JP2024009513A - Article management system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an article management system that detects that a box body has been opened using a mechanism for reading information from an RFID tag when an article stored in the box body is managed by reading information from the RFID tag.

SOLUTION: An article management system includes: a storage unit 11 that includes an opening 14 for storing an article to which a management RFID tag is attached; a box body 10 that includes a lid body 15 that opens and closes the opening 14; an RFID reader 40a that reads information from the RFID tag by emitting a radio wave from an antenna 30a in the box body 10; and the RFID tag 20 for detection that is installed in the box body 10. The RFID reader 40a is set to a value at which an output of radio waves radiated from the antenna 30a allows information to be read from the RFID tag 20 via the antenna 30a only when the opening 14 is closed with the lid body 15.

SELECTED DRAWING: Figure 1

COPYRIGHT: (C)2024,JPO&INPIT

Description

The present invention relates to an article management system that stores articles to which RFID tags are attached in a box and manages the articles by reading information from the RFID tags.

In recent years, RFID tags that can write and read information in a non-contact state have been used for various purposes. For example, a technology has been considered in which an RFID tag is attached to an item such as a product, and information is written to or read from the RFID tag to manage the item. When managing goods using RFID tags in this way, it is possible to write and read information from multiple RFID tags at once, making it possible to improve the efficiency of work related to goods management. .

Patent Document 1 discloses a technology in which an RFID tag is attached to a product and payment is made by reading product information from the RFID tag. Specifically, the product with the RFID tag is placed into the storage chamber through the opening of the housing, and the payment is made by reading information from the RFID tag. In that case, to prevent information from being mistakenly read from an RFID tag located outside the containment chamber, the housing should be made of a material that reflects radio waves or a material that absorbs radio waves, and the opening of the housing should be blocked. It has a lid.

In this way, when goods with RFID tags are housed in a housing and the goods are managed by reading information from the RFID tags, the goods with RFID tags are managed by passing them through a so-called tunnel reader. It is possible to have a smaller and simpler configuration than the conventional one.

Patent No. 6200442

As mentioned above, when items with RFID tags are stored in a housing and the items are managed by reading information from the RFID tags, the housing is made of a material that reflects radio waves or a material that absorbs radio waves. By closing the opening with the lid, it is possible to prevent information from being erroneously read from an external RFID tag. However, even if the device has a lid, if the lid is opened while information is being written to or read from the RFID tag, data may be accidentally transmitted from the RFID tag located outside. There is a risk that the information may be read. In addition, if the lid is opened while the item is being managed by reading information from the RFID tag attached to the item, a new item will be stored inside the housing and the item will be stored inside the housing. It becomes impossible to manage the goods accurately.

Here, the device disclosed in Patent Document 1 has an opening/closing sensor that detects the open state or closed state of the lid body, but in that case, an RFID tag attached to the article to manage the article Since the opening/closing sensor will be installed separately from the mechanism for reading information from the There is a problem that new effort and cost are required.

The present invention has been made in view of the problems of the conventional technology as described above, and the present invention manages the articles by storing the articles attached with RFID tags in a box and reading information from the RFID tags. An object of the present invention is to provide an article management system that can detect that a box has been opened using a mechanism that reads information from an RFID tag.

In order to achieve the above object, the present invention has the following features:
An article management system for managing articles to which management RFID tags are attached,
The device is capable of accommodating an article to which the management RFID tag is attached, and has a accommodating portion having an opening for accommodating the article, and a covering portion that opens and closes the opening, and reflects radio waves. a box body made of a material that reflects radio waves or a material that absorbs radio waves, or surrounded by a material that reflects radio waves or a material that absorbs radio waves;
a first reading means for reading information from an RFID tag present in the box body via the first antenna by emitting radio waves from a first antenna provided in the box body;
a second reading means for reading information from an RFID tag present in the box via the second antenna by emitting radio waves from a second antenna provided in the box;
The distance from the second antenna in a state where the opening is not covered by the covering part is greater than the distance from the second antenna when the opening is covered by the covering part. and a detection RFID tag attached to a region inside the box body, which is also long,
The first reading means sets the output of the radio waves radiated from the first antenna to a first value that makes it possible to read information from all RFID tags present in the box via the first antenna. year,
The second reading means transmits the output of the radio waves radiated from the second antenna from the detection RFID tag to the second antenna only when the opening is covered with the covering part. a second value that allows the information to be read through;
moreover,
determining means for determining that the opening is closed by the covering portion when the second reading means reads information from the detection RFID tag via the second antenna; ,
The second reading means reads information from the detection RFID tag via the second antenna, and the determining means determines that the opening is closed with the covering part. In this case, the article management system includes reading control means for causing the first reading means to read information from the management RFID tag via the first antenna.

In the present invention configured as described above, an article to which a management RFID tag is attached is housed in a box, and a first reading means emits radio waves from a first antenna provided in the box. By doing so, information is read from the RFID tag present inside the box via the first antenna, and thereby the article to which the management RFID tag is attached is managed. In this case, the box body is capable of accommodating an article to which an RFID tag for management is attached, and has a accommodating section having an opening for accommodating the article, and a covering section that closes the opening in an openable/closable manner. is made of a material that reflects radio waves or absorbs radio waves, or is surrounded by a material that reflects radio waves or absorbs radio waves, so that the opening of the accommodating part is not covered by the covering part. In the blocked state, there is no risk of the first reading means reading information from an external RFID tag via the first antenna by mistake, and information can only be read from the management RFID tag. This means that the items stored in the box can be managed accurately. However, if the box is opened and the opening is not covered, there is a risk that the first reading means may mistakenly read information from the external RFID tag via the first antenna. arise.

