TW200808553A - Smart corrugated cardboard - Google Patents

Abstract

A communication-ready corrugated article and method for making the corrugated article is disclosed. The corrugated article includes a linersheet (e.g., craft paper), an undulating medium (e.g., craft paper), a conductive strip (e.g., metal, aluminum, wire, coil), and a security chip (e.g., RFID chip, EAS chip, integrated circuit, chip strap, RFID tag, EAS tag). The linersheet has a first side and a second side. The undulating medium is coupled ot the first side of the linersheet, the conductive strip is positioned on the first side of the linersheet between the linersheet and the undulating medium. The security chip is attached to the second side of the linersheet opposite the conductive strip and is coupled to the conductive strip through the linersheet.

Description

200808553 IX. Invention Description: [Issues ^^ belongs to the relevant application] This application is based on 35 USC·§119(e) Proposal for the provisional application of December 22, 2005 And the priority of 60/781,089, which was filed on March 1, 2002. The two application names are all of the type of corrugated cardboard, and their contents are incorporated herein by reference. Background of the invention 1. Field of invention

The present invention relates to security labels, and more particularly to an invention for incorporating an EAS or RFID component strip corrugated structure, a long capacitor, a wafer or an RFID wafer can be electrically connected to the corrugated structure. Form an EAS or RFID security tag. 15 2. Description of Related Techniques The detection or removal of retail items from an inventory or retail location is often the case in stores where electronic goods are monitored, and electronic item surveillance currently includes wireless frequency identification. EAS or RFID detection is basically achieved by applying an EAS or RFID security tag to the item or its packaging, and when the 20 safety tag is exposed to a predetermined electromagnetic field (eg, at zero) At the counter on the store exit, they are activated to provide some kind of warning and/or supply information to a receiver or other detector. However, the application of EAS or RFID security tags to items or their packaging is very expensive and the manufacture of security labels is a waste of resources. For example, 5 200808553 The Queen's logo basically includes a resonant circuit that uses at least one coil, and at least one capacitor, such that when exposed to a pre-electromagnetic field (eg, 8·2 MHz) in which the EAS tag is present,俾 to resonance. For example, the coil and the package are etched on a substrate such that a plurality of turns of the conductive traces (and thus the coils are formed) terminate in a conductive trace of a flat plate forming the capacitor, and the conductive trace pads are engraved on the substrate. On the opposite side, a first capacitor 1 is formed, and an electrical connection is formed from the second plate through the substrate to the other end of the coil on the first side of the substrate. Then, the non-conductive substrate can serve as an insulator between the two conductive line pads to form the electrical state. Therefore, a resonance circuit is formed. There are various types of labeling products on the market, and are disclosed in, for example, U.S. Patent Nos. 5,172,461, 5,1,8,822, 4,835,524, 4,658,264, and 4,567,473, each of which is incorporated herein by reference. In the case of a radio frequency identification (RFID) tag, it includes an integrated circuit 15 (IC) 'which is coupled to a previously described resonant circuit or coupled to emit a data signal in response to a predetermined electromagnetic field (e.g., 13.56 MHz). An antenna (such as 'a dipole'). In recent years, the 1C connection is electrically coupled to the respective 1C contacts by electrical coupling of the conductive flanges or strips to form a long strip wafer. The strip is then electrically connected to the resonant circuit or antenna. See U.S. Patent Nos. 2, 6,940,408 (Ferguscm et al.); 6,665,193 (Chung et al.); 6,181,287 (Beigel); and 6,100,804 (Brady et al.). Security systems are usually placed by reading. The frid and EAS on the pawl or carton are worn at the height of the pawl or carton. Therefore, the art has been dedicated to connecting the standard iron 6 200808553 to the carton by placing the tag in or out of the carton. U.S. Patent 6,667,092 discloses a corrugated structure having a first and second inner liner, the inner liner being provided with a corrugated medium sandwiched between the first and second inner liners, and coupled An FRID processor between one of the liners and the corrugated medium. The rf processor is positioned at a 