Patent Application
20240025199
The present invention relates to security documents and the manufacturing thereof.
Due to recent developments in society and industry, data processing and data handling require the compliance with increasingly restrictive regulations so as to reduce the possibility of tampering with sensitive data. In many applications, sensitive data or information has to be stored in a permanent and tamper resistant manner, in particular, when data or information in non-electronic form, possibly in combination with electronically stored data, has to be stored in certain carriers. For example, credit cards, respective cards for health insurance, identification cards or the like, represent respective “carriers” having stored therein a significant amount of non-electronic information, for instance, in the form of one or more images, symbols, text and the like.
Typically, this information, possibly in combination with electronically stored data, such as Radio Frequency Identification Device (RFID) labels and the like, is provided on the basis of a respective carrier, hereinafter referred to as “security document,” which has to provide for high tamper resistance, so as to make difficult any intentional manipulation of the information stored in the respective carrier.
In accordance with some examples, security documents may comprise security cards, electronic pass ports and electronic data pages.
Security documents may be provided in the form of a booklet with several pages, at least one of which is a data page. The data page is typically formed as a stack of individual plastic sheets, such as polycarbonate layers or sheets, which are stacked and cut into desired dimensions, thereby providing the possibility of inserting respective sensitive data carriers, for instance in the form of text, images, artwork, symbols, and the like, and/or using one of the layers itself as a carrier of sensitive information. The data page may be provided in the form of material block having a highly uniform composition so as to reduce the risk of manipulating the data page in any undesired manner.
Data pages may be provided in the form of a smart card. Smart cards are the latest innovation in the family of security documents, in particular of identification cards using the ID-1 format defined in ISO/IEC standard 7810. Their characteristic feature is an integrated circuit (a RFID) embedded in the card body, which has components for transmitting, storing and processing data. The data can be transmitted by contacts on the surface of the card or by an electromagnetic field without using contacts. One of the most important advantages of smart cards is that their stored data can be protected against unauthorized access and manipulation, because the confidential data stored in the card can be processed only internally by the chip's processing unit.
Given the wide spread use of security documents and the importance of the data stored within them, numerous attempts of counterfeiting have been made. Counterfeiters can obtain the basic materials for making a security document from normal commercial channels, and, with a suitable equipment, they may duplicate any type of security card.
In view of the situation described above, it is an object of the present invention to fabricate a security document in such a manner that counterfeiting thereof is made difficult. This object is accomplished by providing the pre-form for the security document with an improved color-coded pattern which can be identified by visual inspection and which is fabricated by exploiting special materials.
The present invention is based on the idea of providing a pre-form for a security document with superior tampering resistance by introducing an additional security level. The additional security level comprises a color-coded pattern resulting from one or more inlays of special materials inserted into the card body, wherein the inlays of special materials are able to interact with a light source. In this way, the user is able to recognize the correct interaction of the special materials with the light source and hence to confirm that the card has not been counterfeited.
A pre-form for a security document represents the core of the security document and it is formed by a stack of individual plastic sheets having a standard configuration, which may be used by a manufacturer as a starting point for fabricating the final security document. After having introduced at least a part of the sensitive data into the layer stack, the respective pre-form of the security document may be heat treated so as to laminate the individual layers, thereby initiating a respective reaction between the individual surface areas, finally resulting in a monolithic structure, which may substantially not be separated in a later stage without inducing significant damage and, thus, leaving behind recognizable traces of any sort of tampering attempt.
According to an embodiment of the present invention, a pre-form for a security document comprising at least a bottom layer, a central layer and a top layer is provided, wherein the central layer comprises one or more insert inlays disposed between a first corner and a second corner of a first side of the central layer so as to form a horizontal color-coded pattern, wherein the one or more insert inlays comprise a light guide material configured to interact with input light entering through at least one window of the pre-form and exiting from the one or more insert inlays, so that the color-coded pattern is modified by the interaction between a predefined input light and the light guide material.
