EP0410253A2 - Device for carrying out a comprehensive quality control on printed sheets - Google Patents

Abstract

In a device for data acquisition, control and display of measurement values in quality control on a printing machine, the printed sheet, lying on a sampling bench, is scanned with a video camera for integrating work sequences and for improving work quality and operation. The data are stored in a store for digital image data. At the sampling bench, measuring devices for acquiring quality data of the printed image are arranged and provided with markings. A light source is provided in parallel with the video camera both for displaying data and as guiding device for the measuring devices. Between the video camera and the light source, one or more systems for image evaluation, particularly for pattern recognition, are provided which utilise the data of the memory for the image data. Colorimetry devices, registration measuring devices or hand scanners, that is to say small-format scanners which are manually moved over the area to be scanned, can be considered as measuring devices.

Description

The invention relates to a device according to the preamble of claim 1. Such a device is shown in DE-OS 33 25 006.

Previously, printed sheets were placed on a matching table on a printing press in order to inspect them visually for quality features. The assignment is usually made at the sampling table, e.g. between zonal color remote control of the printing press and the print image indicated by corresponding fixed markings. Various tests have shown that controls and display of the color remote control are not easy to cover. For example, the display of the control values can be designed either on the matching table between control elements for the color remote control and the print sheet or as a display board above the print sheet. Problems with the assignment of the three elements to each other must always be registered. In color control systems in particular, it is then usually a matter of achieving a good alignment of the sheets with respect to the measuring device so that the position of the measuring fields can be correctly recognized by the measuring devices.

In the display device for color control systems after the DE-OS 3 325 006 a matching table with a keyboard for the color remote control is provided. For a better assignment of the print image and the color zone setting, the print sheet is recorded by a video camera and underlaid in an image mixer to display the setting of the color remote control. The image composed in this way can be displayed on a display device. There it can be seen directly for the entire printed image which settings of the color metering elements have been made in which areas. This makes it easier to directly assess the print result and current setting. However, the assignment between display and control elements remains problematic, which in the case shown is even worse, since the sheet with the keyboard is now completely separated from the display of the color zone profile. In addition, the position of the printed image in relation to the video camera must be adjusted so that parts of the image and advertisements are properly covered. Basically, this solution for operation in quality control is rather cumbersome, since the handling of the printed sheet and also the assignment of the control elements to the printed sheet has not been simplified. The proposed device rather distracts the printer and leads to uncertainties in the machine operation and thus also in the print quality.

According to DE-PS 3 232 490, a method and a device for determining and evaluating color measurement fields on a printed sheet have been proposed for color control systems. Here the sheet position is taken into account when measuring and evaluating the print quality. In addition, with the help of a direction finder, practically every point on the printed sheet can be sighted and recorded for later measurement. The sheet position on the pattern table designed as a coordinate measuring table is determined at the sheet edges by scanning elements. The previously defined points for the quality control are then changed to a new one by a computer due to the changed sheet position defined coordinate system converted. The previously specified distribution of the color measuring fields to be measured can thus be found automatically by the coordinate measuring table. The scanning elements evaluate the position of the sheet edge twice in order to eliminate defects from damage. Apart from differences in the cut of the sheet, the position of the printed images on the sheet also depends on various factors. The position on the sheet does not always have to be the same in relation to all sheet edges. Finally, the device of the coordinate measuring table is mechanically unwieldy and relatively expensive.

Starting from this prior art, it is the object of the invention to record, monitor and control or regulate, as far as possible, all the features of a printing sheet relating to the print quality in a simple manner using the same means, the operation being simplified and thereby made safer, as well as to be improved ergonomically. In this context, a division of labor for the entire quality assurance complex should also be possible.

The object is achieved according to the characterizing part of claim 1.

