Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B42—BOOKBINDING; ALBUMS; FILES; SPECIAL PRINTED MATTER
  • B42D—BOOKS; BOOK COVERS; LOOSE LEAVES; PRINTED MATTER CHARACTERISED BY IDENTIFICATION OR SECURITY FEATURES; PRINTED MATTER OF SPECIAL FORMAT OR STYLE NOT OTHERWISE PROVIDED FOR; DEVICES FOR USE THEREWITH AND NOT OTHERWISE PROVIDED FOR; MOVABLE-STRIP WRITING OR READING APPARATUS
  • B42D25/00—Information-bearing cards or sheet-like structures characterised by identification or security features; Manufacture thereof
  • B42D25/30—Identification or security features, e.g. for preventing forgery
  • B42D25/351—Translucent or partly translucent parts, e.g. windows
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B42—BOOKBINDING; ALBUMS; FILES; SPECIAL PRINTED MATTER
  • B42D—BOOKS; BOOK COVERS; LOOSE LEAVES; PRINTED MATTER CHARACTERISED BY IDENTIFICATION OR SECURITY FEATURES; PRINTED MATTER OF SPECIAL FORMAT OR STYLE NOT OTHERWISE PROVIDED FOR; DEVICES FOR USE THEREWITH AND NOT OTHERWISE PROVIDED FOR; MOVABLE-STRIP WRITING OR READING APPARATUS
  • B42D25/00—Information-bearing cards or sheet-like structures characterised by identification or security features; Manufacture thereof
  • B42D25/30—Identification or security features, e.g. for preventing forgery
  • B42D25/305—Associated digital information

Definitions

• Title Security article or set of a security article and another object comprising a first and a second frame
• the present invention relates to the field of secure articles.
• the secure item can in particular be chosen from secure documents, for example a means of payment, such as a banknote, a bank card, a check or a meal ticket, an identity document such as a credit card. identity, a visa, a passport or a driver's license, a secure card, a lottery ticket, a transport ticket or even an entry ticket to events, or a secure label.
• a means of payment such as a banknote, a bank card, a check or a meal ticket
• an identity document such as a credit card. identity, a visa, a passport or a driver's license, a secure card, a lottery ticket, a transport ticket or even an entry ticket to events, or a secure label.
• the invention aims to meet this need and has as its object, according to a first of its aspects, a secure article comprising a first frame and a second frame or an assembly of a secure article comprising a first frame and of another object comprising a second frame, the first frame comprising a number n of first frame sub-frames each consisting of first elementary patterns of the first frame separated from one another, along at least one same direction of extension of the first frame X, by second elementary patterns first frame, the first elementary patterns of the first frame all having the same dimension of first pattern of first frame xi along the direction of extension of the first frame X and the second elementary patterns of the first frame all having the same dimension of second pattern of first frame X2 along the direction of extension of the first frame X, the second elementary patterns of the first frame having a visually d aspect different to at least one given illumination condition of the first elementary patterns of the first frame, the n sub-frames of the first frame all being out of phase with each other along the at least one direction of extension of the first frame X by
• the second elementary patterns being visually different in appearance at [one/the J given illumination condition of the first elementary patterns varnish"
• the second elementary patterns have, at at least minus a given illumination condition, a difference in appearance perceptible to the human eye with or without magnification with respect to the first elementary patterns.
• the given illumination condition may be a visible wavelength, UV or IR or a range of visible wavelengths, IR or UV, or a more complex light spectrum, preferably in white light, in particular the light of the day.
• each of the n sub-frames has first elementary patterns of the first frame shifted by a smaller distance d x ⁇ multiple of a factor k less than (n-1) of the smallest phase shift m between the n subframes with respect to the position that the first elementary patterns of the other subframes would have at the level of said subframe. It follows that one of the n sub-frames is such that the (n-1) other sub-frames are out of phase with it by a different multiple comprised between 1 and (n-1) of the smallest phase shift m of the sub-frames between they.
• the article or the assembly being configured so that, when the first and the second weft are superimposed, the first weft is visible at least in part through the second elementary patterns of the second weft and/or the second weft is visible at least in part through the second elementary patterns of the first frame
• the second elementary patterns of the first frame and one or more layers of material separating the first and the second frame when the first and the second frame are superimposed are at least partially transparent so that the second frame is not completely obscured by the second elementary patterns of the first frame and therefore is at least partly visible through the second elementary patterns of the first frame, and/or that the second elementary patterns of the second frame and one or more layers separating the first and the second frame when the first and the second frame are superimposed, where applicable, are at least partially transparent so that the first frame is not not completely obscured by the second elementary patterns of the second frame and therefore is at least partially visible through s of the second elementary patterns of the second frame.
• relative position of the first frame with respect to the second frame is understood throughout the description a position of the two frames with respect to each other when the latter are physically mobile with respect to each other. to the other and/or an angle of observation of the superposition of the two frames when the latter are separated from each other by a support.
• the change in appearance, in particular of tones and/or opacity, by relative displacement of the two frames between them for each sub-frame is d continuous aspect over at least one continuous range of relative position of the two frames between them.
• the revealed sub-images preferably change in appearance according to a tone and/or opacity gradient between two visually different tones and/or two visually different opacities during a continuous relative displacement of the two frames between them.
• the particular phase shift between the n sub-frames makes it possible to have for each sub-frame an effect on the corresponding revealed sub-image that is substantially identical over a range of relative position of the two frames between them of dimension 2m in the direction of extension of the first frame, which makes it possible to obtain a particular effect of the revealed image.
• the different first frame subframes give observable revealed subimages of different aspects, in particular in terms of opacity and/or tone, depending on the relative positions of the two frames between them, which makes it possible to have multiple visual effects at the level of the different sub-frames of the first frame in fixed observation (by observation at a relative position of the frames) and in dynamic observation (by observation of the effects by moving the frames relative to one another).
• Such a secure article or such an assembly makes it possible to visualize a particular effect over a reduced observation angle and to have a certain continuity in the observation of the change in the image revealed over a certain range of relative displacement of the two frames between they. Thanks to the invention, it is possible to benefit from a secure article offering a new means of authentication, consisting of the formation of a multi-tone revealed image exhibiting a dynamic tonal evolution during the relative displacement of the two frames and leading thereby to the formation of a particular pattern easily recognizable by the man in the street.
• At least one of the first frame and the second frame preferably the first and the second frame, have a frame resolution greater than or equal to 800 dpi.
• Raster resolution means the printing resolution from which said raster could be printed.
• a frame having a frame resolution of at least 800dpi it is understood that said frame could be printed perfectly with a print of at least 800dpi but could not be printed correctly with a print of less than 800dpi.
• Concerning the first frame this results in conditions on the dimension of the first or second elementary patterns of the first frame and/or on the smallest phase shift m between the n sub-frames in the direction of extension X.
• Concerning the second frame this results in conditions on the dimension of the first or second elementary patterns of the second frame in the direction of extension V.
• Each subframe and the second frame may appear to the naked eye and at a normal viewing distance as having an appearance, in particular a color, uniform at least in parts, the color or colors each resulting from the combination of the colors of the first and second elementary patterns on said part.
• an appearance in particular a color, uniform at least in parts, the color or colors each resulting from the combination of the colors of the first and second elementary patterns on said part.
• the different phase-shifted sub-frames are then superimposed in different ways on the first and second elementary patterns of the second frame, which makes it possible, by combining the tones and opacity of the visible parts of the two different frames at the level of the sub-frames, to have sub-frames. -images revealed at the level of the different sub-frames different by their tone and/or opacity.
• normal viewing distance is meant the usual viewing distance of a secure article, for example 30 cm and preferably 25 cm.
• the first weft and/or the second weft can have any suitable outline, and in particular its outline can define a particular shape which is also found on the article; the first frame and/or the second frame are, for example, contour defining a pattern such as a character, animal, plant, monument or alphanumeric sign, which also appears on the article, for example in the form of a print or a watermark.
• the images revealed can be observable in reflected light and/or in transmitted light, and preferably they are observable both in reflected light and in transmitted light.
• the article or the assembly is preferably configured so that, when the first and the second weft are superimposed, the first weft is visible at least in part at least through the second elementary patterns of the second weft and the second frame is visible at least in part at least through the second elementary patterns of the first frame.
• An image revealed by the superposition of the first and the second frame with the directions of extension aligned is then observable in reflected and/or transmitted light by observation on the side of the first frame and by observation on the side of the second frame.
• the first and second elementary patterns of the first and/or of the second frame are of visually different tone(s) and/or opacity(s).
• the first elementary patterns of at least one of the n sub-frames of the first frame and of the second frame can be of different tones visually second elementary patterns of the same subframe or frame with a colorimetric difference DE*94 according to the C.I.E. 1994 between the first elementary patterns and the second elementary patterns of the same subframe or frame greater than or equal to 2, preferably greater than or equal to 3. This allows the observation of a colored effect.
• the first elementary patterns of at least one of the n subframes of the first frame and of the second frame are of different colors of second elementary patterns respectively of the same sub-frame or frame.
• the first elementary patterns of each of the n sub-frames of the first frame and of the second frame are of different colors from the second elementary patterns of the same frame.
• the first elementary patterns of at least one of the n sub-frames of the first frame and of the second frame can be of opacities visually different from the second elementary patterns of the same first frame subframe or of the same second frame.
• the second elementary patterns of each of the n subframes of the first frame and/or of the second frame have a lower opacity than the first elementary patterns of the same subframe or second frame to at least a length d wave, preferably a visible wavelength.
• the first elementary patterns of the first frame are all of the same opacity.
• the second elementary patterns of the first frame are all of the same opacity.
• the first elementary patterns of the second frame are all of the same opacity.
• the second elementary patterns of the second frame are all of the same opacity.
• the first elementary patterns of at least one of the n subframes of the first frame and of the second frame are of the same opacity. , especially opaque.
• the second elementary patterns of at least one of the n subframes of the first frame and of the second frame are non-opaque at at least one wavelength, preferably in the visible spectrum of light.
• the second elementary patterns of at least one of the n sub-frames of the first frame and of the second frame are non-opaque over at least one range of wavelengths in the visible spectrum
• the second elementary patterns of at least one of the n subframes of the first frame and of the second frame are transparent at least one wavelength, preferably visible, in particular over a range of wavelengths in the visible spectrum.
• transparent it is understood that said elementary patterns have a transmission factor of more than 80%, better still more than 90%, even better more than 95% of the incident light at said wavelength or on said length range of wave.
• the first and/or second elementary patterns of first and/or second frame can be fluorescent and/or luminescent. When the first and/or second elementary patterns of first and/or second frame are luminescent, they may or may not be visible in white light.
