巴西专利BR112013019624B1 DEVICE DISPLAYING EFFECT OF DYNAMIC MOVEMENT, METHOD TO PRODUCE THE SAME, USE OF THAT DEVICE AND ART

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专利摘要:
device that exhibits dynamic motion effect, method to produce the same, use of said device and article. the present invention relates to a device for protecting against counterfeiting of a bank note, a document of value or an article. the device comprises a substrate (s) and, on said substrate (s), a plurality of zones visible unitedly of the first (1) and the second (2) stiffened coatings comprising magnetically oriented pigment particles (p1, p2) in a transparent binder (m1, m2), said first (1) stiffened coating having a pigment orientation that mimics a first curved surface and said second (2) stiffened coating that has a pigment orientation that mimics a second curved surface different from said first curved surface. the device is characterized by the fact that, along a linear section through the device, at least one zone of said second (2) stiffened coating is located contiguously between two zones of said first (1) stiffened coating. the coatings can be next to each other, on top of each other and / or on both sides of a transparent substrate in order to form a translucent feature. described are, still, a method to produce said device, the use of said device, as well as the security documents that carry said device. the method also comprises consecutive selective hardening steps alternating with orientation steps.
公开号:BR112013019624B1
申请号:R112013019624-6
申请日:2012-02-03
公开日:2021-03-23
发明作者:Pierre Degott；Claude-Alain Despland；Mathieu Schmid；Cédric Amerasinghe
申请人:Sicpa Holding Sa；
IPC主号:

专利说明:

