FAILING NOZZLE COMPENSATION AND NON-UNIFORMITY CORRECTION IN INKJET PRINTING

Abstract

A method and system for detecting one or more failing nozzles in an inkjet printhead of an inkjet printer for printing an image on a substrate and compensating failing nozzles, as well as for correcting colour uniformity of a printed image in inkjet printing an image on a substrate includes printing a first test pattern on a dedicated substrate, which is optically scanned and includes a system for the same. From the scan failing nozzles are identified, which are to be compensated by other nozzles. To these compensating nozzles compensated nozzle control data are allocated, which are used in printing a second test pattern that is also scanned and analysed for local deviations of colorimetric greyscale value. Corrected nozzle control data are allocated to the nozzles associated with the local deviation.

Claims

1.-13. (canceled)

14. A method for detecting one or more failing nozzles in an inkjet printhead of an inkjet printer for printing an image on a substrate and compensating failing nozzles, as well as for correcting colour uniformity of a printed image in inkjet printing an image on a substrate, which method comprises: a first printing step of printing a first test pattern on a test substrate having a receiving layer adapted to the nature of the inkjet ink by jetting inkjet ink from an inkjet printhead of the inkjet printer, wherein each nozzle of the inkjet printhead is controlled to print at least one line; a first scanning step of scanning the printed first test pattern using a scanner having a resolution at least equal to that of the inkjet printhead, thereby obtaining a first test pattern scan of the printed first test pattern; a first computing step of acquiring the nozzle status of each nozzle from the first test pattern scan and determining compensation factors for failing nozzles thus identified, thereby obtaining compensated nozzle control data; a second printing step of printing a second test pattern on a test substrate having a receiving layer adapted to the nature of the inkjet ink, by jetting inkjet ink from an inkjet printhead of the inkjet printer, which is controlled using the compensated nozzle control data, wherein the second test pattern comprises at least two areas, each area having a different greyscale; a second scanning step of scanning the printed second test pattern using the scanner having a resolution at least equal to that of the inkjet printhead, thereby obtaining a second test pattern scan of the printed second test pattern; a second computing step of analysing the second test pattern scan in each of the at least two areas having a different greyscale for local deviations from the greyscale of the respective area and determining correction factors for local deviations thus identified for each of the greyscales, thereby obtaining corrected nozzle control data for the respective greyscale wherein the second pattern also comprises at least two areas having the same greyscale, of which a first area is printed by non-neighbouring nozzles of the inkjet printhead and a second area is printed by other non-neighbouring nozzles of the inkjet printhead; and in the second computing step also comprises analysing from the second test pattern scan in each of the at least two areas having the same greyscales for local deviations from the greyscale of the respective area and determining additional correction factors for local deviations thus identified for each of the greyscales, thereby obtaining additionally corrected nozzle control data for the respective greyscale.

15. The method according to claim 14, wherein the compensation factors and/or correction factors are presented as an additional volume of inkjet ink to be jetted by a nozzle.

16. The method according to claim 14, wherein the compensated nozzle control data and/or corrected nozzle control data are presented as an additional number of inkjet ink droplets to be jetted by a nozzle.

17. The method according to claim 14, wherein the test substrate is a rigid, preferably white, plastic film having a receiving layer.

18. The method according to claim 14, wherein the scanner is provided with two-sided RGB illumination.

19. A method for detecting one or more failing nozzles in an inkjet printhead of an inkjet printer for printing an image on a substrate and compensating failing nozzles, as well as for correcting colour uniformity of a printed image in inkjet printing an image on a substrate, which method comprises: a first printing step of printing a first test pattern on a test substrate having a receiving layer adapted to the nature of the inkjet ink by jetting inkjet ink from an inkjet printhead of the inkjet printer, wherein each nozzle of the inkjet printhead is controlled to print at least one line; a first scanning step of scanning the printed first test pattern using a scanner having a resolution at least equal to that of the inkjet printhead, thereby obtaining a first test pattern scan of the printed first test pattern; a first computing step of acquiring the nozzle status of each nozzle from the first test pattern scan and determining compensation factors for failing nozzles thus identified, thereby obtaining compensated nozzle control data; a second printing step of printing a second test pattern on a test substrate having a receiving layer adapted to the nature of the inkjet ink, by jetting inkjet ink from an inkjet printhead of the inkjet printer, which is controlled using the compensated nozzle control data, wherein the second test pattern comprises at least two areas, each area having a different greyscale; a second scanning step of scanning the printed second test pattern using the scanner having a resolution at least equal to that of the inkjet printhead, thereby obtaining a second test pattern scan of the printed second test pattern; a second computing step of analysing the second test pattern scan in each of the at least two areas having a different greyscale for local deviations from the greyscale of the respective area and determining correction factors for local deviations thus identified for each of the greyscales, thereby obtaining corrected nozzle control data for the respective greyscale, further comprising a third printing step of printing a third test pattern on the test substrate having a receiving layer adapted to the nature of the inkjet ink, by jetting inkjet ink from an inkjet printhead of the inkjet printer, which is controlled using the compensated nozzle data and corrected nozzle data, wherein the third test pattern comprises at least two areas having the same greyscale, of which a first area is printed by non-neighbouring nozzles of the inkjet printhead and a second area is printed by other non-neighbouring nozzles of the inkjet printhead; a third scanning step of scanning the printed third test pattern using the scanner having a resolution at least equal to that of the inkjet printhead, thereby obtaining a third test pattern scan of the printed third test pattern; a third computing step of analysing from the third test pattern scan in each of the at least two areas having the same greyscales for local deviations from the greyscale of the respective area and determining additional correction factors for local deviations thus identified for each of the greyscales, thereby obtaining additionally corrected nozzle control data for the respective greyscale.

