巴西专利BR112012032009B1 METHOD TO PRODUCE AN RFID DEVICE, APPARATUS FOR THE PRODUCTION OF AN RFID DEVICE, INTERMEDIATE SET O

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专利摘要:
method, system and apparatus for making short runs of radio frequency identification tags and labels. the present invention relates to a method and apparatus for producing ready-to-use rifd devices conveniently and economically. the apparatus of the present invention can be colocalized with a consumer products manufacturer.
公开号:BR112012032009B1
申请号:R112012032009-2
申请日:2011-06-14
公开日:2021-04-13
发明作者:Ian J. Forster；Christian K. Oelsner；Robert REVELS；Benjamim Kingston；Peter COCKERELL
申请人:Avery Dennison Corporation；
IPC主号:

专利说明:

Cross Reference to Related Orders
[0001] This application claims the benefit of North American Provisional Application No. 61 / 354,380 filed on June 14, 2010, 61 / 354,388 filed on June 14, 2010, and 61 / 354,393 filed on June 14, 2010 , all of which are incorporated herein by reference in their entirety. Field of the Invention
[0002] The present invention is found in the field of manufacturing radio frequency identification ("RFID") devices. More particularly, the present invention relates to a method, system and apparatus for producing RFID tags, labels, tickets, brochures and other printed materials in the production of short runs. Background of the Invention
[0003] RFID devices can be produced in a number of different methods, and generally include some type of chip attachment to an antenna, which is then used to make an RFID device. The chip can be attached either by using a strap or can be applied directly to the antenna. The antenna is a conductive material that can be produced by corrosion, die cutting or printing the conductive ink on a substrate.
[0004] Conductive laminates, such as sheet laminates, are used in a number of applications, ranging from microwave packaging containers to smart cards. Such laminates were regularly created by die cutting, stamping, and other mechanical processes, which generally lend themselves well to high-speed situations in which a relatively simple or standard shape can be created.
[0005] The increased demand for circuits has created the need for a manufacturing method that can quickly and effectively produce such circuits. Since such a method is disclosed in U.S. Patent Application No. 2007/0171129 A1. This method includes the steps of providing a reinforced foil laminate, having a foil layer attached to a reinforcement layer, and a carrier layer glued to the foil laminate. The method includes the step of using a rotary die cutter to cut an antenna pattern through the foil laminate for the carrier layer. The method ends by removing an unwanted matrix portion of the reinforced foil laminate to provide a foil laminate antenna arranged on the carrier layer.
[0006] A rotary die cutter has been used to produce several structures because it is both fast and economical. However, rotary die cutters have low resolution and are currently limited to having a minimum distance between cutting lines of about 1 mm. An additional problem with the use of a rotary die cutter to cut a construction that requires great precision and tolerance ie the cylindrical die used by the rotary die cutter cannot be changed quickly and easily. Thus, the project is not easily changeable, and thus it is often not economically viable for the production of small batches of a particular project because of the need to constantly change the heads of the matrix. In addition, any change in the design would require a long lead time, just as a new cylindrical die must be manufactured each time the design is changed. This can create a large stock of matrix heads, such storage can take up valuable space in the factory.
[0007] What is needed, therefore, is a method and apparatus that can produce small batches of RFID devices in a finished format that are ready to use and relatively economical so that the manufacture of the RFID device can be placed with the manufacture of consumer products, such as clothing. Brief Summary of the Invention
[0008] The modalities of the present invention, described below are not intended to be exhaustive or to limit the invention to the precise forms disclosed in the detailed description which follows. Instead, the modalities are chosen and described so that others skilled in the art can appreciate and understand the principles and practices of the present invention.
[0009] The present invention provides a method, system, and apparatus for the production of RFID devices in small batches or a short run format and in a colocalized environment with a consumer goods production facility.
[00010] In an exemplary embodiment of the present invention, a method for producing a ready-to-use RFID device for consumer goods is described and includes the steps of providing a substrate, with the substrate having first and second faces. Then, the application of an adhesive pattern to the first face of the substrate and lamination of a conductive sheet to the adhesive pattern. Then, the conductive sheet is cut to form a plurality of antenna patterns. A chip is applied to each of the antenna patterns. Then, the impression is applied on the second side of the substrate to create different printed areas. Each of the chips is encoded and placed in each of the antenna standards. Each of the different printed areas is read and the information is combined with each of the different printed areas for information encoded on each of the chips. Finally, each of the different printed areas is separated from the substrate.
