JP2006065745A - Label for book management - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve a writing-in and reading-out rate of information, when a label is stuck on a book. <P>SOLUTION: An antenna section 2 formed into a belt-shape, a conductive body section 3 which is different in the length of the antenna section 2 and is formed into a belt-shape, approximately parallel to the antenna section 2, and an IC chip 1 connected with the antenna section 2 are sandwiched among base materials 30. The length of the antenna section 2, that is longer between the antenna section 2 and conductive body section 3, is set to λ/2 or shorter, when the wavelength, obtained by a frequency used for writing and reading of the information with respect to an IC chip 1, and the permeability and the dielectric constant of the base material 30 is set to λ. A surface sheet 10 with a folding line 12 is stuck on the base material 30. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a book management label that can be attached to a book and can read information in a non-contact state.

  Conventionally, when managing a book, identification information for managing the book, such as a barcode or an identification number, is described on the cover or back cover of the book, or a label printed with the identification information is printed on the book. Affixed to the front cover or back cover. The identification information such as the barcode and identification number is managed in association with the book, and the book inventory management is performed by reading the identification information such as the barcode and identification number from the book in the storage location of the book such as a book shelf. It is carried out.

In recent years, a non-contact type IC label that can write and read information in a non-contact state is attached to a book, and the information written on the non-contact type IC label is read to manage the book. The system which performs is considered (for example, refer patent document 1, 2). In such a non-contact type IC label, communication is performed using a predetermined frequency with an information writing / reading device that writes and reads information with respect to the non-contact type IC label. Information is written from the writing / reading device, and information is read from the information writing / reading device. For this reason, the non-contact type IC label is designed such that the antenna resonates at the above frequency.
Japanese Patent Laid-Open No. 2001-240217 JP 2001-163417 A

  When the non-contact type IC label as described above is attached to a book, the frequency characteristic of the antenna of the non-contact type IC label is shifted in a low frequency direction because the book is made of a dielectric. Therefore, the resonance point of the antenna is shifted with respect to the frequency used for writing and reading information with respect to the non-contact type IC label in the information writing / reading device, and writing and reading information with respect to the non-contact type IC label. There is a risk that it will be impossible.

  In particular, such a phenomenon is noticeably generated in the case where an IC chip that performs communication using the frequency band of 2.45 GHz, which has been used in recent years to reduce the size and the communication distance, is mounted. End up.

  The present invention has been made in view of the problems of the conventional techniques as described above, and is a book management label that can improve the writing / reading rate of information even when attached to a book. The purpose is to provide.

In order to achieve the above object, the present invention provides:
A label for book management in which a release paper is attached to one surface of a base substrate via an adhesive, and the base substrate has a fold line that can be folded,
On the base substrate, two band-like conductive regions are formed with a predetermined interval so as to be substantially parallel to the fold line and arranged in series with each other, and
On the base substrate, at least one conductor portion having a different length from the antenna portion and formed in a strip shape substantially parallel to the antenna portion;
An IC chip connected to the two conductive regions and mounted on the base substrate,
When the length of the longest of the antenna part and the conductor part is λ, the wavelength obtained from the frequency used for writing and reading information to the IC chip and the magnetic permeability and dielectric constant of the base substrate , Λ / 2 or less.

  Further, the antenna portion and the conductor portion are formed on the base substrate so that the shortest length is on the fold line side.

  In the present invention configured as described above, the lengths of the longest ones of the antenna part and the at least one conductor part which are different from each other and which are provided between the base substrate and substantially parallel to each other are provided. However, when the wavelength obtained from the frequency used for writing and reading information with respect to the IC chip connected to the antenna unit and the magnetic permeability and dielectric constant of the base substrate is λ, it is λ / 2 or less. In the frequency used for writing and reading, a resonance point occurs in the longest of the antenna portion and the at least one conductor portion, and at a frequency higher than the frequency, the antenna portion and the at least one conductor portion Resonance points occur in the others.

