This invention relates generally to identification documents and a method for making such identification documents. More particularly, this invention relates to a security feature for such identification document and to a secure identification document that allows detecting a fraudulent modification of the existing official personalization or a completely falsified document.
Identification documents are associated with secure applications, such as for example driving licenses, identity cards, membership cards, badges or passes, passports, discount cards, banking cards, money cards, multi-application cards, and other papers of value; and security documents such as bank notes. Such documents are widely used, they may comprise an electronic module or not. If they comprise an electronic module, they can function either with contact and/or without contacts depending on the application to which they are intended. They may take the shape of card or a booklet or something else. Such identification documents are graphically personalized. Personalized information is personal data of the card's owner, i.e for example his photo, his name, his birth date, his social security number, his biometric information such as his fingerprint for example, a validity date, an identification number allocated to him etc. . . . . This personalized information is printed onto the surface of the document, or into one or more constitution layers of the document. Because of the value and importance associated with each of these data carriers, they are often the subject of unauthorized copying and alterations, and forgeries.
To prevent such activities from being carried out on these data carriers, different types of visual and touchable security features have been added to data carriers. One of these security features consists in printing UV fluorescent inks, by ink jet printing technology for example, for drawing a security pattern, which is not visible to naked eyes under daylight radiations, but which appears under UV radiations as a colored image and/or text because they fluoresce with visible light when illuminated with UV light. Such security feature using UV fluorescent inks is widely used now, but it is only used as a background printing, so that it is impossible to personalize it. Moreover, with inkjet printers, one can use fluorescent inks, in order to print for example facial image only visible under UV light making each document specific to the document holder. However, the number of colors/inks is limited and typically, only one UV ink can be used, its color being for example red, blue or yellow. Consequently, forgers can also obtain the same effect by using the same ink and a relatively low cost printer.
Considering the above, a problem intended to be solved by the invention, is to propose a process for securing an identification document by using UV sensitive ink(s) to define a pattern only visible under UV radiations, i.e. UV absorbing without absorbing also the visible radiations, said process being easy to implement, so that it does not involve over costs, and enabling to obtain an enhanced security feature, which achieves an effect that is impossible to reproduce in a simple manner.
The solution of the invention to this problem relates to the fact that the process comprises the following steps:
A first advantage to use of the transparent ablation varnish, relates to the fact that the UV sensitive inks are not burned by the laser beam, so that no black traces appear around the removed areas under daylight. A second advantage relates to the fact that the image actually revealed under UV light comprises two things. First, the remaining UV ink is visible in color under UV light. Second, in the areas where the ink has been removed but not the transparent ablation varnish, the laser beam interacts with the ablation varnish, and leads to absorption of the UV radiations, with the effect of creating black color, while those areas appear invisible under visible light. This unexpected additional effect has never been obtained before because when color UV sensitive inks are used, they always produce only single color images or, at best, a color picture. This effect cannot be mimicked by simply ink jet printing UV sensitive ink without the varnish layer.
According to another aspect, the invention relates also to a secure identification document comprising a pattern made with UV sensitive ink(s) so that it can only be revealed under UV radiations. This secure identification document is remarkable by the fact that it comprises:
Other particularities and advantages of the invention will be better understood with the help of the description below, which has been provided as an illustrative and non limitative example by reference to the enclosed figures that represent:
Hereafter, an embodiment of the present invention will be described in the context of identity (ID) card and a method for producing it. However, it is to be understood that the invention is usable with any data carrier that includes, but is not limited to, a driving license, a badge or pass, a passport, a discount card, a membership card, a banking card, a credit card, a money card, a multi-application card, and other security documents and papers of value that are to be provided with information or data in such a way that they cannot be easily imitated by common means. Such identification documents may take indifferently the shape of card, or booklet, or something else, and can be made either with plastic material or with paper.
Then, a layer 14 of fluorescent ink, or mixture of fluorescent inks, is printed onto the varnish layer 13. The fluorescent ink(s) can be UV sensitive inks that are visible only when activated by at least one predetermined UV wavelength, such as 365 nm for example. The layer 14 of fluorescent ink(s) is printed by any conventional process, such as ink jet, silkscreen process, or offset for example.
