RU2238189C2 - Concealed bitmap printed image - Google Patents

Abstract

FIELD: printing technologies.

SUBSTANCE: image is received by additive method of color mixing with use of coloring substance of blue, red an green colors and luminescent under effect from ultraviolet beams substance. Image contains preferably several coloring substances, luminescent under effect from ultraviolet beams.

EFFECT: higher efficiency.

2 cl

Description

The present invention relates to a latent raster printed image on a substrate that reversibly displays a single or multi-color image, to a method for its production, as well as its use in advertising or for advertising and for the purpose of marketing goods.

There is a need to label items, such as products for sale and their packaging, so that the marking is not visible to the observer at any time, but only under certain circumstances. For example, for the advertising design of products with images and plots, such hidden marking is of interest, since this creates unexpected and especially attractive optical effects that are useful for advertising the designated products.

Patent WO 88/01288 describes a method for marking a substrate for security purposes, for example, to protect check cards from counterfeiting, in which photochromatic ink is first applied to the substrate (that is, a color that is colorless in daylight and only changes color when exposed to ultraviolet rays) and then a protective layer is applied to the paint layer, for example, of plasticized PVC. Preferably, photochromatic ink is applied by screen printing. Patent WO 88/01288 does not describe the labeling of products with complex images and image motifs for advertising purposes.

Another possibility to protect hazard-sensitive items, such as check cards, is covertly described using patent EP-A-0279526. By printing on a substrate with two different bundles of lines intersecting in a selected place, a moire pattern is created that is difficult to fake. Applied printing inks can, in particular, contain a printing ink with ultraviolet fluorescence, which becomes visible only under the influence of ultraviolet rays. But in this case, the application for advertising purposes is not disclosed.

US-A-5289547 describes a method of authentication, for example banknotes, in which a photochromatic compound is applied, which may be visible or invisible to the human eye. The application of the photochromatic compound is done by screen printing.

EP-A-0327788 discloses photochromatic printed inks, which are used, in particular, for printing documents. Photochromatic printing inks contain photochromatic compounds that are protected from oxygen and other components of the ink and which, when exposed to ultraviolet rays, produce a reversible color scheme. The application of printing ink can be carried out by various printing methods.

Patent WO-A-90/06539 also considers the protective marking of objects with photochromatic compounds, which under the influence of ultraviolet rays give a visible image, and in this case, to increase the life of the photochromatic compounds and to protect from sunlight, a sunscreen is applied.

A device for the manufacture and / or reading of documents which have a color-reversing photochromatic or thermochromatic layer is known from GB-A-2272861.

The present invention aims to create a product that allows you to equip objects with hidden single or multi-color, as well as complex images and patterns for advertising purposes.

This problem is solved by a hidden raster image located on the substrate, which, under the influence of visible and / or daylight (or as schematically as possible) is invisible to the human eye and displays a single or multicolor image only under the influence of ultraviolet rays. The image is reversible, that is, as soon as the ultraviolet rays no longer act, the image disappears, which after repeated ultraviolet irradiation becomes visible again. Moreover, it is preferable that the color image is multicolor. By applying a latent image by printing from raster forms, it is possible, in contrast to the prior art, to print complex images and patterns on a substrate, in particular for advertising purposes.

Color and also multicolor raster images have been known for a long time. They are obtained by traditional printing methods (see, for example, N.M. Speirs, "Introduction to Printing Technology", British Printing Industries Federation, 4. Aufl., 1992, Kapitel 2), commonly used in raster methods (see, for example, HMSpeirs, "Introduction to Printing Technology", Kapitel 5, in particular, p.61-68), and on the same substrate several different colorful layers of printing ink are applied next to each other and on top of each other and due to the resulting mixing of the ink and a change in intensity creates a visual effect. The raster images formed in this way are easily distinguishable to the human eye, that is, under the influence of visible light (for example, daylight), in other words, light with a wavelength range of about 400 to 700 nm, they show black and white or single or multi-color images.