5 inlet, or a label, and may also include an antenna. The formation of the corrugated structure is provided by One liner in a corrugated medium, positioning _RF The priest is between the liner and the corrugated media, and connects the liner and corrugated media, while the RF is in the middle of the scam. However, placing an rf processor on one of the liners and Between the corrugated media, tension can be increased, and the RFID wafer can be refined when processing the RFID-initiated corrugated structure. Furthermore, since the wafer must be inserted into the corrugated structure before the formation of the cartridge, the position of the wafer must be In conjunction with the size of the box, it is ensured that each box holds its desired wafer. The industry needs to effectively prepare or integrate a security tag that is equipped with an effective and reliable corrugated structure. 15 Another type of RF structure is placed in one An attempt to disclose a corrugated structure is disclosed in U.S. Patent Application Serial No. 11/457,890, the entire disclosure of which is incorporated herein by reference. A multi-step method of erecting - rfjd labels on a transport item. The method includes applying a conductive strip to the surface of the transport article and attaching an RFID wafer to the conductive strip In order to prevent short circuit of the RFID chip, the wafer comprises a non-conductive heat sink extending from the wafer body and adapted to be formed by drilling in a conductive strip between the conductive bumps or barbs on the wafer. A gap is formed and the conductive strip is divided on the other side of the heat sink. Other methods are preferably provided to integrate the security 7 200808553 label and the corrugated structure. The above patent contents are incorporated herein by reference. Content 3 Summary of the Invention 5 A method for making a communicable corrugated article includes preparing a lining

a sheet (such as a model paper), a corrugated medium (such as corrugated model paper), and a conductive strip (such as metal, aluminum, iron wire), positioned between the lining and the corrugated medium, and the lining is fixed The sheet and the corrugated medium are together, and the conductive strip is positioned therebetween to form a corrugated structure, and a security label 10 (for example, RFID, EAS, 1C, long strip, RFID label, EAS label) is connected to Conductive strip of the liner. The step of coupling the security tag to the conductive strip can include securing the security tag to the conductive strip with a staple. Additionally, the step of coupling the security tag to the conductive strip can include attaching a label to the liner, and the label encloses the security wafer (e.g., 1C, 15 EAS, or RFID connected to a dipole). The method can also include providing a second liner (e.g., molding paper) and securing the second liner to the corrugated media relative to the liner. Additionally, the method can include constructing the item into a shipping container. In another preferred embodiment of the invention, the communicable corrugated article comprises a lining (such as a model paper), a corrugated medium (for example, a corrugated model 2 crepe paper), and a conductive strip (such as a metal, Aluminum, wire, coil) and a security tag (such as RFID chips, EAS chips, integrated circuits, wafer strips, RFID tags, EAS tags). The liner has a first side and a second side. The corrugated medium is coupled to the first side of the liner and the electrically conductive strip is positioned on the first side of the liner between the liner and the corrugated medium. The security tag is connected to 8 200808553

In relation to the second side of the lining of the electrically conductive strip, and coupled to the electrically conductive strip by the lining, the electrically conductive strip has a width; and the security label comprises a body, a first electrically conductive element, a first Two conductive elements and a non-conductive heat sink therebetween. The non-conductive heat sink has a width at least equal to the width of the 5 conductive strips, and extends from the body through the lining, and cuts the non-conductive strip into a first strip portion and a second strip portion. The first conductive element is electrically coupled to the first strip portion and the second conductive portion is electrically coupled to the second strip portion. The first conductive portion may also have a conductive barb extending from the body through the lining and the first elongated portion, 10 for receiving the first elongated portion. The second strip portion may have a second conductive barb extending from the body through the lining and the second strip portion to accommodate