Method and device for monitoring a joining seam during joining by means of a laser beam

The invention claimed is: 1. A method for monitoring a joining seam by laser radiation, comprising: measuring a joint in front of a processing point in a processing direction in order to detect a position of the processing point along a joining path and lateral to the joining path, and geometry of the processing point, determining a lateral position of a joining seam from behind the processing point, and measuring the joining seam from behind the processing point, at the determined lateral position to detect geometry of the joining seam. 2. The method according to claim 1 , further comprising determining the position of the joining seam from the position of the joint and the position of the processing point. 3. The method according to claim 1 , further comprising determining a width of the joining seam from a width of a keyhole or molten bath generated by the laser radiation. 4. The method according to claim 3 , wherein the determination of the width of the joining seam takes into account material, speed or power dependent parameters. 5. The method according to claim 3 , wherein the determination of the width of the joining seam takes into account an amplitude of oscillation of a working laser beam transversely to the joint seam. 6. The method according to claim 3 , further comprising determining quality based on a position and the geometry of the joining seam. 7. The method according to claim 6 , wherein determining the geometry of the joining seam comprises determining a seam height, a seam width, a seam area, bead lengths, concavity, convexity of weld bead or dropouts, non-welded holes or edge notches. 8. The method according to claim 1 , wherein a light-section line is projected transversely across the joining seam and images of the light-section lines are evaluated by image processing to determine the lateral position and geometry of the joining seam before the processing point, and a width and geometry of the joining seam after the processing point. 9. A device for monitoring a joining seam, in particular during joining by means of laser radiation, comprising: a first laser configured to project a first light-section line onto a workpiece at a location in front of a processing point, the first-section line traversing across a joint line, a second laser configured to project a second light-section line onto the workpiece at another location behind the processing point, the second-section line traversing across a joining seam, a camera that captures images of the two light-section lines and the processing point, and an image processing device configured to: detect a position of the processing point along a joining path and lateral to the joining path and geometry of the processing point from the first light-section line, determine a lateral position of a joining seam from the second light-section line, and measure the joining seam at the determined lateral position to detect geometry of the joining seam. 10. A laser processing head comprising: a first laser configured to project a first light-section line onto a workpiece at a location in front of a processing point, the first-section line traversing across a joint line, a second laser configured to project a second light-section line onto the workpiece at another location behind the processing point, the second-section line traversing across a joining seam, a camera that captures images of the two light-section lines and the processing point, and an image processing device configured to: detect a position of the processing point along a joining path and lateral to the joining path and geometry of the processing point from the first light-section line, determine a lateral position of a joining seam from the second light-section line, and measure the joining seam at the determined lateral position to detect geometry of the joining seam. 11. The laser processing head of claim 10 , wherein the camera captures the workpiece through focusing optics in a path of a working laser beam.