20. The method according to claim 19, wherein the compensation factors and/or correction factors are presented as an additional volume of inkjet ink to be jetted by a nozzle.

21. The method according to claim 19, wherein the compensated nozzle control data and/or corrected nozzle control data are presented as an additional number of inkjet ink droplets to be jetted by a nozzle.

22. The method according to claim 19, wherein the test substrate is a rigid, preferably white, plastic film having a receiving layer.

23. The method according to claim 19, wherein the scanner is provided with two-sided RGB illumination.

24. A system for detecting one or more failing nozzles in an inkjet printhead of an inkjet printer for printing an image on a substrate and compensating failing nozzles, as well as for correcting colour uniformity of a printed image in inkjet printing an image on a substrate, comprising: an inkjet printer having at least one printhead with nozzles provided with a controller configured for controlling the nozzles of the at least one inkjet printhead, a computer configured to compensate failing nozzles in an inkjet printhead of the inkjet printer from a test pattern scan resulting in compensated nozzle control data for the controller and configured to correct colour uniformity from a test pattern scan resulting in corrected nozzle control data for the controller and configured to correct oversaturation from a test pattern resulting in additionally corrected nozzle control data, a scanner having a resolution at least equal to the resolution of the printhead, and a test substrate having a receiving layer adapted to the nature of the inkjet ink, preferably, wherein the controller is configured to print a first test pattern of at least one line per nozzle on a test substrate having a receiving layer adapted to the nature of the inkjet ink, by jetting inkjet ink from an inkjet printhead of the inkjet printer; and configured to print a second test pattern comprising at least two areas, each area having a different greyscale, on a test substrate having a receiving layer adapted to the nature of the inkjet ink, by jetting inkjet ink from an inkjet printhead of the inkjet printer, using the compensated nozzle control data; and configured to print a third test pattern comprising at least wo areas having the same greyscale, of which a first area is to be printed by non-neighbouring nozzles and a second area is to be printed by other non-neighbouring nozzles, on a test substrate having a receiving layer adapted to the nature of the inkjet ink, by jetting inkjet ink from an inkjet printhead of the inkjet printer using the compensated nozzle data and corrected nozzle data and configured to print an image by jetting inkjet ink from an inkjet printhead of the inkjet printer using the additionally corrected nozzle control data.

25. The system according to claim 24, wherein the number of test substrates is at least the sum of the number of process colours of the printhead plus two, having a receiving layer adapted to the nature of the inkjet ink.

26. A system for detecting one or more failing nozzles in an inkjet printhead of an inkjet printer for printing an image on a substrate and compensating failing nozzles, as well as for correcting colour uniformity of a printed image in inkjet printing an image on a substrate, comprising an inkjet printer having at least one printhead with nozzles provided with a controller configured for controlling the nozzles of the at least one inkjet printhead, a computer configured to compensate failing nozzles in an inkjet printhead of the inkjet printer from a test pattern scan resulting in compensated nozzle control data for the controller and configured to correct colour uniformity from a test pattern scan resulting in corrected nozzle control data for the controller and configured to correct oversaturation from a test pattern resulting in additionally corrected nozzle control data, a scanner having a resolution at least equal to the resolution of the printhead, and a test substrate having a receiving layer adapted to the nature of the inkjet ink, preferably the number of test substrates being at least the sum of the number of process colours of the printhead plus one, having a receiving layer adapted to the nature of the inkjet ink, wherein the controller is configured to print a first test pattern of at least one line per nozzle on a test substrate having a receiving layer adapted to the nature of the inkjet ink, by jetting inkjet ink from an inkjet printhead of the inkjet printer; and configured to print a second test pattern comprising at least two areas, each area having a different greyscale, and at least wo areas having the same greyscale, of which a first area is to be printed by non-neighbouring nozzles and a second area is to be printed by other non-neighbouring nozzles, on a test substrate having a receiving layer adapted to the nature of the inkjet ink, by jetting inkjet ink from an inkjet printhead of the inkjet printer, using the compensated nozzle control data; and configured to print an image by jetting inkjet ink from an inkjet printhead of the inkjet printer using the compensated nozzle control data and corrected nozzle control data.

27. The system according to claim 26, wherein the number of test substrates is at least the sum of the number of process colours of the printhead plus two, having a receiving layer adapted to the nature of the inkjet ink.

28. An inkjet printing method of inkjet printing an image on a substrate, comprising jetting inkjet ink from an inkjet printhead of the inkjet printer having a controller, which jetting is controlled by the controller using the compensated control nozzle data and corrected control nozzle data and additionally corrected control nozzle data obtained by the method according to claim 14.

