EP2119565A2 - Method for controlling typographic processes - Google Patents

Abstract

Method for regulating printing processes in a printer comprises preparing ink separation data for each image to be printed on a printing path, calculating image regions in an ink separation data-composite for each image, writing image regions together with the ink separation data-composite into a nominal value data file, re-calculating the image regions depending on a printing plate cylinder configuration of a printing cylinder and controlling a sensor depending on the selected image region. Preferred Features: The image regions containing information for controlling the process are determined so that the size is dependent on the characteristics of the sensor.

Description

The invention relates to a method for the regulation of printing processes according to the preamble of claim 1.

The regulation of printing processes, such. Example, a cut-off register control, a color register control or a color density control, usually using printed on the printed product pressure control marks, which are measured by means of sensors, in this case determined actual values of the pressure control marks are compared with set values for the pressure control marks to control signals based on this comparison for the printing process to be controlled. Such print control marks, which are printed on the printed product outside of the actual print image or subject matter, are particularly disturbing in newspaper printing, since there is no trimming of the printed product in the newspaper print and, accordingly, the print control marks are visible in the end product. Therefore, there is a need for control methods for printing processes that operate without such pressure control marks and therefore markless.

The DE 42 37 004 C2 discloses a non-marking control method for controlling the color density of a printed product, wherein for this purpose the printed image of the printed product is measured directly by means of sensors. Actual values determined here are compared with reference values which are based on image data or prepress data. The DE 101 49 158 A1 discloses a likewise without a brand-working method for cutting register control on a printing machine, wherein also in this method for the control pressure pre-stage-based setpoints are used.

In the case of mark-free regulation of printing processes using prepress-based setpoints, large amounts of data must be processed depending on the resolution of the prepress data. This suffers the efficiency of the regulatory process. If pre-press data with a lower resolution is used, the achievable control precision suffers hereunder. On the other hand, the determination of suitable printed image areas of the printed product prepares difficulties that can be measured with the aid of a sensor for controlling a printing process.

On this basis, the present invention has the object to provide a novel method for the regulation of printing processes. The method according to the invention comprises the following steps: a) for each print image to be printed on the printing substrate, color separation data are provided from the prepress stage, the color separation data of each print image being taken into account, taking into account data on the characteristic of the sensor by means of which the print image can be measured Color separation data composite can be combined; b) subsequently, in the color separation data composite of each printed image, such printed image regions are computationally determined which contain suitable information for the regulation of the printing technology process, the printed image regions determined for each printed image being evaluated; c) subsequently, the printing plate-related printed image areas determined for each printed image are written together with the color separation data composite into a setpoint file; d) furthermore, the ascertained, printing-plate-related printed image areas are converted into cylinder-related or printed-web-related printed image areas as a function of a printing plate cylinder assignment, a print image area being selected from the same for regulation, which can be measured by a sensor; e) depending on the print image area selected for the control, the sensor is aligned transversely to the printing material web and the sensor is controlled such that the sensor provides actual values of the selected print image area for control purposes, with a corresponding desired value of the selected print image area being read from the setpoint file.

The inventive method allows a markless control of printing processes with high control accuracy while handling small amounts of data. For print-less control suitable image areas of the printed product can be easily determined and handled.

Fig. 1:

ein schematisiertes Blockschaltbild zur Verdeutlichung des erfindungsgemäßen Verfahrens.

Preferred embodiments of the invention will become apparent from the dependent claims and the description below. An embodiment of the invention will be described, without being limited thereto, with reference to the drawings. Showing:

Fig. 1:

a schematic block diagram to illustrate the method according to the invention.

The present invention relates to a method for markless control of printing processes, in particular a method for markless cutting register control. The method according to the invention can also be used for markless color register control as well as markless color density control. The method according to the invention will be described below with reference to the signal flow diagram of FIG Fig. 1 described in detail.

In a first step 10 of the method according to the invention, color separation data are provided for each print image to be printed on a printing material web from the prepress stage. These color separation data are preferably coarse grid data in CIP3 format. Then, for color printed images of autotypic compression, color separation data for cyan, magenta, yellow, and black in the form of CIP3 coarse grid data is provided for each print image.

In a step 11 of the method according to the invention, data about the characteristic of the sensor are provided by means of which the printed image of the printing material web can be measured. This data about the characteristic of the sensor can be a grayscale resolution or color-step resolution and / or a spectral sensitivity thereof. Furthermore, as the characteristic of the sensor, the geometric resolution thereof as well as the measuring speed thereof can be provided.

In a step 12 of the method according to the invention, the color separation data provided in step 10 for each print image are combined to form a color separation data composite taking into account the data about the characteristic of the sensor provided in step 11. Accordingly, a color separation data composite dependent on the characteristic of the sensor is generated for each printed image to be printed on the printing substrate web. To generate the color separation data composite in step 12, the CIP3 coarse grid data is cropped. The trimming of this coarse grid data is carried out such that the width and height of the color separation data composites generated from the coarse grid data correspond to the print format of the respective print image. This ensures that z. B. such parts of printing plates that disappear in the printing plate channel of a plate cylinder, not included in the Farbseparationsdaten composite. The color separation data composites determined in step 12 are preferably stored in a file in TIFF format.