[0001] The present invention relates to devices for the protection of banknotes, valuables or articles in general. It refers to a printed image that comprises oriented pigment particles. The image, according to the invention, shows an effect of dynamic visual movement by tilting, so that a part of the image appears to move in a different plane from the rest. State of the art
[0002] Document protection devices, which exhibit an effect of visual movement by tilting, have been described in U.S. Patent No. 7,738,175 by Steenblik et al. Said devices comprise a lenticular arrangement, embedded in a plastic sheet or the like, which is associated with microprinted symbols on the document, for example, by fixing said sheet to the document.
[0003] Other types of document protection devices, which exhibit optical effects of visual movement or "3-dimensional", have been described in the document № US 2004/0051297 and in the corresponding international patent application № WO 2004/007095, as well as in the document № WO 2008/009569. These effects are based on surface coatings that comprise oriented pigment particles, whose orientation gradually changes across the coated surface.
[0004] According to the document № WO 2004/007095, a first visual effect, called "Stroboscopic (Flip-Flop)" effect (Fig. 1a), is based on a pigment orientation that mimics a positively curved surface (that is, in towards the observer) through the coating. The observer sees a zone of specular reflection, which moves in the direction of rotation of the tilt.
[0005] According to the document № WO 2004/007095, a second visual effect, called the "Moving bar" effect (Fig. 1b), is based on a pigment orientation that mimics a negatively curved surface (that is, away from the observer ) through the coating. The observer sees a specular reflection zone, which moves against the tilt rotation direction.
[0006] The document № U.S. 2005/0106367, a continuation, in part, of the document № U.S. 2004/0051297, further describes a "double movable bar". By tilting the document, the two "movable bars" appear to move against each other. A "double tilt" feature is also described, in which, by tilting the document, a clear area switches from one part of the document to another. Description of the invention
[0007] The present inventors have found that, by extending the principle described in № US 2005/0106367, by combining the first and second coatings applied to a plurality of first and second contiguous zones on a substrate, said first coating comprising particles oriented pigments whose orientations mimic a first curved surface and said second coating comprises oriented pigment particles whose orientations mimic a second curved surface different from said first curved surface, a device that shows that a dynamic visual movement effect can be produced, being that the image represented by said first and the image represented by said second zones seem to move in different planes in space by tilting the substrate. The effect of dynamic visual movement is some kind of optical illusion, which simulates parallax, which is perceived by changing the observation angle and which is exhibited by the said combination of the first and second coating zones that have the particular pigment orientation . The device is useful as a security feature or feature for the protection of bank notes, valuable documents, identification documents or, in general, any item that requires authentication.
[0008] In the present invention, a "security element" or "security feature" should designate an element or a bank note or other security document for the purpose of determining its authenticity and protecting it from counterfeiting.
[0009] The device according to the invention therefore comprises a substrate S and, on said substrate S, a plurality of zones visible together of the first 1 and the second 2 stiffened coatings comprising oriented pigment particles P1, P2 in a transparent binder M1, M2, said first hardened coating having a pigment orientation that mimics a first curved surface and said second hardened coating having a pigment orientation that mimics a second curved surface different from said first surface curved and is characterized by the fact that, along a linear section through the device, at least one zone of said second hardened coating is located contiguously between two zones of said first hardened coating.
[0010] Said areas of the first 1 and the second 2 stiffened linings are to be understood, in this document, as zones along a linear section through the device, along which the first, the second and again the first, etc. coating appear visibly in a sequence. On the substrate, said first and second hardened coatings may, on the other hand, be present as arbitrarily shaped areas, such as the interlaced "snail" structure shown in Fig. 6b, which comprises only a single area between the first and the second. second coating, but in which the interlacing produces a greater plurality of first and second zones in a sequence through a linear section. The effect of the invention is, notably, obtained through the combined view of several alternating juxtaposed zones of the first and second coatings, regardless of whether these zones form joined areas or not.
[0011] Said first and second coatings can also be arranged either side by side and / or one on top of the other. "Next to each other" means that the coatings of material are either contiguous or visually adjacent in substantial amounts of space between them. Lower amounts of intermediate space, such as a margin or a separation line, that do not break "visual adjacency", must, however, still be interpreted as "next to each other".
[0012] The coatings are present in a stiffened state, with the oriented particles fixed in their respective positions and orientations.
[0013] "Imitating a curved surface" means, in this document, that the individual pigment particles, in particular pigment flakes, in the stiffened flat coating layer have orientations that correspond to the tangential planes to said curved surface at the respective projected locations of the particles on the said curved surface. Figs 2a, 2b illustrate negatively and positively curved surfaces, respectively, as the pigment orientation in the coating mimics the respective curved surface.
[0014] "Visible together" means, in the present document, that the plurality of first and second zones is visible as a combination, thus producing the effect of the invention.
[0015] "Contiguously located" means, in this document, that the visible zones are either contiguous or visually adjacent, without substantial amounts of space between them. Insignificant amounts of intermediate space, such as a margin or a separation line, that do not break the "adjacency look", must, however, still be understood as under "contiguously located".
[0016] "Transparent", in the context of the present description, must mean that the item "transparent" has at least one spectral window in the wavelength range from 400 nm to 700 nm, which allows a human observer to observe through it.
[0017] A "magnet", in the context of the present description, must mean a single magnet, which can be a multiple magnet or a unique magnet assembly that forms a magnetizing unit; being that unique magnets can, in the present document, be permanent magnets or electromagnets; a single magnet can also be statically attached to a magnetization unit or dynamically mobile, for example, rotatable, in relation to the magnetization unit and the coating whose pigment particles must be magnetically oriented. Certain magnetic orientation patterns can, notably, only if produced by the rotation or other relative movement of a magnet in relation to the coating whose pigment particles are to be magnetically oriented.
[0018] The boundary between said first and said second zones does not have to be a straight line; being that said delimitation can, in fact, be of any form or format. Said second zone can, in particular, also be of any type of shape or format covered in said first zone or vice versa.