the second strip portion. In another example, the security tag can include a 1C circuit connected to a dipole and a dipole capacitively coupled to the conductive strip. The communicable article 15 can also include a second liner coupled to the corrugated media relative to the first liner, the corrugated article can be a shipping container. BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be described in detail with reference to the drawings, in which like reference numerals represent like elements, and wherein: FIG. 1 is a corrugated structure in accordance with a preferred embodiment An antenna in a corrugated structure; FIG. 2 is a partial side cross-sectional view of the corrugated structure of FIG. 1; FIG. 3 is a partial cross-sectional top view of a corrugated structure according to a preferred embodiment; 9 200808553 Figure 4 is a perspective view of the corrugated structure of Figure 3 in the folded-to-transport container, Figure 5 is a partial top cross-sectional view of the transport container of Figure 4; Figure 6 is a transport of Figure 4. A relatively perspective view of the container, wherein an embedded antenna is shown in FIG. 5; FIG. 7 is a simplified schematic view of an RFID tag connectable to the corrugated structure in accordance with a preferred embodiment; FIG. 8 is a view of the preferred embodiment. A top view of the RFID tag of FIG. 7 on a corrugated structure; FIG. 9 is a partial cross-sectional view of the RF1D tag of FIG. 7 mounted on a corrugated structure of the preferred embodiment; The figure ίο is used together with the corrugated structure - RFID tag Wafer strip a simplified schematic view; and Fig. 11 show a label, which receive a security tag, the tag antenna in the solid piece goods corrugations 5 of the article and used for communication within the range of EAS or RFID. [Embodiment 3] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail in conjunction with the following embodiments, but it should be understood that the invention is not limited thereto. The embodiments described below generally comprise a corrugated article (e.g., cardboard, flat and corrugated of model paper) provided with an antenna (e.g., a conductive strip). The antenna is placed in a layer of corrugated articles and is fabricated with a security wafer. Conductive connectivity. The corrugated article is made in a conventional combination and preferably has an antenna inserted into the corrugated article in the group β, which will be described in detail below. 10 200808553 A corrugated article that can be communicated 1 〇, its body has been added - day

Figure 1 shows a communicable wave: line 12. Antenna 12 is preferably a long strip of foil in a long textured article 10. 1 〇 $线 12 is inserted into the corrugated article 1 截 on the first side 24 of the lining 14 (such as the inner face) during the manufacture of the corrugated article. The antenna 12 can be adhered to the lining 14 by an adhesive, but it is not necessary to use an adhesive between the antenna and the lining. Corrugated structures, such as paperboard, have traditionally been made by applying a strip of lacquer 18 (such as glue) between the linings 14, 2 and the corrugated media 16 is positioned 15 therebetween. Without being bound by a particular theory, the antenna 12 can be secured between the lining 14 and the corrugated media 16 by placing the antenna 12 on a lining adjacent the strip of adhesive 18 before the corrugated medium 16 is attached to the lining 14. . Thus, the antenna 12 is embedded in the corrugated article 1 , and is fixed between the adhesive strips 18 and the adhesive strip holds the support lining 14 and the corrugated medium 绕 around the antenna. Since the antenna 12 is hidden in the corrugated article, it is not easily removed from the article, and it is difficult to find the antenna without an additional mark, as will be described in detail below. The corrugated article 10 also helps protect the antenna 12 from external forces applied to the article during transport. Figure 2 shows the antenna 12 embedded in the corrugated article 1〇. The first! The adhesive 11 200808553 is also applied to the liner 14 and then to the corrugated media 16, as an alternative, the adhesive shown in Figure 2 is applied substantially to the individual corrugations of the corrugated media 16 (e.g., grooves) ) on the apex 22 . In any event, the adhesive 18 bonds the corrugated media 16 to the linings 14, 20 and also helps to position the antenna 12 in place in the 5 corrugated articles. Without being bound by a particular theory, the antenna 12 is flexible such that it can withstand the bending forces applied to the corrugated article 10, and preferably a transport container, during the assembly process.