• the first elementary patterns of the first frame can be visually of the same tone and/or of the same opacity as the first elementary patterns of the second frame.
• the first elementary patterns of the first frame and of the second frame are preferably opaque.
• the second elementary patterns of the first frame can be visually of the same tone and/or of the same opacity as the second elementary patterns of the second frame.
• the second elementary patterns of first and second frames can be transparent. This can allow, when the conditions of integration in a security article allow it, the observation in reflected and/or transmitted light of the effects described above on both sides of the superposition of the first and the second frame.
• the first elementary patterns of the first frame are of one or more tones, in particular colors, and/or one or more opacities visually different from the tones, in particular colors, and/or from the opacities or opacities of the first elementary patterns of second frame.
• the observation of the side of the first screen and the side of the second screen can give different tonal effects of the revealed image.
• the first elementary patterns of first and second frames are opaque, preferably black, and the second elementary patterns of first and second frames are transparent.
• the first elementary patterns of the first frame are contiguous with the second elementary patterns of the adjacent first frame and the first elementary patterns of the second frame are contiguous with the second elementary patterns of the adjacent second frame.
• the first elementary patterns of the first frame have a uniform appearance, in particular color and/or opacity, according to the direction or directions of extension or have micropatterns of the same shade and/or opacity on a background of the same tint and/or opacity according to the direction or directions of extension.
• the second elementary patterns of the first frame have a uniform appearance, in particular color and/or opacity, according to the direction or directions of extension or have micropatterns of the same shade and/or opacity on a background of the same tint and/or opacity according to the direction or directions of extension.
• the first elementary patterns of the second frame have a uniform appearance, in particular color and/or opacity, according to the direction or directions of extension or have micropatterns of the same shade and/or opacity on a background of the same tint and/or opacity according to the direction or directions of extension.
• the second elementary patterns of the second frame have a uniform appearance, in particular color and/or opacity, according to the direction or directions of extension or have micropatterns of the same shade and/or opacity on a background of the same tint and/or opacity according to the direction or directions of extension.
• the distance xi+X2 along the first frame extension direction X is substantially equal to the distance V1+V2 along the second frame extension direction V.
• the number n of first frame subframes is greater than or equal to 4, better still greater than or equal to 5.
• the number n of subframes may be less than or equal to 15, better still less than or equal to 10.
• the maximum possible number of sub-frames is in particular defined by the formation resolution of the first frame.
• the distance xi+X2 can be less than or equal to 1 mm, preferably less than or equal to 100 ⁇ m, even better between 20 ⁇ m and 80 ⁇ m.
• the dimension X2 of the second elementary patterns of the first frame along the direction of extension of the first frame X is greater than or equal, preferably substantially equal, to the dimension xi of the first elementary patterns of the first frame along the direction of extension of first frame X.
• the product (n-1)m is greater than or equal to, better still greater than, (XI+X2)/2. This allows to have a good contrast of the sub-images revealed between them.
• the smallest phase shift m of the n subframes is substantially equal to the ratio (xi+X 2 )/n.
• the subframes are out of phase by a base subframe by the distances k(xi+X 2 )/n, k being between 1 and n ⁇ 1. This makes it possible to have an optimal contrast of the various sub-images with one another.
• the dimension xi of the first elementary patterns along the direction of extension X is greater than the smallest phase shift m of the n subframes.
• the smallest phase shift m of the subframes is less than or equal to 100 ⁇ m, better still less than or equal to 50 ⁇ m, even better less than or equal to 32 ⁇ m.
• the smallest phase shift m of the subframes is greater than or equal to 3 ⁇ m, better still greater than or equal to 10 ⁇ m.
• Each of the first frame sub-frames can be a single block or else consist of a set of mutually disjoint blocks.
• Each of the first frame subframes may represent less than 90% of the total area of the first frame and more than 0.2% thereof, better still less than 80% of the total area of the first frame and more than 5% of it.
• the first frame subframes are preferably arranged in distinct first frame areas. At least two of the first frame sub-frames may have part of their contours in common. Preferably, all the n subframes have a part of their outline in common with at least one other of the n subframes.
• the n sub-frames of the first frame are arranged in areas of the first frame partially overlapping.
• the n sub-frames can form by their contours a particular macropattern configured in particular to present a movement effect on the revealed image by change in aspect of the corresponding revealed sub-images when a relative displacement of the second frame with respect to the first weft is performed, with the extending directions of the first and second weft being aligned.
• the user may have the impression, by changing the position of the second frame relative to the first frame, that the color sub-image is moves from one part of the revealed image to another.
• the macropattern is not visible when the first frame is observed with the naked eye.
• the macropattern may no longer be observable when there is a change in the orientation of the second frame relative to the first frame, in particular when the directions of extension of the first and the second frame are not aligned.
• the macropattern may be of any shape, in particular representing a text, an alphanumeric sign, an ideogram, a geometric shape, an object, a person and/or an animal.
• each first frame subframe is phase shifted from the adjacent first frame subframe(s) by the smallest phase shift between the subframes m.
• the secure item or the set may include a second additional frame separated from the second frame and intended to be superimposed on the same first frame.
• the second frame is configured so that there is for each first frame subframe a relative position of the two frames at which the first elementary patterns of the second frame are each visually aligned with one of the first elementary patterns of the first frame.
• the first elementary patterns of the second weft have lateral edges delimiting the dimension vi along the direction of extension of the second weft V of the same profile as the lateral edges delimiting the dimension xi according to the direction of extension of the first weft of the first first frame elementary patterns.
• the dimension vi of the first elementary patterns of the second frame along the direction of extension of the second frame V may or may not be identical, preferably it is identical, to the dimension xi of the first elementary patterns of the first frame along the direction of extension of first frame X.
• the distance vi+V2 can be less than or equal to 1 mm, preferably less than or equal to 100 ⁇ m, even better between 20 ⁇ m and 80 ⁇ m.
• the dimension V2 of the second elementary patterns of the second frame along the direction of extension of the second frame is greater than or equal, preferably substantially equal, to the dimension vi of the first elementary patterns of the second frame along the direction of extension of second frame.
• the dimension vi of the first elementary patterns of the second frame along the direction of extension of the second frame is substantially equal to the dimension xi of the first elementary patterns of the first frame along the direction of extension of the first frame.
• the second frame has adequate dimensions to overlap simultaneously at least partially with the n sub-frames of the first frame.
• the area and/or the length and/or the width and/or the greatest dimension, of the second frame is greater than or equal respectively to the area and/or the length and/or the width and/or the largest dimension, of the first weft. In this way, it is possible to simultaneously view the sub-images revealed by all the sub-frames and the user can immediately compare these revealed sub-images with each other to conclude on the authenticity of the article.
• the first and the second frame can have substantially the same general outline.
• the first and second elementary patterns of the first frame and/or of the second frame are respectively first and second lines of the first or second frame extending along a line direction of said frame, the line direction of said frame forming a non-zero angle with the direction of extension of said frame, preferably extending along a line direction of said frame perpendicular to the direction of extension of said frame.
• the first lines and the second lines of the first frame and of the second frame are of the same width over their entire length, their longitudinal edges being parallel to each other.
• the first and second lines of the first or second frame are preferably all of the same length. But it can be otherwise, and at least two first or second lines of the first or of the second frame can be of different lengths.
• the first or the second frame may have a general outline of a particular identifiable form, such as a character, animal, plant, monument or alphanumeric sign, which may appear elsewhere on the article, for example in the form of a print or watermark.
• the dimension according to the direction of extension of the first lines of first and/or second frame may be less than or equal to 1 mm, better still less than or equal to 100 ⁇ m, even better still less than or equal to 50 ⁇ m, even better still less than or equal at 32 p.m.
• the first and second lines of first and second frame may or may not be rectilinear, for example curved, wavy or slotted.
• the first and the second lines of the first frame and/or of the second frame each have a uniform appearance, in particular a single tone and a single opacity, over their entire surface.
• the first lines of the first frame are all of the same uniform appearance over their entire surface, in particular of the same tone and of the same opacity
• the second lines of the first frame are all of a same uniform appearance over their entire surface, in particular of the same tone and of the same opacity
• the first lines of the second screen are all of the same uniform appearance over their entire surface, in particular of a same tone and of the same opacity
• the second lines of the second frame are all of the same uniform appearance over their entire surface, in particular of the same tone and of the same opacity.
• All the sub-frames of the first frame may have first lines of the same aspect between them and second lines of the same aspect between them.
• At least two first frame subframes may have first lines of different appearance, in particular of different tones and/or different opacity, preferably of different tones and of the same opacity, and/or second lines of 'aspects different, in particular of different tones and/or of different opacity, preferably of different tones and of the same opacity.
• At least one of the first or second lines of the first or second frame has at least two longitudinal portions of the first or second line of the first or second frame, each of uniform appearance, the two longitudinal portions of the first or second line of the first or second frame being of different aspects, in particular of different tones and/or of different opacity, preferably of different tones and of the same opacity.
• first and/or second lines of the first or second weft may have at least two longitudinal portions of the first or second line of the first or second weft as described above, the first and/or the second weft having by the contours first or second line longitudinal portions a particular shape such as a character, animal, plant, monument or alphanumeric sign, which may appear elsewhere on the article, for example in the form of a print or a watermark .
• all of the longitudinal portions of first and/or second lines of the first frame or all of the portions of first and/or second lines of the second frame form by their contours the same particular shape, such as a character, animal, plant, monument or alphanumeric sign, which may appear elsewhere on the article, for example in the form of a print or a watermark.
• the particular shape may be visible to the naked eye or by magnification, preferably to the naked eye.
• first lines of first frame or only the second lines of first frame, or only the first lines of second frame or only the second lines of second frame have longitudinal portions of first or second lines as described above .
• first lines of the first frame and the first lines of the second frame have longitudinal portions of first or second lines forming the same particular shape.
• the first elementary patterns of the first frame are in the form of pixels and are separated from each other, along at least two first frame extension directions X and Y, by second elementary patterns of the first frame, the first elementary patterns of first weft being of the same shape and the same dimensions between them and the second elementary patterns of the first frame being of the same shape and same dimensions between them.
• the two directions of extension X and Y can form between them an angle comprised between 45° and 135°, better still between 60° and 120°, preferably 90°.
• the first frame may comprise p sub-frames all phase shifted between them at least along one of the two first frame extension directions Y by a non-zero distance d y ⁇ , in particular substantially equal to a multiple of the smallest phase shift between the p subframes.
• the p subframes can have the characteristics described previously for the n subframes and this independently of the characteristics of the n subframes.
• the first frame may comprise at least one sub-frame phase-shifted by at least one other sub-frame in the two directions of extension X and Y by a distance in each of the directions X and Y as described above.