It is particularly advantageous that the assignment of the matching table, measuring devices and display device brings about an integration of operation, quality control and information transport, as was not yet known in the manner shown and which makes operation considerably safer. Here, in particular, the light source operating in the manner of a light pointer acts in several ways both in the display of information and in the acquisition of information. The monitoring of the printing sheet is no longer dependent on mechanical conditions such. B. dependent on the sheet position, but can be oriented directly to the printed image. This also results in the possibility of not only special measuring fields for recording the To use print quality, but also to measure directly in the print image, as is also proposed in new control strategies. Particularly critical areas for quality features such as pushing, duplicating and the various coloring criteria can be selected separately. In order to then be able to find the measurement positions again, a device for pattern recognition evaluates the position of the printed image and forwards the determined data for correcting the user guidance to the control of the light source. The position of the measuring device during measurement can also be checked on the same device. Finally, in further refinements, the control devices are operated directly with the light source. In addition, devices for capturing smaller parts of the image can be provided for their separate evaluation. Finally, it is very advantageous that the system elegantly allows the division of labor between work preparation outside the printing room and operation and monitoring of the print job on the press.

• Figur 1 einen Arbeitsplatz mit einer Vorrichtung nach der Erfindung, in
• Figur 2 ein Blockschaltbild der Vorrichtung nach der Erfindung und in
• Figur 3 eine arbeitsteilige Anordnung nach der Erfindung.

A practical embodiment of the invention is then illustrated by way of example with reference to drawings. Show in it

• Figure 1 shows a workplace with a device according to the invention, in
• Figure 2 is a block diagram of the device according to the invention and in
• Figure 3 shows a division of labor arrangement according to the invention.

FIG. 1 shows the assignment of all means relating to the invention at a single work station. A printed sheet P is placed on the matching table 1. Below the inclined forward A table 2 is fitted with a control panel 2 with a keyboard 2A for a color metering device 26 and an input device 2B for a register setting device 29. Both units sit on a control panel 3, which contains the electronic components for the device. A rear wall 4, which carries a projection screen 5, is placed on the control panel 3. A cover 6 is attached above the matching table 1, which, among other things, is also intended to accommodate a standard lighting fixture for the matching of pictures. In addition, a video camera 7 is attached to the cover 6, the lens 8 of which is directed onto the matching table 1. It can record the printed sheet P located there with its printed image B. A light source 9 is arranged parallel to the video camera 7, the objective 10 of which emits bundled light beams 11A, B, C. The light beam 11A is directed onto the matching table 1 for designating previously defined positions and is used for marking or user guidance. At the positions designated in this way, a measuring device 12 is then used, which is connected to the control panel 3 via a data line 13. Depending on the function (for example, densitometer 12A, colorimetric measuring device 12B, register measuring device 12C, hand scanner 12D), a marking 14 is attached to the measuring device 12. The marking 14 can be identified with the help of the video camera 7. A control device embedded in the control panel 3, for example a computer 15 merges the data streams from video camera 7, measuring device 12, control panel 2 and light source 9. This should ultimately also make it possible for the light source 9 with its light beam 11B to generate a display 16 on the projection screen 5. This display 16 can, for example, show the profile of the setting of Color metering elements of the color metering device 26, which are controlled from the keyboard 2A.

In Figure 2, the function of the device in the interaction of all its elements is shown as a block diagram. Control panel 2, Video camera 7, light source 9 and measuring device 12 are each connected to the computer 15 via control devices 17, 18, 19, 20. In addition, an image memory 22 and a coordinate memory 23 are provided for the data of the video camera 7, an image memory 21 and for the data of the light source 9. All the data necessary for controlling the device are to be stored in the memories 21, 22 and 23. The device is connected to the machine control 27 on the computer 15 via a data line 24 and to the control of the ink metering device 26 via a data line 25, and to the register setting device 29 via a data line 28. Furthermore, a connection to a network 31 of a print shop control is provided via a data line 30. Finally, a screen 33 is also provided, which has a control device 34 and a cursor control 36. These are connected to an image processing system 35 which is arranged between the computer 15, pattern recognition 32 and image memory 21. In addition, the image memory 22 for the light source 9 is also connected together with the image memory 21 via the image processing system 35 to the control device 34. The pattern recognition 32 is likewise arranged between the image memory 21 and the computer 15 and can optionally be coupled to a measuring device in the form of a hand scanner 12D.