This configuration has the advantage that, the pre-form for a security document is provided with an additional security level, since it further comprises one or more insert inlays characterized by a predefined color-coded pattern. An additional security level may be provided in this way, because one or more insert inlays comprising light guide materials are inserted into the central layer of the pre-form, hence it would be more difficult for counterfeiters to find these light guide materials, to manipulate them and to assemble them with the other layers of the pre-form for a security documents to produce fake pre-form for security documents.
Hereinafter, the “color-coded pattern” of a single insert inlay is intended as indicating not only a predefined color, but also a predefined brightness, a predefined shape and predefined dimensions. Moreover, the “color-coded pattern” of two or more insert inlays is intended as indicating not only a predefined sequence of colors, but also a predefined configuration of the insert inlays having any desired shape, and/or dimensions, and/or reciprocal position and/or predefined brightness.
Hereinafter, the color-coded pattern is defined as being horizontal, to indicate that the one or more insert inlays are disposed along a horizontal direction between a first corner and a second corner of a first side of the central layer, wherein a corner defines a place where two sides of the central layer meet.
For instance, a single insert inlay which is red, has a rectangular shape and a height of the rectangle equal to the thickness of the central layer of the pre-form defines a predefined color-coded pattern.
For instance, two insert inlays which are respectively red and blue, having a rectangular shape and a height of the rectangle equal to the thickness of the central layer of the pre-form and being spaced by a distance “d” define a predefined color-coded pattern.
It should be appreciated that the one or more insert inlays may have any color, for instance they can be red, blue, green, yellow or the like. Preferably, the customer may choose any desired colors for the one or more insert inlays to meet special requirements.
It should be appreciated that the one or more insert inlays may have any shape, for instance a circular shape, a rectangular shape or the like.
Moreover, the two or more insert inlays may be placed at any predetermined reciprocal distance, for instance they can be placed in contact with each other or they can be separated. Moreover, the one or more insert inlays can have any predetermined thickness.
The insert inlays, thanks to light guide technology, can interact with predefined input light entering the card and they can create an output color-coded pattern that can be detected by the user. The user can then detect the output color-coded pattern by visual inspection and can identify a genuine product or a counterfeited one.
It should be appreciated that the light guide materials may include translucent materials, for example translucent plastic, transparent materials or surface-coated transparent materials. In some examples, light guide materials may even comprise optical filter materials, such as light filters or polarizers.
The predefined input light may include ambient light, monochromatic light, white light, polarized light and the like, depending on the required interaction between the light guide material and the light source.
In a not limiting example, the one or more insert inlays may be made of a light guide material such as translucent plastic and the pre-form may be exposed to visible ambient light, for instance white light, so that the output color-coded pattern may have the same sequence of colors as the initial one, but with enhanced brightness.
In another not limiting example, if the one or more insert inlays are made of a light guide material such as translucent plastic and if the pre-form is exposed to a predefined monochromatic source, then the output color-coded pattern may have a different sequence of colors with respect to the initial one. For instance, if the two insert inlays are respectively blue and red and a monochromatic green source is employed, the output color-coded pattern is cyan and yellow.
In another not limiting example, if the one or more insert inlays are made of a polarizer material and if the pre-form is exposed to a non-polarized light source, then the output color-coded pattern comprises polarized light. In another not limiting example, if the one or more insert inlays are made of a light filter material transmitting a predefined wavelength and if the pre-form is exposed to a white light source, then the output color-coded pattern comprises the color corresponding to that predefined wavelength.
In the examples above, the output color-coded pattern may be thus modified by the input light interacting with the light guide material, as the output color-coded pattern can be brighter than the original one or it can have a different sequence of colors or different optical properties.
According to another embodiment of the present invention, a pre-form for a security document is provided, wherein the one or more insert inlays comprise a light guide material which interacts with visible ambient light in such a way that the brightness of the color-coded pattern is enhanced after exposure to visible ambient light.
