METHOD FOR PRODUCING A RELIEF-LIKE PRINTED IMAGE ON CONTAINERS

Abstract

A method for producing a relief-like printed image on containers is described in which print layers are layered onto one another by way of jet application of a printing paint, an ink, a varnish, or an adhesive from at least one print head onto a container, thereby producing elevated regions of the printed image. Due to the fact that the print layers are each applied in full tone printing, optical and haptic effects can be created on container surfaces with low equipment complexity and a minimal number of printing steps.

Claims

1. A method for producing a relief-like printed image on containers, comprising: printing a plurality of print layers onto a print region of a container using an inkjet printer; wherein the plurality of print layers are each applied by full tone printing; wherein the plurality of print layers are layered onto one another by way of jet application of a printing paint, an ink, a varnish, or an adhesive from at least one print head of the inkjet printer onto the print region of the container; and wherein the plurality of print layers produce elevated regions of said relief-like printed image.

2. The method of claim 1, wherein a same droplet size is specified for at least two print layers of said plurality of print layers.

3. The method of claim 1, wherein said relief-like printed image is produced with a first layer build-up in which at least two print layers of said plurality of print layers have a congruent contour.

4. The method of claim 3, wherein said relief-like printed image is produced with a second layer build-up in which a contour of said plurality of print layers disposed on top of one another becomes successively smaller in a step-like manner.

5. The method of claim 4, wherein said plurality of print layers are applied one after the other in such a way that a spacing between one or more contour boundaries are each 1 to 20 mm.

6. The method of claim 1, wherein at least one of said plurality of print layers is built up successively from several identical individual layers.

7. The method of claim 1, wherein said plurality of print layers are produced by way of one or more of a binary print head of the inkjet printer or a half tone print head of the inkjet printer set to full tone printing.

8. The method of claim 1, wherein each of the plurality of print layers is produced with at least one separately assigned print head of the inkjet printer.

9. The method of claim 1, wherein said plurality of print layers are cured by way of ultra-violet (UV) light from at least one light emitting diode (LED).

10. The method of claim 1, wherein said plurality of print layers are applied to a planar base print present on said container.

11. The method of claim 10, wherein said plurality of print layers create one or more of a color contrast or a thickness contrast to said planar base print.

12. The method of claim 1, wherein said plurality of print layers are applied to a surface structure designed in a relief-like manner on said container.

13. The method of claim 1, wherein said elevated regions are produced by overlaying said plurality of print layers to a total layer thickness of 50 μm to 5 mm.

14. The method of claim 1, wherein said relief-like printed image is applied by way of at least one print head of the inkjet printer during a continuous transport of said container.

15. A container for receiving liquid end products, the container comprising relief-like printed image that was applied using a method comprising: printing a plurality of print layers onto a print region of the container using an inkjet printer, wherein the plurality of print layers each having been applied by full tone printing; the plurality of print layers having been layered onto one another by way of jet application of a printing paint, an ink, a varnish, or an adhesive from at least one print head of the inkjet printer onto the print region of the container; wherein the plurality of print layers produce elevated regions of said relief-like printed image.

16. The method of claim 1, wherein a same droplet size is specified for all print layers of the plurality of print layers.

17. The method of claim 1, wherein said printed image is produced with a first layer build-up in which all print layers of said plurality of print layers have a congruent contour.

18. The method of claim 4, wherein said plurality of print layers are applied one after the other in such a way that a spacing between one or more contour boundaries are each 1 to 50 pixels.

19. The method of claim 1, wherein said elevated regions are produced by overlaying said plurality of print layers to a total layer thickness of 0.1 to 2 mm.

20. The method of claim 1, wherein said printed image is produced with a first layer build-up in which all of said plurality of print layers have a congruent contour.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] Some embodiments of the present disclosure are shown by way of the drawings.

[0025] FIG. 1 is a layer structure according to a first embodiment;

[0026] FIG. 2 is a layer structure according to a second embodiment;

[0027] FIG. 3 is a layer structure according to a third embodiment.

DETAILED DESCRIPTION

[0028] As can be seen in FIG. 1, a relief-like printed image 1 is produced on a container 2 which is, for example, a bottle, a can, a cup, or a tube. Only the substrate to be printed on is shown as a representation of container 2. This can be the surface of a planar or curved wall section of container 2 as well as a base print 3 previously applied thereto, as shown by way of example.