[0019] In a particularly preferred embodiment of the device, according to the present invention, along a linear section through the device, in addition to at least one zone of said second hardened liner which is located contiguously between two zones of said first 1 hardened liner, at least one of said two zones of said first hardened liner is located contiguously in the two zones of said second hardened liner. A device that is defined by at least two first and second zones in a sequence along said linear section through the device exhibits even better the said dynamic effect of the first and second planes in space. With even better preference, to produce a perfect optical illusion of the first and second planes in space, the device has, along a linear section, an alternating contiguous pattern of more than two zones of said first 1 and / or more than two said areas according to 2 stiffened linings.
[0020] Said first and second curved surfaces in the device, according to the present invention, must be different from each other in at least one of the following properties: i) the curvature signal, which can be positive, towards the observer, or negative, away from the observer; ii) the amount of curvature, which can be high or low; iii) the direction or geometric axis of curvature; iv) the nature of the curvature, which can, in particular, be cylindrical, conical, elliptical, spherical or saddle-shaped.
[0021] The apex locations of said curved surfaces can be chosen as is convenient, for example, if the cytometrically curved surfaces of positive and negative curvature are represented by coating 1 and coating 2, respectively, the alternating zones can be aligned, as to make all the apexes coincide, forming a "channel" of, for example, alternating the positive and negative curvatures. Alternatively, the zones can also be arranged so that the apices appear in a transverse or oblique direction, as to form a "wavy" structure. In particular, any spatial arrangement can be used.
[0022] In said combination of the first and second curved surfaces, the respective curvatures must be sufficiently different from each other, so that a relative movement of the image in the zones of the first coating against the image in the zones located contiguously to the second coating, i.e. , the effect of dynamic movement can be clearly seen by tilting the device.
[0023] The substrate of the device, according to the present invention, can be chosen from all suitable substrate materials, with particular preference, is a paper substrate, an opaque or opaque polymer substrate or a metallic substrate, such as a metal or, preferably, a foil.
[0024] In the case of a transparent substrate, said first 1 and said second 2 stiffened coatings can also be arranged on the straight side and the reverse side, respectively, of the substrate.
[0025] Said first and / or said second hardened coating may additionally be present in the form of symbols selected from the group consisting of geometric figures or simple patterns, letters, texts, logos, and images. Examples of a geometric figure or simple pattern comprise a "fractured bar" (Fig. 7) or a "checkered" pattern.
[0026] In a more sophisticated way, said first and / or second coatings are present in the form of symbols, such as text or a logo or image; for example, a second thin line coating that represents a second symbol can be applied over a first thick line coating that represents the first symbol. By tilting the device, said first and second symbols appear to move in relation to each other, so that they are visually perceived as belonging to different planes in space, resulting in a dynamic three-dimensional depth effect through parallax simulation.
[0027] The visual perception of said first and second coatings as belonging to different planes in the space can be further accentuated through the choice of different colors and the use of different pigments in said first and second coatings.
[0028] The pigment particles in the individual coatings can, in particular, be obtained according to a one-dimensional curved surface (for example, a cylinder or conical surface) or, according to a two-dimensional curved surface (for example, a spherical, elliptical or saddle). In the case of a two-dimensional curved surface, the curvatures in the first and second dimensions can be remarkably different (for example, an elliptically curved surface or a saddle-shaped surface). A two-dimensionally curved pigment orientation has the advantage that a dynamic three-dimensional depth effect can be produced to view and tilt along all directions. For a one-dimensionally curved pigment orientation, the dynamic depth effect is restricted to a preferred viewing direction and tilt.
[0029] The orientation of the pigment particles is more easily accomplished by applying correspondingly structured magnetic fields during or following the application of the coating composition containing them, as is known from the documents in WO 2004/007095, WO 2005 / 002866, WO 2008/009569 or WO 2008/046702.
[0030] For this purpose, the pigment particles must be magnetic, which means that they must comprise a permanent magnetic or magnetizable material, that is, a rigid magnetic or soft magnetic material of the ferromagnetic or ferrimagnetic type.
[0031] The pigment particle oriented in said first and / or said second stiffened coating is preferably selected from the group comprising the thin, magnetic interference pigment particles, vacuum deposited in a flake shape.
[0032] The preferred P-oriented pigment particles in said first and / or said second hardened coating are optically variable magnetic pigment particles.
[0033] Most preferred pigments are optically variable, magnetic, thin film interference pigments, vacuum deposited, such as optically variable magnetic pigment flakes of the type described in the documents in U.S. 4,838,648 and WO 02/073250.
[0034] The coating compositions C1, C2 for carrying out the present invention can be formulated according to the document № WO 2007/131833. They are preferably formulated for and applied by a printing method chosen from the group of silkscreen printing, flexographic printing and rotogravure printing.
[0035] After the complete orientation of the pigment particles, the coating composition is stiffened, thereby freezing the orientations and positions of the pigment particles in the transparent binder that contains them. Most preferred is an instant stiffening (curing) of the composition applied through radiation curing, i.e., UV curing or electron beam curing. The term "UV curing" should also, in this document, include short wave visible light curing in the violet, blue and green bands of the spectrum.
[0036] More than two coating areas, which comprise pigment particles oriented in a solid transparent binder, and in this document said pigment particles are oriented according to different curved surfaces, they can be applied to the substrate; the device can remarkably comprise a plurality of areas of coverings, next to each other and / or on top of each other, visible in different regions of the coated surface, and in this document said curved surfaces differ from each other in at least minus one of the following properties: i) the curvature signal, which can be positive, towards the observer, or negative, away from the observer; (i) the amount of curvature, which may be high or low; iii) the direction or geometric axis of the curvature; iv) the nature of the curvature, which can, in particular, be cylindrical, conical, elliptical, spherical or saddle-shaped.
[0037] In the case of transparent polymer substrates (as used for windows and threads or security strips), interesting complementary effects can be produced by applying said combination on a first and second coatings or on the same side or on different sides of the transparent substrate. Said first and second coatings can also overlap each other.
[0038] Of additional interest is a combination of said first and second coatings with at least one additional coat, applied alongside and / or on top of others, which comprises oriented pigment particles.
[0039] Said first coating can, for example, represent first thin line symbols on a transparent substrate, which are visible from below through the substrate; said second coating can, for example, represent a thick line background that serves for both the bottom view and the top view, and said additional coating can, for example, represent second signs of thin line that are visible from on top of the substrate.
