Method for fast elimination of image distortions while inspecting images on printed products in a printing machine

The invention claimed is: 1. A method for inspecting images on printed products in a machine for processing printing substrates, the image inspection method comprising the following steps: recording and digitizing produced printed products by using at least one image sensor in an image recording system; comparing the recorded digital printed images with a digital reference image by using a computer; subjecting the recorded digital printed images to a digital distortion elimination process beforehand by using the computer to digitally eliminate the distortions by dividing the print and reference images into respective image parts and adapting the printed image parts pixel by pixel in terms of their positions in the printed image to minimize a difference between the printed image parts and the respective reference image part; upon a deviation of the recorded digital distortion-free printed images from the digital reference image, removing printed products having been found to have a defect; using the computer to carry out the pixel-by-pixel positional adaptation as a shift of the printed image part in at least one of an x or y direction; providing a positional adaptation to attain a minimum difference between the printed image parts and the respective reference image parts by using the computer to make multiple shifts, create a differential image relative to the respective reference image part for every shift of the printed image part, and then select the shifted printed image part having a differential image with a smallest difference; and implementing an image inspection based on a distortion-free printed image by using the computer to copy the printed image parts with the smallest difference into a respective target position in the recorded, distortion-free digital printed image and to use the obtained recorded, digital and distortion-free printed image for the image inspection method. 2. The method according to claim 1 , which further comprises providing the image parts of the print and reference images with identical sizes. 3. The method according to claim 2 , which further comprises using the computer to divide the printed images into overlapping image parts. 4. The method according to claim 3 , which further comprises providing a degree of overlap between the individual image parts of the printed images corresponding to a degree of a maximum positional adaptation. 5. The method according to claim 1 , which further comprises using the computer to calculate the smallest difference in the differential image by applying thresholds and to save a difference value of every shifted printed image part in a result matrix. 6. The method according to claim 1 , which further comprises providing the image parts with a polygonal shape. 7. A method for inspecting images on printed products in a machine for processing printing substrates, the image inspection method comprising the following steps: recording and digitizing produced printed products by using at least one image sensor in an image recording system; comparing the recorded digital printed images with a digital reference image by using a computer; subjecting the recorded digital printed images to a digital distortion elimination process beforehand by using the computer to digitally eliminate the distortions by dividing the print and reference images into respective image parts and adapting the printed image parts pixel by pixel in terms of their positions in the printed image to minimize a difference between the printed image parts and the respective reference image part; upon a deviation of the recorded digital distortion-free printed images from the digital reference image, removing printed products having been found to have a defect; using the computer to carry out the pixel-by-pixel positional adaptation as a shift of the printed image part in at least one of an x or y direction; providing a positional adaptation to attain a minimum difference between the printed image parts and the respective reference image parts by using the computer to make multiple shifts, create a differential image relative to the respective reference image part for every shift of the printed image part, and then select the shifted printed image part having a differential image with a smallest difference; and carrying out an image inspection with a distortion-free printed image by using the computer to compare the printed image parts with the smallest difference from the corresponding reference image parts and then copy the printed image parts to respective target positions thereof in the recorded digital and distortion-free printed image. 8. The method according to claim 6 , which further comprises providing the image parts as rectangles, squares or triangles.