Figure 3 shows the communicable corrugated article 10 adapted to be folded into a shipping container. Embedded in the corrugated article 1 is an antenna 12 extending along the length of the wave-shaped article 1〇 such that when the corrugated article is folded into a transport container, the antenna is partially looped into a loop antenna, and further increasing its effectiveness Sex. It should be understood that the length of the antenna 12 is not limited to being substantially equal to the length of the corrugated article 1〇, since the length of the antenna may depend on the requirements of the security system used for communication with the antenna 12, as will be described in more detail below. . 15 20 Figure 4 shows the transported items formed by corrugated items 1〇. As shown in the fourth lap, the 'transport capacity (4) can be formed by stacking the corrugated articles 10 using various methods in the art. Returning to Figure 3, the corrugated material (4) includes a _0 cover 32 extending from the first end 34 of the wave wrath article. To form the shipping container %, the corrugated article is femalely folded, and if desired, the flap 32 is substantially adhered to the "second end 36" of the corrugated article, such as by the adhesive and u-shaped needle, to close the side of the transporting pen 30. As shown in Figure 4, when the buckle is attached to the second end & the attachment of the label to the second end closes the edge 38 and aids in sealing, j securing the shipping container structurally. Fig. 5 is a partial cross-sectional top view showing the transport container 30 of Fig. 4. As in 12 200808553, FIG. 5, the corrugated article 10 is wound and folded into a transport container 30. The flap 32 is folded under the second end 36 and sealed to secure the side wall of the shipping container. The antenna 12 is folded together with the corrugated article, but the ends of the wire are not touched. However, the antenna 12 itself overlaps vertically and upwards, and the width or thickness of the corrugated article is divided into five to form a loop antenna. Figure 6 shows a perspective view of the transport container 3〇. The figure shows the first end 34 and the second end 36 sealed together along the edge 38, and the flap 32 is folded inside the second end. The transport container 30 also includes an antenna beacon 40 on the second side 26 (e.g., the outer side) of the first lining n that is visible to the naked eye. The antenna beacon 4 〇 10 extends on a second side of the lining 14 relative to the antenna 12 to indicate the position of the antenna. Since the antenna 12 is hidden and embedded in the corrugated article, it is difficult to find the antenna without a metal or detector. Knowing the position of the antenna 12 in the corrugated article 10 is important to determine where a security tag must be placed on the transport container 3 to form a security tag (e.g., an RFID tag, EAS tag). In order for antenna 12 to increase the detectability of the security tag, the security tag must be electrically coupled to the antenna. Once the position of the antenna 12 is known, a wafer or strip is placed on the antenna beacon 40 and electrically coupled to the antenna. For example, the wafer can be placed in substantial contact with the antenna through the first lining 14, or a length of 20 wafers having a dipole that does not have to be in substantial contact with the antenna, and placed in the sky. on-line. Preferably, the dipole is placed adjacent to the antenna 12 and capacitively coupled to the antenna by the first profile 14. In this configuration, by increasing the sensitivity to the read signal and increasing the strength of the module or transmission signal on a wafer strip used alone, the antenna 12 can increase the length of the wafer. 13 200808553 Detectable Sex. Figure 7 shows an exemplary RFID wafer 42 that is electrically coupled to antenna 12 to form an RFID tag. The RFID wafer 42 has a body 5A, a first barb 44, a second barb 46, and a non-conductive fin 48 between the first and second barbs 5. The barbs 44, 46 and the heat sink 48 extend inwardly from a bottom surface 58. During the manufacture of the rFID label, the body 5 is pierced with a long strip of conductive material (antenna 12) such that the wafer is attached to the surface of the corrugated article 1 (eg, The second side 26) is on the antenna beacon 40. In other words, when the FRID wafer 42 is positioned on the antenna beacon 40 such that the RFID wafer is placed on the antenna (such as a strip of conductive material 10) and lowered, the heat sink 48 protruding from the bottom of the RFID wafer 42 cuts the conductive