The computer 15 first collects data necessary for the device, for example the sheet format, the measuring devices to be used and the type and structure of the printed image. In principle, the keyboard 2A of the control panel 2 is to be used for this. However, it is also possible to take over the data from the machine control 27 or from a data carrier. Data cartridges or, if the computer 15 is a PC, also floppy disks come into question here. Likewise, the computer 15 can also receive the data from a network 31 for print shop control. With this data, for example, the video camera 7 already corresponds to the sheet size preset and the selection of the measuring devices 12 specified. There may also be control fields K and register marks R, the type and position of which must be specified. Otherwise, these can be found by setting up using a module for pattern recognition 32, the computer 15 taking over the position of the measuring devices 12 and their identification from the image in the memory 21 of the video camera 7. With the data obtained in this way, the quality control is carried out on the printed sheet P. The position of the measuring fields is stored in the coordinate memory 23. With this data, the light source 9 will later be directed to the measuring fields for operator guidance with the aid of its control device 20, also in order to initiate the measuring process there, for example, if the measuring device 12 is struck by the light beam 11B when positioned correctly. The pattern recognition 32 monitors both the position and the identification of the measuring device 12 currently used. In this way, guidance over all areas of the printed image B with scanning of control fields K, register marks R and image-important or problem-prone image parts is possible. The results are shown by the light source 9 on the projection screen 5 in the form of a graphic display 16. For this purpose, the projection screen 5 can be fluorescent or light and contrast-enhancing. The data are then also forwarded to the register setting device 29 and the ink metering device 26 via the data lines 25, 28. This can optionally be done by direct control of the controls. For example, in this case the input device 2B for the register control in the control panel 2 should be equipped as a sensor matrix, the sensor elements of which can output setting positions for the register setting device 29. By illuminating the sensor matrix with the sharply focused light beam 11C from the light source 9, an actuating command for any measurement values output by the measuring device 12 (here a register measuring device 12C for determining register deviations) can be issued be generated. Travel paths are possible in all directions.

The device works as follows:

A printed sheet is placed as a target sheet on the matching table 1 and recorded by the video camera 2. Boundary conditions such as format, measuring method, measuring devices, machine configuration and number of colors can be supplied by the network 31, where they are stored in a database. This makes it possible to adjust the lens 8 to the sheet size and to activate the pattern recognition 32 both for the necessary measuring devices 12 and for any control fields K and register marks R.

After saving the print image B, it is determined where measurements are to be made during quality control. For this purpose, a specific measuring sequence can be specified directly on the printed sheet P with the aid of the measuring devices 12, by moving to the necessary measuring points with each measuring device 12. For this purpose, the measuring devices 12 with direction finders z. B. provided in the form of a cross-hair magnifier. The video camera 7 records the markings 14 of the measuring devices 12 and uses the pattern recognition 32 to calculate the respective position, the data of which are stored in the coordinate memory 23.

However, there is also the possibility of examining the printed image B on a screen 33. With an image processing system 35, it becomes possible to also recognize details in the printout in an enlarged representation of the printed image B that has been recorded and stored in the image memory 21 and thus to be able to make better decisions necessary for quality control. In addition, in this way the preparation of the quality control no longer has to take place at the control panel 2 on the printing press or the quality control can be carried out without presenting the printed sheet P be done at a separate work preparation work station. The image data are made available to the work scheduler in the network 31. The video recordings from the image memory 21 are displayed on the screen 33 with the aid of a control device 34. When viewing the printed image B, the measurement points can also be defined in a simple manner in the image processing system 35 with the aid of a cursor control 36. If, as shown, this work is carried out at a special work station, the data transmission takes place, for example, with the network 31 to the computer 15 on the printing press.

