Coating agent valve

The invention claimed is: 1. A coating agent valve for controlling a flow of fluid of a coating agent mixture consisting of two coating agent components master batch, with: a) a valve seat, b) a displaceable valve head, b1) wherein the valve head in a closed position seals off the valve seat and thereby blocks the flow of fluid, b2) whereas the valve head in an open position releases the valve seat and thereby also the flow of fluid, c) a valve drive for displacing the valve head, the valve drive including a displaceable piston which acts on the valve needle in order to displace the valve needle, a control-air inlet for supplying control air, the control air acting on the piston in order to displace the piston and hence also the valve needle, and a valve spring which acts with a spring force on the piston or the valve needle, wherein the valve spring presses the valve needle in the direction of the closed position, and the control air presses the valve needle via the piston in the direction of the open position, the valve spring and the valve head are arranged on opposite sides of the piston, the piston has a piston diameter of at least 5 mm, in order to generate a large opening force upon movement of the valve needle into the open position, the control air for moving the valve needle into the open position requires a control-air pressure of less than 6 bar, so that the control air can be drawn from a conventional 6-bar compressed-air system, and the piston including an oval cross section, d) a displaceable valve needle which connects the valve drive to the valve head and moves the valve head in correspondence with the valve drive, e) a flexible membrane which is fastened in a valve space, a displacement of the membrane resulting in a corresponding displacement of the valve needle, f) a first coating agent inlet for supplying the first coating agent component, and g) a second coating agent inlet for supplying the second coating agent component, h) wherein the first coating agent inlet and the second coating agent inlet opens into the valve space on the side of the membrane remote from the valve drive, and i) the coating agent pressure in the valve space downstream from the membrane from a certain opening pressure onwards presses the valve needle via the membrane out of the closed position into the open position. 2. A coating agent valve according to claim 1 , wherein the valve needle is formed at least in part by a mixer which mixes the coating agent components together. 3. A coating agent valve according to claim 2 , wherein the mixer is a static mixer. 4. A coating agent valve according to claim 3 , wherein the static mixer is a lattice mixer. 5. A coating agent valve according to claim 3 , wherein the static mixer is a spiral mixer. 6. A coating agent valve according to claim 2 , wherein the coating agent valve has a hollow paint tube for mounting in a hollow turbine shaft of a rotary atomiser, the paint tube and the turbine shaft in the mounted state extending coaxially. 7. A coating agent valve according to claim 6 , wherein the valve needle is arranged in the paint tube in the form of the mixer. 8. A coating agent valve according to claim 1 , wherein a) the coating agent valve has a displaceable thrust piece which is connected at its distal end to the displaceable mixer and displaces it, b) the thrust piece is arranged displaceably, and c) the membrane is fastened centrally in sealing manner on the thrust piece, whereas the membrane is fastened with its peripheral edge in sealing manner on the inner wall of the valve space. 9. A coating agent valve according to claim 8 , wherein a) the first coating agent inlet opens into the valve space on the side of the membrane remote from the valve drive, so that the membrane seals off the valve drive from the mixer, and b) the second coating agent inlet opens into the valve space on the side of the membrane remote from the valve drive, so that the membrane seals off the valve drive from the mixer. 10. A coating agent valve according to claim 1 , wherein the spring force of the valve spring in the closed position and in the open position being at least 20 N and at most 400 N. 11. A coating agent valve according to claim 1 , wherein a) the valve spring presses the valve needle in the direction of the closed position with a certain closing force, b) the pneumatic valve drive in the event of pneumatic driving presses the valve needle with a certain opening force in the direction of the open position, c) the opening force is greater by a certain opening force excess than the closing force, in order to be able to open the coating agent valve if the valve head adheres to the valve seat. 12. A coating agent valve according to claim 11 , wherein the opening force excess is greater than 20 N. 13. A coating agent valve according to claim 1 , wherein a) the membrane has a membrane diameter of at least 3 mm and at most 40 mm, and b) the opening pressure of the coating agent is at least 8 bar and at most 22 bar. 14. A coating agent valve according to claim 1 , wherein a) the valve seat narrows in the direction of flow at a certain seat angle, b) the valve head narrows in the direction of flow at a certain head angle, c) the seat angle is substantially identical to the head angle. 15. A coating agent valve according to claim 14 , wherein a) the seat angle is greater than 20° and less than 70°, and b) the head angle is greater than 20° and less than 70°. 16. A coating agent valve according to claim 1 , wherein the valve head includes a sealing element is inserted into the valve head of the valve needle in order to seal off the valve seat in the closed position. 17. A coating agent valve according to claim 16 , wherein the sealing element is a sealing ring which is inserted into an annular groove in the valve head. 18. A coating agent valve according to claim 1 , wherein the valve needle is formed at least in part by a mixer which mixes the coating agent components together. 19. A coating agent valve according to claim 18 , wherein the coating agent valve has a hollow paint tube for mounting in a hollow turbine shaft of a rotary atomiser, the paint tube and the turbine shaft in the mounted state extending coaxially. 20. A coating agent valve according to claim 19 , wherein the valve needle is arranged in the paint tube in the form of the mixer. 21. A coating agent valve for controlling a flow of fluid of a coating agent mixture consisting of two coating agent components master batch, with: a) a valve seat, b) a displaceable valve head, b1) wherein the valve head in a closed position seals off the valve seat and thereby blocks the flow of fluid, b2) whereas the valve head in an open position releases the valve seat and thereby also the flow of fluid, c) a valve drive for displacing the valve head, d) a displaceable valve needle which connects the valve drive to the valve head and moves the valve head in correspondence with the valve drive, e) a flexible membrane which is fastened in a valve space, a displacement of the membrane resulting in a corresponding displacement of the valve needle, f) a first coating agent inlet for supplying the first coating agent component, g) a second coating agent inlet for supplying the second coating agent component, h) wherein the first coating agent inlet and the second coating agent inlet opens into the valve space on the side of the membrane remote from the valve drive, i) the coa