The present disclosure is generally directed toward security features and methods of incorporating security features into documents, credentials, passports, and other substrates.
The use of identification documents and other credentials is pervasive. Credentials are used on a daily basis for a number of different purposes. Credentials are most commonly used to prove identity, to verify age, to access an asset (e.g., secure area, financial account, computing resource, etc.), to evidence driving privileges, to cash a check, and so on. Airplane passengers are required to show a credential during check in, and sometimes at security screening and prior to boarding their flight. We also live in an ever-evolving cashless society where credentials are used to make payments, access an automated teller machine (ATM), debit an account, or make a payment, etc. Many industries require that their employees carry photo identification credentials on the job and to access various locations on a job site.
While many different types of security features have been developed to enhance the security associated with credentials, there is a growing desire for windowed credentials to include security features therein.
Prior art credentials 100, such as the one depicted in
It is, therefore, one aspect of the present disclosure to provide a credential with one or more security features. In particular, embodiments of the present disclosure provide a credential or document having a windowed security feature that includes at least one photo-luminescent feature (e.g., Ultraviolet (UV) fluorescent ink or Infrared (IR) photo-luminescent ink) and at least one mirror element that are viewable through the viewing area of the windowed security feature.
According to aspects of the present disclosure, one embodiment of such a credential comprises:
a transparent window;
a mirror element positioned in proximity with the transparent window; and
a first photo-luminescent feature positioned relative to the transparent window and the mirror element such that the mirror element enhances a luminescence of the first photo-luminescent feature when viewed and illuminated through the transparent window.
According to other aspects of the present disclosure, the first photo-luminescent material is positioned in a view area of the transparent window.
According to other aspects of the present disclosure, the credential further includes a second photo-luminescent material that is different from the photo-luminescent material.
According to other aspects of the present disclosure, the mirror element is situated between the first photo-luminescent material and the second photo-luminescent material.
According to other aspects of the present disclosure, the first photo-luminescent material is visible through the transparent window when viewed from a first direction and the second photo-luminescent material is visible through the transparent window when viewed from a second direction that is different from the first direction.
According to other aspects of the present disclosure, the mirror element comprises a printed mirror.
According to other aspects of the present disclosure, the mirror element comprises at least one of metallic flakes or retro reflective beads.
According to other aspects of the present disclosure, the mirror element comprises an antenna.
According to other aspects of the present disclosure, the mirror element comprises a foil mirror.
According to other aspects of the present disclosure, the mirror element comprises a diffractive element.
According to other aspects of the present disclosure, the first photo-luminescent material comprises an ultraviolet visible ink.
According to other aspects of the present disclosure, the transparent window corresponds to an opening in an opaque layer of the secure document and the opening in the opaque layer aligns with the first photo-luminescent material and the mirror element.
According to other aspects of the present disclosure, the mirror element includes a predetermined shape that is visible through the transparent window when the first photo-luminescent material is illuminated with light of a predetermined wavelength.
According to other aspects of the present disclosure, the mirror element is provided on a separate layer of the secure document than the first photo-luminescent material.
The present disclosure will be further understood from the drawings and the following detailed description. Although this description sets forth specific details, it is understood that certain embodiments of the invention may be practiced without these specific details.
The patent application file contains at least one drawing executed in color. Copies of this patent or patent application publication with color drawing(s) will be provided by the Office upon request and payment of the necessary fee.
With reference to
In the depicted embodiment, the improved windowed security feature 208 includes a mirror element 204 that is substantially proximal or adjacent to a photo-luminescent feature 116. In some embodiments, the mirror element 204 and photo-luminescent feature 116 are both contained within a viewing area or viewing window defined for the windowed security feature 208. In other words, a person or machine may view the photo-luminescent feature 116 and/or the mirror element 204 through the window of the windowed security feature 208.
In some embodiments, luminescence of the photo-luminescent feature 116 through the window 208 is improved/enhanced by the mirror element 204. In particular, when a user or machine views the photo-luminescent feature 116 from the top of the credential 200 and the photo-luminescent feature 116 is illuminated with light of a particular wavelength from the top of the credential 200, the luminescence of the photo-luminescent feature 116 is greatly improved/enhanced due to the mirror element 204 reflecting light passing through the window 208 back toward the photo-luminescent feature 116. Thus, the photo-luminescent feature 116 is illuminated with light that directly impacts the photo-luminescent feature 116 as well as light that passes by or through the photo-luminescent feature 116, and is reflected off the mirror element 208. This extra illumination by virtue of reflecting light back onto the photo-luminescent feature 116 helps to make the photo-luminescent feature 116 much more visible to an inspecting person or machine.
As shown in
As can be seen in
In some embodiments, the viewing window of the windowed security feature 208 is created by one or more cutouts, absences, vias, or openings in the opaque portions 108 when the opaque portions are laminated with other layers to create the laminated structure 104. Thus, depending upon the layer on which the photo-luminescent feature 304a, 304b and/or mirror element 204 are placed, the particular placement of the features 204, 304a, 304b may vary without departing from the scope of the present disclosure. Furthermore, as shown in
Using the credential 300 of
The viewing experience for the credential 200 of
In some embodiments, the photo-luminescent features 116, 304a, 304b may correspond to photo-luminescent or photo-reactive inks that are printed on one or more layers of the laminated structure 104. The inks may be LTV fluorescent inks, IR fluorescent inks, or any other type of photo-reactive compound known in the art. In credentials using more than one photo-luminescent feature (e.g., credential 300), the photo-luminescent features 304a, 304b may be the same as one another or different from one another. For instance, when different types of photo-luminescent features 304a, 304b are utilized, a viewing experience of the window 208 from the first direction D1 will be substantially different from a viewing experience of the window 208 from the second direction D2. As an example, the first photo-luminescent feature 304a may correspond to UV fluorescent ink of a first color (e.g., red LTV ink) whereas the second photo-luminescent feature 304b may correspond to a UV fluorescent ink of a second color (e.g., white UV ink).