In order to achieve an optimum effect, indeed to view the engraved pattern, with a good contrast and luminosity, only when enlighten the document with a predetermined radiation, the thicknesses of each of the layers 13 of varnish and 14 of fluorescent ink(s) have to be sufficient but not too thick. Consequently, the thickness of transparent ablation varnish 13 is applied using silk screen printing process, with a thickness comprised between 5 and 24 μm, and preferably between 6 and 12 μm. The fluorescent ink(s) layer 14 is printed using offset process until the obtained layer is typically around 1.4 and 2 g/m2.
Then, the fluorescent ink(s) layer 14 is engraved, by using a laser beam, in such a manner that only some areas of the ink layer remain, so as to draw the security pattern to be revealed under predetermined wavelength, for example UV wavelength. The laser beam used for such engraving is preferably an infrared YAG laser. This infrared YAG laser could also be replaced by lasers working in invisible or UV wavelength range or by fiber laser. If such lasers are used, a low power has to be used to be in the same spot energy range than the infrared YAG laser. Such laser engraving does not let any visible signs on the document, and the remaining pattern will be visible only under UV light. Generally, such laser engraving would have burn the ink layer around the removed parts, so that visible black traces would have appeared under normal daylight, around the pattern to be revealed. However, this is not the case in the present invention, due to the use of the transparent ablation varnish 13, which enables not to burn the ink layer, so that no visible burning traces appear under daylight when the pattern is made by laser engraving the ink layer.
Another advantage to use the transparent ablation varnish 13 relates to the fact that the obtained effect is very surprising and unexpected. Indeed, the pattern, drawn by laser engraving the fluorescent ink(s) 14 layer above the transparent ablation varnish 13, appears as a mixed image, which appears with colored and grayscale areas, only when enlighten under a predetermined UV light, despite the fact that UV color inks are used. In fact, the resulting image is not only gray scale because the unablated parts fluoresce with some visible color. This color gives colored contrast to the gray scale image created with the laser. This unexpected additional effect has never been obtained before because when color UV sensitive inks are used, they generally produce only single color images or, at best, a color picture. This effect cannot be mimicked by simply ink jet printing an UV sensitive ink without the varnish layer.
As it has been already described, the transparent ablation varnish together with the fluorescent ink(s) are preferably printed onto an at least translucent portion, and at the most transparent. This is because, with such a structure, the pattern is surely invisible under daylight. If the varnish and fluorescent ink(s) are printed onto an opaque layer, for example a white layer, then, some time to time, the engraved pattern could become a bit visible under daylight.
The document according to this embodiment may further comprise a protective film (not shown), which is applied onto the fluorescent ink(s) layer 14, in order to protect it against environmental stresses, which can be mechanical or chemical for example. The protective film can be of different kinds. It can be a protective plastic layer made of PVC or PET or PC, which is laminated onto the whole surface of the document, and having a thickness lying between 50 and 150 μm. Such a protective layer is also called overlay. Another form of protective layer, also called patch or reinforced protective film, consists in a plastic film generally made of PET, that is pre-pasted and having a thickness comprised between 10 and 25 μm. Such a film is sufficiently robust for resisting to environmental stresses during several years.
Such protective film, either in the form of an overlay or in the form of a patch, can be applied onto the surface of the document in a last step, just after the laser engraving step for drawing the pattern to be revealed.
The invention is not limited to the embodiments that have been described and other variants can be made without departing the scope of the invention. Thanks to the use of the transparent ablation varnish, it is possible to achieve an effect that has never been reached before. Indeed, first the laser-engraving step does not let any visible traces around the removed ink, and second the drawn pattern that appears only under UV radiations consists in a mixed image, which is a combination of fluorescing areas and a gray scale image.
Number | Date | Country | Kind |
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09159252 | Apr 2009 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2010/055912 | 4/30/2010 | WO | 00 | 10/30/2011 |
Publishing Document | Publishing Date | Country | Kind |
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WO2010/125185 | 11/4/2010 | WO | A |
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Number | Date | Country | |
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20120049506 A1 | Mar 2012 | US |