  Such a book management label is bent at a fold line provided on the base substrate, and one region of the book management label is attached to one side of the book by an adhesive provided on one surface of the base substrate. The other region is pasted on one surface, and the other region is pasted on the surface adjacent to the surface on which one region of the base substrate is pasted, among the surfaces constituting the book.

  Thus, in the book management label affixed to the book, the frequency characteristic is shifted to a lower frequency direction by being affixed to the book, so that the frequency is higher than the frequency used for writing and reading information. If the generated resonance point shifts to the vicinity of the frequency used for writing and reading information, information can be written to and read from the IC chip, and the information writing / reading rate is improved.

  In addition, when the antenna part and the conductor part are formed on the base base so that the shortest part is on the fold line side, the other region is interposed via the fold line of the base base. The communicable distance on the surface side to which is attached is the longest.

  As described above, in the present invention, the longest length of the antenna portion and the conductor portion formed on the base substrate is configured so as to be attached to two adjacent surfaces of the book. When the wavelength obtained from the frequency used for writing and reading information and the magnetic permeability and dielectric constant of the base substrate is λ, it is λ / 2 or less, so there are multiple resonance points, which are attached to books. Thus, even when the frequency characteristic is shifted in the low frequency direction, the information writing / reading rate with respect to the IC chip can be improved.

  In addition, in the case where the antenna part and the conductor part are formed on the base base so that the shortest part is on the fold line side, the other part is interposed via the fold line of the base base. Because the communicable distance on the surface side where the area is affixed is the longest, if the book management label is affixed to the book so that the other area of the base substrate is affixed to the spine of the book, the book will become a bookshelf etc. Information can be written to the IC chip in a state of being housed in the IC chip.

  Embodiments of the present invention will be described below with reference to the drawings.

(First embodiment)
1A and 1B are diagrams showing a first embodiment of a book management label according to the present invention, in which FIG. 1A is a top view, FIG. 1B is a cross-sectional view taken along line AA ′ shown in FIG. () Is a figure which shows the structure on the resin sheet 31 shown to (b).

  In this embodiment, as shown in FIG. 1, the base substrate 30 composed of a resin sheet 31 and a film sheet 32 bonded to each other through an adhesive 20c is peeled off from the base sheet 30 through the first adhesive 20a. Paper 40 is affixed, and the top sheet 10 is affixed to the resin sheet 31 side of the base substrate 30 via the second adhesive 20b.

On the resin sheet 31, an antenna portion 2 composed of two strip-shaped conductive regions 2a and 2b and a strip-shaped conductor portion 3 are formed, and the two conductive regions 2a and 2b are in series with each other. The IC chips 1 are mounted so as to be connected to the two conductive regions 2a and 2b. The IC chip 1 can write and read information in a non-contact state via the antenna unit 2. Further, the antenna section 2 and the conductive portion 3 are formed substantially parallel to each other, and the length l ₂ of the length l ₁ and the conductor portion 3 of the antenna portion 2, a relation of l _1> l ₂ It has become. Further, writing and reading of information with respect to the IC chip 1 is performed using a specific frequency by an information writing / reading device (not shown) provided externally. When the wavelength determined by the magnetic permeability and the dielectric constant is λ, the length l ₁ of the antenna portion 2 which is the longer of the antenna portion 2 and the conductor portion 3 is λ / 2. Further, the distance d between the antenna portion 2 and the conductor portion 3 is λ / 6.

  The top sheet 10 is made of thermal paper, YUPO paper, or paper, and is longer in the longitudinal direction with respect to the base substrate 30, so that a foldable fold line 12 is formed. The side where the base material 30 is affixed becomes the first region 11a, and the opposite side via the fold line 12 becomes the second region 11b narrower than the first region 11a. In addition, the adhesive 20b is apply | coated to the whole surface by which the base base material 30 of the surface sheet 10 was affixed, The 1st area | region 11a is the base base material 30, and 2nd by this adhesive 20b. The regions 11b are bonded to the release paper 40, respectively.

  FIG. 2 is a diagram for explaining a method of using the book management label 100 shown in FIG.

  As shown in FIG. 2, the book management label 100 as shown in FIG. 1 is peeled off from the release paper 40 and folded at the fold line 12 of the top sheet 10, and the first region 11 a is covered on the cover. The second region 11b is used by being attached so that it is attached to the spine.

