FR2982689A1 - UHF radio frequency identification insert for identification of wood, has antenna in interior part, and UHF radio frequency identification chip, where clipping tabs are provided outside insert for supporting antenna and chip - Google Patents

Abstract

The insert (1-20) has an antenna in an interior part, and an UHF radio frequency identification (RFID) chip (2). Clipping tabs are provided outside the insert for supporting the antenna and the UHF RFID chip. The antenna includes ends folded in a direction opposed to a wood, where the ends of the antenna move away from a cutting plane of the wood. The clipping tabs are made from a conductive material such as a thermally conductive plastic, and connected to the body of the insert.

Description

The present invention relates to the field of marking, identification and traceability of wood, in the various applications from the tree of the forest and to its many different transformations, such as: logs, sawnwood, processed products.

The identification of wood dates back to ancient times, as any object or product is spotted for multiple reasons of recognition for various needs such as property, location, destination, function. In the field of wood, several patents deal with the question of wood identification, through various inserts, some of which are platelet-shaped; these pads as the name suggests being a flattened volume affixed and laid flat against the wood. These pads receive conventional information signs against their flat structure. These plates have under their main flat element integrated means for attachment and attachment in the wood, such as small legs (9) entering the wood and holding the wafer. The use of the new technique of RFID (radio frequency identification) already appears in several patents as a means of identification of wood. The most significant patents being: * the patent Leuvrey 91 01877 of 18.02.91 / 2 673 026, already evokes the use of "a decodable radio label without contact" (R7) * patent Leuvrey 007882 of 19 06 00 / 002810 436, claims an "information element contains a chip or transponder" (R2) * the report of 31 January 2002 of the European project led by the Trâtek Institute (Anders Lycken) of Sweden, (Didier Pischedda, Technical Center of Wood , France) shows Leuvrey platelets with RFID tags. * Latschbacher patent application US202 / 0170213 A1 Nov 21.2002 subsequently introduced to the previous patents Leuvrey the idea of integrating a tag with RFID on a flat wood identification plate, these laying devices already operated and defined previously as in Leuvrey patent No. 87 01700 of 11 02 1987/2610 749 * Leuvrey patent No. FR 07 08671 of 12 12 07 already integrates traceability solutions with RFID-LF (low frequency) contained in a "glasstag" "(RFID in small glass capsule), in an insert that attaches mainly to trees. * the patent application leuvrey FR No. 09 00112 of Jan. 9, 2009 and its European patent application No. 10150199.7 of 07.01.2010 / EP 2 207 130 A1, provide a solution to the use of a RFID-UHF wood integrated into a wood identification plate in essentially its distance from the RFID-UHF of the wood; this remoteness being necessary for its good reading with regard to the disturbances of its reading generated by the frequencies substantially similar to the wood material, frequencies of the 1 wood scrambling the capture of the information by the reader RFID if the RFID is against or too close to the wood . The patent application FR No. 11/02438 of 03 08 2011 "wood identification and traceability insert" provides a solution for reading the RFID-UHF (radio frequency identification-ultra high frequency) integrated in a type insert wood identification plate without obligation of its distance from the wood material, by means of a screen deviating from the captive effect of the waves emitted by the wood material whose frequencies of its waves are in the same range as that of the RFID-UHF, screen placed between the wood and the RFID UHF integrated in the plate; this device thus allowing a flat and thin plate with RFID UHF placed against the wood, and readable without its remoting of the wood. The present invention provides new solutions beyond the solutions already provided by the breVets mentioned above, for the purpose of optimum use for an optimum reading result of a UHF RFID integrated in an insert (wafer type or not) ) of wood identification, particularly with regard to its use in hostile environments such as forest work, logging, mechanized logging, timber transport, and the first transformation into a highly mechanized sawmill; large production capacity, and therefore its protection and resistance to various possible shocks. * its control by automatic reading on high speed mechanized wood supply lines * to control the manufacturing costs of a new RFID-UHF insert according to the invention. * Consideration that the insert according to the invention is a major eco-product with respect to its definition and environmental scope and recyclable in its application. The invention will be better understood by means of the following drawings: FIG. 1 represents an oblique view of a UHF RFID whose free ends of the antenna are in a plane at 90 ° from the plane of the UHF RFID. FIG. 2 represents a transparent insert making it possible to see the position of the RFID-UHF in the insert and the position of the free ends of the antenna in the clipping tabs of the insert to the firing pin.