In addition, paint layers are known which, under the influence of visible light, do not show colorful images, even if they are exposed to ultraviolet rays in a wavelength range of from about 190 to 400 nm. Such images are called “latent images,” since they are not distinguishable under ordinary light conditions and only by targeted excitation become visible as images. Such paint layers contain a so-called luminescent coloring matter. The luminescent coloring matter is in an energetically excited state; Under the influence of, for example, radiation, the luminescent coloring matter goes into a state of reduced energy, and the excess energy is given off due to the emission of light quanta of a certain wavelength. If this emission wavelength is in the visible range, then the transmitted radiation is perceived by the human eye as colorful.

Such covert application of luminescent paint can serve, for example, to indicate people. So, in entertainment places it is customary to apply to the paying visitor at the entrance, for example, with a stamp, a small amount of hidden luminescent paint on the skin (for example, on the palm). This staining under “normal” light is invisible, but visible under ultraviolet radiation, so visitors to an entertainment venue can easily check whether they paid for the entrance and whether hidden paint was applied by briefly locating the skin area under an ultraviolet lamp. In the same way, one can find out in the elections that the voter voted only once.

To date, this coloring is only used in monochromatic, that is, the observer under the influence of ultraviolet rays perceives only a monochromatic image. Also unknown is their use for advertising purposes.

In addition, DE 3216568 A1 is known for registering an image by a photographic method in which a photographic recording material containing at least one layer of photosensitive halide silver and at least one luminescent compound is figuratively exposed and developed to produce a latent of the luminescent image and the information about the image contained in the latent luminescent image is selectively scanned by the luminescent spectroscopic method and the electronic method of assigned in the form of monochrome luminescent signals; The method provides single and multi-color images. This recording method does not produce a bitmap image and is not used for hidden marking of objects with a colorful image.

Typically, a raster image in accordance with the invention contains at least one coloring matter, luminescent under the influence of ultraviolet rays. In this case, dyes are used as luminescent dyes, which, under the influence of ultraviolet rays, first go into an energetically excited state and then are also stimulated by ultraviolet rays to emit light quanta, and light quanta are emitted with a wavelength in the visible spectrum. In this case, the human eye perceives only the paint corresponding to the wavelength of the emitted quantum of light, and only when the raster image is exposed to ultraviolet rays.

Lacke und Druckfarben, 1998, S.355 ключевое слово "Leuchtfarbstoffe"). Речь идет, например, о тех, которые описаны в WO 88/01288 в качестве фотохроматических соединений. Другие подходящие красящие вещества, люминесцентные под воздействием ультрафиолетовых лучей, описаны в WO 98/32799, DE-A-19512773 и DE-A-19651712. В качестве печатных красок, содержащих люминесцентные красящие вещества, можно применять, например, печатные краски фирмы SICPA-AARBERG, Швейцария, с обозначением INNOVA 62-LC (Lumi-Color).UV luminescent dyes are known and marketed compounds per se (see

Lacke und Druckfarben, 1998, S.355 keyword "Leuchtfarbstoffe"). It is, for example, those described in WO 88/01288 as photochromatic compounds. Other suitable dyes that are luminescent when exposed to ultraviolet rays are described in WO 98/32799, DE-A-19512773 and DE-A-19651712. As printing inks containing luminescent dyes, for example, printing inks from SICPA-AARBERG, Switzerland, with the designation INNOVA 62-LC (Lumi-Color), can be used.

Preferably they give luminescence when exposed to ultraviolet radiation in the wavelength range from 240 to 380 nm, in particular at approximately 366 nm.

The raster points of the raster printed image preferably have 60-120 dots / cm, and in a given raster, the number of dots does not depend on the size of the dots. By varying the size of the raster points, optical modulation of the image recess is created. If larger dots are applied, they can be in contact with adjacent dots so that a complete surface coating can be obtained.

