Method to adjust the print quality of print images in an electrophoretic digital printer

We claim as our invention: 1. A method to adjust print quality of print images in an electrophoretic digital printer with at least one print group, comprising the steps of: generating with the print group with an electrophotography station of the print group charge images of the print images; with a developer station, developing the charge images into toner images using liquid developer having carrier fluid and toner; transfer-printing the toner images onto a recording medium in a transfer station; with said print group generating on the recording medium a first control marking with elements of the first control marking being aligned transverse to a printing direction; measuring a shape of the elements of the first control marking to generate a first measurement signal; and comparing the first measurement signal with a predetermined nominal value, and given a difference between the first measurement signal and the predetermined nominal value generating an adjustment signal via which an amount of the carrier fluid in the liquid developer is modified so that the first measurement signal approaches the predetermined nominal value. 2. The method according to claim 1 in which: the developer station has a rotating developer roller that supplies the liquid developer to the electrophotography station to develop the charge images; a doser resting on the developer roller and via which a proportion of carrier fluid on the developer roller is adjusted before the liquid developer is supplied to the electrophotography station; and the doser adjusts the proportion of carrier fluid in the liquid developer on the developer roller depending on the adjustment signal. 3. The method according to claim 2 in which a dosing roller is used as said doser, a contact pressure of which on the developer roller or whose surface velocity is modified in comparison to the developer roller depending on the adjustment signal. 4. The method according to claim 1 in which: the transfer station has a transfer roller that transfer-prints the toner images onto the recording medium; and a reduction roller running on the transfer roller is used as a doser, a contact pressure of the doser on the transfer roller or whose surface velocity is modified in comparison to the transfer roller, depending on the adjustment signal. 5. The method according to claim 1 in which a print speed is changed depending on the adjustment signal to adjust a proportion of carrier fluid in the liquid developer. 6. A method to adjust print quality of print images in an electrophoretic digital printer with at least one print group, comprising the steps of: generating with the print group with an electrophotographic station of the print group charge images of the print images; with a developer station, developing the charge images into toner images using liquid developer having carrier fluid and toner; transfer-printing the toner images onto a recording medium in a transfer station; with said print group generating on the recording medium a first control marking with elements of the first control marking being aligned transverse to a printing direction; measuring a shape of the elements of the first control marking to generate a first measurement signal; also with said print group generating on the recording medium in addition to the first control marking a second control marking with elements of the second control marking being aligned in the printing direction; measuring a shape of the elements of the second control marking to generate a second measurement signal; calculating a ratio of the first and second measurement signals of the first and second control markings, and comparing said ratio with an additional nominal value; and given a difference between the ratio and the additional nominal value, generating an adjustment signal via which an amount of the carrier fluid in the liquid developer is varied so that the ratio approaches the additional nominal value. 7. The method according to claim 6 in which the additional nominal value is present when the ratio of the measurement signals of the control markings is approximately one. 8. The method according to claim 6 in which the first control marking has elements with edges aligned transverse to the printing direction. 9. The method according to claim 8 in which the second control marking has a same structure as the first control marking, and wherein the elements have edges aligned in the printing direction. 10. The method according to claim 6 in which: an areal proportion of inking in the first control marking is measured as the first measurement signal; and an areal proportion of inking in the second control marking is measured as the second measurement signal. 11. The method according to claim 10 in which: a measurer with a camera is arranged adjacent to the recording medium and which scans the first and second control markings to generate the first and second measurement signals; the first and second measurement signals are converted into black-and-white images; the first and second measurement signals are tested per pixel, and if a pixel exceeds a predetermined threshold that pixel is assessed as a black pixel, and otherwise it is assessed as a white pixel; and an areal proportion of the black pixels is determined, and said proportion is used in the determination of the ratio of the first and second measurement signals. 12. The method according to claim 6 in which the first and second measurement signals are generated via evaluation of an optical density of the first and second control markings. 13. The method according to claim 6 in which the first and second measurement signals are generated via evaluation of CIELAB values of integrally measured colors of the first and second control markings. 14. The method according to claim 6 in which: the developer station has a rotating developer roller that supplies the liquid developer to the electrophotography station to develop the charge images; a doser rests on the developer roller via which a proportion of carrier fluid on the developer roller is adjusted before the liquid developer is supplied to the electrophotography station; and the doser adjusts the proportion of carrier fluid in the liquid developer on the developer roller depending on the adjustment signal. 15. The method according to claim 14 in which a dosing roller is used as said doser, a contact pressure of which on the developer roller or whose surface velocity is modified in comparison to the developer roller depending on the adjustment signal. 16. The method according to claim 6 in which: the transfer station has a transfer roller that transfer-prints the toner images onto the recording medium; and a reduction roller running on the transfer roller is used as a doser, a contact pressure of the reduction roller on the transfer roller or whose surface velocity is modified in comparison to the transfer roller depending on the adjustment signal. 17. The method according to claim 6 in which a print speed is changed depending on the adjustment signal to adjust a proportion of carrier fluid in the liquid developer. 18. The method according to claim 6 in which: the digital printer has a plurality of print groups; at least one print group prints the first and second control markings on the recording media; the first and second measurement signals are determined for the first and second control markings of said print group; and the ratio of the first and second measurement signals is respectively calculated t