JP2012003318A - Management system of paper medium and electronic medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a management system of a paper medium and an electronic medium, which indicates stable legibility and can be easily introduced/installed even to an existing metallic shelf or the like.SOLUTION: The management system includes an RFID tag, a sheet for communication, an RFID reader-writer, and a management device. The RFID tag has management information including identification information of the paper medium and the electronic medium and is provided in the paper medium and the electronic medium. The communication sheet reads the management information from the RFID tag and transmits it through the communication sheet by using electromagnetic waves generated from the surface. The RFID reader-writer reads the management information from the transmitted electromagnetic waves. The management device continuously records the presence/absence of the paper medium and the electronic medium on the basis of the read management information and the management information registered in the management device beforehand and thus manages the lending or returning situations, present location or utilization frequency and time of the paper medium and the electronic medium.

Description

  The present invention relates to a paper medium and electronic medium management system using a communication sheet having a two-dimensional spread.

  Currently, a library management system using a computer is adopted in public libraries and school libraries. For example, a book management system comprising an ID card for identifying a user with a magnetic stripe, a barcode label for identifying a book attached to a book, and a terminal device installed at a book lending window It has been put into practical use. In such a book management system, a library clerk lends or returns books by reading ID card data and book barcode data.

  In addition, an automatic book lending / returning system has been proposed in which the user himself can lend or return books for the purpose of reducing the work of library staff who lend or return books. For example, a data processing device that allows a user to directly operate a key, an ID card reader that allows a user to insert his / her ID card, and a book transport device that automatically starts transporting a book when the user sets a book An automatic book lending / returning system has been proposed that includes a barcode reader that automatically reads a barcode label attached to a book being transported.

  In recent years, library systems using radio authentication technology called RFID (Radio Frequency IDentification) have been proposed. For example, a non-contact ID card incorporating a non-contact transmission mechanism for identifying a user and recording / updating use history in a non-contact manner, a device for reading / writing data of the non-contact ID card, and an integrated circuit A library comprising an RFID book classification label that has a chip and is attached to a book, a device that reads data of the RFID book classification label in a non-contact manner, and an entrance / exit gate device that is used for preventive purposes such as unauthorized removal of books. A system has been proposed. Library systems using wireless authentication technology called RFID often use the 13.56 MHz band. In the case of 13.56 MHz, since the tag structure is complicated, the price is high and the reading distance is short. For this reason, the mainstream RFID will be 952 MHz in the future. However, 952MHz has a long reading distance, but the radio waves fly too much, so when used for a library shelf, the tag information cannot be read due to radio wave interference, or tag information on another shelf that is not necessary. There is a problem that it can be read. In addition, there are restrictions on the use of metal shelves that reflect radio waves.

  On the other hand, in a book-forbidden book corner where carrying out and lending are prohibited, the lending process by bar code reading is not performed, and thus there is a situation that usage tendency and frequency of use cannot be grasped. On the other hand, in recent years, in order to improve library services and operate efficiently, it is required to grasp the usage trend and frequency of use of forbidden books.

Japanese Patent Laid-Open No. 2004-210446 JP 2007-82178 A

  An object of the present invention is to provide a paper medium and electronic medium management system that exhibits stable readability and can be easily introduced and installed on an existing metal shelf or the like. It is another object of the present invention to provide a paper medium and an electronic medium, and a paper medium and an electronic medium management system that can easily grasp the usage record of the electronic medium, especially a paper medium prohibited from being taken out such as a forbidden book corner that is difficult to grasp.

  As a result of investigations to solve the above problems, the present inventors have found that the problem can be solved by a paper medium and electronic medium management system using the following communication sheet.

