法国专利FR3031826A1 AUTHENTICATION OF A BOTTLE AND ITS CONTENT

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专利摘要:
The present invention relates to an electronic device for authenticating (100) a bottle whose neck is closed by a cap covered by a capsule, said device (100) intended to be positioned between said bottle and said capsule comprising an electronic circuit ( 10) comprising: a flexible insulating support (11) on which at least one conducting wire (12) forming the tracks of said circuit (10) extends, - an electronic chip (13) storing an identification data of said bottle, an antenna (14) for cooperating with said chip (13) for wirelessly transmitting said at least one identification data to an external reader when said antenna (14) is in the range of coverage of said reader, plug piercing detection means (15) at least partially covering said neck when said device (100) is positioned between said bottle and said capsule, and electrically connected to the bottle; said electronic chip (13) through the tracks (13) of said circuit (10), said electronic chip (13) being configured to determine that the plug is withdrawn and / or pierced when the electrical connection to said means for detecting plug (15) is broken.
公开号:FR3031826A1
申请号:FR1550476
申请日:2015-01-21
公开日:2016-07-22
发明作者:Mickael Coronado
申请人:Mickael Coronado；
IPC主号:

专利说明:

[0001] TECHNICAL FIELD AND PRIOR ART The present invention is in the field of anti-counterfeiting devices. Counterfeiting avoids any domain, not even that of wine. According to some figures, it is estimated that about 20% of wines sold worldwide are counterfeit. The object of the present invention therefore deals with this problem, and more particularly relates to an authentication device for combating counterfeiting of alcohol bottles, and in particular: wine bottles of the grand cru type (raw wines, etc.). ), bottles of Champagne, bottles of spirits (Cognac, Armagnac, Whiskey, etc.), or any other type of bottle containing a liquid with a high market value. One of the objectives of the present invention is in particular to reduce the counterfeiting of alcohol bottles by providing in real time reliable information relating to the bottle and its contents. More specifically, one of the objectives of the present invention is to confirm or invalidate the authenticity of a bottle by providing identification information relating to the contents of the bottle (for example: the name of the castle, the vintage, etc. .) and indicating whether the bottle has already been opened or not. The present invention finds many advantageous applications for wines and especially grands crus (premier cru, etc.).
[0002] Other advantageous applications can also be envisaged, for example the authentication of certain bottles of Champagne or spirits. Today, the wine market and more particularly that of the Grands Crus type Premier Cru represents very important financial stakes: the price of a bottle of a premier cru can be worth several hundreds or even thousands of euros according to its 30 vintage. In the same way, the auctions organized for wine beat new records every year; some exceptional bottles are bought several hundreds of thousands of euros.
[0003] Bottles held by collectors are priceless because of their rarity but also their history and anecdotes associated with them. This craze for vintage wines encourages market players, and in particular wine-growers and producers, to take all the necessary precautions to limit the risk of counterfeiting and guarantee the authenticity of wines, while preserving tradition and classicism. which are the fame of some great castles (labels, corks, general aesthetics of the bottle, etc.). As stated above, unscrupulous and highly methodical forgers flood the wine and grand cru market by introducing counterfeit bottles: 20% of the 10 sales worldwide. The counterfeiting of wines takes so many forms always more astute and more difficult to detect. We find on the market (and especially the Chinese market) bottles with false labels. The only distinction that can be made with real labels is sometimes on small details such as spelling mistakes. We also find real bottles with content that does not match: there is also a real market for empty bottles of raw wines at the exit of the great restaurants. Counterfeiters are indeed ready to buy some empty bottles several hundred euros to then fill these bottles with any beverage 20 and resell them. Counterfeit cases are also known in which the contents of the bottle are sucked by means of a very fine needle perforating the capsule and the stopper. We are talking about refilling. These practices are all the more frequent as the appreciation of this type of wine by the consumers requires a real education and real knowledge in oenology. In many countries, the consumer does not have this education and knowledge. Very often, the only criterion retained by the consumer (layman) is the price of the bottle: for him, a high price is necessarily a guarantee of quality. It is therefore easy to sell any wine to this consumer as long as the label seems authentic (and preferably prestigious). In this way, the consumer finds himself completely helpless in the face of these fraudulent practices.
[0004] The Claimant further observes that the financial losses suffered by certain winemakers and producers, victims of counterfeiting, may be substantial; litigation before the courts to obtain a remedy is also very long and very complex.
[0005] We note here that in wine, it can be particularly difficult to demonstrate the counterfeit and go back to the origins of the forger. In addition to the financial losses, it should also be noted that the image and reputation of certain castles can be affected by counterfeiting: the consumer no longer has confidence and no longer wants to buy bottles from this castle if he is not sure of the authenticity of the bottle. However, there are solutions available to winemakers and producers to limit these risks of counterfeiting and secure the consumer. Document EP 1 857 374 is known in particular. This document discloses a capsule for a bottle above which is positioned a contactless label storing an identifier. More particularly, in this document, the label that straddles the capsule and the bottle serves as a seal. The solution proposed in this document EP 1 857 374 provides for the reading of the identifier stored in the label by wireless communication means using RFID type technology. According to this solution, the consumer is then forced to consult a remote server or a website to verify with this identifier the authenticity of the bottle, or more precisely the authenticity of the seal. Indeed, the authenticity of the seal does not guarantee the authenticity of the bottle and its contents. The Applicant submits in particular that this document EP 1 857 374 does not propose a solution for avoiding the piercing of the plugs and the aspiration with the help of a needle of the contents of the bottles. In addition, since the seal is positioned over the bottle and capsule, such a device is vulnerable because it can be removed for placement on a counterfeit bottle. The Applicant also observes that such a seal placed on top of the capsule is unsightly; this is not acceptable for most castles producing a premier cru vintage.
[0006] There are also other solutions such as the one jointly developed by the companies SELINKO and INSIDE SECURE. This solution known under the trademark "CAPSEAL®" consists in providing the neck of the bottle with an electronic tag formed by an electronic chip connected to an antenna. According to this technology, the label is mechanically deactivated as soon as the capsule is removed. This solution enables consumers to scan the label with a "SmartPhone" type communication terminal equipped with type 10 NFC ("Near Field Communication") wireless communication devices to consult the authenticity website on the dedicated website. bottles. This solution requires the prior installation on the communication terminal of a software application. It is through this software application and a connection to the Internet that the user can go and check the authenticity of the bottle. In any case, the "CAPSEAL®" technology does not offer a solution for detecting the piercing of bottle caps and the aspiration with a needle of the contents of these bottles. The Applicant furthermore submits that the contactless labels and seals proposed in the state of the art have a lifespan that is too short to meet the long-term requirements of great wines. OBJECT AND SUMMARY OF THE PRESENT INVENTION The present invention aims at improving the situation described above. One of the objectives of the present invention is to remedy the various disadvantages mentioned above by proposing an easy-to-use, efficient, robust, long-term (more than 30 years, or even more) and aesthetic solution (the least visible possible) to guarantee the authenticity of the contents of a bottle all autonomously, that is to say without questioning a remote server and / or without consulting a software application installed on a communication terminal. For this purpose, the object of the present invention relates, according to a first aspect, to an electronic device for authenticating a bottle whose neck is closed by a cap covered by an elongated capsule. According to the invention, the device is intended to be positioned between the bottle and the capsule.