Fig 3 shows a section of the insert according to FIG 1 and FIG 2, insert fixed in the wood, showing the direction and position of the free ends of the RFID-UHF antenna placed in the clipping tabs of the insert. Fig 4 shows a section of the insert in a variant without clipping tabs to a striker element Fig 5 shows a top view of the inserts according to Fig 4, stranded in tape. 2 represents a section of an insert in an embodiment variant in the encapsulation of the UHF RFID FIG. 7 represents a section of a clipping lug attached to the insert and acting as an antenna end. the UHF RFID, said tab in the form of a vertical pin being a part previously distinct from the stud-shaped insert, here placed and attached to the insert in contact with the RFID UHF. FIG. 8 represents an oblique view of an RFID-UHF insert, itself the RFID-UHF antenna. The present invention provides a novel solution for optimizing the reading of UHF RFID through 2 associated devices of the FIG. Antenna (1) integrated into an insert (4) (also called plate) wood traceability, A / An inlay support (translation of the English word "inlay") receiving the RFID-UHF (radio frequency identification-ultra high frequency) ; the RFID comprises an electronic chip (2) coupled to its antenna (1); chip (2) contains the information relating to wood, and its antenna has the function of transmitting to an external reader (30) this information contained in the chip. Summary of the vocabulary used in this document: - support = any non-conductive material, often an adhesive or non-adhesive label - Support inlay = support + RFID - RFID = chip (2) + antenna (1) conductive property - RFID-UHF = RFID in responding to a frequency range called ultra-high frequency, in frequencies ranging from -860 to 960 MHz used according to standards and countries. - conductor means electrically conductive - EM waves = electromagnetic waves The embedded support is here transparent and represented as an antenna (1), in Figs 1/2/3/4/6 / 7, for the sake of clarity. The encrusted support is the antenna (1-3) according to Figé.

Said encrusted support is thus integrated flat, in, or above, or below a wood identification insert, fixed against the wood material; In this configuration thus defined, the reading of the RFID-UHF is not guaranteed, because the wood is undried (thus loaded with water), and the RFID-UHF is too close to the wood.