Here, by emitting radio waves from a second antenna provided inside the box, a second reading means is provided for reading information from an RFID tag existing inside the box via the second antenna, and In this case, the distance from the second antenna when the opening is not covered by the covering is longer than the distance from the second antenna when the opening is covered by the covering. An RFID tag for detection is attached to the area, and the first reading means transmits the output of radio waves radiated from the first antenna from all the RFID tags present inside the box through the first antenna. Although the first value is set so that the information can be read, the second reading means detects the output of the radio waves radiated from the second antenna only when the opening is covered with the covering part. The second value allows information to be read from the RFID tag via the second antenna. Therefore, in the determination means, when information is read from the detection RFID tag by the second reading means via the second antenna, the determination means determines that the opening is closed with the covering part. After detecting that the box has been opened, the reading control means causes the first reading means to read information from the management RFID tag via the first antenna, thereby reading the management RFID tag. Manage items with attached.

In this way, a second reading means for reading information via a second antenna provided inside the box is provided, an RFID tag for detection is installed inside the box, and the output of radio waves radiated from the second antenna is is a second value that makes it possible to read information from the detection RFID tag via the antenna only when the opening is covered with the covering part, and the second reading means reads the second antenna. The article with the RFID tag attached is stored inside the box and the information is read from the RFID tag. Therefore, when managing goods, the fact that the box has been opened is detected using a mechanism that reads information from the RFID tag.

Further, the second reading means constantly radiates radio waves from a second antenna provided inside the box, and the first reading means emits radio waves for detection via the second antenna in the second reading means. When information is read from the RFID tag, by emitting radio waves from the first antenna provided inside the box, reading of information from the RFID tag located inside the box via the first antenna is started. For example, only when it is determined that the opening is blocked by the covering, radio waves are emitted from the first antenna to read information from the management RFID tag, reducing power consumption. be able to.

In addition, while the first reading means is reading the information from the management RFID tag through the antenna, the second reading means reads the RFID tag for detection through the second antenna. If an alarm is output when information can no longer be read from the tag, even if the box is opened and the opening is left unblocked while information is being read from the management RFID tag. It is possible to notify to that effect.

Furthermore, if the frequency band used by the first reading means to read information from the management RFID tag and the frequency band used by the second reading means to read information from the detection RFID tag are different from each other, There is no need to configure the information read from the RFID tag so that the information read from the detection RFID tag and the information read from the management RFID tag can be distinguished from each other.

According to the present invention, a second reading means for reading information via a second antenna provided inside the box is provided, an RFID tag for detection is attached inside the box, and radio waves radiated from the second antenna are provided. The output of is set as a second value that allows information to be read from the detection RFID tag via the antenna only when the opening is covered with the covering part, and the second value is set as the second value by the second reading means. Since the structure detects whether the box has been opened based on whether information is read from the detection RFID tag through the antenna of the When managing articles by reading the RFID tag, it is possible to detect that the box has been opened using a mechanism that reads information from the RFID tag.

Further, the second reading means constantly radiates radio waves from a second antenna provided inside the box, and the first reading means emits radio waves for detection via the second antenna in the second reading means. When information is read from the RFID tag, by emitting radio waves from the first antenna provided inside the box, reading of information from the RFID tag located inside the box via the first antenna is started. In devices, radio waves are emitted from the first antenna to read information from the management RFID tag only when it is determined that the opening is blocked by the covering, reducing power consumption. can be reduced.

In addition, while the first reading means is reading the information from the management RFID tag through the antenna, the second reading means reads the RFID tag for detection through the second antenna. For devices that output an alarm when information can no longer be read from the tag, the box may be opened while information is being read from the management RFID tag, and the opening may become unblocked. You can also notify that fact.

Furthermore, if the frequency band used by the first reading means to read information from the management RFID tag and the frequency band used by the second reading means to read information from the detection RFID tag are different from each other, There is no need to configure the information read from the RFID tag so that the information read from the detection RFID tag and the information read from the management RFID tag can be distinguished from each other.

1 is a diagram showing an embodiment of an article management system of the present invention. 2 is a diagram showing the configuration of the RFID tag shown in FIG. 1, (a) is a diagram showing a stacked state, (b) is a diagram showing the configuration of the front surface of the inlet, and (c) is a diagram showing the configuration of the back surface of the inlet. FIG. It is. FIG. 2 is a block diagram showing the configuration of the RFID reader shown in FIG. 1. FIG. FIG. 2 is a block diagram showing the configuration of the management personal computer shown in FIG. 1. FIG. FIG. 2 is a diagram for explaining the distance between an RFID tag attached to a lid and an antenna attached to a side surface of a housing part in the article management system illustrated in FIG. 1. FIG. FIG. 2 is a diagram for explaining articles that are housed in a box and are to be managed in the article management system shown in FIG. 1; FIG. 7 is a diagram showing the configuration of an RFID tag attached to an article housed in the box shown in FIG. 6, in which (a) is a diagram showing a stacked state, and (b) is a diagram showing a configuration of the surface of an inlet. . 2 is a flowchart for explaining processing when managing articles in the article management system shown in FIG. 1. FIG. It is a figure showing other embodiments of an article management system of the present invention. 10 is a diagram for explaining the distance between the RFID tag attached to the top surface of the drawer container in the box shown in FIG. 9 and the antenna attached to the side surface of the drawer. FIG.

