FR3010816A1 - DEVICE FOR RADIO-IDENTIFYING AN OBJECT - Google Patents

Abstract

The invention relates to a device (1) for the identification of an object (B), said device comprising an RFID module (10) operating at a predetermined operating frequency (F), fixing means (11) of said RFID module to said object, a substantially straight radiating element resonating at the operating frequency and forming an electric antenna (14), which electrical antenna is intended to be coupled with said RFID module. According to the invention, the radiating element (14) is placed on or in the means for fixing the RFID module to said object and the fixing means (11) are configured to move at least one end of said radiating element (14) relative to to a peripheral surface of said object.

Description

TECHNICAL FIELD The present invention relates generally to object identification devices comprising RFID modules. The invention relates more particularly to a device for identifying at least one object, said device comprising a RFID-type contactless module, called RFID module, operating at a predetermined operating frequency, and means for fixing said device. RFID module to said object, said device further comprising a substantially straight radiating element resonant at said operating frequency and forming an electrical antenna, which electrical antenna is to be coupled with the RFID module. STATE OF THE ART As mentioned above, such identification devices conventionally comprise an RFID module and an external electrical antenna, the assembly being arranged on the object to be identified. The RFID module includes an electronic chip, which chip is coupled to the power antenna. This coupling can be direct: the electric antenna is then connected to an electronic chip. This coupling can also be achieved via a magnetic antenna (magnetic loop) present inside the RFID module. The electronic chip is then connected to the magnetic antenna inside the RFID module and the electrical antenna is electromagnetically coupled to the magnetic antenna. The RFID module and the electrical antenna are generally arranged on a generally rigid support so as to obtain an optimal coupling between the antenna and the RFID module, which is stuck on the object that the RFID module identifies. If the object identified by the RFID module has metal parts, it is important to move the antenna away from the metal parts of the object for the device to function properly. In the case of quarter-wave (monopole) type electric antennas, the metal part of the object may serve as a ground plane, but then, it is preferable that the antenna is disposed substantially perpendicular to the metal part forming a ground plane. In the case of half-wave (dipole) type electric antennas, it is important to ensure that the electrical antenna is sufficiently distant from the metal part of the object. One solution to this problem is then to use thick rigid supports, for example plastic or ceramic, in which the RFID module and the antenna are fixed. The thickness of the support ensures, once bonded to the object, a good positioning of the electric antenna relative to the metal part of the object. This solution is however expensive and requires the development of a specific device support. In addition, we end up with large devices that can complicate the handling of the object and be fragile because of their positioning on the object.

SUMMARY OF THE INVENTION An object of the invention is to provide an object identification device which is low cost and small in size. Another object of the invention is to provide an object identification device which can be made from commercially available components. Another object of the invention is to provide an object identification device which is not fragile but which can guarantee adequate positioning of the electrical antenna with respect to the object, especially if the latter is metallic. For this purpose, the invention proposes to arrange the electrical antenna on the means for fixing the RFID module to the object. The invention relates to a device for identifying at least one object, said device comprising a RFID-type contactless module, called RFID module, operating at a predetermined operating frequency, and means for fixing said module. RFID audit object. The device also comprises a substantially rectilinear radiating element resonating at said operating frequency and forming an electrical antenna, which electrical antenna is intended to be coupled with the RFID module. According to the invention, the radiating element is placed on or in the means for fixing the RFID module to said object and the fixing means are configured to move at least one end of said radiating element relative to a peripheral surface of said object. According to the invention, the electrical antenna is thus offset to the RFID module fixing means and these are configured to correctly position the electrical antenna relative to the object. According to a particular embodiment, the fixing means are configured to position said radiating element substantially perpendicularly to a peripheral surface of said object. These fixing means are particularly interesting in the case of metal objects and quarter-wave type electric antennas, the metal peripheral surface of the object then serving as a ground plane. According to a particular embodiment, the fastening means are made of a flexible and resilient material and comprise a so-called flexible portion able to move between an initial position and a stress position when subjected to mechanical stress and to return at an initial position in the absence of said mechanical stress, the initial position of the fixing means being defined to move at least one end of said radiating element relative to said peripheral surface of the object. The RFID module is generally rigid and small in size. It is arranged on flexible fastening means. The device of the invention is not fragile. In case of mechanical stress, it bends and then returns to its initial position as soon as the stress ceases.

