JP2002072882A - Data memory element holding label - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an inexpensive data memory element holding label which is hardly destroyed in a data memory element in manufacturing and use of the label and may be manufactured by simple process steps. SOLUTION: This data memory element holding label 10 is held with the data memory element 13 by a tacky adhesive layer 12 on one surface 11a of a surface base material 11 and is affixable on the exposed surface 12a side of the tacky adhesive layer 12 to an object. The tacky adhesive layer 12 before the data memory element 13 is held is formed as a separate body from the surface base material 11 and after the one surface 13c of the data memory element 13 is brought into tight adhesion to a surface side 12b of the tacky adhesive layer 12 opposite to the surface base material 11, the surface base material 11 is laminated on the tacky adhesive layer 12 and the other surface 13d of the data memory element 13 comes into contact with one surface 11a of the surface base material 11.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a data storage element holding label having a data storage element.

[0002]

2. Description of the Related Art Conventionally, an automatic recognition management system using a bar code has been used for merchandise management in distribution, sales and the like. The barcode is an information of the arrangement state of images (bars), and the information can be read by a dedicated barcode reader. For this reason, for example, merchandise management and distribution management are performed by attaching a barcode recording merchandise information to the merchandise. However, barcodes have problems in that a large amount of information cannot be recorded, information cannot be updated, and forgery is easy. Therefore, in recent years, RFID (Radio Frequency Identificatio
(n: radio frequency recognition) is attracting attention.

In this system, a large amount of information is stored in a semiconductor (IC) chip, and a planar antenna for transmitting and receiving information is connected to the IC chip. Then, when a radio wave of a predetermined frequency emitted by the reader is received by the antenna,
According to this radio wave, information stored in the internal IC chip is transmitted to the reader via the antenna. Update information from the reader is also transmitted to the IC chip via the antenna, and the stored information of the IC chip is updated (hereinafter, the IC chip and the antenna, and a predetermined capacitor, etc. The combination is called "IC module").

[0004] This IC module is first put into practical use as an IC card. In this case, an IC card in which the IC module is held in hard plastic is manufactured by sandwiching the IC module with a plastic film or the like and appropriately performing thermocompression bonding. The IC card is provided to the user as appropriate, for example, as an employee ID card. On the other hand, from the viewpoint of merchandise management and distribution management, it is more convenient to be able to attach the IC module to merchandise. Because of this, I
Various adhesive labels incorporating a C module have been proposed. For example, in Japanese Patent Application Laid-Open No. 10-123953 (referred to as "first technology"), an adhesive (adhesive layer) is formed on one surface of a support film, and the data carrier is integrated with the support film via the adhesive. Labels have been disclosed. Also, Japanese Patent Application Laid-Open No. 2000-19964 (“2nd
Technology)), a data carrier is attached to the back surface of a tag body (surface base material) with an adhesive, and a spacer is provided around the IC circuit body to form a tag having a flat surface. It has been disclosed.

[0005]

However, in the first technique, in order to secure the flatness of the surface of the support film on which the data carrier is laminated, the thickness of the support film is increased to accommodate the IC accommodating portion in the support film. It is necessary to form a concave portion that becomes For this reason, there is a problem in that the material cost of the support film and the labor for concave processing are required, and the cost of the entire label is also increased.

On the other hand, in the case of the second technique, it is necessary to apply an adhesive to both sides of the IC circuit body, and to apply an adhesive to both sides of the spacer, which is extremely complicated. That is, none of the conventional techniques provide a label structure that can be easily mass-produced.

The present invention has been made in view of the above circumstances, and has a strong adhesive force when affixed to an object, a data storage element is less likely to be destroyed during production or use of a label, and
An object of the present invention is to provide an inexpensive data storage element holding label which has a simple structure and can be mass-produced in a small number of steps.

