FR2981550A1 - Diamonds protection and authentication system, has translucent element arranged on housing and held by cover, where housing includes irreversible locking system and anti- copy mark that causes detectable degradation - Google Patents

Abstract

The system has a housing including a box (21) to contain diamonds (26), and a cover (22) fitted on the housing. A translucent element (25) is arranged on the housing and held by the cover. The housing includes an irreversible locking system and an anti- copy mark that causes a detectable degradation. The locking system includes a spring placed inside an opening of an external wall of the housing, where the locking system is carried out by a piece of metal introduced in fusion between the box and the cover.

Description

TECHNICAL FIELD OF THE INVENTION The invention relates to a diamond protection and authentication system. The invention finds application in the field of storage of valuable products such as precious stones. STATE OF THE ART High value products are often highly coveted. For example, during an exhibition or sale of cut diamonds, it is essential to control that no one can touch diamonds to avoid theft. Cut diamonds are diamonds with a table, a crown, a round and a cylinder head. Diamonds can not easily be traded between individuals, banks or companies because, at every transaction, it is essential that diamonds be examined by a specialist.

In addition, during an exhibition or for transportation, certain diamond collections are protected by specific boxes. These boxes have a box capable of containing the diamonds and a lid disposed on the box. The lid is provided with a translucent element capable of presenting the diamonds. These cases also serve to protect diamonds from moisture or ambient air. To ensure that no one can touch the diamonds, the box is usually welded or riveted with the housing cover thus achieving an irreversible locking system between the box and the lid. The purpose of these irreversible locking systems is to prevent anyone from stealing the diamonds without damaging the case. However, the constant improvement of industrial manufacturing techniques, also improves burglary techniques so that irreversible locking systems such as welding or riveting no longer guarantee the integrity of the contents of the housing.

OBJECT OF THE INVENTION The invention proposes a system for protecting and authenticating diamonds that is safer than existing systems. To this end, the invention relates to a diamond protection and authentication system comprising a housing, said housing comprising a box capable of containing the diamonds, a cover fitted on the box and a translucent element disposed on the box and held by lid. The protection and authentication system is characterized in that the housing further comprises at least one irreversible locking system and at least one copy-proof mark in the copy causes detectable degradation. The anti-copy mark prohibits the duplication of the case to insert stones of lesser quality, or even false, in a duplicate case. In addition, the locking system being irreversible, any opening of the housing would cause a visible degradation of the locking system.

According to one embodiment, the irreversible locking system is made by means of a spring contained in a slot of an outer wall of the box, the spring extending in a slot disposed in an inner wall of the lid. This embodiment has the advantage of implementing an effective irreversible locking system and invisible to the naked eye from outside the housing.

In one embodiment, the irreversible locking system is made by means of a piece of metal introduced into fusion between the box and the lid. This embodiment has the advantage of strengthening the maintenance between the lid and the box. In one embodiment, the diamonds are cut to include a crown, a girdle, a yoke, and a table in contact with the translucent member. This realization allows to contemplate the table, the crown and the rondiste diamonds since the outside of the case. According to one embodiment, the rondiste of each diamond comprises a marking, preferentially the marking is carried out by means of a laser. Since the rondist is visible from the outside of the case through the translucent element, this embodiment has the advantage of facilitating the authentication of the diamonds. In one embodiment, the housing includes a seal between the translucent member and the cover. This embodiment has the advantage of protecting diamonds from water and / or air.

According to one embodiment, the anti-copy mark is disposed on the outer wall of the housing substantially in an area containing the irreversible locking system, the anti-copy mark being formed by a matrix of pixels including at least one geometric property measurable automatically from of a captured image, is modified if the mark is copied. This embodiment makes it possible to control the integrity of the case by a marking that is invisible to the naked eye. In one embodiment, the diamond protection and authentication system also includes a memory card, a memory card memory containing information on the diamonds and / or the case. This realization makes it possible to simplify the transport of the gemological certificates of each diamond. Each diamond is authenticated by a gemological certificate containing the shape of the size, the weight expressed in carat, the degree of purity ... In addition, the memory of the card makes it possible to store various information relating to the diamonds and / or to the case, such as the date of manufacture of the housing, the title of ownership, the identification means of the housing ... According to one embodiment, the diamond protection and authentication system comprises at least one traceability element of the barcode type. with one or more dimensions, the bar code being disposed on the box, the cover, the translucent element and / or the memory card. This embodiment allows traceability and authentication of the housing, its elements and / or the memory card. According to one embodiment, the anti-copy mark is produced by a pixel array, more than half of which does not touch any other pixel of the matrix, the pixels being arranged on the box, the cover, the translucent element and / or the memory card, the modification of the size and / or the shape of the pixels for encoding an authentication information of the box. This embodiment also makes it possible to authenticate the housing, its elements and / or the memory card by a marking that is invisible to the naked eye.

According to one embodiment, the memory card comprises a laser signature made in the heart of the memory card material. This embodiment makes it possible to authenticate the memory card by marking invisible to the naked eye. In addition, the marking at the heart of the material can also be concealed by a conventional method of blowing on the surface of the card.