[0007] Advantageously, the device according to the present invention comprises an electronic circuit comprising a flexible insulating support on which extends substantially longitudinally and without overlap at least one conductive wire forming the tracks of the circuit.
[0008] By "no overlap" in the sense of the present invention, it is to be understood here throughout the description that the tracks are not in contact with each other. In other words, the tracks of the circuit which extend on the insulating support are electrically isolated from each other. Advantageously, the electronic circuit comprises an electronic chip which stores at least one identification data item. Preferably, this identification data contains at least one information relating to the contents of the bottle: it may be for example information of the type the name of the castle, the vintage, the year of bottling, the number of the bottle, the capacity of the bottle, the volume of alcohol, etc.
[0009] Those skilled in the art will understand here that the microchip can store other types of information (confidential or not). Advantageously, the electronic circuit further comprises an antenna. This antenna is preferably configured to cooperate with the electronic chip in order to transmit wirelessly said at least one identification data to an external reader, this for example when the antenna is in the range of the reader cover . Preferably, this reader is configured to display on a screen the identification information, for example the castle label. Optionally, this antenna can cooperate with the chip by using an adaptation circuit composed of one or more electronic components. Optionally, the antenna comprises a succession of tracks arranged to maximize the performance of the antenna according to the seating constraints and the positioning of the antenna on the electronic circuit. In one embodiment, these tracks form concentric rectangles.
[0010] Alternatively, the antenna tracks can form a plurality of concentric rings (snail shape). When the tracks of the antenna are positioned around the neck of the bottle, they may for example form a plurality of rings on top of one another forming a coil.
[0011] Alternatively, when the tracks of the antenna are positioned around the neck of the bottle, they can also form a plurality of rings next to each other forming a uniform thickness of son (as a spring with each of the son who touch each other).
[0012] Advantageously, the electronic circuit also comprises cap piercing detection means. These means, characteristics of the present invention, at least partially cover the neck when the device is positioned between the bottle and the capsule. Preferably, the cap piercing detection means completely cover the neck when the device is positioned between the bottle and the capsule. Optionally, the cap piercing detection means take the general form of a disc compatible with the size of the neck of the bottle. Advantageously, the plug piercing detection means are electrically connected to the electronic chip by the tracks of said circuit.
[0013] Advantageously, the electronic chip is configured to determine that the plug is pierced or withdrawn when the electrical connection with the plug piercing detection means is broken. Thus, thanks to this arrangement of technical means, characteristic of the present invention, there is a reliable and autonomous device that guarantees the final consumer but also the seller, reseller, distributor, or even the collector or the auctioneer, of check the authenticity of the bottle and more specifically the authenticity of its contents. Indeed, the action of piercing the cap and / or removing the capsule (tin), even gently, cuts at least one track. Since the conductive wire extends substantially longitudinally along the capsule, the fact of removing the capsule necessarily cuts this conductor wire. In the same way, the piercing of the plug also cuts the electrical connection thanks to the drilling detection means of the plug which covers the neck. Thus, in case of drilling or tearing, or the chip detects the cut of the track and receives the information of the change of state; either the track is cut off at the antenna and the chip can no longer transmit the data (it is no longer accessible). In either case, the reader can deduce the information that the bottle has been opened or pierced.
[0014] Thus, when the bottle is not authentic (that is to say when a person has already opened the cap or pierced the cap), the consumer does not receive information or receives information indicating the counterfeit. On the other hand, when the bottle is authentic (that is to say when the capsule and the cap are intact), the dedicated reader positioned near the antenna receives the identification information with for example the name of the castle , the vintage, and possibly the number of the vintage and / or the number of the bottle if it is numbered. In an advantageous embodiment, the cap piercing detection means comprise a mesh of at least one conductive wire forming the tracks of the mesh. Preferably, the tracks of the mesh do not overlap; they are electrically isolated from each other. In an advantageous embodiment, it is the same thread that forms the tracks of the mesh and the tracks of the circuit. This same wire thus forms a closed circuit. In this mode, the breakage of this wire allows the undifferentiated detection of the tearing of the capsule or the piercing of the stopper. Alternatively, the tracks of the mesh and the tracks of the circuit can be formed by different threads. They are in this case connected in parallel and are independent of each other. Advantageously, the tracks of the mesh are spaced apart from one another by a separation distance substantially of between about 50 μm to 300 μm. Preferably, the separation distance between each of the tracks of the mesh is substantially between the order of Preferably, the separation distance between each of the tracks of the mesh is substantially between of the order of 80 μm to 150 μm. Advantageously, each of the tracks of the mesh has a width substantially comprised between Preferably, the width of each of the tracks of the mesh is substantially between about 50 μm and 150 μm. Preferably, the width of each of the tracks of the mesh is substantially between 10 and 30 μm. 80 μm to 150 μm Preferably, the width and the separation distance are of substantially the same size.
[0015] Advantageously, each of the tracks of the mesh has a thickness of between about 10 .mu.m to 50 .mu.m. In an alternative advantageous embodiment, the cap piercing detection means comprise a pellet.
[0016] This chip is configured so that when an external object such as a needle pierces said chip, the electrical connection between the chip and the chip is broken. Preferably, the pellet is at least partially made of ceramic. The chip is thus electrically connected to the chip by the tracks of the circuit. Thus, in this mode, when an object such as a needle pierces the pellet, it breaks and the electrical contact is no longer. In this case, the chip can derive the piercing information. Advantageously, the device according to the present invention comprises an impedance probe configured: - to measure an impedance variation across the plug piercing detection means, and - to determine, as a function of the variation measured, whether the plug has been perforated. The impedance variation here reveals an intrusion or at least an attempted intrusion. In an advantageous embodiment, the insulating support is in the form of a six-pointed star. In this mode, the antenna is positioned on the distal portion of one of the six branches of the star and the plug piercing detection means is positioned in the central portion of the star to at least partially cover the neck when the device is positioned between the bottle and the capsule.
[0017] This six-star star configuration notably promotes the positioning of the device against the external wall of the neck of the bottle. The Applicant submits that this star configuration adds a uniform thickness all around the neck; if each of the branches of the star is perfectly touching each other, this may make the device less visible than a device in a configuration using for example two branches; the presence of only two branches can create a slight marking on the capsule after crimping. Nevertheless, a configuration with two branches can also be considered, in particular for reasons of cost. Preferably, the support is sufficiently fine to marry at best the neck of the bottle, especially the ring for wine bottles.
[0018] The chip is positioned on one of the branches, for example the main branch, so that when the device is positioned between the bottle and the capsule, the chip does not come into contact with the bottle ring. . The device according to the present invention should preferably have a thickness of about 100 μm (equivalent to the thickness of the tin capsule). The Applicant observes after numerous tests that, if the device is stuck directly on the capsule before crimping, the capsule deforms during crimping. It is therefore better to stick the device first around the neck of the bottle and then to crimp the capsule around the neck (as if there were no device).
