DE4338976A1 - Control field pattern for multi-colour printing quality control - Google Patents

Abstract

The control field pattern has at least one control field (1) in which different printed areas (2,4) have respective overlapping printing ink colours. One of the areas may be printed in a single colour, the other having two or more overlapping ink colours. Pref. the single colour area is provided as a central zone and the second area is provided as at least one edge zone, printed respectively in black and black and yellow. The central zone is larger in area than the employed colour control measuring fleck (3), to provide a limited positioning tolerance for the latter.

Description

The invention relates to an arrangement of several Kon troll fields to control and / or control the majority color printing according to the preamble of claim 1.

Such arrangements of multiple control panels who called the control strip or control blocks. Under a control strip according to DIN 16527 part 1, March 1993, a one-dimensional sequence of Kon troll fields understood. A control is analogous to this block a two-dimensional arrangement of control fields other. There are single color prints or for the single color control strips and more color printed or pre-designed for multicolor printing seen control blocks. Control strips that made up finally for control, regulation or control of printing are specifically called Druckkon troll strips, those that are used only for surveillance serve the copy, are specifically called copy control streak while stripes serve both purposes can only be called control strips.

Under control field according to DIN 16 527 part 1 Understand the area on which one or more for test purposes rere picture elements are arranged, the latter z. B. Halftone dots, lines or full tones. The term Control field refers to DIN 16 527 part 1 a test area based on a flat substrate (e.g. film, printing form, substrate) in direct view transferable form, regardless of whether the Infor mation beforehand in analogue (e.g. film) or digital (e.g. magnetic memory, optical disk) shape saved Template. Examples of control strips and control  Blocks according to the prior art are published GATF Technical Services Report No.10, 1983; Groff, Kanonik: Test Images for Printing, GATF, Pittburgh, PA, 1992; Products Catalog 1991-1992, RIT, Rochester, 1990; Gretag color measuring strips GMS, Gretag AG, Regensdorf / Zurich, Switzerland. Other con troll strips or control blocks according to the state of the Technology without a copy by direct exposure processing of the printing form blank or by output on printers, Color printers or so-called digital proof printing counters (digital proofing devices).

Control strips and control blocks become visual len or for metrological control of copy and Printing processes used, the latter being under the latter drawing the proof and the print run on print machines based on the principles of planographic printing, gravure printing, High pressure, print is understood as well the test print or pressure substitute with procedures that the Specialist under the designation "Cromalin", "Matchprint", "Color Art" are known.

Another application of such control means is Control or regulation of pressure during produc tion. The former can be both visual and visual a metrological evaluation of one or more con Troll fields take place, the latter only after metrological Evaluation. This is done according to the state of the art Densitometers or color measuring devices, such as. B spectral information tometer used. Both devices record with one circular or elliptically shaped measuring spot that of optical printed back on a printed control panel Energy.  

Control panel provided for measurement evaluation that either consist of a solid field, d. H. egg ner full-surface printing or for full-surface printing designated area or a grid, d. H. one in printed dots or dots intended for printing area or lines. Both full tones as screen tones can also be monochrome or multicolor lays down. In the latter case are on the copy template of the participating colors in the relevant Printing areas are provided in the place of the control field. A control field on the substrate is called multicolored if it is created by overprinting several Printing inks has arisen. Overprinting means here a print, in which print color on the same surface ben different colors are applied. As a print ben are understood here as pigment layers, which either the as suspensions by a printing press or in a test printing process as toner particles, as inks jet printer ink, as thermal transfer mass or as layer detached from a color film on the print are transferred. Scale inks are printing inks ben, whose pigments used for multi-color printing Primary colors, e.g. B. black, cyan, magenta, yellow at Four-color printing.

Of the multi-colored grids are particularly impressive especially important for those where the area coverage grade of the printing inks involved in such a ten lenal relationship that one under undisturbed average printing conditions Eye pressure achromatic, d. H. appears neutral gray. Such control fields are in accordance with DIN 16527 Part 1 Called gray balance fields. Colorless-looking, printed Gray balance fields can be viewed from a minimum  distance does not differ from grid fields that are only printed with the achromatic ink black.