According to a particular embodiment, the RFID module comprises an electronic chip and a magnetic antenna connected to said chip, and the electrical antenna is arranged on the fixing means so as to be coupled to the magnetic antenna of the RFID module. According to a particular embodiment, the radiating element is a radiating strand with a length substantially equal to k / 4, where k is the wavelength corresponding to said operating frequency. This type of antenna is particularly suitable for cases where the peripheral surface of the object is metallic, said metal surface then forming a ground plane for said radiating strand. According to another particular embodiment, the radiating element is a radiating strand with a length substantially equal to k / 2. This type of antenna is used in the case of non-metallic object.

According to a particular embodiment, the fixing means comprise a plastic clamp adapted to grip a part of said object, said clamp comprising, after mounting on the part of the object, a clamping loop enclosing said part. the object extended by a flexible tongue forming said flexible portion. This type of clamp is commercially available and is for example sold under the brand RilsanTM or ColsonTM. In this embodiment, the radiating element is advantageously a conductive strip bonded or vapor deposited on at least one face of the flexible tongue of the clamping collar and the RFID module is mounted on said flexible tongue, preferably close to the buckle to protect it from possible shocks. According to a particular embodiment, the conductive strip extends on one face of said clamping loop. According to a particular embodiment, the fixing means comprise a paper label adapted to be fixed on said peripheral surface of the object, said label being folded so as to comprise a first portion pressed against said peripheral surface of the object and a second portion, forming said flexible portion of the fastening means, positioned substantially perpendicular to said peripheral surface. In this embodiment, the radiating element is advantageously a conductive strip printed at least on the flexible portion of the label and the RFID module is mounted on said flexible portion. The conductive strip is optionally extended on said first portion.

According to another embodiment, the fixing means comprise a plastic nail capable of being driven into said object, said nail comprising a head on which is mounted the RFID module, which nail is equipped with flexible rods erected upwardly. which are deposited conductive strips forming the radiating element. Such nails with upwardly facing flexible plastic rods are commercially available as RaptorTM Spike-6 Nail. A metal layer is deposited on the rods to form the electric antenna. According to a particular embodiment corresponding to non-metallic objects, the fixing means further comprise a metal plate forming a ground plane for said electric antenna.

In this embodiment, the greatest length of the metal plate is advantageously less than λ / 5, preferably of the order of λ / 10. According to another embodiment, the fixing means comprise a rubber element capable of coming to lock in an orifice of said object, said radiating element and said RFID module being arranged in or on said rubber element. Finally, according to a preferred embodiment, the operating frequency belongs to the ISM frequency bands. Other advantages may still be apparent to those skilled in the art upon reading the examples below, illustrated by the appended figures, given for illustrative purposes. BRIEF DESCRIPTION OF THE FIGURES FIG. 1 shows an overview of a first embodiment of a device according to the invention which is mounted on a gas cylinder, the device being used to identify said gas cylinder; Figure 2 shows a top view of the device of Figure 1; FIG. 3 represents an overall view of a variant of the first embodiment mounted on a gas cylinder; Figure 4 shows a top view of the device of Figure 3; Figure 5 shows the device of Figures 1 and 2 mounted on a barrel of beer to identify it; Figure 6 shows a view of a second embodiment of a device according to the invention which is attached to a tree trunk, the device being used to identify said tree trunk; FIG. 7 shows the device of FIG. 1 mounted on a glass bottle, said device being equipped with a metal plate forming a ground plane by the electric antenna; Figure 8 shows a top view of the device of Figure 7; Figure 9 shows a view of a third embodiment of a device according to the invention which is blocked in an orifice of an object, the device being used to identify said object; and Fig. 10 is an overview of a fourth embodiment of the device of the invention, which is mounted on a gas cylinder. DETAILED DESCRIPTION OF THE INVENTION The invention has been described in connection with the identification of four objects, namely a metal gas bottle, a metal beer barrel, a glass bottle and a tree trunk. Various embodiments of the device of the invention are presented in the context of these applications. A first embodiment of a device according to the invention is illustrated in Figures 1 and 2 in the context of the identification of a gas cylinder B. The device of the invention, referenced 1, is mounted on the neck of a bottle of metallic B gas. With reference to FIGS. 1 and 2, the identification device 1 comprises an RFID module 10 operating at a predetermined operating frequency F and means for fixing the RFID module to the gas bottle B. The operating frequency F advantageously belongs to the ISM frequency bands.

