JP4743367B2 - Tack label with RFID tag, manufacturing method of tack label with RFID tag, and manufacturing apparatus of tack label with RFID tag - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a tack label with RFID, and more particularly to a tack label with RFID that can be manufactured at a low cost by a simple manufacturing method and has excellent adhesion to a product.
[0002]
[Prior art]
Conventionally, as a method of attaching an RFID tag to a tack label and attaching it to a product or the like, after attaching the RFID tag to the adhesive layer on the back surface of the tack label, the RFID tag is exposed to the peripheral portion of the label larger than the RFID tag. It is known to use a pressure sensitive adhesive. However, the adhesive on the back side of the tack label is covered with the RFID tag, and the area of the adhesive that adheres to the product is reduced. Even if it can be attached to the product, the label will fall off the product. There is. Moreover, when the product itself is small, there is a disadvantage that even sticking cannot be performed.
[0003]
As another method, there is known a method in which an RFID tag is attached to the adhesive layer on the back surface of the tack label, and another adhesive layer is provided on the RFID tag surface and attached to the product. However, since two pressure-sensitive adhesive layers are provided, there is a disadvantage that the manufacturing process of the tack label itself is complicated and expensive.
[0004]
[Problems to be solved by the invention]
Therefore, in order to solve such problems, the present invention provides an antenna coil of an RFID tag provided with an antenna coil and an RFID element connected to the antenna coil by providing a single adhesive layer on the back surface of the label. The present invention has been completed by conceiving that an opening is provided while avoiding a functional part composed of the RFID element.
[0005]
[Means for Solving the Problems]
In order to solve the above-described problem, a tack label with an RFID tag according to the invention of claim 1 includes an RFID tag including a label base material, an adhesive layer , an antenna coil, and an RFID element connected to the antenna coil. When, in the RFID-tagged tack label comprising a release paper, wherein the RFID tag, the opening is provided to avoid the functional portion consisting of the antenna coil and the RFID device, wherein the label base material, the RFID The opening and the peripheral edge of the tag are detachably mounted on the release paper through the adhesive layer.
According to a second aspect of the present invention, there is provided a manufacturing method of a tuck label with an RFID tag, wherein an application step of applying an adhesive onto a release paper, an RFID coil including an antenna coil and an RFID element connected to the antenna coil, the antenna A step of removing the functional portion including the coil and the RFID element to provide an opening, a cutting step of cutting the RFID tag having the opening into a single piece, and an adhesive layer applied on the release paper The step of placing the single piece of the RFID tag at a constant interval, the step of placing the label base material supplied from the label base material supply unit on the single piece of the RFID tag, the release paper, and the And a label removing step of removing a laminate of the pressure-sensitive adhesive layer, the single piece of the RFID tag, and the label base material into a label shape.
According to a third aspect of the present invention, there is provided a method for producing an RFID tag-attached tack label, wherein a label base material is detachably laminated to a first release paper via an adhesive layer, and the first release paper is used. A separation step of separating the antenna coil, an RFID tag including an antenna coil and an RFID element connected to the antenna coil, a step of removing the functional portion including the antenna coil and the RFID element, and an opening portion, A cutting step of cutting the RFID tag provided with a single piece, and placing the single piece of the RFID tag on the adhesive layer of the tack label base paper from which the first release paper is separated at regular intervals. Placing the second release paper supplied from the second release paper supply unit on the single piece of the RFID tag, and separating the first release paper. It characterized by having a a label punching step to pull the laminate label shapes of the unitary piece and the second release paper of the RFID tag and the tack label base paper.
According to a fourth aspect of the present invention, there is provided an apparatus for manufacturing an RFID tag-attached tack label, wherein the antenna includes an application unit for applying an adhesive onto release paper, an antenna coil, and an RFID element connected to the antenna coil. A cut-out part that provides an opening by avoiding a functional part including a coil and the RFID element, a cut part that cuts the RFID tag provided with the opening into a single piece, and a single piece of the RFID tag on the release paper A mechanism that places the label base material supplied from the label base material supply unit on a single piece of the RFID tag, the release paper, and the mechanism It is characterized by comprising a label removing portion for removing a laminate of the pressure-sensitive adhesive layer, the single piece of the RFID tag, and the label base material into a label shape.
