This application claims priority of Swiss Application Serial No. 00740/08 filed May 15, 2008.
1. Field of the Invention
The invention relates to printing carriers for transferring confidential information with a transparent film layer onto the front side of which the confidential information can be printed and wherein a concealing means, which complicates the capability to identify the confidential information on the film layer is present behind the film layer.
2. Description of the Prior Art
Printing carriers comprising confidential information, e.g., personal identification numbers of bank or credit cards are often sent via mail. The confidential information must thereby be protected in such a manner that it cannot be read by third parties, or also by the sender (e.g. bank employees). The receiver for whom the confidential information is intended is also to be able to identify whether the confidential information has been read by third parties.
Printing carriers in the form of standard forms comprising a transparent film, which can be imprinted by means of a laser printer or an ink jet printer and which is glued on top of a concealing means, are known from EP 1 293 359, WO 00/54984 and WO 99/24267. A transparent separating layer, generally a silicon layer, is located between the film and the concealing means. The confidential information is printed onto the transparent film and cannot be read in transmitted light due to the concealing means located therebelow. Under normal circumstances, the confidential information can thus not be read by bank employees, e.g., who print and package the standard form. The confidential information can be identified only when the end user separates the film and the concealing means from one another at the separating layer.
However, depending on the state of the toner or of the ink, the confidential information is capable of being identified under specularly reflected light in spite of the concealing means with the known embodiments.
It is the object of this invention to ensure additional security against unauthorized reading of the confidential information.
According to the invention, using a printing carrier of the afore-mentioned type for transferring confidential information, this is attained in that the film layer carries on its front side at least one structure imprint, which does not add to the confidential information and which improves the effect of the concealing means due to its irregular area coverage.
The structured surface creates a micro-topography comprising elevations (where the structure imprint is present) and depressions (where the structure imprint is not present), wherein parts of the imprinted confidential information are covered by elevations in response to small viewing angles in the depressions, which additionally complicates unauthorized reading.
The structure imprint according to the invention can be applied with an area coverage of 15-85%, preferably with an area coverage of 30-70%.
The film layer is either a film, which can be imprinted directly, such as, e.g., an acetate film or is provided with a layer, such as, e.g., a print layer to enable or improve the imprintability thereof.
The film layer can be embodied to be glossy or matt-finished on its front side as such or by means of a layer, such as, e.g., a print layer, which is applied over the entire area, and the structure imprint can be embodied so as to be matt-finished or glossy as a function thereof, which thus results in a gloss contrast to the areas, which are not covered by the structure imprint. Due to the interplay between matt and gloss, this gloss contract causes a reflection pattern to form in the specularly reflected light. Reflections on the imprinted confidential information disappear for the eye in said reflection pattern. The unauthorized reading of the confidential information under a flat viewing angle is thus complicated and the read protection is improved.
The structure imprint according to the invention is particularly transparent. However, it can also be embodied so as to have color characteristics such as whitish, tinted or opaque, thus leading to a color contrast to the concealing means, which is present behind the film layer. The color contrast can structure a structured concealing means more strongly and can thus improve the read protection. A uniform, dark and unstructured concealing means can also appear to be structured due to a light and opaque structure imprint.
Provided that the concealing means is structured, the structure imprint can encompass a similar structuring as the concealing means.
The gloss contrast and the color contrast can be present individually or in combination. They could also be realized by means of different layers. A glossy, transparent structure imprint, e.g., could be arranged above a further opaque structure imprint.
Additionally, a toner or ink, which is suitable for the printing of the confidential information, can encompass a different affinity as compared with the structure imprint on the one hand and as compared with the areas, which are not covered by the structure imprint on the other hand. The toner or the ink of the confidential information adheres less to the areas comprising a small affinity than on the areas with a higher affinity. In response to an attempt to transfer the confidential information onto an adhesive strip, e.g., the reproduction of the toner or the ink located on the areas comprising a lower affinity are mainly created on the adhesive strip and the confidential information is not easily identifiable. However, a portion of the toner or of the ink is missing on the printing carrier and the unauthorized reading attempt is visible.