The advantage of this configuration is that it is easy to produce and straightforward to use, since the color-coded pattern formed on the central layer of the pre-form for the security document is the same before and after exposure to visible ambient light. Nonetheless, a superior security level is provided to the pre-form, because, after exposure to visible ambient light, the user will observe an increased brightness of the colors of the insert inlays.
According to a more illustrative embodiment, the light guide material may be a translucent plastic or a transparent plastic material having any desired color, for instance red, blue and the like.
According to another embodiment of the present invention, a pre-form for a security document is provided, wherein the one or more insert inlays comprise a light guide material which interacts with a predefined input light having a predefined wavelength or a predefined polarization, in such a way that the output color-coded pattern resulting from exposure to the predefined input light is different from the color-coded pattern resulting from exposure to visible ambient light.
This configuration is advantageous because an even superior security level is added to the pre-form, since the user can detect the output color-coded pattern of the pre-form after exposure to the predefined light source and can immediately check if the output color-coded pattern corresponds to the expected modified one, thus proving that the pre-form is authentic.
In some examples, predefined light sources may comprise a light source emitting at a single predefined wavelength, for instance a monochromatic laser, or may comprise a light source having a predefined wavelength obtained by using a light filter. For instance, predefined light sources may comprise polarized light sources or unpolarized light sources.
For instance, if the two insert inlays appear respectively blue and red, when exposed to visible ambient light, and if a monochromatic green source is employed, the output color-coded pattern may be cyan and yellow. The user can then confirm if the output color-coded pattern comprising a cyan-yellow color sequence is correct and can thus prove whether the pre-form for a security document is authentic. According to another embodiment of the present invention, a pre-form for a security document is provided, wherein the light guide material comprises optical fibers.
The advantage of this configuration is that the input light can travel from one side to another side of the pre-form through the optical fibers and the loss of radiation can be minimized.
According to another embodiment of the present invention, a pre-form for a security document is provided, wherein the window is placed on the upper surface of the top layer and the window is configured so that the input light can enter the pre-form for a security document and reach the light guide material.
This configuration is particularly advantageous, because it enables an easy operation of the pre-form for a security document. In fact, it is sufficient to expose the card to an ambient light source, for instance a ceiling lamp, without needing to tilt the card, to see the output light coming out of the insert inlays.
In some examples, the pre-form for a security document may comprise a plurality of windows.
According to a more illustrative embodiment, one or more windows are provided on the upper surface of the top layer of the pre-form and they are placed so that the input light can pass through the windows and reach the light guide material without finding any obstacle along its optical path.
According to another embodiment of the present invention, a pre-form for a security document is provided, wherein the window is placed on at least one side of the central layer and the window is configured so that the input light can enter the pre-form for a security document and reach the light guide material.
The advantage of this configuration is that the pre-form for a security document can be easily operated, as it can be placed in proximity of a light source, in such a way that the input light enters from one or more sides of the card and the output light is detected on another side of the card. Moreover, since the window and the one or more insert inlays are located on the same layer, the input light does not need to pass through the separation surface between different layers, where it would be refracted, hence the radiation loss during the optical path of the input light is minimized.
In some examples, a plurality of windows may be provided on the card.
According to a more illustrative embodiment, one or more windows are provided on the one or more sides of the central layer of the pre-form and they are placed so that the input light can pass through the windows and reach the light guide material without finding any obstacle along its optical path.
According to another embodiment of the present invention, a pre-form for a security document is provided, wherein a window is placed on the opposite side of the central layer with respect to the first side.
This configuration is particularly advantageous because the pre-form can be easily operated. In fact, the user can place the pre-form in proximity of a light source, in such a way that the input light passes through one side of the pre-form and the output light exits from the opposite side. In this way, the user does not need to tilt the pre-form to see the output light and can place, for instance, the pre-form in front of himself.