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

<Overall composition>
FIG. 1 is a diagram showing one embodiment of the article management system of the present invention.

As shown in FIG. 1, this embodiment includes an RFID tag 20 and antennas 30a to 30d attached to a box 10, RFID readers 40a and 40b, and a management personal computer 50.

The box body 10 has a housing section 11 and a lid body 15.

The accommodating portion 11 has a rectangular bottom surface 13 and side surfaces 12a to 12d provided upright on each of the four sides of the bottom surface 13. An opening 14 for accommodating articles in the accommodating portion 11 is provided in a portion surrounded by the edges, that is, on the opposite side from the bottom surface 13. On each of the side surfaces 12a to 12d, a second antenna 30a is attached to the surface of the side surface 12a that is inside the housing section 11, and a second antenna 30a is attached to the surface that is inside the housing section 11 of each of the side surfaces 12b to 12d. 1 antennas 30b to 30d are attached.

The lid body 15 serves as a covering portion in the present invention. The lid 15 is rotatably attached to the end of the side surface 12c opposite to the bottom surface 13 by a hinge or the like, and closes the opening 14 so as to be openable and closable by rotating with respect to the side surface 12c. An RFID tag 20 is attached to the lid 15 on the surface that faces the accommodating portion 11 when the lid 15 closes the opening 14 . Thereby, the RFID tag 20 is attached to the area inside the box 10.

The housing portion 11 and the lid 15 are made of a material that reflects radio waves or a material that absorbs radio waves, and are made of metal, for example. Alternatively, the housing portion 11 and the lid 15 may be surrounded by a material that reflects radio waves or a material that absorbs radio waves.

The RFID reader 40a serves as a second reading means in the present invention. The RFID reader 40a is electrically connected via a cable to an antenna 30a attached to the side surface 12a of the accommodating part 11, and by emitting radio waves from the antenna 30a, the RFID reader 40a can detect radio waves from the RFID tag present in the box body 10. Information is read through the antenna 30a. The RFID reader 40a transmits information from the RFID tag 20 attached to the lid 15 through the antenna 30a only when the opening 14 is closed with the lid 15. is set to a value that makes it readable.

The RFID reader 40b serves as a first reading means in the present invention. The RFID reader 40b is electrically connected to the antennas 30b to 30d attached to the side surfaces 12b to 12d of the housing part 11 via cables, and the inside of the box body 10 is emitted from the antennas 30b to 30d. Information is read from the RFID tags present in the area via antennas 30b to 30d. The RFID reader 40b has the output of radio waves radiated from the antennas 30b to 30d set to a value that makes it possible to read information from all RFID tags present in the box body 10 via the antennas 30b to 30d.

The management computer 50 is electrically connected to the RFID readers 40a, 40b via a cable, and reads information from the RFID tag present in the box body 10 via the antennas 30a to 30d by the RFID readers 40a, 40b. In this way, the articles stored in the box 10 are managed, and it is detected whether the opening 14 of the storage section 11 is blocked.

<Configuration of RFID tag 20>
2A and 2B are diagrams showing the configuration of the RFID tag 20 shown in FIG. It is a figure showing the composition of the back side. Note that the configuration of the RFID tag 20 shown in FIG. 2 is just an example, and other configurations may be used as long as the information can be read by the RFID reader 40a.

The RFID tag 20 shown in FIG. 1 is for detecting whether or not the opening 14 of the accommodating portion 11 is blocked by the lid 15, and serves as a detection RFID tag in the present invention. It is. As shown in FIG. 2, the RFID tag 20 shown in FIG. It is composed of a so-called metal compatible tag.

The inlet 24 includes a base material 23, two antennas 22, an IC chip 21, and a metal layer 26.

The base substrate 23 is made of a non-conductive material such as a film.

The two antennas 22 are formed on one surface of a base material 23 so that two isosceles triangular conductors are lined up with a gap in between. Note that the shape of the antenna 22 is not limited to this, and various shapes can be considered, such as one in which two band-shaped conductors are arranged in a straight line with a gap in between, and one in which it is composed of one conductor.

The IC chip 21 is provided with two antenna terminals (not shown), and the surface on which the antenna terminals are provided serves as a mounting surface, and the IC chip 21 is mounted on the surface on which the antenna 22 of the base material 23 is formed, and is mounted on the surface on which the antenna 22 is formed. It is fixed with a directional conductive paste (not shown). The two antenna terminals of the IC chip 21 are connected to the two antennas 22, respectively, and the antenna terminals and the antennas 22 are electrically connected to each other by the anisotropic conductive paste. The IC chip 21 is operated by power obtained through contactless communication via the antenna 22 and transmits a unique ID, which is information encoded in advance in the IC chip 21, via the antenna 22 in a contactless manner.

The metal layer 26 is laminated on the surface of the base substrate 23 opposite to the surface on which the antenna 22 is formed, so as to cover the antenna 22 in a plan view.