[00011] In yet a further exemplary embodiment of the present invention, an apparatus for producing a ready-to-use RFID device for consumer goods is described and includes a supply of material and a source of conductive material. An adhesive coating station for applying an adhesive pattern to the material supply. A laminating station for laminating the supply of conductive material to the adhesive pattern. A first cutting device for cutting an antenna pattern in the conductive material. A first printing device for printing human and mechanical readable marks on the material supply. A chip placement device for placing a chip in the antenna pattern to form an RFID device and an encoding station for encoding information for the chip. The device also includes a computer to compare the information with the coded information with the human and / or machine readable marks.
[00012] In still a further embodiment of the present invention, an intermediate set of a plurality of ready-to-use RFID devices for consumer goods is described and includes a substrate that has a plurality of different antenna patterns, wherein each pattern of antenna including a conductive sheet formed by laser cutting or cold sheet processing. An adhesive pattern is co-extensive with the antenna pattern and a substrate on which the adhesive pattern and antenna pattern are laid out. A plurality of chips, with each chip being encoded with information and each chip being connected to one of a plurality of antenna patterns. A plurality of printed areas provided on the substrate, each of the printed areas in association with one of a plurality of antenna patterns that form an RFID device. The printed marks correspond to the information encoded in each of the plurality of chips. Each of the RFID devices is removable from the substrate to form a plurality of ready-to-use RFID devices.
[00013] In yet a further exemplary embodiment of the present invention, a system for producing ready-to-use RFID devices is described and includes a manufacturing site for the production of consumer products. A computer to determine the types of consumer products being produced and to provide instructions for creating and coding RFID devices for use in association with consumer products.
[00014] Continuing with a description of the modality presently described, an RFID production unit is to provide for use with the system, the RFID production unit, including the supply of material and a source of conductive material. An adhesive coating station to provide an adhesive pattern. A laminating station for laminating the conductive material with the adhesive pattern. A cutting station for cutting an antenna pattern to substantially match the adhesive pattern. A chip attachment station for attaching the chip to the antenna pattern. A printing station for printing human and machine-readable marks on the material supply. A reader to read the information encoded on the chip and to combine the information with the human and machine readable marks. The RFID production unit and manufacturing site are placed with each other.
[00015] Other features and advantages of the present invention will be apparent to those skilled in the art from the detailed description which follows. It should be understood, however, that the detailed description of the various specific embodiments and examples, while indicating preferred and other embodiments of the present invention, is given by way of illustration and not by way of limitation. Many changes and modifications within the scope of the present invention can be made without departing from its spirit, and the invention includes all of these modifications. Brief Description of Drawings
[00016] These, as well as other objects and advantages of the present invention, will be more fully understood and appreciated by reference to the following more detailed description of the presently preferred embodiments of the invention in conjunction with the accompanying drawings, of which: Figure 1 represents a front view of an exemplary intermediate assembly produced according to the method and system of the present invention; Figure 2 provides a schematic diagram of an exemplary apparatus used in connection with the practice of the present invention; Figure 3 shows a schematic diagram of an exemplary system used in connection with the practice of the present invention; and Figure 4 illustrates a block diagram establishing an exemplary method of practicing the present invention. Detailed Description of the Invention
[00017] The apparatus and methods disclosed in this document are described in detail by way of examples and with reference to the figures. Unless otherwise specified, similar numbers in the figures indicate references to corresponding, equal, or similar elements throughout the figures. It will be appreciated that modifications to the disclosed and described examples, arrangements, configurations, components, elements, devices, methods, materials, etc., can be made and may be desired for a specific application. In this disclosure, any identification of specific forms, materials, techniques, dispositions, etc., are either related to a specific example presented or are only a general description of such a form, material, technique, disposition, etc. Identifications of specific details or examples are not intended to be and should not be construed as mandatory or limiting unless specifically designated as such. Selected examples of devices and methods are described below and described in detail with reference to the figures.
[00018] The present invention provides for the production of small batches of RFID devices, which can be produced in short runs, production runs ranging from an RFID device to perhaps a thousand separate units. The method, apparatus and system of the present invention can be used to create a plurality of individual RFID devices that can change the device's configuration from one device to another, or can produce a specific number for a particular unit, then change the settings. configurations to complete a certain order requested by an end user. For example, a customer can order 50 units of a first type of RFID device and then 100 units of a second type of RFID device.