According to another embodiment of the present invention, a pre-form for a security document is provided, wherein a window is placed on an adjacent side of the central layer with respect to the first side.
This configuration is particularly advantageous, because, if the input side is adjacent to the output side, the user can simultaneously see the input light and the output light and control that the operating conditions are correct.
According to another embodiment of the present invention, a pre-form for a security document is provided, wherein one or more insert inlays have a thickness equal to or smaller than the total thickness of the central layer.
This configuration is particularly advantageous since it enables to obtain insert inlays having different dimensions, therefore increasing the number of possible configurations for the color-coded patterns.
In some examples, the one or more insert inlays may have a thickness equal to half of the thickness of the central layer.
According to another embodiment of the present invention, a security document is provided, wherein the security document comprises a pre-form according to one of the embodiments described above.
This configuration has the advantage that the user can identify a genuine security document or a counterfeited security document by detecting the output color-coded pattern by visual inspection.
According to another embodiment of the present invention, a security document is provided, wherein the security document comprises a pre-form according to one of the embodiments described above and the central layer of the pre-form further comprises a chip and the security document is a smart card.
This configuration has the advantage that the user can identify a genuine smart card or a counterfeited smart card by detecting the output color-coded pattern by visual inspection.
According to another embodiment of the present invention, a method for producing a pre-form for a security document is provided, wherein the method comprises producing a pre-form for a security document, comprising providing a bottom layer, a central layer and a top layer for a pre-form for a security document, and laminating together the bottom layer, the central layer and the top layer to form a pre-form for a security document, and the method further comprises the following steps:
The advantage of this configuration is that an additional security level is provided to the pre-form for a security document, because the pre-form for a security document further contains a color-coded pattern, which is defined by a sequence of light guide materials that can interact with light and that can have predefined colors, shapes, dimensions and/or position. The output color-coded pattern is then modified by the predefined input light interacting with the light guide material, and the output color-coded pattern can be brighter than the original one or it can have a different sequence of colors or different optical properties.
The predefined input light may include ambient light, monochromatic light, white light, polarized light and the like, depending on the required interaction between the light guide material and the light source.
In this way, the risk of counterfeiting of the pre-form for a security document is further reduced, because the light guide materials which are inserted into the pre-form are hard to find and difficult to process (for example it is difficult to precisely connect the insert inlays made of light guide materials to the other layers of the pre-form), so it is not easy for counterfeiters to get the light guide materials and manipulate them to counterfeit the pre-forms for security documents.
According to a more illustrative embodiment, the pre-form for a security document is fabricated by assembling together a bottom layer, a central layer and a top layer, and by preparing, in parallel, a light guide material portion comprising one or more insert inlays. Preferably, the top layer is provided with a window having the same shape and dimensions as the light guide material portion that has to be inserted into the pre-form. The light guide material portion is then inserted from the top into the corresponding window on the top layer, to reach the predefined position on the central layer. After insertion of the light guide material portion, the bottom layer, the central layer and the top layer are laminated together to form a pre-form for a security document. Finally, functional tests are performed to confirm that the card has been correctly assembled.
According to another more illustrative embodiment, the central layer may be provided with a window having the same shape and dimensions as the light guide material portion that has to be inserted into the pre-form. In some examples, the light guide material portion may be then inserted through the window placed on any side of the central layer, to reach the predefined position on the central layer.
According to another embodiment of the present invention, a method for producing a pre-form for a security document is provided, wherein the one or more insert inlays are formed from a corresponding cut-out portion of a light guide material.
The advantage of this configuration is that the light guide materials can be easily handled and inserted into the pre-form.
According to another embodiment of the present invention, a method is provided, wherein a single insert inlay is provided and the single insert inlay is cut so as to have the same shape as the window of the pre-form and it is inserted into the pre-form through the window.
This configuration is advantageous because the single insert inlay made of light guide material has the same shape of the input light window and can be advantageously inserted through the window without any further step to be required for insertion.