• the fact of having phase shifts in the extension direction X and phase shifts in the Y direction makes it possible to have different effects depending on whether the two frames are moved relative to each other in the X direction or in the direction Y.
• the first elementary patterns of the second frame can be in the form of pixels and are separated from each other, along at least two second frame extension directions V and W, by second elementary patterns of the second frame, the first elementary patterns of the second frame being of the same shape and the same dimensions between them and the second elementary patterns of the second frame being of the same shape and the same dimensions between them.
• the two directions of extension V and W can form between them an angle comprised between 45° and 135°, better still between 60° and 120°, preferably 90°.
• Pigels means an individualizable elementary pattern, in particular of polygonal shape, in particular triangle, hexagon, rectangle or square.
• the first elementary patterns of one of the first frame and of the second frame can be in the form of lines as described previously and the first elementary patterns of the other of the first and of the second frame can be in the form of pixels as described above. This gives the same effect as in the case where the first and the second frame are formed of lines, but a clearer image.
• the first elementary patterns of the first frame and of the second frame can be in the form of pixels as described above.
• the first frame and/or the second frame may have polarization properties.
• the secure item may include a polarizing filter.
• the first and/or the second frame can be produced using a polarizing filter.
• the first and/or the second frame can each be produced according to at least one of the following steps: production of one or more perforations in at least one polarizing filter to form the first or the second frame, local heating of at least a polarizing filter, for example using a laser, so as to locally suppress the polarizing properties of the filter and to form the first or the second frame, selective application, for example by printing and/or gluing, on at least a polarizing filter, of a scattering material, for example a colloidal silica and/or an adhesive tape, to form the first or the second frame, performing at least one selective attack by chemical reaction and/or by emission of light radiation , in particular ultraviolet (UV) and/or infrared (IR) and/or laser, on at least one polarizing filter, optionally using a mask, to form the first or the second frame, in particular so as to locally cancel the e polarizing effect of the filter, application, in particular by printing or by coating, of at least one polarizing effect, in particular of a polar
• the first elementary patterns and/or the second elementary patterns of the first frame and/or of the second frame can be composed of one or more micropatterns. This makes it possible to reinforce the security of the secure article, the micropattern being for example observed using a magnifying glass and constituting level 2 security.
• the micropatterns can each be a number, a text, one or more alphanumeric signs, one or more ideograms, represent an object, a person, an animal, a monument, preferably be a number, a text, an alphanumeric sign or one or more several ideograms.
• the first elementary patterns and/or the second elementary patterns of the first frame and/or of the second frame can each be composed of several micropatterns, in particular of a micropattern repeating periodically in one or more directions over the entire dimension of the element according to this or these directions.
• micropatterns of an elemental pattern can form a line that appears continuous, especially when observed with the naked eye at a normal viewing distance.
• all the first elementary patterns of the first frame or of the second frame are composed of the same micropattern, in particular of a micropattern periodically repeating itself in one or more directions over the entire dimension of the elements in this or these directions.
• the micropatterns have at least one dimension less than or equal to 1 mm, better still less than or equal to 100 ⁇ m, even better still less than or equal to 50 ⁇ m. Given their size, the micropatterns are not apprehensible to the eye.
• the tone of the first elementary patterns and/or of the second elementary patterns of the first frame and/or of the second frame depends on the tone of the micropatterns composing them and on the background.
• the first and/or the second screen can be worn on the secure article or the other object by a printing process, in particular offset, intaglio, laser, photogravure, typography or screen printing, the first and/or the second screen being printed with colored or non-coloured inks, visible to the naked eye, under ultraviolet (UV) and/or infrared (IR) light, opaque, fluorescent, translucent and/or transparent.
• a printing process in particular offset, intaglio, laser, photogravure, typography or screen printing
• the first and/or the second screen being printed with colored or non-coloured inks, visible to the naked eye, under ultraviolet (UV) and/or infrared (IR) light, opaque, fluorescent, translucent and/or transparent.
• UV ultraviolet
• IR infrared
• first and/or the second frame may comprise metallizations and/or demetallizations, for example in different metals, in particular copper or aluminum and their alloys.
• At least one of the first and the second weft may appear on a zone of the secure article that is at least partially transparent, the superposition of the first and/or the second weft being carried out by folding the secure article or by overlay of the secure item with the other object.
• Folding of the secure article can be done along a center line of the article, preferably parallel to one side of the article, for example along a center line passing through the middle of the length of the article.
• the first and/or the second screen can be printed with liquid crystals and be worn on an area of the secure article or the light-polarizing object in such a way that the first and/or the second screen is only visible when folding the item on itself or stacking the secured item with the other object.
• the first and the second weft can be superimposed by being separated from each other by an interval of constant thickness.
• This interval can be formed by a transparent or translucent substrate having on the side of a first face of the substrate the first frame and on the side of a second face of the substrate, opposite to the first, the second frame superimposed on the first frame.
• the revealed image can then change, through a parallax effect, when the viewing direction of the secure item changes.
• the observable tone of each revealed sub-image may vary when changing the viewing angle, in particular in gradation between two different tones.
• the interval between the first and the second frame is preferably greater than or equal to the distance V 1 +V 2 corresponding to the period of the second frame, in particular between 10 ⁇ m and 1 mm, being for example less than 80 pm.
• the substrate may comprise or consist of a thermoplastic material, for example a polyolefin, for example polyethylene (PE), polyvinyl chloride (PVC), polyester, polyethylene terephthalate (PET), polycarbonate (PC), polyester carbonate (PEC), polyethylene terephthalate glycol (PETG), acrylonitrile butadiene styrene (ABS) or a light-collecting film, for example of the “waveguide” type, for example a luminescent film based on polycarbonate marketed by the company BAYER under the name LYSA® .
• the substrate may comprise cellulosic fibers and in particular paper.
• the substrate can be a paper that is sufficiently translucent to allow viewing through the underlying screen, in particular a tracing paper.
• the substrate can also be transparentized locally or not, by watermarking as described in patent EP 1252389, by compression and/or embossing of a suitable substrate as described in patent EP 2 516 113, or by application of a composition generally fat which transparentizes it permanently, for example a composition made of oil and transparent mineral material, as described in US Pat. No. 2,021,141, or for example a composition in the form of a wax combined with a solvent.
• the substrate a fibrous layer comprising a heat-fusible material, for example polyethylene, as described in patent EP 0203 499, which under the local action of heat will see its transparency vary.
• a heat-fusible material for example polyethylene
• the secure article can be at least partially made of paper or plastic, in particular comprise a laminated or extruded plastic sheet.
• the secure article may comprise at least one ply of paper, in particular based on natural and/or synthetic fibres, for example cotton or linen fibers in the case of a banknote.
• the secure article can be at least partially transparent or translucent, in particular opaque in reflected light and translucent in transmitted light.
• the first and/or the second frame can be carried by a film, a lamination strip, a patch and/or a foil appearing on the secure article.
• the film, the lamination tape, the patch and/or the foil can comprise metallizations and/or demetallizations, for example in aluminum or copper, or all types of printing.
• patch we understand an element of smaller dimensions than that of the secure article and which may not extend to the edge of the article.
• the patch may have a polygonal, circular, oval outline or forming a more complex pattern, in particular a pattern representing a text, an alphanumeric sign, an ideogram, an object, a person, a plant, a monument and/or an animal.
• [garlic” or “lamination strip” one understands an element applied in particular hot, for example by transfer to the secure article in particular from a support structure. This element can extend continuously from one edge of the article to the opposite edge.
• the film, the lamination tape, the patch and/or the foil can include holographic prints and/or liquid crystals.
• the first and/or the second weft can also be carried by a security thread, incorporated on the surface, in the mass or preferably in window(s) in the secure article.
• the first and/or the second frame can be incorporated as a window in the secure article.
• the window may be formed on the secure article during its manufacture.
• the window can be formed by a lack of material, for example the local absence of paper, above or below the first and/or the second frame, the window preferably being at least partially transparent or translucent on the side of the first and/or the second frame opposed to the lack of material.
• the window may still not have a lack of material.
• the window can for example be at least partially transparent or translucent above and below the first and/or the second frame, the transparent or translucent zones being superimposed on each other so as to be able to observe the two opposite sides of the secure item.
• the window can still be through.
• the window may have material gaps superimposed on either side of the first and/or the second frame. Two sides of the first and/or the second frame can thus be observed directly and not through transparent or translucent zones.
• the first and/or the second frame can be incorporated totally in the window or partially.
• the article may also have a plurality of windows as described above.
• the windows may or may not all be of the same type.
• Examples of the production of windows in secure articles are for example given in GB 1 552 853 which discloses the creation of a window in particular by transparentization, laser cutting, abrasion or mechanical incision, EP 0229 645 which describes the creation using masks of a window on one side or on both sides of a two-ply paper, WO 2004/096482 which describes the creation of a window by laser cutting, CA 2471 379 which describes the creation of a transparent window and association with a security element and WO 2008/006983 which describes the creation of a transparent window on a bijet paper.
• the secure article may also comprise a security thread having the first and/or the second weft, in particular a succession of first and/or second wefts.
• the secure item may further comprise two security threads, one carrying at least a first weft and the other carrying at least a corresponding second weft.
• the security thread or threads may have a sufficient width to allow the first and/or the second weft to appear therein in full.
• the width of the security thread or threads is preferably between 3 and 20 mm, more preferably between 4 and 10 mm and for example equal to 6 mm.
• first and/or the second weft advantageously appear on an area of the article that is at least partially transparent, in particular the first and/or the second weft can be at least partially transparent.
• the at least partially transparent zone may correspond to a recess, crossing or not, of the article in which the first and/or the second weft are placed.
• the zone is for example constituted by a translucent tracing paper.
• the zone may also be constituted by a polymer layer comprising, for example, polyethylene (PE), polyvinyl chloride (PVC), polyethylene terephthalate (PET), polycarbonate (PC), polyester carbonate (PEC), polyethylene terephthalate glycol (PETG), acrylonitrile butadiene styrene (ABS) or a light-collecting film, for example of the “waveguide” type, for example a luminescent film based on polycarbonate marketed by the company BAYER under the name LYSA ® .
• PE polyethylene
• PVC polyvinyl chloride
• PET polyethylene terephthalate
• PC polycarbonate
• PEC polyester carbonate
• PETG polyethylene terephthalate glycol
• ABS acrylonitrile butadiene styrene
• a light-collecting film for example of the “waveguide” type, for example a luminescent film based on polycarbonate marketed by the company BAYER under the name
• the secure item as well as the elements it contains such as a security thread, a patch and/or a foil, may include one or more additional security elements as defined below.