[0008]

According to the data storage element holding label of the present invention, a data storage element having an area smaller than the surface base material is arranged on one surface of the surface base material, and the area of the data storage element is reduced. A larger pressure-sensitive adhesive layer is arranged, the data storage element is held on the surface substrate by the pressure-sensitive adhesive layer, and the exposed surface side of the pressure-sensitive adhesive layer is a data storage element holding label that can be attached to an object, The pressure-sensitive adhesive layer before the data storage element is held is separate from the surface base material, and one surface of the data storage element is in close contact with the surface of the pressure-sensitive adhesive layer facing the surface base material. Then, the surface substrate is laminated on the adhesive layer, and the other surface of the data storage element is in contact with one surface of the surface substrate. The data storage element has a substantially flat transmission / reception unit and a data storage unit protruding from one surface of the transmission / reception unit, and the other surface of the transmission / reception unit is one of the surface base materials. It is preferable that the data storage unit is in contact with a surface and is covered with the adhesive layer. It is preferable that the surface substrate has flexibility and the data storage element is embedded in the surface substrate. In the data storage element holding label, it is preferable that the area of the data storage element is 64% or less of the area of the surface base material and the pressure-sensitive adhesive layer when viewed from a plane. Further, the data storage element holding label of the present invention has a data storage element on one surface of a surface base material, is formed by covering the data storage element with an adhesive layer, and the exposed surface side of the adhesive layer is an object. A data storage element holding label that can be attached to the data storage element, wherein the data storage element is separate from the surface base material, and the pressure-sensitive adhesive layer is formed on a surface base material on which the data storage element is integrally formed in advance. Are laminated. Preferably, the data storage element is adhered to the surface substrate. The data storage element has a substantially flat transmission / reception unit and a data storage unit protruding from one surface of the transmission / reception unit, and the transmission / reception unit is printed and formed on a surface base material. Is preferred. It is preferable that a release paper is provided on the exposed surface side of the pressure-sensitive adhesive layer. It is preferable that a printable area is provided on the outer surface of the surface substrate.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail.
FIG. 1 is a sectional view of a data storage element holding label 10 according to one embodiment of the present invention, and FIG. 2 is a plan view of the data storage element holding label 10 of FIG. The data storage element holding label 10 has a data storage element 13 held on one surface 11a of a surface base material 11 by an adhesive layer 12, and the data storage element 13 has a smaller area than the surface base material 11,
The adhesive layer 12 has a larger area than the data storage element 13. The exposed surface 12a of the pressure-sensitive adhesive layer 12, that is, the surface on which the surface base material 11 is not provided, can be attached to an object. In the data storage element holding label 10, the pressure-sensitive adhesive layer 12 before the data storage element 13 is held is separate from the surface base material 11. Then, the data storage element 13 is arranged on the side of the pressure-sensitive adhesive layer 12 facing the surface base material 11, and one surface 13 c of the data storage element 13 is in close contact with the pressure-sensitive adhesive layer 12. The surface base material 11 is laminated on the other surface 13d side of 13. Therefore, the other surface 13 d of the data storage element 13 is connected to the one surface 1
1a. In this embodiment, when the data storage element 13, the pressure-sensitive adhesive layer 12, and the surface substrate 11, which will be described later, are brought into close contact with each other, the projection of the data storage element 13 slightly protrudes toward the pressure-sensitive adhesive layer 12. But,
Even in such a form, since the entire label 10 has flexibility, there is no problem in sticking. When the data storage element holding label 10 is attached to an object, the exposed surface 12a of the adhesive layer 12 is in contact with the object, and the entire adhesive layer 12 is covered with the surface substrate 11. It has become. Such a data storage element holding label 10
Is usually the exposed surface 1 of the pressure-sensitive adhesive layer 12 as shown in FIG.
It is stored and distributed with the release paper 14 provided on the 2a side.

The data storage element 13 used here is not particularly limited, and one having a thickness of 50 to 500 μm is used. A data storage and / or calculation unit (hereinafter, referred to as a “data storage unit”) protrudingly arranged on one surface of the transmission / reception unit 13b.
It is called a data storage unit. ) 13a are used. As such a data storage element 13, an IC module put into practical use with an IC card or the like can be used.
For example, an IC module 30 as shown in FIG. 4 can be exemplified. The illustrated example of an IC module 30 has an antenna coil 16 formed on a substrate 15 as a substantially flat transmission / reception unit 13b, and an IC chip 17 serving as a data storage unit 13a on one surface of the antenna coil 16. Is arranged. Both ends of the antenna coil 16 are connected by an anisotropic conductive tape 16a, so that the IC chip 17 and the antenna coil 16 maintain conductivity.
Although not shown, the transmitting and receiving unit 13b may be a plate antenna formed on a substrate.