The RFID module 10 conventionally comprises an electronic chip connected to a magnetic loop forming a magnetic antenna. The RFID module 10 is for example the MUTRAK TM module marketed by TAGSYS.

The fastening means 11 are in the form of a nylon or plastic clamp, such as those sold under the trademark RilsanTM or ColsonTM, adapted to be fixed around the neck of the gas cylinder B.

The clamping collar 11 comprises, after mounting on the neck of the gas bottle B, a clamping loop 12 enclosing the neck of the gas bottle and a flexible tongue 13. The flexible tongue is able to move between an initial position and a so-called stress position when subjected to mechanical stress. The tongue is for example folded when the bottle is handled by its neck but then resumes its initial position as soon as the stress ceases. A substantially rectilinear radiating element 14 resonating at the operating frequency F is disposed on the tongue 13 of the clamping collar. It is intended to form an electrical antenna for the RFID module 10. The RFID module 10 is also arranged on the flexible tongue 13 and is for example fixed by gluing to the tongue. The RFID module can be placed anywhere on the flexible tab. However, it is advantageously placed close to the buckle 12 to be less exposed to shocks. The radiating element 14 is a radiating strand with a length L substantially equal to k / 4, where k is the wavelength corresponding to the operating frequency F. The peripheral surface of the gas cylinder being metallic, this last form a ground plane for said radiating strand.

When the flexible tongue is in the initial position, the radiating element 14 is positioned substantially perpendicular to the peripheral surface of the gas cylinder B.

The RFID module 10 and the radiating strand 14, forming an electrical antenna, are arranged on the flexible tongue 13 so that the electric antenna is coupled to the magnetic antenna of the RFID module 10 in order to increase the reading range of the device. The RFID module 10 and the radiating element 14 are arranged on the tongue 13 after clamping the collar. A conductive strip of length L, forming the radiating element 14, is glued or deposited by vaporization on one face of the tongue. Similarly, the RFID module 10 is glued or attached to the tab near the conductive strip so that there is sufficient electromagnetic coupling between the conductive strip and the magnetic antenna (or magnetic loop) of the RFID module. According to a variant illustrated in Figures 3 and 4, the conductive strip, referenced 14 ', extends on the clamping loop, the portion of the conductive strip on the clamping loop forming a radiant strand. The total length L 'of the conductive strip is then greater than L. It is for example between L and 2L. In another example of application illustrated in FIG. 5, the device of the invention described above is mounted on a metal beer keg. The clamp 11 is here clamped at a handle of the barrel. The flexible tongue of the clamp is then positioned substantially perpendicular to the upper metal rim of the barrel.

Figure 6 illustrates a second embodiment of the invention applied to identify tree trunks. The object identified here is therefore not metallic.

In this second embodiment, the device of the invention is referenced 2. It essentially comprises an RFID module 20, fixing means 21 of the RFID module on a trunk T and an electrical antenna 24. The fastening means 21 comprise a nail 22 of plastic material adapted to be driven into the trunk T. The nail comprises a head on which the RFID module is fixed for example by gluing. The nail 22 is provided with flexible rods 23 raised upwards. This type of nail is marketed by Raptor under the trademark RaptorTM Spike-6 Nail. According to the invention, conductive strips are deposited on the flexible rods to form the radiating element 24 (electrical antenna). These conductive strips preferably have a length L equal to k / 4. In this example of application, it is the tree trunk T which then forms the ground plane. The upright stems are intended to, when folded, return to the substantially vertical upright position. To improve the quality of the ground plane in this type of application (non-metallic object), it is possible to add a metal plate between the antenna and the object. In the aforementioned embodiment, the metal plate is for example a metal washer placed between the head of the nail and the upper surface of the trunk. This metal plate or washer may be a plate on which is inscribed or engraved an identification number of the trunk. Measurements have shown that, even with a reduced mass plane, for example a washer 30 mm in diameter, one could achieve performances corresponding to 80% of the performances which would have been obtained with a conventional mass-size plane having dimensions of the order of k, that is to say of the order of 30 cm for a frequency F of the order of 1 GHz. In the case where a clamp is used as a fastening means on a non-metallic object, for example a glass bottle as shown in Figures 7 and 8, the metal plate referenced 16 is fixed on the bottle by the clamp. The metal plate 16 is provided with a hole in which is passed the clamp. As indicated above, the metal plate can be reduced in size without significant loss of performance. The longest length of the metal plate 16 is for example of the order of 30 mm, or about k / 10.