• security elements some can be detected by the eye, in daylight or in artificial light, without the use of a particular device.
• These security elements include, for example, colored fibers or boards, threads printed or metallized totally or partially. These security elements are said to be first level.
• security elements are detectable only with the aid of a relatively simple device, such as a lamp emitting in the ultraviolet (UV) or infrared (IR) range.
• These security elements include, for example, fibers, boards, bands, threads or particles.
• These security elements may or may not be visible to the naked eye, being for example luminescent under illumination by means of a Wood lamp emitting at a wavelength of 365 nm. These security elements are said to be of second level.
• security elements require a more sophisticated detection device for their detection.
• These security elements are for example capable of generating a specific signal when they are subjected, simultaneously or not, to one or more external excitation sources. The automatic detection of the signal makes it possible to authenticate, if necessary, the article.
• These security elements comprise, for example, tracers in the form of active materials, particles or fibers, capable of generating a specific signal when these tracers are subjected to optronic, electrical, magnetic or electromagnetic excitation. These security elements are said to be third level.
• the additional security elements present within the secure article may have first, second or third level security characteristics.
• a fluorescent layer preferably invisible in visible light, is placed: a) between the first and second frames when the latter are superimposed, and/or b) on the first frame on the side opposite to the second frame when the latter are superimposed, and/or c) on the second weft on the opposite side to the first weft when the latter are superimposed.
• Said fluorescent layer can be a coating, a print, a film or a support, in particular a support for the first screen and/or the second screen.
• the first and/or second elementary patterns of the first and/or of the second frame can be fluorescent and/or luminescent.
• the secure article or the superimposition of the secure article and the other object comprises at least the following successive layers: a first frame, a first fluorescent layer, preferably invisible in visible light, a second screen, and a second fluorescent layer, preferably invisible in visible light.
• the observation of said secure article or of said superposition of the secure article and the other object is done in particular by observation on the side of the first frame with illumination in UV light on the side of the first frame or on the side of the second layer fluorescent.
• the secure article can be a means of payment, such as a banknote, a check, a bank card or a restaurant ticket, an identity document such as an identity card or a visa or a passport or a driving licence, a lottery ticket, a secure card, a transport ticket or even an entry ticket to cultural or sporting events.
• the other object is an electronic imager making it possible to form a first image in order to be able to superimpose it on a second image present on the secure article, the first image being one of the first frame and of the second frame and the second image being the other of the first frame and the second frame.
• electronic imager is understood to mean an electronic device making it possible to produce an image by display or projection.
• the electronic imager may comprise a screen of any known type on which the first image is displayed.
• the electronic imager can be a projector of any known type, with or without a screen on which the projection takes place.
• the projector can make it possible to project the first image onto a background or onto the security article.
• the electronic imager preferably makes it possible to generate a pixelated image, each pixel of which is individually addressable, preferably with at least 256 levels of gray or colors, and/or with a resolution of between 50 and 1000 dpi.
• the electronic imager can be a projector projecting visible, infrared (IR) and/or ultraviolet (UV) light.
• IR visible, infrared
• UV ultraviolet
• the second image may appear on a non-opaque area of the secure item.
• a zone of reduced opacity may in particular correspond to a zone of less thickness, to a zone rendered transparent or to a zone comprising at least one layer of a non-opaque material.
• the opacity of said non-opaque zone will in particular be sufficiently low to allow observation in transmission of the first image.
• the article and the imager may or may not come into contact when the images are superimposed.
• the first image and/or the second image may have polarization properties.
• the first image is produced by the electronic imager using polarized light, including rectilinearly, circularly or elliptically polarized light.
• the electronic imager may comprise a screen emitting polarized light or project polarized light.
• the secure item may include a polarizing filter.
• the second image can be made using a polarizing filter.
• the second frame can be produced according to at least one of the methods previously described.
• the steps set out above will be carried out so as to form an image which is the positive or negative image of the second image.
• at least one polarizing filter for example by printing, a polyether-based aliphatic polyurethane, for example such as that marketed by the company LAMBERTI under the name Esacote® PU 21/S.
• the composition comprising cholesteric liquid crystals when during the implementation of the method according to the invention, the composition comprising cholesteric liquid crystals is located between the polarizing substrate and the electronic imager, the cholesteric liquid crystals modify the polarized light of the electronic imager which is not not stopped by the substrate and the areas covered with cholesteric liquid crystals appear transparent when the polarizing substrate is oriented so as to be opaque.
• the cholesteric liquid crystals exhibit an optically variable effect when the polarizing substrate is oriented to be opaque.
• the optically variable effect of cholesteric liquid crystals is more generally known as the "colorshift” effect, the color of the cholesteric liquid crystals depending on the angle of observation and these being observed in particular on a dark background, preferably black.
• the “colorshift” effect of cholesteric liquid crystals can provide additional security to authenticate and/or identify the secure item.
• the second image is defined by a first polarizing material superimposed on a second polarizing material, the first material extending in particular according to patterns corresponding to the second image and the second material extending continuously.
• the first material is preferably a cholesteric liquid crystal print and the second material is preferably a linearly polarizing substrate.
• patterns corresponding to the second image it is meant that said patterns form the second image in negative or in positive.
• the first and second images have polarization properties
• there is only one orientation relative to each other allowing one to partially mask the other.
• there is only one orientation of the first image with respect to the second image making it impossible to observe the first image through the polarizing zones of the second image, or vice versa.
• the first and second images exhibiting polarization properties consist of polarizing zones and of non-polarizing zones. When placed in front of a light source emitting polarized light, there is only one orientation in which the polarizing areas become opaque.
• the article comprises a polarizing filter
• the polarizing filter may only appear opaque, in particular black in color, in this orientation, preferably unique, of the first image with respect to the second image.
• the presence of a single orientation of the first and second images with respect to each other as described above can make it possible to authenticate and/or identify the secure article according to a first level of security.
• the electronic imager for example the screen of the electronic imager, and/or the secure article, can include an indicator making it possible to inform the user on how to position the first and second images with respect to each other. the other to obtain said orientation, for example a visual cue.
• the second image is printed with a compound, in particular liquid crystals, visible only when placed in front of an electronic imager emitting polarized light, in particular a liquid crystal screen.
• the second image is transparent under non-polarized illumination, for example under natural illumination, and is visible only under polarized illumination using the electronic imager, which provides additional security for the secure item.
• the secure item may include an integrated microcircuit, for example an RFID chip or an optical chip (activated for example by the light coming from G electronic imager), capable of communicating with G electronic imager so that the latter produces, in particular displays and /or projects, information providing information on how to position the first and second images relative to each other to obtain said orientation.
• an integrated microcircuit for example an RFID chip or an optical chip (activated for example by the light coming from G electronic imager), capable of communicating with G electronic imager so that the latter produces, in particular displays and /or projects, information providing information on how to position the first and second images relative to each other to obtain said orientation.
• the secure article may comprise an integrated microcircuit, for example an RFID chip or an optical chip, capable of communicating with the electronic imager so that the latter produces at least a first image whose association with the second image makes it possible to implement the method according to the invention.
• the electronic imager can produce at least a first image associated with a second image of the secure item by communication between the electronic imager and the integrated microcircuit.
• the electronic imager can produce a single image, inanimate or animated, for example of a translational movement, said single image constituting the first image.
• the electronic imager can produce a video representing the first image in motion, for example in translational motion.
• the electronic imager can also produce at least a first image from a photo and/or a video of the secure item, in particular from the second image of the secure item or from an identifier present on the item, such as a logo or serial number.
• the photo and/or video can be taken with the electronic imager, an image capture device, for example a digital camera, connected to the electronic imager by a wired connection or not and/or be transferred to the imager electronically, for example from a data storage device or via a network, such as the Internet.
• the first image can be produced solely from the photo and/or video of the secure item, or alternatively, be produced from the photo and/or video of the secure item and additional information, for for example information present on the secure article, on the photo and/or video, entered by the user, or even received from a network, for example from a secure server.
• the electronic imager may comprise a program making it possible to identify the secure item, and in particular the second image, and to produce, in particular to display and/or project, a first image obtained from a database providing on the first image to be used as a function of the secure article, in particular of the second image.
• the electronic imager can produce several first images and/or the secure article can comprise several second images, at least one of the first images making it possible to observe the authentication and/or identification information when superimposed on at least least one of the second images according to the method of the invention, or vice versa.
• a given electronic imager can make it possible to authenticate and/or identify secure items of different types, including in particular different second images.
• the second images are differentiated by their size, their color, their shape, even by the dimension according to the direction of extension of the first and/or second patterns of first and/or second frame.
• the first images can also be differentiated by their size, their color, their shape, or even by the dimension according to the direction of extension of the first and/or second patterns of first and/or second frame, or even by the size of the pixels, the spacing between the pixels or the color of the pixels.
• Electronic imagers can for example be differentiated by their brand, their model, their resolution, their type, namely computer screen, television or telephone, or projector, for example.
• first images and/or second images can make it possible to authenticate and/or identify the security article independently of the differences mentioned above.
• the first image produced by the electronic imager can come from a communication network with which the electronic imager communicates, for example a telephone network, the Internet or an internal network, the image being for example downloaded, and/or be supplied with the electronic imager, for example on a data medium, for example a hard disk, a USB key, a CD and/or a DVD.
• the security article may, where appropriate, include such a data medium.
• the data carrier can be an integrated microcircuit, for example an RFID or optical chip, communicating with the electronic imager.
• the secure article can comprise a luminescent zone, for example fluorescent and/or phosphorescent, and the electronic imager can project the first image onto the secure article under ultraviolet (UV) illumination.
• a luminescent zone for example fluorescent and/or phosphorescent
• UV illumination ultraviolet
• the second image can be a luminescent print, for example produced on a black opaque background of the secure article, on which the first image is projected under UV illumination. The second image is then only visible under UV illumination.
• the second image can still be printed on a luminescent background of the secure article, so that it is visible under both UV illumination and normal illumination.
• Another subject of the invention is a method for authenticating a secure article or a set of an article and another object as described above, in which the image revealed by the superposition of the first and the second frame with directions of extension of the first and the second X and V frame aligned and one concludes as to the authenticity of the article at least on the basis of this observation.
• the observation of the revealed image preferably includes the identification of a particular pattern comprising at least two revealed sub-images of different appearances, in particular of different tones and/or opacity.
• the method comprises changing the relative position of the first frame and the second frame relative to each other, in particular by changing the angle of observation and/or moving the second frame relative to the first frame and the observation of a change in aspect(s), in particular tone(s) and/or opacity(s), of the image revealed at the level of one or more sub-frames and so conclude as to the authenticity of the article at least on the basis of this observation.
