This application claims the priority of German Patent Document No. DE 10 2013 109 920.3, filed Sep. 10, 2013, the disclosure of which is expressly incorporated by reference herein.
The invention relates to a method for printing on a substrate.
The control of print-related processes, such as for example a color register control or a color density control, usually takes place using print control marks printed on a substrate, which are measured with the help of sensors, wherein actual values of the print control marks determined in the process are compared with set point values for the print control marks in order to determine adjusting signals for the print-related process to be controlled based on a deviation between the actual values and the set point values. Such print control marks are typically printed on the substrate outside the actual print image or subject. Since such print control marks are perceived objectionable, smaller print control marks are increasingly employed which can have a diameter between 0.2 mm and 0.3 mm. These small print control marks, in addition to the round shape, can also have a rectangular, square or any polygonal or another shape, wherein these as a rule have an area of approximately 0.03 mm2 to approximately 0.07 mm2. Such small print control marks are also called micromarks. In particular when such small print control marks for controlling a print-related process are used, there is the problem that the actual values which are detected on such small print control marks can be affected by a major measurement inaccuracy or a major measurement error because of heavy stray light influences. For this reason, detecting utilizable actual values on such small print control marks, which can be utilized for a stable control of a print-related process, poses difficulties. Starting out from this, the present invention is based on the object of creating a new type of method for printing on a substrate.
According to the invention, at least one relatively small print control mark is printed in at least one printing zone of the substrate. In at least one printing zone of the substrate, at least one relatively large print control mark is additionally printed. The or each relatively small print control mark and the or each relatively large print control mark are detected with the help of a sensor. With the help of the measurement value of the or each relatively large print control mark, the actual values of print parameters detected through measurement of the relatively small print control marks are corrected. With the present invention it is provided, in addition to the at least one relatively small print control mark printed on the substrate, to print at least one relatively large print control mark on the substrate in order to correct the actual values of the print parameters detected on the relatively small print control marks based on a measurement value detected on the or each relatively large print control mark. A correction of actual values of the print parameters obtained on relative small print control marks is thus dynamically possible in the printing process, so that actual values obtained on such relatively small print control marks are also stable and reliable and can thus be utilized for controlling a print-related process with high control quality.
According to an advantageous further development of the invention, a relatively small print control mark is printed in at least one printing zone, namely in at least one color zone, of the substrate for all printed printing colors each, wherein for at least one printed printing color in at least one of the color zones a relatively large print control mark is printed, wherein the relatively small print control mark printed in the same color zone for the same print color and relatively large print control marks are detected with the help of the same sensor, and wherein based on the deviation between the measurement values of the relatively small print control mark and relatively large print control mark printed in the same color zone for the same print color the actual values of the print parameters detected in all color zones through measurement of the relatively small print control marks are corrected.
Preferentially, a relatively large print control mark is printed for each printed printing color in at least one of the color zones in each case, wherein the relatively small print control mark and relatively large print control mark printed in the same color zone for the same printing color are detected with the help of the same sensor, and wherein based on the deviation between the measurement values of the relatively small print control mark and relatively large print control mark printed in the same color zone for the same printing color, the actual values detected in all color zones for the same printing color through measurement of the relatively small print control marks are corrected. In particular when for each printing color a relatively large print control mark is printed on the substrate in addition to the relatively small print control marks, a particularly advantageous color density control and color register control is possible.
Preferentially, the relatively large print control mark of a printing color is printed onto the substrate in the immediate vicinity of a relatively small print control mark for the same printing color. In this way this ensures that the measurement values detected on the relatively large print control mark and on the relatively small print control mark are detected under identical measurement conditions, so that an advantageous correction of the actual values of the print parameters detected on the relatively small print control marks can then take place.
Preferred further developments of the invention are obtained from the subclaims and the following description. An exemplary embodiment of the invention is explained in more detail with the help of the drawing without being restricted to this.
The present invention relates to a method for printing on a substrate.
On a substrate to be printed, at least one print image is printed on the one hand and at least one print control mark in at least one printing zone of the substrate. The print control marks are detected by measurement with the help of a sensor in order to detect actual values of print parameters on the same.
With respect to the employed sensors, different configurations can be realized. Accordingly, the relatively small and the relatively large print control marks can be detected with one and the same sensor. There is furthermore also the possibility of detecting the relatively small and the relatively large print control marks with separate sensors.
In addition to this, different sensor arrangements are known from the prior art. In a configuration, at least one sensor is arranged moveable across the substrate width so that the print control marks across the substrate width are detected offset in time by moving the sensor transversely to the printing direction. In another configuration, a plurality of sensors are arranged across the web width so that over the entire substrate width the marks can be detected across the entire substrate width at the same time or only minimally offset in time. Although this configuration requires a multitude of sensors, it however makes possible substantial shorter detection cycles. As a third form, a combination of both variants can be realized, in the case of which multiple sensors are moveably arranged across the substrate width so that the movement distances and thus the detection cycles can be reduced.
The actual values are compared with corresponding set point values, wherein dependent on deviations between the actual values and the set point values the printing of the substrate is controlled in such a manner that the deviations between the actual values and the set point values are smaller than limit values and that the actual values thus approximate the set point values or follow the same.