[0019] The Applicant does not exclude the possibility of sticking the device according to the present invention against the inner wall of the capsule, then to achieve the crimping of the capsule (integrating the device) around the neck of the bottle. It can also be provided that the device is formed directly in the capsule, for example by etching the tracks directly in the capsule.
[0020] In one embodiment, the insulating support includes embossing at the periphery of the plug piercing detection means. In another embodiment which may optionally be combined with the previous mode, the insulating support comprises a resilient portion at the periphery of the plug piercing detection means.
[0021] In one case as in the other, this embossing and / or this elastic portion have the function of allowing the support to marry at best the shape of the neck of the bottle when the device is positioned between the bottle and the capsule, and this in particular at the level of the ring of the bottle and the curvature of the top of the neck of the bottle at the periphery of the cap piercing means.
[0022] Preferably, the insulating support is constituted at least partially in a material having mechanical properties to withstand the mechanical stresses exerted during the crimping of the capsule with the bottle. In particular, he must keep his shape after crimping. It should not stretch in length (unlike the capsule). The support used is flexible.
[0023] It may consist at least partially in a thermoplastic polymer selected from a polyimide, a polyester (and especially thermoplastic polyesters) or PVC. The polyimide may be of the type for example KAPTON. The support can be a single layer or multilayer. It may also include a thin layer of copper.
[0024] The thermoplastic polyesters may be, for example, PET (polyethylene terephthalate), PBT (polybutylene terephthalate) or PEN (polyethylene naphthalene) type. Preferably, the tracks consist at least partially in a conductive material, stainless, malleable and ductiletel that for example copper, tin or aluminum. The Applicant submits that copper is preferred especially for its good conductivity, its resistance to oxidation and its mechanical properties. Aluminum can be considered in some cases of application because it has a hardness less than that of copper and close to that of tin used for capsules. Thus, the composition of the support and its thickness as well as the tracks of the circuit, their composition and their thickness are selected so as not to stretch in length and not to deform the drawings and properties of the tracks of the circuit during crimping. Advantageously, the device according to the present invention comprises measuring means, such as, for example, a temperature and / or humidity probe electrically connected to the chip. Preferably, these measuring means are configured to measure the ambient temperature and / or humidity. These means are further configured to provide the chip with information relating to the ambient temperature and / or humidity; preferably, the chip is able to store and store the received information. The end consumer or the restaurateur can thus know the temperature and / or the humidity rate of the bottle at the time of the tasting. The end consumer or restaurateur (but also the seller, the dealer, the collector, etc.) may also know the conditions of storage of the bottle to ensure that these conditions are good for the tasting of the wine. Advantageously, the device according to the present invention comprises warning means such as a thermostat and / or a hygrostat. In an alternative, the warning means is configured to generate a first warning signal if the ambient temperature and / or humidity are not within a predetermined range of values. Preferably, the first warning signal is generated if the measured temperature and / or humidity are not within a predetermined range of values during a given exposure period: it is therefore possible, for example, to program thresholds up and down as well as a duration of exposure. Optionally, this thermostat and this hygrostat can directly measure this temperature and / or humidity. In this case, these elements are sufficient on their own.
[0025] The chip is then able to receive and store the generated alert signal to transmit it to the reader during playback. In a particular mode, these warning means are integrated in the chip. The end consumer or the restaurateur (but also the seller, the dealer, the collector, etc.) can also know the storage conditions of the bottle to ensure that these conditions were good (or not) for the maturation of the wine. It is also possible to provide an aggregation of the information contained in this alert signal with the information contained in the identification data. It is thus possible to know when reading the chip if a bottle has been exposed to temperature and / or moisture conditions not recommended by the producer for good aging and good maturation. Advantageously, the device according to the present invention comprises a vibration sensor which is configured to measure vibrations propagating through the bottle and to generate a second warning signal. The sensor can detect periodic vibrations (such as those generated by a drill) and not react to random vibrations (such as those caused by transport or shocks ...). The sensor may also be configured to detect vibrations over a range of about 30Hz to 300Hz for at least about one second; this makes it possible to determine an intrusion attempt information to the chip.
[0026] Alternatively, the vibration detection functions can be integrated directly into the chip. In one variant as in the other, the device is capable of detecting the frequency range that corresponds to the vibrations emitted on the bottle, for example in the event of an attempt to pierce the stopper or the glass.
[0027] It will be noted here that the vibrations related to shocks to the bottle (for example those caused during transport) are not part of this frequency range. In the same way, it is also possible to provide an aggregation of the information contained in this alert signal with the information contained in the identification data.
[0028] Advantageously, the device according to the present invention comprises a GPS location-based receiver which is configured to transmit the geographical coordinates of the device to the electronic chip. The device can also keep in memory in the chip the history of readings (ie scans). It is thus possible to interrogate the chip and identify the readers who have scanned the bottle from the castle. It is expected that the readers are anonymous; however, each reader's user must declare his city and country of residence.
[0029] The information relating to each scan is then stored in the bottle (the chip). In a particular embodiment, the electronic chip comprises at least one secure storage module; each module is preferably accessible only by means of an identification key.
[0030] Thus, each chip can have an identifier in the form of a coded key. The chip can thus be partitioned: it is capable of storing the information in different storage spaces so, for example, that a part of the data is accessible to the consumers by simple reading and that another part is accessible only to the producers or growers using a private key or using a specific reading means in the case where these data are accessible by a different frequency. Advantageously, the antenna comprises several turns forming a ring. These turns are preferably formed by the conductive wire of the circuit. Advantageously, the antenna creates a magnetic field compatible with that emitted by the reader. Advantageously, the antenna represents an inductance which is activated by the energy of the reader. We speak of induction antenna. Advantageously, the antenna is a so-called simulation antenna. Advantageously, the antenna is directive.
[0031] In another configuration, the antenna uses the capsule to radiate using the same physical principle as for antennas of radio waves of amplitude of frequency (small, medium and long waves). Advantageously, the antenna protrudes at least partially from the capsule when the device is positioned between the capsule and the bottle.
[0032] This improves the radiation of the antenna. The size of the antenna is optimized to exceed as little as possible of the capsule. Optionally, the insulating support comprises a ferrite layer. This layer reduces magnetic interference.