A reagent color can be used completely or partially for the structure imprint and/or another layer as further protection against an undesired identification of the confidential information. Said reagent color discolors irreversibly under the impact of heat and/or solvent and/or includes an absorber for infrared and/or ultraviolet radiation.
To reveal confidential information imprinted on the printing carrier according to the invention, the impact of the concealing means must be cancelled. For this purpose, provision can be made for a separating layer, which allows for the transparent film layer and the concealing means to be separated from one another thereon.
Preferably, at least one non-transparent separating color, which simultaneously forms the concealing means, is used for the separating layer.
The back of the separating layer can be applied to the transparent film layer and the back thereof can in turn be provided with an adhesive layer, wherein the separating layer adheres to the back of the transparent film layer with an adhesive force, which is less than its adhesive force as compared with the adhesive layer.
Furthermore, the printing carrier according to the invention is preferably a manipulation-indicative standard form or a part of such a standard form comprising a label, wherein the label comprises the transparent film layer and is glued onto a paper layer of the standard form by means of an adhesive layer.
The back of the mentioned separating layer can hereby be partially applied to the transparent film layer and the adhesive layer can project beyond the separating layer at least on one side, but preferably on all sides so that said separating layer permanently connects the film layer to the paper layer at that location and so that a fiber tear occurs in the paper at that location when the film layer is separated. Press cuts can be placed into the paper to limit or also to support the fiber tear.
At the location where the adhesive layer projects beyond the separating layer and the concealing means, a structured transparent separating varnish in particular in the form of lettering can be applied on the back of the film layer and the adhesive layer or at least a layer thereof can be colored. Upon separation, the film layer separates from the separating varnish, where it is present. However, the colored adhesive layer adheres to the film at the locations without a separating varnish and then forms the lettering.
A similar effect results when a structured transparent adhesive varnish is applied to the back of the film layer in the edge region of a separating color, which is used for the separating layer and for the concealing means. Where the adhesive varnish is present, the concealing means does not separate from the film in response to the separation of the film and forms lettering on said film again, e.g.
The transparent film layer can also consist of two layers, which are glued to one another and wherein the front of the front layer can be imprinted and the back of back layer is provided with the separating layer. This embodiment allows in particular for a format-variable embodiment of the printing carrier.
According to a further embodiment, the film layer carries on its back the concealing means, which is formed by at least one separating color; a carrier layer is present behind the film layer; an adhesive layer, which is colored at least in some of the layers, is present between the film layer and the carrier layer; a first transparent separating varnish is present on the one side of this adhesive layer substantially over the entire area; a second structured separating varnish is present on the other side of this adhesive layer in the edge region around the concealing means; the first separating varnish separates as compared with the adhesive layer, but less than the second structured separating varnish as compared with this adhesive layer or as compared with the film layer or the carrier layer. Lettering can also be generated with this embodiment in response to the separation of film layer and concealing means. The back of the carrier layer can be provided with a further adhesive layer and can be glued onto a paper layer of a standard form, e.g., by means of said adhesive layer. Press cuts are hereby not required in the standard form.
According to yet a further embodiment, a carrier layer carries on its front side the concealing means, which is embodied as a layer, wherein the color of said carrier layer differs from the color of said concealing means; the transparent film layer is glued onto the concealing means so that it can be separated at the front by means of an adhesive layer; a structured separating varnish is present between the concealing means and the carrier layer; the adhesive force between the concealing means and the adhesive layer on the one hand as well as between the concealing means and the carrier layer on the other hand is in each case greater than the adhesive force of the adhesive layer as compared with the transparent film layer and is again greater than the adhesive force of the structured separating varnish as compared with the carrier layer or the concealing means; and the cohesion of the adhesive layer is greater than the adhesive force of the adhesive layer as compared with the transparent film layer. Lettering can also be generated with this embodiment in response to the separation of film layer and concealing means, wherein the components of said lettering, however, remain on the carrier layer. The embodiment is furthermore characterized by a complete format variability.
