Method for detecting failed printing nozzles in inkjet printing systems and inkjet printing machine

The invention claimed is: 1. A method for automated detection of failed printing nozzles in an inkjet printing machine, the method comprising the following steps: carrying out a printing process to produce a first printed image based on print image data; scanning and digitizing the first printed image produced in the printing process by using at least one image sensor; digitally offsetting the first printed image in a control unit by at least one printing nozzle in a direction transverse to a printing direction; carrying out a further printing process to produce a second printed image based on the digitally offset first printed image; scanning and digitizing the second printed image by using the at least one image sensor; comparing the first and second scanned printed images in the control unit; and identifying failed printing nozzles by using the control unit based on a result of the comparison. 2. The method according to claim 1 , which further comprises in addition to offsetting the first digital printed image by at least one printing nozzle in a direction transverse to the printing direction, offsetting a print head by an equal amount in an opposite direction. 3. The method according to claim 1 , which further comprises carrying out the comparison between the first and second scanned digital printed images by calculating a difference. 4. The method according to claim 1 , which further comprises outputting a detection result to an operator on a display by the control unit. 5. The method according to claim 4 , which further comprises using the detection result as a trigger for starting a compensation mode of the inkjet printing machine to compensate for the at least one failed printing nozzle. 6. The method according to claim 1 , wherein the at least one image sensor only scans a respective image section of a respective printed image. 7. The method according to claim 6 , which further comprises adding the scanned image sections during an ongoing printing process to create a brightness profile, and calculating a difference between brightness profiles of the scanned image sections of the respective first and second digital printed images. 8. The method according to claim 1 , which further comprises offsetting the first digital printed image by at least two printing nozzles in the direction transverse to the printing direction in steps of at least one printing nozzle. 9. An inkjet printing machine, comprising: a control unit for automated detection of failed printing nozzles in the inkjet printing machine by performing the following steps: carrying out a printing process to produce a first printed image based on print image data; scanning and digitizing the first printed image produced in the printing process by using at least one image sensor; digitally offsetting the first printed image in a control unit by at least one printing nozzle in a direction transverse to a printing direction; carrying out a further printing process to produce a second printed image based on the digitally offset first printed image; scanning and digitizing the second printed image by using the at least one image sensor; comparing the first and second scanned printed images in the control unit; and identifying failed printing nozzles by using the control unit based on a result of the comparison.