That is why this device -A is associated with a complementary device-B following: B / one or more tabs (5) of clipping of the insert (4) receives part of the antenna (1) whose ends ( 3) are folded in a plane perpendicular to the plane of the main body of the antenna (1) with its chip (2), and are positioned in the opposite direction to the wood and spaced apart from the wood. 3 As a reminder, an insert (4) for identification and traceability of wood, is an insert fixed flat against the wood (7) by means of tabs (9) for fixing into the wood (7). Said insert (4) is generally laid flat on the section (25) of a wooden ridge (7). The insert (4) comprises on its upper face slightly flexible lugs (5) intended to allow it to be clipped to a striker (6) for manual installation in the wood: the insert, in a mode of conventional use generally receives visible information signs placed on the outer flat face of the insert or optionally in the insert if it is transparent. According to the invention, the striker clipping lugs (5) thus now have two associated functions: a) The usual function of clipping the insert to the striker hammer (6) for inserting the insert b) The new function of being also the free ends (3) of the antenna (1) by hosting or conductive substitute property of the antenna. RFID-UHF is thus protected in its entirety, with a minimum of exposure of its antenna ends (3) (3) in tabs (5) of clipping, already existing by definition. These clipping lugs are small and slightly flexible and therefore rarely touched and completely destroyed by various shocks during logging operations; the advantage of this device is reinforced by the fact that the insert may optionally comprise a large number of tabs (5) comprising as many antenna ends (3); the risk that all these extensions of antennas (3) are all destroyed by an exceptional chance remains positively rare and can therefore be considered insignificant in the control management of wood with RFID-UHF. These tabs (4) therefore respond well here to their 2 associated functions, one gripping function to a striker (6) and the other antenna function; these legs (5) may have different shapes, depending on the possible variants of application of the insert. As a reminder of the problem of reading a RFID-UHF fixed on a raw timber such as a log of fresh slaughter wood: The embedded support including the chip (2) and the antenna (1) of the RFID-UHF 35 is flat and encapsulated in the insert for its protection, said insert being fixed flat against the wood, which poses strictly a problem of reading the UHF RFID with regard to the interactions of the electromagnetic waves of the wood in the same frequency UHF, by its proximity to the wood without the presence here associated with a deviating conductive screen placed between the wood and the RFID-UHF, said screen canceling the negative effect of electromagnetic EM waves of wood which by definition disrupt and prevent the reader (30) from capturing the information of the chip (2) given by its antenna (1). As an indication, dry wood with almost no water does not meet the problem. 4 Said insert (4) is used here in identification and traceability of raw wood not dried, and therefore of high water composition. In order to avoid disturbances of reading caused by its proximity to wood, a distance of the wood of RFID-UHF by an insert not strictly flat and generally of sometimes bulky shape, is already provided through the provisions and solutions in the patent application leuvrey FR No. 09 00112 of Jan. 9, 2009. But for reasons of protection of the impact insert during forestry work, it is nevertheless advisable and often to use a rather flat insert and therefore less exposed to shocks, without using the deviating screen technique mentioned above which would present a significant cost of realization. In order to enable the reading of RFID-UHF, the present invention thus provides the following solution: In general and by definition of a flat UHF RFID, the chip (2) is fixed in the middle of the antenna at an equal distance from its 2 ends (3) free. Without exposing most of the remaining RFID-UHF to full protection in the body of the insert (4), only part of the antenna (1) by its free ends (3) is then removed from the wood by integration and protection in the tabs (5) clipping already basic components of the insert (4). According to the invention, the central part of the antenna (1) is integrated flat to the insert; one or more antenna ends (3) are bent or folded for this purpose in a direction opposite to the wood (7) and away from the wood and preferably in 90% plane of the cut (25). ), said antenna ends (3) then emerging at a sufficient distance outside the flat area of the insert to transmit the information of its chip (2) to the reader out of the capture or scrambling area. EM waves of wood. This insert (1) already has on its outer surface small tabs (5) for clipping hammer striker (6) for manual attachment of the insert in the wood (7), insert retained in the wood by the legs lower (9) of the insert. According to the present invention, the clipping lugs (5) thus acquire a second function, that of becoming in part an antenna, through the following new device: only the free antenna ends (3) curved at 90 ° to the plane inlaid support and oriented in a direction opposite to the plane (25) of wood cutting and away, are then integrated in these tabs (5) for fixing and this new antenna arrangement. 2 / the reading of the UHF RFID is thus really active in this new device integrating and positioning only the ends (3) the antenna in the distance of the wood, to better secure and optimize the reading of UHF RFID, antenna ends serving by definition to transmit the information recorded in the chip (2) 5. 3 / the physical protection of the antenna (3) by its integration into a body (5) protecting it is thus acquired. 4 / the insulation of the antenna (electrically conductive) is thus maintained by the tabs which receive it, said tabs being of non-conductive material, essential provision for the proper operation of the RFID. Each tab (5) receives a free end (3) of the antenna (1). The antenna ends (3) are therefore folded preferably at 90 ° or close to 90 ° and oriented in the opposite direction to the wood away from the wood.