In book management label 100 shown in FIG. 1, the antenna unit 2 and the conductive portions 3 formed on the resin sheet 31, the antenna section 2 of the length l ₁ and the conductive portion 3 and a length l ₂ Is formed so that l ₁ > l ₂ , the conductor part 3 acts as a waveguide of the antenna part 2, and the conductor part 3 acting as a waveguide is folded. Since it is formed on the 12 side, the radio wave is guided to the folding line 12 side. Thereby, when the book management label 100 is affixed to the book 90 as shown in FIG. 2, the communication distance on the back cover side of the book 90 is maximized, and the book 90 is stored in a bookshelf or the like. Information can be written or read from the cover side.

  Below, operation | movement of the label 100 for book management mentioned above is demonstrated.

  FIG. 3 is a diagram for explaining the operation of the book management label 100 shown in FIG. 1 and shows the return loss of the non-contact type information recording medium with respect to the frequency used for writing or reading information on the IC chip 1.

In book management label 100 shown in FIG. 1 is different from the length l ₂ of the length l ₁ and the conductor portion 3 of the antenna portion 2 with each other, and long of an antenna unit 2 and the conductive portion 3 Since the length l ₁ of the antenna section 2 is _one half of the wavelength λ obtained from the frequency used for writing and reading information to the IC chip 1 and the magnetic permeability and dielectric constant of the base substrate 30. As shown in FIG. 3, there are two resonance points, a peak point A that is a resonance point in the antenna portion 2 and a peak point B that is a resonance point in the conductor portion 3.

Here, the wavelength λ described above is the speed of light when the frequency used for writing or reading information to the IC chip 1 is f, the relative permeability of the base substrate 30 is μs, and the relative permittivity of the base substrate 30 is εs. Using c, it can be uniquely determined by λ = c / (f × (μs × εs) ^1/2 ). For example, when the frequency used for writing or reading information on the IC chip 1 is 2.45 GHz and the resin sheet 31 and the film sheet 32 are made of PET (relative magnetic permeability: 1, relative dielectric constant: 3), 0 × 10 ⁸ [m] / (2.45 × 10 ⁹ × (1 × 3) ^1/2 ) ≈0.07 [m]. Therefore, in this case, if the length of the antenna portion 2 is 3.5 cm and the length of the conductor portion 3 is shorter than 3.5 cm, two resonance points can be obtained as shown in FIG. . At this resonance point, the dielectric constant of the base substrate 30 on which the antenna unit 2 and the conductor unit 3 are formed is also affected. When a base substrate 30 having a high dielectric constant such as ceramic is used, the frequency characteristics of the antenna unit 2 and the conductor unit 3 are shifted in the low frequency direction. Therefore, depending on the dielectric constant of the base substrate 30, the length l ₁ of the antenna part 2 which is the longer of the antenna part 2 and the conductor part 3 is shortened to about λ / 6 by setting it to λ / 2 or less. Can do.

  Here, the effect of the presence of two resonance points as described above will be described.

When the book management label 100 is affixed to the book 90 as shown in FIG. 2, since the book 90 is made of a dielectric, the frequency characteristics of the antenna of the book management label 100 affixed to the book 90 are It will shift in the lower frequency direction. Therefore, when going to write and read information to the IC chip 1 at a frequency f _a of the peak point A as shown in FIG. 3, the return loss curve is moved in the X-direction in FIG. 3, the peak point A frequency f _Since it deviates from “ _a” , it becomes impossible to write and read information with respect to the IC chip 1.

However, in this embodiment, since there are two resonance points, that is, a peak point A that is a resonance point in the antenna unit 2 and a peak point B that is a resonance point in the conductor portion 3, the return loss curve is shown in FIG. moves in the X direction, even if the peak point a is deviated from the frequency f _a, another peak point B is if in the vicinity of the frequency f _a, the writing and reading of data to the IC chip 1 Thus, the information writing / reading rate with respect to the IC chip 1 is improved. Note that the frequency of the peak point A is such that the length l ₁ of the antenna part 2 which is the longer of the antenna part 2 and the conductor part 3 is λ / 2, so that information is written to and read from the IC chip 1. Is set to _a frequency fa.