Thus, according to the present invention, in a paper medium and electronic medium management system that performs lending, return, collection management, or usage status management of paper medium and electronic medium,
The management system includes an FRID tag, a communication sheet, an RFID reader / writer, and a management device.
The RFID tag has management information including identification information of a paper medium and an electronic medium, and is provided in the paper medium and the electronic medium.
The communication sheet uses electromagnetic waves generated from its surface, reads management information from the RFID tag and transmits it through the communication sheet,
The RFID reader / writer reads the management information from the transmitted electromagnetic wave,
The management device continuously records the presence / absence of the paper medium / electronic medium based on the read management information and the management information registered in advance in the management device, thereby renting the paper medium / electronic medium. There is provided a management system for paper media and electronic media, which is characterized by managing return status, location of presence, usage frequency and time.

  With the management system for paper media and electronic media using the communication sheet of the present invention, it can be easily and inexpensively installed and installed on existing shelves in libraries, rental items, offices, manufacturing sites, etc. Useful for renting / returning media and electronic media, and improving efficiency when checking collections. In addition, by grasping and managing the usage status of prohibited books, prohibited videos, CDs and DVDs in libraries, services can be improved and streamlined. Documents prohibited from being taken out of offices and manufacturing sites, and management of electronic media Security can be enhanced.

It is the schematic which shows an example of the whole structure of the book management system of this invention. It is the schematic which shows an example which affixes an RFID tag on a book in this invention. It is the schematic which shows an example which connects the several sheet | seat for communication with an RFID reader / writer in this invention. It is the schematic which shows another example which connects the several sheet | seat for communication with an RFID reader / writer in this invention. 2 shows an example of a flowchart for managing the usage status of books in the present invention.

The present invention relates to a paper medium and electronic medium management system that performs lending, return, collection management, or management related to usage status of paper medium and electronic medium.
The management system includes an FRID tag, a communication sheet, an RFID reader / writer, and a management device.
The RFID tag has management information including identification information of a paper medium and an electronic medium, and is provided in the paper medium and the electronic medium.
The communication sheet uses electromagnetic waves generated from its surface, reads management information from the RFID tag and transmits it through the communication sheet,
The RFID reader / writer reads the management information from the transmitted electromagnetic wave,
The management device continuously records the presence / absence of the paper medium / electronic medium based on the read management information and the management information registered in advance in the management device, thereby renting the paper medium / electronic medium. A management system for paper media and electronic media, which manages the return status, location, or usage frequency and time.
Here, the paper medium refers to books, documents, and the like, and the electronic medium refers to videos, CDs, DVDs, and the like.

A paper medium and electronic medium management system (hereinafter sometimes simply referred to as a management system) according to an embodiment of the present invention will be specifically described with reference to FIGS.
FIG. 1 is a schematic diagram illustrating an example of the overall configuration of the management system according to the present embodiment. This management system includes an RFID tag, a communication sheet, an RFID reader / writer (hereinafter sometimes referred to as R / W), a management PC that is a management device, and a host PC that controls the management PC. However, the host PC may be installed as necessary.

  The RFID tag is a minute tag composed of a semiconductor integrated circuit and an antenna, and enables reading and writing of electronic information in a non-contact manner. In the embodiment of the present invention, as shown in FIG. 2, the RFID tag is affixed to the spread on the cover of the book. Management information including identification information such as an ID number is written in the memory of the semiconductor integrated circuit of the RFID tag, and is associated with identification information exchanged by an external device using software in the management PC. Here, the identification information in the present invention is information used for identifying each medium or identifying the user of each medium with a management code given to each paper medium and electronic medium. is there.

  In the present invention, the communication sheet has a function of taking management information written in the RFID tag as an electromagnetic wave signal and transmitting it to the R / W using the electromagnetic wave generated from the sheet surface. In the present embodiment, the communication sheet is installed on the shelf of the bookshelf on which the paper medium and the electronic medium are arranged, and the paper medium and the electronic medium are further arranged thereon. When using electromagnetic waves with a frequency of 800 MHz to 10 GHz, particularly 952 MHz, which will become the mainstream in the future, radio communication will cause radio wave interference, radio wave interference will occur and RFID tag information cannot be read, and even book management information on another shelf will be read. However, in the above method, since the paper medium and the electronic medium provided with the RFID tag are arranged on the communication sheet, the electromagnetic wave including the management information is taken into the communication sheet at a very short distance. Such a problem does not occur. In addition, the conventional method using wireless communication is limited by metal shelves and cabinets that reflect radio waves, but such a problem does not occur when a communication sheet is used.