The data storage element 13 is held on one surface 11a of the surface substrate 11 by the adhesive layer 12, but in the present invention, the data storage element 13 is Are arranged on the side facing the surface 12b. In this way, the adhesive layer 12 exists between the data storage element 13 and the object, and as a result, when an unintended impact is applied to the data storage element holding label 10 during handling, Acts as a cushioning material, so that destruction of the data storage element 13 can be prevented.
The data storage element 13 is disposed on the surface substrate 11 side of the adhesive layer 12, and the exposed surface 12 a of the adhesive layer 12 is
Has not reached the side. Therefore, when the data storage element holding label 10 is attached to the object, the entire exposed surface 12a of the adhesive layer 12 is attached to the object.
The contact area between the object 2 and the object 20 is large, and the label 10 and the object are very unlikely to peel off.

In particular, in the data storage element 13, the data storage section 13a protrudes above the transmission / reception section 13b, and the data storage section 13a is more susceptible to an external impact. Therefore, the side of the protruding data storage section 13a is the adhesive layer 1
It is preferable that the data storage unit 13a is disposed so as to be in close contact with the second storage unit 2 and covered with the pressure-sensitive adhesive layer 12. In this way, the data storage section 13a, which is easily broken by an impact, is protected by the adhesive layer 12 and the surface substrate 11, and the data storage section 13a is damaged or broken when the data storage element holding label 10 is manufactured or used. It becomes difficult to do. In addition, since the data storage unit 13a and the transmission / reception unit 13b are fixed by the adhesive layer 12, poor connection between them can be prevented.

Further, as will be described later in detail, such a data storage element holding label 10 has a configuration in which the data storage element 13 is disposed on one surface side of the adhesive layer 12 and the data storage element 13 is attached to the surface base material. 11, the work is simple and the production efficiency is high.

Substrate 15 used for data storage element 13
In the case of the antenna coil 16, an insulating substrate made of a resin such as polyethylene terephthalate, polypropylene, or polyethylene and having a thickness of 20 to 100 μm may be used. As a method of forming the antenna coil 16 on the substrate 15, a method of attaching a coil made of a wire such as silver or copper, a method of etching copper or aluminum or the like into a coil, a conductive ink, or the like is used. To perform coiled printing. Examples of the substrate used for the plate antenna include films and paper of polyethylene terephthalate, polypropylene, polyethylene, and the like. Examples of a method for forming the plate antenna include a method of printing using a conductive ink or the like, a method of depositing a metal such as copper or aluminum, and the like. As the IC chip 17, one having a length of 0.5 to 10 mm and a thickness of about 50 to 300 μm is usually used.

The pressure-sensitive adhesive forming the pressure-sensitive adhesive layer 12 includes:
There is no particular limitation, and emulsion type such as rubber type, acrylic type, vinyl ether type, and urethane type, solvent type, and hot melt type pressure sensitive adhesives can be used. An adhesive for cold food, re-peeling or the like can be used. The pressure-sensitive adhesive layer 12 usually has a thickness of 5 to 50 μm.
m, preferably 7 to 30 μm. To the pressure-sensitive adhesive layer 12, auxiliary agents such as a tackifier, a crosslinking agent, a pigment, a colorant, and an ultraviolet absorber may be added as necessary.