According to a fifth aspect of the present invention, there is provided an RFID tag-attached tack label manufacturing apparatus comprising: a first label paper from a tack label base paper on which a label base material is detachably laminated via an adhesive layer. A separation part that separates the antenna coil and an RFID tag that includes an antenna coil and an RFID element connected to the antenna coil, and an opening part that avoids a functional part composed of the antenna coil and the RFID element, and an opening part. The RFID tag single pieces are mounted at regular intervals on a cut portion for cutting the RFID tag provided with a single piece and on the adhesive layer of the tack label base paper from which the first release paper is separated. A mechanism for placing the second release paper supplied from a second release paper supply unit on a single piece of the RFID tag, and the first release paper separated Characterized in that it comprises a label punching unit removing the laminate of the Kkuraberu base paper with a single piece of the RFID tag and the second release paper label shape, a.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the drawings. An RFID tag is a tag that can communicate information in a non-contact manner using radio waves as a medium of an RFID (Radio Frequency Identification) system. The “RFID tag” includes “non-contact IC tag”, “non-contact data carrier”, “wireless IC tag”, “non-contact IC”, “non-contact IC label”, “transponder”, etc. Since it may be expressed by a name, in this embodiment, it is expressed as “RFID tag” as a representative, and includes a name expressed as described above.
[0007]
An RFID tag includes an antenna pattern and an RFID element on an RFID tag base, and the RFID element includes an IC chip and a memory. A resonant circuit is formed by the antenna pattern and the capacitive element built in the IC chip. When the resonant circuit receives a radio wave of a certain frequency from the reader / writer, the information stored in the memory is transferred to the reader / writer as a transmission source. Send and return to communicate information.
[0008]
FIG. 1 is a plan view of a conventional inlet type RFID tag. FIG. 2 is a cross-sectional view of a conventional label with an RFID tag attached to a product. RFID tags are used as various automatic recognition systems such as apparel product tags, airline barge tags, transport and distribution industry delivery tags, library collection tags, rental CDs and video management tags. ing. Regarding the form of the RFID tag, there are various shapes such as a label shape, a card shape, a coin shape, and an inlet shape. The RFID tag used in the present embodiment is an inlet type RFID tag that is attached to the back surface of the nameplate label. The RFID tag is attached to the product after being attached to the back surface of the nameplate label.
[0009]
The material of the inlet base material 13 is not particularly limited as long as it is an insulating material. For example, films of polyethylene terephthalate, polyvinyl chloride, polypropylene, polycarbonate, polyethersulfone, polyamide, cellulose acetate and the like can be applied. . The thickness of the film is not particularly limited, and is preferably about 12 to 100 μm. Further, additives such as a colorant, an antistatic agent, a lubricant, and a stabilizer may be mixed in the inlet base material 13 within a range that does not affect the function.
[0010]
The antenna coil 14 of the inlet-type RFID tag 11 has a coil shape and a conductive member 17 forms a jumping circuit on the back surface of the inlet base material 13 and is connected to the bumps or pads of the RFRID element 15 by the coil connection element 16. .
Such an inlet-type RFID tag 11 forms an antenna by forming a metal foil such as an aluminum foil laminated on an inlet base 13 into a coil shape by photo-etching or etching after resist printing, and mounting an RFID element composed of at least an IC chip. To form. A normal RFID element consists of an IC chip and a memory. Its size can also be 20 mm × 20 mm or less. Specifically, product name “accuwave” manufactured by Dai Nippon Printing Co., Ltd. can be exemplified.