When the printing carrier is a manipulation-indicative standard form or a part of such a standard form, provision can be made in an area of the standard form adjoining the concealing means for a contrast reference field, which encompasses the same color as the concealing means when viewed through the film layer before said film layer and the concealing means are separated from one another at the separating layer. The contrast reference field intensifies the capability to identify the contrast reduction, which appears in most of the embodiments, with reference to the appearance of the concealing means after a separation of the film layer from the concealing means.
The invention is to be defined in more detail below by means of exemplary embodiments in combination with the drawing.
The layer thicknesses in particular are not illustrated in a realistically thick manner in the sectional views so as to be able to better identify them. Realistic layer thicknesses lie in the range of from approx. 1-100 μm.
a-1e show in each case a printing carrier for transferring confidential information 1 with a transparent film layer 3, behind which a concealing means U is present, which forms a background, which is visible through the transparent film layer 3 and which thus at least considerably complicates the capability to identify confidential information 1, which is imprinted on the front side of the film 3, e.g., by means of laser printers or inkjet printers.
In
In
The structure imprint 15 forms a micro-topography comprising elevations on the film 3. Parts 16 of imprinted confidential information 1 come to lie on these elevations, while other parts 17 come to lie on the film layer 3 in the valleys therebetween. When viewed under a small angle, the parts 17 of the confidential information 1 located in the valleys are partially covered behind the elevations, which complicates the capability to identify and the readability of the confidential information 1.
The film layer 3 is embodied to be glossy or matt-finished and the structure imprint 15 is embodied to be matt-finished or glossy as a function thereof, thus resulting in a gloss contrast to the areas, which are not covered by the structure imprint 15. A matt-finished structure imprint 15 on a glossy film layer 3, e.g. a polyester film, leads to an interplay between matt-finish and gloss. The same effect appears when a glossy structure imprint 15 is applied to a matt-finished film layer 3, e.g. an acetate film.
Depending on the state of the toner or of the ink, which is used, confidential information 1, which is imprinted on a uniform surface, e.g. on an untreated film layer 3 or on a matt-finished layer, which is applied across the entire area, can be read, if necessary, in spite of the concealing means U under certain angles of view, in particular when the angle of view is the same as the angle of incidence of the light. This effect is generated by means of the different reflections of the light on the uniform surface on the one hand and on the toner or the ink on the other hand. An area with high gloss, e.g., leads to a highly directed or reflective reflection, while an area with a low gloss leads to a diffuse reflection.
An irregular reflection pattern comprising glossy and matt-finished areas, in which the different reflections which are caused by the imprinting of the confidential information 1 disappear, is generated on the surface of the printing carrier. The effect is similar to the effect of a structured concealing means U, via which the bright-dark contract of the imprinted confidential information 1 disappears in the transmitted light.
The structure imprint 15 and thus the reflection pattern can in particular be structured in the same manner as the concealing means U, provided that said concealing means U is structured.
The structure imprint 15 is in particular transparent. However, it can also be embodied so as to have color characteristics such as whitish, tinted or opaque, thus leading to a color contrast to the concealing means U, which is present behind the film layer 3. Due to its color contrast, the structure imprint can structure a structured concealing means U more strongly and can thus improve the read protection. A uniform, dark and unstructured concealing means U can also appear to be structured due to a bright and opaque structure imprint.
The gloss contrast and the color contrast can be present individually or in combination. They could also be realized by means of different layers. A glossy, transparent structure imprint, e.g., could be arranged above a further opaque structure imprint, wherein they are not area-wide, but can overlap.
The embodiment of
The embodiment of
The embodiment of
Practically the same effect is attained when the separating layer 19 separates from the film layer 3 instead of from the layer 18. On the other hand, the layer 18 could also encompass an affinity, which is directly lower as compared with the film layer 3 so that a separate separating layer 19 is not even necessary.