material of the antenna. To form two separate portions or strips of an RFID antenna, Figures 8 and 9 show the RFID wafer 42 coupled to the antenna 12. As shown in Fig. 8, the heat sink 48 has a width at least equal to the width of the antenna 12 to ensure cutting. The width of the barbs 46 is narrower than the width of the antenna 12 such that when the RFID wafer 42 is attached to the antenna, the barbs puncture but do not cut the antenna. The RFID wafer 42 is connected to the corrugated article 1 by inserting the wafer onto the first lining on the antenna beacon 4, such that the heat sink 48 cuts the antenna 12 into a first strip 52 and a second strip 54, and The first barbs 44 are electrically connected to the first strip 52, and the second barbs 46 are electrically connected to the second strip 54, without being bound by a particular theory, the first and second barbs Preferably, each of 46 has a curved portion 56 adjacent the bottom surface 58 of the body 50 of the rFID wafer 42 as shown in FIG. As such, the FRJD wafer 42 can be more securely connected to the transport container 36 and the antenna 12. 14 200808553 5 10 15 20 Preferably, the RFID wafer 42 is packaged using a known county material to enhance the force and the structural cut. This can be any custom package He Yucheng. Of course, the barbs 44, 46 and the non-conductive fins 48 protrude from the bottom 58 of the wafer, regardless of whether the wafer is packaged or not. (4) The electric heat sink may generally comprise a conventional non-conductive material, the batter being hard enough to divide the antenna 12' and operable to isolate the two sub-strips 52, 54, for example, non-conductive fins 48 can be made of quartz. The rfid wafer 42 can be electrically connected to the antenna using other means than the barbs. For example, use - or a structure with a conductive adhesive that can pass through the model paper and be attached to the antenna. The female full-standard vacancy formed by the implementation of the _ method is on the wave (four) product 1G, such as the transport capacity (four). The security tag includes an antenna 12 housed in a corrugated article, the corrugated article 1 is electrically or capacitively coupled to the security chip 42, and the security chip 42 has a body 5, a first and a second conductive point (eg, The first-barb 44, the second inverted fishing 46 can be shaped into a shape, such as a conductive adhesive of a shape such as a taper, a plug or a flange, and a non-conductive heat sink between the first and second conductive points. like. The antenna 12 is preferably a strip of electrically conductive material that can take many forms. For example, the antenna can be a loop antenna or a line®, such as an 13.56 MHz antenna. Alternatively, the security wafer may comprise a region of electrically conductive material as its first and second conductive points, the - electrically conductive (four) region being connected to a strip of separate electrically conductive material forming a dipole antenna. The first switch shows that the exemplary safety wafer "= RFDI EAS" is electrically conductively coupled to the conductive material 62 of the forming dipole antenna 66. The wafer 6〇 and the dipole antenna % together form a wafer strip. 67, as shown in the middle, the wafer strip 67 is connected to a label 15 200808553. The label 68 includes an adhesive that allows the label to be attached to the transport container 30 at the antenna beacon 4, where The wafer strip 67 is capacitively coupled to the antenna 12 without substantial contact with the antenna. When capacitively coupled to the antenna 12, the communication range of the wafer can be significantly increased. 5 Not limited by the theory of the inch. The security chip 60 may include a phantom 7 tag having an integrated circuit (ic) coupled to a resonant circuit and/or an antenna (such as a dipole), and the antenna is responsive to a predetermined electromagnetic field (eg, 13 56). MHz ' UHF range · · 850 MHz - 950 1MHz or microwave range: about 2.3 GHz - 2.6 GHz) emits a data signal. In recent years, 1 (: the connection 10 has been turned by a helium gas conduction terminal (such as Edge) to each 1C joint (for example by curling or sticking) The wafers are formed by forming a strip of wafers. The wafer strips are then electrically connected to a resonant circuit or antenna. Wafer strips are well known in the art, for example, in U.S. Patent 6,940,408 (Fergus〇n et al. 6,665, 193 (Chimg et al.); 6, 181, 287 (Beigel); and 15 61 〇〇 8 〇 4 (Brady et al.), the contents of which are incorporated herein by reference. Figure 11 shows a label 70 that houses a security embodiment 76 of an exemplary embodiment that is used in conjunction with an antenna secured in a corrugated article to communicate within the EIA or RFID range. The security label % includes Projecting on the conductive terminal 20 end 72 to collectively form a security wafer go of a wafer strip 74. The wafer strip 74 is applied over the inwardly facing proximal end of the conductive strips 62, 64 across the dipole 66, such as As shown in Fig. 11, the conductive terminals 72 are electrically coupled (e.g., by crimping or adhesive bonding) to individual conductive strips 62, 64 of the dipole 66 to form a security tag 76. 