of valve actuators includes a displaceable valve needle for moving the valve element between the open position and the closed position. 7. The printhead according to claim 1 , wherein each valve actuator of the plurality of valve actuators includes a magnetic actuator having an electromagnetic coil supported by the second plate. 8. The printhead according to claim 6 , wherein each valve needle is fixedly connected to the continuous flexible membrane and to one of the valve elements of the plurality of valve elements so that displacement of the valve needles inevitably leads to a corresponding deflection of the continuous flexible membrane and the valve element. 9. The printhead according to claim 6 , wherein the valve elements and the valve needles are located completely on the actuator side of the continuous flexible membrane and are separated from the coating agent supply by the continuous flexible membrane. 10. The printhead according to claim 6 , wherein at least one of the valve elements or the valve needles are located with one part in the coating agent supply and with another part on the actuator side of the continuous flexible membrane, wherein the continuous flexible membrane separates the one part from the another part. 11. The printhead according to claim 1 , wherein each of the valve elements has a nipple on the coating agent side of the continuous flexible membrane. 12. The printhead according to claim 11 , wherein the valve is elements are integrally formed on the continuous flexible membrane on the coating agent side of the continuous flexible membrane. 13. The printhead according to claim 11 , wherein a) the nipple on the coating agent side of the continuous flexible membrane is formed concentrically to one of the outlet openings, and b) the nipple on the coating agent side of the membrane is congruently shaped to the shape of one of the outlet openings. 14. The printhead according to claim 1 , wherein the valve actuators are fluid actuators which apply adjustable fluid pressure to a flexible actuator membrane on the actuator side of the continuous flexible membrane in order to deflect the actuator membrane and thus move the valve elements between the open positions and the closed positions. 15. The printhead according to claim 14 , wherein each of the fluid actuators is a hydraulic actuator or a pneumatic actuator. 16. The printhead according to claim 15 , wherein the actuator membrane forms the continuous flexible membrane. 17. The printhead according to claim 1 , wherein the continuous flexible membrane consists of a polymer material. 18. The printhead according to claim 1 , wherein the continuous flexible membrane is a microporous membrane. 19. The printhead according to claim 1 , wherein the plurality of valve actuators are supported by the second plate. 20. The printhead according to claim 1 , wherein the plurality of movable valve elements are independently movable relative to the second plate. 21. The printhead head according to claim 1 , wherein the continuous flexible membrane is a metal foil. 22. The printhead according to claim 15 , wherein the actuator membrane is provided in addition to the continuous flexible membrane.