Source: https://patents.google.com/patent/JP2005512859A/en
Timestamp: 2020-02-17 21:11:25
Document Index: 698581114

Matched Legal Cases: ['arts 6', 'arts 6', 'arts 6', 'arts 6', 'arts 6', 'arts 6', 'arts 6', 'art 7', 'art 8']

JP2005512859A - Security elements for security papers and certificates - Google Patents
Security elements for security papers and certificates Download PDF
JP2005512859A
JP2005512859A JP2003554453A JP2003554453A JP2005512859A JP 2005512859 A JP2005512859 A JP 2005512859A JP 2003554453 A JP2003554453 A JP 2003554453A JP 2003554453 A JP2003554453 A JP 2003554453A JP 2005512859 A JP2005512859 A JP 2005512859A
JP2003554453A
JP4574986B2 (en
2005-05-12 Publication of JP2005512859A publication Critical patent/JP2005512859A/en
2009-06-25 First worldwide family litigation filed litigation Critical https://patents.darts-ip.com/?family=26010833&utm_source=google_patent&utm_medium=platform_link&utm_campaign=public_patent_search&patent=JP2005512859(A) "Global patent litigation dataset” by Darts-ip is licensed under a Creative Commons Attribution 4.0 International License.
2010-11-04 Publication of JP4574986B2 publication Critical patent/JP4574986B2/en
The present invention relates to a security element for security paper, a certificate, an identification card, etc., which is self-supporting and has two different security function units. The security function unit is disposed on both sides of the security element, and at least one of the security function units can be optically changed.
The present invention relates to a security element for security paper, a certificate, an identification card, etc. The security element has a self-supporting structure and two different optically changeable security functions. Furthermore, the present invention relates to a security paper and a certificate with such a security element.
Patent Document 1 describes a valuable certificate in which a through hole is opened after creation, and then one side of the through hole is sealed with a cover foil protruding from the entire edge of the through hole. The cover foil is at least partially transparent so that if a copy of the certificate is attempted, the background will show through and it will be copied by the copier. Further, the cover foil can include a security function unit, for example, a hologram.
International Publication No. 95/10420 Pamphlet
An object of the present invention is to provide a security element, a security paper, and a valuable certificate that have a higher anti-counterfeiting property than the prior art.
The security element of the present invention includes at least two different security function units disposed opposite to both sides of the security element, and at least one of these security function units can be optically changed. Being able to change optically means that the visually recognizable appearance, such as color interaction and / or other information, has different security functions depending on the viewing angle.
For example, a diffractive structure that can be observed in reflected light, or a rough grating structure or a thin film structure in which an optically changeable impression is based solely on reflection characteristics, or is used as a security function unit that can be optically changed. There are optically variable printings in which the printing ink contains at least one of optically variable pigments such as liquid crystal pigments or interference layer pigments. The security element may include any combination of security function units that can be optically changed.
Other security function units used by the present invention include a printed image or a translucent or mesh-like metal layer. This printed image can be applied using an ink having a property that can be detected by a machine such as luminescence, magnetism, or conductivity.
If two different security functions contain readable information, and this information can be read from both sides of the security element, right and left, ie, not mirror images, It is also within the scope of the present invention.
The security element according to the present invention has at least two different, optically variable, such that when the security element is viewed from one side, only one of the security functional parts that can be optically changed can be recognized. It is preferable that security function units are provided on both sides.
It is particularly effective to use the security element according to the present invention for a security paper or a certificate with a through hole. The certificate according to the prior art described in Patent Document 1 has only one security function section in the opening area, and this security function section can be completely viewed with the right and left sides aligned. Is only on one side of the opening. From the opposite side of the opening, the security function part cannot be recognized at all, or only a mirror image with the opposite sides can be seen. However, when the security element according to the present invention is disposed in the region of the opening, a security function part that is complete and right and left can be recognized from both sides of the opening. This can improve the anti-counterfeiting property. This is because if the opening is formed by simple punching, the opening can be easily formed by a forger. On the other hand, security function units provided on both sides cannot be easily copied. This is especially true if there is a linguistic relationship between the two security function parts, or if the two security function parts show the same motif in different forms.
