Forming machine and method for control of a forming machine

What is claimed is: 1. A forming machine comprising: (a) at least a first forming tool acting on a workpiece disposed in a work region so as to form the workpiece, the work region comprising a forming region, the at least first forming tool acting on the workpiece in a forming manner in the forming region; (b) a forming control device controlling the at least first forming tool; (c) an axial stand configured to be radially displaceable; and (d) a first light section sensor directed at the workpiece in the forming region and providing an input variable for the forming control device to set the at least first forming tool with reference to the workpiece during formation of the workpiece, the first light section sensor being disposed on the axial stand such that the axial stand is configured to radially displace the first light section sensor; wherein the first light section sensor irradiates a surface of the workpiece with a laser beam to measure an external diameter of the workpiece in the forming region and the external diameter so measured is provided to the forming control device, the first light section sensor monitoring reaction force generated in the workpiece during forming by irradiating the surface of the workpiece with the laser beam and detecting a change of the external diameter of the workpiece. 2. The forming machine according to claim 1 , further comprising at least a second forming tool acting simultaneously with the at least first forming tool on the workpiece in opposite directions, wherein the forming region comprises at least one of a region of the workpiece between the at least first and at least second forming tools and at least one forming surface of the at least first and at least second forming tools that is directed at the workpiece. 3. The forming machine according to claim 1 , further comprising at least a second light section sensor, wherein the at least second light section sensor is directed at the workpiece disposed in the work region. 4. The forming machine according to claim 3 , wherein the first and at least second light section sensors are oriented to intersect or in otherwise linearly independent manner. 5. The forming machine according to claim 4 , wherein the first and at least second light section sensors are directed at the workpiece both radially and axially. 6. The forming machine according to claim 3 , wherein the first and at least second light section sensors are oriented in collinear manner. 7. The forming machine according to claim 1 , wherein the forming machine comprises: a rolling machine; or a press; or a rolling machine and a hot-forming forming machine; or a press and a hot-forming forming machine. 8. The forming machine according to claim 7 , wherein the rolling machine is a ring-rolling machine. 9. The forming machine according to claim 8 , comprising at least one of a pair of radial rolls and a pair of axial rolls, wherein the first forming tool is a first roll of the pair of radial rolls or axial rolls, and wherein the first light section sensor measures from the first roll of the pair of radial rolls or axial rolls to a second roll of the pair of radial rolls or axial rolls. 10. The forming machine according to claim 8 , wherein the ring rolling machine comprises a radial roll stand and wherein the first light section sensor is disposed at a location facing away from the radial roll stand and directed at the workpiece. 11. A method comprising steps of: (a) forming at a forming region of a forming machine a workpiece having a profile, a first forming tool of the forming machine acting on the workpiece at the forming region; (b) radially displacing an axial stand and a first light section sensor disposed on the axial stand; (c) irradiating a surface of the workpiece in the forming region via a laser beam from the first light section sensor such that an external diameter of the profile is obtained; (d) monitoring a reaction force generated by the workpiece during the forming by detecting a change of the external diameter of the workpiece by using the irradiating of the surface of the workpiece; (e) providing the external diameter of the profile and the change of the external diameter of the workpiece to a forming control device; and (f) controlling via the forming control device the forming machine according to the external diameter and according to the change of the external diameter of the workpiece. 12. The method according to claim 11 , further comprising steps of: comparing, during the forming, the profile with a reference profile, the profile having been measured during the forming, and generating, from a comparison result of the comparing, regulating interventions for the forming. 13. The method according to claim 12 , further comprising a step of: irradiating the profile of the workpiece by a second light section sensor. 14. The method according to claim 13 , wherein the first and second light section sensors are oriented to intersect or in otherwise linearly independent manner. 15. The method according to claim 14 , wherein the first and second light section sensors are directed at the workpiece both radially and axially. 16. The method according to claim 13 , wherein the first and second light section sensors are oriented in collinear manner. 17. The method according to claim 12 , wherein the forming machine comprises: a rolling machine; or a press; or a rolling machine and a hot-forming forming machine; or a press and a hot-forming forming machine. 18. The method according to claim 17 , wherein the rolling machine is a ring-rolling machine. 19. The method according to claim 18 , wherein the ring-rolling machine has at least one of a pair of radial rolls and a pair of axial rolls as forming tools, and further comprising a step of: measuring, via the first light section sensor, from a first roll of the pair of radial rolls or axial rolls to a second roll of the pair of radial rolls or axial rolls. 20. The method according to claim 18 , wherein the first light section sensor is disposed at a location facing away from a radial roll stand, and directed at the workpiece.