According to another embodiment of the present invention, a method is provided, wherein two or more insert inlays are provided and they are combined together to form a multi-colored light guide material sheet comprising a horizontal color-coded pattern, and the multi-colored light guide material sheet is cut so as to have a predefined shape
This configuration is advantageous because an independent unit of light guide material is obtained, by combining together two or more insert inlays to form a multi-colored light guide material sheet. This unit can be handled separately with respect to the other components of the pre-form for a security document during the assembly process.
According to another embodiment of the present invention, a method for producing pre-form for a security document is provided, wherein the multi-colored light guide material sheet is cut so as to have the same shape as the window and is inserted into the pre-form through the window.
This configuration is advantageous because the independent unit of multi-colored light guide materials has the same shape of the input light window and can be advantageously inserted through that window without any further step to be required for insertion. Preferably, the multi-colored guide material sheet is cut by exploiting punching tools.
According to another embodiment of the present invention, a method for producing a pre-form for a security document is provided, wherein the multi-colored light guide material sheet is formed by heat lamination.
This configuration is advantageous because the materials are laminated together to form an independent light guide material unit.
According to another embodiment of the present invention, a method for producing a pre-form for a security document is provided, wherein the single insert inlay and/or the multi-colored light guide material sheet are cut so as to have a thickness equal to or smaller than the thickness of the central layer.
This configuration is particularly advantageous since it enables to obtain one or more insert inlays having different dimensions, therefore increasing the number of possible configurations for the color-coded patterns.
According to another embodiment of the present invention, a method for operating a security document comprising a pre-form according to any embodiment described above is provided, wherein the method comprises the following steps:
The advantage of this embodiment is that it is possible to identify, by visual inspection, a security document which has been counterfeited. In fact, it is sufficient to expose the security document to a light source so that the window receives the input light, to detect the resulting color-coded pattern and to compare it with a known reference color-coded pattern.
For example, if the resulting color-coded pattern, after exposure to an ambient light source, for instance white light, does not show superior brightness with respect to the initial one, the user can immediately recognize that the security document does not contain the required light guide materials and that it is not genuine.
For example, if the resulting color-coded pattern, after exposure to a monochromatic light source having a predefined wavelength, does not show an output color-coded pattern different from the initial one but having a predefined, known sequence, the user can immediately recognize that the security document does not contain the required light guide material and that it is not genuine.
According to another embodiment of the present invention, a method for operating a security document comprising a pre-form according to any embodiment described above is provided, wherein the reference color-coded pattern may have the same sequence of colors as the color-coded pattern and it may have superior brightness.
This configuration is advantageous because it is sufficient to expose the pre-form for a security document to ambient light to detect the color-coded pattern on a side of the pre-form. The resulting color-coded pattern is expected to be the same as the original color-coded pattern but to have enhanced brightness. The resulting color-coded pattern may be compared with the original color-coded pattern and, if it corresponds to what is expected by the users, the quality of the card is proven and counterfeiting actions can be excluded.
According to another embodiment of the present invention, a method for operating a security document is provided, wherein the reference color-coded pattern has a predefined sequence of colors, which may be different from the sequence of colors of the color-coded pattern.
This configuration is advantageous because the pre-form for a security document is first exposed to a predefined light source, for example, a light source having a predefined wavelength, then the corresponding color-coded pattern is detected. The resulting color-coded pattern is compared with the original color-coded pattern and, if it corresponds to what is expected by the user, the quality of the card is proven and counterfeiting can be excluded.
In some examples, the security document may be exposed to a non-polarized light source and the one or more insert inlays may comprise polarizer materials. If the resulting color-coded pattern comprises polarized light, the user may recognize that the security document actually includes one or more polarizer insert inlays and may recognize that the security document is genuine.