[0029] Relief-like printed image 1 comprises at least two print layers 4-7 which are layered onto one another by successive jet application of a printing paint 8, an ink, a varnish or an adhesive according to the principle of an inkjet printing method from at least one (only schematically indicated) print head 9. Hereinafter, only one printing ink 8 shall be spoken of, representative of the above materials.

[0030] This produces elevated regions 1a of relief-like printed image 1, in contrast to regions 1b of relief-like printed image 1 that are not printed in a relief-like manner, at which only the substrate, i.e., for example, base print 3, then appears optically and/or haptically.

[0031] In some embodiments, print layers 4-7 are each applied in full tone printing. For the sake of simplicity, this is also referred to as black and white printing, where any other color can be printed instead of black. The color white designates the unprinted background (derived from white paper background) and therefore the regions of printed image 1 that are omitted in the respective printing step and not provided with a print layer 4-7. In contrast to half tone printing, full tone/black and white printing does not have any grey scale value.

[0032] Relief-like printed image 1 can be located in an overlapping interlocked printed image region, a so-called stitching region. The associated electronic print template can be created using the algorithms that are customary for such interlockings with a different stitching region.

[0033] In FIG. 1, a print head 9 for producing one of print layers 4-7 of relief-like printed image 1 is indicated schematically by way of example. Print head 9 can be a binary print head solely for full tone printing or a print head for half tone printing, which is basically designed for the creation/printing of gray scales.

[0034] Due to its design, binary print head 9 prints throughout, i.e. over the entire printing period, with a uniform droplet size. This can be viewed as an alternative definition for full tone printing/black and white printing for the principle of inkjet printing.

[0035] Print heads 9 for half tone printing, i.e. those that could print gray scales, are operated in the inkjet printing method described with a droplet size that is set uniformly for the entire printed image (unchanged in terms of location and time), for example, with the maximum droplet size.

[0036] The droplet size of printing ink 8 can be specified in a manner known in principle by the print data (print template) or by independent control of the respective print head 9, for example, by a voltage signal (waveform) responsible for this. The gray scale function of such print heads 9 is therefore deliberately eliminated. They are thus restricted to full tone print/black and white print.

[0037] In principle, such a procedure would also be conceivable for other printing methods for containers, for example, for screen printing using UV-curing inks or other industrially printable materials. In analogy to the uniform droplet size, a uniform screen size could be used in screen printing.

[0038] One and the same printing ink 8 may be used for individual print layers 4-7. However, different printing inks 8 would basically also be conceivable.

[0039] Layer build-up 11-13 of relief-like printed image 1 is possible in different ways as follows.

[0040] FIG. 1 shows layer build-up 11 in a first variant. According thereto, at least two, in particular at least three, print layers 4-7 can be printed one on top of the other with the same contour and position in the printed image, i.e. with identical surface dimensions and congruently. A larger number of print layers 4-7 arranged in this manner is generally possible.

[0041] The properties of printing ink 8, such as its viscosity and/or temperature, the properties of the substrate, such as its surface property, and the dimensions of elevated regions 1a, i.e. their surface content and relative height, can be taken into account in a method of an embodiment of the present disclosure.

[0042] FIGS. 2 and 3 show schematically layer build-up 12, 13 according to a second and a third variant. According thereto, print layers 4-7 can be layered on top of one another having contours/area dimensions that become smaller in steps starting from the base of elevated region 1a and moving upwards.

[0043] Step widths 14 between respective adjacent contour boundaries 15 of print layers 4-7 of, for example, several millimeters or centimeters are possible in order to visually and/or haptically differentiate decorative elements or writing fields from one another. Such writing fields of different sizes for individual print layers 4-7 are indicated by way of example in the lower region of FIG. 2 in a simplified top view.

[0044] Smaller step widths 14, for example, in the range of 1-50 pixels (printed image points) are suitable for optically and/or haptically emphasizing lines, symbols, and characters. Lines of different widths used for this purpose in the sense of an optionally stepped bold print are indicated by way of example in the lower region of FIG. 3 for individual print layers 4-7 in a simplified top view.

[0045] In addition, the inks usually run after application. With the step-wise application with layer dimensions that become smaller towards the top, see above, the individual elements of the printed image can be kept as fine as possible and, for example, easily legible. Undesirable bold print and/or letters or similar elements of the printed image merging can then be avoided.