The pressure-sensitive adhesive layer 12 may be formed by directly applying a pressure-sensitive adhesive on a release paper 14 and drying to form the pressure-sensitive adhesive layer 12.
For example, the pressure-sensitive adhesive layer 12 can be formed by applying and drying the release layer 14 on the release paper and then transferring the pressure-sensitive adhesive layer 12 onto the release paper 14. The pressure-sensitive adhesive layer 12 is applied to the release paper 14 or another release paper by a reverse roll coater, knife coater, bar coater, slot die coater, lip coater, air knife coater, reverse gravure coater, variogravure coater or the like, and then dried. The amount of the adhesive applied is 5 to 50 g / m ² , more preferably 7 to 30 g / m ² in dry weight.
m ² . If it is less than 5 g / m ² , the adhesive strength to the object 20 and the holding power of the data storage element 13 may be insufficient. On the other hand, if it exceeds 50 g / m ² , the adhesive may protrude or peel off. Sometimes it causes cohesive failure.

As the surface substrate 11, cellophane, polyethylene, polypropylene, soft polyvinyl chloride, hard polyvinyl chloride, polyester (for example, polyethylene terephthalate, ethylene glycol, 1,4-cyclohexane dimethanol and terephthalic acid are polymerized). Polyester resin having 80 to 95 mol% of ethylene glycol residues and 5 to 20 mol% of 1,4-cyclohexanedimethanol residues), polystyrene, polyurethane, etc. A resin-based film, a foamed film containing the resin as a main component, foamed by blending a foaming agent, a resin-based film, an inorganic and / or organic pigment blended, and a void formed by stretching treatment. Films such as formed porous film,
Synthetic papers, nonwovens or high-quality papers, art papers, coated papers, cast coated papers, kraft papers, polyethylene laminated papers, impregnated papers, foamed papers, papers such as water-soluble papers, and more.
Known insulating sheets such as heat-sensitive recording paper, ink-jet recording paper, recording sheets such as heat transfer receiving sheets, and the like, may be used alone, or may be used by appropriately laminating a plurality of them. You may. Surface substrate 11
Usually, a material having flexibility is used. In particular, when the surface base material 11 has flexibility and the data storage element 13 is embedded in the surface base material 11 in the data storage element holding label 10, the label 10 is attached to the object 20. In this case, the surface base material 11 follows the uneven shape of the data storage element 13 so that the object 20 side of the data storage element holding label 10 becomes flat, and the object 20 and the label 10 are harder to peel off. Furthermore, the surface substrate 1
It is preferable that the outer surface 1 be printed so as to provide a predetermined design effect or to write necessary information so that information on the object 20 can be printed and displayed. In particular, it is preferable to provide an area that can be printed by various printers on the surface substrate 11 because individual information can be printed by a computer or the like. For example, surface substrate 1
At least a part of the recording medium 1 may be printed as a thermal recording paper by a thermal printer, or at least a part of the surface substrate 11 may be given a predetermined ink receptivity and printed by an ink jet printer. In particular, it is preferable to form a rewritable recording paper such as a reversible thermosensitive recording paper because display information can be updated. The thickness of the surface substrate 11 is usually 30 to 300 μm.

Examples of the release paper 14 include high-density paper such as glassine paper, clay-coated paper, kraft paper, high-quality paper, or the like, and a resin film such as polyethylene, which is a so-called poly-laminate base paper, or kraft paper or high-quality paper. Emulsion-type, solvent-type or non-solvent-type on resin-coated base paper provided with a filler layer containing a water-soluble polymer such as polyvinyl alcohol, starch and the like and a pigment as main components, or a film such as polypropylene or polyethylene terephthalate. After applying a silicone resin, a fluororesin or the like to a dry weight of about 0.05 to 3 g / m ² , a release agent layer formed by heat curing, electron beam curing, ultraviolet curing, or the like is appropriately used. . There is no limit on the thickness,
Usually, it is 30 to 300 μm.

In such a data storage element holding label 10, the surface base material 11 has elasticity,
In addition, by using a data storage element 13 having a thickness greater than that of the data storage element 13, the data storage element 13
The data storage element holding label 10 of the form shown in FIG. In the embodiment shown in the drawing, the data storage element 13 is buried in the surface base material 11, so that even when an impact is applied to the data storage element holding label 10 from the side and from above, the data storage element 13 is more integrated. The destruction of the module 30 can be prevented. Further, not only the outer surface of the surface base material 11 but also the exposed surface 12a side of the pressure-sensitive adhesive layer 12 becomes flat, so that it is hard to be peeled off when attached to the object 20.

