AT506552B1 - PRINT IMAGE - Google Patents

Abstract

The invention describes a printed image consisting of a printing medium (3) and a multicolored image applied thereto, the image being formed from individual colored ink dots (52, 78, 79). The ink dots (52, 78, 79) are formed with an ink jet printing device (1). The image contains additional ink dots (51, 76) of white and / or colorless ink.

Description

Austrian Patent Office AT 506 552 B1 2011-06-15

Description: The invention relates to a printed image corresponding to the features in the preamble of claim 1.

The production of images with ink jet printing devices is usually done using white print media, so it is also common for the storage of the digital image information data only information about colored, i. not white pixels. When imprinting images on print media made of a non-white material, however, this results in a falsification of the colors of the displayed image. Free areas, which should appear white, in these cases have the color inherent in the print medium, while the color of other pixels is changed by the color of the print medium, as the incoming white light partially passes through the corresponding ink dot and an additional portion of the print medium Light is absorbed.

In the printhead carriage described in various embodiments of the inkjet printer according to the document EP 1 331 100 A2 are in addition to printheads for the "process color inks" to be printed. Y, LY, M, LM, C, LC, K, LK also arranged white color printheads ("white printheads") in the printhead carriage. In the document EP 1 331 100 A2, different methods of producing images with a primer of white ink in a so-called "front-side printing" are described. in the case of a non-white print medium, and a so-called "backside print " - In the case of a transparent print medium - described.

Document EP 0 187 352 B1 describes a method for color printing with an ink jet printer on a printing medium using the technique of subtractive color mixing. In this case, individual color dots of an image are generated by superimposing ink drops of three subtractive printing inks, consisting of an optically clear, thermoplastic base material. In addition, the primary colors red, green and blue or black are used.

The document WO 2005/000586 describes a direct thermal printing process and a thermal printing medium used therefor. In contrast to thermal transfer printers, where separate printing tapes are used to transfer the ink to the printing medium, it is provided in the thermal printing medium according to the document WO 2005/000586 that the thermally activatable substances, as well as in the field of photographic papers, in this thermal printing medium contained in different layers. These include the three primary colors cyan, magenta and yellow.

The object of the invention is to provide a printed image for images with color true representation as possible with which it is preferably also possible to be able to influence optical effects of the image surface targeted.

The object of the invention is achieved by a printed image, consisting of a printing medium and a multicolored image applied thereto, according to the features of claim 1. It is advantageous that when using non-white print media as a background for a picture to be printed for this a color-accurate representation is possible.

Advantageous developments of the printed image are described in claims 2 to 10.

The invention will be explained in more detail below with reference to the embodiments illustrated in the drawings.

In the drawings: Fig. 1 is a side view of the inkjet printing apparatus; 1/28 Austrian Patent Office Fig. 2 Fig. 4 Fig. 4 Fig. 6 Fig. 6 Fig. 7 Fig. 8 [0019] Fig. 9 Fig. 10 Fig. 12 Fig. 14 Fig. 14 Fig. 15 Fig. 16 Fig. 10 Fig. 18 shows the ink-jet printing apparatus according to Fig. 1 in plan view and schematically simplified illustration; an embodiment of the ink jet printing apparatus with a printhead assembly for printing white ink; another embodiment of the ink-jet printing apparatus 1 with a second print head arrangement for applying white ink; an embodiment of the ink-jet printing apparatus with a further print head arrangement for the application of white ink, which is arranged in the rear side 39 of the print head carriage 10 facing area; a cross-section of the print medium with applied white and colored ink dots in the case of a primer of an image, shown greatly enlarged; a detail of an applied on a printing medium image with only partially applied white ink dots; an embodiment of an image applied to a printing medium, wherein white ink dots form a filling area between colored ink dots; a cross section of a transparent printing medium with an applied on a back of the print medium image; a further embodiment of an applied on a transparent printing medium image; a schematic representation of the signal processing or control of the inkjet printing device; a detail of the printhead assembly of the inkjet printing apparatus of Figure 2 with a further embodiment of the printheads. an embodiment of the ink jet printing apparatus with a printhead assembly for applying colorless or achromatic ink; a cross-section of a print medium with an image applied thereto, shown greatly enlarged; a further embodiment of an applied on the print medium with only partially applied, colorless ink; a further embodiment for applying an image on the print medium with complementary ink dots of colorless ink; an embodiment of an applied image on the printing medium with a plurality of ink dots applied one above the other; an embodiment of an applied on a printing medium image with a plurality of ink dots of different layer thickness; a further embodiment for applying images on a transparent printing medium.

By way of introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals or the same component names, wherein the disclosures contained in the entire description can be mutatis mutandis transferred to like parts with the same reference numerals or identical component names. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and are to be transferred to the new situation mutatis mutandis when a change in position. Furthermore, 2/28 Austrian Patent Office AT 506 552 B1 2011-06-15

Represent individual features or combinations of features from the illustrated and described different embodiments of their own, inventive or inventive solutions.