The RFID tag 20 configured as described above is attached to the lid 15 with the adhesive layer 27b as shown in FIG. 1. As described above, the lid 15 is made of a material that reflects radio waves or a material that absorbs radio waves. However, in the RFID tag 20 to which the lid 15 is attached, a metal layer 26 is laminated on the surface of the base material 23 opposite to the surface on which the antenna 22 is formed so as to cover the antenna 22 in a plan view. By doing so, shortening of the communication distance in non-contact communication via the antenna 22 is suppressed.

<Configuration of RFID readers 40a, 40b>
FIG. 3 is a block diagram showing the configuration of the RFID readers 40a and 40b shown in FIG. 1.

As shown in FIG. 3, the RFID readers 40a and 40b shown in FIG. It has a receiving section 47 and a tag data reception processing section 48.

The duplexer 41 transmits the signal output from the RF transmitter 46 as a radio signal via the antennas 30a to 30d, and outputs the radio signal received by the antennas 30a to 30d to the RF receiver 47. In the case of the RFID reader 40a, the duplexer 41 transmits the signal output from the RF transmitter 46 as a radio signal via the antenna 30a, and also transmits the radio signal received by the antenna 30a to the RF receiver 47. Output. In the case of the RFID reader 40b, the duplexer 41 transmits the signal output from the RF transmitter 46 as a radio wave signal via the antennas 30b to 30d, and transmits the radio signal received by the antennas 30b to 30d to RF. It is output to the receiving section 47.

The tag data transmission processing unit 42 outputs a signal for detecting an RFID tag during polling, and also outputs a signal for reading information from the RFID tag by non-contact communication. In the case of the RFID reader 40a, the tag data transmission processing unit 42 outputs a signal for detecting the RFID tag 20 during polling, and also outputs a signal for reading information from the RFID tag 20 by non-contact communication. . In the case of the RFID reader 40b, the tag data transmission processing unit 42 outputs a signal for detecting an RFID tag 60 attached to an article 70 (described later) during polling, and also receives information from the RFID tag 60 via non-contact communication. Outputs a signal for reading.

The digital signal converter 43 converts the signal output from the tag data transmission processor 42 into an analog signal and outputs it to the RF transmitter 46, and also converts the signal received by the RF receiver 47 into a digital signal. and outputs it to the tag data reception processing section 48.

The communication unit 44 transmits and receives information to and from the management personal computer 50.

The RF transmitter 46 transmits the signal converted into a digital signal by the digital signal converter 43 onto a carrier wave via the duplexer 41 and the antennas 30a to 30d. In the case of the RFID reader 40a, the RF transmitter 46 transmits the signal converted into a digital signal by the digital signal converter 43 on a carrier wave via the duplexer 41 and the antenna 30a. In the case of the RFID reader 40b, the RF transmitter 46 transmits the signal converted into a digital signal by the digital signal converter 43 on a carrier wave via the duplexer 41 and the antennas 30b to 30d.

The RF receiving section 47 receives a response signal from the RFID tag in response to the signal transmitted from the RF transmitting section 46 via the antennas 30a to 30d and the duplexer 41. In the case of the RFID reader 40a, the RF receiving section 47 receives a response signal from the RFID tag 20 in response to the signal transmitted from the RF transmitting section 46 via the antenna 30a and the duplexer 41. In the case of the RFID reader 40b, the RF receiving section 47 receives a response signal from the RFID tag 60 in response to the signal transmitted from the RF transmitting section 46 via the antennas 30b to 30d and the duplexer 41.

The tag data reception processing unit 48 transmits the signal converted into a digital signal by the digital signal conversion unit 43 to the management personal computer 50 via the communication unit 44 as information read from the RFID tag. In the case of the RFID reader 40a, the tag data reception processing unit 48 sends the signal converted into a digital signal by the digital signal conversion unit 43 to the management personal computer 50 via the communication unit 44 as information read from the RFID tag 20. Send. In the case of the RFID reader 40b, the tag data reception processing unit 48 sends the signal converted into a digital signal by the digital signal conversion unit 43 to the management personal computer 50 via the communication unit 44 as information read from the RFID tag 60. Send.

<Configuration of management computer 50>
FIG. 4 is a block diagram showing the configuration of the management personal computer 50 shown in FIG. 1. Note that, in FIG. 4, illustrations and explanations of components of the management personal computer 50 that are not directly related to the present invention are omitted.

As shown in FIG. 4, the management personal computer 50 shown in FIG. .

The communication unit 51 transmits and receives information to and from the RFID readers 40a and 40b.

The reading control section 56 serves as a reading control means in the present invention. The reading control unit 56 transmits a command to read information from the RFID tag 20 to the RFID reader 40a via the communication unit 51, and also transmits a command to read information from the RFID tag 60 to the RFID reader 40b via the communication unit 51. Send via. The reading control unit 56 also receives information read from the RFID tag 20 by the RFID reader 40a via the communication unit 51, and receives information read from the RFID tag 60 by the RFID reader 40b via the communication unit 51. and receive it. Further, the reading control unit 56 controls the reading from the RFID tag 60 via the antennas 30b to 30d in the RFID reader 40b based on the information read from the RFID tag 20 by the RFID reader 40a and received via the communication unit 51. Control information reading behavior.