The data storage element holding label 10
Is, when viewed from a plane, the area of the data storage element 13 is 64 times the area of the surface base material 11 and the area of the pressure-sensitive adhesive layer 12.
% Is preferable. If it exceeds 64%, the contact area between the surface substrate 11 and the pressure-sensitive adhesive layer 12 is small, and when the surface substrate 11 and the pressure-sensitive adhesive layer 12 are adhered to the object 20, the surface substrate 11 and the data storage element 13 may be easily separated. . If it is 64% or less, for example, it becomes more difficult to peel off even when it is adhered to the curved object 20.

Furthermore, when viewed from above, it is preferable that the data storage element 13 is not located at the peripheral portion of the data storage element holding label 10. More specifically, when the distance between the center of the data storage element holding label 10 and the peripheral edge is L, the data storage element 13 is not located within a range of 1/5 × L from the peripheral edge toward the center. Is preferred. In this way, for example, the curved object 20
When adhered to, the surface substrate 11 and the adhesive layer 12
Are difficult to peel off. For example, when the data storage element holding label 10 is rectangular, the data storage element 13 is located in the above-described peripheral range represented by the length of 1/10 of the length of each side (1/5 × １ ／). Do not position.

In the data storage element holding label 10 according to the present invention, the data storage element 13 is held on the one surface 11a of the front substrate 11 by the adhesive layer 11 as described above. 13, the surface base material 11 and the pressure-sensitive adhesive layer 12 are laminated so that the data storage element 13 is covered with the pressure-sensitive adhesive layer 12. Is also good. As a method of integrating the data storage element 13 with the surface substrate 11, a method of bonding the data storage element 13 to the surface substrate 11 with an adhesive or the like can be exemplified. In the case of a plate antenna, the transmitting and receiving unit 13b may be formed by printing directly on the surface substrate 11 using conductive ink or the like, and there is no limitation on the method of integration. In such a data storage element holding label 10 as well, the data storage element 13 and the object 2
Since the pressure-sensitive adhesive layer 12 exists between 0 and 0, the pressure-sensitive adhesive layer 12 acts as a buffer, and the data storage element 13 can be prevented from being broken.

The data storage element holding label 10 can be continuously manufactured using, for example, a manufacturing apparatus schematically shown in FIG. This manufacturing apparatus winds and peels the release paper 14a from the roll-shaped adhesive sheet 40 in which the adhesive layer 12 is sandwiched between two release papers 14 and 14a.
A feeding device 50 that feeds out a sheet 41 composed of the adhesive layer 12 and the pressure-sensitive adhesive layer 12; a placement device 60 that places the data storage elements 13 one by one on the adhesive layer 12 of the sheet 41 fed out from the feeding device 50; A surface substrate supply device 70 for disposing the surface substrate 11 on a sheet on which the elements 13 are disposed, and an adhesion for sandwiching the sheet on which the surface substrate 11 is disposed and for adhering the data storage element 13 and the adhesive layer 12 to each other. And a device 80.

The arrangement device 60 includes a data storage element roll 9.
0 and a data storage element supply device 61 including a drive roll 91, and the data storage element 13 is continuously supplied to the arrangement device 60 from a data storage element roll 90 in which a plurality of data storage elements 13 are connected. It has become so. The placement device 60 includes a suction unit 62 that suctions and holds the data storage element 13 and a data storage element roll 9.
And a cutting unit (not shown) that separates the data storage elements 13 one by one from 0. The arrangement device 60 further includes a lifting unit (not shown).