1 and 2 show in a schematically simplified representation of the central elements of an ink jet printing device. 1

Fig. 1 shows the ink jet printing apparatus 1 in a side view. On a printing table 2 is a printing medium 3 to be printed, this being held by transport rollers 4, 5 of a feed device 6 and transport rollers 7 and 8 of a feed device 9. Above the printing table 2 is located above the printing medium 3, a printhead carriage 10 with a plurality of provided for the respective colors printhead assemblies 11, wherein the printhead assemblies 11 each have a color over a plurality of print heads 12. The print head carriage 10 is laterally movable over the printing medium 3 at two transverse guides 13 and 14 in the transverse feed direction 15, 16 (see FIG. 2). Between the transverse feeds of the printhead carriage 10, during which the application of color dots on the printing medium 3 takes place with the aid of the printing heads 12, the printing medium 3 is moved further in the direction of the feed direction 17 with the aid of the feed devices 6 and 9.

2 shows a schematic simplified representation of the inkjet printing device in plan view. The printhead carriage 10 has four printhead assemblies 11 formed from four printheads 12 each. According to the representation according to FIG. 2, the orders of four different colors are thus provided. The individual print heads 12 each have a nozzle row 18 which is aligned in the feed direction 17 and which has in each case a preferably equal number n of up to several hundred individual nozzles 19. Respectively adjacent nozzles 19 of a nozzle row 18 are spaced from each other by a nozzle spacing D 20. Typically, printheads 12 having a nozzle pitch D 20 corresponding to a dot density of 90 dpi are used. With such a print head 12, according to the number n of the nozzles 19, 21 n color dot lines can be simultaneously printed during a single transverse feed over a strip of the width of the row length.

Alternatively, printheads 12 with only one row of nozzles 18 but also printheads 12 can be used with a plurality of nozzle rows 18, wherein the nozzle rows 18 are aligned parallel to each other (described below with reference to FIG. 12). That is, print heads 12 are provided, wherein a number n of a plurality of nozzle lines are formed in each print head 12 and these nozzle lines are formed with at least one nozzle per nozzle line and the nozzle lines are aligned in the cross feed direction 15 of the print head assembly 11 and to each other a nozzle spacing D 20 and nozzle line spacing in the feed direction 17 of the printing medium 3 are arranged offset.

In a further alternative embodiment, the individual printheads 12 of a printhead assembly 11 can be arranged in a systematic manner in the direction of the feed direction 17 by an offset ΔΒ 22. By a corresponding combination of dislocations ΔΒ 22 with different feeds of the printing medium 3 in the feed direction 17, it is simultaneously possible, on the one hand to increase the density of the color dot lines and on the other hand to reduce image errors resulting from systematic errors of the print heads 12. Namely, by arranging the print heads 12 with an offset ΔΒ 22 made up of the sum of an integer multiple of the nozzle pitch D 20 and a fraction thereof, it is possible to print color dot lines interspersed to color dot lines, thus corresponding to the density of the color dot lines to multiply.

As shown in FIG. 2, it is also possible, each two printheads 12 to be arranged so that they correspond in combination to a print head double row length 21.

The orders of the image on the printing medium 3 is effected by a combination of printing operations during the reciprocating movement corresponding to the cross-feed direction 15, 16 and advancing movement of the printing medium 3, to a feed length, the only one Austrian patent office AT 506 552 B1 2011-06-15

Fraction of the row length corresponds. There is thus a " line nested " Printing of the printing medium 3 by 11 only every second, third, fourth, etc. row of final pixels to be applied during a transverse movement of the printhead assemblies 11 is generated and only during a further transverse movement of the printhead assemblies 11 intervening lines of pixels are applied. This printing process is also known under the name interlacing and described in the Austrian patent application A 113/2003 of the same applicant. Thus, with printheads 12 having a nozzle pitch D 20 corresponding to a dot density of, for example, 90 dpi, images can be printed whose resolution is a multiple, that is, a high resolution. for example, 180 dpi, 270 dpi, 360 dpi, and so on.

It is of course also possible to arrange less than four or even more than four printhead assemblies 11 on the printhead carriage. The four printhead assemblies 11 illustrated in FIG. 2 correspond to cyan, magenta, yellow and black as commonly used in four-color printing.

Fig. 3 shows an embodiment of the ink jet printing apparatus 1 having a printhead assembly 31 for printing white ink.