29. An inkjet printing method of inkjet printing an image on a substrate, comprising jetting inkjet ink from an inkjet printhead of the inkjet printer having a controller, which jetting is controlled by the controller using the compensated control nozzle data and corrected control nozzle data and additionally corrected control nozzle data obtained by the method according to claim 19.

Description

BRIEF DESCRIPTION OF THE DRAWINGS:

[0036] The invention is further illustrated in the drawings, wherein

[0037] FIG. 1 shows a flow diagram of an embodiment of the method according to the invention;

[0038] FIG. 2 schematically shows an embodiment of a system according to invention;

[0039] FIG. 3 is an example of a printed first test pattern; and

[0040] FIG. 4 is an example of a printed second test pattern.

DETAILED DESCRIPTION OF THE INVENTION:

[0041] FIG. 1 is a flow diagram of an embodiment of the method according to the invention, which can be used in both scanning printing and single pass printing. In step 1 a first test line pattern is printed using each nozzle on the test substrate having a receiving layer that is compatible with the inkjet ink used. The test substrate having the first test line pattern printed onto the receiving layer is scanned in step 2, thereby producing a digital scan of the printed first test line pattern. In step 3 the produced digital scan is analysed and the status of each nozzle is determined. A nozzle may be classified as a failing nozzle if the detected defects related to this nozzle exceed a certain threshold. To a failing nozzle thus identified appropriate nozzle control data that de-activate this nozzle are allocated. In order to compensate the failing nozzle compensation factors are allocated to neighbouring nozzles thereby generating compensated nozzle control data for these neighbouring nozzles. These failing nozzle and compensated nozzle control data are recorded and supplied to or read by the controller of the inkjet printer. Using these fresh control data the second test pattern having areas of different colorimetric grey value is printed on the receiving layer of a new dedicated test substrate in the following step 4. In step 5 a scan of the printed second test pattern is made, which digital second test pattern scan is further processed in step 6. In this step the average colorimetric greyscale of a printed area is determined and local deviations from the average are also determined. Generally for each process colour of the printer the second test pattern is printed on a separate test substrate. In order to improve the colour uniformity correction factors for the nozzles associated with a local deviation are allocated to these nozzles, thereby generating corrected nozzle control data. Again a threshold may be incorporated in this determination and allocation process. The corrected nozzle control data are also recorded and are thus available for use by the controller of the inkjet printer in a subsequent print job as shown in step 7.

[0042] A third test pattern of areas having the same colorimetric greyscale but to be printed by selected groups of non-neighbouring nozzles may be integrated into the second test pattern. As an alternative such a third test pattern may be printed on a dedicated test substrate in a third printing step using the compensated and corrected nozzle control data, which printed substrate is scanned and analysed as explained in order to generate additionally corrected nozzle control data. Thereafter a print job is performed using the compensated and (additionally) corrected control nozzle data.

[0043] FIG. 2 shows an embodiment of a system according to the invention. The system comprises a an inkjet printer 10, in this embodiment a single pass inkjet printer having an array of inkjet printheads 12 for each process colour, e.g. basic colours YMCK. The printheads 12 are stationary arranged on a supporting beams 14. The nozzles of the printheads 12, perpendicular arranged to the machine direction, extend at least over the width of the substrate to be printed. A staggered configuration of the printheads 12 is feasible. A test substrate to be used for screening the printheads 12 for failing nozzles is indicated by reference numeral 16. This test substrate 16 is conveyed through the inkjet printer 10 from a feed 18 to an outlet 20, e.g. temporarily adhered to a conveyor belt 22. The inkjet printer 10 is provided with a controller 24 that is configured to control the nozzles of the printheads 12. A scanner 26 is configured to scan the test substrate 16 that has been printed by a test pattern. The digital scan of the test pattern is processed by computer 27 having a processor 28 which is configured to identify individual failing nozzles from the digital scan of the first test pattern and allocate compensation factors to the nozzles neighbouring a failing nozzle. Compensated nozzle control data computed from these compensation factors are recorded e.g. in memory 29 of computer 27 and subsequently used by the controller 24 for printing the second test pattern on a test substrate 16, which is also scanned by the scanner 26. The computer 27 is also configured to calculate an average grey value for each of the areas that have mutually distinct greyscales, and to compare local values to identify local spots having a deviating greyscale and to allocate uniformity correction factors to the nozzles in these local spots and generating uniformity corrected nozzle control data for those nozzles associated to the local deviating spot. Also these data are recorded and transferred to the controller 24 and used for performing an actual print job.

[0044] A diagrammatically drawn example of a printed first test pattern having lines to be printed by each nozzle for each colour is shown in FIG. 3. The line pattern covering the full width of the array of printheads 12 is shown at 30. Squares 32 and strips 34 are marks for the position of the respective printheads (and thus the position of the nozzles) and for alignment thereof.

[0045] FIG. 4 shows a diagrammatically represented example of a printed second test pattern 36 for a colour having areas or strips of differing grey levels.