1. Field of the Invention
This invention relates to a data carrier printed by intaglio printing, to the production thereof and to a printing plate suitable therefor and the method for producing said plate.
2. Description of Related Art
Security documents and documents of value, for example bank notes, shares, bonds, certificates, vouchers and the like, which must meet high standards with respect to forgery-proofness, are frequently printed by intaglio printing. This printing process provides a characteristic printed image that is easily recognizable to laymen and cannot be imitated with other common printing processes.
In intaglio printing, surfaces are usually rendered by a line screen, the line distance and width determining the color tone or gray value of the surface. Printed lines are usually a few tenths of a millimeter wide and separated by unprinted areas. During the printing operation, only the depressions formed in the printing plate surface by means of etching or engraving carry inks while the actual printing plate surface is ink-fi-ee. This is obtained by wiping the printing plate surface free of excess ink after inking with a wiping cylinder or doctor blade.
During the actual printing operation the data carrier to be printed is pressed against the printing plate with high pressure by a pressure cylinder with an elastic surface. The at least partly compressible data carrier, usually made of paper, is thereby pressed into the ink-filled depressions of the printing plate and thus comes in contact with the ink. When the data carrier is detached from the printing plate, the latter pulls the ink out of the depressions. A printed image produced in this way has spaced-apart printed lines or areas that are covered with an ink layer of varying thickness in accordance with the depth of the printing plate engraving.
The high bearing pressure additionally causes the substrate material to undergo an embossing that is also noticeable on the back of the data carrier. If the engravings in the printing plate are deep enough, a data carrier printed by intaglio printing acquires through embossing and inking a printed image that forms a relief perceptible with the sense of touch. In the unprinted surface areas of the data carrier not carrying ink, the high pressures during the printing operation act like a calendering, which leads to compression and smoothing of the data carrier surface. These features make prints produced by intaglio printing distinguishable anytime from prints produced by other techniques.
The problem of the present invention is to produce more complex printed images by intaglio printing with elevated protection from forgery.
This problem is solved by the independent claims. Developments are the object of the subclaims.
The inventive data carrier is characterized by a surface printed by intaglio printing and at least one partial surface completely enclosed by said surface, the surface and partial surface being printed with the same ink but having different ink
The printed surface and partial surface enclosed thereby on all sides are printed with an ink layer of varying thickness. Since usual intaglio inks are transparent and translucent to a certain degree, suitable layer thicknesses and an expedient choice of background color will result in color or gray tones of varying brightness and color saturation. If there is a sufficient difference of the ink layer thicknesses of adjacent surfaces, readily visible contrasts will result for the human eye without further aids. Normal lighting conditions and a normal viewing distance are assumed here.
The printed surface and partial surface enclosed thereby are in exact register if their position relative to each other is predetermined and adhered to exactly and reproducibly without the slightest deviations. If two printed images produced by successive, mutually independent printing operations are superimposed, this exactly registered positioning of the two surfaces is not possible.
In a preferred embodiment, the printed surface and partial surface are distinguishable not only visually by reason of their contrast but also with the sense of touch, i.e. tactilely. The surface relief produced by the pressure is composed of an embossing of the substrate material and the applied ink layer. The total height of the relief is based on the normal, i.e. unprinted and unembossed, data carrier surface and is at least 25 microns for feelable areas. Relief heights of more than 40 microns are especially preferred since surface elements with such relief heights are especially well perceptible tactilely.
Inventive data carriers have elevated forgery-proofness since the characteristic intaglio printed image makes them unreproducible by common printing processes. If they also have tactilely perceptible surface elements, this provides additional effective protection against imitation by color photocopying or scanning of the data carriers.
In an especially preferred embodiment, the printed surface of the data carrier additionally encloses unprinted partial areas that can in turn have the form of one or different signs of any kind. This permits a third piece of information to be rendered in negative representation, i.e. by unprinted areas in printed surroundings, in addition to the two pieces of information rendered in positive representation, i.e. with inking, in the same surface.
According to a further embodiment, the printed surface can also enclose a plurality of partial surfaces that either all have the same or different ink layer thicknesses. It is likewise possible to provide unprinted areas in the partial areas.
The form of the partial surfaces can be selected at will according to the invention, for example in the form of geometrical patterns, logos or alphanumeric characters.
The various partial surfaces, unprinted areas and the contour form of the printed surface can also be semantically related. For example, it is possible to execute the printed surface in the form of an alphanumeric character and execute the partial surfaces and any unprinted areas present in the printed surface and/or partial surfaces in the form of the same sign. If a plurality of printed surfaces are provided on the data carrier that together represent a readable piece of information, such as a multidigit number or a word, the partial areas and/or unprinted areas within a printed surface can also be executed in the form of this total information. But any other semantic relations are also possible.
The arrangement of the partial surfaces within the printed surface is as desired and subject only to the restriction that the partial surface or surfaces are largely enclosed by the printed surface. If only one partial surface exists within the printed surface, it can for example represent the same information as the printed surface and extend within the printed surface parallel to the outside contour. Preferably, a plurality of partial surfaces are disposed in the printed surface, however. The smaller the partial surfaces are, the greater the number of said partial surfaces can of course be. They can be disposed in the printed surface in any pattern. This pattern can likewise be readable information, or only a regular column and/or row arrangement. If unprinted areas are additionally provided in the printed surface, they can be disposed alternatingly with the partial surfaces.
In the inventive data carriers, unprinted areas and surfaces with varying ink layer thickness adjoin directly and in any order. This makes it possible to render very complex printed images and superimpose a plurality of pieces of information, also in positive representation, on the same surface. The freedom of design in preparing and rendering printed images produced by intaglio printing is thus enormously increased.