The printheads for printing the other colors, i. Cyan, magenta, yellow and black, and possibly other colors are symbolically represented by a dye-printhead assembly 32, the nozzles 19 are spaced apart by the nozzle spacing D 20 parallel to the feed direction 17 from each other. The color print head assembly 32 further has an effective row length 33 of the nozzles 19 for each of the respective colors. On the other hand, the print head arrangement 31 for printing the white ink has nozzles 34 forming a nozzle row 35. The nozzles 34 of the printhead assembly 31 for printing the white ink are spaced from each other by a nozzle pitch d 36 and are distributed over a row length 37. The nozzle row 35 of the printhead assembly 31 for printing the white ink has a dot density of nozzle lines which is twice the dot density of the nozzles 19 of the color printhead assembly 32, i. The nozzle pitch d 36 is exactly half the nozzle pitch D 20. During a cross feed of the printhead carriage 10, the printhead assembly 31 for printing the white ink can produce an equal number of rows of ink as with the color printhead assembly. Corresponding to the ratio of the nozzle spacing d 36 to the nozzle spacing D 20, the row length 37 of the print head arrangement 31 is only half as large as the row length 33 of the color print head arrangement 32.

The dot density of the color print head assembly 32 could be, for example, 90 dpi, and accordingly, the dot density of the printhead assembly 31 for printing the white ink could have a dot density of 180 dpi. During a cross-feed of the printhead carriage 10, all ink lines of a strip having a width corresponding to the row length 37 are thus swept by white nozzles 34. During the same cross feed of the printhead carriage 10, however, only every other row of ink of all the ink lines to be finally printed is swept by the nozzles 19 of the color printhead assembly 32. The feed length of the print medium 3 corresponds at least to the row length 37 of the print head arrangement 31 and is selected such that the next cross feed in the direction of the cross feed direction 15, 16 which are swept between the first swept ink lines through the nozzles 19 of the color print head assembly 32. In certain applications of printing on the print medium, it may be necessary to first apply white ink at locations of the print medium where the application of a color dot is provided by the color print head assembly 32. This is the case, for example, when an image is printed on a non-white, i. colorful print medium 3 is to be applied and for this purpose first the surface of the image is primed with white ink. Another possibility, however, is that only underneath certain color points, a white dot should first be made by applying a white ink with the aid of the print head arrangement 31, thereby changing the color intensity of the corresponding point.

In such applications, i. the priming of the entire dot or individual color dots of an image before the application of the corresponding color dots, a part of the color print head assembly 32 nozzles 19 can not be used, since first applied the white ink must become. That for the application of color dots, only those nozzles 19 of the color print head assembly 32 are available that are outside the overlap region of the row length 37 of the white ink application print head assembly 31 and the row length 33 of the color print head assembly 32. Therefore, by using print heads whose nozzles 34 are a multiple of the dot density of the nozzles 19 of the color print head array 32 for the print head array 31 for applying the white ink, the proportion of the nozzles 19 of the color print head array 32 not usable in cross feed of the print head carriage 10 can be are reduced, whereby the productivity when printing on the printing medium 3 is increased accordingly. It is advantageous that the jobs of color dots with the color print head assembly 32 can continue to be done by interleaved printing or the method of interlacing. In the described embodiment, the ratio of the row length 33 to the row length 37 and the ratio of the nozzle spacing D 20 to the nozzle spacing d 36 is equal to two. Of course, it is also possible that this ratio is also greater, for example three, four, etc., chosen, whereby the productivity can be further increased. In addition to the aforementioned integer ratios of nozzle spacing D 20 to nozzle spacing d 36, this ratio can also be chosen rationally. As a result, both the application of the colored ink by the color printhead assembly 32 and the application of the white ink by the printhead assembly 31 are accomplished by the above-described method of interleaving ink lines or interlacing. On the other hand, it is also possible that the color printhead assembly 32 has only a single printhead 12 (Figure 2) operated according to the nested printing method, i. an offset ΔΒ 22 of two print heads 12 is thus not absolutely necessary (FIG. 2).

The worst case situation would be if this ratio were equal to one, since this would just double the number of back and forth movements of the printhead carriage 10 required to produce an image on the print medium 3. Although it would be possible in principle, the print head arrangement 31 for printing the white ink and the color print head assembly 32 to be arranged so that no overlap region of the row length 37 with the row length 33 is present. However, it is advantageous and therefore desirable that the arrangement of the color printhead assembly 32 and the printhead assembly 31 for printing the white ink be as compact as possible on the printhead carriage 10. This can namely be avoided that due to slight deformations, for example as a result of thermal expansion, to a change in the positions of the nozzles 19, 34, whereby the image quality would be degraded.

Since the white ink must first be applied by the printhead assembly 31 to prime an image, it is disposed in a portion of the row length 33 or printhead carriage 10 area facing a front side 38 of the printhead carriage 10. As the front side 38, that side of the printhead carriage 10 is referred to, which faces the part of the printing medium 3 approaching that corresponding to the advancing direction 17 of the printing medium. The application of the colored ink dots then takes place subsequent to the orders of the white ink dots through those nozzles 19, which face a back 39 of the printhead carriage 10.