  The communication sheet is an antenna material for reading management information recorded on the RFID tag, and is connected to the R / W. A plurality of communication sheets can be connected to one R / W, and FIGS. 3 and 4 show an example in which eight communication sheets are connected. As the connection method, the termination of each communication sheet (antenna material) as shown in FIG. 3 is not connected, and the termination of each communication sheet (antenna material) as shown in FIG. Terminate may have a different channel connection. Note that the number of communication sheets connected to the R / W is not limited to these drawings, and may be more than eight or less.

  The R / W is a device that reads management information from an electromagnetic wave transmitted through a communication sheet under the control of the management PC. That is, R / W is the RFID reader in the present invention. The R / W is connected to the management PC by a cable. By reading the management information recorded on the RFID tag of the book by the R / W, the management PC inquires the management information registered in advance by the external device, and the management PC or the management PC and the host PC Paper media and electronic media can be managed. R / W can be installed in a vacant space such as a bookshelf.

  The management PC is a device that controls R / W reading operations and the like and manages paper media and electronic media based on management information read from RFID tags. That is, the management PC is a management device according to the present invention. The management PC includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), a display unit, an input unit, and the like.

  In the management system of the present invention, when the user leaves or leaves the room, the management information of the RFID tag of the paper medium and electronic medium possessed by the user is read, and the paper medium and electronic medium are lent and returned. It is possible to prevent the theft (unauthorized removal) of the paper medium and the electronic medium by monitoring whether or not this is done. In offices, manufacturing sites, etc., it is possible to enhance the security of management of documents that are prohibited to be taken out and electronic media.

  In addition, in a book-forbidden book corner that has been prohibited from being taken out or loaned, there is a situation in which it is not possible to grasp the usage trend and frequency of use because the lending process by bar code reading is not performed. On the other hand, the management system of the present invention can manage the frequency and time of taking out paper media and electronic media from the shelf of the bookshelf. For this reason, in order to improve the service and efficiently operate, it is possible to grasp the usage status of the forbidden book. In addition to the above-mentioned paper and electronic media that are prohibited from being taken out, not only for general books and rental products, but also to grasp consumer needs and to manage documents at offices, manufacturing sites, etc. It can be used effectively.

  In the management of the paper medium and the electronic medium, the management information transmitted from the R / W using the management PC or the management PC and the host PC, and the management information registered in advance in the management PC are used. And continuously recording the presence / absence of the paper medium and electronic medium, so that it is possible to grasp and manage not only the lending / return status but also the usage frequency and usage time. “Presence / absence of the paper medium and electronic medium” can be adjusted by the intensity (current) of electromagnetic waves transmitted to the communication sheet, but the paper medium or electronic medium equipped with the FRID tag is on the communication sheet or Whether or not the shortest distance from the communication sheet exists in a space within 20 cm.

  In the present embodiment, the communication sheet is composed of at least three layers of the following conductor A layer, base material layer, and conductor B layer. In order to perform two-dimensional communication, electromagnetic energy is confined in a sheet medium in such a communication sheet configuration, and the energy is used.

Conductor A layer:
It is a layer having a conductive performance, and the layer must have a conductive portion and a non-conductive portion, and the electrical resistance value of the conductive portion must be 1Ω / □ or less, thereby maintaining a good communication state. it can. When the electrical resistance value of the conductive portion of the conductor A layer exceeds 1 Ω / □ or less, electromagnetic energy cannot be propagated and contained in the sheet, and two-dimensional communication becomes impossible.