In a subsequent step 13, such printed image areas are computationally determined for each printed image in the generated color separation data composites, which contain suitable information for the regulation of the printing process, on the basis of which therefore the control of the printing process can be performed. Then, if a plurality of print image areas suitable for control are determined in a print image, the determined print image areas are evaluated with respect to their suitability so as to provide a ranking of the determined print image areas.

The computational determination of the print image areas of the print images suitable for controlling the printing process can take place at different times, namely either when control data of a printed product to be produced is loaded in the control station or when color separation data composites arrive.

The size of the printed image areas of the printed images computationally determined to regulate the printing technology process in step 13 depends on the characteristic of the sensor used. So z. As the pixel size of a sensor designed as a camera and the number of desired camera pixels per print image area influence on the size of the computationally determined print image areas that contain suitable information to control the printing process.

After determining the print image areas suitable for controlling the printing process, in a step 14 the print image areas determined for each print image and related to printing plates are written together with the corresponding color separation data composite into a setpoint file, this setpoint file being generated in TIFF format. Accordingly, there is a setpoint file for each printed image which comprises on the one hand a color separation data composite for the printed image and on the other hand for regulating the printing process suitable print image areas of the print image, both the Farbseparationsdaten composite and suitable for the control of the printing process process print image areas of the characteristic of the sensor are dependent. The setpoint file also stores the ranking of the print image areas.

In a step 15, the printing plate-related printed image areas of the printed images determined in step 13 are converted into cylinder-related or printed-web-related printed image areas as a function of a printing plate cylinder assignment of the printing cylinders of the printing press.

From such cylinder-related or printing material-related printed image areas, such a positively evaluated printed image area is selected for the regulation, which can basically be measured by the sensor on account of its position on the printing material.

Then, if a cut-off register control is to be carried out as a printing process, the cylinder-related or printing material-related printed image areas are converted into strand-related print image areas depending on the longitudinal section of the printing material web to be executed and depending on the strand guidance of the strands of the printing material web produced by the longitudinal section. From these strand-related printed image areas, such a positively evaluated printed image area is then selected for the regulation, which, taking into account the longitudinal section of the printing material web and taking into account the strand guidance, can in principle be measured by a sensor.

The setpoint data files generated in step 14 and the print image areas selected in step 15 and / or step 16 for control are then provided to a controller in step 17, wherein the controller aligns the sensor transversely to the printing material web, namely the sensor, depending on the range of printing material selected for control along a traverse transversely to the printing substrate travels to a position relative to the printing substrate, in the area of which the selected for the control print image area can be detected by the camera. Furthermore, in step 17, the sensor is actuated depending on the print image area selected for the control such that the sensor metrologically detects and provides actual values of the selected print image area. Corresponding setpoint values are read out of the setpoint file provided in step 14 and compared with the metrologically recorded actual values, wherein a control signal for the pressure-technical process to be controlled is generated on the basis of a control deviation between the actual value and the setpoint value.

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Claims (6)

Method for controlling printing processes, in particular for Schnittregister- or color register or color density control, wherein for determining at least one actual value directly printed on a substrate print image by means of at least one sensor in at least one print image area is measured, the or each measured actual value with each a pressure-bias-based setpoint value is compared, and wherein based on a control deviation determined from the or each actual value and the respective setpoint, an actuating signal for the pressure-technical process to be controlled is determined, characterized in that: a) color separation data are provided for each printing image to be printed on the printing substrate from the prepress stage, the color separation data of each printed image being combined into a color separation data composite taking into account data on the characteristic of the sensor by means of which the printed image can be measured; b) subsequently, in the color separation data composite, for each print image, those print image areas are computationally determined which contain suitable information for the regulation of the printing process, the print image areas determined for each print image being evaluated; c) subsequently printing plate-related printed image areas determined for each printed image together with the color separation data composite are written into a setpoint file; d) furthermore, the ascertained, printing plate-related print image areas are converted into cylinder-related or print substrate-related print image areas depending on a printing plate cylinder assignment of form cylinders, a print image area being selected from the same for regulation, which can be measured by a sensor; e) depending on the selected for control print image area on the one hand, the sensor aligned transversely to the substrate web and on the other hand, the sensor is controlled so that the sensor for control actual values of the selected print image area provides, with a corresponding setpoint of the selected print image area are read from the setpoint file. A method according to claim 1, characterized in that in step a) from the pre-press as color separation data coarse grid data in CIP3 format are provided, wherein the coarse grid data are trimmed so that the width and height of the same generated Farbseparationsdaten composites the format of the respective print image equivalent. A method according to claim 1 or 2, characterized in that in step b) the printed image areas which contain suitable information for controlling the printing process, are determined such that the size thereof is dependent on the characteristic of the sensor. Method according to one of claims 1 to 3, characterized in that in step c) a setpoint file in TIFF format is generated. Method according to one of claims 1 to 4, characterized in that in step d) for cutting register control, the cylinder-related or printing material related image areas are converted depending on the executed longitudinal section of the printing substrate and depending on the strand guidance of the strands produced by the longitudinal section in strand-related print image areas, from the strand-related print image areas for control a print image area is selected, which can be measured by a sensor. Method according to one of claims 1 to 5, characterized in that in step e) the sensor is moved along a traverse transverse to the printing material web to a position relative to the printing material web, in the region of which the selected print image area can be detected.

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