• the method may include identifying a first relative position of the first and second frames at which a first sub-image of the revealed image has a first tone and, for each different sub-image of the first sub- image, a second relative position of the first and of the second frame different from the first position at which said sub-image has the first tone, the second relative positions of the first and of the second frame being different from each other.
• at least one of the different sub-images of the first sub-image is of different tone from the first tone at the first position of the first and of the second frame and the first sub-image has a different tone from the first tone at at least one of the second relative positions of the first and of the second frame.
• the method may comprise the identification, for each first tone of the image revealed at the first position, of at least two second relative positions of the first and of the second frame different from the first position and different from each other for which the first tone is the tone of a sub-image of the revealed image different from that at the first position.
• the second positions correspond, with respect to the first position, to displacements of a distance equal to a multiple of the smallest phase shift m between the sub-frames of the first frame.
• the method may comprise the identification of a first relative position of the first and of the second frame at which all the sub-images of the revealed image are of visually different tones and the identification of a second position relative of the first and of the second frame for which 2*r sub-images of the revealed image corresponding to 2*r sub-frames of the n sub-frames of the first frame are two by two of the same tone, the sub-frames images of the revealed image corresponding to the remaining (n-2*r) sub-frames of the first frame being of different tones from the 2*r sub-images corresponding to the 2*r sub-frames of the n sub-frames of the first frame.
• the revealed image preferably has a movement effect during the relative displacement of the first frame with respect to the second frame.
• the at least partial superposition of the first and the second weft can be done by folding the secure article and/or by superimposing the secure article and the other object.
• each revealed subframe exhibits a continuous tonal change over a range of displacement of the first frame relative to the second frame from an initial relative position of the first frame relative to the second frame.
• the subframes corresponding to each of the n subframes exhibit identical continuous tonal changes over a same range of displacement from different initial relative positions of the first frame relative to the second frame, the different initial relative positions being shifted between them of a multiple of the smallest phase shift between the n subframes.
• the method may comprise at least one of the following steps: at least partially superimposing the second image of the article with a first image formed by G electronic imager in order to make it possible to observe information for authentication and/or identification of the secure article. at least partially superimposing the second image of the article with a first image produced by the electronic imager following a communication between the integrated microcircuit and the electronic imager, and/or at least partially superimposing the second image of the article with a first image produced by G electronic imager from a photo and/or video of the secure article, in particular of the first image.
• the photo and/or video can be taken with the electronic imager, an image capture device, for example a digital camera, connected to the object and/or be transferred to the electronic imager, for example from a data storage device or via a network, such as the Internet.
• an image capture device for example a digital camera
• Figure 1 schematically represents an example of a first frame
• Figure 2 is a partial enlarged view of detail II of Figure 1,
• FIG 3 figure 3 schematically represents an example of a second frame
• Figure 4 shows an example of different revealed images obtained by superimposing a first and a second frame similar to those of Figures 1 and 3 at different relative positions of the first and second frames. one relative to the other, the directions of extension of the first and second weft being aligned,
• Figure 5 is a cross-sectional view of the superposition of the first and the second weft seen at normal incidence
• FIG 6 figure 6 is the same view as figure 5 seen with an angle a,
• Figure 7 is an example of a secure article
• FIG 8 figure 8 is a secure article variant
• FIG 9A figure 9A schematically represents, in cross-section, a secure article variant
• Figure 9B schematically represents, in cross section, a secure article variant
• FIG 9C figure 9C schematically represents, in cross-section, a secure article variant
• FIG 9D figure 9D schematically represents, in cross section, a secure article variant
• Figure 10 schematically shows, in cross section, a secure item variant
• FIG 11 Figure 11 schematically shows, in cross section, a secure article variant
• FIG 12 shows an embodiment of a secure article, the first or the second frame being carried by a window of the article,
• Figure 13 shows an embodiment of a secure item, the first and second frames being carried respectively by a window and a patch,
• figure 14 represents the folded secure article
• FIG. 15 represents a variant embodiment of a secure article, the first and/or the second weft being carried by at least one security thread or a foil
• FIG. 16 represents a variant embodiment secure article, the first and/or the second weft being carried by at least one security thread or a foil
• FIG. 17 represents a variant embodiment of the secure article, the first and/or the second weft being carried by at least one security thread or a foil
• FIG. 18 FIG.
• FIG. 18 represents an alternative embodiment of a secure article, the first and/or the second weft being carried by at least one security thread or a foil
• FIG 19 represents a variant embodiment of a secure article, the first and/or the second weft being carried by at least one security thread or a foil
• figure 20 represents a variant for producing a secure article, the first and/or the second frame being po attached by at least one security thread or a foil
• Figure 21 shows a variant of the assembly comprising an electronic imager and an article
• figure 22 represents an assembly variant comprising an electronic imager and an article
• figure 23 represents an assembly variant comprising an electronic imager and an article
• figure 24 represents a variant of first images formed by an electronic imager
• figure 25 represents an article variant comprising an integrated microcircuit
• figure 26 represents an overall variant, the article comprising a second image in the form of a second frame and the electronic imager producing a first image in the form of a first frame,
• Figure 27 is a variation of revealed images obtained at different relative positions of the first and second frame
• Figure 28 is a variation of revealed images obtained at different relative positions of the first and second frame
• Figure 29 is a variant of revealed images obtained by observation from the side of the first and second frame
• FIG 30 figure 30 is a variant of a revealed image
• Figure 31 is a detail of a second frame variant
• Figure 32 is a variant of revealed images obtained by observation from the side of the first and second frame
• Figure 33 is a variant of revealed images obtained by observation from the side of the first and second frame
• figure 34 is a variant of revealed images obtained by observation from the side of the first and second frames
• Figure 35 is a first frame variant
• Figure 36 is a second frame variant corresponding to the first frame of Figure 35,
• Figure 37A is a second frame variant
• Figure 37B is a second frame variant
• Figure 38 is a second frame variant
• Figure 39 is a variant of revealed images obtained by superimposing the first frame of Figure 27 and the second frame of Figure 38
• Figure 40 is a detail of a variant of second frame
• Figure 41 is a detail of a first frame variant
• Figure 42 is a variant of revealed images obtained by superimposing the second frame from which Figure 40 is taken and the first frame from which Figure 41 is taken and relative displacement of the first and second frames in the extension direction X,
• Figure 43 is a variant of revealed images obtained by superimposing the second frame from which Figure 40 is taken and the first frame from which Figure 41 is taken and relative displacement of the first and second frames in the extension direction Y,
• Figure 44 is a detail of a first frame variant
• Figure 45 is a variant of revealed images obtained by superimposing the second frame from which Figure 40 is taken and the first frame from which Figure 44 is taken and relative displacement of the first and second frames in the extension direction X,
• Figure 46 is a variant of revealed images obtained by superimposing the second frame from which Figure 40 is taken and the first frame from which Figure 44 is taken and relative displacement of the first and second frames in the extension direction Y,
• Figure 47 is a detail of a first frame variant
• Figure 48 is a detail of a second frame variant.
• any change in tone or opacity described corresponds to a visually perceptible change.
• FIGS. 1 and 2 There is illustrated in FIGS. 1 and 2 an example of a first frame 10 comprising six first frame sub-frames 12i to 12 O each consisting of a periodic alternation, in a direction of extension of the first frame X, of a first elementary pattern of first frame 14 having the shape of a first line and a second elementary pattern of first frame 16 having the shape of a second line.
• the first lines 14 of the first frame of the different sub-frames 12i to 12e are all substantially of the same width xi over their entire length and the second lines 16 of the first frame of the different sub-frames 12i to 12e are all of substantially the same width X2 over their entire length.
• the various subframes 12i to 12e all have the same period xi+X2 and the same general appearance.
• Each first frame subframe 12i is out of phase in the extension direction X with each of the other first frame subframes by a non-zero distance d x .
• the adjacent sub-frames 12iet 12i +i are out of phase with each other by the same distance d xü+i , corresponding to the smallest phase shift m between the sub-frames of the first frame.
• the smallest phase shift m separates two adjacent subframes, but it could be otherwise.
• the smallest phase shift m could, for example, be the phase shift between subframes 12i and 12i+2.
• the distance m is less than the width xi of the first lines of the first frame 14. But it could be otherwise.
• the first and second lines of the first frame 14 and 16 have longitudinal axes Y parallel to each other and perpendicular to the direction of extension of the first frame X. But it could be otherwise, they could be inclined with respect to the direction extension of first frame X.
• the first and second lines of the first frame 14 and 16 are rectilinear. But it could be otherwise as we will see later as a variant.
• the first lines and second lines of the first frame 14 and 16 of each of the sub-frames 12i to 120 are continuous and of uniform appearance over their entire length, but it may be otherwise as we will see later.
• the first lines of the first frame 14 are all of the same dark appearance, for example opaque and black, and the second lines of the first frame 16 are all of the same light appearance, for example transparent or white. being partially transparent or not, preferably at least partially transparent. However, it could be otherwise as we will see later in an alternative.
• the period xi+X2 is less than or equal to 100 ⁇ m, even better between 20 ⁇ m and 80 ⁇ m.
• the smallest phase shift m between subframes 12i to 12e is less than or equal to 50 ⁇ m, preferably less than or equal to 32 ⁇ m. This value corresponds to a resolution of the first frame 10 less than or equal to 800 dpi, which represents a limit for conventional printers which generally have a maximum definition of 600 dpi, and which constitutes a safety factor.
• the sub-frames 12i to 12e are contiguous with each other by their contours without overlapping and represent concentric discs nested one inside the other.
• the sub-frames 12i to 12e can be joined by their simple juxtaposition as illustrated or be joined by joining portions ensuring the continuity of the lines of the sub-frames 12i to 12e adjacent to each other.
• a sufficiently thin first frame appears homogeneous in appearance, for example substantially gray here in transmitted light, the level of gray depending on the widths xi and X2 of the first and second lines of the first frame 14 and 16.
• the various sub-frames 12i to 12 ⁇ are normally not visible to the naked eye. They are visible only by magnification of the first frame as is the case in Figures 1 and 2.
• the first screen 10 can be formed by printing, in particular by black and white or four-color printing.
• the first frame 10 is formed by metallization and/or demetallization.
• the first frame 10 can also be formed by an electronic imager 100.
• FIG. 3 There is illustrated in FIG. 3 an example of a second frame 20 consisting of a periodic alternation, in a direction of extension of the second frame V, of a first elementary pattern of the second frame 24 having the form of a first line and a second elementary pattern of second frame 26 having the form of a second line.
• the first lines of the second frame 24 are of the same width vi over their entire length and the second lines of the second frame 26 are of the same width V2 over their entire length.