In some other examples, the security document may be exposed to a white light source and the one or more insert inlays may comprise light filter materials, transmitting a predefined wavelength. If the resulting color-coded pattern comprises the color corresponding to the predefined wavelength, the user may recognize that the security document actually includes one or more insert inlays comprising light filters and may recognize that the security document is genuine
The present invention will be described with reference to the attached figures in which the same reference numerals and/or signs indicate the same part and/or similar and/or corresponding parts of the machine. In the figures:
In the following, the present invention is described with reference to particular embodiments as shown in the enclosed drawings. Nevertheless, the present invention is not limited to the particular embodiments described in the following detailed description and shown in the figures, but, instead, the embodiments described simply exemplify several aspects of the present invention, the scope of which is defined by the appended claims.
Further modifications and variations of the present invention will be clear for the person skilled in the art. Therefore, the present description has to be considered as including all the modifications and/or variations of the present invention, the scope of which is defined by the appended claims.
For simplicity, identical or corresponding components are indicated in the figures with the same reference numbers.
The pre-form 100 comprises at least a bottom layer, a central layer and a top layer. The central layer 120 may comprise two insert inlays 151 and 152, disposed between a first corner 122 and a second corner 123 of the first side 121 of the central layer 120, so as to form a horizontal color-coded pattern 150. The horizontal color-coded pattern 150 does not only depend on the sequence of colors of the two insert inlays 151 and 152, but it also depends on their shape (for example rectangular or circular), dimensions (for example thickness) and reciprocal position (for example distance between the insert inlays 151 and 152). The number of insert inlays is not limited to two, but it may be instead one, three, four or more.
It should be appreciated that any color-coded pattern can be created on the output surface of the central layer of the pre-form 100, and hence of the security document, depending on the specific needs of the customer.
The insert inlays 151 and 152 of
The two insert inlays 151 and 152 comprise a light guide material 140 that can interact with the input light coming from a light source, for example a visible ambient light source or a light source with a predefined wavelength. The light guide material may comprise for instance a translucent plastic material, a transparent plastic material or a surface-coated plastic material.
The interaction between the light guide material 140 and the light source is possible because a window is placed on the upper surface of the top layer of the pre-form 100. Therefore, light can enter into the pre-form through the window 131, then reach the light guide material 140 without finding any obstacle and exit through the insert inlays 151 and 152.
It should be appreciated, however, that a pre-form comprising a plurality of windows 131 is also possible.
The light guide material is configured so as to interact with the input light entering the card through the window 131. The output light then forms an output color-coded pattern which depends on the light guide material 140 and on the particular light source. If the insert inlays 151 and 152 comprise a predefined light guide material 140 and the light source is visible ambient light, for example white light, then the output color-coded pattern may be characterized by a sequence of colors given by the colors of the two insert inlays 151 and 152, but having an increased brightness. If the insert inlays 151 and 152 comprise a predefined light guide material 140 and the light source is a monochromatic source with a predefined wavelength, then the output color-coded pattern may be characterized by a predefined sequence of colors different than the colors of the two insert inlays 151 and 152. Preferably, the bottom layer of the pre-form comprises a reflecting layer to prevent loss of radiation from the bottom of the card.
The monochromatic source may be a light source emitting at a predefined wavelength, for instance a monochromatic laser, or it may be a monochromatic light source obtained with a light filter. Furthermore, the monochromatic source may be polarized or unpolarized depending on the predefined light guide material.
The pre-form is designed so that input light entering the window 131 passes through the light guide material 140 inserted within the central layer 120 and exists through the insert inlays 151 and 152. The two insert inlays 151 and 152 are represented to be at such a distance that they have a side in common. However, it is clear that they can be placed at any preferred reciprocal distance. Moreover, the two insert inlays 151 and 152 are shown to have the same thickness T1, but they could have different thicknesses. Furthermore, the two insert inlays 151 and 152 are shown to have the same thickness T1 as the total thickness of the central layer 120, but they could also have a thickness T1 smaller than the total thickness of the central layer 120.