Control fields of the prior art are e.g. T. so trained that their shape to the common shape the measuring spots of densitometers and other reflectors meters is adjusted. They are therefore rectangular in the case of devices with an elliptical measuring spot and square, circular or hexagonal in the case of circular measuring spots. With a control strip of the state of the Tech nik, the control strip CMS 2 from Gretag AG, is the between the circular, actual control field with 50% area coverage by the module size of the Control strip given square outline emerging gusset for checking the highlight dots of the same ink used. Gusset and con troll field here form a multi-area control field, that of a core area and four edge areas, the Gusset exists.

Control strips and in particular pressure control strips the state of the art, as described in the patents EU-A-518 559, CH-A-681 929 are described control of optical density and color location of single-color prints of the scale printing colors black, Cyan, magenta, yellow or special printing inks. As well are also multi-colored control fields for visu There is an evaluation or measurement, like the second blue, green and red, tertiary black, through the overprint of the colorful primary colors Cyan, magenta, yellow are created as well as gray balance fields.

The control strips and control blocks of the state of the Technology and the control fields that make it up  the disadvantage that they take up too much space point. This applies in particular to control fields that to control the multicolored overprint are seen as those of the secondary and tertiary colors. For example, these are on the control strip FOGRA PMS pressure control bar to a so-called "Kürteil" summarized, which in contrast to the "Mandatory part" is only put on the form if there is enough space. In the known Kon troll stripes is also not the printing order di directly detectable. The glaze or the Transparency of the colorful scale printing inks only indirectly about the appearance of the secondary colors.

The invention is therefore based on the object order of several control fields according to the Oberbe handle of claim 1 to develop such that a smaller space is required without there ver with the scope of the control and test possibilities is wrestled.

This object is inventively characterized by nende feature of claim 1 solved by the Kon troll field at least two areas with one under different number of overprinted prints has colors.

The areas preferably have one for metrology designated core area and little at least one border area. So is the space requirement for multi-colored control fields, such as B. the Solid tones of the secondary colors, thus greatly reduced, that this at least z. T. in the measurement not usable edge areas are relocated. This means kei  Native disadvantage, since secondary colors and terti usually not evaluated by measurement technology and therefore not be printed on such large areas need like the primary colors. In the latter, the Core area to be able to measure the measuring spot of the reflect tometers with a generous tolerance. An essential part of the idea of the invention is the evaluation of the secondary colors and the tertiary color Cyan (C) plus magenta (M) plus yellow (Y) through direct visual comparison of the color of the measurement is not usable edge area with that of the core area allow, being the number of core in each case overprinted printing inks from that of the printing inks printed on top of each other in the edge area differs.

Further advantages and configurations are the subject of the subclaims and are based on the description some embodiments and the drawing explained.

Show in the drawing

FIG. 1a to 1d is a schematic representation of con troll fields with at least two difference union areas,

FIG. 2a is a schematic representation of a con troll strip,

Fig. 2b is a schematic representation of a con troll blocks,

FIGS. 3 and 4 is a schematic representation of a con troll field with different printing of the different areas,

Fig. 5 is a schematic representation of a control strip with a pair of adjoining control fields according to the invention and

Fig. 6 is a schematic representation of a control block with a quadruple of abutting control fields according to the invention.

1a to 1d show control fields according to the invention from FIG. 1 , which have at least two areas, namely a core area 2 and at least one edge area 4 , with a different number of superimposed printing inks. The outline of the core area 2 should expediently be modeled on the shape of a measuring spot 3 of the densitometer or color measuring device used, for example, for evaluation. Ordinary measuring spots 3 have either elliptical ( Fig. 1a) or circular ( Fig. 1b) shape. The core area 2 is kept somewhat larger than the measurement spot 3 , so that inaccuracies in the positioning of the measuring device do not immediately lead to incorrect measurements.

The remaining area of the control field that does not belong to the core area 2 forms the edge area 4 . The control field 1 , which is square in FIG. 1c, has a central core region 2 which is at least partially delimited by the triangular edge regions 4 a, 4 b, 4 c, 4 d arranged in the corners of the control field.