Further, in the length l ₂ of the conductor part 3 which is the shorter of the antenna part 2 and the conductor part 3, the frequency f _b of the resonance point in the conductor part 3 is determined by the length l ₂ . However, for example, when the frequency used for writing or reading information to / from the IC chip 1 is 2.45 GHz as described above, the frequency f _b may be practically set to 5 GHz or less. 0.0 × 10 ⁸ [m] / (5 × 10 ⁹ × (1 × 3) ^1/2 ) ≈0.03 [m], preferably 1.5 cm or more.

  Further, in the writing and reading of information with respect to the IC chip 1, it is possible when the return loss is −15 dB or less, but the return loss curve shown in FIG. 3 is the distance d between the antenna unit 2 and the conductor unit 3. When the distance d between the antenna portion 2 and the conductor portion 3 is λ / 6 or less as in the present embodiment, the region where the return loss is −15 dB or less increases.

  In this embodiment, the base sheet 30 is configured by bonding the resin sheet 31 and the film sheet 32 via the adhesive 20 c so that the conductor 3 and the antenna section 2 are sandwiched between the base sheet 30. The IC chip 1 is connected to the conductive regions 2a and 2b and is sandwiched between the base substrates 30. However, the present invention is not limited to such a configuration. As the simplest configuration, the base substrate 30 may be configured by only one layer of the resin sheet 31. In that case, the conductor part 3 and the antenna part 2 are formed on the resin sheet 31 and the IC chip 1 is mounted connected to the conductive regions 2a and 2b, and the release paper 40 is interposed via the adhesive 20c. Will be affixed. It is also conceivable that the fold line 12 is provided on the base substrate 30 without providing the topsheet 10 so that the base substrate 30 itself can be bent.

(Second Embodiment)
4A and 4B are diagrams showing a second embodiment of the book management label of the present invention, in which FIG. 4A is a top view, FIG. 4B is a cross-sectional view taken along line AA ′ shown in FIG. (A) is a figure which shows the structure on the resin sheet 131 shown to (b).

  In this embodiment, as shown in FIG. 4, the base substrate 130 made of a resin sheet 131 and a film sheet 132 bonded to each other via an adhesive 120c is peeled off to the film sheet 132 side via the first adhesive 120a. Paper 140 is affixed, and the top sheet 110 is affixed to the resin sheet 131 side of the base substrate 130 via the second adhesive 120b.

On the resin sheet 131, an antenna portion 102 composed of two strip-shaped conductive regions 102a and 102b and a strip-shaped conductor portion 103 are formed, and the two conductive regions 102a and 102b are in series with each other. The IC chips 101 are mounted so as to be connected to the two conductive regions 102a and 102b. The IC chip 101 can write and read information in a non-contact state via the antenna unit 102. Further, the antenna portion 102 and the conductor portion 103 are formed substantially parallel to each other, and the length l ₁ of the antenna portion 102 and the length l ₂ of the conductor portion 103 are such that l ₁ <l ₂ . It has become. Further, writing and reading of information with respect to the IC chip 101 is performed using a specific frequency by an information writing / reading device (not shown) provided externally. When the wavelength determined by the magnetic permeability and the dielectric constant is λ, the length l ₂ of the longer conductor portion 103 of the antenna portion 102 and the conductor portion 103 is λ / 2. Further, the distance d between the antenna portion 102 and the conductor portion 103 is λ / 6.

  The top sheet 110 is made of thermal paper, YUPO paper, or paper, and is longer in the longitudinal direction with respect to the base substrate 130, and a foldable fold line 112 is formed. The side where the base material 130 is affixed becomes the first region 111a, and the opposite side via the fold line 112 becomes the second region 111b narrower than the first region 111a. Note that an adhesive 120b is applied to the entire surface of the surface sheet 110 to which the base substrate 130 is attached, and the first region 111a is connected to the base substrate 130 and the second substrate by the adhesive 120b. The regions 111b are bonded to the release paper 140, respectively.