16 200808553 See also 11th The security tag 76 also includes a conductive rod 78, preferably in gold. (e.g., aluminum) is made 'and positioned adjacent to the dipole 66. In particular, the conductive rod 78 is a thin conductive strip that is placed in close proximity but does not contact the distal ends 80, 82 of the dipole 66. 78 has a second end 86 that is outside of the distal end 80 of the strip 62 and that extends beyond the distal end 82 of the strip 64 and extends generally therebetween in a rectangular configuration. In a particular theory, the conductive rod 78 has the advantage that the signal from a security tag 76 can be enhanced to increase the distance between reading and writing. As shown in Fig. 11, the security tag 76 and the conductive rod 78 are attached or received in a tag 70. The label 7 is very similar to the label 68 described above. In particular, the standard iron 70 includes an adhesive backing that allows the label to be secured to the transport container 30 at the antenna beacon 40 where the security tag 76 and the conductive rod 78 are capacitively coupled to the antenna 12, thus providing security The communication range of the tag 76 is significantly increased. For example, the inventors have found that the reading range of the security tag 76 is increased by about one inch only by the connection tag 7〇 and the security tag % 15 and the conductive rod 78 in one inch of the antenna 12 fixed in the corrugated article 10. Up to 15 miles. It is to be understood that the method and apparatus for making an in-mold circuit are exemplary embodiments of the invention and are merely illustrative of the invention. In other words, the concepts of the present invention are applicable to various preferred embodiments, including those disclosed herein. The present invention has been described in detail with reference to the specific embodiments thereof, and the invention may be modified and changed without departing from the scope and spirit of the invention. For example, the security wafer can be placed in an electrically conductive manner in communication with the antenna embedded in the corrugated article. Using this automated method, an antenna beacon is not necessary because, for example, a metal detector 17 200808553 v 5 detector can detect the position of the antenna, and a wafer applicator can be placed according to the discovery of the metal detector Wafer. Alternatively, the position of the antennas can be aligned to know their position for proper wafer placement. The above disclosure fully illustrates the present invention by the present or future knowledge, but the present invention can be modified to be applied to various industries. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a corrugated structure according to a preferred embodiment, showing an antenna positioned in the corrugated structure; FIG. 2 is a partial side of the corrugated structure of FIG. Figure 3 is a partial cross-sectional top view of a corrugated structure in accordance with a preferred embodiment; Figure 4 is a perspective view of the corrugated structure of Figure 3 folded into a transport container; 4 is a top perspective view of the transport container of FIG. 4; FIG. 6 is an opposite perspective view of the transport container of FIG. 4, showing an embedded antenna; FIG. 7 is a connectable embodiment according to a preferred embodiment. A simplified schematic view of an RFID tag to a corrugated structure; Fig. 8 is a top plan view of the RFID tag of Fig. 7 mounted on a corrugated structure of the preferred embodiment; Fig. 9 is a preferred arrangement A partial cross-sectional view of the RFID tag of FIG. 7 on a corrugated structure of an embodiment; FIG. 10 is a simplified schematic view of an RFID tag wafer strip used in combination with the corrugated structure; and 18 200808553 Figure 11 shows a label that holds a security label. The tag is used in conjunction with an antenna that is fixed in the corrugated article to communicate within the EAS or RFID range.