[0011]
Alternatively, the conductive ink in which the antenna is carbon, graphite, silver powder, or a mixture thereof dispersed in a vehicle can be formed by offset, gravure, silk screen printing. Furthermore, the shape of the antenna pattern is not particularly limited, and may be linear or wound. A product name “Bistatix” manufactured by Motorola, in which the shape of the antenna pattern is two wings, is also applicable.
[0012]
There are UHF-SHF bands (850 to 950 MHz, 2.4 to 5 GHz), HF bands (10 to 15 MHz), and LF-MF bands (100 to 500 KHz) as frequencies used by the RFID tag for communication. In addition, when a plurality of RFID tags 11 responds simultaneously in response to a calling radio wave from a reader / writer, data collision (collision) occurs. However, there is also a method of sequentially communicating specific RFID tags while avoiding a collision. Applicable.
[0013]
The inlet-type RFID tag 11 can communicate wirelessly, but it is not beautiful in appearance, so it is preferable to cover the RFID tag 11 and attach a nameplate label 20 that is normally used. In many cases, it is more suitable for an outsider to know whether or not the RFID tag 11 is present and to perform various types of management by the RFID tag 11.
[0014]
FIG. 2A shows a conventional example, in which the RFID tag 11 is attached to the first pressure-sensitive adhesive layer 23 on the back surface of the nameplate label 20 having the display portion 22 on the surface of the nameplate label base material 21 , and then to the product. Adhere. For this reason, the portion covered by the RFID tag 11 becomes the non-adhesive part 26 and is adhered to the product only by the remaining peripheral adhesive part 25B, so that the adhesive force is low and it is easy to drop off.
[0015]
In FIG. 2B, the RFID tag 11 is attached to the first pressure-sensitive adhesive layer 23 on the back surface of the nameplate label base material 21 , and the second pressure-sensitive adhesive layer 24 is further provided. To do. Adhesive strength can be obtained sufficiently, but the number of complicated steps for providing the second pressure-sensitive adhesive layer 24 increases, and the cost becomes high. Therefore, in order to contribute to the adhesion of the first pressure-sensitive adhesive layer 23 to the product, the opening 31 is formed in the inlet base material 13 while avoiding functional portions such as the antenna coil 14 and the RFID element 15 of the inlet type RFID tag 11. Provide.
[0016]
FIG. 3 is a plan view of a tack label with an RFID tag according to the present embodiment . FIG. 3 shows the tack label 1 with an inlet-type RFID temporarily attached to the release paper 33 so as to be peeled off. The clamped by the position of the inlet-shaped RFID tag 11, comprising a product entirely pressure-sensitive adhesive, a motor Tsu Clavel two aspects of the label entire pressure-sensitive adhesive.
[0017]
FIG. 4 is a cross-sectional view of the AA portion of FIG. 3 of the full-tack adhesive type RFID tag-attached tack label of this embodiment . FIG. 4 is a tack label with an inlet-type RFID tag of the entire product adhesive type, where the inlet-type RFID tag 11 is positioned between the nameplate label 20 and the first adhesive layer 23, and the product is the first adhesive layer 23. Are adhered by the entire adhesive portion 25A. On the other hand, the non-adhesive part 27 covered with the inlet-type RFID tag 11 does not adhere to the name-plate label base material 21 , but the first adhesive layer 23 passes through the opening 31 of the inlet-type RFID tag 11. Adhesion with the base material 21 provides sufficient adhesive strength along with the peripheral edge. The shape of the opening 31 is a rectangle in FIG. 3, but the shape is not particularly limited as long as it does not interfere with the function of the RFID tag, such as a rectangle, a triangle, a round, or an irregular shape. good. Further, the number of the openings 31 may be plural as long as it does not interfere with the function of the RFID tag, and the plural shapes may be different.