[0040] Said first and / or said second hardened coating may further comprise at least one additional color-changing pigment selected from the group consisting of optically variable, thin film interference pigments, vacuum deposited which have a design of fully dielectric or metallic dieietric interference, coated metallic core particles, coated dielectric particles, cholesteric liquid polymer pigments, embossed holographic pigments and mixtures thereof.
[0041] Said first and / or said second hardened coating may further comprise a dye and / or at least one pigment that does not alter the additional color, which can be selected from the group consisting of metallic pigments, the subtractive color pigments , additive color pigments, non-changing color interference pigments and mixtures thereof.
[0042] The device according to the present invention can further comprise a combination of areas coated with a composition comprising optically variable pigment and areas coated with a composition that does not comprise optically variable pigment.
[0043] A method for producing the device according to the present invention is further described, the method comprising the step of applying to a substrate S a plurality of areas of first C1 and second C2 coating compositions comprising particles of pigment P1, P2 in a transparent binder M1, M2, orienting the pigment particles P1 in said first applied coating composition C1, as to mimic a first curved surface, orienting the pigment particles P2 in said second coating composition C2, as to imitate a second curved surface different from said first curved surface, and to harden said first and second coating compositions to obtain the first and second stiffened coatings 1, 2 which have the oriented particles fixed in two respective positions and orientations, being that in the this document the said areas of the first C1 and second C2 coating compositions are applied in such a way that In a linear section through the device, at least one zone of said second hardened liner is located contiguously between two zones of said first hardened liner.
[0044] In a variant of the method, said zones of the first C1 and second C2 coating compositions are applied so that, in addition, at least one of said two zones of said first 1 hardened coating is located contiguously in the two zones of the said second hardened coating.
[0045] Said first and second curved surfaces are different from each other in at least one of the following properties: i) the sign of the curvature, which can be positive, towards the observer, or negative, away from the observer; ii) the amount of curvature, which can be high or low; iii) the direction or geometric axis of curvature; iv) the nature of curvature which can, in particular, be cylindrical, conical, elliptical, spherical or saddle-shaped.
[0046] Said substrate S is preferably selected from the group consisting of paper substrates, opaque or opaque polymer substrates, transparent polymer substrates and metallic substrates.
[0047] Said first and second coatings are each preferably applied by a printing process chosen from screen printing, flexographic printing and rotogravure printing, using coating compositions that are formulated to fit the chosen printing process.
[0048] In a particularly preferred embodiment, at least one of said first and second coatings comprises optically variable magnetic pigment of the type described in U.S. Patent No. 4,838,648 and WO 02/073250. The use of optically variable magnetic pigment allows the incorporation of color-changing properties depending on the viewing angle as a supplementary safety feature.
[0049] The coating composition is preferably formulated for and stiffened by radiation curing, selected from UV curing and electron beam curing.
[0050] In a particular embodiment, said first and second coating compositions C1, C2 can be applied to the straight side and the reverse side, respectively, of a transparent substrate S.
[0051] Said pigment particles P1, P2 in said first and second coating compositions C1, C2 are preferably magnetic pigment particles comprising a permanent magnetic or magnetic material of the ferromagnetic or ferrimagnetic type and said orientation of the particles of pigment P1, P2 in said first and second coating compositions C1, C2 applied is correspondingly carried out by the application of magnetic fields.
[0052] Said pigment particles P1, P2 in said first and / or second coating compositions C1, C2 are preferably selected from the group comprising the thin film interference pigment particles, vacuum-deposited, in flake format.
[0053] Most preferably, said pigment particles P1, P2 in said first and / or second coating compositions C1, C2 are optically variable magnetic pigment particles.
[0054] The first stiffened coating 1 can be produced, that is, applied, oriented and stiffened, subsequently to the second stiffened coating 2 or vice versa. The subsequent production of coatings 1, 2 has the advantage of allowing the coatings to be applied on top of one another. The application, orientation and stiffening steps of a coating composition comprising pigment particles P1, P2 in a transparent binder M1, M2 can be repeated at will to produce additional coatings on said substrate S and / or said coatings 1, 2.
[0055] a) aplicar uma composição de revestimento C que compreende partículas de pigmento magnéticas ou magnetizáveis P sobre um substrato S; b) orientar as ditas partículas de pigmento magnéticas ou magnetizáveis P, de acordo com a dita primeira superfície curva, ao aplicar um primeiro campo magnético; c) enrijecer seletivamente a composição de revestimento C a- plicada nas primeiras áreas A1, fixando, assim, as partículas de pigmento magnéticas P em suas posições e orientações; d) orientar as ditas partículas de pigmento magnéticas ou magnetizáveis P na parte não enrijecida da composição de revestimento C, de acordo com a dita segunda superfície curva, ao aplicar um segundo campo magnético; e) enrijecer a dita composição de revestimento aplicada C nas segundas áreas A2, fixando, assim, as partículas de pigmento magnéticas P em suas posições e orientações. In a particular embodiment of the method, the first stiffened coating 1 and the second stiffened coating 2 are produced in a single operation through the following sequence of steps a) applying a coating composition C comprising magnetic or magnetizable pigment particles P on a substrate S; b) orienting said magnetic or magnetizable pigment particles P, according to said first curved surface, when applying a first magnetic field; c) selectively stiffen the coating composition C applied in the first areas A1, thus fixing the magnetic pigment particles P in their positions and orientations; d) orienting said magnetic or magnetizable pigment particles P on the non-stiffened part of the coating composition C, according to said second curved surface, when applying a second magnetic field; e) stiffen said applied coating composition C in the second areas A2, thus fixing the magnetic pigment particles P in their positions and orientations.
[0056] The production of coatings 1, 2 in a single operation has the advantage of allowing printing with a single ink composition, to produce said zones in perfect register.
[0057] In a particular embodiment of the method, the magnetic pigment particles P, P1 are oriented according to said first curved surface when applying a magnet the first time from the bottom of the substrate, and the magnetic pigment particles P, P2 are oriented according to with said second curved surface when applying a magnet a second time from the top of the substrate or vice versa, as shown in Fig. 5.
[0058] The device, according to the present invention, can be used as a security element for the protection of security documents, such as bank notes, valuables, passports, identification cards, bank cards, credit cards, security documents. access or access cards, tickets or transport cards, tax stamps, product labels, as well as commercial goods.