For example, the first optically changeable security function indicates the front side of a certain motif, such as a face or a facial part of a human figure, whereas the second optically changeable security function. This is a case where the part indicates the back side of the bag or the back side of the head of the human image. Furthermore, the two security functions are preferably arranged in perfect agreement so that the further problem that counterfeiters have to overlay them exactly must be solved. Furthermore, the security element according to the present invention includes information that is read if both security function units are preferably the same in both security function units, and the right and left are always aligned by the two-layer structure of the security function units. If you can read it with, you can get special effects.
Further, a machine-inspectable layer can be disposed between the two security function units. This layer can be at least one of an infrared absorbing layer, a conductive layer, or a magnetic layer. A plurality of such layers may be disposed between the two security function units. Further, the intermediate layer need not be provided on the entire surface, but may be coded or in the form of other information. In some cases, a colored layer, preferably a black layer, is provided between the two security function parts so that only a specific security function part is visible from one side of the security element. It is convenient to arrange.
In a preferred embodiment, the security element consists of a plastic foil with at least one opaque coating layer on each side. Each of the opaque coating layers has an interrupting portion that is preferably in the shape of a character, pattern, mark, or the like. These interruption parts are arranged so as to be shifted from each other. That is, the opaque coating layer on the opposite side is applied over the entire area in the region where the opaque coating layer on one side exists. This ensures that the security element comprises only right and left matched information that can be recognized from each side. The opaque coating layer is preferably a metal layer, but other layers such as colored layers can also be used. A combination is also possible in which the first security function is composed of a metal layer of any color and the second security function is composed of an opaque colored layer or an optically variable print layer or thin film coating layer. is there. It is also possible to use layers or printing inks that show different colors depending on the look down and the watermark.
The metal used is further configured to have a different color and / or translucency. If at least one of the layers has translucency, the interrupted portion of the opposite layer can be recognized by the transmitted light. Translucency occurs both with the thickness of the layer and with the mesh. These possible embodiments of the metal layer can be used for all of the examples described below with respect to the metal layer. The metal used is, for example, aluminum, iron, copper, gold, silver or nickel. In the present invention, any alloy is also referred to as a “metal”.
The interruption part is formed by an arbitrary method, for example, a laser beam, an etching method, or a washing method.
Of course, provision of such interrupting portions and their arrangement in advance can also be diverted to all security function portions having a metal layer or other deposited layer such as a diffractive structure or a thin film element. When printing ink is used to create these security function units, such voids can also be formed by whitening.
According to a further preferred embodiment, the security element can also be provided with a coating layer with the above-mentioned voids only on one side, with a translucent layer on the opposite side.
According to a further preferred embodiment, the security element has two plastic layers embedded with a diffractive structure. At least one of these plastic layers is provided with a metal layer so that the diffractive structure can be observed in reflected light. The other plastic layer can likewise comprise a metal layer or a dielectric layer having a high refractive index. If this other plastic layer also comprises a metal layer, this metal layer can have a unique color different from the one metal layer.
The security element according to the invention does not necessarily have to be placed in the region of the opening, but the use of the opening is advantageous because it can be inspected from both sides without being destroyed. At the same time, the opening can be a completely transparent area in a value certificate such as a plastic bank note.
Similarly, the security element according to the invention can be used as a security strip, for example incorporated in a so-called “pendulum” window security paper. In such security paper, the security strip has direct access to the front surface of the security paper, and therefore a collable “window region” is provided alternately on the front and back surfaces of the security paper.
As is well known, at the time of papermaking, the security strip is not always embedded in the security paper in a state where the left and right are aligned. For security strips that are twisted, and therefore left and right embedded in reverse, you can still read letters, wordings, etc., because the right and left are usually provided alternately. is there. Thus, some can always be read regardless of the position of the security strip.
To eliminate this problem, the security element according to the invention can of course be used even if the security paper has a window on only one side.
Furthermore, this security element can be used not only for preventing forgery of security papers or valuable certificates but also for preventing forgery of any article.
The security element can be formed in any shape such as, for example, a circle, an ellipse, a rectangle, an unequal quadrilateral, a star, or a band.
If a band-shaped security element is placed in the opening area of a certificate or security paper, one security function is recognized over the entire length of the band and the other security function is in the opening area. Can only be seen inside.