The embodiment of
In all of the embodiments, the structure imprint 15 can encompass a different affinity than the areas, which are not covered by it, as compared with toner or ink. For example, the structure imprint 15 can encompass certain separating layer characteristics so that toner or ink encompasses only a small adhesion thereon. In this case, the film layer 3 or the layer 18, which is applied across the entire area, should encompass a comparatively good adhesion as compared with the toner or the ink. In an attempt to lift the toner used for the confidential information 1, e.g., by means of an adhesive strip, virtually only the parts of the toner located on the structure imprint loosen so that the presumed reproduction of the confidential information 1 on the adhesive strip encompasses considerable imperfections and the confidential information cannot be read.
In this case, the structure imprint 15 can also comprise lettering such as, e.g., VOID, as random print so that a positive reproduction of the lettering is generated on the adhesive strip. Vice versa, the unauthorized reading of the confidential information 1 can be identified on the printing carrier as a negative reproduction of the lettering, e.g., VOID.
A similar effect can be attained by using a film layer 3, such as, e.g., a polyester film, on which toner or ink adheres only comparatively faintly in combination with a structured matt-finished layer as structure imprint 15, on which toner or ink adheres to a comparatively better degree.
The effect of the partial transferring of the confidential information 1 onto an adhesive strip can also be attained in that the structure imprint 15 encompasses a lower affinity than the toner or the ink on said structure imprint and on the areas, which are not covered by it as compared to an adjoining layer, such as, e.g., as compared with the film layer 3 or as compared with the layer 18. A corresponding separation could also be provided with reference to the structure imprint 15a as compared with the layers 3 or 18 and could lead to the same effect.
In all of the embodiments, a reagent color, which discolors irreversibly under the impact of heat and/or solvent, can be used for the structure imprint 15, 15a or also for another layer such as the layers 18 or 19. The structure imprint 15, 15a or another layer can also include an absorber for infrared and/or ultraviolet radiation, which protects against attacks in the special light. The embodiment of
To reveal confidential information, which is imprinted on the printing carrier according to the afore-described embodiments, the effect of the concealing means U must be cancelled. For this purpose, the film layer 3 can be embodied so as to be capable of being separated from the concealing means U. Furthermore, as is shown in
Provision can be made between film layer 3 and the concealing means U for a transparent separating layer to allow the film layer 3 to be separated from the concealing means U. However, a non-transparent separating color layer 6, as it is also shown in
Preferably, this separating color layer 6 further comprises the characteristic that it can no longer connected to the transparent film layer 3 after it has been separated therefrom. A separation of the film layer 3 for the unauthorized reading of the confidential information 1 can thus not simply be reversed and remains capable of being identified.
In
In the alternative of
The alternative of
In the alternative illustrated in
In the subsequent figures, the concealing means U is illustrated to be partly structured and partly unstructured. However, it is to be understood in such a manner that one of the other afore-described alternatives can in each case also be used.
The embodiment of
To prevent the expansion of the fiber tear 12 in response to the separation of the film layer 3 into the area of the separating color layer 6, at least one perforation 9 is applied as tear stop means along an edge zone of the separating color layer 6 in tear direction in front thereof. The fiber tear 12 is thus stopped and the separating color layer 6 can separate from the film layer 3. Preferably, the perforation 9 has a depth of approximately half of the thickness of the paper layer of the standard form 5, but can also be deeper or less deep. The perforation 9 does not completely extend through the paper layer and nothing can thus be pushed between the separating color layer 6 and the film layer 3 so as to thus make the confidential information readable.
To facilitate the separation of the transparent film layer 3, a flap 8 can be partially cut out in the standard form paper 5, wherein a part of the flap 8 is located below the film layer 3, but not below the separating color layer 6 and a part of the flap 8 projects beyond the film layer 3. Bars 11 hold the flap 8 in the plane of the standard form paper 5. This can be seen in
A perforation or the perforation 9, respectively, should be present in this case at least along the separating color layer 6 on the same side as the flap 8. When the separating color layer 6 forms an approximately rectangular surface, as viewed from the front as is illustrated in
To embody a tear stop means, the adhesive force between the transparent film layer and the paper layer of the standard form can also be reduced or cancelled. The tear stop means, e.g., can be formed by means of an adhesive-free zone, a separating paper layer or by means of a different separating layer. If applicable, it is not necessary to perforate the standard form paper. The tear stop means is located in the label and can be glued directly onto a standard form by means of said label. This can considerably facilitate the production of manipulation-indicative standard forms comprising a label.
