The invention relates to a method for securing the cover sheet of a security document in order to prevent any splitting of the cover sheet. The invention relates also to a security document, such as a passport, obtained with this method.
The invention finds applications in the security field and, in particular, in the field of security documents having the form of booklets containing each one several pages, like passports.
Security documents such as passports are documents issued by a state to allow its citizens to travel abroad. These security documents, and passports in particular, are generally made up of various elements bound together as securely as possible in order to allow its holder to travel freely between states. They provide positive assurance that the identity is real and the person holding the document is correctly entitled to travel or enter a state. Lack of assurance based on poor quality of a document causes the traveller inconvenience as receiving states do not trust the document and conduct more checks or may impose visa regulations on the holder.
Passports include generally a lot of security elements—such as guilloches, holograms, personalized markings, RFID chip, etc.—that allow an authentication of the passport holder. All the security elements are distributed in one or several pages of the passport. However, passports are the subject of numerous forgeries and counterfeits, notably by manipulation of the data contained in the pages. Most of the access to the data page(s) have security surrounding them in order to prevent this happening, mainly associated with the hinge technology. Indeed, forgers often try to detach the data page(s) from the rest of the booklet in order to insert a counterfeit page, or to manipulate the data by overprinting or over lasering of the information.
To prevent these counterfeit and forgery activities, integrity in the booklet is a requirement by mostly states. Integrity preservation consists for example of preventing the access to the hinge, in particular to the stitching thread when the booklet is stitched. Indeed, as shown on
However, this stitching protection is not sufficient for protecting the booklet integrity. Indeed, even if the stitching is protected, forgers may access to the stitching from the cover sheet, by splitting the cover sheet and hence obtaining access to said stitching.
In response to the above formulated problems of forgery and counterfeit risks from the cover sheet, the applicant is proposing a method for securing the cover sheet of passports or other security documents by kiss cutting the inside of said cover sheet.
According to a first aspect, the invention concerns a cover sheet for protecting pages of a security document, said cover sheet comprising a cover material sheet attached to an end paper sheet, wherein the cover sheet comprises at least one kiss cutting inside the cover sheet in order to prevent any splitting inside said cover sheet by delaminating the cover material sheet from the end paper sheet.
Such a cover sheet allows, among other advantages, to prevent any splitting of the cover sheet by any forger. Thus, a forger who wants to split the cover sheet will encounter the cuts so that the cover sheet will fragment and any reassembly attempt will be visible to the naked eye.
In the following description, the expressions “passport” or “security document” will designate in the same manner any document having the form of a booklet and containing security data specific to its holder.
Advantageously, the kiss cutting is extending with a variable depth inside said cover sheet.
According to some embodiments, the cover sheet comprises several kiss cuttings with various depth levels.
According to some embodiments, the cover sheet comprises several uneven kiss cuttings, each kiss cutting extending at different depth from surrounding kiss cuttings.
According to some embodiments, the depth of the kiss cutting has a bias profile.
According to some embodiments, the bias profile extends up to 85% deep of cover material thickness from an inside surface of the cover sheet.
According to some embodiments, the bias profile extends between 25% and 75% from an inside surface of the cover sheet.
According to some embodiments, the kiss cutting has a curve or a geometrical shape.
According to some embodiments, the kiss cutting has an alphanumerical characters shape.
According to some embodiments, the kiss cutting has a width defined according to the depth of said kiss cutting.
According to some embodiments, the kiss cuttings are made either in a reverse side of the end paper sheet or in the inside side of the cover material sheet.
According to some embodiments, the cover material sheet being made up of several material layers congregated with coating layers, each kiss cutting extends inside said material layers.
According to some embodiments, each kiss cutting is made by laser cut with a laser tool, by blade cut with a sharp tool, by embossing or printing with a tool having positive surface relief patterns or by mechanical milling with microtools.
According to second first aspect, the invention concerns a method for securing a security document cover sheet comprising:
Such a method allows, among other advantages, to prevent any splitting of the cover sheet by any forger. Thus, a forger who wants to split the cover sheet will encounter the cuts so that the cover sheet will fragment and any reassembly attempt will be visible to the naked eye.
Advantageously, the step of kiss cutting comprises several uneven cuts in the cover sheet. Such a configuration allows, in particular, to make it even more difficult to split the cover sheet.
According to some embodiments, the step of kiss cutting is made in a reverse side of the end paper sheet.
According to other embodiments, the step of kiss cutting is made in an inside side of the cover material sheet.
According to one or more embodiments, the cover sheet comprises several kiss cuttings with various depth levels.
According to one or more embodiments, each kiss cutting is made by laser cut with a laser tool or by blade cut with a sharp tool. According to other embodiments, each kiss cutting is made by embossing or printing with a tool having positive surface relief patterns or by mechanical milling with microtools.