In an alternative application of the inkjet printing apparatus 1, according to this embodiment, but it is also possible during the movement of the printhead carriage 10 corresponding to the cross feed 15 immediately following the orders of white ink and colored ink dots through nozzles 19 from the overlap region between the Row length 37 of the printhead assembly 31 and the row length 33 of the color printhead assembly 32 to produce. Although this requires a correspondingly rapid drying of the white ink, it contributes to a further increase in productivity.

Fig. 4 shows another embodiment of the ink jet printing apparatus 1 having a second print head array 40 for applying white ink. While the printhead assembly 31 is disposed upstream of the white ink application of the color printhead assembly 32 with respect to the cross-feed direction 15, the second printhead assembly 40 is for application of white ink the first printhead assembly 31 opposite, ie the color print head assembly 32 upstream in relation to the transverse feed direction 16 opposite to the first cross feed direction 15. This ensures that both when moving in accordance with the cross-feed direction 15 and the return movement corresponding to the cross-feed direction 16, a priming with white ink with the corresponding, respectively upstream printhead assembly 31 and 40 with a directly succeeding jobs of colored ink dots on the straight primed area of the pressure medium 3 can be done.

Fig. 5 shows an embodiment of the ink jet printing apparatus 1 with another print head arrangement 41 for applying white ink, which is arranged in the rear side 39 of the print head carriage 10 facing region.

With the arrangement of this printhead assembly 41, the execution of another variant of the ink jet printing method described above is possible. The printhead assembly 41 is used as an alternative to the printhead assembly 40 and is preferably provided for applying images on the back of transparent print media 3, as described below in Figures 9 and 10. When such images are intended to be viewed from the front of the print medium 3, it is necessary that the colored ink dots be first applied to the print medium 3 through the nozzles 19 of the color print head assembly 32. According to the embodiment shown in Fig. 5, the two print head arrays 31 and 41, respectively, have a row length 42 whose value is equal to one quarter of the row row length 33 of the color print head arrays 32. For example, at a dot density of 90 dpi of the color print head assembly 32, the printhead assemblies 31,41 have a dot density of the nozzles 34 of 360 dpi. The order of the colored ink dots by the color print head assembly 32 is preferably carried out by those nozzles 19, which lie outside the overlap region of the row length 42 of the printhead assembly 41 with the row length 33 of the color print head assembly 32. In addition, it is also possible that during a cross feed of the printhead carriage 10 in the direction of the cross feed direction 16 by the nozzles 19 from the overlap region of the row length 42 and the row length 33 first colored ink dots are applied to the print medium 3 and immediately thereafter by the following Printhead assembly 41 of the order of the white ink dots by overlapping the previously applied color ink dots is done. This procedure is of course only possible with a movement of the print head carriage in the transverse feed direction 16.

Analogous to the arrangement of a second printhead assembly 40 opposite to the first printhead assembly 31 for applying white ink, as described in FIG. 4, it is also possible to have a further printhead assembly opposite the printhead assembly 41, for applying white ink (not shown). By these measures, the productivity and the speed of printing with the ink jet printing apparatus 1 can also be raised.

The application of ink dots of white ink and colored ink on the printing medium 3 will be explained in more detail with reference to the following FIGS. 6 to 10.

Fig. 6 shows a cross section of the printing medium 3 with white and colored ink dots applied thereto in the case of a primer of an image, shown greatly enlarged.

The primer by white ink is formed by closely juxtaposed, white ink dots 51. On this primer then colored ink dots 52 are applied. If the printing medium 3 is a non-white material, it is possible by the primer with the white ink dots 51 to achieve a color-correct - or at least color-enhanced - representation of a colored image. FIG. 7 shows a detail of an image applied to a printing medium 3 with white ink dots 51 applied only in certain areas.

In this case, for example, of three colored ink dots 52 one underlaid by a white ink dot 51, whereby a whitening and thus a reduction in the perceived when viewing color intensity of the colored ink dots 52 is achieved.

FIG. 8 shows an exemplary embodiment of an image applied to a printing medium, with white ink dots 51 forming a filling area between colored ink dots 52.

The application of an image on the printing medium 3 by the ink jet printing apparatus 1 is performed on the basis of digital image information or image data which are present in electronic form in a corresponding file. The application of the white ink dots 51 on the print medium 3 may be the result of two different procedures. Either the image information corresponding to the white ink dots 51 is already present in the corresponding image information file and is stored as such, or there is an image information file containing only image data on the colored ink dots 52. In the latter case, by corresponding software control prior to printing the image with the ink jet printing apparatus 1, it is possible to supplement the blank areas between the colored ink dots 52 with white ink dot image information 51, thereby filling the empty areas with white color.