[00019] Reference is now directed to Fig. 1 of the present invention, which shows an intermediate 10. As used here, the term intermediate refers to a product that undergoes one or more processing steps in order to provide a finished product. For example, with reference to the current FIGURE 1, a plurality of printed or distinct areas 12, 20 and 30, which include RFID devices are provided on a sheet 11, which can subsequently be cut or otherwise removed from the sheet . Certain RFID devices, such as 20, which is a label, may have an adhesive coating (not shown) applied before they are used. RFID device 12 can be subjected to a folding step along fold line 18 and then a fixing step to connect device 12 to a consumer good.
[00020] Discrete or distinct printed areas, distinct printed areas 12, 20 and 30 are selected from a group, including tags, labels, hang tags, badges, flyers, shelf, leaflets, brochures, marketing materials, tickets , cards and their combinations.
[00021] Sheet 11 has a front face that is shown in FIGURE 1 and a back face that is not shown. Sheet 11 is provided with marks and, in this example, includes machine-readable information 40 and an RFID device 42. Marks 40 and RFID device 42 can be used to help control a particular job or production order or to provide instructions for the apparatus to produce the particular order to be contemplated. The code and an RFID device can be read by a machine, such as a barcode reader or RFID reader.
[00022] Intermediate 10, still with reference to Figure 1, as previously indicated includes sheet 11 and several different printed areas 12, 20 and 30 to be used for a particular application. First area, or handheld label intermediary 12, in this example, shows human-readable marks 14 and machine-readable marks 15 (barcode) on one side and an RFID antenna 16 and chip 17 on the second side. Human-readable or machine-readable brands, as shown, can refer to retailer information, brand information, price or any other information that the particular customer requires. The two parts are separated by a fold line 18. Label 12 is held on sheet 11 by a series of loops 19, which are created when sheet 11 is perforated around the perimeter of the label. The perforations 19 are shown extending around the perimeter and can be easily broken in order to separate the label 12 from the sheet 11 and then subjected to further treatment, for example, folding and attaching to a consumer good.
[00023] The next distinct printed area 20, shown in figure 1 is shown as a label intermediary. The label intermediary 20, again has human-readable marks 21 and machine-readable marks 22 which again can refer to any information that has been requested by the customer, for whom the order is being created. The tag intermediate 20 also has an RFID device 23. It should be noted that the RFID device 23 of the tag intermediate 20 is different from the RFID device 16/17 of the portable tag intermediate 12 which illustrates the flexibility of the present invention. That is, one intermediate set may have a first RFID device design and another intermediate set may have a different RFID device design.
[00024] The label intermediate 20 is also held in place on the sheet 11 by a series of loops 24 which again allow the label intermediate 20 to be readily and easily separated from the sheet 11 when necessary for use or for further treatment.
[00025] The final intermediate set 30 shown on sheet 11 of FIGURE 1, provides a high frequency RFID (HF) tag. This is even more distinct from the RFID devices shown in connection with different printed areas 12 and 20, which for example can be ultra high frequency (UHF) tags. The HF device includes a plurality of coil windings 31 and a chip / bridge 32 that connect each end of the coil to complete the circuit.
[00026] Reference is now made to Fig. 2 of the invention described herein. The scheme starts with a material supply 50. The material supply 50 can be selected from paper, fabric, braided fabric, non-braided fabric or plastic. Although the supply of material 50 has been described as a continuous roll of material, it should be understood that the source may consist of one or more precut sheets, and the invention can be practiced with a sheet feeding configuration.
[00027] The material supply or network 50 is fed to an adhesive applicator 52. The adhesive, which can be a pressure sensitive adhesive or other suitable material, can be applied to a pattern that will be in the shape or shape of the antenna used for the RFID device that will be formed as seen in the connection with FIGURE 1 of the intermediate sheet or it can be filled or completely coated in the source 50, which will then go through a curing process to create sticky areas and non-sticky, with sticky areas corresponding to the antenna patterns being created. Curing can be done by UV energy or another suitable process.
[00028] The present invention contemplates that the adhesive may include optical brighteners. In a preferred embodiment, optical brighteners are a fluorescent powder that is about 1% by weight of the adhesive and more preferably about 0.5% by weight of the adhesive. Other triggers or signals can be used to start the laser and register the patterns to be formed in the network, such as cuts or cracks in the fabric, inks, taggant printing inks and the like.
[00029] Optical brighteners can be provided in the area where cutting of at least one pattern from a sheet or conductive laminate is taking place in the laminate layer of the foil. Optical brighteners can be printed on top of the adhesive layer instead of being mixed inside the adhesive layer. In addition, it is contemplated by the present invention that optical brighteners can be printed on the top of the substrate as opposed to the top or mixed in the adhesive layer. In this embodiment, it is preferred that the adhesive layer is clear or transparent, so that the optical brighteners can be seen through the adhesive layer.