According to a second aspect, the invention concerns a security document comprising at least:
According to one or more embodiments, the cover sheet comprises at least one kiss cutting extending inside said cover sheet.
According to one or more embodiments, the cover sheet comprises at least one kiss cutting extending with a variable depth inside said cover sheet.
According to one or more embodiments, the cover sheet comprises several uneven kiss cuttings, each kiss cutting extending at different depth from surrounding kiss cuttings.
Such embodiments allow, in particular, to make even more difficult to split the cover sheet.
Advantageously, the depth of the kiss cutting has a bias profile. This bias profile may extend up to 85% from an inside surface of the cover sheet.
Advantageously, the kiss cutting has a curve or a geometrical shape or even an alphanumerical characters shape.
Advantageously, the kiss cutting has a width defined according to the depth of said kiss cutting.
According to one or more embodiments, the cover material sheet being made up of several material layers congregated with coating layers, each kiss cutting extends inside said material layers.
A detailed description of some preferred embodiments is set forth herein below with reference to the following drawings, in which:
This description provides examples not intended to limit the scope of the appended claims. The figures generally indicate the features of the examples, where it is understood and appreciated that like reference numerals are used to refer to like elements. Reference in the specification to “one embodiment” or “an embodiment” or “an example” means that a particular feature, structure, or characteristic described is included in at least one embodiment described herein and does not imply that the feature, structure, or characteristic is present in all embodiments described herein.
The invention is proposing a method for preventing any splitting of the cover sheet of a passport. This method may be implemented in any passport of the type shown in
The method according to the invention proposes to kiss cut inside the cover sheet in order to prevent any splitting inside said cover sheet. Kiss cutting is a die cutting process where foils or papers are cut through, but the laminated backing paper is not. In the invention, kiss cutting the cover sheet allows to make a cut in the depth of the cover sheet without cutting the surfaces (inside and outside surfaces) of said cover sheet. As described later, the kiss cuttings are made either in a reverse side of the end paper sheet 112 or in the inside side of the cover material sheet 111.
A cross-sectional view of an example of a passport 100 according to the invention is represented on
In the description herein after, a data page incorporating personalized data is named bio data page.
In some embodiments, as this one represented on
As shown in
On the examples of
In the embodiment of
In the embodiments of
In preferred embodiments, the kiss cuttings 200 of the cover sheet are provided different from each other in the cover sheet depth, with different depth levels. In some embodiments, each kiss cutting may be placed at a depth level different from others, as shown on
In other embodiments, combinable with previous embodiments, the kiss cuttings extend with a variable depth level in the cover sheet. An example of a variable depth level kiss cutting is represented in
In some embodiments, the method proposes to kiss cut between e.g. 25% to e.g. 75% of the inside of the cover sheet with a thin cut that start at one end at a low level and then move to the full depth. In other word, the kiss cutting may for example extend with a bias section starting at an about 25% depth from the inside surface and stopping at an about 75% depth from said inside surface.
According to the invention, the kiss cuttings may have a more or less thin width up to 200 μm, preferably below 100 μm. A thin width below 100 μm is sufficient for interrupting splitting inside the cover sheet. However, the cut width may be larger: it may be for example defined according to the depth of the kiss cutting. Alternatively, the cut profile may have variable width, e.g. a V-shape which is more wide on the surface of the cover material sheet and narrow at the bottom of the cut.
According to the invention, the kiss cuttings may be straight lines, geometrical shapes with angles inside, curved shapes or any other shapes such as, for example, alphanumerical characters shapes. In the example of
According to some embodiments, the kiss cuttings can be made with various technologies, such as with a sharp tool cutting not fully through the cover sheet but in depth between the inside surface and the outside surface of the cover sheet 110. Some printing technologies could also be used to push the kiss cuttings inside the cover sheet 110 with a printing plate having positive surface relief embossing. Further, some embossing process could be used with a tool having positive surface relief patterns.
Other embodiments like laser cutting with a laser tool or embossing with hot embossed plate or mechanical milling with microtools could also be used for kiss cutting.
While only some selected embodiments have been chosen to illustrate the present invention, it will be apparent to the skilled person from this disclosure that various changes and modifications can be made herein without departing from the scope of the invention as defined in the appended claims. The structures and functions of one embodiment can be adopted in another embodiment. Further, it is not necessary for all advantages to be present in particular embodiments at the same time.
Number | Date | Country | Kind |
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18305248 | Mar 2018 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2019/054407 | 2/22/2019 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2019/170434 | 9/12/2019 | WO | A |
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Entry |
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PCT/EP2019/054407, International Search Report, dated Apr. 8, 2019, European Patent Office, P.B. 5818 Patentlaan 2, NL-2280 HV Rijswijk. |
PCT/EP2019/054407, Written Opinion of the International Searching Authority, dated Apr. 8, 2019, European Patent Office, D-80298 Munich. |
Number | Date | Country | |
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20200406663 A1 | Dec 2020 | US |