[0033] The object of the present invention relates in a second aspect to a bottle whose neck is closed by a cap covered by a capsule. Advantageously, the bottle comprises an electronic authentication device such as that described above positioned between the bottle and the capsule. Preferably, the tracks of the circuit are opposite the bottle and the insulating face is opposite the capsule. The object of the present invention relates, according to a third aspect, to a process for manufacturing a bottle whose neck is closed by a cap covered by a capsule. Advantageously, the method according to the present invention comprises in particular the following steps: a first step during which an electronic authentication device such as that described above is positioned around the neck of the bottle, and a second step at during which the capsule and the device are crimped together around the neck to seal the closure of the bottle. Preferably, during the first step, the device is stuck on the bottle, for example around the neck of the bottle and the ring. Alternatively, one can also provide that the device according to the invention is glued directly to the inner wall of the capsule, and that the assembly formed by the capsule and the device is crimped around the neck of the bottle. The object of the present invention relates, according to a fourth aspect, to an assembly for the authentication of a bottle whose neck is closed by a cap covered by a capsule. Advantageously, this set comprises: at least one electronic authentication device such as the one described above which is intended to be positioned between the bottle and the capsule, and an external reader capable of reading the identification data stored in the chip of the device when the antenna of the device is in the range of coverage of the reader.
[0034] The object of the present invention relates, according to a fifth aspect, to the use of an electronic authentication device such as that described above for the authentication of a bottle containing a wine of the grand cru type (first raw, etc.). ). Other alternative uses may also be contemplated within the scope of the present invention. The object of the present invention relates, according to a sixth aspect, to a bottle cap comprising an electronic authentication device such as that described above. Preferably, such a device is glued directly or indirectly to the inner wall of the capsule. Thus, the present invention, by its different structural and functional technical characteristics, makes it possible to guarantee (to the final consumer, but also to the seller, dealer, distributor, auctioneer, collector, etc.) the authenticity of the contents of a bottle. identifying any intrusions on the capsule and / or the cap of a bottle. Brief description of the appended figures Other features and advantages of the present invention will emerge from the description below, with reference to Figures la-lb to 8 attached, which illustrate several embodiments having no limiting character and in which: FIGS. 1a and 1b each represent a perspective view of a bottle whose neck is closed by a cap covered by a capsule, said bottle being equipped with an electronic authentication device according to the invention; - Figures 2a and 2b each show a view of an electronic authentication device according to a first embodiment of the present invention; Figures 3a and 3b each show a view of an electronic authentication device according to a second embodiment of the present invention; FIGS. 4a and 4b each represent a view of an electronic authentication device according to a third embodiment of the present invention; FIGS. 5a and 5b each represent a view of an electronic authentication device according to a fourth embodiment of the present invention; FIGS. 6a and 6b each represent a view of an electronic authentication device according to a fifth embodiment of the present invention; - Figure 7 shows a schematic view of an embodiment of an assembly for the authentication of a bottle whose neck is closed by a cap covered by a capsule; - Figure 8 shows an exploded view of a bottle comprising a device according to Figures 2a and 2b between the neck of the bottle and the closure cap. DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT An electronic authentication device according to several advantageous exemplary embodiments as well as the bottle equipped with such a device will now be described in the following with reference to FIGS. 8.
[0035] As explained above, the Grands Crus and especially the Premier Crus are not immune to counterfeiting. One of the problems encountered by castles to limit counterfeiting and guarantee the authenticity of a bottle and its contents (to consumers but also to sellers, resellers, restaurateurs, distributors, auctioneers, or even collectors) is particularly important. be able to certify, in real time and preferably with an autonomous system, that the cap of the bottle has not been pierced and / or that the capsule has not been torn off, and / or that the bottle (the container) is authentic. One of the other problems encountered is related to false labels and the circulation of false bottles that result.
[0036] Conventionally, a bottle 200 has a neck 201 closed by a stopper 202; the stopper 202 is covered by a cap 300 used as a seal to secure closure with the stopper 202. Counterfeits of fine wines are observed that consist in recovering the contents of the bottle 200 by piercing the stopper 202 and the cap 300 with a needle which in some cases can be very fine (eg about 500 μm) and suck the contents thereof. Allowing the detection of tearing / drilling of the capsule 300 and / or the stopper 202 of the bottle 200 is one of the objectives of the present invention. This is made possible in the context of the present invention by an electronic authentication device 100 which is intended to be positioned between the bottle 200 and the capsule 300, as illustrated in FIG. 8. To satisfy the requirements of the castles in terms of aesthetics, it is desirable that the device 100 is not very visible (or invisible) and fits as discreetly as possible on the bottles, as shown in Figure la or lb.
[0037] Thus, according to the present invention, the device 100 advantageously comprises an electronic circuit 10. This circuit 10 comprises an insulating support 11 flexible. Preferably, it is provided that such a support 11 is sufficiently thin to fit the inner wall of the capsule 300 and the outer wall of the neck 201 of the bottle 200 in the best way. Indeed, it is intended that this device 100 be fixed on the neck 201 of the bottle 200 and assembles with the capsule 300 during the crimping of the capsule 300 around the neck of the bottle 200. Alternatively, it is possible to directly integrate the device 100 on the inner wall of the capsule 300 and crimp the assembly around the neck 201 of the bottle 200. The examples of Figures 2a and 2b will be described in more detail in the following, the other examples of the following figures being only simple variants of embodiment . In the two exemplary embodiments illustrated in FIGS. 2a and 2b, the support 11 has a star shape with six branches. This shape of six-pointed star promotes the positioning of the device 100 against the outer wall of the neck 201 of the bottle 200 and against the inner wall of the capsule 300 after crimping wise. It is understood that once folded at the base of the branches of the star, the device 100 almost completely covers the inside of the crimped metal capsule 300. In the examples described here, despite its fineness and flexibility necessary for its integration with the capsule 300, the support 11 is still composed of a material having sufficient mechanical properties to withstand the stresses exerted during the crimping of the capsule 300 with the bottle 200.
[0038] In the example described here, the support 11 consists at least partially in a thermoplastic polyester PEN type (polyethylene naphthalene) or a polyimide KAPTON type. Other materials may, however, be contemplated within the scope of the present invention.
[0039] The support 11 has on the (insulating) face intended to be opposite the capsule 300 a layer of insulating material. In an alternative, the insulating layer is made of ferrite to reduce electromagnetic interference.
