Device and method for producing flow field plates

The invention claimed is: 1. A device for producing bipolar plates for fuel cells, comprising a conveying device, a forming device and a joining device, wherein the conveying device transports substrate plates, automatically driven, in a transport direction first to the forming device and then to the joining device, wherein the forming device is configured to stamp structures into the substrate plates by means of at least one stamping die or at least one forming die and thereby forms a substrate plate into an anode plate or a cathode plate, and wherein the joining device is configured to join an anode plate and a cathode plate to form a bipolar plate, and wherein the conveying device has a transport beam with at least one workpiece gripper for gripping substrate plates and/or anode plates and/or cathode plates, wherein the transport beam extends from the forming device to the joining device, and a conveying drive device is connected to the transport beam and configured to move the workpiece gripper and/or the transport beam, automatically driven, in or against the transport direction, and to move the workpiece gripper and/or the transport beam, automatically driven, in a lifting direction and/or in a clamping direction. 2. The device for producing bipolar plates according to claim 1 , wherein the forming device is formed as part of a pressing device, wherein it is provided that the pressing device has vertical press uprights and a bolster plate arranged between the press uprights, and the transport beam runs parallel to a long side of the bolster plate. 3. The device for producing bipolar plates according to claim 1 , wherein the conveying device has at least two transport beams running parallel to each other in the transport direction, wherein each transport beam has at least one workpiece gripper for gripping substrate plates and/or anode plates and/or cathode plates. 4. The device for producing bipolar plates according to claim 1 , wherein, the transport beam is mounted at or on a clamping box, wherein the clamping box has a lifting drive in order to drive the transport beam in a lifting direction and/or has a clamping drive in order to drive the transport beam in a clamping direction and/or has a longitudinal drive in order to drive the transport beam in the transport direction. 5. The device for producing bipolar plates according to claim 1 , wherein, the transport beam is mounted in the area of its ends on a vertical press upright via a lifting carriage driven by a lifting drive so as to be slidable in the vertical direction, and the lifting carriage pivots an end of a rocker arm the other end of which is connected to the transport beam. 6. The device for producing bipolar plates according to claim 1 , wherein the workpiece grippers are removably secured on the transport beam or a transport carriage of the transport beam. 7. The device for producing bipolar plates according to claim 1 , wherein at least two movable transport carriages are mounted on a transport beam, wherein each of these two transport carriages secures a workpiece gripper and has its own drive device in order to move this transport carriage, independently of other transport carriages, along the transport beam. 8. The device for producing bipolar plates according to claim 1 , wherein a workpiece gripper is movably mounted on a transport carriage, driven in the lifting direction, wherein the transport carriage has a vertical drive for raising and/or lowering the workpiece gripper. 9. The device for producing bipolar plates according to claim 1 , wherein the conveying device has a conveying control device or is connected to a conveying control device, wherein the conveying control device controls the transport beam and/or a workpiece gripper and wherein the conveying control device determines a movement profile of the transport beam and/or of a workpiece gripper. 10. The device for producing bipolar plates according to claim 1 , wherein the drive device of the transport carriages is connected to a carriage control device and the carriage control device is formed to actuate an individual transport carriage and/or an individual workpiece gripper. 11. A device for producing bipolar plates for fuel cells, comprising a conveying device, a forming device and a joining device, wherein the conveying device transports either individual substrate plates, or several substrate plates connected to one another, automatically driven, in a transport direction first to the forming device and then to the joining device, wherein the forming device is configured to stamp structures into the substrate plates by means of a stamping die or forming die and thereby forms a substrate plate into an anode plate or a cathode plate, and wherein the joining device is configured to join an anode plate and a cathode plate to form a bipolar plate, and wherein the forming device has, as a first stamping die or forming die, at least one anode die for forming anode plates and has, spaced apart therefrom in the transport direction, as a further stamping die or forming die, at least one cathode die for forming cathode plates, and the joining device is arranged between the anode die and the cathode die, and wherein the conveying device is configured to move the anode plates and cathode plates in the opposite direction to each other in the transport direction and in each case transports an anode plate and a cathode plate to the joining device. 12. The device for producing bipolar plates according to claim 11 , wherein the conveying device has a roller transport device or an eddy current transport device for transporting substrate material and/or substrate plates and/or anode plates and/or cathode plates. 13. The device for producing bipolar plates according to claim 11 , wherein the conveying device has two transport belts which are in each case guided over two deflection rollers and driven in opposite directions, wherein one of the transport belts transports the anode plates and the other of the transport belts transports the cathode plates. 14. The device for producing bipolar plates according to claim 13 , wherein the conveying device has a transport beam with at least one die gripper for gripping substrate plates and/or anode plates and/or cathode plates, wherein the transport beam extends from the anode die to the cathode die and has a conveying drive in order to move the transport beam and/or the workpiece gripper, automatically driven, in or against the transport direction, and to move the workpiece gripper and/or the transport beam, automatically driven, in a lifting direction and/or in a clamping direction. 15. The device for producing bipolar plates according to claim 11 , wherein, the forming device is formed as part of a pressing device, wherein the pressing device has vertical press uprights and a bolster plate, and the transport beam runs parallel to a long side of the bolster plate. 16. The device for producing bipolar plates according to claim 11 , wherein the pressing device has a first press ram which interacts with the anode die and has a second press ram which interacts with the cathode die. 17. The device for producing bipolar plates according to claim 11 , wherein the conveying control device actuates the conveying device with a movement profile such that the conveying device, in the area of the joining device, places a cathode plate on an anode plate or places an anode plate on a cathode plate by actuating the transport beam and/or a workpiece gripper such that the latter first inserts a catho