[0018]
FIG. 5 is a cross-sectional view of the AA portion of FIG. 3 of the label whole surface adhesive type RFID tag tack label of the present embodiment . FIG. 5 is a tack label with an inlet-type RFID tag of a label whole surface adhesive type, and the inlet type RFID tag 11 is located between the first adhesive layer 23 of the nameplate label 20 and the product, and the whole surface adheres to the label substrate 21. And glue. On the other hand, the non-adhesive portion 26 covered with the inlet RFID tag 11 does not adhere to the product, but the first adhesive layer 23 adheres to the product through the opening 31 of the inlet RFID tag 11. A sufficient adhesive force is obtained together with the peripheral adhesive portion 25B and the central adhesive portion 25C.
[0019]
The nameplate label base 21 of the nameplate label 20 is not particularly limited. For example, paper such as high-quality paper, coated paper, impregnated paper, and synthetic paper, and synthetic materials such as polyethylene terephthalate, polypropylene, polyvinyl chloride, and polystyrene. Resins, metal foils such as aluminum, and a laminate of two or more layers thereof can be applied.
[0020]
On the display part 22 on the front surface of the nameplate label 20, general product names, sales points, sellers, date of manufacture, usage, precautions, etc. are offset printing, resin letterpress printing, gravure printing, flexographic printing, silk screen. Tack labels displayed by printing such as printing can be applied. However, it may not be displayed on the display unit 22 when the source and destination of the round-trip product or returnable box format are determined or for purely management purposes.
[0021]
As the first pressure-sensitive adhesive layer 23 and the second pressure-sensitive adhesive layer 24, a pressure-sensitive adhesive that adheres with a known pressure sensitivity can be applied. The pressure-sensitive adhesive is not particularly limited. For example, acrylic acid, acrylic acid ester, vinyl acetate, acrylonitrile, hydrocarbon resin, alkylphenol resin, rosin, or an aqueous dispersion of these mixtures, rosin triglyceride, hydrogenation An organic solvent liquid such as rosin is applied by a known coating method and dried. In addition, isobutylene-isoprene copolymer, isobutylene-butadiene copolymer, and ethylene-styrene-containing block copolymer to which tackifiers such as aliphatic olefin resin, rosin, and terpene phenol resin are added are provided by hot melt coating method. May be.
[0022]
The first pressure-sensitive adhesive layer 23 or the second pressure-sensitive adhesive layer 24 is covered with a re-separable release paper 33, and the pressure-sensitive adhesive layer is exposed by removing the release paper 33 when sticking to a product. Attach to product. The release paper 33 may be a known release paper, and for example, a substantially flat base material such as high-quality paper or polyethylene terephthalate coated with a release agent such as wax, cellulose acetate, or silicone on the surface in contact with the adhesive layer can be applied.
[0023]
FIG. 6 is a configuration diagram of functional elements of the manufacturing apparatus for the product-tack-adhesive RFID tag-attached tack label according to the present embodiment , and a plan view of the label manufacturing process. FIG. 6A shows the configuration of an apparatus for manufacturing a product full-surface adhesive type RFID tag-attached tack label. Application part 23 of adhesive, the extraction part 41 of the opening part 31 of the inlet type RFID tag 11, the cut part 43 of the inlet type RFID tag 11, the supply part of the nameplate label base material 21, and the label extraction part 45 , And a residue winding part 47.
[0024]
In the adhesive application unit 23, the above-mentioned adhesive may be applied onto the release paper 33 by a known coating method such as curtain coating, slit coating, or bar coating. Although not shown in FIG. 6 (A), a drying device is provided after coating. The thickness of the pressure-sensitive adhesive layer after drying is 10 μm to 200 μm, preferably 20 μm to 100 μm.
[0025]
The opening portion 41 of the opening portion 31 of the inlet RFID tag 11 is a punching die having an opening shape made of mold steel or a big blade, and the inlet shape RFID tag 11 between the receiving plate (not shown). The inlet base material 13 of the opening 31 is removed by reciprocating. Next, the inlet RFID tag 11 in which the opening portion 31 is opened is sent to the cut portion 43 and cut into the hollow donut-shaped piece (single piece) by the cut portion 43 made of a big blade. The donut-shaped pieces are placed on the pressure-sensitive adhesive layer at regular intervals. The inlet RFID tag 11 may be placed either on the front or back.
