Method for compensating for disruption torques in the driving of a jetting cylinder

1 . A method for compensating for disruption torques in the drive of a jetting cylinder in an inkjet printing machine, the method comprising the following steps: using an image sensor to record print image products for at least one color and at least one complete rotation of the jetting cylinder, and using a computer for a time parallel measurement of a driving torque of the jetting cylinder; using the computer to generate an average gray value profile above a circumferential coordinate based on recorded image data; using a computer-assisted Fourier transform to transform the average gray value profile and a measured profile of the driving torque into a frequency range, and extracting order components from the frequency range; calculating a periodic compensation torque based on extracted order components; and factoring-in the calculated periodic compensation torque when actuating the jetting cylinder of the inkjet printing machine in a course of a printing operation. 2 . The method according to claim 1 , which further comprises carrying out at least two similar identification runs to record print image products and to measure the driving torque parallel in time, with measured driving torque data only differing in terms of a respective additive periodic disruption torque in the drive. 3 . The method according to claim 2 , which further comprises increasing error tolerance by carrying out at least 20 similar identification runs, using one-third of the identification runs to calculate the periodic compensation torque by using the computer and using two-thirds of the identification runs to validate data set by using the computer. 4 . The method according to claim 3 , which further comprises using the computer to influence the at least 20 similar identification runs by selecting amplitude and phase positions of the disruption torques relative to one another in such a way that conditioning of a resultant equation system of a respective additive periodic disruption torque in the drive is as easy to calculate for the computer as possible, and selecting at least two additive periodic disruption torques in the drive for which the conditioning of the resultant equation system is most favorable. 5 . The method according to claim 1 , which further comprises carrying out the calculation of the periodic compensation torque by the computer by using a machine learning approach with a repeated application of training data sets. 6 . The method according to claim 1 , which further comprises using the computer to separately mathematically process the average gray value profile in the frequency range, with orders below one treated differently from orders greater than or equal to one. 7 . The method according to claim 1 , which further comprises using an inline camera of an image recording system of the inkjet printing machine as the image sensor to record the print image products. 8 . The method according to claim 1 , which further comprises carrying out precisely two identification runs to record print image products and to measure the driving torque parallel in time, exclusively forming one disruption torque of pure sine terms and forming the other disruption torque of cosine terms of identical amplitude per frequency node.