[0059] A security document, such as a bank note, a document of value, a passport, an identification card, a bank card, a credit card, an access document or access card, a ticket or credit card, is also described. transport, a tax stamp, a product label or a commercial good, which carries one or more devices according to the present invention.
[0060] a) uma primeira modalidade que tem uma pluralidade de primeiro 1 e segundo 2 revestimentos localizado de modo contíguo uns entre os outros em um substrato S; b) uma segunda modalidade que tem uma pluralidade de se-gundo revestimentos 2 impressos sobre um primeiro revestimento 1 em um substrato S, de modo que os ditos primeiro 1 e segundo 2 revestimentos apareçam localizados de modo contíguo uns entre os outros; c) uma terceira modalidade que tem uma pluralidade primeiro revestimentos 1 aplicados ao lado recto de um substrato transparente plano S e uma pluralidade de segundo revestimentos 2 aplicados ao lado verso do dito substrato transparente plano S de modo que os ditos primeiro 1 e segundo 2 revestimentos pareçam estar localizados de modo contíguo uns entre os outros; d) uma quarta modalidade, similar à modalidade da Fig. 4c, sendo que, no presente documento, os ditos primeiro 1 e segundo 2 revestimentos se sobrepõem parcialmente um ao outro. Fig. 5 ilustra esquematicamente o uso de um mesmo tipo de ímã ou campo magnético para orientar magneticamente partículas de pigmento orientáveis nos primeiro 1 e segundo 2 revestimentos de acordo com uma primeira e uma segunda superfícies curvas, respectivamente: 1 aplicação de baixo do substrato/revestimento para a produção de uma orientação de pigmento que imita uma superfície negativamente curva e 2 aplicação de cima do substrato/revestimento para produzir uma orientação de pigmento que imita uma superfície positivamente curva.Fig. 6 mostra uma figura fotográfica de um dispositivo de acordo com a presente invenção, a) em vista ortogonal (imagem à esquerda) e b) em vista oblíqua (inclinada) (imagem à direita). Mediante inclinação, o dispositivo, o "caracol” aparece para flutuar sobre o plano de fundo.Fig. 7 mostra esquematicamente um dispositivo do tipo "barra fraturada", de acordo com a presente invenção. Uma zona de um segundo revestimento que imita uma segunda superfície curva está focalizada de modo contíguo entre duas zonas de um primeiro revestimento que imita uma primeira superfície curva. Mediante a inclinação do dispositivo (para cima, para baixo), as ditas primeira e segunda zonas parecem se mover em planos diferentes no espaço em relação uma à outra. a) mostra uma zona de curvatura cilíndrica positiva localizada entre duas zonas de curvatura cilíndrica negativa que têm seus ápices alinhados de modo a formar uma estrutura "ondulada"; b) mostra uma zona de curvatura cilíndrica negativa localizada entre duas zonas de curvatura cilíndrica positiva, que tem seus ápices alinhados de modo a formar uma estrutura de "canal"; c) mostra uma zona de curvatura cilíndrica positiva localizada entre duas zonas de curvatura cilíndrica negativa, que tem seus ápices alinhados de modo a formar uma estrutura em "canal" d) ilustra a orientação de pigmento em um dispositivo do tipo da Fig. 7 c); e) mostra uma extensão adicional do dispositivo do tipo da Fig. 7a). Fig. 8 ilustra esquematicamente uma modalidade adicional do dispositivo da presente invenção, sendo que, no presente documento, os primeiro e segundo revestimentos aparecem na forma de símbolos: a) camada de fundo de curvatura negativa; b) segunda camada sobreimpressa de curvatura positiva (as partes hachuradas são impressas); c) sobreposição de fundo e segundas camadas; d) efeito de "barra móvel dupla" exibido pela sobreposição mediante inclinação: A zona clara da letra "A" se move com o sentido rotacional de inclinação; a zona clara da letra "B" se move contra o sentido rotacional de inclinação.The invention will now be explained with the help of illustrative figures and worked examples. Fig. 1a schematically illustrates a pigment orientation of the prior art, producing a "stroboscopic" visual effect; Fig. 1b schematically illustrates a pigment orientation of the prior art, producing a "movable bar" visual effect; Fig. 2a, 2b illustrates how for a negatively and positively curved surface, respectively, the crumbling pigment 1 in the coating layer 2 mimics the curved surface 3 by its orientation in the coating. Fig. 3a schematically shows a first embodiment of the device of the present invention, which has a zone of a second stiffened coating 2 located contiguously between two zones of a first stiffened coating 1 on a substrate S. The first and second coatings comprise particles P-oriented pigments in a clear M binder. Fig. 3b shows schematically a second embodiment of the device of the present invention, which has, on a substrate S, a smaller area of a second stiffened coating 2, comprising pigment particles oriented P2 in a transparent binder M2, applied over a larger area of a stiffened first coating 1, comprising pigment particles oriented P1 in a transparent binder M1 so that said first coating appears contiguously between two zones of said second coating. Fig. 3c shows schematically a third embodiment of the device of the present invention, in the present document said first 1 and second 2 stiffened linings partially overlapping one another. Fig. 4 schematically shows a linear cross-section through a device of the present invention that has a "checkered" structure: a) a first embodiment having a plurality of first 1 and second 2 coatings located contiguously with each other on a substrate S; b) a second embodiment that has a plurality of second coatings 2 printed on a first coat 1 on a substrate S, so that said first 1 and second 2 coatings appear located contiguously with each other; c) a third embodiment which has a plurality of first coatings 1 applied to the straight side of a transparent flat substrate S and a plurality of second coatings 2 applied to the reverse side of said transparent flat substrate S so that said first 1 and second 2 coatings appear to be located contiguously with each other; d) a fourth modality, similar to the modality of Fig. 4c, being that, in the present document, said first 1 and second 2 coatings partially overlap each other. Fig. 5 schematically illustrates the use of the same type of magnet or magnetic field to magnetically orient pigment particles orientable in the first 1 and second 2 coatings according to a first and a second curved surface, respectively: 1 application under the substrate / coating to produce a pigment orientation that mimics a negatively curved surface and application on top of the substrate / coating to produce a pigment orientation that mimics a positively curved surface. Fig. 6 shows a photographic figure of a device according to the present invention, a) in orthogonal view (image on the left) and b) in oblique view (inclined) (image on the right). Upon inclination, the device, the "snail" appears to float on the background. Fig. 7 schematically shows a "fractured bar" type device according to the present invention. An area of a second coating that mimics a second curved surface is contiguously focused between two areas of a first coating that mimics a first curved surface. By tilting the device (upwards, downwards), said first and second zones appear to move in different planes in space in relation to each other. a) shows a zone of positive cylindrical curvature located between two zones of negative cylindrical curvature that have their apexes aligned so as to form a "wavy"structure; b) shows a zone of negative cylindrical curvature located between two zones of positive cylindrical curvature, which has its apexes aligned so as to form a "channel"structure; c) shows a zone of positive cylindrical curvature located between two zones of negative cylindrical curvature, which has its apexes aligned so as to form a "channel" structure d) illustrates the pigment orientation in a device of the type of Fig. 7 c); e) shows an additional extension of the device of the type of Fig. 7a). Fig. 8 schematically illustrates an additional embodiment of the device of the present invention, with the first and second coatings appearing in the form of symbols in the present document: a) negative curvature bottom layer; b) second overprinted layer of positive curvature (the hatched parts are printed); c) background overlay and second layers; d) "double moving bar" effect displayed by overlapping by tilting: The clear area of the letter "A" moves with the rotational direction of inclination; the clear area of the letter "B" moves against the rotational direction of inclination.