FIG. 9 shows a cross-section of a transparent printing medium 3 with an image applied on a rear side 53 of the printing medium 3.

The situation now corresponds to the reverse case as described in Fig. 6 for the primer on a non-transparent printing medium 3. In this case, the colored ink dots 52 are first applied to the printing medium 3 and then applied over the entire area of the image at each point white ink dots 51 both on the colored ink dots 52, as well as on the intermediate areas.

FIG. 10 shows a further exemplary embodiment of an image 53 applied to a transparent printing medium 3.

In this case, areas lying between colored ink dots 52 are filled by white ink dots 51. Thus, this situation corresponds to the case of the embodiment for a non-transparent printing medium 3, as described in Fig. 8.

FIG. 11 shows a schematic representation of the signal processing or the control for operating the inkjet printing device 1.

For controlling the inkjet printing apparatus 1, it is connected to a controller 61, which is usually constituted by a personal computer. Based on digital image data 62 inputted to the controller 61, this controller 61 calculates the required control signals of the respective constituent components of the inkjet printing apparatus 1. For this, the controller 61 is provided with a carriage controller 63 for moving the carriage 10 in the cross-feed direction 15, 16, with a feed control 64 for controlling the feed devices 6, 9 for moving the print medium 3 in the feed direction 17 and a nozzle control 65 for driving the nozzles 19, 34 for ejecting white or colored inks on the printing medium 3 is connected (Fig 1 to 5).

The image data 62 is usually present as digital image information and can be stored in different electronic file formats. Therefore, before the image information data can be passed to the nozzle controller 65, it may be necessary to convert the digital image information data into data for the individual colors cyan, magenta, yellow and black.

In a first printing mode for the operation of the ink-jet printing apparatus 1, the image data 62 already contains information for printing white color or data, at which points of the image white ink dots 51 (see FIGS. 6 to 10) are to be applied. Apart from the optionally required conversion of the image information data and splitting of the signals for the individual colored ink dots 52 (cyan, magenta, yellow and black and optionally further colors) and white ink dots 51, the color information can be processed directly.

In a second print mode, no information about the jobs of white ink is contained in the image data 62. That that in the corresponding image information data only those parts of the image at which a colored ink dot 52 are to be applied are defined. In this second printing mode, the transparent areas lying between the colored ink dots 52 are now filled with white ink. For this purpose, a calculation of the image information data for the white ink dots 51 takes place in the control device 61 before the corresponding control signals can be forwarded to the nozzle controller 50. In this way, the visual impression of a white background medium is created. The performance of this filling of transparent areas according to this printing mode can be selectively turned on or off by a corresponding input to the controller 61.

In a third printing mode of the inkjet printing apparatus 1, the entire image is primed with white paint. That Before the color image is printed, the print medium 3 is primed white by applying white ink dots 51 over the entire area of the image. Thus, the original color of the printing medium 3 is covered and the color image can be printed on a white surface. For printing media 3, which are made of a non-white material, the advantage of a color-accurate representation of the colored image is achieved. This printing mode is applicable to both image data 62 in which image data information about white color is included and image data 62 in which such information about white color is not included.

In a fourth printing mode, the order of application of white ink dots 51 and colored ink dots 52 is reversed. This printing mode is intended for the application of colored images on the back 53 of a transparent print medium 3 (Figs. 9, 10) can also be adjusted by a corresponding input to the controller 61.

Although it has always been stated in the foregoing description that the further printhead assemblies 31, 40, 41 are for the applications of white ink and the production of white ink dots 51, respectively, it is also possible to use this printhead instead of white ink. Arrangements 31,40, 41 operate with any other color. Thus, applications are conceivable in which, for example, a primer of an image with a color other than white ink may be intended.

In the ink-jet printing apparatus 1 or the method for printing images, it is preferably provided that inks of different colors have an approximately equal drying speed.

FIG. 12 shows a section of the print head arrangement of the ink jet printing apparatus 1 according to FIG. 2 with a further embodiment variant of the print heads 12.

According to this embodiment, the print heads 12 each have two rows of nozzles 18. Within each of the rows of nozzles 18, which preferably extend parallel to the feed direction 17 of the pressure medium 3, the individual nozzles 19 are each arranged at a distance from one another about the nozzle spacing D 20. In each case, with respect to the cross-feed direction 15, 16, adjacent nozzles 19 thus form nozzle rows corresponding to the ink dots 51 produced on the printing medium 3 (FIGS. 6 to 10). Of course, it is also possible to use printheads 12 with more than two rows of nozzles 18. This has the advantage that a higher performance of the ink jet printing apparatus 1 can be achieved. At the same time it is also possible, during a single movement of the printhead assembly 11 in the cross-feed direction 15,16 at one and the same position of the image on the print media 3 two or more Apply ink dots 51,52 on top of each other.