The two insert inlays 151 and 152 are represented to be spaced by a distance d between themselves. However, it is clear that they can be placed at any preferred reciprocal distance and they could be also put in contact to each other. Moreover, any thickness of the two insert inlays 151 and 152 would be possible.
The two insert inlays 151 and 152 are represented to be one next to the other and also to be in contact with the window 125. However, it is clear that the two insert inlays 151 and 152 and the window 125 can be placed at any preferred reciprocal distance. Moreover, any thickness of the two insert inlays 151 and 152 and of the window 125 would be possible.
The security documents, for example smart cards, comprising the pre-forms 100 according to the illustrative embodiments shown in
When an ambient light source is employed, the light emission pattern may be characterized by a sequence of colors which depends on the sequence of colors of the two insert inlays 151 and 152 and by an increased brightness. The user can hence recognize an increased brightness in the output color-coded pattern and be assured that the security document is genuine.
When a predefined monochromatic light source is employed, the light emission pattern may be characterized by a predefined sequence of colors different from the color-coded sequence of the two insert inlays 151 and 152. By detecting the output color-coded pattern and by knowing the expected predefined color-coded pattern, the user is able to immediately recognize counterfeiting by visual inspection.
It is clear that, even if three cut-out portions of light guide materials are represented, any number of cut-out portions of light guide materials is possible, for example one, two, four, five or more cut-out portions of light guide materials. If a single cut-out portion of light material is inserted into the pre-form for a security document 100, it is preferably cut so as to have the same dimensions as the window of the pre-form for a security document 100, so as to facilitate insertion.
The method for producing a pre-form for a security document 100 according to an embodiment of the present invention is described with reference to
The pre-form for a security document 100 may be initially prepared in a standard way, by assembling together the first two layers, i.e. the bottom layer 110 and the central layer 120. In case a smartcard is required, an electronic chip is also inserted into the pre-form, for example in the central layer 120. Preferably, functional tests are performed to assure the correct functioning of the chip.
A cut-out portion of the light guide material sheet 153 is formed as described with reference to
In the embodiment described with reference to
Once all the layers have been assembled, they are laminated together to form a monolithic block. Preferably, functional tests are performed to check the correct assembly of the pre-form. If a pre-form for a smart card is produced, functional tests are then preferably performed to confirm the correct functioning of the chip.
While the invention has been described with respect to the preferred physical embodiments constructed in accordance therewith, it will be apparent to those skilled in the art that various modifications, variations and improvements of the present invention may be made in the light of the above teachings and within the purview of the appended claims without departing from the spirit and intended scope of the invention.
For instance, even if it has been described that the window for letting the input light enter the pre-form for a security document is provided on the top layer, it is evident that it could be also made on the bottom layer, since there is no preferred orientation of the pre-form. For instance, even if preferred configurations of the insert inlays 151 and 152 are presented, it is clear that any color, position, shape and dimensions of the insert inlays 151 and 152 are possible and that, if two or more insert inlays are provided, they do not need to have the same shape nor dimensions.
For example, the two insert inlays 151 and 152 can have the same thickness as the total thickness of the central layer 120 of the pre-form 100, or they can have a thickness which is smaller than the total thickness of the central layer 120 of the pre-form 100. Moreover, the two insert inlays 151 and 152 can be placed at any predefined distance between each other, so as to create any required optical effect on the output color-coded pattern.
For example, it should be appreciated that the position of the two insert inlays 151 and 152 can be shifted with respect to the position of the input window 125 or 131, as long as the input light can reach the light guide material 140 without finding any obstacle and form the output color-coded pattern.
Even if it is not represented in the figures, it has to be understood that the position of the two insert inlays 151 and 152 can also be aligned with the input window 131 of the pre-form 100, when the window 131 is placed on the top layer 130 of the pre-form 100.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/IB2020/001012 | 10/6/2020 | WO |