In the rectangular control field 1 according to FIG. 1d, the edge area 4 is arranged as a simply coherent surface above the measuring spot 3 .

The division of core area 2 and edge area 4 shown in FIGS . 1c and 1d are only to be understood as playful and can be varied as desired depending on the type of requirements and / or the shape of the measuring spot.

Different arrangements of several control fields are shown in FIGS. 2a and 2b. A control strip 5 is schematically illustrated in FIG. 2a, which has at least two control fields 1 according to the invention, for example according to FIG. 1c or 1d.

Compared to the one-dimensional arrangement of the control fields in the control strip 5 , the control fields in the control block 6 according to FIG. 2b are lined up in two dimensions.

Depending on the application, the following different types of control fields can be expediently provided for both control strip 5 and control block 6 : sliding and duplication control field, highlight spot grid, shadow point grid, single-color solid field, multi-color solid print layer, gray balance field, Halftone field, copy control field, microline field and dot matrix field.

Fig. 3 shows a control field 1 , the distribution of the individual areas corresponds to the control field according to FIG. 1c. The core area 2 is einfar big printed with the full tone of the printing ink A, while the edge areas 4 a, 4 b, 4 c, 4 d are formed from the superimposed full tones of the printing inks A and B. If the printing inks A and B are the scale printing inks black and yellow, the control field 1 can advantageously identify an incorrect color sequence. If, contrary to normal practice, black lies over yellow, its optical effect is covered by the non-glazing printing ink black, so that the eye does not see any difference between core area 2 and the peripheral areas 4 a, 4 b, 4 c, 4 d, especially when viewed including the gloss. If the printing color yellow is on the other hand, you can see the characteristic, almost metallic gloss of yellow under the gloss angle. If the glaze of the yellow is not very good, the yellow on top can be recognized by a slight yellow shimmer of the overprint even when the gloss is reflected away.

In an analogous manner, it can be determined quite generally for printing inks with a non-ideal glaze whether the printing ink concerned is below or above the printing ink black. This question is particularly important in the case of pressure testing, since proofs with black as the last printing ink pretend a printing result that is hardly achievable with the sequence of colors usual in edition printing with yellow as the last printing ink. The shrinking of the superimposed printing field "solid color of the printing ink yellow plus solid color of the printing ink black" and its displacement into the edge area 4 of a control field 1 , the core area 2 of which has only a single print, such as, for. B. a "solid color of the printing ink yellow" or a "solid color of the printing ink black" saves the space of a control field compared to the prior art. In addition, there is the advantage that in many cases an incorrectly chosen color sequence can be identified. The test options described are not tied to the fact that the core area 2 is printed with a single and the edge area 4 with two printing inks, interchanging the color assignment would not restrict the test options. According to the invention, only the number of the printing ink layers printed in each case has to differ in order to make the visual comparison described here executable.

Analogous to the combination of yellow and black, the Color order for other combinations of print colors determine ben A and B. The only requirement is that the secondary colors formed from A and B vary depending on Distinguish color order.

A control field 1 with black (S) as printing ink A can be used to check the glaze or the transparency of a second printed printing ink B, the cyan (C), magenta (M) and yellow (Y) printing inks being of course particularly important. Fig. 4 shows an advantageous embodiment this shows a control panel 1. It comprises an edge area 4 , which is divided into four different parts ( 4 a, 4 b, 4 c, 4 d). Each part is formed from the overprinting of the solid color of the printing ink black and the solid color of a different scale printing ink, whereby a color assignment may occur twice. The control field 1 thus consists of a solid black as the core area 2 , while each of the four parts of the edge area 4 is in each case formed by overprinting the solid black with a scale printing ink. For example, be found in the upper left part 4 b of the superimposed pressure S + C, in the upper right part 4 a S + M and in the lower right part 4 d S + Y; the printing ink names are selected according to DIN 16539 part 1. In the lower left part 4 c, a special printing ink can be accommodated or the repetition of a scale printing color. The visual comparison of the color of part of the edge area 4 with the color of the core area 2 provides information about glaze and transparency. The glaze is perfect and the transparency is high if there is no color difference. The greater the difference, the worse the glaze and the lower the transparency.