Fig. 13 shows an embodiment of the ink-jet printing apparatus 1 having a printhead assembly 71 for applying colorless or achromatic ink, respectively.

The printhead or the printhead assembly 71 for applying the colorless ink, has a nozzle row 72 with nozzles 73, which are spaced from each other with respect to the feed direction 17 of the print medium 3 by the nozzle spacing d 36. The printhead assembly 71 is disposed in the area facing the back 39 of the printhead carriage 10, with the row length 33 of the color printhead assembly 32 and a row length 74 of the printhead assembly 71 at least partially overlapping each other. With the printheads and the printhead assembly 71 for applying achromatic ink, it is possible to have an image formed by the color printhead assembly 32 with colorless, i. to cover transparent ink and thus achieve different visual effects. Thus, additional application of the colorless ink on the entire image can achieve a uniform gloss. Disturbing tilting effects which appear as banding can thus be reduced. On the other hand, individual lettering or graphic elements can be deliberately coated with colorless ink, whereby they are highlighted more clearly in the image.

As well as the nozzles 34 of the printhead assembly 31 for applying white ink, the nozzles 73 of the printhead assembly 71 for applying colorless ink have an increased dot density - with the nozzle pitch d 36 - on. The application of an image on the cover medium 3 takes place in that first the colored ink dots 52 (FIGS. 6 to 8) are applied through the nozzles 19 of the color print head arrangement 32 and subsequently after a corresponding feed movement of the print medium 3 in the feed direction 17 via the colored ink dots 52 the colorless or transparent ink is applied.

The print heads or printhead assembly 71 for the colorless ink are at the paper exit, i. are arranged in the rear side 39 of the print head carriage 10 facing region and have, for example, a dot density of 180 dpi. Due to the lower resolution of the printheads of the color printhead assembly 32 (eg, 90 dpi) over the desired image resolution of, for example, 360 dpi, the complete color image results from a combination of printing operations by moving the printhead carriage in the cross-feed direction 16, 17 and paper movements of the print medium 3 in feed direction 17. For the " overprint " function. For example, part of the nozzles 19 of the color print head assembly 32 can not be used because the colorless ink must be applied last. By using the printing heads or printhead assembly 71 having the higher dot density (180 dpi), this portion, which is in an overlapping area 75, is reduced and the productivity is increased. Here, the number of nozzles 73 of the printhead assembly 71 is preferably equal to the number of nozzles 19 of the color printhead assembly 32, so that the row length 74 is shorter according to the dot density ratio of the printhead assembly 71 to the dot density of the color printhead assembly 32. The deposition of the colored ink dots 52 with the printheads of the printhead assembly 32 is accomplished by interleaved printing, i. alternating printing of lines and inter-lines, according to the method of interlacing.

Like the white ink printhead assembly 31, the use of the printhead assembly 71 for applying colorless ink is preferably optional, and when used by the controller 61 (Figure 11), only the nozzles 19 of the color printhead assembly 32 become those Nozzles 19 are actuated, which lie outside the overlapping area 75 between the row length 33 of the color print head arrangement 32 and the row length 74 of the print head arrangement 71. Only after a corresponding advancing movement of the printing medium 3 in the feed direction 17 does the initially applied colored ink dots 52 with the colorless ink pass through the printhead assembly 71. Another possible mode of operation of the inkjet printing apparatus 1 is that at locations of an image where no colored pixels are provided in the image data 62, color ink is applied colorlessly. In this mode of operation of the ink-jet printing apparatus 1, it is of course possible that those nozzles 19 of the printing heads of the color printing head assembly 32 which are located in the overlapping area 75 are also used. That that during the same transverse movement of the printhead carriage 10 in the transverse direction 15, 16 both nozzles 73 of the printhead assembly 71 and nozzles 19 of the color printhead assembly 30, which lie in the overlapping region 75, can be controlled.

Various operating modes of the ink-jet printing apparatus with the additional printhead assembly 71 for applying colorless ink or for producing a print image from a printing medium 3 and an image applied thereto will be described with reference to the following Figs.

Fig. 14 shows a cross section of a printing medium 3 with an applied image, shown greatly enlarged. The image, as determined by the image data 52 (Figure 11), is first created by applying the colored ink dots 52 to the print medium. Colorless ink dots 76, which form a layer 77, are then applied over the colored ink dots 52. The colorless ink dots 76 are formed, for example, by applying a colorless paint. By this over the image of the colored ink dots 52 applied layer 77 a uniform gloss is achieved. The layer 77 in particular reduces tilting effects. Due to the printing process, which is a sequence of movements of the printhead carriage 10 in the cross-feed direction 15, 16 with simultaneous application of ink, formation of a band-shaped structure may occur, which becomes apparent when viewing the image from an oblique direction. This effect is largely compensated or disappeared by the layer 77 of colorless ink or colorless paint.