[0040] On the other side of one of the six branches, called the main branch, extends longitudinally (that is to say in the length of the branch) a conductive wire 12 in one direction and then in the other. In the examples described here, this same conductive wire 12 also extends over the entire length of the branch opposite the main branch to form a loop. This same conductive wire 12 thus forms the tracks of the circuit 10. As will be understood hereinafter, these tracks of the circuit constitute means of detecting the lifting of the capsule 300. In these various examples described here, it is a question of a single conductive wire 12; It will be understood by those skilled in the art that the tracks of the circuit may be formed of a plurality of lead wires, with the understanding that the tracks of the circuit do not overlap with each other. In each of the examples described here, the electronic circuit 10 also comprises an electronic chip 13 and an antenna 14. More particularly, in the examples of FIGS. 2a and 2b, the chip 13 and the antenna 14 are positioned on the main branch. It can be observed that, in the example of FIG. 2a, the antenna 14 on the distal portion of the main branch partially protrudes from the capsule 300 when the device 100 is positioned between the bottle 200 and the capsule 300. In this example , the main branch is slightly longer than the other 20 branches that do not protrude from the capsule 300. It is also seen in Figure la that the antenna 14 protrudes from the skirt of the capsule 300. Note that this exceeding antenna 14 in each of the other embodiments illustrated in FIGS. 3a, 4a, 5a and 6a. The advantage of making a portion of the antenna 14 of the capsule 300 exceed is to improve the radiation performance of the antenna 14. However, this overstepping may be contradictory to the requirements of a castle that wants to a non-visible solution, in particular to maintain a classic and traditional aesthetic. The Applicant observes, however, that the castles must indicate the presence of the device on their bottle in one way or another to differentiate their own bottles or to reassure the consumer eventually. Thus, to exceed a ring of one or two millimeters of the capsule (Figures la, 4a, 5a, 6a) or a tab (Figures 2a and 3a) covered with a black opaque adhesive for example for bottles of red wine present the advantage of the discretion and offers a simple way to the castles to display that their bottles are protected, and this in an almost intuitive way for the consumer or at least easily explained by any operation of communication of the castles, but also sellers, resellers, restaurateurs, distributors, auctioneers, or even collectors.
[0041] It is also possible to provide a slight notch 301 in the capsule 300 to reveal a portion of the antenna 14, as shown in FIG. Alternatively, it is also possible to provide an adhesive (not shown here) of the color of the capsule 300 to make the device 100 less visible. Alternatively, the example of FIG. 2b differs from the example of FIG. 2a in that the main branch on which the antenna 14 is positioned does not protrude from the capsule 300. In each of the other embodiments illustrated in FIGS. 3b, 4b, 5b and 6b, the antenna 14 does not exceed either. This more discreet solution may be preferred by some castles.
[0042] In each of the examples described here, the chip 13 stores identification data containing at least one information relating to the contents of the bottle 200; it can be for example information of identification of the type name of the castle, the vintage, the year of bottling, the number of the bottle, the capacity of the bottle, the volume of alcohol, etc. .
[0043] This information is recorded beforehand in the chip 13 by the owner of the castle, for example after bottling. In the examples described here, the antenna 14 is configured to cooperate with the chip 13 to transmit wirelessly the identification data to an external reader 400. The reader 400 is then able to display this information. identification on a screen. Preferably, such a transmission is possible when the antenna 14 is in the range of coverage of the reader 400. The electronic chip 13 may comprise a secure storage module accessible by an identification key.
[0044] It is thus possible to provide secure information transmission with an identification key held by the certified external readers. The electronic chip 13 may comprise another additional secure storage module accessible for example by the sole owner of the castle at the origin of the bottle.
[0045] This additional storage module can be accessible for example by using a different frequency than that used to access the main storage module. The electronic chip 13 may further comprise another additional secure storage module accessible for example by any public person having a communication terminal of "Smartphone" type. It will be understood here that this storage module will contain only non-sensitive data without any interest for the counterfeiting industry. Such a module may for example contain marketing order information for a person looking at the bottle in a window.
[0046] Preferably, an NFC type technology is used here for the transmission of data to the external reader 400; a proprietary and / or encrypted communication protocol is preferred so as not to intercept the identification key of the chip 13 as well as the transmitted data. Other wireless communication technologies may also be considered.
[0047] The set 500 formed by the reader 400 and the device 100 is autonomous and does not require the use of a connection to an Internet server or access to any database of the castle in question. Having an autonomous system limits computer piracy that would further simplify acts of counterfeiting.
[0048] It is understood that the electronic chip 13 can determine that the capsule 300 has been torn off completely or partially when at least one of the son 12 forming the tracks of the circuit 10 has been cut. The section or tearing of one of these tracks 12 breaks the electrical connection between the chip 13 and the antenna 14; chip 13 can then detect the disturbing event.
[0049] Preferably, the chip 13 keeps in memory the fact that the track 12 has been broken. This is particularly advantageous in the case where the track is welded after for example refilling the bottle. The circuit 10 also comprises cap drilling detection means 15.
[0050] These means are characteristic of the present invention. In each of the examples described herein, these cap piercing detection means 15 cover the neck 201 of the bottle 200 when the device 100 is positioned between the bottle 200 and the capsule 300.
[0051] More particularly, in the examples of FIGS. 2a and 2b, the cap piercing detection means 15 are positioned in the central portion of the star to cover the neck 201 when the device 100 is positioned between the bottle 200 and the cap 300 These plug piercing detection means 15 are electrically connected to the electronic chip 13 and the antenna 14 by the conducting wire 12 of the main branch. In each of the examples described herein, the plug piercing detecting means 15 is formed by a mesh 16; this mesh 16 is formed by the same conductive wire 12 as the circuit. This wire thus forms both the tracks 16 of the mesh and the tracks of the circuit.
[0052] Alternatively, it is understood here that the mesh 16 may be formed by other conductive son that the wire 12 of the circuit. The electronic chip 13 is thus configured to determine whether the plug 200 has been pierced totally or partially when at least one of the tracks of the mesh has been cut.
[0053] In each of the examples described here, the tracks 12 and 16 run through the neck of the bottle 200 on either side of the neck 201, passing through the top of the neck and completely covering the upper part of the stopper by going beyond the ring of the bottle. Thus, following a section of one of the tracks 12 of the circuit or one of the tracks 16 of the mesh, the chip 13 is no longer electrically connected to the antenna 14. Several cases occur: either the transmission of the data identification by the antenna 14 is no longer possible; either the chip 13 derives information relating to drilling or tearing and, in this case, the antenna 14 sends the reader 400 information relating to the detected intrusion (drilling and / or tearing).
[0054] The tracks 12 of the circuit thus constitute means for detecting the lifting of the capsule 300, while the tracks 16 of the mesh constitute means for detecting the piercing of the plug 202. In another case, the tracks 12 of the circuit are connected to the antenna 14 and the circuit of the mesh 16 integrates other tracks, which are able to detect the tearing of the cap 300 and / or the removal of the stopper 202. Thus, if the stopper 202 is removed or pierced, or if the capsule 300 has been torn off (even gently), the chip 13 retains its ability to communicate the identification data it contains to the reader 400 as well as information intrusion or attempted intrusion.
[0055] Tracks 12 and 16 are constituted encuivre; copper is here chosen for these conductive properties, its resistance to oxidation and its mechanical resistance over time. This mesh is fine. In the examples described here, the tracks 16 of the mesh are spaced apart by a separation distance substantially between 80 and 150 μm. In the same way, each of the tracks 16 of the mesh have a width substantially between 80 and 1501..tm .. In the examples described here, each of the tracks 16 of said mesh has a thickness of between order of 10 μm to 50 μm.
[0056] Alternatively, the plug piercing detection means 15 may comprise a patch 17 (shown only in FIG. 7). This pellet 17, preferably ceramic, is configured so that, when an external object such as a needle pierces said pellet 17, the electrical connection between the pellet 17 and the chip 13 is broken.