For reasons of compactness, the greatest length of the metal plate is advantageously less than k / 5, preferably of the order of k / 10. The metal plate 16 may be disposed in the clamping loop 12 as illustrated in FIGS. 7 and 8, or on the flexible tongue 13 between the RFID module 10 and the clamping loop. Alternatively, the ground plane under the electrical antenna is in the form of a plurality of strands extending laterally under the antenna. This additional metal ground plane is advantageous when the bottle is empty or contains conductive fluid. Indeed, measurements have shown that, if the bottle is filled with water (conductive liquid), the water in the bottle can constitute the ground plane of the electric antenna. Any surface of conductive material near an end of the electrical antenna can then serve as a ground plane. The ground plane is not necessarily metallic. Therefore, in the example of tree trunks described above, the addition of the metal plate 16 may be useless if the tree trunk is waterlogged. Figure 9 illustrates a fourth embodiment of the invention applied to identify any metal object having a generally cylindrical shaped body provided with an orifice. This is for example the case of the gas bottle B and the beer keg F. In the case of the gas bottle, the orifice is one of the orifices present on the lower end of the bottle and referenced 15 In the case of the beer barrel, the orifice is one of the orifices present on the upper end of the barrel for the passage of the fingers and form a gripping means of the barrel.

In this fourth embodiment, the device of the invention is referenced 3. It essentially comprises an RFID module 30, fixing means 31 of the RFID module on the object and an electric antenna 34. The fixing means 31 are intended to 15 to come hang in the orifice of the object (bottle, barrel). They comprise a rubber element 32 having a symmetry of revolution able to come and lock in the orifice of the object, perpendicular to the peripheral surface thereof. The rubber member 32 comprises a head provided with a peripheral groove 33 for receiving the peripheral wall of the orifice so as to block the element in the orifice of the object, and a tail. The head of the rubber member is forced into the hole to secure it to the object. A radiating element, advantageously of length L, forming the electric antenna 34 is disposed in or on the tail of the rubber element. The peripheral surface of the object (bottle or barrel) which is metallic forms in this case the ground plane of the electric antenna 34. The RFID module 30 is further disposed in the rubber element or on the latter. . A fifth embodiment of the device of the invention is illustrated in Figure 10. In this embodiment, the fixing means are in the form of a paper label 11 adapted to be fixed on the peripheral surface of the object. This paper label is folded to include a first portion 42 which is pressed against the peripheral surface of the object and a second flexible portion 43 which is, in the absence of mechanical stress, positioned substantially perpendicular to said peripheral surface . The first portion 42 of the label is for example glued by an adhesive material to the object. The radiating element is formed by a conductive strip 44 printed with conductive ink on the flexible portion 43 of the label. In the example of FIG. 10, the conductive strip 44 extends over said first portion, this extension of the conductive strip contributing with the surface of the metal object to form the ground plane. The RFID module 40 is mounted on said flexible portion 43.