FIG. 15 shows a further exemplary embodiment of an image applied to the printing medium 3 with colorless ink additionally applied in regions only. Colorless ink in the form of the ink dots 76 is superimposed on the image from the colored ink dots 52 at selected locations. In this way, located at the appropriate locations graphics or font elements are clearly highlighted by the increased gloss of the colorless ink dots 76. Although the color remains unchanged in the respective places, the colorless ink applied in some areas produces an additional visual effect structuring the image.

Fig. 16 shows a further embodiment for applying an image on the printing medium 3 with complementary ink dots 76 of colorless ink. In the case of digital images in which the image data 62 (FIG. 11) contains locations where no application of colored ink dots 52 is made, colorless ink or colorless paint is applied to the corresponding vacant places in this procedure, thereby passing spaces colorless ink dots 76 added. This complementary application of colorless ink dots 76 is an optional operation of the ink jet printing apparatus 1 and requires that control means 61 (FIG. 11) calculate control signals for the additional ink dots 76 not included in the image data 62. With these additionally calculated control signals, the printhead assembly 71 (Fig. 13) is driven to deposit the colorless inks. By this complementary order of colorless ink dots 76 can also be a balance of the surface finish of the print medium 3 and thus a more uniform gloss of the image can be achieved.

FIG. 17 shows an exemplary embodiment of an image applied to the printing medium 3 with a plurality of ink dots 51, 52, 76 applied one above the other.

At locations of individual pixels on the printing medium, a second ink dot 79 of a second color is applied over a first ink dot 78 of a first color, whereby a corresponding mixed color can be produced. In addition, of course, also consisting of only a single color ink dot 52 pixels may be applied. Above the ink dot 79, as well as above the ink dots 52, ink dots 76 are finally applied as a colorless ink. It is envisaged that the ink dots 10, 28, 51, 52, 53, 76, 78, and 79 at different points in the image will complement one another to an equal total thickness 80.

FIG. 18 shows an exemplary embodiment of an image applied to a printing medium 3 with a plurality of ink dots of different layer thickness.

At the location of a pixel, the first ink dot 78 has a first thickness 81 and the second ink dot 79 above has a second thickness 82. The different thicknesses 81, 82 of the ink dots 78, 79 are achieved by applying different volumes of ink. As a result, the mixed colors produced can additionally be varied. It is further provided that the ink dots 51, 52, 76, 78 and 79 complement each other to the same total thickness 80 at different points of the image.

FIG. 19 shows a further exemplary embodiment for the application of images on a transparent printing medium 3.

On one side or on the back 53 of the transparent printing medium 3, there is first a first image 83 to be viewed through the printing medium 3, which image is formed from colored ink dots 52 and from white or colorless ink dots 51, 76 can. Over this first image 83, a layer 84, which consists only of white ink dots 51, is then applied. Finally, a second image 85, which may also consist of colored ink dots 52, as well as white or colorless ink dots 51, 76, is produced on this white layer 84. In this way, it is possible to produce a print image with two images 83, 85 visible from different directions or from different sides of the print medium 3 in a single printing operation. It is also advantageous that picture elements of the respectively remote image, which are to be brought to coincide on the opposite side with corresponding other picture elements, can be positioned very precisely. This can be advantageous to achieve effects, such as those found in security features of banknotes, such as watermarks, use. The extent to which the image or picture elements of the respective side facing away from one another on the viewed side of the print medium 3 can be varied or determined by selecting the thickness of the white layer 84.

The embodiments show possible embodiments of the inkjet printing device (1), it being noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but also various combinations of the individual embodiments are possible with each other and this variation possibility due to Teaching for technical action by objective invention in the skill of those working in this technical field is the expert. There are therefore also all possible embodiments, which are possible by combinations of individual details of the illustrated and described embodiment, the scope of protection.

For the sake of order, it should finally be pointed out that, for a better understanding of the structure of the inkjet printing device (1), these or their components have been shown partially unevenly and / or enlarged and / or reduced in size.

The task underlying the independent inventive solutions can be taken from the description.