Application of the additive ink mixing method (see, for example, E. D. Stebner, "Bruckmann's Handbuch der Drucktechnik", Bruckmann, 5. Aufl., 1992, S.100-103; HMSpeirs, "Introduction to Printing Technology", 4 Aufl., 1992, S.76-78) is particularly preferred for producing raster printed images in accordance with the invention as compared to a possible subtractive ink mixing method, when the substrate of the raster printed image is not white enough for subtractive ink mixing. Based on the assumption that lighting situations, which are affected by ultraviolet rays, occur mainly in a dark environment, and also in order to enhance the effect of ultraviolet lighting (night clubs, entertainment venues, etc.), it is necessary to reckon with the fact that white color as an integral part for subtractive mixing of paints of created (composed) multicolor raster printed images is often absent. This lack of white light is overcome by the use of additive color mixing to produce a multi-color raster printed image. This method can be used everywhere where there is no radiation with white light or there is no radiation of white light from the substrate material used for printing. White paper or white cardboard emits, for example, under the influence of ultraviolet rays (that is, radiation with light that does not have a white component), only then white light, when optical brightening agents were used in the manufacture of this substrate material. For environmental reasons, optical brighteners are often undesirable. For example, they are completely excluded for the manufacture of paper and paperboard used in the tobacco industry. The absence of this source for white light under ultraviolet conditions, which also applies to other possible substrate materials for applying latent multicolor raster printed images, such as polypropylene film, is compensated by the use of additive color mixing to create an image. The darker the background, the better you can see the printed image obtained in accordance with the invention, obtained by the additive method. The raster printed image in accordance with the invention in this case has a blue, red and green and other coloring matter, luminescent under the influence of ultraviolet rays. Alternatively, a subtractive method is also possible, in this case Magenta (red), Cyan (blue) and yellow and, if necessary, black (for better contrast) luminescent paints are applied to the substrate. The condition for the visibility of images is either white light as a component of the irradiating light or the presence of optical brightening agents that reflect white light under ultraviolet radiation.

Raster printed images according to the invention can be obtained by any suitable printing method (see, for example, N.M. Speirs, "Introduction to Printing Technology", 4.Aufl., 1992, S.7-10), in particular offset printing , lithography, flexography, letterpress or intaglio printing. In order to avoid an interfering moire pattern, it is preferable to use raster lines at an angle (see, for example, E.D. Stebner, "Bruckmann’s Handbuch der Drucktechnik", S. Aufl., 1992, S.123-125).

The substrate of the raster printed image can be made of any suitable material, preferably it consists, for example, of paper, cardboard, textile materials or a film or foil of natural or synthetic polymers (for example polypropylene). Thus, a raster printed image can be applied, for example, to polypropylene, as it is usually used for transparent foil for packaging cigarettes. The bitmap printed image can be applied either to a separate substrate (for example, a sticker, gummed foil or label), and this substrate is then connected to the designated product. Or, a raster printed image is applied directly to the product, which is also a substrate, for example, on an external polypropylene shell, a paper or cardboard pack, or on the inner insert of a pack of cigarettes, on a postcard, Poster, curtains, or in general on packages, in particular gift and food packaging products. In this case, the manufacturer can use a typical printed image or logo, but also complex graphic forms for advertising purposes. In this case, the raster printed dots of different layers can contain different dyes that are luminescent under the influence of ultraviolet rays in such a way that a multicolor raster printed image appears under the influence of ultraviolet rays.

Especially suitable is the use of raster printed images in advertising. For example, conventional packaging, for example cigarette packs, may have, as described, a bitmap printed image in accordance with the invention. This bitmap printed image is not visible to the observer in daylight or visible light. Only under the influence of ultraviolet rays, for example, in an entertainment institution does a multicolor image become visible. Printing on so-called point-of-sales material, such as Postern, is also possible.

Claims (4)

1. A hidden raster printed image on a substrate that reversibly shows a multicolor image under the influence of ultraviolet rays and which is obtained by the additive method of mixing inks using a dye of blue, red and green color and, if necessary, another substance luminescent under the influence of ultraviolet rays. 2. The latent raster printed image according to claim 1, wherein the printed image substrate consists of paper, cardboard, textile material or a film or foil of natural or synthetic polymer. 3. Hidden raster printed image according to claim 1 or 2, which is intended for use in advertising and for the purpose of marketing goods. 4. A method of obtaining a raster printed image that reversibly becomes visible under the influence of ultraviolet rays, a method of printing from raster forms, using a dye of blue, red and green color and, if necessary, another substance luminescent under the influence of ultraviolet rays, according to the additive method of mixing paints .