[0057] In the same way, when this electrical connection is broken, several cases arise: either the transmission of the identification data by the antenna 14 is no longer possible, or the chip 13 deduces the information relating to the drilling and, in this case, the antenna 14 sends the reader 400 information relating to the piercing detected. FIG. 7 diagrammatically illustrates an assembly 500 for the authentication of a bottle 200 whose neck 201 is closed by a cap 202 covered by a cap 300. This set 500 notably comprises: an electronic authentication device 100 as described above, and an external reader 400 capable of reading the identification data stored in the electronic chip 13 of the device 100 when the antenna 14 of the device 100 is in the range of coverage of the reader 400. In this example, the device 100 is equipped with additional instruments. More particularly, an impedance probe 20 is provided for measuring an impedance variation across the plug piercing detection means 15; the detection of an impedance variation by the probe 20 makes it possible to determine whether the plug 202 has been pierced. In this example, it is also provided that the device 100 comprises a temperature and / or humidity sensor 30.
[0058] This probe 30 is electrically connected to the chip 13 and provides real time to the chip 13 the information relating to the ambient temperature and / or humidity. In this case, it is understood here that the chip 13 can store and historize the information received from the probe 30. Still in this embodiment illustrated in FIG. 7, it is also provided that the temperature and / or humidity sensor 30 is connected to a thermostat 31 and a hygrostat 32. The thermostat 31 and the hygrostat 32 are then provided to generate a first warning signal if the temperature and / or humidity measured by the probe 30 are not located in a range of predetermined values. As previously explained, it can be provided that this first warning signal is generated if the measured temperature and / or humidity are not within a predetermined range of values during a given exposure period.
[0059] It is also possible, in another variant, that the thermostat 31 integrates a temperature probe and thus passes the probe 30; in the same way, it can be provided that the hygrostat 32 integrates a humidity sensor and thus also passes the probe 30. In this embodiment, the thermostat 31 and the hygrostat 32 are therefore sufficient themselves. In this example, the device 100 comprises a vibration sensor 40 for measuring the vibrations propagating through the bottle 200 and for generating a second warning signal when said measured vibrations have a frequency substantially in the range of about 30 Hz. at 300Hz for about at least one second. Finally, again in this embodiment illustrated in FIG. 7, the device 100 comprises a GPS-based geolocation receiver 50 configured to transmit to said electronic chip 13 the geographic coordinates of the device. The chip 13 can thus store and historize the data relating to the geographical coordinates of the bottle. It is then possible, for example, to memorize the coordinates of the bottle 200 during a reading by the reader 400. This makes it possible to retrace the history of the various readings 30 by making a comparison with the information specific to each reader. It can be specified that, in FIG. 1a, the antenna 14 is composed of a plurality of turns forming a ring. In this example, the antenna 14 is disposed just below the bottom of the skirt of the capsule 300.
[0060] In this example, the antenna 14 is connected to the main circuit 10 by the same conductor wire 12 disposed on either side of the neck. Note that it is necessary to break this wire 12 to remove the cap 202 of the bottle 200. It will be noted here that the chip may be positioned at the periphery of the piercing detection means of the cap 15, above the ring of the bottle, once the entire device 100 / capsule 300 crimped, or closer to the antenna, under the ring once the entire device 100 / capsule 300 crimped. The other embodiments are only possible variants of implementation with different support 11 and circuit 10 forms.
[0061] In Figures 3a and 3b, it is a single device 100 with a single antenna 14 and a support 11 which has only two branches. It will be noted here that the widths of branches may be different (for example for a material gain). It is important to note here that the device 100 shown in Figure la is less expensive than the device 100 shown in Figures 2a and 2b with a star with six branches: it has less material. Moreover, such a device does not change the finish of the capsule crimped on its entire surface except for the two son 12 which form a marking on the capsule 300 on either side of the neck of the bottle.
[0062] In Figures 4a and 4b, the circuit 10 comprises a wide antenna 14 which extends laterally on either side of the support 11 to form a "T". In FIGS. 5a and 5b, the circuit 10 comprises a wide antenna 14 which extends laterally on one side of the support 11 to form an "L". In FIGS. 6a and 6b, the circuit 10 comprises two antennas 14 which, when the device 100 is placed between the bottle 200 and the cap 300, wrap around the bottle to cover the entire periphery of the bottle. It is noted here that the devices 100 shown in each of Figures la, 4a, 4b, 5a, 5b, 6a and 6b have after crimping an antenna all around the neck 201 of the bottle 200.
[0063] This simplifies the use of the device 100 in that the consumer but also the sellers, resellers, restorers, distributors, auctioneers, or even collectors, can approach the reader 400 at any location around the capsule 300 and not at a specific place as with the devices shown in Figures lb, 2a, 2b, 3a and 3b.
[0064] Those skilled in the art will note here that the Applicant has endeavored to describe here in detail the device shown in Figures 2a and 2b because it is the most representative example and the most complete. It does not represent in any case the best device and / or that which will be privileged by the castles. It has been chosen to describe it in more detail because the other devices derive from this description. Moreover, these various embodiments are just a few examples among others possible. Those skilled in the art may consider other possible forms without departing from the present invention. It will be noted in particular that several forms for the tracks of the circuit and the mesh are conceivable for the skilled person. Thus, the present invention with the various technical characteristics described above makes it possible to respond to the problems raised by the new counterfeiting techniques with regard to wine. The present invention also makes it possible to satisfy the requirements of growers and producers, and in particular those of grands crus. Indeed, the castles that manage the great wines and especially the first growths must give an image of classicism, elegance and purity. It is therefore important that the anti-fraud device is as visible as possible. In the context of the present invention, the device 100 is positioned between the bottle 200 and the metal cap 300. Once the bottle is set, it is not visible or only very little. The present invention also provides an effective solution to combat the so-called refilling phenomenon: the device, thanks to the presence of this fine mesh or this chip is able to detect the piercing of the cork. No solution in the state of the art offers a solution to avoid refilling. In the state of the art, contactless labels and seals require the consultation of a database installed on external servers. These systems then require the user to connect to a software application installed on a communication terminal before delivering the information of the chip. This creates computer vulnerabilities in these devices when servers, applications and / or websites are hacked. The device proposed in the context of the present invention is self-sufficient: it makes it possible to obtain confirmation of the authenticity of the physical bottle (the container) from its origin to bottling at the Château. It also confirms or denies whether the cap has been opened or pierced. In its most evolved version with the vibration sensor, it can also confirm the authenticity of the contents of the bottle, and therefore the authenticity of the bottle as a whole. The process "CAPSEAL®", outside the capsule, is by definition vulnerable being able to be moved on a counterfeit bottle and canceling its interest here. In the context of the present invention, the withdrawal of the device 100 necessarily gives the information to the chip 13 which can confirm whether the bottle 200 is authentic or not. In addition, the device 100 according to the present invention can display on the reader 400 the label of the castle corresponding to the identification data of the chip 13. This has the advantage of giving additional visual confirmation to the layman who has not not remember the exact graphics of the label of the castle he buys or even the spelling of the name of the castle. He can thus check live and compare in detail the label of the bottle he is about to buy with that displayed on his player. For all the reasons mentioned above, the object of the invention is presented as a very effective and discreet solution to fight against the counterfeiting wines of the vintage type. Of course, other applications may also be considered in the context of the present invention. It should be observed that this detailed description relates to a particular embodiment of the present invention, but in no case this description is of any nature limiting to the subject of the invention; on the contrary, its purpose is to remove any imprecision or misinterpretation of the claims that follow.