When using an adhesion-free zone or a silicon paper strip as separating aid, it may be necessary to apply a marking means to facilitate the creation of the desired fiber tear. Such a marking means is, e.g., a perforation in the standard form paper in tearing direction directly behind the separating aid and in front of the tear stop means. The marking means can also be combined with a flap.
The embodiment of
The embodiment illustrated in
In the embodiment of
When the film layer 3 is lifted, it also separates from the colored layer 4a of the adhesive layer on the film side at those locations, where the separating varnish 6e is located, except for in the area of the concealing means. At the locations without separating varnish 6e, the colored layer 4a of the adhesive layer on the side of the film continues to adhere to the film layer 3, whereby the VOID lettering becomes visible on the separated film.
Substantially the same result is attained when the separation between the separating varnish 6e and the adhesive layer 4a were to take place in response to the separation of the film layer 3. The VOID lettering encompasses a maximum area coverage of approximately 20% and the separating varnish correspondingly encompasses an area coverage of more than 80%. Due to the fact that the locations where no separating varnish 6e is present are thus relatively small, the layer 4b of the adhesive layer on the side of the standard form separates from the standard form paper 5 at that location, without generating a fiber tear 12. However, as can be seen in
To facilitate the lifting of the film layer 3, an adhesive-free zone 30 is present in
The area of the film layer 3, which is located between the adhesion-free zone 30 and the concealing means, is also provided in
In the embodiment of
The VOID lettering could also be formed by the separating varnish 6e itself, that is, by the locations where separating varnish 6e is present. In this case, the area coverage by means of the separating varnish 6e should, at most, be 20%. The small area coverage of the separating varnish 6e is thereby not sufficient to separate the layer 4a of the adhesive layer on the side of the film from the film layer 3 in response to a conventional lifting of the film layer 3. This thus leads to a fiber tear in the standard form as in the example of
As is the case with the layer 4c in
In the example of
a and 8b show a printing carrier as part of a standard form, where the film layer 3 carries on its back the concealing means, which is formed by means of the separating color layers 6a/6b and is furthermore coated with a first transparent separating varnish 6e across the entire area. A carrier layer 7 made of paper or film carries a second structured separating varnish 6g on its front side in the edge region around the concealing means and therabove across the entire area, except for a separating zone 30, an adhesive layer 4c, which is colored bluish, e.g. and which is in contact with the first separating varnish layer 6e. The locations where the second separating varnish 6g is present form lettering, e.g. VOID. The separating varnish 6g separates as compared with the carrier layer 7, namely slighter than the adhesive layer 4c as compared with the first separating varnish layer 6e. The carrier layer 7 is glued onto the front of a paper layer of the standard form 5 by means of a second adhesive layer 4b.
When the film layer 3 is lifted at the adhesion-free zone 30, e.g., the separation runs the area of the concealing means between the separating color layers 6a/6b and the film layer 3, as is illustrated in
The separating varnish 6g could also separate as compared with the adhesive layer 4c. As in the example of
The first separating varnish 6e, which is substantially holohedral and the second structured separating varnish 6g could also be interchanged with one another with reference to their position, wherein the second structured separating varnish 6g would be applied to the back side of the film layer 3 and would result in a structure similar as in
In the embodiment of
a-9c show a printing carrier as part of a standard form 5, where all of the layers of the printing carrier (of the label) are embodied to have the same size and to be uniform across the entire surface. The printing carrier can thus be trimmed and/or cut out from a larger piece, in particular an endless sheet, at will and is thus completely format-variable. A carrier layer 7 from paper or film carries on the front side the concealing means U in the form of a coating across the entire area and differs therefrom in color. The transparent film layer 3 is glued to the front side of the concealing means U by means of a first transparent adhesive layer 4a, namely in that the film layer 3 can again be separated from the adhesive layer 4a. Provided that the adhesive layer 4a itself does not allow for this separability, provision can additionally be made for this purpose for a transparent separating layer 19, which separates as compared with the film layer 3 or the adhesive layer 4a. The adhesive layer 4a furthermore has a certain inner cohesion as well as certain elastic characteristics, which will be discussed below. The carrier layer 7 is glued onto the front side of a paper layer of the standard form 5 by means of a second adhesive layer 4b. Confidential information 1 cannot be determined before the transparent film layer 3 and the concealing means U are separated from one another at the adhesive layer 4a and at the separating layer 19, respectively.