The creation of this security element takes place on a free-standing carrier element, for example a transparent plastic foil, which is then used as a label material. However, especially when a diffractive structure is used as the security feature, it is advantageous to create a hot stamping foil instead, in which case the complete layer structure of the security element is prepared on the carrier material and then the pressure And transferred to at least some areas of the certificate or security paper under heat. The carrier material is then preferably stripped off.
It is also possible to prepare individual security features on separate carriers, which are then bonded together or bonded via an adhesive layer.
FIG. 1 is a plan view showing a valuable certificate according to the present invention. The illustrated example includes a banknote 1. The banknote 1 includes a through hole 2 covered with a security element 3.
FIG. 2 is a cross-sectional view taken along the line AA of FIG. In FIG. 2, the through holes 2 can be clearly recognized. In the illustrated embodiment, the edge 4 of the through hole 2 is smoothly formed by punching or cutting the banknote 1. However, if the through holes 2 are formed during the manufacture of the long paper used for the banknotes 1, the edges 4 are irregular and fluffy. The fuzzy edge 4 constitutes a further genuine feature since it cannot be formed later on the paper.
The through hole 2 is closed on one side by a security element 3 according to the present invention. In the illustrated embodiment, the security element 3 is disposed in the recess 5 of the banknote 1 surrounding the through hole 2. This gives the banknote 1 a continuous step-free surface that facilitates the handling, especially stacking, of banknotes.
According to the present invention, the security element 3 has different appearances when viewed from the B direction and when viewed from the C direction. In the simplest case, the security element 3 represents a different design, wording, alphanumeric character, pattern or combination of these elements on each side.
However, in order to prevent the security element 3 from being counterfeited, the two types of external appearances of the security element 3 have a identifiable relationship with each other. For example, it is useful when showing right and left information on both sides, especially for wording information. This is because the wording can be read if the right and left are right. Therefore, if the same information is recognized from both sides, there will be a difference in appearance even if the left and right are in each case.
Alternatively, the security element 3 can represent different scenes for one motif. For example, if the front view of the kite is recognized from the B direction, the rear view of the kite is recognized from the C direction. These two figures are preferably arranged in register. Similarly, complementary portions of the overall information can be placed on both sides. Preferably symmetrical information is selected that looks the same from each side.
The difference in the appearance of the security element 3 occurs through a combination of two different security function units arranged in the security element 3 so that only one feature can be seen depending on the viewing direction.
FIG. 3 shows a first embodiment of a security element 3 according to the invention. This security element 3 is composed of two different security function parts 6, 7 each being a diffractive element in this case. The security function unit 6 includes two plastic layers 8 and 9, and a diffraction element in the form of a relief structure 15 is disposed between these layers. Furthermore, there is an additional metal layer 12 between the plastic layers 8 and 9 to ensure that the information stored in the diffractive element can be recognized in the reflected light. The metal layer can include an interruption 16 in the form of a pattern, letters, or numbers. The security function unit 7 is similarly configured and includes two plastic layers 10 and 11 with a diffractive structure 17 and a metal layer 13 disposed therebetween. The metal layer 13 can also comprise interruptions 18 in the form of patterns, letters or numbers.
If the interrupting portions 16, 18 are provided in the metal layers 12, 13, it is preferable to provide an intermediate layer 23, which is opaque in contrast to the metal layer, for example white or black. The mirror image of the character is prevented from being seen from behind. However, both the interrupting portions can be provided to coincide with each other.
The two security function units 6 and 7 can be bonded to each other via an adhesive layer, or can be bonded together without using an adhesive layer. Finally, the security element 3 is bonded to the banknote 1 via the adhesive layer 14.
The plastic layers 9, 11 act primarily as a protective layer and are optional. These are unnecessary, especially when the entire structure is prepared on a carrier foil as a transfer material. In this case, the carrier foil that is pretreated to have the desired stripping properties is covered with a plastic layer 8. The diffractive structure 15 is imprinted on the plastic layer 8, and this imprinted diffractive structure 15 is covered with the metal layer 12, preferably by vacuum evaporation. The plastic layer 10 is then applied to the metal layer 12 and stamped in the same way. The metal layer 13 is preferably applied by vapor deposition to provide a diffractive structure 17. An adhesive layer is applied to the metal layer for transfer onto the final substrate. If the metal layers 12, 13 are provided with interruptions, further steps are required that require specific methods such as removal, etching or rinsing with a laser beam.