The inlaid support (chip and central configuration of the antenna in the great majority remains in internal protection and flat in the insert (4).) According to Fig. 7, in a variant, the external clipping lugs (5) are realized. separately, by machining or molding in a conductive thermoplastic material generally loaded with carbon fibers or stainless steel, or in any other suitable material having the same functional properties as the conducting antenna. ) in the form of a stud are reported to the insert by any means of fixing (such as, for example, welding, bonding, forced fitting, clipping) in permanent contact (11) with the antenna (1) placed flat in the ends (3) of the antenna (1) are here replaced by the tabs (5-15) which become antenna ends (3). conductive since it has an antenna function A non-conductive outer insulating covering is obtained by any means such as for example varnish: overmoulding, and maintains this arrangement in function. This leg / antenna device (5-15) particularly optimizes an automated production of RFID-UHF inserts. An extension of an antenna by one or more extensions (16) running from the tab (5-15). These stringy extensions are flexible by their thin section and are therefore difficult to destructible in the few rare but possible cases of impact to the insert that may occur during logging operations. These antenna wire extensions, by further remote spacing of the antenna ends, greatly enhance the ability of the reader (30) to capture RFID-UHF information, as well as readability; a complete and simultaneous destruction of all extensions (16) of the antenna (1-3) in the course of forestry operations, can then be considered as practically zero, which optimizes and secures the entire device insert / RFID- UHF. These extensions (16) may be placed in one or more other points or variants of the insert, according to another example shown in FIG 4.

In another variant, according to FIG. 6, the insert (5) directly receives on its inner face an RFID-UHF whose antenna is obtained by any suitable printing method and using a conductive ink, such as a jet d ink, pad printing or hot-foil printing. The insert (4) is here composed of 2 complementary and non-conductive elements (19 and 17), one above and one below. The antenna (1-3) is then printed directly on the internal face. of one (18) of the two physical components of the insert. Following this operation of direct marking of the antenna (1-3), said structural elements of the insert (1) are assembled urr against each other, encapsulating the RFID-UHF for its protection, encapsulation obtained by any suitable means such as for example ultrasonic welding, clipping; protection against the various shocks that the insert could undergo, and also to ensure total sealing of the RFID-UHF as well as its electrical insulation.

This protection can also be obtained by simpler means such as covering the UHF RFID of a varnish or overmolding partially or completely of the insert; These protective elements have the property of being non-electrically conductive, necessary for the proper functioning of the RFID device.

In another variant, according to FIG. 4, the insert (4-8), in a thickness relative to the function and configuration of the UHF RFID and its antenna (1-5), does not include clipping tabs (5). . This device allows an insert (4) of form (8) volume and full necessary for its function and its packaging group of inserts held in band by fasteners (10) sectionable; The striker (6) of the hammer type in manual application of the insert also has another form suitable for a mechanical device for automatic or semi-automatic installation as on mechanical harvesters.

This insert variant (8-4) gives it enhanced resistance to violent mechanical shocks, and its adaptability to the marking of high yielding woods, qualities absolutely necessary in the identification of woods by means of a laying device adapted to function precisely on mechanized harvesters; this laying device is controlled from the control station of the felling machine; this results in a violent percussion blow on the insert avoiding its destruction thanks precisely to its solid and solid shape, mechanical resistance to shocks required for its integration function and protection of RFID-UHF. This technical form of the insert allows automated or semi-automated feeding here possible by a supply of strips of inserts held by fasteners (10) severable to the percussion; for this purpose this insert (4-8) does not necessarily have tabs (5) clipping here unnecessary. The packaging of the inserts (8-4) in strips and by severable fasteners allows the practical reloading and supply and large series of inserts in the field in the automated or semi-automated device identification inserts, on mechanized harvesters large performance. In another variant, according to FIG. 8, the Wood Identification Insert (1-20) is simply RFID-UHF in its entirety by its antenna geometry made of any suitable material having an antenna property and its chip integrated in said material, said conductive material preferably being made of aluminum or thermo-plastic loaded with conductive elements such as carbon fibers and stainless steel fibers, said insert thus having a solid structure corresponding to its function mechanical resistance; the insert thus defined may include tabs (3-5) for fixing in the wood. Its stripper may vary according to its use with manual installation or installation from a mechanized harvester and in this case without clipping lugs and also packaged in a belt. sectional fasteners. This insert receives a protection obtained by any means such as for example by coating varnish or paint, these coverings of electrically non-conductive type; said effective protection is also valid against possible shocks, also obtained by any other suitable means such as overmoulding of thermo-plastic or thermosetting materials. This insert (4) receives by inlay the chip (2); thus this insert (1) in this variant according to FIG8 became directly and integrally itself the RFID. The structure of this insert, in its basic aluminum version, is obtained in the technique of cutting-stamping from an aluminum strip, again by molding.