[0061] The present invention is further described by reference to non-limiting examples and drawings. Example 1
[0062] A first coating 1 is applied in the form of two square zones of 100 mm2 each, printed with 10 mm spacing between them, as shown in Fig. 7c, on a cotton-based paper sheet with a UV-screen printing ink which contains optically variable, magnetic, platelet-like pigment particles, as described in Example 2a of EP 2 024 451 B1. A magnetic field is used to orient said platelet-like magnetic particles in said two zones, while the ink is still wet. The magnetic field used to orient said particles is generated by a permanent magnet (strontium ferrite, 10 mm x 10 mm x 40 mm) located 3 mm below the substrate, on the side of the substrate opposite to said coating 1, with the geometric axis polarization of the magnet parallel to the substrate and perpendicular to an imaginary line that joins the centers of each of the two said zones, thus creating a negatively curved reflective surface, according to the invention. Once printed, the days two zones reflect in such a way that their visual aspects look like two parts of a single shiny solid metallic cylinder. The paint in coating 1 is cured under UV lighting, permanently locking the orientation of the reflective color-changing flakes. A second coating 2 is applied to form a third zone of 100 mm2 located between said two zones using the same paint composition. This second coating, although still wet on the substrate, is subjected to a magnetic field generated by said magnet, located 3 mm above the surface of the substrate, on the same side as the coating 2, thus creating a positively curved reflective surface, according with the present invention. With oriented flake-like pigments, said zone reflects light in such a way that it visually resembles the inner surface of a hollow metal cylinder. Said second coating is cured under ultraviolet lighting, permanently locking the orientation of the reflective flakes. Example 1 shows a prominent visual effect characterized by a downward movement of the reflections emanating from the two zones in the coating 1 accompanied by a simultaneous upward movement of the reflection emanating from the single zone in the coating 2, as the print is tilted backwards. Here, tilting backward means rotating the printed substrate about a geometric axis located on the substrate plane, passing through all 3 printed zones, so that the top of the substrate moves away from the observer while the bottom of the substrate moves. moves towards the observer. Example 2
[0063] A first coating 1 is applied in the form of two square zones of 100 mm2 each, printed with a 10 mm spacing between them, as shown in Fig. 7e, on a sheet of transparent polymer substrate with a UV drying ink of screen printing containing optically variable, magnetic, platelet-like pigment particles, as described in example 3 of document EP 2 024 451 B1. A magnetic field is used to orient said platelet-like magnetic particles in said two zones, while the ink is still wet. The magnetic field used to orient said particles is generated by two permanent magnets (strontium ferrite, 10 mm x 12 mm x 24 mm), with 20 mm spacing from each other, located 3 mm abai-xq of the substrate, that is , on the side of the substrate opposite coating 1, with the geometric axis of polarization of each magnet parallel to the substrate, and parallel to an imaginary line that joins the centers of each of the two said zones, thus creating negatively curved reflective surfaces, according to the invention, when viewed from the printed side with the coating 1. Therefore, with the flake-like pigments oriented, each of the two said zones reflects light so that its visual aspect looks like part of a shiny metallic cylinder. The paint in coating 1 is cured under UV irradiation, permanently locking the orientation of the reflective color-changing flakes. A second coating 2 is applied to the opposite side of the substrate in relation to the first coating, to form a second set of two 100 mm2 zones located above and below said first two zones, as shown in Fig. 7e, using the same ink composition. This second coating, although still wet on the substrate, is subjected to a magnetic field generated by said set of two magnets, positioned 3 mm below the surface of the substrate, on the opposite side of coating 2, thus creating positively curved reflective surfaces, according to the present invention, when viewed from the printed side with the coating 1. Once oriented, said zones reflect light in such a way that each zone visually looks like the inner surface of a hollow metal cylinder. Said second coating 2 is cured under ultraviolet irradiation, permanently locking the orientation of the reflective flakes. When viewed from the printed side with coating 1, example 2 shows a prominent visual effect characterized by a downward movement of the reflections emanating from the two zones in coating 1 accompanied by a simultaneous upward movement of the reflection emanating from the two zones in coating 2 , as the print is tilted back. Here, tilting backward means rotating the printed substrate about a geometric axis located on the substrate plane, passing through the center of the printed surface and perpendicular to the imaginary line that connects the center of the four printed zones so that the top of the substrate moves away from the observer while the bottom of the substrate moves towards the observer. When viewed from the printed side with coating 2, the apparent movement of each clear reflection is reversed. Example 3
[0064] Example three, shown in Fig. 6, comprises two areas printed with an ink composition containing orientable reflective flakes. A first coating 1 is applied in the form of a solid circular area with a diameter of 29 mm, printed on a sheet of cotton-based paper with a silkscreen UV-drying ink that contains similar, optically magnetic, variable pigment particles to platelets, as described in example 2a of EP 2 024 451 B1. A spatially periodic magnetic field is used to orient said platelet-like magnetic particles in said area, while the ink is still wet. The magnetic field used to orient said particles is generated by a flat multipolar magnetic device located 1.5 mm above the substrate, thus creating a positively curved reflective surface, according to the invention. With the constituent magnetic pigment so oriented, the said zone reflects light in such a way as to resemble the surface of a shiny corrugated iron sheet. The paint in coating 1 is cured under UV lighting, permanently locking the orientation of the reflective color-changing flakes. A second coating 2 is applied using the same paint composition to cover an area located essentially within said first circular area, forming a wide spiral shape. Applying coating 2 in said format has the effect of creating a plurality of zones in coating 1 and coating 2. Said second coating, although still wet on top of the cured coating 1, is subjected to a periodic magnetic field generated by said device magnetic, located 1.5 mm below the surface of the substrate, on the same side as the coating 2, thus creating a negatively curved reflective surface according to the present invention. With the constituent magnetic pigment so oriented, said second zone reflects light in such a way that it looks like the surface of a shiny corrugated iron sheet. Said second coating is cured under ultraviolet lighting, permanently locking the orientation of the reflective flakes. Example 3 shows a highlighted visual effect characterized by a downward movement of the reflections emanating from all areas in the coating 1 accompanied by a simultaneous upward movement of the reflection emanating from all areas in the coating 2, since the print is tilted back.