权利要求:
Claims (34)
[0001]
REVENDICATIONS1. Electronic device for authenticating (100) a bottle (200) whose neck (201) is closed by a cap (202) covered by an elongated capsule (300), said device (100) intended to be positioned between said bottle (200) and said capsule (300) comprising an electronic circuit (10) comprising a flexible insulating support (11) on which extends longitudinally and without overlap at least one conductive wire (12) forming the tracks of said circuit (10), said electronic circuit (10) comprising: - an electronic chip (13) storing an identification data item containing at least one information relating to the contents of said bottle (200), and - an antenna (14) configured to cooperate with said chip ( 13) for wirelessly transmitting said at least one identification data to an external reader (400) when said antenna (14) is in the range of coverage of said reader (400), said device (100) being character characterized in that said electronic circuit (10) comprises plug piercing detection means (15) at least partially covering said neck (201) when said device (100) is positioned between said bottle (200) and said capsule (300). ), and electrically connected to said electronic chip (13) by the tracks of said circuit (10), said electronic chip (13) being configured to determine that the plug (202) is pierced or withdrawn when the electrical connection with said means cap piercing detection system (15) is broken
[0002]
2. Device (100) according to claim 1, characterized in that the cap piercing detection means (15) comprise a mesh of at least one conductive wire (16) forming the tracks of the mesh.
[0003]
3. Device (100) according to claim 2, characterized in that the tracks of the mesh (16) and the tracks of the circuit (10) are formed by said at least one conductive wire (12).
[0004]
4. Device (100) according to claim 2 or 3, characterized in that the tracks of the mesh (16) are spaced apart by a separation distance substantially between about 50! Lm to 300 lm.
[0005]
5. Device (100) according to claim 4, characterized in that the separation distance between each of the tracks of the mesh (16) is substantially between about 50! Lm to 150 pin, preferably between order of 80 μm to 150.1.111.
[0006]
6. Device (100) according to any one of claims 2 to 5, characterized in that each of the tracks of said mesh (16) has a width substantially between about 50! Lm to 300 lm.
[0007]
7. Device (100) according to claim 6, characterized in that the width of each of the tracks of said mesh (16) is substantially between about 50! Lm to 150 pin, preferably between the order of 80 μm to 150 μm.
[0008]
8. Device (100) according to any one of claims 2 to 7, characterized in that each of the tracks (16) of said mesh has a thickness between about 10! Lm to 50 lm.
[0009]
9. Device (100) according to claim 1, characterized in that the plug piercing detection means (15) comprises a pad (17) configured so that when an external object such as a needle pierces said wafer (17), the electrical connection between said wafer (17) and said chip (13) is broken.
[0010]
10. Device (100) according to claim 9, characterized in that said pellet (17) is composed at least partially of ceramic.
[0011]
11. Device (100) according to any one of claims 1 to 10, characterized in that it comprises an impedance probe (20) configured to measure an impedance variation across said cap piercing detection means (15) and to determine as a function of the measured variation whether the plug (202) has been pierced.
[0012]
12. Device (100) according to any one of claims 1 to 11, characterized in that the insulating support (11) is in the form of a six-pointed star, said antenna (14) being positioned on the portion distal to one of the six branches of said star and the plug piercing detection means (15) being positioned in the central portion of said star to at least partially cover said neck (201) when said device (100) is positioned between said bottle (200) and said capsule (300).
[0013]
13. Device (100) according to any one of claims 1 to 12, characterized in that the insulating support (11) comprises an embossing at the periphery of the cap piercing detection means (15) to match the shape of the neck (201) of said bottle (200) when said device (100) is positioned between said bottle (200) and said capsule (300).
[0014]
14. Device (100) according to any one of claims 1 to 13, characterized in that the insulating support (11) comprises a resilient portion at the periphery of the plug piercing detection means (15) to match the shape of the neck (201) of said bottle (200) when said device (100) is positioned between said bottle (200) and said capsule (300).
[0015]
15. Device (100) according to any one of claims 1 to 14, characterized in that the insulating support (11) consists at least partially of a material having mechanical properties to withstand the mechanical stresses exerted during the crimping of the capsule (300) with said bottle (200).
[0016]
16. Device according to claim 15, characterized in that the insulating support (11) consists at least partially in a thermoplastic polymer. 30
[0017]
17. Device according to claim 16, characterized in that the insulating support (11) consists at least partially in a thermoplastic polymer selected from a polyimide such as for example a KAPTON polyimide, a polyester, a PET, a PBT or a PEN.
[0018]
18. Device (100) according to any one of claims 1 to 17, characterized in that the tracks (12, 16) are formed at least partially in a conductive material, stainless, malleable and ductile such as for example copper, tin or aluminum.
[0019]
19. Device (100) according to any one of claims 1 to 18, characterized in that it comprises measuring means (30), such as for example a temperature probe and / or humidity (30), electrically connected to said chip (13) and configured to measure ambient temperature and / or humidity and to provide said chip (13) with information relating to ambient temperature and / or humidity, said chip (13) being able to store and store said information received from said probe (30).
[0020]
20. Device (100) according to any one of claims 1 to 19, characterized in that it comprises warning means (31, 32), such as for example a thermostat (31) and / or a humidistat ( 32), configured to generate a first alert signal if the ambient temperature and / or humidity are not within a predetermined range of values.
[0021]
21. Device (100) according to claim 20, characterized in that the first warning signal is generated if the ambient temperature and / or humidity are not in a range of predetermined values during a period of exposure. determined.
[0022]
22. Device (100) according to any one of claims 1 to 21, characterized in that it comprises a vibration sensor (40) configured to measure vibrations propagating through the bottle.
[0023]
23. Device (100) according to claim 22, characterized in that the vibration sensor (40) or said chip (13) is configured to generate a second warning signal when said measured vibrations have a frequency substantially comprised between in the order of 30Hz and 300Hz for about one second.
[0024]
24. Device (100) according to any one of claims 22 or 23, characterized in that the vibration sensor (40) is configured to detect periodic vibrations.
[0025]
25. Device (100) according to any one of claims 1 to 24, characterized in that it comprises a GPS-type geolocation receiver (50) configured to transmit to said electronic chip (13) the geographical coordinates of said device ( 100).
[0026]
26. Device (100) according to any one of claims 1 to 25, characterized in that the electronic chip (13) comprises at least one secure storage module accessible each with an identification key. 15
[0027]
27. Device (100) according to any one of claims 1 to 26, characterized in that the antenna (14) comprises a plurality of turns forming a ring.
[0028]
28. Device (100) according to any one of claims 1 to 27, characterized in that said antenna (14) at least partially exceeds said capsule (300) 20 when said device (100) is positioned between said capsule (300) ) and said bottle (200).
[0029]
29. Device (100) according to any one of claims 1 to 28, characterized in that the insulating support (11) comprises a ferrite layer.
[0030]
Bottle (200) whose neck (201) is closed by a cap (202) covered by a cap (300), said bottle (200) comprising an electronic authentication device (100) according to any one of the claims. 1 to 29 positioned between said bottle (200) and said capsule (300).
[0031]
31. A method of manufacturing a bottle (200) whose neck (201) is closed by a cap (202) covered by a capsule (300), characterized in that it comprises in particular the following steps: a first step during which an electronic authentication device (100) according to any one of claims 1 to 29 is positioned around the neck (201) of the bottle (200), - a second step during which the capsule (300) and said device (100) are crimped together around the neck (201) to seal the closure of the bottle (200).
[0032]
32. Assembly (500) for the authentication of a bottle (200) whose neck (201) is closed by a cap (202) covered by a capsule (300), said assembly (500) comprising: - at least one electronic authentication device (100) according to any one of claims 1 to 29 to be positioned between said bottle (200) and said capsule (300), and - an external reader (400) adapted to read said data of identification stored in the electronic chip (13) of said device (100) when the antenna (14) of said device (100) is within the coverage range of said reader (400).
[0033]
33. Use of an electronic authentication device (100) according to any one of claims 1 to 29 for the authentication of a bottle (200) containing a wine type grand cru.
[0034]
34. Capsule (300) for bottle (200) comprising an electronic authentication device (100) according to any one of claims 1 to 29.