This insert (1-20) in its aluminum version also has the big advantage of not provoking the decongestion of the cutting tools in the wood. Furthermore, in the process of making paper from wood, aluminum does not cause any problems or the final quality of the paper. The insert according to the invention is preferably made by molding in a bio-sourced and bio-degradable thermoplastic material, and preferably from the tree, for ecological purposes. The insert (4) has slots (24) on its long sides, its central area being occupied by the RFID, to receive packaging rods inserts packaged and maintained in stack, said sticks preferably cardboard or wood. For maximum security of reading and thus the identification and traceability of the log, the insert in various variants of suitable structures incorporates several RFID-UHF; The insert (4) may also comprise in association a conductive screen deviating the EM waves of the wood, said screen placed between the RFID-UHF and the wood. The present invention is part of the modern and optimized means of control and management of wood, wood being a rare renewable resource of the planet, the shaft otherwise CO2 sink, the tree at the heart of major ecological issues .

The present invention relates to all other similar applications, including all other areas of traceability of objects.

Claims (6)

REVENDICATIONS1. Wood identification insert (4) with UHF RFID comprising inside an antenna (1) flat in its central part and the chip (2), characterized in that the lugs (5) external clipping of the insert have a second function, that of being the support of the ends (3) of the antenna (1) of the RFID-UHF, said antenna ends (3) being folded for this purpose in the direction opposite to the wood (7) and away from the cutting plane (25) of the wood. 2. Wood identification insert (4) with UHF RFID, according to claim R1, characterized in that, in an alternative embodiment, the outer legs (5-15) of the insert are made separately in any one conductive material preferably conductive thermo-plastic, and are then reported to the body of the insert (1) in contact (11) permanent to the central part of the antenna (1) in the flat position in the insert (4), said tabs (515) being insulated by their covering of a non-conductive material. 3. Wood identification insert (4) with UHF RFID, according to claims R1 and R2, characterized in that, in an alternative embodiment, the antenna (1) is printed directly against the internal face (18) of the upper element (19) of the insert by any suitable printing method incorporating a conductive ink, said method such as preferentially inkjet or hot-film printing or pad printing, said antenna then being enclosed by assembly definitive elements (19) and (17) basic and complementary to the insert enclosing and protecting said antenna by sealed encapsulation, said elements (19) and (17) being made of a non-conductive material. 4. Wood identification insert (4) with UHF RFID, according to claim R1, characterized in that, in an alternative embodiment, the single RFID comprises the insert (1-20), by the geometric and adapted shape its antenna (1-3) made of any conductive material and incorporating the chip (2), leadite material preferably aluminum or thermoplastic, the assembly of said insert completely covered with any non-conductive and protective material shocks. 5. Wood identification insert (4) with UHF RFID, according to claims 1, 2, 3 and 4, characterized in that, in another variant embodiment, the insert (4-8) is produced without its tabs (5) of external clipping 40 and in a form (8) solid and solid and necessary for its function of integration and protection of the antenna (1-3) and the chip (2), said inserts (4- 8) being packaged in strips by severable fasteners (10). 6. Wood identification insert (4) with UHF RFID, according to any one of the preceding claims, characterized in that it comprises extensions (16) of the antenna (1-3) protruding outwardly from the outside. the basic structure of the insert (1) R7 Wood identification insert (4) with UHF RFID, according to any one of the preceding claims, characterized in that it is associated with a conductive screen deviating from the waves EM wood.