The open/close state determining section 53 serves as determining means in the present invention. The opening/closing state determining unit 53 determines whether the opening 14 of the box 10 is blocked by the lid 15 based on information received from the RFID reader 40a via the communication unit 51 by the reading control unit 56. do.

The article management section 54 manages the articles stored in the box 10 based on information received from the RFID reader 40b via the communication section 51 by the reading control section 56. For example, the article management section 54 has a database in which data regarding articles housed in the box 10 is registered, and the information registered in this database and the information received from the RFID reader 40b via the communication section 51. By comparing the items, the items stored in the box 10 are managed.

The output unit 55 is composed of a display or the like, and displays and outputs the determination result of the open/close state determination unit 53 and the management status of articles by the article management unit 54.

In this embodiment, the management personal computer 50 will be explained as an example, but any control device such as a computer capable of controlling the RFID readers 40a and 40b, including a portable terminal etc., may also have the above-described configuration. That's fine. Furthermore, the configuration of the management personal computer 50 described above may be installed in the RFID readers 40a, 40b. In that case, as described above, the opening/closing state determining unit 53 determines whether the opening 14 of the box 10 is blocked by the lid 15 based on the information received from the RFID reader 40a. Since the article management section 54 manages the articles housed in the box 10 based on the information received from the RFID reader 40b, the open/closed state determination section 54 is the one that manages the open/closed state determination section 53 and the article management section 54. The section 53 may be mounted on the RFID reader 40a, and the article management section 54 may be mounted on the RFID reader 40b. Further, as described later, the reading control unit 56 causes the RFID reader 40a to read information from the RFID tag 20 via the antenna 30a, and the opening/closing state determining unit 53 determines whether the opening 14 of the box 10 is 15, the RFID reader 40b reads information from the management RFID tag attached to the article housed in the box 10 via the antennas 30b to 30d. Therefore, when the configuration of the management personal computer 50 is installed in the RFID readers 40a and 40b, among the processes in the reading control unit 56, the process of switching the RFID reader that reads information from the RFID tag is performed by either the RFID readers 40a or 40b. On the other hand, it will be executed. When the above processing in the reading control unit 56 is executed by the RFID reader 40a, if the opening/closing state determining unit 53 determines that the opening 14 of the box 10 is blocked by the lid 15, the RFID reader The RFID reader 40b transmits a command to read information from the management RFID tag attached to the article housed in the box body 10 via the antennas 30b to 30d, and the RFID reader 40b reads the antennas 30b to 30d. Information is read from the management RFID tag attached to the article housed in the box body 10 via the box body 10. In addition, when the above processing in the reading control unit 56 is executed by the RFID reader 40b, if the opening/closing state determining unit 53 determines that the opening 14 of the box 10 is blocked by the lid 15, This information is transmitted from the RFID reader 40a to the RFID reader 40b, and the RFID reader 40b reads the information from the management RFID tag attached to the article housed in the box body 10 via the antennas 30b to 30d. Become.

<Processing in the goods management system>
Below, a description will be given of the processing when managing articles with the article management system configured as described above.

First, the distance between the RFID tag 20 attached to the lid 15 and the antenna 30a attached to the side surface 12a of the housing section 11 will be explained.

FIG. 5 is a diagram for explaining the distance between the RFID tag 20 attached to the lid 15 and the antenna 30a attached to the side surface 12a of the housing section 11 in the article management system shown in FIG.

In the article management system shown in FIG. 1, when the opening 14 of the box 10 is closed by the lid 15, as shown in FIG. 20 and the antenna 30a attached to the side surface 12a of the housing portion 11 is a first distance D1.

On the other hand, when the lid 15 is opened and the opening 14 of the box 10 is not blocked by the lid 15, as shown in FIG. The distance between the tag 20 and the antenna 30a attached to the side surface 12a of the housing section 11 is a second distance D2, which is longer than the first distance D1.

In this way, the RFID tag 20 has a surface that becomes the accommodating part 11 side when the lid 15 closes the opening 14, that is, a region inside the box 10 where the opening 14 of the box 10 is located on the lid. It is attached in a region where the distance from the antenna 30a in a state where the opening 14 of the box 10 is not covered by the lid 15 is longer than the distance from the antenna 30a when the opening 14 of the box 10 is covered by the lid 15. .

Therefore, the output of the radio waves radiated from the antenna 30a attached to the side surface 12a of the housing part 11 of the box body 10 is transmitted from the RFID tag 20 only when the opening part 14 is closed with the lid body 15. If the second value is set such that information can be read through the antenna 30a, the opening 14 of the box 10 is blocked by the lid 15 depending on whether the RFID reader 40a reads information from the RFID tag 20 through the antenna 30a. It is possible to judge whether the

Next, the articles to be managed that are housed in the box 10 will be explained.

FIG. 6 is a diagram for explaining articles stored in the box 10 and to be managed in the article management system shown in FIG. This is a diagram seen from.

As shown in FIG. 6, in the box 10 in the article management system shown in FIG. 1, a collapsible container 80 in which articles 70 are housed in rows and columns is housed in a storage section 11. An RFID tag 60 for management is affixed to each of the articles 70 in the foldable container 80 accommodated in the storage section 11 . A unique ID is written in the RFID tag 60, and in the article management section 54 of the management computer 50, this unique ID corresponds to information regarding the article to which the RFID tag 60 having the unique ID is attached. It is managed accordingly. Note that the collapsible container 80 is not made of a material that reflects or absorbs radio waves, so that the RFID reader 40b can detect the RFID tag attached to the article 70 housed in the collapsible container 80. Information can be read from the antenna 60 via the antennas 30b to 30d.