Also in the book management label configured as described above, the length l ₁ of the antenna portion 102 and the length l ₂ of the conductor portion 103 are different from each other, and the antenna portion 102 and the conductor portion 103 are The length l ₂ of the longer conductive portion 103 is ½ of the wavelength λ obtained from the frequency used for writing and reading information to the IC chip 101 and the magnetic permeability and dielectric constant of the base substrate 130. Therefore, there are two resonance points at which information can be written to and read from the IC chip 101, so that when the book management label is attached to the book, the information can be written to the IC chip 101. / Reading rate can be improved.

In the book management label shown in FIG. 4, the antenna portion 102 and the conductor portion 103 formed on the resin sheet 131 include the length l ₁ of the antenna portion 102 and the length l _{2 of the} conductor portion 103. Is formed such that l ₁ <l ₂ , the conductor portion 103 acts as a reflector of the antenna portion 102, and the antenna portion 102 is formed on the folding line 112 side. Therefore, the radio wave is propagated to the folding line 112 side. Thereby, when the book management label is affixed to the book 90 as shown in FIG. 2, the communication distance on the back cover side of the book 90 is maximized, and the book 90 is stored in a bookshelf or the like. Information can be written or read from the spine side.

  In this embodiment, the resin sheet 131 and the film sheet 132 are bonded via an adhesive 120c to form the base substrate 130, and the conductor portion 103 and the antenna portion 102 are sandwiched between the base substrates 130. The IC chip 101 is connected to the conductive regions 102a and 102b and sandwiched between the base substrates 130. However, the present invention is not limited to such a configuration. As the simplest configuration, the base substrate 130 may be composed of only one layer of the resin sheet 131. In that case, the conductor portion 103 and the antenna portion 102 are formed on the resin sheet 131, and the IC chip 101 is mounted so as to be connected to the conductive regions 102a and 102b, and the release paper 140 is interposed via the adhesive 120c. Will be affixed. It is also conceivable that the base substrate 130 is provided with a fold line 112 without being provided with the topsheet 110, so that the base substrate 130 itself can be bent.

(Third embodiment)
5A and 5B are diagrams showing a third embodiment of the book management label of the present invention, in which FIG. 5A is a top view, FIG. 5B is a cross-sectional view taken along line AA ′ shown in FIG. (A) is a figure which shows the structure on the resin sheet 231 shown to (b).

  In this embodiment, as shown in FIG. 5, the base substrate 230 composed of a resin sheet 231 and a film sheet 232 bonded to each other through an adhesive 220c is peeled off from the film sheet 232 side through the first adhesive 220a. Paper 240 is affixed, and the top sheet 210 is affixed to the resin sheet 231 side of the base substrate 230 via a second adhesive 220b.

On the resin sheet 231, an antenna portion 202 composed of two strip-shaped conductive regions 202 a and 202 b and strip-shaped conductor portions 203 a and 203 b are formed, and the two conductive regions 202 a and 202 b are mutually connected. The IC chip 201 is mounted so as to be connected to the two conductive regions 202a and 202b. The IC chip 201 can write and read information in a non-contact state via the antenna unit 202. The antenna portion 202 and the conductor portions 203a and 203b are formed substantially parallel to each other, and the length l ₁ of the antenna portion 202, the length l ₂ of the conductor portion 203a, and the length l of the conductor portion 203b. ₃ has a relationship of l ₂ > l ₁ > l ₃ . Further, writing and reading of information with respect to the IC chip 201 is performed using a specific frequency by an information writing / reading device (not shown) provided outside. When the wavelength determined by the magnetic permeability and the dielectric constant is λ, the length l ₂ of the conductor portion 203a that is the longest of the antenna portion 202 and the conductor portions 203a and 203b is λ / 2. Yes. Further, the distances d ₁ and d ₂ between the antenna portion 202 and the conductor portions 203a and 203b are λ / 6, respectively.