The configurations of control fields 1 according to FIGS. 3 and 4 are also advantageous for assessing the ink acceptance and lying, ie the uniformity, of a second printed ink on a first printed ink. For these controls, a control field 1 is advantageously used, which has a core area 2 and an edge area 4 divided into several parts. The core area 2 consists of the full tone of a printing ink A, each part of the edge area 4 consists of the overprinting of the full tone of the printing ink A, each with a solid one of several other printing inks. For example, printing ink A is formed from the scale printing ink cyan and the other printing inks are formed from the scale printing inks cyan, magenta and yellow. The control field 1 thus consists of a solid cyan as the core area 2 , while each of the four parts of the edge area 4 is in each case formed by overprinting the solid cyan with a scale printing ink. For example, C + M is found in the upper left part, C + Y in the upper right and C + S in the right. In the lower left part there can be a special color or the repetition of a scale printing color. The examination of the overlapping prints in the parts of the edge area 4 , possibly with the aid of a magnifying glass, provides information about the ink acceptance and the lying of the second printed ink on the first printed th, in this case the printing ink cyan. The color acceptance is OK if the color of the overprint matches the target color of such a secondary color. The lying of the second printed ink is judged to be good if no coarser unevenness in the color distribution can be seen.

In another exemplary embodiment, not shown in the drawing, the core area 2 of a control field 1 consists of a solid tone of the printing ink black and its edge area 4 of the full-surface overprinting of the printing inks cyan, magenta and yellow. With undisturbed color recording, the edge area 4 appears in a neutral black color that comes close to that of the core area 2 . If, on the other hand, the visual comparison of the colors of the core and edge area reveals marked differences, then the color acceptance of one or more of the printing inks cyan, magenta and yellow is probably disturbed. Of course, it is also possible to swap the color assignment of the core and edge area. It is important for the feasibility of the test described here, however, that the number of layers of printing ink applied in the two areas differs. For example, would one of the three intended printing colors printed for the edge region 4 be omitted and e.g. B. printed on the core area 2 , so no meaningful examination is possible.

In a further exemplary embodiment, also not shown, the core region 2 consists of a gray balance field and its edge region 4 consists of a Ra field of the printing ink black, the tonal values in both regions being chosen such that the control field 1 appears as a uniform tone surface under normal pressure . The reversal of the color assignment of the areas is also useful, the core area 2 then consisting of a grid of black ink and the edge area 4 consisting of a superimposed print of suitably graded area coverage cyan, magenta and yellow. The tonal values in both areas are chosen so that the control field 1 appears as a visually uniform tonal surface under normal pressure. Here, too, it is essential that the number of layers of printing ink applied in both areas be different.

In Fig. 5 an advantageous embodiment of the inven tion is shown, in which at least two fiction, contemporary control fields 1 with similarly printed edge areas 4 or parts thereof directly abut. The border areas 4 flowing into one another in color enable a better visual assessment than is possible at the individual control field 1 . Of course, the edge areas 4 must merge directly into one another, there must be no unprinted gap between them and no other colored dividing line printed between them. Not shown in the drawing is a likewise advantageous embodiment of a control block 6 , in which at least two control fields 1 with similarly printed edge regions 4 or parts thereof directly abut one another.

In Fig. 6 an advantageous embodiment of the inven tion is shown in which at least four fiction, contemporary control fields 1 with their similarly printed edge areas 4 or parts thereof directly abut each other. This results from the abutment of four equally printed parts from Randbe 4 range a larger, uniformly printed area, the visual assessment of which is easier and more reliable than is the case with a single control field 1 .