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同族专利:

公开号 | 公开日

EP3248147B1|2019-02-20|

FR3031826B1|2017-02-17|

CN107408217B|2021-05-28|

JP2018505823A|2018-03-01|

CN107408217A|2017-11-28|

US20180276522A1|2018-09-27|

KR20170105506A|2017-09-19|

WO2016116672A1|2016-07-28|

US10255544B2|2019-04-09|

EP3248147A1|2017-11-29|

JP6829690B2|2021-02-10|

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法律状态:
2016-01-28| PLFP| Fee payment|Year of fee payment: 2 |

2016-07-22| PLSC| Search report ready|Effective date: 20160722 |

2017-01-17| PLFP| Fee payment|Year of fee payment: 3 |

2017-12-01| TP| Transmission of property|Owner name: ORIGINE, FR Effective date: 20171030 |

2017-12-27| PLFP| Fee payment|Year of fee payment: 4 |

2019-01-28| PLFP| Fee payment|Year of fee payment: 5 |

2020-10-16| ST| Notification of lapse|Effective date: 20200910 |

优先权:

申请号 | 申请日 | 专利标题

FR1550476A|FR3031826B1|2015-01-21|2015-01-21|AUTHENTICATION OF A BOTTLE AND ITS CONTENT|FR1550476A| FR3031826B1|2015-01-21|2015-01-21|AUTHENTICATION OF A BOTTLE AND ITS CONTENT|

EP15822974.0A| EP3248147B1|2015-01-21|2015-12-15|Authentication of a bottle and of its content|

JP2017539225A| JP6829690B2|2015-01-21|2015-12-15|Certification of bottles and their contents|

US15/537,654| US10255544B2|2015-01-21|2015-12-15|Authentication of a bottle and of its contents|

PCT/FR2015/053526| WO2016116672A1|2015-01-21|2015-12-15|Authentication of a bottle and of its content|

KR1020177018782A| KR20170105506A|2015-01-21|2015-12-15|Authentication of a bottle and of its content|

CN201580074210.8A| CN107408217B|2015-01-21|2015-12-15|Authentication of bottles and their contents|

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