[0026]
On the doughnut-shaped piece, the nameplate label base material 21 is sent from the supply unit and placed, and the layer structure of the label is completed. There is a display portion 22 on the surface of the nameplate label base material 21. The display may be provided in advance by a known printing method such as offset, resin relief printing, flexographic printing, etc. A printing unit may be provided for printing. Further, the display may not be printed as in the case of internal management or transactions between companies.
[0027]
Next, it moves to the label removing part 45. The label removing portion 45 has the same mechanism as the removing portion 41 of the opening 31 of the inlet type RFID tag 11, and is pulled out into the final label shape, and the blank portion is wound up as a residue 49 to the residue winding portion 47. In this way, the entire product adhesive type inlet-type RFID tag-attached tack label 1 detachably placed on the release paper 33 can be manufactured.
[0028]
When the tack label 1 with an RFID tag is removed from the release paper and attached to the product, it adheres to the product over the entire surface of the adhesive layer. Moreover, since it adheres to the nameplate label base material 21 at the opening 31 and the peripheral portion of the inlet type RFID tag, a sufficient adhesive force can be obtained. In addition, a simple device that simply adds a mechanism for placing the inlet RFID tag supply unit (not shown), the extraction unit 41, the cut unit 43, and the donut-shaped piece to a conventional general label manufacturing apparatus. Can be manufactured inexpensively.
[0029]
FIG. 7 is a configuration diagram of functional elements of the manufacturing apparatus of the label whole surface adhesive type RFID tag-attached tack label according to the present embodiment . FIG. 7 shows the configuration of an apparatus for manufacturing a label whole surface adhesive type RFID tag-attached tack label. A so-called tack label base paper 37 is used in which the nameplate label substrate 21 is detachably laminated in advance on a release paper (first release paper) 33A through an adhesive layer 23 in advance. The tack label base paper 37 can be manufactured by a generally known method. The display unit 22 of the nameplate label substrate 21 may be provided in the process of manufacturing the tack label base paper 37, or may be printed by providing a printing unit in the manufacturing apparatus of this embodiment .
[0030]
The manufacturing apparatus includes a separation unit for the tack label base paper 37, a punching unit 41 for the opening 31 of the inlet RFID tag 11, a cut unit 43 for the inlet RFID tag 11, a supply unit for the release paper 33, a label It consists of a punching part 45 and a residue winding part 47. First, the tack label base paper 37 is peeled off from the release paper (first release paper) 33A at the separation section. The peeled release paper 33A can be rolled up and used again as the release paper (second release paper) 33. .
[0031]
Next, the cutout 41 of the opening 31 of the inlet-type RFID tag 11 is a cutout having the shape of an opening made of mold steel or a big blade, and is formed between the inlet plate and the receiving plate (not shown). The RFID tag 11 is sandwiched and reciprocated to remove the inlet base material 13 in the opening 31. Next, the inlet RFID tag 11 in which the opening portion 31 is opened is sent to the cut portion 43 and cut by the cut portion 43 formed of a big blade to form a hollow donut-shaped piece (single piece) . The doughnut-shaped pieces are placed at regular intervals on the adhesive layer of the tack label base paper 37 separated as described above. The inlet RFID tag 11 may be placed either on the front or back.
[0032]
On the doughnut-shaped piece, release paper (second release paper) 33 is sent from the supply unit and placed, and the layer structure of the label is completed. Subsequently, it moves to the label removing part 45. The label removing portion 45 has the same mechanism as the removing portion 41 of the opening 31 of the inlet type RFID tag 11, and is pulled out into the final label shape, and the blank portion is wound up as a residue 49 to the residue winding portion 47. In this manner, the label whole surface adhesive type inlet-type RFID tag-attached tack label 1 detachably mounted on the release paper 33 can be manufactured.