The use of two different invisible UV-fluorescent inks for the features 304a, 304b, printed by offset lithography in different layers of the laminated structure 104 enables two different color emissions when the window is examined from the two different sides of the credential 300 (e.g., from the different viewing directions D1, D2). This effect is made much stronger when a mirror element 204 is provided (e.g., printed, stamped, etc.) between the two fluorescent printings. This mirror element 204, as discussed above, acts in 2 ways: (1) to boost the fluorescence from the print on the side being observed and (2) to block the fluorescence from the print on the other side.
In such embodiments, viewing the window 208 from the different viewing directions D1, D2 could give different fluorescent colors depending on which side of the window 208 was viewed and illuminated with a UV lamp (or IR light source).
In some embodiments, the mirror element 204 is a screen printed metallic or other reflective ink printed on one or more layers of the laminated structure 104 that separate the photo-luminescent features 304a, 304b. As discussed above, the area covered by the mirror element 204 may be at least as large as the area of the photo-luminescent features 304a and/or 304b and, in some embodiments, may be larger than the area covered by the photo-luminescent features 304a and/or 304b. In some embodiments, the area covered by the mirror element 204 is smaller than the opening which defines the window 208; however, if the mirror element 204 is provided above or below the window 208, then it may be possible to utilize a mirror element 204 that is larger in area than the opening which defines the window 208.
The mirror element 204 may manifest in a myriad of forms. For instance, the mirror element 204 may correspond to a reflective ink printed on one or more layers of the laminated structure 104 as discussed above. Other embodiments may utilize a printed mirror, for example metallic flakes or maybe retro-reflective beads. In other embodiments, a foil mirror (e.g., a vacuum deposited metal such as aluminum) is positioned behind/between the photo-luminescent features 304a, 304b. In still other embodiments, a diffractive element (e.g., a holographic feature or device) may be used as part of the mirror element 204 to separate the photo-luminescent features 304a, 304b. In still other embodiments, the mirror element 204 may include a reflective laser recordable media or plurality of media. In some embodiments, the mirror element 204 can have a shape to give a specific visual effect (e.g., star, circle, square, etc.). Accordingly, when one side or the other of the credential 200, 300 is illuminated, you will get different effects (because of the mirror being placed between the inks).
In some embodiments, the antenna of a smart card or contactless credential may be dual-purposed for use as the mirror element. In some embodiments, the antenna acting at the mirror element may correspond to ink that has been screen-printed onto the appropriate layer of the document. In some embodiments, the antenna may correspond to a wire antenna. It is anticipated, however, that an antenna formed from screen-printed ink may provide a better reflectivity of the light and create a better visual effect of the photo-luminescent material.
Tests using red UV ink and off-white UV ink have been conducted using a credential construction similar to the credential 300 shown in
In the construction of
In some embodiments, the combination of layers included in the eventual laminated structure 104 can be around 900 microns before lamination. It may be possible to offset print on thinner material to keep the overall thickness of the finished credential 200, 300 within ISO standards.
Additional trials have been conducted to see the effects of reflective fluorescence brilliance when additional PC materials are added between the photo-luminescent feature 116, 304a, 304b and the mirror element 204. A first example is illustrated in
A second example is illustrated in
A further trial was conducted to see the effects of reflective fluorescence brilliance when the photo-luminescent feature 116, 304a, 304b and the mirror element 204 were moved farther from the outer or top surface of the structure.
As seen in
Referring again to the structure of
In some embodiments, three different inks were obtained from SICPA, emitting red, “white” and blue under 365 nm illumination. These inks were specified to be printable by wet offset onto polycarbonate, to be UV-curable and suitable for lamination.
Simplified structures of the PRC structure (shown above) were used to test the principles of UV-fluorescent windows. In some embodiments, there is the ability to use a metallic print, sandwiched between the UV-fluoro prints. A card was assembled with UV fluorescence in the window, and found to exhibit much brighter fluorescence when positioned over a metallic antenna layer. In some embodiments, the metal layer might acts as a mirror element, enhancing the intensity of the fluorescence, and also as an opaque layer, enabling different fluorescent colors to show when viewing different faces of the window.
While illustrative embodiments of the disclosure have been described in detail herein, it is to be understood that the inventive concepts may be otherwise variously embodied and employed, and that the appended claims are intended to be construed to include such variations, except as limited by the prior art.
The present application is a continuation of U.S. patent application Ser. No. 16/856,703, filed Apr. 23, 2020, which is a continuation of U.S. patent application Ser. No. 15/766,537, filed Apr. 6, 2018, which is a national stage application under 35 U.S.C. § 371 of PCT Application No. PCT/IB2016/002008, filed Oct. 17, 2016, which claims the benefit of U.S. Provisional Patent Application No. 62/242,031, filed Oct. 15, 2015, each of which is hereby incorporated herein by reference in its entirety.
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20210276357 A1 | Sep 2021 | US |
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62242031 | Oct 2015 | US |
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Parent | 16856703 | Apr 2020 | US |
Child | 17203165 | US | |
Parent | 15766537 | US | |
Child | 16856703 | US |