7 is a diagram showing the structure of the RFID tag 60 attached to the article 70 housed in the box 10 shown in FIG. FIG. 3 is a diagram showing the configuration of the surface. Note that the configuration of the RFID tag 60 shown in FIG. 7 is just an example, and other configurations may be used as long as the information can be read by the RFID readers 40b to 40d.

The RFID tag 60 attached to the article 70 housed in the box body 10 shown in FIG. This is a tag. As shown in FIG. 7, the RFID tag 60 has adhesive layers 67a and 67b laminated on the front and back sides of a band-shaped inlet 64, respectively, and a top sheet 65 is attached to the surface of the inlet 64 via the adhesive layer 67a. It is configured.

The inlet 64 includes a base material 63, two antennas 62, and an IC chip 61.

The base material 63 is made of a non-conductive material such as a film.

The two antennas 62 are formed on one surface of a base material 63 so that two isosceles triangular conductors are lined up with a gap in between. Since the antenna 62 has the above shape, it resonates at the same frequency as the RFID tag 20.

The IC chip 61 is provided with two antenna terminals (not shown), the surface on which the antenna terminals are provided serves as a mounting surface, and the IC chip 61 is mounted on the surface on which the antenna 62 of the base material 63 is formed, and is It is fixed with a directional conductive paste (not shown). The two antenna terminals of the IC chip 61 are connected to the two antennas 62, respectively, and the antenna terminals and the antennas 62 are electrically connected to each other by the anisotropic conductive paste. The IC chip 61 operates using electric power obtained through contactless communication via the antenna 62, and uses the same protocol as the RFID tag 20 to transmit a unique ID, which is information stored in the IC chip 61, via the antenna 62. Send contactless.

In the article management system of this embodiment, the article 70 is housed in the box 10 with the RFID tag 60 configured as described above attached to the article 70 as shown in FIG. By reading, the article 70 is managed.

FIG. 8 is a flowchart for explaining processing when managing articles in the article management system shown in FIG. Note that a description of the polling process performed prior to reading information from the RFID tags 20, 60 in the RFID readers 40a, 40b will be omitted.

When managing articles with the article management system shown in FIG. and is transmitted to the RFID reader 40a.

In the RFID reader 40a, when a command transmitted from the reading control unit 56 via the communication unit 51 is received via the communication unit 44, a signal is sent to read information from the RFID tag 20 according to the received command. is output from the tag data transmission processing section 42 and converted into an analog signal by the digital signal conversion section 43. At this time, the information read from the RFID tag 20 is a unique ID stored in the RFID tag 20, but a distinguishable ID is encoded between the RFID tag 20 and the RFID tag 60 attached to the article 70. By doing so, it is possible to easily determine whether the information read by the RFID reader 40a via the antenna 30a is the information read from the RFID tag 20 or the information read from the RFID tag 60 attached to the article 70. I can do it. For example, the RFID tag 20 is encoded with an ID that starts with the code "FFFF", and the RFID tag 60 attached to the article 70 is encoded with an ID that starts with a common code that starts with "AAAA", and the following are RFID codes. It is conceivable to encode an ID consisting of a unique code for each tag 60.

After that, in the RFID reader 40a, in the RF transmitter 46, the signal converted into an analog signal by the digital signal converter 43 is placed on a carrier wave, and transmitted via the duplexer 41 and the antenna 30a. A process of reading information from the tag 20 is executed (step S1).

When the RFID tag 20 receives a signal transmitted from the RF transmitter 46 of the RFID reader 40a via the duplexer 41 and the antenna 30a, the RFID tag 20 transmits a unique ID as a response signal to the RFID reader 40a. Ru. At this time, as described above, an ID starting with a code beginning with "FFFF" is encoded in the RFID tag 20, and an ID starting with a code beginning with "AAAA" is encoded into the RFID tag 60 attached to the article 70. As described above, when the information read from the RFID tag 20 includes a code that is distinguishable from the information read from the RFID tag 60, the reading control unit 56 is used to read the information from the RFID tag 20 at the RFID reader 40a. If the command sent via the communication unit 51 includes a command to send only IDs starting with the code "FFFF", filtering will be applied based on the ID, and the RFID tag 20 out of the RFID tags 20 and 60 will be It is possible to determine the ID transmitted from the RFID tag 20 by transmitting the ID only from the RFID tag 20.

As explained using FIG. 5, the RFID tag 20 has a distance from the antenna 30a within the area inside the box 10 when the opening 14 of the box 10 is not covered by the lid 15. It is attached in a region that is longer than the distance from the antenna 30a when the opening 14 of the box 10 is covered by the lid 15. Then, radio waves are radiated from the antenna 30a with an output that allows information to be read from the RFID tag 20 via the antenna 30a only when the opening 14 of the box 10 is closed with the lid 15. There is. Therefore, only when the opening 14 of the box 10 is covered by the lid 15, the RFID tag 20 transmits the unique ID as a response signal to the RFID reader 40a. Further, as described above, in the RFID tag 20, the metal layer 26 is laminated on the surface of the base substrate 23 opposite to the surface on which the antenna 22 is formed so as to cover the antenna 22 in a plan view. This prevents the communication distance in non-contact communication via the antenna 22 from becoming short even when attached to the lid body 15 made of metal.