The relief structure 15 is displayed so that, for example, the front of the bag can be seen when viewed from the B direction, and the color of the relief structure 15 changes when the banknote 1 is tilted. However, the diffractive structure 17 gives a visual impression of the back of the bag, and its color changes when the banknote 1 is tilted. Alternatively or in addition, the diffractive structure itself can carry readable information that can be read side by side on both sides.
FIG. 4 shows a variant of the security element 3 shown in FIG. 3, in which the security function parts 6, 7 are connected to each other via an adhesive layer 19, and the metal layers 12, 13 are not provided with interruptions. . The adhesive layer 19 can have mechanically inspectable properties. The adhesive layer 19 can be a mixture of a conductive pigment or a magnetic pigment, for example.
FIG. 5 shows a further embodiment of the security element 3 according to the invention. Here again, each of the security function parts 6 and 7 is composed of two plastic layers 8, 9, 10, and 11 with diffractive structures 15 and 17 in the form of relief structures in between. In this case, however, the diffractive structures 15 and 17 are not coupled to the opaque metal layer. Instead, the plastic layers 8, 9; 10, 11 are refracted between them, so that the diffractive structures 15, 17 can be seen in reflected light as well. Dielectric layers 20; 21 having different rates are provided. Since the dielectric layers 20, 21 are transparent, an additional layer must be inserted between the security functions 6, 7 so that only one of the security functions 6, 7 can be seen in each case. I must. In the embodiment shown, this is the black layer 23, which absorbs the transmitted light, which at the same time increases the brightness of the visual impression of the diffractive structures 15,17. In the illustrated embodiment, the security element 3 further comprises an adhesive layer 19 that couples the two security function parts 6 and 7 together.
When the layer 23 has adhesiveness or a bonding function, the adhesive layer 19 can be omitted.
Instead of the black layer 23, in addition to the same optical effect, it is also possible to use a dark-colored magnetic layer that guarantees the machine-readable properties of the security element 3. In order to prevent the magnetic layer from leaking transmitted light, a color layer may be provided in addition to the magnetic layer.
In the modification of the security element 3 shown in FIG. 6, the security function units 6 and 7 have different configurations. The security function unit 6 includes a diffraction element similar to that shown in the above-described figure. However, the security function unit 7 in this case includes a thin film structure 22 which is applied to a certain region and represents a certain motif, pattern, or letter and numeral. Again, the black layer 23 is disposed between the security function units 6 and 7 in order to guarantee separate vision for the two security function units 6 and 7. Again, the black layer 23 has the function of increasing the optical effect of the thin film structure 22.
The information represented by the thin film structure 22 can correspond to the information represented by the diffractive structure 15, complementing this, or making the same motif appear in another scene as described above.
Instead of the thin film structure, a printing ink containing a layer having another effect or a pigment having the effect can be used. The layer having the above effect or the pigment having the effect is, for example, a light emitting property, a light absorbing property, particularly an infrared absorbing material, or a liquid crystal pigment. Simple printing is also possible.
FIG. 7 shows a further embodiment of the security element 3 according to the present invention, in which the two security function parts 6 and 7 are respectively composed of printed images 25 and 26 optically changing. Accordingly, the printing ink contains at least one liquid crystal pigment or interference layer pigment. Different optically changing pigments can be used for the two printed images 25, 26.
If one of the printed images 25, 26 is visible in each case, an opaque carrier 24 is used. The carrier 24 is preferably a dark colored plastic foil.
Each of the illustrated embodiments includes an adhesive layer 14 that secures the security element 3 to the banknote 1. However, the adhesive layer 14 is optional. Alternatively, the adhesive layer may be applied to the certificate itself, or another fixing method may be selected.