In this manufacturing apparatus, the data storage element label 10
In the case of manufacturing, first, the release paper 14a is peeled from the feeding device 50, and the sheet 41 including the release paper 14 and the adhesive layer 12 is placed below the placement device 60 such that the adhesive layer 12 is on the upper side. And, it is fed out perpendicular to the direction of elevation of the arrangement device 60. Next, the placement device 60 sucks and holds the transmitting / receiving section 13b side of the data storage element 13 supplied from the data storage element supply apparatus 61 to the suction section 62, and the data storage element roll 90 receives this data from the data storage element roll 90 by operating the cutting section. The storage element 13 is separated. Thereafter, when the lifting unit holding the data storage element 13 is lowered, the pressure-sensitive adhesive layer 12
The data storage element 13 is disposed in the
Is desorbed from the adsorption section 62. Then, the data storage element 1
After the surface substrate 11 is arranged from the surface substrate supply device 70 on the sheet on which the surface substrate 11 is arranged, the sheet on which the surface substrate 11 is arranged is sandwiched by the contact device 80 composed of a pair of rolls, and the data storage element 13 is placed. To the pressure-sensitive adhesive layer 12. At this time,
The data storage section 13a of the data storage element 13 includes the adhesive layer 1
Slightly overhang the two sides. Then, the sheet in which the data storage element 13 is in close contact with the adhesive layer 12 is wound by a winding device (not shown) and subjected to a known process in the label field such as printing, cutting, die cutting, etc.
0 can be produced. Note that a twin roll may be further provided after the contact device 80, and these may be sandwiched so that the data storage element 13 is securely embedded in the surface substrate 11. When the twin rolls are provided, the data storage element holding label 10 having the configuration shown in FIG. 5 can be easily manufactured.

Further, as the roll-shaped pressure-sensitive adhesive sheet 40, a sheet having a form in which the outer surface of the release paper 14 is provided with a release ability and the release paper 14a is not provided may be used. When such a roll-shaped pressure-sensitive adhesive sheet 40 is used, there is no need to wind and peel off the release paper 14a in the feeding device 50, so that the device can have a simple configuration. Further, as the placement device 60, a device having a mechanism for placing the sucked data storage element 13 on the adhesive layer 12 of the sheet 41 by blowing air may be used.
When such an arrangement device 60 is used, there is no need to provide an elevating unit, so that the device can have a simple configuration.

Further, in the case where the IC module type data storage element 13 in which the data storage section 13a protrudes is disposed, the data storage section 13a is provided on the upper surface of the pedestal 63 disposed below the seat 41. It is preferable that a concave portion is formed at a corresponding position so that the convex portion (data storage portion 13a) is not destroyed when the data storage element 13 is disposed on the adhesive layer 12. Even if the upper surface of the pedestal 63 and the suction portion 62 of the placement device 60 are formed of an elastic body such as a cushion material, the data storage portion 13a can be prevented from being broken. The arrangement device 60 is not particularly limited as long as the data storage elements 13 can be arranged on the adhesive layer 12 of the sheet 41. For example, the data storage elements 13 separated one by one It is also possible to adopt a method in which the pressure-sensitive adhesive layer 12 is adsorbed or held by an arm or the like and is placed on the pressure-sensitive adhesive layer 12. In addition, at least one roll surface of the pair of rolls 80 of the contact device 80 may be formed of an elastic body, or a concave portion may be formed on the roll surface of the data storage unit 13a (lower side) of the pair of rolls. It is preferable to use the formed roll so as not to damage or break the projection (the data storage unit 13a). When a twin roll is provided after the contact device 80, it is preferable to use the same roll surface so as not to damage or break the projection (the data storage unit 13a). Similarly, at least one roll surface of the data storage element supply device 61 may be formed of an elastic body, or a roll having a concave portion formed on the roll surface may be used as the roll in contact with the data storage unit 13a. Then, it is preferable to prevent the projection (the data storage unit 13a) from being damaged or destroyed. When using the surface base material 11 on which the data storage elements 13 are integrally formed in advance, the arrangement device 60 does not need to be provided, so that the device configuration can be further simplified. According to such a manufacturing method, the data storage element holding label 10 can be manufactured in a very simple process without damaging the data storage section 13a.