When the unique ID of the RFID tag 20 transmitted as a response signal from the RFID tag 20 to the RFID reader 40a is received by the RF receiving section 47 of the RFID reader 40a via the antenna 30a and the duplexer 41 of the RFID reader 40a. In the RFID reader 40a, the signal received by the RF receiving section 47 is converted into a digital signal by the digital signal converting section 43, and then the RFID tag 20 converted into the digital signal is sent to the tag data reception processing section 48. The unique ID of is determined and transmitted to the management personal computer 50 via the communication unit 44.

When the unique ID of the RFID tag 20 transmitted from the RFID reader 40a is received by the reading control unit 56 via the communication unit 51 of the management PC 50, the opening/closing state determination unit 53 determines that the opening 14 is 15 (step S2).

In the management computer 50, the unique ID of the RFID tag 20 transmitted from the RFID reader 40a is received by the reading control unit 56 via the communication unit 51, and the opening/closing state determination unit 53 determines whether the opening 14 is 15, the reading control unit 56 transmits a command to read information from the RFID tag 60 via the antennas 30b to 30d to the RFID reader 40b via the communication unit 51. .

In the RFID reader 40b, when a command transmitted from the reading control unit 56 via the communication unit 51 is received via the communication unit 44, a signal is sent to read information from the RFID tag 60 according to the received command. is output from the tag data transmission processing section 42 and converted into an analog signal by the digital signal conversion section 43.

After that, in the RFID reader 40b, the RF transmitter 46 puts the signal converted into an analog signal by the digital signal converter 43 onto a carrier wave, and transmits it via the duplexer 41 and the antennas 30b to 30d. , a process of reading information from the RFID tag 60 is executed (step S3). At this time, the output of the radio waves radiated from the antennas 30b to 30d is set to a first value that makes it possible to read information from all the RFID tags 60 present in the box body 10 via the antennas 30b to 30d. By doing so, information can be read from all the RFID tags 60 attached to the articles 70 housed in the housing section 11 without missing any information. Note that, as described above, the articles 70 to which the RFID tags 60 are attached are housed in the collapsible container 80 housed in the box 10 in rows and columns. Therefore, when executing the process of reading information from the RFID tag 60, the output of radio waves radiated from the antennas 30b to 30d is transmitted to the RFID tag 60 present in the box body 10 through each of the antennas 30b to 30d. It is not necessary to set a value that allows information to be read from each, and information from all RFID tags 60 present in the box 10 can be read via at least one of the antennas 30b to 30d. It is sufficient if the value is set to .

On the other hand, if the unique ID from the RFID tag 20 is not transmitted to the RFID reader 40a via the antenna 30a and is not received by the reading control unit 56 via the communication unit 51 in the management personal computer 50, the reading control unit 56 In this case, no command to read information from the RFID tag 60 via the antennas 30b to 30d is sent to the RFID reader 40b.

When a signal transmitted from the RF transmitter 46 of the RFID reader 40b via the duplexer 41 and the antennas 30b to 30d is received by the RFID tags 20 and 60, a unique ID is sent from the RFID tags 20 and 60 as a response signal. It is transmitted to the RFID reader 40b. At this time, as described above, an ID that starts with the code "FFFF" is encoded in the RFID tag 20, and an ID that starts with the code "AAAA" is encoded in the RFID tag 60 attached to the article 70. If the RFID reader 40b reads information from the RFID tag 60, the command sent from the read control unit 56 via the communication unit 51 includes an instruction to send only IDs starting with the code "AAAA". If the ID is included, it is possible to filter the ID and transmit the ID only from the RFID tag 60 of the RFID tags 20 and 60.

The unique ID of the RFID tag 60 transmitted as a response signal from the RFID tag 60 to the RFID reader 40b is received by the RF receiving section 47 of the RFID reader 40b via the antennas 30b to 30d and the duplexer 41 of the RFID reader 40b. Then, in the RFID reader 40b, the signal received by the RF receiving section 47 is converted into a digital signal by the digital signal converting section 43, and then the RFID signal received by the tag data receiving processing section 48 is converted into a digital signal. The unique ID of the tag 60 is transmitted to the management personal computer 50 via the communication unit 44.

When the unique ID of the RFID tag 60 transmitted from the RFID reader 40b is received by the reading control unit 56 via the communication unit 51 of the management personal computer 50, the article management unit 54 updates it with the information registered in the database. The article 70 housed in the box 10 is managed by collating the information received by the reading control unit 56 via the communication unit 51. It is conceivable that the management state of the article 70 is displayed and outputted in the article management section 54 via the output section 55.

Further, even during the series of processes described above, the RFID reader 40a continues to read information from the RFID tag 20 via the antenna 30a, and the opening/closing state determination unit 53 determines that the opening 14 is Whether or not the cover body 15 is closed means whether the unique ID of the RFID tag 20 is read by the RFID reader 40a via the antenna 30a and received by the reading control unit 56 via the communication unit 51. judged by.

If the opening/closing state determining unit 53 determines that the opening 14 is not covered by the lid 15 (step S4), an error is output as a warning via the output unit 55 (step S5). Note that the output of the alarm via the output unit 55 may include outputting a buzzer sound, lighting a lamp, or displaying an error message on the screen.