FIG. 8 shows another embodiment of the security element 3 according to the invention. Here, a carrier material 33, which is preferably a transparent plastic foil, is provided in a manner with a security function 6 on one side and a security function 7 on the other. In the illustrated embodiment, both security function sections 6 and 7 are formed of a diffractive structure that can be observed in reflected light. This diffractive structure exists in the form of a relief structure in plastic layers 36, 37 with metal layers 35, 38, respectively. The metal layers 35 and 38 are finally covered by the protective layers 34 and 39.
In the simplest case, the plastic layers 36 and 37 have the same diffractive structure, and the security function sections 6 and 7 are merely different in the colors of the metal layers 35 and 38. The different colors of the metal layers 35, 38 can be caused by the use of specific metals with different inherent colors. For example, the metal layer 35 can be composed of a silver aluminum layer, and the metal layer 38 can be composed of a copper layer. However, the effect that the color of the metal layer is different can be produced with the help of the protective layers 34, 39. In this case, the same material is used for the metal layers 35 and 38, and the protective layers 34 and 39 are colored in different see-through colors. Alternatively or in addition, different diffractive structures may be selected for the security function parts 6, 7.
FIG. 9 shows a further embodiment of the security element 3 according to the invention in which different security function parts 6, 7 are used. The security function unit 6 corresponds to the security function unit including the reflective diffractive structure provided with the carrier material 33 as described in FIG. The security function part 7 arranged on the opposite side of the carrier material 33 is constituted by a printed image 40 covered with a semitransparent layer 41. The translucent layer 41 can be a thin, transparent metal surface layer or network metal layer.
Alternatively, for example, a multilayer structure having a diffraction structure similar to the security function unit 6 can be used. In this case, however, a dielectric transparent layer that allows the printed image 40 to be recognized on the one hand and the diffractive structure to be visible in the reflected light must be used instead of the metal layer 35. In this embodiment, it is also effective to color the carrier foil 33 to visually separate the security function units 6 and 7 from each other. According to a further embodiment shown in FIG. 10, not all layers of one security feature need necessarily be disposed on the same side of the carrier material 33. Thus, the translucent layer 41 can also be disposed below the security function 6 on the same side of the carrier material 33. In the embodiment shown here, the metal layer 35 further comprises an arbitrarily shaped interruption. These interruption parts are formed in a relatively large area having an arbitrary contour shape such as a square, a circle, a rectangle and the like. These interruption parts are recognized in the reflected light when the security element 3 is viewed from the A direction. The translucent layer 41 disposed under the security function unit 6 ensures that the print image 40 cannot actually be recognized from the A direction. Only when viewed in transmitted light, the printed image 40 is visible through the interrupting section 42. However, when the security element is viewed from the B direction, since the semi-transparent layer 41 hides the security function unit 6, only the print image 40 is immediately recognized.
FIG. 11 shows a further embodiment of the security element 3 according to the invention. In this case, the security function unit 6 is made of a plastic layer in which a diffractive structure is incorporated, and then a metal layer is provided at least in a partial region. The security function unit 7 includes a print image 40 visually separated from the security function unit 6 by an opaque white print layer 42.
FIG. 12 shows that both the security function unit 6 and the security function unit 7 are made of an opaque coating layer having interruption portions 44 and 46 in a certain area. The essential point is that the opaque coating layer 45 has no interruption in the area of the interruption 44, that is, the coating layer 45 exists over the entire area of the interruption 44. On the other hand, the opaque coating layer 43 exists over the entire area of the interruption portion 46. This ensures that the information represented by the interrupting unit 44 is recognized only from one side of the security element 3 in any case, and can be read in a state where the left and right are not always reversed in the case of characters. The opaque coating layers 43 and 45 may be any colored layer and / or metal layer. The layers 43, 45 can be different in color, so that in the case of metal layers, different colors can be produced by printing a transparent color lacquer layer on the surface. Optically changing printing inks or metallic inks can also be used, which are applied to the carrier material 33 as white print images.
It goes without saying that if metal layers are used as opaque coating layers, they can be combined with diffractive structures as described above.
In all embodiments in which a diffractive structure is used as the security function unit, the diffractive structure can also function as a transparent diffractive element by replacing the metal layer with a dielectric layer having a corresponding refractive index. . The dielectric layer may be an adhesive layer that serves as an additional security feature or an element for bonding to the end substrate.