In the case of special measuring methods, it is necessary to determine control areas over the width of the printed sheet P for the ink metering. The ink zone-related specification is defined before the measurement points are defined. For this, e.g. B. on the screen 33 with the aid of the control device 34, a zonal division or a display of the presetting for the color metering corresponding to the display 16 with data from the image memory 22, the print image from the image memory 21 are superimposed, so that interrelationships between coloring and print image division become recognizable. However, this method is not suitable for remote ink zone adjustment, since the assignment between display on screen 33, printed image B and keyboard 2A is missing.

When all settings have been made, the machine is started and the first test sheets can be removed for quality control. The sequence and, if appropriate, also the time of the measurement are then determined by the computer 15 in accordance with the specifications of the work planner. After the printed sheet P lies on the patterning table 1, the pattern recognition 32 determines the position of the printed image B on the basis of prominent locations and thus defines a current coordinate system for the printed sheet P, which also follows when it slips is corrected. The previously defined measuring points for the coordinate memory 23 are recalculated using the new coordinate system. With the new values, the light source 9 controls the measuring points individually via its light beam 11B as a pointer. In parallel, a measuring device 12 is activated and the use of the correct measuring device 12 is checked by the pattern recognition 32. With correct positioning, the measuring process can be carried out automatically. It is then triggered by a positive signal from the pattern recognition 32 or the light beam 11B, which a sensor on the measuring device 12 recognizes in the measuring position. If the operating personnel in the quality control determines that other critical points such. B. result from repercussions in the coloring with unfavorable division of the area, the presetting procedures with regard to division of the area and measurement point definition can be corrected and / or supplemented directly at this point during quality control. The operator no longer has to worry about all critical points because the essential areas and measuring points are predefined. The operator can thus devote undivided attention to the printing process in its entire range or to special points. When controlling the color metering, ie during manual interventions, the respective profile of the color zone setting can be shown on the display 16, as a result of which its assignment to the printed image B and the keyboard 2A is also ergonomically optimal. The register setting device 29 is guided in the same way as the color metering device 26. The input of new control values can take place manually on the input device 2B of the register control or via the light beam 11B of the light source 9. The input device 2B is then designed as a sensor matrix.

The device allows a division of the work by having a special place for work preparation within a print shop is judged. There, highly qualified personnel can set up the processes for quality control. The data is then passed on to the respective workstations on the printing press. The machine staff is relieved of preparatory work and the error rate in quality control drops. For this reason, not all functions have to be available at all workplaces. Thus, the space for work preparation can only consist of a screen 33 and the "measuring workstations" on the machines are equipped with video camera 7, light source 9 and measuring devices 12, for which there is no screen.

Such a configuration is shown symbolically in FIG. 3. Here, the space for work preparation A contains a computer 15 with a pattern recognition 32, an image processing system 35 and a screen 33. The data about the printed image B are recorded in the printing house D from the work station on the printing press with the video camera 7 only available there transmitted to the work preparation A with the network 31. The assessment of the printed image B, the determination of the measuring devices 12, the marking of the measuring points and their sequence during the measurement run of the quality assurance, as well as the definition of certain image areas to be monitored separately, can be carried out solely on the screen 33 in the work preparation A. The measurements are carried out in the printing house D, with the personnel being guided.

The combination of monitoring and display functions is thus to be seen as essential to the invention, which on the one hand opens up diverse possibilities for quality assurance on the printing press, and on the other hand also for rationalization for a workflow organization based on the division of labor. The design of the performance can therefore be varied beyond the scope of the exemplary embodiment.