Such a data storage element holding label 10
Has excellent adhesive strength when attached to the object 20, is inexpensive, can be manufactured by a simple process, can protect the data storage element 13 from scratches and destruction, etc., and is thin and flexible. Can be stuck on goods. Therefore, there are no particular restrictions on its use, for example, in logistics, sales or airlines, etc., not only to manage them by attaching them to goods and baggage, but also to attach them to personal clothing and personal belongings, It can be used in a wide range of fields, such as being used as a commuter pass for various types of transportation, and used for entrance control at various institutions, companies, schools, etc.

[0029]

As described above, according to the present invention, the data storage element can be easily held on the surface base material, and the data storage element can be protected from damage or destruction, and can be used in a wide range of fields. The holding label can be provided by a simple process at a low cost. In particular, it can be manufactured by simply arranging a data storage element on a label precursor having a simple structure in which a surface substrate and an adhesive layer are laminated.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of a data storage element holding label which is one embodiment of the present invention.

FIG. 2 is a plan view of the data storage element holding label of FIG. 1;

FIG. 3 is a cross-sectional view showing another form of the data storage element holding label of the present invention.

FIG. 4 is a plan view illustrating one mode of a data storage element.

FIG. 5 is a cross-sectional view showing still another embodiment of the data storage element holding label of the present invention.

FIG. 6 is a schematic configuration diagram showing an example of an apparatus for manufacturing a data storage element holding label.

[Explanation of symbols]

10: data storage element holding label, 11: surface substrate, 1
1a: One surface of the surface substrate, 12: Adhesive layer, 12a ...
Exposed surface of the pressure-sensitive adhesive layer, 12b: surface facing the surface substrate in the pressure-sensitive adhesive layer, 13: data storage element, 13a: data storage unit, 13b: transmission / reception unit, 13c: one surface of the data storage element, 13d ... The other surface of the data storage element, 20: object

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Kenji Suzuki 27, Hirade Industrial Park, Utsunomiya City, Tochigi Pref. QB03 5B035 AA04 BA05 BB09 BC00 CA01 CA23

Claims (9)

[Claims] 1. A data storage element having a smaller area than the surface base material is disposed on one surface of the surface base material, and an adhesive layer having a larger area than the data storage element is disposed on the surface base material. The data storage element is held by the pressure-sensitive adhesive layer, and the exposed surface side of the pressure-sensitive adhesive layer is a data storage element holding label that can be attached to an object, and the pressure-sensitive adhesive layer before the data storage element is held is The surface base material is separate from the surface base material, and one surface of the data storage element is in close contact with the surface of the pressure-sensitive adhesive layer facing the surface base material. The data storage element holding label, wherein the other side of the data storage element is in contact with one side of the surface substrate. 2. The data storage element includes a substantially flat transmission / reception unit and a data storage unit protruding from one surface of the transmission / reception unit, and the other surface of the transmission / reception unit is the front surface. The data storage element holding label according to claim 1, wherein the data storage portion is in contact with one surface of the base material, and the data storage portion is covered with the adhesive layer. 3. The data storage element holding label according to claim 1, wherein the surface base has flexibility, and the data storage element is embedded in the surface base. 4. The data storage element according to claim 1, wherein an area of the data storage element is 64% or less of an area of the surface base material and the pressure-sensitive adhesive layer when viewed from a plane. The data storage element holding label of the description. 5. A data storage device having a data storage element on one surface of a surface base material, wherein the data storage element is formed by covering the data storage element with an adhesive layer, and the exposed side of the adhesive layer can be attached to an object. An element holding label, wherein the pressure-sensitive adhesive layer is separate from the surface base material, and the pressure-sensitive adhesive layer is laminated on a surface base material on which a data storage element is integrally formed in advance. Data storage element holding label to be characterized. 6. The data storage element holding label according to claim 5, wherein the data storage element is adhered to the surface substrate. 7. The data storage element has a substantially flat transmission / reception unit and a data storage unit protruding from one surface of the transmission / reception unit, and the transmission / reception unit prints on a surface base material. 6. The data storage element holding label according to claim 5, wherein the label is formed. 8. The data storage element holding label according to claim 1, wherein a release paper is provided on an exposed surface side of the pressure-sensitive adhesive layer. 9. The data storage element holding label according to claim 1, wherein a printable area is provided on an outer surface of the front substrate.