[00030] In addition, in an embodiment of the present invention, optical brighteners can be printed in the shape of the sheet or conductive laminates, or that will be constructed from sheet or conductive layer or material.
[00031] Next, the supply of conductive material 54, such as an aluminum alloy, sheet or conductive paint on a transfer sheet is transferred to be in juxtaposition with the first supply 50. The conductive material 54 is then partly laminated for supply 50 by laminating station 56. Partial laminating occurs only in the areas of the adhesive pattern, or sticky portions of the adhesive pattern. As the sheet is not fully laminated to the web, the sheet creates a 100% recyclable material when fully removed as well as the sheet is not contaminated with adhesive or has portions of the substrate attached to the sheet.
[00032] Continuing with the discussion of Figure 2, the combined network 57 is then fed to a cut or antenna forming station 58. The cut or formation can be performed by a die cut, laser cut or cold sheet processing. The cutting or forming station can also have several elements, such as a first die cut or cold sheet process and then laser cutting. As used here an exemplary cold sheet process refers to printing a pattern of adhesive or other curable to a substrate, then applying a layer of sheet on the pattern, laminating the sheet with the pattern of so that the sheet sticks to the pattern and then pulls the sheet off, leaving the pattern on the substrate covered with the layer of aluminum foil.
[00033] Since the antenna pattern is formed by cutting formation station 58, the remaining matrix of material is rewound at station 60. The now partially laminated network 57, partially laminated since it has the conductive material patterns adhered to supply 50, but the remaining amount of material has been removed. The network 57 then moves the chip or strap station 62, where a chip or strip is placed over the antenna to complete the assembly of the RFID device. Then, the RFID device (chip or belt) is encoded at station 64 with the information related to the product to which the discrete printed area (see FIGURE 1) must be associated (connected, attached, etc.).
[00034] Continuing with the discussion of Figure 2, network 57 then travels to a printing station 66, where human and machine-readable marks are provided on the network (see FIGURE 1). The marks are printed in each of the discrete areas and can also be printed on the edges of the net. Once printing is completed, the encoded RFID devices and tags are read and / or scanned, respectively, at station 68. In the case where the read / verify, it reveals that the information encoded in the RFID device and printed marks does not coincide, the discreet printed area is discarded in the discard area 70. This can be accomplished by perforating the discreet printed area, such as by a rotary punch, plunger or other suitable device. The remaining network 57, having one or more discrete zones in which the coding and printed marks combine, is then passed to a separation station 72. Each of the discrete areas is then collected at station 74, and can then be sent or delivered to the end user who requested the particular order.
[00035] Now returning to FIGURE 3 an exemplary system for use in obtaining products in connection with the present invention is presented and is generically referenced by the number 100. System 100 includes a first location 110, such as a customer location, which it can be a parent company, distribution or place of purchase or another place where ordering and processing of products is carried out. The first site 110 is connected via a global communications network 120 to a second site 130, which may include, for example, assets for the production of consumer products 150 and an RFID production unit 140. Ideally, both the production unit of RFID 140 as well as consumer product manufacturing assets 150 are colocalized, but it should be understood that the two units 140 and 150 may be in different physical locations, but linked by a communications system to allow the units of easily and promptly communicate with each other.
[00036] The system 100 of the present invention begins with an order for consumer goods or other products that emanate from the customer's first location or location 110. The order will be sent to the global communications network 120 to the second location 130 that stores, in this For example, both the RFID 140 production unit and the 150 assets that are used in the manufacture of the product that is the object of the order generated by the first site 110.
[00037] The order will be received by the second location 130, which will start a sequence of production of intermediaries, as foreseen in FIGURE 1, as well as the production of consumer goods products or other products. As consumer products and products are created by manufacturing assets 150 and are collected, the discrete printed areas in figure 1 are separated and joined to consumer goods or other products. Attachment includes the removal of each of the discrete printed areas that are performed by ties as discussed above on the intermediary sheet, and then connected to consumer goods, such as through adhesion, fixation, or otherwise linking. Once the labels are associated with the consumer products, the products can then be sent to the first location 110 or to another location that has been designated in the order where the sequence started.