Reference symbol list

• 1 sampling table
• 2 control panel
• 2 A keyboard
• 2 B input device
• 3 control panel
• 4 rear wall
• 5 projection screen
• 6 cover
• 7 video camera
• 8 lens
• 9 light source
• 10 lens
• 11 A, B, C light beam
• 12 measuring device
• 12A densitometer
• 12B colorimetric measuring device
• 12C register measuring device
• 12D handheld scanner
• 13 data line
• 14 marking
• 15 computers
• 16 display
• 17 control device
• 18 control device
• 19 control device
• 20 control device
• 21 image memories
• 22 image memories
• 23 coordinate memory
• 24 data line
• 25 data line
• 26 color metering device
• 27 Machine control
• 28 Data line
• 29 Register mechanism
• 30 data line
• 31 network
• 32 Pattern recognition
• 33 screen
• 34 control device
• 35 Image processing system
• 36 Cursor control

• B printed image
• P printed sheet
• K control panel
• R register mark
• D printing house
• A work preparation

Claims (15)

1.) Device for data acquisition, control and display of measured values in quality monitoring on a printing press with a scanning device for recording a print sheet lying on a sampling table and a memory for recording the digital image data, a control device for zonal ink metering in the inking unit of a printing machine and a display device for setting them zone by zone
characterized,
that the matching table (1) is assigned measuring devices (12) for recording quality data of a printed image (B), the measuring devices (12) being provided with markings (14), and that display devices (5, 9, 33) are used both for display of data and also as a guide device for the measuring devices (12) and that one or more systems (32, 35) for image evaluation are provided between the scanning device (7, 12D) and the display device (5, 98, 33). 2.) Device according to claim 1,
characterized,
that the scanning device is a video camera (7), the lens (8) of which is directed onto the matching table (1), which is connected to a control device (18) and whose digital image data are stored in an image memory (21). 3.) Device according to claim 1,
characterized,
that the display device is a light source (9) which interacts with a projection screen (5) for display and with the matching table (1) for operator guidance and can be controlled accordingly. 4.) Device according to claim 1 and 2
characterized,
that the light source (9) emits coherent light and is designed as a laser projector. 5.) Device according to claim 1 and 2,
characterized,
that the projection screen (5) has a contrast-enhancing and / or fluorescent surface. 6.) Device according to claim 1,
characterized,
that at least one densitometer (12A) and / or a colorimetric measuring device (12B) and / or a register measuring device (12C) and / or a hand scanner (12D) or the like are provided as measuring devices (12). 7.) Device according to claim 1,
characterized,
that the measuring devices (12) are each provided with a direction finder. 8.) Device according to claim 1 and 6
characterized,
that the measuring devices (12) contain a sensor for scanning the light beam (11C) of the light source (9), the measuring process being triggered by illuminating the sensor with the light source (9). 9.) Device according to claim 1,
characterized,
that the video camera (7) and the image memory (21) is followed by a pattern recognition device (32) for detecting markings (14) on the measuring devices (12) and on the printed sheet (P). 10.) Device according to claim 1,
characterized,
that position data for the measuring devices (12) and / or the printed sheet P is determined from the data of the pattern recognition device (32) by a computer (15) and fed to a coordinate memory (23) and / or a control device (20) the light source (9) . 11.) Device according to claim 1,
characterized,
that the data from the measuring devices (12) are fed as image data to the image memory (22) and the control device (20) of the light source (9) so that they can be made optically visible on the projection screen (5). 12.) Device according to claim 1,
characterized,
that the data of the hand scanner (12D) can be fed to the image memory (21) and the computer (15), as well as to the coordinate memory (22). 13.) Device according to claim 1,
characterized,
that an input device (2B) for register control in the control panel (2) is provided, which contains a sensor matrix, the sensor elements of which can be illuminated by the light source (9) and cooperate with the register setting device (29) via the control device (17). 14.) Device according to claim 2 and 8 to 12,
characterized,
that a display (33) serves as a display device, which is connected via a control device (34) to the image memory (21) of the video camera (7), the image memory (22) of the measuring devices (12) and the coordinate memory (23), and the is further connected to input devices and a cursor control (36). 15.) Device according to claim 1, 6 and 14,
characterized,
that the scanning devices (7, 12D) pick up parts of the image or the entire printed image (B) in suitably high resolution, that the image stored in the image memory (21) is processed in an image processing system (35) and displayed in high magnification on the screen (33) , With the help of the cursor control (36) the positions of certain image points can be marked, which are stored as measuring points in the coordinate memory (23).

Images