Determination of contour fidelity for a laser cutting machine

The invention claimed is: 1 . A method for calculating path deviations from a target path of a cutting head of a laser machine tool, the method comprising: providing a reference texture, wherein the reference texture is provided on a flat object placed below the cutting head and above a workpiece and/or the reference texture is engraved on the workpiece by means of a machining laser beam of the cutting head of the laser machine tool; providing the reference texture running along the target path; providing first control commands for traversing the target path with the cutting head and providing second control commands for continuously capturing overlapping frames of the reference texture on or along the traversed path by means of at least one camera, wherein the target path is traversed in step (2) without activating the laser; reconstructing the path traversed by the cutting head from the captured overlapping frames of the reference texture by means of an image processing algorithm; calculating deviations between the reconstruction of the path traversed by the cutting head and the target path, wherein for the reconstruction of the path traversed by the cutting head with the image processing algorithm, encoder measurement values of machine axes involved are used in addition to the captured frames in order to speed up and/or make the image processing algorithm more robust, the image processing algorithm including an image stitching algorithm, wherein the image stitching algorithm reconstructs N−1 displacement vectors from a sequence of N frames, wherein N is a natural number greater than 2. 2 . The method according to claim 1 , in which, in a configuration phase, the reference texture is selected and/or read from a specified set of patterns. 3 . The method according to claim 1 , wherein the target path is traversed in step (2) with at least one configurable calibration speed and/or a configurable acceleration in a calibration run. 4 . The method according to claim 1 , wherein at least one contour from a cutting plan is determined as the target path and wherein in step (2) the target path is traversed at least twice, namely: firstly with a calibration speed in a first calibration run and secondly with a productive speed in a second calibration run, wherein the calibration speed is lower, in particular 80% to 99% lower, than the productive speed. 5 . The method according to claim 1 , wherein an illumination source, in particular an illumination laser, is switched on synchronously with the capturing of the frames. 6 . The method according to claim 1 , wherein the target path is traversed in step (2) several times and/or with different calibration run parameters, in particular with different acceleration and/or different advancement. 7 . The method according to claim 1 , wherein a deviation model is calculated from the calculated deviations and/or wherein a deviation model is calculated from the calculated deviations and captured position coordinates of the cutting head on a cutting table. 8 . A use of the method according to claim 1 for calculating a contour error-corrected cutting path. 9 . A method for calculating path deviations from a target path of a cutting head of a laser machine tool, the method comprising: providing a reference texture, wherein the reference texture is provided on a flat object placed below the cutting head and above a workpiece and/or the reference texture is engraved on the workpiece by means of a machining laser beam of the cutting head of the laser machine tool; providing the reference texture running along the target path; providing first control commands for traversing the target path with the cutting head and providing second control commands for continuously capturing overlapping frames of the reference texture on or along the traversed path by means of at least one camera, wherein the target path is traversed in step (2) without activating the laser; reconstructing the path traversed by the cutting head from the captured overlapping frames of the reference texture by means of an image processing algorithm; calculating deviations between the reconstruction of the path traversed by the cutting head and the target path, wherein for the reconstruction of the path traversed by the cutting head with the image processing algorithm, encoder measurement values of machine axes involved are used in addition to the captured frames in order to speed up and/or make the image processing algorithm more robust, the image processing algorithm including an image stitching algorithm, wherein the image stitching algorithm integrates difference norms over all overlaps in a search region of successive frames. 10 . A method for calculating path deviations from a target path of a cutting head of a laser machine tool, the method comprising: providing a reference texture, wherein the reference texture is provided on a flat object placed below the cutting head and above a workpiece and/or the reference texture is engraved on the workpiece by means of a machining laser beam of the cutting head of the laser machine tool; providing the reference texture running along the target path; providing first control commands for traversing the target path with the cutting head and providing second control commands for continuously capturing overlapping frames of the reference texture on or along the traversed path by means of at least one camera, wherein the target path is traversed in step (2) without activating the laser; reconstructing the path traversed by the cutting head from the captured overlapping frames of the reference texture by means of an image processing algorithm; calculating deviations between the reconstruction of the path traversed by the cutting head and the target path, wherein for the reconstruction of the path traversed by the cutting head with the image processing algorithm, encoder measurement values of machine axes involved are used in addition to the captured frames in order to speed up and/or make the image processing algorithm more robust, the image processing algorithm including an image stitching algorithm, wherein the image stitching algorithm applies a local weighting and/or approximation function to integrated difference norms.