In one embodiment, the housing spring is made of a non-magnetic material. This embodiment has the advantage of preventing a magnetic field from deforming the spring in order to separate the lid of the box. According to one embodiment, the box and / or the lid are made of titanium.

This embodiment has the advantage of reducing the weight of the housing by using a lightweight material that is effectively resistant to corrosion. According to one embodiment, the translucent element is made of sapphire-type glass. A sapphire-type glass has the advantage of being very resistant to scratching.

BRIEF DESCRIPTION OF THE FIGURES The invention will be better understood on reading the description which follows and on examining the figures that accompany it. These figures are given for illustrative but not limiting of the invention. They show: FIG. 1: a schematic perspective representation of the diamond protection and authentication system according to one embodiment of the invention; Figure 2 is a schematic representation of a sectional view along a sectional plane C of the housing of Figure 1. Identical elements, similar or similar, retain the same references from one figure to another. DESCRIPTION OF EXAMPLES OF EMBODIMENT OF THE INVENTION The figures are not to scale. Figures 1 and 2 show a diamond protection and authentication system 26 according to one embodiment of the invention. The diamond protection and authentication system 26 includes a housing 20 and a memory card 48. FIG. 1 shows a perspective view of the diamond protection and authentication system 26 while FIG. cut housing 20 according to a section plane C. The housing 20 is substantially parallelepiped and has four sides X1, X2, Y1 and Y2. The housing comprises a box 21, containing the diamonds 26, a translucent element 25 disposed on the box 21 and a lid 22 fitted on the box 21 and able to hold the translucent element 25. Regardless of the number of facets, the diamonds 26 are cut by conventional methods so as to obtain a cylinder head 35, a rondiste 32, a ring 30 and a table 29. The diamonds are arranged in the bottom 27 of the box 21 and are held by a holding element 37 so that the table 29 of the diamonds is in contact with the translucent element 25. The translucent element 25 allows to contemplate the diamonds 26 present inside the housing 20. Preferably, the translucent element 25 is made of sapphire-type glass . Sapphire-type glass means the surface obtained by a crystallographic synthetic crystal of alumina (chemical formula A1203) cut and polished. Sapphire glasses have a high hardness and very good scratch resistance (9 out of 10 on the Mohs scale). The translucent member 25 has bevelled sides so that the cover 22 holds the translucent member 25. Preferably, a seal 46 is disposed between the translucent member 25 and the cover 22 to seal the seal. 20. The cover 22 and the box 21 are preferably made of titanium in order to impart lightness and resistance to the housing 20. The cover 22 is fitted on the box 21. An irreversible locking system 40 then holds the cover 22 nested on the box 21. The irreversible locking system 40 is made by a spring 44 disposed inside a slot 42 of the outer wall of the box 21. The outer wall is opposite to the inner wall of the box 21 in which the diamonds are willing. The spring 44 may simply be a metal strip 20 folded to be contained in the corners of the lumen 42 and protruding from the outer wall of the box 21. The spring 44 is held within the lumen 42 when the lid 22 is nested on the box 21. Once the lid 22 completely synchronized with the box 21, the spring 44 is deformed to extend into a slot 43 of the inner wall of the lid 22. The spring 44 25 thus holds the lid 22 on the box 21. The irreversible locking system 40 is thus disposed inside the wall of the housing 20 formed by the inner wall of the box 21 in contact with the inner wall of the lid 22. This arrangement of the irreversible locking system 40 is invisible to the naked eye when the housing 20 is closed. Preferably, an irreversible locking system is disposed on each of the four sides of the housing X1, Y1, X2, Y2. Preferably, the spring 40 is made of a metal material in order to prevent a magnetic field from deforming the spring 44 and to disengage the lid 22 from the box 21. In addition, a piece of molten metal can be introduced between the cover 22 and the box 21 so as to reinforce the hold between the lid 22 and the box 21.

The arrangement of the irreversible locking system of the housing 20 can follow a stochastic distribution law making it possible to guarantee the uniqueness of each of the housings 20. For example, on the four sides of the housing 20, a segment between two points -A and A. In Figure 1, a segment [-A; A] is represented on the length X1 between the points -A and A. During the manufacturing process of the housing 20, an algorithm determines the position of the irreversible locking system according to a stochastic distribution law on the segment [-A; AT]. For each of the sides and depending on the result of the algorithm, a first slot 42 is formed in the outer wall of the box 21 so as to be in relation with a second slot 43 formed in the inner wall of the cover 22. A distribution of locking system according to a uniform stochastic probability law makes it possible to equalize the distribution probability of the locking system on the segment [-A; AT]. The diamond protection and authentication system 26 includes a memory card 48 provided with a memory 49. The memory card 48 is capable of recording information relating to the diamonds 26 and / or the housing 20, such as the gemological certificate. A two-dimensional bar code 50 is affixed to the cover 22, the translucent member 25 and the memory card 48. Alternatively, the bar code 50 may have other shapes and a number of different dimensions. This bar code 50 can also be disposed on the box 21. The bar code 50 allows traceability and authentication of the parts of the housing 20 and the memory card 48. Among the other visible markings, the girdle 32 of each diamond 26 may also contain visible information, through the translucent element 25, from the outside of the housing 20. The marking of the rondists 32 may, for example, be achieved by means of a laser. The memory card 48 may also include an invisible marking in the form of a laser signature 54 made in the heart of the material of the memory card 48. The marking at the heart of the material may be concealed by a conventional method of blowing at the surface of the memory card 48. In addition to the protections for not opening the housing 20 and identify it correctly, the invention provides at least one anti-copy mark for detecting any opening of the housing 20 and thus to guard against any duplication of the case.