[0033]
When the tack label 1 with an inlet-type RFID tag is peeled off from the release paper and attached to the product, the adhesive label adheres to the label on the entire surface of the adhesive layer. Moreover, since it adheres to the opening part 31 and peripheral part of an inlet type RFID tag also to a product, sufficient adhesive force can be obtained. Moreover, it can be manufactured at a low cost with a simple apparatus in which a part of the mechanism is added to the conventional general label manufacturing apparatus.
[0034]
【Example】
(Example)
The tack label 1 with an inlet type RFID tag illustrated in FIGS. 3 and 4 is manufactured by the manufacturing apparatus of FIG. As an inlet-type RFID tag 11, a 7 μm thick aluminum foil is dry-laminated to a 25 μm thick polyethylene terephthalate film (Lumirror) manufactured by Toray Industries, and coiled by an etching method, and an IC chip with a built-in RFID memory is coiled The connection terminals were connected with a conductive adhesive as shown in FIG. The external dimensions of the RFID tag are 85 mm wide × 50 mm long, and an opening of 40 mm wide × 20 mm long is provided slightly to the right side from the center as shown in FIG. 3, avoiding the antenna and the RFID element.
[0035]
As the nameplate label substrate 21, an external dimension of 100 mm wide × 65 mm long was used, using the product name Esberan, which is a resin-impregnated paper having a basis weight of 110 g / m ² . As the release paper, a commercially available release paper having a basis weight of 90 g / m ² coated with a blue fine paper base silicone coat was used, and a strong adhesive pressure sensitive adhesive made of an acrylic resin was used as the pressure sensitive adhesive, and the thickness was 30 μm.
[0036]
(Comparative example)
A tack label was produced in the same manner as in the example except that the inlet RFID tag was not provided with an opening and the whole was composed of the inlet base material 13 as shown in FIG.
[0037]
Tack labels with RFID of Examples and Comparative Examples are separated from the release paper, and each label is affixed to the rounded part of the outer periphery of a cylindrical outer box that holds a high-end branded ladies' hat, and checked the next day As a result, in the comparative example, the tack label with RFID was peeled off from the outer box and dropped off, but the tack label with RFID of the example was stuck without any abnormality.
[0038]
【The invention's effect】
As described above, even more of the pressure-sensitive adhesive layer according to the inlet-shaped RFID tag Tack label of the present invention, without falling off from the product by giving sufficient adhesion to both the product and nameplate label base In addition, management using a stable and reliable RFID tag can be performed.
[0039]
Moreover, the inlet type RFID tag tack label of the present invention can be applied to products having a small outer dimension that could not be pasted. Moreover, the pressure-sensitive adhesive layer, by which also serves as the sticking of the sticking and the inlet-type RFID tag nameplate label, resource saving can be achieved at the same time as costs.
[0040]
Furthermore, the apparatus for manufacturing the inlet-type RFID tag tack label of the present invention can be manufactured with a simple apparatus in which some functions are added to a known general manufacturing apparatus.
[Brief description of the drawings]
FIG. 1 is a plan view of a conventional inlet-type RFID tag.
FIG. 2 is a cross-sectional view of a state in which a conventional label with an RFID tag is attached to a product.
FIG. 3 is a plan view of a tack label with an RFID tag according to the present embodiment .
4 is a cross-sectional view of the AA portion of FIG. 3 of the full-tack adhesive type RFID label-attached tack label of the present embodiment .
FIG. 5 is a cross-sectional view of the AA portion of FIG. 3 of the label whole surface adhesive type RFID tag-attached tack label of the present embodiment .
FIGS. 6A and 6B are a configuration diagram of functional elements of a manufacturing apparatus for a full-tack-adhesive RFID tag-attached tack label according to the present embodiment , and a plan view of a label manufacturing process.
FIG. 7 is a configuration diagram of functional elements of an apparatus for manufacturing a full-tack label type tack tag with an RFID tag according to the present embodiment .