In order to impart the above-described conductive performance to the conductor A layer, a conductive material may be used for the conductor A constituting the conductive portion, and metals such as copper, silver, aluminum, stainless steel, and nickel may be used. Those containing carbon black are particularly good.
The electrical resistance value of the conductive part is preferably 0.001Ω / □ to 0.5Ω / □.

  The shape of the conductive portion of the conductor A layer is not particularly limited, but when considering the workability at the time of manufacturing the communication sheet, it is preferably a lattice shape or a honeycomb shape. Among them, it is particularly preferable that the lattice shape is 0.5 to 1.5 mm and the interval between the lattice lines is 5 to 10 mm.

  Moreover, it is preferable that the thickness of the conductor A layer is thicker than the conductor skin depth corresponding to the frequency of the electromagnetic wave propagating through the communication sheet, which makes it easier to confine the electromagnetic wave in the communication sheet. The thickness of the conductor A is preferably 0.0001 μm to 50 μm, more preferably 1 μm to 25 μm.

Base material layer:
The base material layer is made of a resin molded body or fiber structure base material having a relative dielectric constant of 1.0 to 5.0, more preferably 1.0 to 3.0, at a frequency of 800 MHz to 10 GHz. By using the base material having the above characteristics, the communication sheet can reduce the attenuation of electromagnetic waves propagating in the sheet, and exhibits extremely excellent two-dimensional communication performance.

  Examples of materials that satisfy the dielectric constant constituting the substrate include olefin resin (TPO), styrene resin (SBC), vinyl chloride resin (TPVC), urethane resin (PU), ester resin (TPE), and amide resin (TPAE). ) And fluorinated resin (PTFE). Among them, in consideration of relative permittivity and workability, polyolefins such as polyethylene (PE) and polypropylene (PP), polyethylene terephthalate (PET), polyethylene naphthalate (PEN), polybutylene terephthalate (PBT), polytrimethylene terephthalate (PTT) And polyester (PI) are preferable, and polyester and polyolefin are particularly preferable.

  Further, when the substrate is a resin molded body, it is preferably a porous material. Examples thereof include foamed polyethylene and foamed polypropylene. When the base material is a porous material, the porosity of the base material is increased and stable communication performance can be obtained. As long as it is a porous material, continuous foaming or independent foaming may be used. The porosity of the substrate is preferably 50% to 85%.

  Specific examples of the fiber structure include woven fabric, knitted fabric, and non-woven fabric. In this case, the fineness of one filament is preferably 0.5 dtex to 30 dtex, and more preferably 0.5 dtex to 10 dtex. When the substrate is a woven or knitted fabric, it is preferable to use a multifilament yarn having a total fineness of preferably 30 dtex to 1500 dtex, more preferably 30 dtex to 800 dtex. Further, when the base material is a woven fabric, the woven fabric density is preferably from 15 / inch to 200 / inch, and preferably from 15 / inch to 150 / inch. More preferred. The warp density and the weft density may be the same or different.

  The substrate is preferably a substrate having elastic properties. Examples thereof include a synthetic rubber sheet and an elastomer fiber structure. Examples of the synthetic rubber sheet include chloroprene rubber (CR), butyl rubber (IIR), nitrile rubber (NBR), ethylene / propylene rubber (EPM / EPDM), natural rubber (NR), urethane rubber, fluorine rubber, and silicone rubber. be able to.

  Examples of the substrate having the elastic properties include woven fabrics, knitted fabrics, and nonwoven fabrics using elastomer fibers, but nonwoven fabrics having a high porosity are preferable. Among them, it is preferable to use an elastomer fiber having a thickness of 0.1 μm to 20 μm. The flexible sheet for communication using a synthetic rubber sheet or an elastomer fiber structure having elastic properties is superior in flexibility and bending fatigue to a flexible sheet for communication using a normal resin sheet or the like. During transportation, it can be repeatedly folded or rolled.

The thickness of the base material is preferably 0.2 mm to 10 mm, more preferably 0.5 mm to 2.0 mm. The basis weight of the substrate is preferably 50 g / m ² to 800 g / m ² , more preferably 80 g / m ² to 300 g / m ² .

