Method for monitoring collision welding of a component

The invention claimed is: 1. A method for monitoring collision welding of a component formed by a welded seam, comprising the steps of: accelerating a first joining partner and a second joining partner toward one another by an introduction of energy by a welding unit to weld the first and second joining partners to one another to form the welded seam, detecting a light flash between the first joining partner and the second joining partner during the collision welding by an optical capture unit which captures in a time-resolved manner, receiving a signal both from the optical capture unit and the welding unit by a receiving unit connected to an analysis unit, determining with the analysis unit at least one of an actual value of a beginning of the light flash, a duration of the light flash, an intensity of the light flash, or an intensity distribution over time of the light flash, and comparing with the analysis unit the at least one actual value to a respective target value of the beginning of the light flash, the duration of the light flash, the intensity of the light flash, or the intensity distribution over time of the light flash by the analysis unit, wherein the welded seam in the component is only classified as qualitatively adequate if a maximum deviation of the actual value from the respective target value is maintained. 2. The method as claimed in claim 1 , wherein only each component formed by the collision welding of the first joining partner and the second joining partner have a welding seam classified as qualitatively adequate is supplied to further processing by a sorting unit. 3. The method as claimed in claim 1 , wherein magnetic pulse welding, explosion welding, waterjet spot welding, welding by joining partner acceleration by means of vaporizing foils or welding by joining partner acceleration by means of laser-induced shockwaves is carried out as the collision welding. 4. The method as claimed in claim 1 , wherein the maximum deviation of the actual value from the respective target value is to be maintained as inputted to the analysis unit or is established via a statistical measure, on the basis of a plurality of welding processes which are carried out and qualitatively evaluated. 5. The method as claimed in claim 1 , wherein the intensity of the light flash is measured by at least two detectors of the optical capture unit from at least two different spatial positions, wherein the welded seam is only classified as qualitatively adequate if the maximum deviation of the actual value from the respective target value is maintained at the at least two detectors.