If the security function unit includes a metal layer, the metal layer can be formed in the form of a translucent layer or a mesh layer.
FIG. 13 shows an embodiment of a certificate according to the present invention. In this case, the opening 2 opened in the banknote 1 is closed by the security function units 27 and 28 on both sides. In other words, the security element 3 in this case is not prepared as a uniform layer structure disposed in the opening region, but individual parts of the security element 3, that is, the security function units 27 and 28, respectively. It is separately disposed on one side of the opening. The security function units 6 and 7 described above can be used similarly. They exhibit the same optical effects and have a similar relationship with respect to the information displayed.
The security element 3 shown in FIG. 1 can have any contour. For example, a circular shape, an elliptical shape, a rectangular shape, a star shape, an unequal side quadrilateral shape, or the like can be used. This contour can be matched or matched to the contour of the opening 2.
Alternatively, the security element 3 can be in the form of a band extending across the entire width or length of the certificate. This embodiment is particularly effective when security paper is used to create a certificate and the security element 3 is already applied to the security paper in a continuous manner.
FIG. 14 is a plan view of the security paper 30. The security element 3 is applied to the band shape at a predetermined interval by a continuous hot stamping method. In the next processing step, the security paper 30 is printed and cut into individual certificates.
FIG. 15 is a cross-sectional view taken along line DD of the security paper 30 of FIG. It can be seen that the security paper 30 is provided with openings 2 at predetermined intervals under the security element 3. The openings 2 are preferably formed at intervals such that one certificate has one opening 2. The opening 2 here is formed during the manufacture of the security paper 30 such that the edge 31 of the opening 2 is irregular and fluffy.
The security function can also be provided as a security strip embedded in the security paper. In this case, the security paper is preferably provided with openings called windows on both sides.
It is a top view which shows the value certificate by this invention. It is sectional drawing along the AA line of the certificate of FIG. It is sectional drawing which shows embodiment of the security element by this invention. It is sectional drawing which shows embodiment of the security element by this invention. It is sectional drawing which shows embodiment of the security element by this invention. It is sectional drawing which shows embodiment of the security element by this invention. It is sectional drawing which shows embodiment of the security element by this invention. It is sectional drawing which shows embodiment of the security element by this invention. It is sectional drawing which shows embodiment of the security element by this invention. It is sectional drawing which shows embodiment of the security element by this invention. It is sectional drawing which shows embodiment of the security element by this invention. It is sectional drawing which shows embodiment of the security element by this invention. FIG. 6 is a cross-sectional view showing a further embodiment of the certificate according to the present invention. It is a top view which shows one Embodiment of the security paper by this invention. It is sectional drawing of the security paper by this invention along the DD line | wire of FIG.
DESCRIPTION OF SYMBOLS 1 Banknote 2 Through-hole 3 Security element 3, 4 Metal layer 6, 7, 27, 28 Security function part 8, 9, 10, 11, 36, 37 Plastic layer 12, 13, 35, 38 Metal layer 14, 19 Bonding Agent layer 15, 17 Diffraction structure 16, 18, 44, 46 Interrupted portion 20, 21 Dielectric layer 22 Thin film structure 25, 26, 40 Printed image 30 Security paper 33 Carrier material 41 Translucent layer 43, 45 Opaque coating layer
A security element for security paper, a certificate, an identification card, etc., comprising at least two different security function parts arranged opposite to both sides of the security element, wherein at least one of the security function parts A security element characterized in that one can be optically changed.
The security element according to claim 1, wherein the security function unit is a printed image or a translucent layer.
The security element according to claim 2, wherein the translucent layer is a thin metal layer or a net-like metal layer.
The security element according to claim 2, wherein the printed image has infrared absorptivity, luminescence, magnetism, or conductivity.
4. The security element according to claim 2, wherein the print image is a white print image.
The security element according to any one of claims 1 to 5, wherein the both security function units are security function units that can be optically changed.
The security function unit is disposed on the security element so that only one of the security function units can be recognized when the security element is viewed from one side. The security element according to any one of 1 to 6.
The security element according to claim 1, wherein at least one of the optically changeable security function units is a diffractive structure that can be observed in reflected light.