Conductor B layer:
The conductor B layer needs to have a conductive portion of 90% or more, preferably 95% or more, whereby a good communication state can be maintained.
The electric resistance value of the conductor B constituting the conductive part is preferably 1Ω / □ or less, more preferably 0.001Ω / □ to 0.5Ω / □. Here, when the electrical resistance value is 0.5Ω / □ or less and the workability at the time of manufacturing a communication sheet is considered, a material containing gold, silver, copper, aluminum, stainless steel, nickel is used as the conductor B It is preferable to do.

As a method for imparting the above-described conductive performance to the conductor B layer, a conductive material (conductor B) constituting the layer may be printed, plated, vapor-deposited, or laminated. In particular, plating or laminating a material containing a metal such as copper, silver, aluminum, or nickel is preferable because a thick metal film can be formed.
The thickness of the conductor B is usually preferably from 0.00001 μm to 50 μm, more preferably from 1 μm to 25 μm.

  In the present invention, in order to improve the durability of the communication sheet, the conductor A and the substrate are covered with the protective layer A on one side, or at least the conductor B is on the other side. The protective layer B is preferably covered.

  The protective layer A or B may be a resin, a sheet, or a film. Polyester films such as PET and PEN, polyolefin films such as PE and PP, films such as polyimide films and ethylene-vinyl alcohol films, and resins such as acrylic resins and urethane resins are included.

  Further, the protective layer A or B may be a fiber structure such as a woven fabric, a knitted fabric, or a non-woven fabric. Examples of the resin constituting the fiber include polyethylene terephthalate (PET), polyethylene naphthalate (PEN), polybutylene terephthalate (PBT), polyester such as polytrimethylene terephthalate (PTT), nylon 6, nylon 66, nylon 12, and the like. Examples thereof include aromatic polyamides such as aliphatic polyamide, polyparaphenylene terephthalamide, and polymetaphenylene terephthalamide, polypropylene (PP), polyethylene (PE), polycarbonate (PC), and polyimide (PI).

As described above, an elastomer resin or an elastomer nonwoven fabric may be used. Further, the protective layers A and B may be the same or different.
As described above, when the protective layer A is provided, as described above, the conductor A may be directly formed on the base material, and the protective layer A may be further coated thereon. The protective layer A on which the conductor A is formed and the base material may be joined and molded.
On the other hand, when providing the protective layer B, the protective layer B having the conductor B formed on the surface to be bonded to the base material is prepared, and this is bonded to the base material to produce a communication sheet. Also good.

  Further, the communication sheet preferably has a strip shape having a long side in the traveling direction of the electromagnetic wave to be transmitted, and a short side in the vertical direction with respect to the traveling method. More preferably, the length of the width in the vertical direction is approximately equal to a natural number multiple of half the wavelength of the electromagnetic wave and approximately equal to half the wavelength of the electromagnetic wave. Thereby, since the electromagnetic waves are efficiently resonated in the width direction, it is possible to transmit the electromagnetic waves with high efficiency and low loss, and the intensity of the electromagnetic waves leached from the lattice-shaped conductor A layer increases as a whole. Since the intensity of electromagnetic waves leached from the grid-like conductor A layer increases, it can be used as a communication sheet used for RFID, and can communicate with a FRID tag provided in a book placed on the communication sheet. it can.

The communication sheet may include an input interface that inputs the electromagnetic wave to be transmitted in a predetermined traveling direction. A W / R is connected to the input interface.
Next, in the management system of the present invention, the case of managing the usage status of paper media and electronic media will be described with reference to the flowchart of FIG.