• the second frame 20 then has a period vi+V 2 .
• the first and second second frame lines 24 and 26 have longitudinal axes W parallel to each other and forming with the second frame extension direction V an angle identical to the angle between the longitudinal axes Y of the first frame lines and the first X frame extension direction.
• the first lines and second lines of the second frame 24 and 26 are continuous and of uniform appearance over their entire length, but it may be otherwise as we will see later.
• the first lines of the second frame 24 all have the same dark appearance, for example opaque and black, and the second lines of the second frame 26 are all transparent. Alternatively, they could be partially transparent or opaque of a different appearance from the first second frame lines 24 in the case where the second first frame lines 16 are at least partially transparent.
• the period xi+X2 of the first frame is a multiple of the period vi+V2 of the second frame. In the preferred illustrated example, the period xi+X2 of the first frame is equal to the period vi+V2 of the second frame.
• the width of the first line of the second frame vi is substantially equal to the width of the first line of the first frame xi. But it could be otherwise, in particular the first line width of the second frame vi could be greater than the first line width of the first frame xi.
• the second frame 20 has dimensions allowing it to cover at least two sub-frames 12i to 12 O of the first frame when it is superimposed on the first frame 10, preferably, as illustrated, to cover all the sub-frames 12i to 12 .
• the second frame 20 has the same shape as the first frame 10.
• the resolution of the second frame 20 is preferably greater than or equal to
• the second frame 20 may as such have a homogeneous appearance to the naked eye and at a normal viewing distance, given its fineness.
• the second frame may appear to the naked eye at a distance of 15 cm as having a uniform color, in particular gray, more or less dark depending on the widths vi and V2 of the first and second lines of the second frame 24 and 26.
• the second screen 20 can be formed by printing, in particular by black and white or four-color printing.
• the second frame 20 is formed by metallization and/or demetallization.
• the second frame 10 can also be formed by an electronic imager 100.
• a revealed image 30 as represented in the example of FIG. 4, image a can be observed at least by visualization in reflection on the side of the second frame 20.
• the revealed image 30 then comprises several revealed sub-images 32i to 32e correspond to different first-frame sub-frames of which at least two have different aspects, in particular different gray levels.
• the first opaque second frame lines 24 more or less mask the first first frame lines 14 of each of the first frame sub-frames 12i to 12 O , the first first frame lines 14 of each first frame subframes 12i to 12e being more or less visible by transparency through second lines of second frame 26 at least partially transparent.
• the first frame 10 is similar to the first frame 10 illustrated in FIG. 1. It has six sub-frames, successively phase shifted by the same phase shift m, the contours of which form concentric circles.
• the second frame 20 is similar to that illustrated in FIG. 2.
• the first lines 14 of the subframe 12i are largely obscured by the first lines of the second frame 24, the corresponding revealed sub-image 32i is then clear and results from the visualization of first lines of second frame 24, and parts of the first lines and second lines of first frame 14 and 16 visible through the second lines of second frame 26, the first lines 14 of the sub-frame 12 2 are partially visible through the second lines of the second frame 26 being a little more visible than the first lines 14 of the sub-frame 12i, the sub-image revealed corresponding 32 2 is then a little darker than the previous 32i, the first lines 14 of the sub-frame 12 3 are partially visible through the second lines of the second frame 26 being a little more visible than the first st lines 14 of the subframe 12 2 , the corresponding revealed sub-image 32 3 is then a little darker than the previous one 32 2 , the first lines 14 of the subframe 12 4 are partially visible through the second lines of second frame 26 being a little more visible than the first lines 14 of the sub-frame 12 3 , the corresponding revealed sub-
• the various revealed sub-images 32i to 32e can all be of different tones at a particular position of the two frames 10 and 20 between them, as illustrated in FIG. 4, image a.
• Four of the revealed sub-images 32i to 32e can be of identical tones two by two at a particular position of the two frames 10 and 20 between them as illustrated in FIGS. 4, images c and d, the said tones being degraded tones between the dark tone and the light tone of the other two revealed sub-images.
• the revealed image is only observable if the second lines of the first frame 16 are at least partially transparent.
• the first lines of the second frame 24 are more or less visible through the second lines of the first frame 16 according to the phase shift of the subframes, which generates the same type of revealed image 30.
• the revealed image 30 is visible in transmitted light and reflected light.
• the revealed image 30 may appear homogeneous to the naked eye.
• the tone and opacity of the revealed image 30 depends on the tones and opacity of the parts of the first and second lines of first and second frames which are not hidden.
• a secure article according to the invention comprises a non-opaque substrate 55 of thickness e, for example perfectly transparent, having a first face 55a carrying the first weft 10 and a second face 55b of substrate 55, opposite the first, carrying second frame 20.
• a secure article according to the invention comprises a non-opaque substrate 55 of thickness e, for example perfectly transparent, having a first face 55a carrying the first weft 10 and a second face 55b of substrate 55, opposite the first, carrying second frame 20.
• there are 4 sub-frames 12i to 12 4 there are 4 sub-frames 12i to 12 4 .
• G user changes the relative position of the two frames 10 and 20 and the revealed image 30 is modified as described above and illustrated in Figure 6.
• the subframes 12i to 124 are successively phase-shifted by (xi+ X2)/ 4 , the first elementary patterns of first and second frames 14 and 24 are opaque black with a width (xi+ X 2 )/2 and the second patterns of first and second frames 16 and 26 are transparent.
• the visible parts of the first frame through the second patterns of the second frame 26 are represented by gray outline rectangles.
• the first elementary patterns of the first frame 14 of the sub-frame 12i are not visible, the revealed sub-image is therefore light gray, the first elementary patterns of the first frame 14 of the sub-frame 12 3 are totally apparent, the sub-image the revealed image 32 3 is therefore black, the first elementary patterns of the first frame 14 of the sub-frames 12 2 and 12 4 are half visible, the corresponding revealed sub-images are therefore of an intermediate gray between light gray and black.
• the visible parts of the first screen through the second second screen patterns 26 are represented by rectangles of gray outline.
• the first elementary patterns of the first frame 14 of the sub-frame 12i are completely visible, the revealed sub-image is therefore black, the first elementary patterns of the first frame 14 of the sub-frame 12 3 are not visible, the sub-image revealed image 32 3 is therefore light grey, the first elementary patterns of first frame 14 of sub-frames 12 2 and 12 4 are half visible, the corresponding revealed sub-images are therefore of an intermediate gray between light gray and black.
• the revealed sub-image 32i will go from light gray to black taking all the shades of gray in between, the revealed sub-image 32 3 will go from black to gray light by taking all the shades of gray between the two (in reverse of the revealed sub-image 32i), the revealed sub-image 32 2 will go from intermediate gray to black then again to intermediate gray by taking all the shades of gray between the intermediate gray and the black, the revealed sub-image 32 4 will pass from the intermediate gray to the light gray then again to the intermediate gray by taking all the shades of gray between the intermediate gray and the light gray.
• the thickness e of the substrate is greater than or equal to the period of the second frame vi+V2.
• a substrate 55 whose thickness e is less than or equal to 100 ⁇ m, better still less than or equal to 75 ⁇ m, for example between 30 and 100 ⁇ m, or even between 35 and 75 ⁇ m, limits included or excluded.
• first and second elementary patterns of first and second frame two-dimensional registration of the frames between them may be necessary to facilitate their correct alignment.
• two-dimensional registration may be necessary to facilitate their correct alignment.
• frames 10 and 20 as illustrated in Figures 1 and 3 only the fact that the directions of extensions X and V are parallels is necessary; however, for wavy frames as we will see later, a more or less precise two-dimensional registration, depending on the amplitude and the frequency of the ripples, may turn out to be desirable.
• the invention thus offers a possibility of modular securing according to the protection requested and the difficulty of implementation.
• the first frame 10 can be obtained by micro-photolithography of the wire and the second frame 20 can be produced using offset printing with cross-linking inks under UV carried out in a second time, when printing the article.
• the second frame 20 can be associated, if necessary, with a print pattern of the article.
• the design of the second screen can be printed elsewhere than superimposed on the first screen 10, on the article, at the same scale or at a different scale.
• the printing of the second frame 20 can overflow the first frame 10 and extend over the secure article 50, as shown in Figure 7.
• first and/or second wefts having for example the shape of small squares or rectangles with a side of a few millimeters, can be present on the same security thread 60, as illustrated in FIG. 8.
• the article may comprise, at the level of the windows 61 and 62, lacks of material and transparent zones 65 and 66 allowing the observation of the revealed images 30 on both sides of the secure article 50.
• the article 50 can also comprise a through window 61, as represented in FIG. 9D, the two wefts 10 and 20 being superimposed at least partially in this through window. In this way, it is possible to observe the revealed images 30 both on the front side and on the back side of the secure article 50.
• the two wefts 10 and 20 in the form of a security thread can also be incorporated into a secure article 50 which has alternating windows 61 and 62 on the recto side and on the verso side, as illustrated in FIG. 9C. It is thus possible to observe the images revealed both on the front side and on the back side of the secure article 10 at the level of the windows 61 and 62, and in particular due to the presence of lacks of material and of the transparent zones 65 and 66.
• FIG 10 there is shown in Figure 10 an example of a secure article 50 comprising a perforation 65 in which are placed at least partially two sub-elements, in particular in the form of foils or patches, 67 and 68.
• the sub-element 67 comprises for example the second frame 20 and the sub-element 68 comprises for example the corresponding first frame 10.
• the sub-elements 67 and 68 can be superimposed at least partially on the edges of the perforation 65 with or without thickness compensation.
• Sub-elements 67 and 68 can be at least partially transparent or translucent.
• the observation of the revealed images 30 can be done by observation in reflection or in transmission, for example using a light source located behind the article 50 during the observation.
• the secure article 50 comprises a first frame 10 produced in the form of impressions.
• the prints are for example made on the surface of the secure article 50.
• a sub-element 69 in particular in the form of a foil or patch, is placed on the prints constituting the first frame 10, the sub-element 69 comprising the corresponding second frame 20, for example produced on the surface of the sub-element 69.
• the secure article 50 can be opaque or not.
• the secure article 50 can be at least partially transparent or translucent to allow observation of the revealed images 30.
• first frames 10 and/or the second frames 20 could be made differently, being for example incorporated or located above or below the sub-elements 67, 68 and 69.
• the secure article 50 comprises a window 70, preferably at least partially transparent, in which appears the second frame 20.
• the article 50 also comprises a first frame 10 carried on the article 50, for example by printing, in particular intaglio printing, offset printing or metallization and/or demetallization.
• the area on which the first frame 10 appears can also be at least partially transparent.