[00038] The reference is now directed to Figure 4, in which a block diagram showing an exemplary method of producing a finished or intermediate RFID device (as shown in FIGURE 1) is provided. The process begins, for example, at step 210 in which a material supply is provided. It is to be understood that the material supply can be provided in any format of a continuous process, such as a roll of material, or in a cut sheet format, in which a stack of sheets is provided for the apparatus to provide the food. The material supply can have a plurality of antennas for use in forming RFID devices. The antennas that are provided can have a generic pattern that will have to be later cut or modified in order to produce the final antenna pattern that is intended. Alternatively, a supply of blank material can be provided and conductive material, then subsequently adhered and attached to the substrate to supply the antenna.
[00039] Whenever the material supply is provided with a first antenna structure of a particular shape, the antenna structure can be modified, such as by cutting with a laser cutter or mechanical cutter. In this way, a large preformed unit can be created, which can be adapted to suit a number of applications, thereby meeting the needs of a large number of customer applications. For example, the set created using the apparatus of Figure 2 can be fed in the process of Figure 4, and further modified as described above, by laser cutting.
[00040] It should be understood that figure 4 provides the processing of a particular source of material, and that the apparatus used in connection with the formation of intermediates, including the steps of applying an adhesive, creating a pattern, laminating of a layer of sheet with the adhesive pattern, cutting of the pattern and other associated steps are intended to be included in the present method, and that for the sake of brevity, the steps are not necessarily repeated here.
[00041] Then, in step 220 a first impression of fixed marks can occur. For example, this impression may include things like the name of the retailer, or other information that does not change from brand to brand. In step 225, the variable information is provided to the material. The variable information can for example be of a size, color, price or any other information that can change from tag to tag. Then, the information contained in the variable information 230 is verified by scanning, or another reading of the information. The information can be both human and machine readable marks.
[00042] The printing that is provided can be achieved by any number of suitable printing methods, such as without impact, for example, inkjet, ion deposition, laser printing, impact printing, thermal transfer or such other process , as can be requested by the consumer or can be used for the production of intermediaries and labels / tags, as required here.
[00043] In step 240, the RFID chips, which can also be provided with a strap configuration, are fed into the material supply. Then, each of the chips or chips with strips are encoded in step 245 with the information that corresponds to the information printed variably and, when necessary, also the fixed information provided at the beginning of the process. That is, as each discrete portion of the feed, as shown in Figure 1, is provided with unique tags, the chips are also encoded with unique tags relative to the products with which the RFID chips are to be associated.
[00044] Once the chips were coded in step 240, the chips or chips in a strip format are provided for the material supply and attached in step 250. The chips / straps are registered with the fixing point the antenna chip.
[00045] Then, for example, when portable labels are being created, the material supply is folded or sealed in step 255. That is, with regard to folding, one panel is folded over the other, in order to create a locking set. Alternatively, if a label arrangement is provided, an adhesive can be applied to the mesh and sealed to the mesh. The adhesive can be applied as part of a transfer tape, adhesive and coating construction. In a transfer tape configuration, the adhesive has a greater affinity for the material supply, as opposed to the coating in such a way that the adhesive will remain with the material supply and not the liner when the adhesive is used.
[00046] The final format of the discrete areas to be created is done in step 260, and an area around the RFID device and the printout is created to facilitate later separation, as shown in FIGURE 1. In step 265 the coding of the RFID and printing chips are checked to ensure that the RFID and printing chips match each other. If there is no correspondence between the information encoded on the chips and the information printed on the labels, the labels or discrete printed areas can be removed from the material source or, alternatively, they can be marked to demonstrate that the label is defective, so that it will not be used at a later time.
[00047] Then, in step 270 the discrete areas printed or now tags or labels are collected so that they can be sent or delivered in step 275 to the manufacturing site, where the consumer goods and the production of RFID devices They are located.
[00048] In this way, it can be seen in accordance with the present invention, that a highly advantageous method, system, and apparatus have been provided. Although the invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it will be apparent to those skilled in the art that the invention should not be limited to the described modality, and that many equivalent modifications and arrangements can be made the same within the scope of the present invention, the scope of which must be given the broadest interpretation of the appended claims, so as to encompass all structures and equivalent products.
[00049] The inventors hereby express their intention to rely on the Doctrine of Equivalents to determine and evaluate the reasonably fair scope of their invention that relates to any apparatus, system, method or article not materially departing from, but outside the literal scope of, invention as defined in the following claims.