  First, the acquired management information is taken into the management PC by the host PC. A process for associating the management information of the management PC and the management information (ID number, etc.) of the RFID tag is performed. Paper and electronic media that have undergone RFID registration processing are placed on the shelf and continuously checked for lending status. When a paper medium or an electronic medium is being lent out, “Lending” is displayed on the screen, and when placed on a shelf, “Unrented” is displayed on the screen. Based on the management information registered in advance in the management PC, whether or not the corresponding paper medium or electronic medium is on the shelf is recorded in the management PC. The host PC can aggregate the usage time and usage frequency from information such as the time when the paper medium and the electronic medium are continuously recorded on the management PC, the time when the electronic medium is returned, and the time when it is returned. Further, the location of the medium can be grasped from the management information transmitted from each communication sheet. From the information gathered in this way, libraries, etc. grasp the usage status of paper media and electronic media, improve library services and operate efficiently (for example, paper media, electronic media, especially paper that is prohibited from being taken out of banded books, etc.) Media, electronic media can be purchased and discarded).

  The paper medium and electronic medium management system of the present invention can be used for managing the use of paper medium and electronic medium in libraries, offices, factories and the like. It can also be used effectively for lending, returning, and collection management at libraries and rental stores. In particular, in collection management, etc., it is necessary to inquire and confirm registration information one by one, but if the management system of the present invention is used, the presence or absence of collections can be grasped instantaneously, and on a daily basis. You will be able to do this.

Claims (9)

In the paper and electronic media management system, which manages the rental, return, collection management, or usage status of paper and electronic media,
The management system includes an FRID tag, a communication sheet, an RFID reader / writer, and a management device.
The RFID tag has management information including identification information of a paper medium and an electronic medium, and is provided in the paper medium and the electronic medium.
The communication sheet uses electromagnetic waves generated from its surface, reads management information from the RFID tag and transmits it through the communication sheet,
The RFID reader / writer reads the management information from the transmitted electromagnetic wave,
The management device continuously records the presence / absence of the paper medium / electronic medium based on the read management information and the management information registered in advance in the management device, thereby renting the paper medium / electronic medium. A management system for paper media and electronic media, which manages return status, location, usage frequency and time.   2. The paper medium and electronic medium management according to claim 1, wherein the communication sheet is disposed on a shelf on which the paper medium and the electronic medium are disposed, and the paper medium and the electronic medium are disposed on the communication sheet. system. 2. The paper medium and electronic medium management system according to claim 1, wherein the communication sheet includes at least three layers of a conductor A layer, a base material layer, and a conductor B layer described below.
Conductor A layer: a layer having conductive performance, in which a conductive part and a non-conductive part are present, and an electrical resistance value of the conductive part is 1 Ω / □ or less Base material layer: frequency 800 MHz to 10 GHz A layer formed of a resin molded body or a fiber structure base material having a relative dielectric constant of 1.0 to 5.0 Conductor B layer: The conductive part exists over 90% or more, and the electrical resistance value of the conductive part is Layer that is 1Ω / □ or less   The paper medium and electronic medium management system according to claim 3, wherein the communication sheet has a strip shape having a long side in a traveling direction of the transmitted electromagnetic wave and a short side in a vertical direction.   The paper medium according to claim 4, wherein a length of a width in a direction perpendicular to a traveling direction of the transmitted electromagnetic wave is substantially equal to half of a wavelength of the transmitted electromagnetic wave so that the transmitted electromagnetic wave is a plane wave. Electronic media management system.   4. The paper medium and electronic medium management system according to claim 3, wherein the conductive portions of the conductor A layer have a lattice shape, the line width of the lattice is 0.5 mm to 1.5 mm, and the line interval is 5 mm to 10 mm.   The paper medium and electronic medium management system according to claim 3, wherein the base material layer is made of a foamed polypropylene resin or a foamed polyethylene resin having a porosity of 50% to 85%.   The paper medium and electronic medium management system according to claim 1, further comprising an input interface for inputting the electromagnetic wave to be transmitted in a predetermined traveling direction.   9. The paper medium and electronic medium management system according to claim 8, wherein an RFID reader / writer is connected to the input interface to transmit electromagnetic waves.