A first anti-copy mark may be applied to the outer wall of the cover 22 to control any cutting of the cover 22 at the irreversible locking system 40. The marking is preferably carried out as described in the document WO 2009/004172, in particular in as regards the digital authentication codes. The digital authentication codes, also referred to hereinafter as "CNAs", are digital images which, once marked on a medium, for example by printing or local modification of the medium, are designed so that some of their properties, in particular automatically measured from a captured image, are modified if a marked image is copied. The digital authentication codes are generally based on the degradation of one or more copy-sensitive signals during the copying step, a signal being carried by image elements with measurable characteristics sensitive to copying. Certain types of digital authentication codes may also contain information making it possible to identify or trace the document that contains it. There are several types of digital credentials. The copy detection patterns, also referred to as "MDC", are dense images, generally pseudo-random in nature. Their reading principle is based on an image comparison to measure an index of similarity (or dissimilarity) between the original copy detection pattern and the captured copy detection pattern, for example by an image sensor : if this captured pattern is a copy, the similarity index will be lower than if it is an original. A second anti-copy mark may also be applied to the box 21, the cover 22, the translucent element 25 and / or the memory card 48. The second anti-copy mark is made by a pixel array. Preferably, these pixels do not touch, for the most part, any other pixel. In other words, more than half of the pixels of the matrix, and preferably more than 90% of these pixels, do not touch any other pixel of the matrix. The pixels are thus widely separated and each pixel is invisible to the naked eye. The modification of the size and / or the shape of the pixels of the network makes it possible to encode marking information able to authenticate the housing 20, its elements 21, 22, 25 and / or the memory card 48.

Claims (14)

REVENDICATIONS1. A diamond protection and authentication system (26) comprising a housing (20), said housing (20) comprising: - a box (21) adapted to contain the diamonds (26), - a cover (22) nested on the box (21) and - a translucent element (25) disposed on the box (21) and held by the cover (22), characterized in that the housing (20) further comprises at least one irreversible locking system and at least an anti-copy mark in the copy causes detectable degradation. 2. System according to claim 1, wherein the irreversible locking system is formed by means of a spring (44) contained in a slot (42) of an outer wall of the box (21), the spring (44) s extending into a slot (43) disposed in an inner wall of the cover (22). 3. System according to one of claims 1 or 2, wherein the irreversible locking system is formed by means of a metal piece introduced into melt between the box (21) and the cover (22). 4. System according to one of claims 1 to 3, wherein the diamonds (26) are cut so as to comprise a ring (30), a rondiste (32), a yoke (37) and a table (29). contact with the translucent element (25). 5. System according to claim 4, wherein the rondist (32) of each diamond (26) comprises a marking, preferably the marking is performed by means of a laser. 6. System according to one of claims 1 to 5, wherein the housing (20) comprises a seal (46) sealing between the translucent element (25) and the cover (22). 7. System according to one of claims 1 to 6, wherein the anti-copy mark is disposed on the outer wall of the housing (20) substantially in an area containing the irreversible locking system, the anti-copy mark being formed by an array of pixels whose at least one geometric property automatically measurable from a captured image is modified if the mark is copied. 8. System according to one of claims 1 to 7, wherein the diamond protection and authentication system (26) also comprises a memory card (48), a memory (49) of the memory card (48). ) containing information on the diamonds (26) and / or the case (20). 9. System according to one of claims 1 to 8, wherein the diamond protection and authentication system (26) comprises at least one barcode type traceability element (50) with one or more dimensions, the bar code (50) being disposed on the housing (21), the cover (22), the translucent element (25) and / or the memory card (48). 10. System according to one of claims 1 to 9, wherein the anticopy mark is performed by an array of pixels of which more than half does not touch any other pixel of the matrix, the pixels being arranged on the box (21), the cover (22), the translucent element (25) and / or the memory card (48), the modification of the size and / or the shape of the pixels making it possible to encode an authentication information of the housing (20) . 11. System according to one of claims 1 to 10, wherein the memory card (48) comprises a laser signature made in the heart of the memory card material (48). 12. System according to one of claims 1 to 11, wherein the spring (44) of the housing (20) is made of a non-magnetic material. 13. System according to one of claims 1 to 12, wherein the box (21) and / or the lid (22) are made of titanium. 14. System according to one of claims 1 to 13, wherein the translucent element (25) is made of sapphire-type glass.