权利要求:
Claims (22)
[0001]
1. Method for producing a ready-to-use RFID device for consumer goods, which comprises; providing a substrate, the substrate having first and second faces; apply an adhesive pattern to the first face of the substrate; laminating a conductive sheet to the adhesive pattern; characterized by the fact that it cuts the conductive sheet with a first cutter in order to form a plurality of antenna patterns and feeds the substrate with the conductive sheet and adhesive in the second cutter; apply a chip to each of the antenna patterns; print on the second side of the substrate to create different printed areas; encode each of the chips and place each of the chips in each of the antenna standards; read each of the different printed areas; combine information from each of the different printed areas for information encoded on each of the chips; and separate each of the distinct printed areas from the substrate.
[0002]
2. Method, according to claim 1, characterized by the fact that an additional step of perforation of different printed areas in which the information of each of the printed areas does not correspond to the coded information after the combining step.
[0003]
3. Method, according to claim 1, characterized by the fact that the printing step includes machine-readable (15) and human (14) marks.
[0004]
4. Method, according to claim 1, characterized by the fact that the cutting step is carried out by one of the laser cutting or cold sheet processing.
[0005]
5. Method according to claim 1, characterized by the fact that an additional step of creating a plurality of second antenna patterns after the step of cutting the conductive layer.
[0006]
6. Method according to claim 1, characterized by the fact that the printing step is carried out by an inkjet, laser printing, non-impact printing or a combination of these.
[0007]
7. Method, according to claim 1, characterized by the fact that it includes an additional step of printing a conductive pattern on the substrate, after the cutting step.
[0008]
8. Method according to claim 1, characterized by the fact that it includes an additional step of collecting each of the different printed areas for an order after the separation step.
[0009]
9. Method according to claim 1, characterized by the fact that the distinct printed areas are selected from a group, including labels, tags, hang tags, badges, shelf announcers, leaflets, brochures, marketing materials , tickets, cards and their combinations.
[0010]
10. Apparatus for the production of a ready-to-use RFID device for consumer goods, comprising: a supply of material (50); a supply of conductive material (50); an adhesive coating station for applying an adhesive pattern for the supply of material (50); a laminating station for laminating the supply of conductive material (54) to the adhesive pattern; characterized by the fact that a first cutter for cutting an antenna pattern in the conductive material and a second cutter to form a modified antenna pattern; a first printing device for printing human-readable marks (14) and machine (15) in the supply of material (50); a chip placement device for placing a chip in the antenna pattern to form an RFID device; a coding station for encoding information about the chip; and a computer to compare the information, the encoded information with the human-readable (14) and / or machine-readable (15) marks.
[0011]
11. Apparatus according to claim 10, characterized by the fact that it includes a disposal station to dispose of a defective RFID device.
[0012]
Apparatus according to claim 10, characterized by the fact that the chip placement device is provided with one of a strap or a direct chip attachment device.
[0013]
13. Apparatus according to claim 10, characterized by the fact that the first cutting station is one of a laser cutter or cold sheet process.
[0014]
Apparatus according to claim 10, characterized by the fact that including a second printing station to provide one of a conductive ink for the conductive material or additional human or machine-readable marks.
[0015]
Apparatus according to claim 10, characterized by the fact that the chip placement device is provided with a supply of strips or chips in a network.
[0016]
16. Apparatus according to claim 10, characterized in that the substrate supply is one of a plurality of sheets or a continuous supply of material.
[0017]
17. Apparatus according to claim 10, characterized by the fact that the material supply (50) is one of paper, woven fabric, nonwoven fabric or plastic.
[0018]
18. Intermediate set of RFID devices ready for use for consumer goods, comprising: a substrate having distinct antenna patterns, each antenna pattern including a conductive foil, characterized by the fact that each antenna pattern formed by at least one first and second cut, an adhesive pattern coextensive with the antenna pattern and a substrate on which the adhesive pattern and the antenna pattern are laid out; chips, each chip is encoded with information and each chip is connected to one of the antenna patterns; printed areas provided on the substrate, each of the printed areas in association with one of the antenna patterns that form an RFID device; the printed marks correspond to the information encoded on each of the plurality of chips, and each of the RFID devices is removable from the substrate to form ready-to-use RFID devices.
[0019]
19. Intermediate (10) as defined in claim 18, characterized by the fact that ready-to-use RFID devices are selected from a group, including tags, labels, hang tags, badges, shelf announcers, leaflets, brochures , marketing materials, tickets, cards and combinations thereof.
[0020]
20. System (100) for the production of ready-to-use RFID devices, comprising: a manufacturing site for the production of consumer goods; a computer to determine the types of consumer products to be produced and to provide instructions for creating and coding RFID devices for use in association with consumer products; an RFID production unit (140), the RFID production unit (140), including: a material supply (50) and a conductive material supply (54); an adhesive coating station to provide an adhesive pattern; a laminating station for laminating the conductive material to the adhesive pattern; characterized by the fact that a cutting station for cutting an antenna pattern to substantially match the adhesive pattern in such a way that the cutting station has multiple cutters; a chip attachment station for attaching the chip to the antenna pattern; a printing station for the printing of human-readable marks (14) and / or machine (15) in the supply of material; a reader to read the information encoded on the chip and to combine the information with the human-readable marks (14) and / or machine (15), and in which the RFID production unit (140) and manufacturing site are placed a with the other.
[0021]
21. System (100), according to claim 20, characterized by the fact that the coded information and the human-readable marks (14) and / or machine (15) are related to consumer goods.
[0022]
22. System (100), according to claim 20, characterized by the fact that the computer provides information related to the antenna pattern to be formed.