In
On the substrate 10, a print image each is printed in
From
These relatively small print control marks 15, 16, 17, 18 which are printed for each print color involved in the printing in each case in each of the color zones of the printed substrate 10 are so-called micromarks, which typically have a diameter between 0.2 mm and 0.3 mm. In addition to the round shape, these small print control marks can also have a rectangular, square or any polygonal or other shape, wherein these as a rule have an area of approximately 0.03 mm2 to approximately 0.07 mm2. On such micromarks, the detecting of actual values for print parameters, such as for example detecting actual values of a color density measurement, can be subjected to major error as a result of stray light influences.
In terms of the invention, at least one relatively large print control mark 19, 20 is additionally printed in at least one printing zone or color zone of the substrate in addition to the relatively small print control marks 15, 16, 17, 18 printed on the substrate 10 preferentially in each printing zone or color zone. The relatively large print control marks 19, 20 can be called macromarks. The area of these large print control marks 19, 20 as a rule corresponds to at least 1.5 times, preferentially 3 to 4-times the area of the small print control marks 15, 16, 17, 18, so that these have an area that is larger or equal to 0.045 mm2, preferentially 0.09 mm2 to approximately 0.3 mm2 and can, with respect to their configuration, have any shape, preferentially a round, rectangular or any polygonal shape.
The size of the relatively large print control marks 19, 20 or of the macromarks is thus dimensioned in such a manner that on the same more accurate measurement values can be detected than on the relatively small print control marks or on the micromarks, i.e., measurement values which are less severely impaired, for example, through stray light effects.
In the printing process, the relatively small print control marks 15, 16, 17 and 18 which are printed onto the substrate in at least one, preferentially into each print zone, and the or each relatively large print control mark 19, 20 are detected with the help of a sensor, wherein with the help of the measurement value of the or each relatively large print control mark 19, 20 the actual values of the print parameters detected on the relatively small print control marks 15, 16, 17 and 18 are automatically corrected. Accordingly, in the printing process, an automatic correction and thus a dynamic calibration of the actual values of the respective print parameters detected on the relatively small control marks 15, 16, 17 and 18 takes place.
In
In the print zone or color zone of the substrate 10, in which the print control marks 15 and 19 are printed directly on top of one another, and in the print zone or color zone of the substrate 10, in which the print control marks 16 and 20 are printed directly on top of one another, the respective print control marks are detected by measurement with the help of the same sensor.
Here, in
In the print page 12, on the print zone or color zone on the very left a measurement value each for the print color magenta is determined on the relatively small print control mark 16 for the print color magenta and on the relatively large print control mark 20 for the print color magenta, wherein a deviation between these two measurement values is determined and wherein furthermore based on this deviation the actual values, which are determined in color zones on the relatively small print control marks 16 of the print color magenta are automatically corrected.
Preferentially, a relatively large print control mark for each print color involved in the printing is printed in one of the color zones or print zones of the substrate 10, namely preferentially in the immediate vicinity of a relatively small print control mark printed for the same print color, wherein based on the deviations between the measurement values detected on these print control marks the actual values which are detected in all color zones on the relatively small print control marks for the same print color are then corrected.
In terms of the present invention, at least one relatively large print control mark is accordingly printed for each print color in one of the print zones or color zones on the substrate 10 in addition to the relatively small print control marks, which are printed in at least one, preferentially in each print zone or color zone of the substrate 10, preferentially in the immediate vicinity of the relatively small print control mark printed in the respective print zone or color zone for the same print color.
The two print control marks of different size for the same print color are measured with the help of the same sensor in order to detect on the same measurement values each for the respective print color. Based on the deviation between these measurement values, automatic correction and thus automatic calibration for the actual values of the print parameters detected on all relatively small print control marks of the color zones or print zones takes place. Because of this it is possible to compensate measurement errors, which can occur on relatively small print control marks for example as a consequence of stray light effects. Thus, relatively small print control marks can also be utilized with the invention for a high-quality control of a printing process, for example for a high-quality color density control and/or color register control.
As already explained, the arrangement of the relatively large print control marks preferentially takes place in the immediate vicinity of a relatively small control mark printed for the same print control mark. Preferentially, the relatively large print control marks are placed into such regions of the substrate 10 in which, in a print further processing, a fold or collar is formed, or in which, in a print further processing, the trimming of the substrate takes place.
Detecting the print control marks can take place in the form that as an alternative to the detecting of the individual relatively small and relatively large print control marks with a sensor, a detecting of mark clusters by a sensor is also possible. Here, multiple print control marks of a print zone, preferentially of a color zone or multiple print control marks in multiple print zones, preferentially color zones are combined into a mark cluster and jointly detected.
The foregoing disclosure has been set forth merely to illustrate the invention and is not intended to be limiting. Since modifications of the disclosed embodiments incorporating the spirit and substance of the invention may occur to persons skilled in the art, the invention should be construed to include everything within the scope of the appended claims and equivalents thereof.
Number | Date | Country | Kind |
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10 2013 109 920.3 | Sep 2013 | DE | national |