• the user To observe the revealed image 30, the user must therefore fold the secure article 50, as illustrated in FIG. 14, to bring the second frame 20 onto the first frame 10 so that their direction of extension X and V are aligned and observe the revealed image 30.
• the revealed image 30 is not observable when the article 50 is not folded and it requires an action from the user, namely folding the secure article 50, to make them appear.
• the secure article 50 comprises a window 70, preferably at least partially transparent, in which appears the first frame 10.
• the article 50 also comprises a patch 75 comprising for example holographic prints, on which appears the second weft 20. Patch 75 can also be at least partially transparent.
• the patch 75 may include metallizations and/or demetallizations, for example aluminum, and the second frame 20 may include holographic prints and/or metallizations and/or demetallizations.
• the article 50 comprises a window 70, preferably at least partially transparent, on which the second weft 20 appears.
• the article 50 also comprises a security thread 60 on which the first weft 10 appears.
• security 60 can also be at least partially transparent or include a partially transparent area at the level of the first frame 10.
• FIG. 16 to 20 there is shown in Figures 16 to 20 other examples of secure items 50 according to the invention comprising a first and a second weft 10 and 20 carried by at least one security thread or a foil 60.
• the article 50 comprises a security thread 60 of sufficient width to show an alternation of first and second wefts 10 and 20.
• the security thread 60 is at least partially transparent or has one or more several at least partially transparent zones at the level of the first and/or second frames.
• the article 50 comprises a security thread 60 on which appears a second weft 20.
• the article 50 also comprises a first weft 10, for example in the form of an offset printing on the article 50.
• the security thread 60 can be at least partially transparent or have an at least partially transparent zone.
• the article 50 can also comprise an at least partially transparent zone at the level of the first weft 10.
• item 50 has two security threads 60a and 60b.
• Security thread 60a has three first wefts and security thread 60b has three second wefts 20.
• the security thread 60a and/or the security thread 60b can be at least partially transparent or comprise at least one at least partially transparent zone, in particular at the level of a first frame 10 or a second frame 20.
• the article 50 comprises a foil 70 on which appears an alternation of first wefts 10 and second wefts 20.
• the foil 70 can be at least partially transparent or comprise at least one at least partially transparent zone at the level of a first frame 10 and/or a second frame 20.
• the article 50 comprises a security thread 60 on which appears a first weft 10.
• the article 50 also comprises a patch 55, which can comprise holographic metallizations or not, on which appears a second weft 20.
• the security thread 60 can be at least partially transparent or comprise an at least partially transparent zone at the level of the first weft 10.
• the patch 55 can also be at least partially transparent, in particular at the level of the second frame 20.
• first and second frames 10 and 20 can be interchanged.
• the at least partially transparent zones can be located at the level of the first frames 10 or of the second frames 20, or at the level of both at the same time.
• the security thread or threads 60, 60a and 60b can be introduced into the secure article 50 in a conventional manner, for example on the surface, in bulk or in window(s).
• the authentication of the articles 50 can be done by folding them lengthwise or widthwise so as to at least partially overlap the first and second frames, then by moving relatively with respect to each other and/or by modifying the angle of observation of the first or second superimposed, so as to visualize for example the illusion of a movement.
• FIGS. 21 to 23 show examples of association between a secure article 50 and an electronic imager 100 making it possible to form the first or the second frame 10 or 20.
• the electronic imager 100 is for example a computer screen on which a first image 110 is displayed, the first image 110 being the first or the second frame 10 or 20.
• the secure item 50 is for example in the form of a banknote and comprises a second image 120, the second image being the second frame 20 if the first image is the first frame 10 and vice versa.
• the secure item 50 is placed on the screen of the electronic imager 100 so as to at least partially superimpose the first image 110 on the second image 120 to observe the revealed image 30 and deduce therefrom authentication information and/or or identification of the secure item 50.
• the secure article 50 can be moved relative to the screen of the electronic imager 100 or the observer can change the viewing angle to allow observation of a change in the revealed image 30.
• the secure article 50 remains immobile relative to the screen of the electronic imager 100 and the first image 110 is animated by a movement on the screen, for example a translation, for example using a program activated or not by the user.
• the electronic imager 100 is for example in the form of a digital projector, projecting a first image 110 onto a background 150, for example the wall of a room.
• the secure article 10 comprising the second image 120 can then be superimposed at least partially on the first image 110 projected on the background 150 to allow observation of the revealed image(s) I r .
• the electronic imager 100 is a projector that projects the first image 110 directly onto the secure item 10.
• the first image 110 can, as in the example of FIG. 21, be projected, for example in the form of an “F”, onto an area of the secure article 50 where the second image 120 is not present. Then, the secure article 10 is for example folded on itself so as to superimpose the second image 120, for example in the form of an “O”, on the first image 110 projected by the electronic imager 100.
• the part of the article 50 comprising the second image 120 can in particular be arranged on the part comprising the first image 110, this part remaining immobile, so that the first image 110 is located between the imager 100 and the second image 120.
• the first image 110 is projected directly onto the second image 120 of the article 50.
• the projection of the first image 110 onto the second image 120 of the article 50 can allow an at least partial superposition of the first and second images.
• the electronic imager 100 can be moved relative to the article 50 to move the second frame 20 relative to the first frame 10.
• FIG. 24 There is shown in FIG. 24 a variant embodiment in which the electronic imager 100 is a screen displaying several first images 110a, 110b, 110c and 110d.
• the first images 110a to 110d can have different properties, for example different shapes, colors, dimensions, first and/or second first and/or second frame patterns.
• the first images 110a to 110d are differentiated so as to allow at least one of them to be associated with at least one second image 120 present on an article 50.
• the article 50 includes several different second images 120 and the electronic imager 100 produces one or more first images 110.
• the electronic imager 100 produces one or more first images 110.
• the electronic imager 100 can display one or more indicators 140a, 140b, 140c and 140d making it possible to inform the user on how to position the article 50 represented in FIG. 24 with respect to the imager.
• the indicators 140a to 140d can make it possible to know where to position the upper right corner of the article 50, so as to correctly superimpose a second image 120 of an article 50 on a first image 110a, 110b, 110c or 110d displayed on the screen of the electronic imager 100.
• the article 50 may comprise an integrated microcircuit 152, for example an RFID or optical chip, making it possible to communicate with the electronic imager 100 in order to control the display of an indicator as described previously or to broadcast information on how to position the first and second images.
• an integrated microcircuit 152 for example an RFID or optical chip
• the chip 152 is able to communicate with the electronic imager 100 to produce the first image 110 associated with the second image 120.
• the second image 120 is illuminated with the electronic imager 100.
• the chip 152 comprises information transmitted to the electronic imager 100 which projects or then displays the first image 110 based on this information.
• the article 50 in particular the second image 120, can be photographed and/or filmed by a digital camera belonging to or connected to the electronic imager 100.
• a recognition program can then make it possible to recognize the second image 120 and to acquire from a database a first image 110 associated with the second image 120.
• the database is for example stored on a secure server.
• the first image 110 thus obtained is displayed and/or projected by the electronic imager 110 to make it possible to authenticate and/or identify the article 50.
• the electronic imager 100 is in the form of a portable telephone on which a first image 110 is displayed in the form of a first frame 10.
• the article 50 comprises a polarizing filter on which a the second image 120 has been formed in the form of the second frame 20.
• the article 50 comprising the second image 120 in the form of the second frame 20 is superimposed on the first image 110 in the form of a first frame 10 produced by the electronic imager 100, the latter emitting polarized light by aligning the directions of extension of the first and second frames 10 and 20.
• the article 50 comprising the second frame 20 can be moved by a translational movement relative to the first frame 10 displayed by the screen of the electronic imager 100, so as to cause the revealed image 30 to change.
• the article 50 comprising the second frame 20 can be stationary and the imager can display a first frame 10 mobile on the screen according to a translational movement in the direction corresponding to the direction of extension of the frame. corresponding, so as to cause the revealed image 30 to change.
• Such a method makes it possible to authenticate and/or identify the security article 50 according to several security levels.
• Revealing the animation of the revealed image 30 by moving the second frame 20 relative to the first frame 10 provides a second level of security.
• the electronic imager 100 is a screen, in particular of the LCD type, comprising a plurality of pixels preferably forming a first frame, for example as described in FIG. 21.
• Figures 27 and 28 differ from previous embodiments in the shape of the first frame subframes.
• the n subframes 12i to 12n have concentric spiral shaped outlines so as to form revealed subframes 32i to 32n in the shape of concentric spirals having different gray levels. .
• the n subframes 12i to 12n are successively phase shifted by a smallest phase shift m substantially equal to (xi+X2)/n and xi and vi are substantially equal to (xi+X2)/2.
• the relative displacement of the two frames 10 and 20 between them gives an effect of movement of the spiral giving the impression that it is rolling up on itself, each tone moving from one sub-image to an adjacent sub-image during the relative displacement of the two frames 10 and 20 between them, as can be seen in FIG. 27, images a to f.
• the revealed image 30 can form any gradient image between two tones, in particular in levels of gray.
• the sub-frames 12i to 12n have contours configured to form a revealed image 30 representing the portrait of Mona Lisa in different levels of gray, as is clearly visible in Figure 28, image has.
• images a to e generates a change in the gray levels of the different sub-images revealed as described previously and the portrait of Mona Lisa changes in passing in particular through a stage of the portrait in negative as illustrated in figure 28, image c.
• Figures 29-34 differ from previous embodiments in the color of the first and second lines of the first and second frames.
• the first elementary patterns of first frame 14 are plain in opaque magenta color
• the first elementary patterns in second frame 24 are plain in opaque cyan color
• the second elementary patterns in first and second frames 16 are uniformly transparent.
• the background is white.
• the sub-frames 12i to 12 n have the same contours as those of FIG. 27.
• the revealed sub-images respectively take on the colors of a gradient spectrum between lightened cyan, a 50/50 mixture of cyan of the first elementary patterns of the second frame 24 and of the background when the first elementary patterns of second frame 24 completely obscure the first elementary patterns of the first frame 14, visible at the level of the revealed sub-image 32i, and a blue-violet, 50/50 mixture of magenta and cyan when the first elementary patterns of the first frame 14 are totally visible through the second elementary patterns of the second frame 26, visible at the level of the revealed sub-image 32 2 .
• image b When the article 50 is viewed from the side of the first weft 10, as shown in Figure 29, image b, a revealed image 30b is visible.
• the revealed sub-images respectively take on the colors of a gradation spectrum between lightened magenta, mixing 50/50 of magenta of the first elementary patterns of first frame 14 and white of the background when the first elementary patterns of first frame 14 totally obscure the first elementary patterns of first frame 14 , visible at the level of the revealed sub-image 32i , and the preceding blue-violet, visible at the level of the revealed sub-image 32 2 .