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Label with an inlet RFID tag 11 Inlet type RFID tag 13 Inlet base material 14 Antenna coil 15 RFID element 16 Connection element 17 Conductive member 20 Name plate label 21 Name plate label base material 22 Display part 23 1st adhesion layer 24 2nd adhesion layer 25A The whole surface Adhesive part 25B Peripheral adhesive part 25C Central adhesive part 26, 27 Non-adhesive part 31 Opening part 33 Release paper (second release paper)
33A Release paper (first release paper)
35 Product 37 Tag label base paper 41 Inlet extraction part 43 Cut part 45 Label extraction part 45A Half cut part 47 Waste winding part 49 Waste

Claims (5)

A label base material, the pressure-sensitive adhesive layer, the RFID tag having an RFID element connected to the antenna coil and the antenna coil, the RFID-tagged tack label comprising a release paper,
Wherein the RFID tag, the opening is provided to avoid the functional portion consisting of the antenna coil and the RFID device,
The RFID tag tack, wherein the label base material is detachably mounted on the release paper via the adhesive layer at the opening and peripheral edge of the RFID tag. label. An application process of applying an adhesive on release paper;
A step of removing an antenna coil and an RFID tag including an RFID element connected to the antenna coil by providing an opening avoiding a functional portion including the antenna coil and the RFID element;
A cutting step of cutting the RFID tag provided with the opening into a single piece;
Placing a single piece of the RFID tag on the pressure-sensitive adhesive layer applied on the release paper at regular intervals;
Placing the label base material supplied from the label base material supply unit on a single piece of the RFID tag;
A label removing step of removing the laminate of the release paper, the pressure-sensitive adhesive layer, the single piece of the RFID tag, and the label base material into a label shape;
A method for manufacturing a tuck label with an RFID tag, comprising: A separation step of separating the first release paper from a tack label base paper in which a label base material is detachably laminated to the first release paper via an adhesive layer;
A step of removing an antenna coil and an RFID tag including an RFID element connected to the antenna coil by providing an opening avoiding a functional portion including the antenna coil and the RFID element;
A cutting step of cutting the RFID tag provided with the opening into a single piece;
Placing the single piece of the RFID tag on the pressure-sensitive adhesive layer of the tack label base paper from which the first release paper is separated; and
Placing the second release paper supplied from the second release paper supply unit on a single piece of the RFID tag;
A label removing step of removing the laminate of the tack label base paper from which the first release paper is separated, the single piece of the RFID tag, and the second release paper into a label shape;
A method for manufacturing a tuck label with an RFID tag, comprising: An application part for applying an adhesive on the release paper;
An RFID tag provided with an antenna coil and an RFID element connected to the antenna coil, and a cutout portion that provides an opening avoiding a functional portion composed of the antenna coil and the RFID element;
A cut portion for cutting the RFID tag provided with an opening into a single piece;
A mechanism for placing the single piece of the RFID tag on the adhesive layer applied on the release paper at regular intervals;
A mechanism for placing the label base material supplied from the label base material supply unit on a single piece of the RFID tag;
A label removing portion for removing a laminate of the release paper, the pressure-sensitive adhesive layer, the single piece of the RFID tag, and the label base material into a label shape;
An apparatus for manufacturing a tuck label with an RFID tag, comprising: A separation unit that separates the first release paper from a tack label base paper in which a label base material is detachably laminated to the first release paper via an adhesive layer;
An RFID tag provided with an antenna coil and an RFID element connected to the antenna coil, and a cutout portion that provides an opening avoiding a functional portion composed of the antenna coil and the RFID element;
A cut portion for cutting the RFID tag provided with an opening into a single piece;
A mechanism for placing single pieces of the RFID tag at regular intervals on the adhesive layer of the tack label base paper from which the first release paper is separated;
A mechanism for placing the second release paper supplied from the second release paper supply unit on a single piece of the RFID tag;
A label removing unit for removing the laminate of the tack label base paper from which the first release paper is separated, the single piece of the RFID tag, and the second release paper into a label shape;
An apparatus for manufacturing a tuck label with an RFID tag, comprising:

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