The security element according to any one of claims 1 to 8, wherein at least one of the optically changeable security function units is a thin film element.
At least one of the optically changeable security functions is an optically changeable printed image, and the used printing ink is an optically changeable pigment such as a liquid crystal pigment or an interference layer pigment. The security element according to claim 1, comprising at least one.
11. The security according to claim 1, wherein a layer that can be inspected by a machine and / or a layer that can be inspected by the naked eye is disposed between the security function units. element.
The security element according to claim 11, wherein the layer that can be inspected by the naked eye has a plastic layer having infrared absorptivity, luminescence, magnetism, or conductivity.
The security element according to any one of claims 1 to 12, wherein a colored layer which is preferably a black layer or a white layer is disposed between the security function units.
The security element according to any one of claims 1 to 13, wherein at least one of the security function units includes a layer provided with an interrupting part such as a character, a pattern, or a sign.
15. The security element according to claim 1, wherein the security element comprises a multilayer foil structure, and the two different security functions are two diffractive structures that give different optical impressions that can be observed in reflected light. The security element according to any one of the above.
At least one of the two diffractive structures observed in reflected light includes a plastic layer and a metal layer provided in at least a part of the region, and the plastic layer has a diffractive structure in the form of a relief structure. The security element according to claim 15, wherein the security element is provided.
17. The security element according to claim 16, wherein both of the security function units are composed of a plastic layer and a metal layer provided in at least a part of the region, and the metal layer exhibits different color effects.
The security element according to any one of claims 15 to 17, wherein the security element includes two security function units with a magnetic layer interposed therebetween.
At least one of the two diffractive structures that can be observed in reflected light is a plastic layer and the plastic layer so that the diffractive structure existing in the form of a relief structure in the plastic layer can be observed in reflected light The security element according to claim 15, comprising: a dielectric layer having a different refractive index.
The security element according to claim 19, wherein the security element includes two security function units with a black layer disposed therebetween.
21. The security element according to claim 1, wherein the two security function units represent different scenes of the same motif.
Security elements for security papers, certificates, identification cards, etc.
At least two different security function parts disposed opposite to both sides of the security element, each of the security function parts having an opaque coating with an interrupting part in the form of a character or pattern or a sign. And an opaque coating layer on the opposite side covers the entire area of the interrupting portion.
The security element of claim 22, wherein at least one of the two opaque coating layers is a metal layer.
24. Security element according to claim 22 or 23, characterized in that the two opaque coating layers have different colors.
A security paper for creating security certificates such as banknotes, identification cards, etc.
25. At least one through-hole, wherein one side of the through-hole is closed by a security element according to at least one of claims 1 to 24 so that the different security features can be recognized in the area of the through-hole. Security paper characterized by
A security certificate such as a bank note or identification card,
25. A security element according to any one of claims 1 to 24, comprising at least one through-hole, wherein one side of the through-hole is closed by the different security function part so that it can be recognized in the region of the through-hole. A valuable certificate characterized by being peeled off.
Comprising at least one through hole, one side of the through hole being blocked by a first optically changeable security function, and the other side of the through hole being different from the first security function, 2. A valuable certificate that is blocked by a second optically changeable security function.
25. A security certificate such as a bank note or an identification card comprising the security element according to any one of claims 1 to 24.
25. A method for preventing counterfeiting of any type of article using the security element of any one of claims 1 to 24.
A method for preventing counterfeiting of any type of article using the security paper of claim 25.
29. A method for preventing counterfeiting of any form of article using a certificate according to any one of claims 26-28.
JP2003554453A 2001-12-21 2002-12-17 Security elements for security papers and certificates Active JP4574986B2 (en)
JP2005512859A true JP2005512859A (en) 2005-05-12
JP4574986B2 JP4574986B2 (en) 2010-11-04
JP2003554453A Active JP4574986B2 (en) 2001-12-21 2002-12-17 Security elements for security papers and certificates
JP2008049599A (en) * 2006-08-25 2008-03-06 Shuho:Kk Method for preparing composite decorative pattern and decorative element with it
JP2010518432A (en) * 2007-02-07 2010-05-27 レオンハード クルツ シュティフトゥング ウント コー． カーゲー Security element of security document and manufacturing method thereof
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