• the revealed image 30 is therefore of different colors depending on whether it is observed from the side of the first or the second frame.
• the first elementary patterns of the first frame 14 are plain in opaque magenta color
• the first elementary patterns in the second frame 24 are plain in opaque cyan color
• the second elementary patterns in the first frame are plain in yellow color opaque
• the second elementary patterns of the second frame 16 are uniformly transparent.
• the sub-frames have the same contours as FIG. 27. The revealed image is only observable on the side of the second frame 20.
• the revealed sub-images take on the colors of a gradient spectrum between green, mixing 50/50 cyan of the first elementary patterns of the second frame 24 and yellow of the second elementary patterns of the first frame 16 when the first elementary patterns of the second frame 24 totally obscure the first elementary patterns of the first frame 14, visible at the level of the revealed sub-image 32i , and the preceding blue-violet, visible at the level of the revealed sub-image 32 2 .
• any color gradient between two particular colors is possible by carefully choosing the colors of the different elementary patterns of the first and second frames. It is also possible to choose the opacity of the elementary patterns adequately to give different effects.
• the first weft 10 is identical to that of the embodiment of FIG. 29 and the first elementary patterns of the second weft 24 have portions of their length 24a colored yellow and portions of their length 24b in cyan color as can be seen in FIG. 31.
• the second frame 20 is observed alone, the observer then sees a lightened yellow fish on a lightened cyan background.
• the portions of the image revealed at the level of the cyan color portions of the first elementary patterns of the second frame 24b are identical to that of the embodiment of the figure 29 described previously.
• the fish-shaped pattern is found on the revealed image 30a with a spiral gradient ranging from yellow, when the yellow-colored portions of the first elementary patterns of the second frame 24a totally obscure the first elementary patterns of the first frame 14, visible at the level of the revealed sub-image 32i, to red, 50/50 mixture of yellow and magenta when the first elementary patterns of the first frame 14 are totally visible through the second elementary patterns of the second frame 26, visible at the level of the revealed sub-image 32 2 .
• the outline of the fish-shaped pattern is clearly visible, and the spiral appears to be inside the fish with different colors inside and outside the fish.
• image b when the first elementary patterns of the first frame 14 totally obscure the first elementary patterns of the second frame 24, the contours of the portions of the first elementary patterns of second yellow color frame 24a are not visible and the fish-shaped pattern is not visible, only a magenta color spiral appears, as can be seen at sub-image 32i in Fig. 32, image a, and when the first elementary patterns of the second frame 24 are completely visible through the second elementary patterns of the first frame 16, the contours of the portions of the first elementary patterns of the second frame of yellow color 24a are visible, the parts corresponding to the fish appearing of a red color identical to the previous one, as can be seen at the level of the sub-image 32 2 in FIG.
• the fish shape appears to be in the background, with a magenta spiral appearing over the fish.
• the revealed images 30a and 30b are of different colors and of different patterns depending on whether the superposition of the two frames is observed on the side of the first or the second frame.
• FIG. 33 differs from that of FIGS. 31 and 32 in that the first elementary patterns of first and second frames 14 and 24 are partially transparent.
• the image revealed by observation of the superposition of the two frames on the side of the second frame 30a presents, at the level of the first elementary patterns of the second frame of cyan color 24b, a spiral having a gradient between violet and lightened cyan and at the level of the first elementary patterns of the second frame of yellow color 24a, a spiral presenting a gradient between red and brightened yellow.
• the fish pattern appears clearly at each of the sub-images of the revealed image 30a.
• the image revealed by observation on the side of the first frame 30b presents at the level of the first elementary patterns of the second cyan color frame 24b a spiral having a gradient between blue and pink and at the level of the first elementary patterns of the second color frame yellow 24 has a spiral with a gradient between yellow and pink.
• FIG. 34 differs from that of FIGS. 31 and 32 in that the first elementary patterns of the first frame 14 have portions of their length of cyan color and portions of their length of magenta color forming the same pattern of fish than the second frame 20.
• the revealed image 30a by observation from the side of the second frame, has, at the portions of first elementary patterns of second frame of cyan color 24b, a spiral having a gradient between violet blue and lightened cyan and at the level of portions of first elementary patterns of second frame of yellow color 24a a spiral presenting a gradation between the green at the level of the revealed sub-image 32i and the lightened yellow at the level of the revealed sub-image 32 2 .
• the fish pattern appears clearly at each of the sub-images of the revealed image 30a.
• the image revealed by observation on the side of the first frame 30b presents at the level of the first elementary patterns of the second cyan color frame 24b a spiral having a gradient between blue and pink and at the level of the first elementary patterns of the second color frame yellow 24 has a spiral having a gradient between lightened cyan at the level of the revealed sub-image 32i and green at the level of the revealed sub-image 32 2 .
• the fish pattern is well observable regardless of the side of observation of the article. This embodiment requires a good positioning of the two wefts between them so that the fish patterns of the first and second weft are substantially superimposed.
• first and second lines of the first frame 14 and 16 and the first and second lines of the second frame 24 and 26 have rectilinear and parallel edges, but it may be otherwise.
• the second frame 20 may include other patterns such as slots or undulations, as illustrated respectively in Figures 37A and 37B.
• FIGS. 35 and 36 differs from the previous ones in that the lines of first and second frames are not rectilinear but in the form of steps.
• the first second frame patterns 20 are in the form of pixels repeating themselves along two mutually orthogonal extension directions V and W.
• the pixels are square in shape but it could be otherwise. .
• the pixels could be some other polygonal shape, including rectangular, hexagonal, or diamond-shaped.
• the revealed images 30 at different positions of the two frames in Fig. 39 were obtained by superimposing the second frame 20 of Fig. 38 with the first frame of Fig. 27 by aligning the directions of extensions X and V.
• the revealed images 30 of Fig. 39 are lighter than those of the revealed images 30 of Fig. 27, but the effect obtained is the same.
• the first second frame patterns 20 are in the form of repeating pixels along two mutually orthogonal extension directions V and W, as illustrated in FIG. 40, and the first first frame patterns 10 are in the form of repeating pixels along two directions of extension orthogonal to each other X and Y, as illustrated in FIG. 4L
• the first frame subframes are phase shifted only along the direction of extension X
• the pixels are square in shape but it could be otherwise.
• the pixels could be some other polygonal shape, including rectangular, hexagon, or diamond.
• the revealed images 30 visible in Figure 42 were obtained by superimposing the second frame 20 from which Figure 40 is derived with the first frame from which Figure 41 is derived whose subframes are configured to have a pattern similar to that of FIG. 27 by aligning the directions of extensions X and V and by relatively moving the two frames 10 and 20 with respect to each other according to the direction of extension X. During the relative displacement of the frames relative to each other along the direction of extension X, the spiral seems to turn on itself, as can be seen in figure 42, images a to d.
• the revealed images 30 of FIG. 42 are clearer than those of the revealed images 30 of FIG. 39. However, the effect of movement obtained is identical.
• the images revealed 30 in FIG. 43 were obtained by moving the two frames 10 and 20 relative to each other along the Y direction of extension. along the direction of extension Y, the spiral does not seem to move but the contrast of the revealed image 30 changes, as can be seen in FIG. 43, images a to d.
• the variant illustrated in FIGS. 44 to 46 differs from that illustrated in FIGS. successive frames being out of phase by the same distance and forming a spiral pattern, and at least p first frame sub-frames out of phase with each other along the direction of extension Y, the p successive sub-frames being out of phase by the same distance and forming horizontal bands.
• the images revealed 30 in figure 45 were obtained by superimposing the second frame 20 from which figure 40 originated with the first frame from which figure 44 originated as described above by aligning the directions of extensions X and V and by relatively moving the two frames 10 and 20 with respect to each other in the direction of extension X. During the relative movement of the frames with respect to each other in the direction of extension X, the spiral seems to turn on itself and the horizontal bands change contrast but do not seem to move.
• the images revealed 30 in FIG. 46 were obtained by relatively moving the two frames 10 and 20 relative to each other along the Y and W extension directions. relative to each other in the Y direction of extension, the spiral does not appear to move but its contrast changes and the horizontal stripes change tones relative to each other giving the impression of a horizontal stripe moving vertically.
• the first lines 14 of the first frame of the n sub-frames 12i to 124 comprise micropatterns 7 , and better still are formed by micropatterns 7.
• the micropatterns 7 are of the height xi of the first lines 14 and of a width of the same order of magnitude so that, in view of the resolution, the lines 14 appear of a uniform color to the eye, the micropatterns 7 not being distinguishable with the naked eye 25 cm away. The user must for example use a magnifying glass to view the micropatterns 7, which reinforces the security of the article.
• the second lines 16 can also comprise micropatterns 7 of identical shape or not to those of the first lines or the second lines 16 can comprise micropatterns 7 whereas the first lines 14 do not have any.
• the micropatterns 7 can be in positive writing or in negative writing.
• the micropatterns 7 can represent alphanumeric signs, numbers, text, geometric shapes, objects, people or animals.
• micropatterns 7 make it possible to reinforce the security of the article 10 because they form additional security elements hidden in the first lines 14 and/or second lines 16 which are not visible to the naked eye.
• first and/or second lines are more difficult to counterfeit because they require a high resolution during manufacture, in particular during printing.
• the first lines 14 are made up of a repetition of the letters “OF” in positive writing in opaque black color on a transparent background. To the naked eye, the first 14 lines appear gray, the letters "OF” not being visible.
• the first lines 24 of the second frame 20 can include micropatterns 7 as described previously.
• the invention is not limited to the examples illustrated.
• the secure item can be made with other first, second or third level security, for example.
• Revealed subpictures may differ not in tone but in opacity. Revealed images may not be visible at all wavelengths, including being visible by infrared or ultraviolet light illumination or monochromatic light at a specific wavelength or polychromatic with spectrum over a range of wavelengths. specific wave.

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• Burglar Alarm Systems (AREA)
• Credit Cards Or The Like (AREA)
• Processing Or Creating Images (AREA)

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Publications (1)

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• 2021
  • 2021-03-12 FR FR2102439A patent/FR3120567B1/fr active Active
• 2022
  • 2022-03-10 MX MX2023010662A patent/MX2023010662A/es unknown
  • 2022-03-10 AU AU2022233494A patent/AU2022233494A1/en active Pending
  • 2022-03-10 WO PCT/EP2022/056243 patent/WO2022189584A1/fr active Application Filing
  • 2022-03-10 EP EP22712402.1A patent/EP4304872A1/de active Pending

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