Note that this diagram shows the components present inside the RFID module MUTRAK TM of the company Tagsys. The RFID module 40 comprises an electronic chip to which is connected a magnetic loop forming a magnetic antenna. The embodiments described above have been given by way of example. It is obvious to those skilled in the art that they can be modified, particularly as to the material used for the fastening means. They are preferably made of a flexible and resilient material allowing the electrical antenna to be perpendicular to the peripheral surface of the object when they are not subject to external stresses. The power antenna can take various forms and can simply be made by a wire. In the examples described above, the electrical antenna is a monopoly of length k / 4. But, of course, in cases where the object has no metal surface, the electric antenna can be, in the absence of possible ground plane, an electric dipole, preferably of length k / 2.20

Claims (17)

REVENDICATIONS1. Device (1; 2; 3; 4) for identifying at least one object (B; F; T), said device comprising a RFID-type contactless module, called RFID module (10; 20; 30; 40 ), operating at a predetermined operating frequency (F), and means (11; 21; 31; 41) for attaching said RFID module to said object, said device further comprising a substantially straight radiating element resonating at said frequency of operation and forming an electric antenna (14; 24; 34; 44), which electrical antenna is intended to be coupled with said RFID module, characterized in that the radiating element (14; 24; 34; 44) is placed on or in the means for fixing the RFID module to said object, and in that said fixing means (11; 21; 31; 41) are configured to move at least one end of said radiating element (14; 24; 34; relative to a peripheral surface of said object. 2. Device according to claim 1, characterized in that said fixing means (11; 21; 31; 41) are configured to position said radiating element substantially perpendicular to a peripheral surface of said object. 3. Device according to claim 1 or 2, characterized in that the fastening means 30 (11; 21; 31; 41) are made of a flexible and resilient material and comprise a so-called flexible portion able to move between an initial position and at least one constraint position when subjected to mechanical stress and to return to said initial position in the absence of said mechanical stress, the initial position of the fastening means being defined to move at least one end of said radiating element (14 24; 34; 44) relative to said peripheral surface of the object. 4. Device according to any one of the preceding claims, characterized in that the RFID module comprises an electronic chip and a magnetic antenna connected to said chip, and in that the antenna is able to be coupled with said antenna magnetic RFID module. 5. Device according to any one of the preceding claims, characterized in that the radiating element (14; 24; 34; 44) is a radiating strand with a length substantially equal to k / 4, where k is the length waveform corresponding to said operating frequency. 25 6. Device according to any one of claims 1 to 4, characterized in that the radiating element is a radiating strand with a length substantially equal to k / 2, where k is the wavelength corresponding to said frequency of 'surgery. 30 7. Device according to claim 3, characterized in that the fixing means comprise a plastic clamp (11) adapted to grip a portion of said object, said clamp comprising, after mounting on the part of the object , a clamping loop (12) enclosing said portion of the object extended by a flexible tongue (13) forming said flexible portion. 8. Device according to claim 7, characterized in that the radiating element (14) is a conductive strip bonded or deposited by vaporization on at least one face of the flexible tongue (13) of the clamp and in that the module RFID (10) is mounted on said flexible tongue (13). 9. Device according to claim 8, characterized in that said conductive strip (14) extends on one side of said clamping loop (12). 20 10. Device according to claim 3, characterized in that the fixing means comprise a paper label (41) adapted to be fixed on said peripheral surface of the object, said label being folded so as to comprise a first portion ( 42) pressed against said peripheral surface of the object and a second portion (43) forming said flexible portion of the fastening means positioned substantially perpendicular to said peripheral surface. 11. Device according to claim 10, characterized in that the radiating element (44) is a conductive strip printed at least on said flexible portion (43) of the label and in that the RFID module (40) is mounted on said flexible portion (43). 12. Device according to claim 8, characterized in that said conductive strip (44) extends on said first portion (42). 13. Device according to claim 3, characterized in that the fixing means comprise (21) a nail (22) of plastics material adapted to be driven into said object (T), said nail comprising a head on which is mounted the module RFID (20), which nail is equipped with flexible rods (23) upwardly on which are deposited conductive strips forming the radiating element (24). 14. Device according to one of the preceding, characterized in that the fixing means further comprises a metal plate (16) forming a ground plane for said electric antenna. 15. Device according to claim 14, characterized in that the greatest length of said metal plate is less than k / 5. 16. Device according to claim 3, characterized in that the fastening means (31) comprise a rubber element (32) adapted to be locked in an orifice of said object, said radiating element (34) and said RFID module being arranged in or on said rubber member. 17. Device according to any one of the preceding claims, characterized in that the operating frequency belongs to the ISM frequency bands. 10