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BR112012032009A2|2016-11-08|

BR112012031670A2|2016-11-08|

BR112012031767B1|2021-02-09|

CN102947083B|2016-08-17|

EP2580948B1|2017-08-30|

CN102939610A|2013-02-20|

WO2011159727A1|2011-12-22|

EP2580057B1|2019-05-22|

EP2580715B1|2019-05-22|

US9941569B2|2018-04-10|

EP2711173A3|2016-03-23|

EP2580715A1|2013-04-17|

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BR112012031765B1|2021-02-09|

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EP2711173A2|2014-03-26|

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CN106903970A|2017-06-30|

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ES2739355T3|2020-01-30|

EP2580052A1|2013-04-17|

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CN102939610B|2016-08-03|

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CN102947093B|2017-04-05|

WO2011159722A3|2012-03-01|

EP2580057A1|2013-04-17|

CN102947093A|2013-02-27|

ES2739222T3|2020-01-29|

ES2735236T3|2019-12-17|

EP2580948A2|2013-04-17|

WO2011159716A1|2011-12-22|

US20120061473A1|2012-03-15|

WO2011159727A9|2012-03-08|

BR112012031670B1|2020-12-15|

EP2580052B1|2019-05-22|

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法律状态:
2018-12-26| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2019-11-12| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2020-07-28| B06A| Notification to applicant to reply to the report for non-patentability or inadequacy of the application [chapter 6.1 patent gazette]|

2021-03-02| B09A| Decision: intention to grant|

2021-04-13| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 14/06/2011, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

US35439310P| true| 2010-06-14|2010-06-14|

US35438810P| true| 2010-06-14|2010-06-14|

US35438010P| true| 2010-06-14|2010-06-14|

US61/354,380|2010-06-14|

US61/354,388|2010-06-14|

US61/354,393|2010-06-14|

PCT/US2011/040391|WO2011159727A1|2010-06-14|2011-06-14|Method, system and apparatus for making short run radio frequency identification tags and labels|

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