The inventive method for producing corresponding printed data carriers has in addition considerable economic advantages since the surfaces provided for printing with different ink layer thicknesses are produced with the same ink in one printing pass. Suitable substrate materials for printing with the inventive method are all those that can be used for intaglio printing, such as paper, plastic foils, paper laminated with plastic foils or lacquered paper, and multilayer composite materials.
The inventive intaglio printing plates are preferably produced by engraving with a fast rotating, tapered graver. In accordance with the contour form of the surface to be printed, corresponding depressions are formed in the surface of the printing plate by the engraving tool with selective variation of the engraving depth and are filled with ink for the printing operation. During printing, the ink is transferred from the depressions of the plate to the surface of a substrate. No ink is transferred from the untreated, i.e. unengraved, surface areas of the printing plate. Deep engraving of the printing plate produces a high embossed relief with a thick ink layer on the printed substrate, while fiat engravings produce only a low embossed relief with a thin ink layer. If translucent inks are used, different ink layer thicknesses result in visually contrasting printed surfaces that are distinguishable even when they directly adjoin.
In order to prevent directly adjoining ink layers from flowing into each other along their borderline after being transferred to a data carrier and before the ink has dried, a so-called “separation edge” is integrated into the printing plate between surfaces with different engraving depth. Said separation edge has a tapered, wedgeshaped cross-sectional profile. The tip of the wedge is preferably located at the height of the printing plate surface or slightly thereunder.
The tip of the separation edge profile forms a largely one-dimensional line along the separation edge, similar to a knife edge. It separates the printing plate areas of varying engraving depth but produces no visible interruption of the printed ink surfaces. With the support of the separation edge integrated into the printing plate, the intaglio ink, which is of pasty consistency, is left “standing” in dimensionally stable fashion after being transferred to a substrate even when surfaces printed with varying layer thickness directly abut. In this way, extremely fine, superimposed structures with varying ink, layer thickness and high edge sharpness can be printed by intaglio printing.
When engraving the printing plate, the engraving tool is guided so that a tapered separation edge is left standing between the adjoining surfaces having a different engraving depth. If a printed partial surface is completely enclosed by a likewise printed surrounding surface on the substrate, the depression or engraving of the printing plate corresponding to the partial surface must be largely enclosed by a separation edge. Ideally, the partial surface is completely enclosed by the separation edge.
If the engravings of the printing plate are not or at least partly not, inked, that is, filled with ink, before the printing operation, the noninked area of the printing plate acts only as an embossing plate which can produce so-called blind embossings on a substrate during the intaglio printing operation. The embossed elements have similar proportions and tactile properties, with the exception of the visual impression produced by the ink, as the above-described printed surfaces and partial surfaces.
Further embodiments and advantages of the invention will be explained in the following with reference to the figures. The variants described in the examples relate primarily to very small partial surfaces. The inventively printed surface and partial surfaces can of course also be executed larger, i.e. a few millimeters to centimeters.
a, 7b and 8 show intaglio prints in a front view with superimposed information and surfaces of varying ink layer thickness,
In the example shown here, the inventive print is provided only in a partial area of the bank note and consists of surface 2 completely printed with ink and completely enclosing partial surface 3 likewise printed with a unified ink layer. Surfaces 2 and 3 have been printed by intaglio printing with ink layers of varying thickness, which makes them visually distinguishable since there is a brightness or color contrast between surface 2 and partial surface 3. Additionally, printed surface 2 encloses unprinted partial areas 4, which can convey further information if they are designed accordingly.
In contrast, according to the prior art, information is only represented as printed surfaces against an unprinted background, i.e. in positive representation, or as an unprinted surface against a printed background.
a and 3b illustrate the inventive principle of rendering information in a continuously printed surface by selective variation of ink layer thickness between two layer thickness levels.
Information can thus be represented by printed, i.e. ink-carrying, partial surfaces 14 against likewise ink-carrying surroundings 13. If the shape and contour of printed surface 13 likewise conveys information, two superimposed pieces of information can be rendered in positive representation on the same surface.
The following
In
If surfaces 13 are printed with a printing plate having for example an engraving depth of e.g. 15 microns in the corresponding areas, while the partial areas of the printing plate corresponding to partial surfaces 14 are produced for example with an engraving depth of e.g. 100 microns, not only a visually well perceptible contrast arises between surfaces 13 and 14 of the data carrier but also a feelable level difference. This is because partial surfaces 14 printed by deep engravings produce on the data carrier a raised relief that can be clearly perceived by feeling with the fingertips.
In
In preferred embodiments according to the representations in
a and 7b show two inventive printed images in which printed surfaces 13 render both characters (the digits “2” and “0”) and a geometrical element (a square). Printed partial surfaces 14 of this example constitute a surface relief formed especially strongly by embossing and applied ink layer and are therefore perceptible also tactilely. The information represented by partial surfaces 14 corresponds to a simple geometrical element in the form of a circle here.
Suitable elements that are especially well perceptible tactilely are in particular structures with a geometrically simple contour. The size of the feelable elements is preferably a few millimeters and they preferably have a distance apart of at least about 0.5 millimeters. Unprinted partial surfaces 15 integrated into the printed surface render the number “20” in
In
In
In
Number | Date | Country | Kind |
---|---|---|---|
100 15 097.7 | Mar 2000 | DE | national |
This application is a divisional of U.S. patent application Ser. No. 10/239,179, filed Sep. 26, 2002.
Number | Date | Country | |
---|---|---|---|
Parent | 10239179 | Nov 2002 | US |
Child | 12563394 | US |