权利要求:
Claims (14)
[0001]
Device comprising a substrate (S) and, on said substrate (S), a plurality of zones visible unitedly of the first (1) and the second (2) stiffened coating comprising oriented pigment particles (P1, P2) in a transparent binder (M1, M2), said first (1) stiffened coating having a pigment orientation that mimics a first curved surface and said second (2) stiffened coating having a pigment orientation that mimics a different second curved surface of said first curved surface, characterized by the fact that along a linear section through the device, at least one zone of said second (2) stiffened coating is located contiguously between two zones of said first (1) stiffened coating, where the combined view of several alternating juxtaposed zones of the first and second coat is effective, where the respective curvatures are sufficiently different from each other, so that a relative movement of an image in the areas of the first coating against an image in the contiguously located areas of the second coating can be observed by tilting the device, in which the images seem to move on different planes in space.
[0002]
Device according to claim 1, characterized by the fact that along a linear section through the device, in addition, at least one of the two said zones of said first (1) stiffened coating is located contiguously within the two zones of the said second (2) stiffened lining.
[0003]
Device according to claim 1 or 2, characterized in that said first and second curved surfaces are different from each other in at least one of the following properties: i) the curvature sign, which can be positive, towards the observer, or negative, away from the observer; ii) the amount of curvature, which can be high or low; iii) the direction or geometric axis of curvature; iv) nature of the curvature, which in particular can be cylindrical, conical, elliptical, spherical or saddle-shaped.
[0004]
Device according to any one of claims 1 to 3, characterized in that said pigment particle oriented in said first and / or said second hardened coating is selected from the group comprising the interference pigment particles of magnetic thin film , deposited in a vacuum, in the form of flake.
[0005]
Method for producing the device defined in any one of claims 1 to 4, characterized in that it comprises the step of applying to a substrate (S) a plurality of areas of the first (C1) and second (C2) coating composition comprising pigment particles (P1, P2) in a transparent binder (M1, M2), orient the pigment particles (P1) in said first (C1) coating composition applied, in order to imitate a first curved surface, orient the particles of pigment (P2) in said second (C2) coating composition applied so as to imitate a second curved surface different from said first curved surface, and stiffen said first and second coating composition to obtain the first and second stiffened coating (1, 2) having the oriented particles fixed in their respective positions and orientations, in which, said areas of the first (C1) and second (C2) coating composition are applied so that, throughout and a linear section through the device, at least one area of said second (2) stiffened liner is located contiguously between two zones of said first (1) stiffened liner.
[0006]
Method according to claim 5, characterized in that said areas of the first (C1) and second (C2) coating composition are applied so that, in addition, at least one of the two said areas of said first (1 ) stiffened lining is located contiguously within the two zones of said second (2) stiffened lining.
[0007]
Method according to claim 5 or 6, characterized in that said first and second curved surfaces are different from each other in at least one of the following properties: i) the sign of the curvature, which can be positive, towards the observer, or negative, away from the observer; ii) the amount of curvature, which can be high or low; iii) the direction or geometric axis of the curvature; iv) the nature of the curvature, which can, in particular, be cylindrical, conical, elliptical, spherical or saddle-shaped.
[0008]
Method according to any one of claims 5 to 7, characterized in that said pigment particles (P1, P2) in said first and second coating composition (C1, C2) are magnetic pigment particles comprising a permanent magnetic material or magnetizable of the ferromagnetic or ferrimagnetic type, the said orientation of the pigment particles (P1, P2) in said first and second coating composition (C1, C2) is carried out by applying magnetic fields.
[0009]
Method according to any one of claims 5 to 8, characterized in that said pigment particles (P1, P2) in said first and / or second coating composition (C1, C2) are selected from the group comprising the interference pigment particles of magnetic thin film, deposited in a vacuum, in the form of flakes.
[0010]
Method according to any one of claims 5 to 9, characterized in that the first stiffened coating (1) and the second stiffened coating (2) are produced in a single operation through the following sequence of steps: a) applying a coating composition (C) comprising magnetic or magnetizable pigment particles (P) on a substrate (S); b) orienting said magnetic or magnetizable pigment particles (P) according to said first curved surface when applying a first magnetic field; c) selectively stiffen said coating composition (C) applied to the first areas (A1), thus fixing the magnetic pigment particles (P) in their positions and orientations; d) orienting said magnetic or magnetizable pigment particles (P) on the non-stiffened part of the coating composition (C) according to said second curved surface when applying a second magnetic field; e) stiffen said coating composition (C) applied to the second areas (A2), thus fixing the magnetic pigment particles (P) in their positions and orientations.
[0011]
Method according to any one of claims 5 to 10, characterized in that the steps of applying, orienting and stiffening a coating composition comprising pigment particles (P) in a transparent binder (M) are repeated to produce additional coatings on said substrate (S) and / or said coatings (1, 2).
[0012]
Method according to any one of claims 5 to 11, characterized in that the magnetic pigment particles (P, P1) are oriented according to said first curved surface when applying a magnet from the bottom of the substrate and the particles magnetic pigments (P, P2) are oriented according to said second curved surface when applying a magnet from the top of the substrate or vice versa.
[0013]
Use of a device defined in any one of claims 1 to 4, characterized by the fact that it is for the protection of a commercial asset or a security document selected from the group consisting of bank notes, documents of value, passports, cards identification cards, bank cards, credit cards, documents or access cards, tickets or transport cards, tax stamps and product labels.
[0014]
Article selected from commercial goods and the security document group consisting of bank notes, valuable documents, passports, identification cards, bank cards, credit cards, documents or access cards, tickets or transport cards, stamps tax and product labels, the article characterized by the fact that it carries one or more device defined in any one of claims 1 to 4.