Above all, the individual in FIGS. 3; 4; 5; 6; 7; 8th; 9; 10; 11; 12; 13; 14; 15; 16; 17; FIGS. 18 and 19 form the subject of independent solutions according to the invention. The relevant objects and solutions according to the invention can be found in the detailed descriptions of these figures. 11/28

Austrian Patent Office AT 506 552 B1 2011-06-15

REFERENCE MARKET DESCRIPTION 1 Ink jet printing device 2 Printing table 3 Printing medium 4 Transport roller 5 Transport roller 6 Feed device 7 Transport roller 8 Transport roller 9 Feed device 10 Printhead carriage 11 Printhead assembly 12 Printhead 13 Transverse guide 14 Transverse guide 15 Cross feed direction 16 Cross feed direction 17 Feed direction 18 Nozzle row 19 Nozzle

20 nozzle line pitch D 21 row length 22 offset ΔΒ 31 printhead assembly 32 color printhead assembly 33 row length 34 nozzle 35 nozzle row 36 nozzle row spacing 37 row length 38 front 39 back 40 printhead assembly 41 printhead assembly 42 row length 51 ink dot 52 ink dot 53 back 61 Controller 62 image data 63 carriage control 64 feed control 65 nozzle control 71 printhead assembly 72 nozzle row 73 nozzle 74 row length 75 coverage area 76 ink dot 77 layer 78 ink dot 79 ink dot 80 total thickness 81 thickness 82 thickness 83 image 84 layer 85 image 12/28

Claims (9)

Austrian patent office AT 506 552 B1 2011-06-15 Patent claims Printed image consisting of a printing medium (3) and a multicolored image applied thereto, the image being formed from individual colored ink dots (52, 78, 79) and the ink dots (52, 78, 79) having an ink jet printing device (1), the image containing additional ink dots (51, 76) of white ink and the printing medium (3) being formed of a transparent material, characterized in that on one side (53) a first image (83) is applied to the printing medium (3) and a layer (84) which consists only of white ink dots (51) is applied over the first image (83) and a second image (84) is applied to this layer (84). 85) is applied. Second Third 4th 5th 6th 7th 8. printed image according to claim 1, characterized in that only partially at selected locations of the image above the image from the colored ink dots (52) colorless ink dots (76) are present. Printed image according to Claim 1 or 2, characterized in that the ink dots (51, 52, 53, 76, 78, 79) applied to one another at different, adjacent points in the image complete one another to an equal overall thickness (80). Printed image consisting of a printing medium (3) and a multicolored image applied thereto, said image being formed of individual colored ink dots (52, 78, 79) and said ink dots (52, 78, 79) being formed with an ink jet printing device (1) in which the image contains additional ink dots (51, 76) of white ink and the print medium (3) is formed of a transparent material and wherein first the colored ink dots (52) are applied and on the entire area of the image the additional ink dots ( 51), characterized in that on the entire area of the image on which the additional ink dots (51) are applied, colored ink dots (52) are applied. Printed image according to claim 4, characterized in that two or more ink dots (51, 52, 76) are present one above the other at one and the same location of the image on the printing medium (3). Printed image according to claim 4 or 5, characterized in that color-selective ink dots (76) are present only in certain areas of the image above the image from the colored ink dots (52). Printed image according to one of Claims 4 to 6, characterized in that the ink dots (51, 52, 53, 76, 78, 79) applied to one another at different adjacent locations of the image complement each other to an equal overall thickness (80). Method for printing multicolored images by applying ink dots (52, 78, 79) on a printing medium (3) to an ink jet printing device (1) having a printing table (2) for moving a printing medium (3) in a feed direction (17) and a printhead carriage (10) arranged above the printing table (2) for moving at least one color printhead arrangement (11, 32) in a transverse feed direction (15, 16), wherein a color printhead arrangement (11 , 32) is formed with at least one print head (12), and wherein each print head (12) at least one in the feed direction (17) of the print medium (3) aligned nozzle row (18) and the color print head assembly (11, 32) a effective row length (33), control signals for the ink dots (52, 78, 79) being generated by a control device (61) of digital image data (62) and nozzles (19) of the at least one nozzle row (18) of the color print head Arrangement (11, 32) in which the controller (61) calculates control signals for additional ink dots (51, 76) with a color not contained in the image data (62), and white ink for the additional ink dots (51) is used and in a print mode for the application of colored images on a back side (53) of a transparent printing medium 13/28 Austrian Patent Office AT 506 552 B1 2011-06-15 (3) first the colored ink dots (52) are applied and then on the entire area of the image, the additional ink dots (51) are applied, characterized in that subsequently applied to the entire area of the image on which the additional ink dots (51) are applied, the colored ink dots (52). 9. The method according to claim 8, characterized in that with the control signals for the white ink dots (51) a further print head arrangement (31, 40, 41, 71) arranged in at least one nozzle row (35, 72) nozzles (34, 73) and an effective row length (37, 42, 74), the row length (33) of the color print head arrangement (11, 32) and the row length (37, 42, 74) of the further print head arrangement (31 , 40, 41, 71) at least partially overlap each other, and of the nozzles (19) of the nozzle row (18) of the color print head arrangement (11, 32) only those nozzles (19) are actuated which are outside the coverage area between the row length (33) of the color print head arrangement (11, 32) and the row length (37, 42, 74) of the further print head arrangement (31, 40, 41, 71) which is driven for the application of white ink. 14 sheets of drawings 14/28