A structured separating varnish 6e with an area coverage of 20% to 50% by means of which lettering, e.g. VOID is formed, is present between the concealing means U and the carrier layer 7. The adhesive force between the concealing means U and the first adhesive layer 4a on the one hand as well as between the concealing means U and the carrier layer 7 on the other hand is in each case greater than the adhesive force of the first adhesive layer 4a as compared with the transparent film layer 3. This adhesive force in turn is greater than the adhesive force of the structured separating varnish 6e as compared with the carrier layer 7 or the material of the concealing means U. The cohesion of the first adhesive layer 4a is greater than its adhesive force as compared with the transparent film layer 3.
To facilitate the separation of the transparent film layer 3, a flap 8 is again provided. The cut in the area of the flap 8, which is located below the film layer 3, reaches through the carrier layer 7 herein so that the film layer 3 can be separated from the carrier layer 7 adhering to the standard form 5 and thus from the concealing means U when the flap 8 is lifted. When the film layer 3 can be separated relatively easily from its foundation in response to a suitable adjustment of the afore-mentioned adhesive forces, it is also possible to do without the flap 8 or a different separating aid in this exemplary embodiment.
When the film layer 3 is lifted consecutively from left to right, the separating varnish 6e initially separates from the carrier layer 7. However, due to the mentioned elastic characteristics of the first adhesive layer 4a and the cohesion thereof, the separated separating varnish pieces 6e and the areas of the concealing means U, which cover said separating varnish pieces 6e, are not completely removed from the carrier layer 7, but are lifted only briefly and are then shifted slightly to the side, as is illustrated in
The somewhat same effect is attained when a structured adhesive varnish is used instead of a structured separating varnish 6e and when the concealing means U is embodied as a separating color, e.g., and separates as compared with the carrier layer 7. It would be sensible in this case to additionally invert the structure of the structured adhesive varnish with reference to the lettering.
Where provided, the lettering can appear either positively or negatively on the separated film layer in all of the embodiments, wherein positive means that the characters forming the lettering are displayed so as to be dark in a bright environment. Accordingly, negative means vice versa that the characters forming the lettering are displayed so as to be bright in a dark environment.
The described embodiments on the back side of the film layer according to
In all embodiments a contrast reference field K can be present additionally and as illustrated for example in
The contrast reference field K can be applied onto the paper carrier 5 of a standard form, e.g., by means of a printing technique and could also extend into the area of the concealing means U or could actually be applied holohedrally.
The contrast reference field can also be considered to be an independent inventive concept.
The confidential information 1 or 16 and 17, respectively, was only mentioned, illustrated and described in the afore-described example for a better understanding of the invention. However, it does not form a part of the invention, which is directed to a printing carrier as such. As a rule, the confidential information is also added only in a last separate processing step—e.g., by a bank in the case of a PIN code of a credit card—whereas the printing carrier as such according to the invention is produced by a manufacturer, who specializes in this.
Number | Name | Date | Kind |
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5772248 | Phillips | Jun 1998 | A |
6336666 | Trantoul | Jan 2002 | B1 |
6523859 | Scheggetman et al. | Feb 2003 | B2 |
Number | Date | Country |
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1 293 359 | Mar 2003 | EP |
WO 9924267 | May 1999 | WO |
WO 0054984 | Sep 2000 | WO |
Number | Date | Country | |
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20090286052 A1 | Nov 2009 | US |