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同族专利:

公开号 | 公开日

CA2825899C|2019-03-12|

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EA201300883A1|2013-12-30|

TW201236769A|2012-09-16|

PT2484455E|2015-03-18|

CO6761333A2|2013-09-30|

KR20140020870A|2014-02-19|

KR101887719B1|2018-08-10|

US20120205905A1|2012-08-16|

AR087229A1|2014-03-12|

CA2825899A1|2012-08-09|

EA025147B1|2016-11-30|

EP2484455B1|2014-12-24|

JP2014510651A|2014-05-01|

RS53855B1|2015-08-31|

AU2012213714B2|2016-04-21|

MX2013008977A|2013-11-01|

CN103338871B|2016-04-06|

EP2484455A1|2012-08-08|

US9199502B2|2015-12-01|

DK2484455T3|2015-03-09|

PL2484455T3|2015-05-29|

WO2012104098A1|2012-08-09|

TWI559986B|2016-12-01|

AU2012213714A1|2013-08-01|

ES2532531T3|2015-03-27|

CN103338871A|2013-10-02|

MA34888B1|2014-02-01|

MY161330A|2017-04-14|

JP6051432B2|2016-12-27|

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法律状态:
2020-11-24| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|

2020-12-08| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|

2021-01-26| B15K| Others concerning applications: alteration of classification|Free format text: AS CLASSIFICACOES ANTERIORES ERAM: B05D 3/14 , B41M 3/14 , B42D 15/00 , B42D 15/10 Ipc: B41M 3/14 (2006.01), B42D 25/29 (2014.01), B42D 25 |

2021-03-02| B09A| Decision: intention to grant|

2021-03-23| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 03/02/2012, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

US201161439591P| true| 2011-02-04|2011-02-04|

US61/439,591|2011-02-04|

EP11153523.3|2011-02-07|

EP11153523.3A|EP2484455B1|2011-02-07|2011-02-07|Device displaying a dynamic visual motion effect and method for producing same|

PCT/EP2012/000488|WO2012104098A1|2011-02-04|2012-02-03|Device displaying a dynamic visual motion effect and method for producing same|

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