[Main component symbol description] 10 Corrugated article 48 Heat sink 12 Antenna 50 Body 14 Outline 52 Strip 16 Corrugated media 54 Strip 18 Adhesive 56 Curved portion 20 Outline 58 Bottom 22 Vertex 60 Wafer 24 Face 62 Conductive material 26 Face 64 Conductive material 30 Transport articles; Transport container 66 Dipole antenna 32 Cover 67 Wafer strip 34 End 68 Label 36 End 70 Label 38 Edge 72 Conductive terminal 40 Antenna beacon 74 Wafer strip 42 Wafer 76 Security label 44 Barb 78 Conductor rod 46 barb 80 distal end 19 200808553 82 distal end 86 end 84 end

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Claims (1)

200808553 X. Patent Application Range: 1. A communicable corrugated article, comprising: a lining having a first side and a second side; a corrugated medium coupled to the first of the lining a conductive strip 'located on the first side of the lining between the slab and the corrugated medium; and a security wafer attached to the lining relative to the conductive strip The second side is coupled to the conductive strip by the lining. 2. The article of claim 1, wherein the conductive strip has a width of 10 degrees, and the security wafer comprises a body, a first conductive element, a second conductive element, and a non-conductive layer therebetween a heat sink, the non-conductive heat sink having a width at least equal to a width of the conductive strip, extending from the body through the liner, and separating the non-conductive strip into a first strip portion and a second portion In the strip portion, the first conductive element is electrically coupled to the first strip portion and the second conductive element is electrically coupled to the second strip portion. 3. The article of claim 2, wherein the first conductive element has a first conductive barb, the conductive barb extending from the body through the lining and the first elongated portion, The first strip portion is received, and the second strip portion has a second conductive barb extending from the body through the lining and the second strip portion. The two long strips are accommodated. 4. For the article of claim 1, the safety chip includes an integrated circuit connected to a dipole. The dipole-type capacitive handle is coupled to the conductive length 21 200808553. 5. The article of claim 4, further comprising a conductive rod adjacent to the dipole, the dipole being electrically coupled to the integrated circuit and the conductive strip. The article of claim 1, wherein the article further comprises a second lining that is consuming the corrugated medium relative to the first side of the lining. 7. The article of claim 1, further comprising an antenna beacon on the second side of the lining as a target of the conductive strip, and the security wafer is connected to The second side of the lining on the antenna beacon. 8. The article of claim 7, further comprising: accommodating the security chip, the slogan having a lining for placing the label adjacent to the conductive strip The adhesive on the second side is backed. 5. The article of claim 8, wherein the security chip comprises an integrated circuit electrically connected to a dipole, and further comprising a conductive rod adjacent to the dipole and the dipole is electrically coupled To the integrated circuit and the conductive strip. A method for manufacturing a communicable corrugated article, the method comprising: preparing a lining and a corrugated medium, and preparing a conductive strip; positioning the conductive strip in the lining and the corrugated medium And lining the lining and the corrugated medium together with the conductive strip positioned therebetween to form a corrugated structure; and stacking the security wafer to the conductive strip relative to the lining . The method of claim 10, wherein the step of affixing the security wafer to the electrical strip comprises the step of securing the security wafer to the conductive strip using a spike. The method of claim 10, wherein the step of coupling the security chip to the j-conductive strip comprises connecting a label to the lining, the label being each having an _IC circuit connected to a dipole The security chip. 13. The method of claim 1G, further comprising providing a second outline for substituting the second lining to the corrugated medium relative to the stencil. 14. The method of claim 10, further comprising constructing the article into a shipping container. 15 • The method of claim H), further comprising the step of providing an antenna beacon to be a private strip, wherein the step of engaging the security wafer to the 4 conductive strip relative to the lining > Including placing the security chip onto the antenna beacon. 16, a ritual communication corrugated article, comprising: a cymbal device 'for arranging - lining ... corrugated media and a conductive strip; 〆 device ' for locating the electric strip in the lining of the corrugated medium 20 'device' for fixing the lining > 1 and the corrugated medium and the electrically conductive strip positioned therebetween to form a corrugated structure; and the 〆 device The wafer is to the conductive strip relative to the viewing sheet. The article of claim 16 wherein the means for coupling comprises a means for securing the security wafer to the electrically conductive strip using a spike. 18. The article of claim 16 wherein the means for coupling 5 includes a means for attaching a label to the liner, the label housing the security wafer, and the security wafer has a connection to a A dipole of a 1C circuit. 19. The article of claim 16 further comprising: a device for arranging a second lining, and a member for securing the second lining to the corrugated medium relative to the lining Device. 20. The article of claim 16 further comprising a device for providing an antenna beacon as an indication of the conductive strip, wherein the means for coupling includes placing the security chip to A device on the antenna beacon. twenty four