  The top sheet 210 is made of thermal paper, YUPO paper, or paper, and is longer in the longitudinal direction with respect to the base substrate 230, and a foldable fold line 212 is formed. The side where the base material 230 is affixed becomes the first region 211a, and the opposite side via the folding line 212 becomes the second region 211b narrower than the first region 211a. Note that an adhesive 220b is applied to the entire surface of the surface sheet 210 on which the base substrate 230 is attached, and the first region 211a is connected to the base substrate 230 and the second substrate by the adhesive 220b. The regions 211b are bonded to the release paper 240, respectively.

In the book management label configured as described above, the antenna portion 202 and the conductor portions 203a and 203b formed on the resin sheet 231 are the length l ₁ of the antenna portion 202 and the length of the conductor portion 203a. Since the relationship between l ₂ and the length l ₃ of the conductor part 203b is such that l ₂ > l ₁ > l ₃ , the conductor part 203b acts as a waveguide of the antenna part 202. In addition, the conductor portion 203a acts as a reflector of the antenna portion 202, the conductor portion 203b acting as a waveguide is on the folding line 212 side, and the conductor portion 203a acting as a reflector is Since they are formed on the opposite sides, the radio waves are propagated to the folding line 212 side. Thereby, when the book management label is affixed to the book 90 as shown in FIG. 2, the communication distance on the back cover side of the book 90 is maximized, and the book 90 is stored in a bookshelf or the like. Information can be written or read from the spine side.

  The operation of the book management label described above will be described below.

  FIG. 6 is a diagram for explaining the operation of the book management label shown in FIG. 5 and shows the return loss of the non-contact information recording medium with respect to the frequency used for writing or reading information on the IC chip 201.

In the book management label shown in FIG. 5, the length l ₁ of the antenna portion 202, the length l ₂ of the conductor portion 203a, and the length l ₃ of the conductor portion 203b are different from each other, and the antenna portion 202 The length l ₂ of the conductor portion 203a, which is the longest of the conductor portions 203a and 203b, is the frequency used for writing and reading information to and from the IC chip 201, and the magnetic permeability and dielectric constant of the base substrate 230. Therefore, as shown in FIG. 6, the peak point A that is the resonance point in the conductor portion 203a, the peak point B that is the resonance point in the antenna portion 202, and the conductor There are three resonance points with the peak point C which is the resonance point in the portion 203b.

Here, for the wavelength λ described above, the frequency used for writing or reading information to the IC chip 201 is 2.45 GHz, and the base substrate 230 is made of PET (relative magnetic permeability: 1, relative dielectric constant: 3). 3.0 × 10 ⁸ [m] / (2.45 × 10 ⁹ × (1 × 3) ^1/2 ) ≈0.07 [m]. Therefore, in this case, if the length of the conductor portion 203a is 3.5 cm and the length of the antenna portion 202 and the conductor portion 203b is shorter than 3.5 cm, three resonance points as shown in FIG. Can be obtained. At this resonance point, the dielectric constant of the base substrate 230 on which the antenna portion 202 and the conductor portions 203a and 203b are formed is also affected. In the case where a material having a high dielectric constant such as ceramic is used as the base substrate 230, the frequency characteristics of the antenna portion 202 and the conductor portions 203a and 203b are shifted in the low frequency direction. Therefore, depending on the dielectric constant of the base substrate 230, the length l ₁ of the conductor portion 203a that is the longest of the antenna portion 202 and the conductor portions 203a and 203b is about λ / 6, where λ / 2 is λ / 2. Can be shortened.

As described above, in this embodiment, the peak point A that is the resonance point in the conductor portion 203a, the peak point B that is the resonance point in the antenna portion 202, and the peak point C that is the resonance point in the conductor portion 203b. Since there are three resonance points, when the book management label is attached to the book, the return loss curve moves in the X direction in FIG. 6, and the peak point A is written to the IC chip 201. even when deviated from the frequency f _a for reading, remaining two peaks points B, if in the vicinity of either the frequency f _a and C, the writing and reading of data to the IC chip 201 Thus, the information writing / reading rate with respect to the IC chip 201 is improved.