For a person skilled in the art, it is readily possible within the scope of the invention to technically implement the described configurations of the various arrangements of control fields in the various printing processes. There are several ways to do this. In the way across the film, the reproduced when printing with a specific ink to be printed parts of an arrangement of control fields 1 and blackened parts of the respective color separation film and then transferred in positive process to the pressure verses with the respective ink Henen printing form blank. If the production of the printing form takes place in the negative process, a film must be used which represents the negative of the first-mentioned film. With the printing forms thus produced for the multicolor printing, the printing medium, also called printing material, is successively printed with the associated printing inks using the respective printing forms. However, the printing forms can also be produced without the prior production of color separation films, e.g. B. in a device in which the printing form is exposed with the aid of a laser imagesetter. The exposure is controlled by an electronic computer program that contains the information about the arrangement to be printed from several control fields. In this case, the information on the structure of the arrangement must be available in digital form. A suitable data record can be created, for example, using the FreeHand program from Aldus or directly using a page description language such as the Adobe PostScript programming language. The data can e.g. B. be organized as a CMYK file in TIFF (Tag Image File Format) format or in other data formats that allow printing-related information.

The printing forms can also be made by other filmless ar processing methods with an arrangement of several Control fields are illustrated. It is possible deep printing forms and flex printing forms through program control first laser ablation. The generation of the ink wells on a gravure cylinder can also via an electronically controlled engraving gene.

Finally, with some test printing processes it is possible to print without a printing form. In the processes working from the film, the color separation films with previously described color separations of the arrangements of the control fields 1 are each used by an exposure process to transfer printing ink in the form of toner particles or a layer detached from a color film onto the printing material in accordance with the blackening present on the film . In the filmless process that works directly from the data set, the printing ink is computer-controlled, e.g. B. in the form of inkjet ink, thermal transfer printer mass or thermal sublimation dye transferred successively to the print medium. The application of these arrangements, ie the use of the control strips 5 or control blocks 6 , with their control fields 1 is however analogous to the arrangements produced by printing with conventional printing presses. Here, too, the printing of the core areas 2 and the edge areas 4 with a different number of printing inks provides advantageous testing options while at the same time saving space.

Claims (10)

1. Arrangement of several control fields for checking and / or controlling the multicolor printing, at least partially at least two different printing colors being printed on top of each other on at least one control field, characterized in that the control field ( 1 ) we have at least two areas (core area 2 , edge area 4 ) with a different number of overprinted printing inks. 2. Arrangement according to claim 1, characterized in that the one area (core area 2 ; edge area 4 ) with a single printing ink and the other area (edge area 4 ; core area 2 ) is printed with several printing colors. 3. Arrangement according to claim 2, characterized in that the one area (core area 2 ) from the full tone of a printing ink (A) and the other area (edge area 4 ) from the overprinting of the full tones of the printing inks (A) and (B) . 4. Arrangement according to claim 2, characterized in that the two areas are formed by a core area ( 2 ) and one in several parts ( 4 a, 4 b, 4 c, 4 d) glazed edge area ( 4 ), the core area ( 2 ) is generated from the full tone of an ink (A) and each part of the edge area ( 4 ) consists of the overprinting of the full tone of the ink (A), each with a solid one of several other inks. 5. Arrangement according to claim 3, characterized in that the control field ( 1 ) is formed so that the printing inks (A) and (B) are the printing inks black and yellow or yellow and black. 6. Arrangement according to claim 4, characterized in that the printing ink (A) is the scale printing ink black and the other inks are the three colored ska Oil inks include cyan, magenta, and yellow. 7. Arrangement according to claim 2, characterized in that the control field is formed such that one area (core area 2 ; edge area 4 ) is designed as a gray lance field and the other area (edge area 4 ; core area 2 ) is designed as a single-color, black grid, the area coverage of the printing inks involved in both areas are selected so that the control field ( 1 ) appears as a uniform tone under normal printing. 8. Arrangement according to one of the preceding claims, characterized in that at least two control fields with each in the same way printed areas (edge area 4 ) are arranged directly next to each other. 9. Arrangement according to claim 8, characterized in that the areas printed in the same way (edge area 4 ) consist of the overprint of the full tones of the printing inks (A) and (B) and the other areas (core areas 2 ) of a control panel with Ink (A) and the other control panel are printed with ink (B). 10. Arrangement according to one of the preceding claims, wherein the control field is square, characterized in that the two areas are formed by a centrally provided core area ( 2 ) and an at least partially bordering edge area ( 4 ), the edge area ( 4th ) consists of four triangular parts ( 4 a, 4 b, 4 c, 4 d) arranged in the corners of the control panel.