[0046] FIG. 2 also shows schematically that individual or all print layers 4-7 can be built up from at least two identical individual layers 4a-4c. In this case, both print layers 4-7 as well as individual layers 4a-4c are each printed with a uniform droplet size.

[0047] In principle, any combination of print layers 4-7 and these individual layers 4a-4c, which may also be built up differently, are conceivable. Basically, such combinations are only limited in terms of the device, for example, if each print layer 4-7 or individual layer 4a-4c is assigned a separate print head 9.

[0048] Any combinations of first to third layer build-up 11-13 are also possible, for example, partially congruent contour boundaries 15 (FIG. 2, on the right) and partially stepped contour boundaries 15 (FIG. 2, on the left).

[0049] Relief-like printed image 1 can be printed directly onto the respective substrate (container wall) with or without pre-coating/pre-treatment, as well as onto a base print 3 previously printed there. In principle, a layer build-up 11-13 with print layers 4-7 in one or more colors is possible there. With relief-like printed image 1, particularly interesting optical effects and designs can be created on colored base prints 3. In the case of pre-treatment, for example, a thin silane layer could optionally be applied.

[0050] The position and contour of elevated regions 1a in relief-like printed image 1, i.e. the locations on the substrate provided for the full tone application of color, are specified with the aid of a computer by the print data and the substrate data. Print data for stepped contours/area dimensions of individual print layers 4-7 can either be adapted in an automated manner or by manual input using image processing programs.

[0051] White, black, chromatic colors (typically CMYK and special user-specific colors, for example, according to the Pantone scale), transparent varnish, and/or functional (for example conductive, magnetic, fluorescent or phosphorescent) inks can be used as printing inks 8.

[0052] The inks may be UV-curing printing inks 8.

[0053] Typical printing speeds are, for example, 100 to 1200 mm/s.

[0054] Print layers 4-7 can be cured intermediately, although this is not typically necessary after each individual layer application. Intermediate curing after every second or third printing step (print layer 4-7) has proven to be successful with UV-curing printing inks 8.

[0055] The number and type of curing steps depend on printing ink 8 respectively used and can be adapted thereto in a manner that is known in principle.

[0056] A method described according to some embodiments of the present disclosure can be used, for example, as follows:

[0057] Containers 2 to be printed on may be transported on a container carousel or other transport device through the working region of stationary print heads 9. The containers are thus positioned in a manner known in principle for direct-to-shape printing or a digital inkjet printing method for three-dimensional objects, also referred to as direct printing when used on containers.

[0058] Printing ink 8 is ejected at each of print heads 9 on the basis of an electronic print template such that a respective print layer 4-7 is produced in full tone printing in the wall regions of containers 2 intended for the creation of elevated regions 1a. Individual print layers 4-7 are layered onto one another in accordance with at least one of layer build-up 11-13 described above during the continuous onward transport of containers 2.

[0059] If necessary, individual or groups of print layers 4-7 are intermediately cured by way of UV irradiation and finally cured after layers 11-13 have been completely built up to form elevated region 1a.

[0060] Full tone printing is implemented on the device side either by using print heads 9 designed exclusively for this purpose or by appropriate control-induced restrictions of print heads 9 designed for half tone printing.

[0061] A method, according to some embodiments of the present disclosure, has been described above for digital ink jet printing (direct printing) of relief-like printed image 1 onto a container 2. However, it is also conceivable to produce relief-like printed image 1 in the variants described on planar substrates, for example, on labels, flat glass, films, or sheets of metal, which can be, for example, components of cans (neither shown). For example, labels printed onto in this manner are then applied to containers 2 in a manner that is known in principle.

[0062] It is to be understood that the above description is intended to be illustrative, and not restrictive. Other embodiments will be apparent upon reading and understanding the above description. Although embodiments of the present disclosure have been described with reference to specific example embodiments, it will be recognized that the invention is not limited to the embodiments described, but can be practiced with modification and alteration within the spirit and scope of the appended claims. Accordingly, the specification and drawings are to be regarded in an illustrative sense rather than a restrictive sense. The scope of the invention should, therefore, be determined with reference to the appended claims, along with the full scope of equivalents to which such claims are entitled.