In addition, in the length l ₃ of the conductor portion 203b that is the shortest of the antenna portion 202 and the conductor portions 203a and 203b, the frequency f _c of the resonance point in the conductor portion 203b depends on the length l ₃ . Although will depend, for example, when the frequency used for writing or reading the information from or to the IC chip 201 as described above was 2.45 GHz, practical, the resonance frequency f _c may be set below 5GHz Therefore, from 3.0 × 10 ⁸ [m] / (5 × 10 ⁹ × (1 × 3) ^1/2 ) ≈0.03 [m], it is preferably set to 1.5 cm or more.

In addition, in the writing and reading of information with respect to the IC chip 210, it is possible when the return loss is −15 dB or less, but the return loss curve shown in FIG. 6 is the difference between the antenna portion 202 and the conductor portions 203a and 203b. The return loss also becomes -15 dB or less when the distances d ₁ and d ₂ between the antenna portion 202 and the conductor portions 203a and 203b are λ / 6 or less as in this embodiment. The area increases.

  In this embodiment, the resin sheet 231 and the film sheet 232 are bonded to each other through the adhesive 220 c to form the base substrate 230, and the conductor portions 203 a and 203 b and the antenna unit 202 are sandwiched between the base substrates 230. The IC chip 201 is connected to the conductive regions 202a and 202b and is sandwiched between the base substrates 230, but the present invention is limited to such a configuration. Instead, the base substrate 230 may be configured by only one layer of the resin sheet 231 as the simplest configuration. In that case, the conductor portions 203a and 203b and the antenna portion 202 are formed on the resin sheet 231, and the IC chip 201 is mounted connected to the conductive regions 202a and 202b, and is peeled off via the adhesive 220c. Paper 240 will be affixed. It is also conceivable that the base substrate 230 is provided with a fold line 212 and the base substrate 230 itself can be folded without providing the top sheet 210.

It is a figure which shows 1st Embodiment of the label for book management of this invention, (a) is a top view, (b) is AA 'sectional drawing shown to (a), (c) is (b) It is a figure which shows the structure on the resin sheet shown to). It is a figure for demonstrating the usage method of the label for book management shown in FIG. It is a figure for demonstrating operation | movement of the book management label shown in FIG. It is a figure which shows 2nd Embodiment of the label for book management of this invention, (a) is a top view, (b) is AA 'sectional drawing shown to (a), (c) is (b) It is a figure which shows the structure on the resin sheet shown to). It is a figure which shows 3rd Embodiment of the label for book management of this invention, (a) is a top view, (b) is AA 'sectional drawing shown to (a), (c) is (b) It is a figure which shows the structure on the resin sheet shown to). It is a figure for demonstrating operation | movement of the label for book management shown in FIG.

Explanation of symbols

1, 101, 201 IC chip 2, 102, 202 Antenna portion 2a, 2b, 102a, 102b, 202a, 202b Conductive region 3, 103, 203a, 203b Conductor portion 10, 110, 210 Top sheet 11a, 111a, 211a First 1 region 12a, 112a, 212a 2nd region 12, 112, 212 Folding line 20a-20c, 120a-120c, 220a-220c Adhesive 30, 130, 230 Base substrate 31, 131, 231 Resin sheet 32, 132 , 232 Film sheet 40, 140, 240 Release paper 90 Book 100 Book management label

Claims (2)

A label for book management in which a release paper is attached to one surface of a base substrate via an adhesive, and the base substrate has a fold line that can be folded,
On the base substrate, two band-like conductive regions are formed with a predetermined interval so as to be substantially parallel to the fold line and arranged in series with each other, and
On the base substrate, at least one conductor portion having a different length from the antenna portion and formed in a strip shape substantially parallel to the antenna portion;
An IC chip connected to the two conductive regions and mounted on the base substrate,
When the length of the longest of the antenna part and the conductor part is λ, the wavelength obtained from the frequency used for writing and reading information to the IC chip and the magnetic permeability and dielectric constant of the base substrate , Λ / 2 or less, a book management label. The book management label according to claim 1,
The book management label, wherein the antenna part and the conductor part are formed on the base substrate so that the shortest part is on the fold line side.

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