In the management computer 50, when the time set for one reading process for the article 70 housed in the box 10 has elapsed since the start of the process in step S3 (step S6), the next article is read. In order to determine whether the process of reading information from the RFID tag 60 described above can be started, after a certain waiting time has elapsed (step S7), the opening/closing state determining unit 53 again checks the unique ID of the RFID tag 20. Since the RFID reader 40a no longer transmits and the reading control unit 56 no longer receives the data, it is determined whether the opening 14 is not covered by the lid 15 (step S8), and the opening is closed. 14 is not covered by the lid 15, one reading process for the article 70 housed in the box 10 is completed, and the reading process for the next article is performed. This is a process for determining that the lid 15 has been opened and the article 70 has been taken out from the opening 14 after the ID is read from the RFID tag 60 attached to the article 70. Therefore, the waiting time in step S7 is set to the time required to open the lid 15 and take out the article 70 from the opening 14.

In this way, the RFID tag 20 for detection is attached inside the box 10 in which the article 70 to which the RFID tag 60 for management is attached is housed, and the radio waves radiated from the antenna 30a for reading information from the RFID tag 20 are installed. An RFID reader 40a is provided that outputs a value that allows information to be read from the RFID tag 20 via the antenna 30a only when the opening 14 is closed with the lid 15. Since the configuration is such that it is detected that the box 10 has been opened depending on whether the RFID tag 60 is read or not, the article 70 to which the RFID tag 60 is attached is housed in the box 10 and the article 70 can be opened by reading information from the RFID tag 60. When managing the box 10, it can be detected that the box 10 has been opened using a mechanism that reads information from the RFID tag.

In addition, when managing articles using the article management system shown in FIG. By transmitting the information to the RFID reader 40a through the RFID reader 40a, radio waves are constantly emitted to read information from the RFID tag 20. In step S2, the RFID reader 40a reads the information from the RFID tag 20 via the antenna 30a, and the RFID tag 20 is opened. A command for the read control unit 56 of the management computer 50 to read information from the RFID tag 60 via the antennas 30b to 30d when it is determined that the unit 14 is blocked by the lid 15. By transmitting the information to the RFID reader 40a via the communication unit 51 and starting reading the information from the RFID tag 60 attached to the article 70 via the antennas 30b to 30d, power consumption can be reduced.

Also, in this case, when the RFID reader 40a is unable to read information from the RFID tag 20 via the antenna 30a while the RFID reader 40b is reading the information from the RFID tag 60 via the antennas 30b to 30d. By outputting an error to the item 70, even if the box 10 is opened and the opening 14 is not blocked while information is being read from the RFID tag 60 attached to the article 70, this information will be displayed. can be notified.

(Other embodiments)
FIG. 9 is a diagram showing another embodiment of the article management system of the present invention.

As shown in FIG. 9, this embodiment is different from that shown in FIG. 1 in the configuration of a box 110. The box 110 in this embodiment includes a drawer 111 and a drawer container 115.

The drawer 111 serves as a storage section in the present invention. The drawer 111 has a rectangular bottom surface 113 and side surfaces 112a to 112b provided upright on each of the four sides of the bottom surface 113. The drawer 111 has an opening 114 for storing articles in a portion surrounded by the sides, that is, on the opposite side from the bottom surface 113. Antennas 130a to 130d are attached to the sides 112a to 112d, respectively, on the inner side of the drawer 111. The antenna 130a serves as a second antenna in the present invention, and is electrically connected to the RFID reader 40a via a cable. The antennas 130b to 130d serve as first antennas in the present invention, and are electrically connected to the RFID reader 40b via a cable.

The drawer container 115 serves as a covering portion in the present invention. The drawer storage body 115 has a rectangular bottom surface 117, side surfaces 118a to 118c provided upright on three sides of the bottom surface 117, and end sides facing the bottom surface 117 and in contact with the bottom surface 117 of the side surfaces 118a to 118c. It has a top surface 116 that is in contact with the end side opposite to the top surface 116, and the surface where the side surfaces 118a to 118c are not provided is open. The drawer container 115 is configured to be able to accommodate the drawer 111 from its open surface, and by accommodating the drawer 111, the opening 114 of the drawer 111 is closed so as to be openable and closable. An RFID tag 120 for detection is attached to the drawer container 115 in a region near the open surface of the top surface 116 on the side where the drawer 111 is accommodated. Thereby, the RFID tag 120 is attached to the area inside the box 110.

The drawer 111 and the drawer container 115 are made of a material that reflects radio waves or a material that absorbs radio waves, and are made of metal, for example. Alternatively, the drawer 111 and the drawer container 115 may be surrounded by a material that reflects radio waves or a material that absorbs radio waves. Further, the RFID tag 120 has the same configuration as the RFID tag 20 shown in FIG. 2, and is attached to the top surface 116 with an adhesive layer 27b.

Here, the distance between the RFID tag 120 attached to the top surface 116 of the drawer container 115 and the antenna 130a attached to the side surface 112a of the drawer 111 will be explained.

FIG. 10 is for explaining the distance between the RFID tag 120 attached to the top surface 116 of the drawer container 115 and the antenna 130a attached to the side surface 112a of the drawer 111 in the box 110 shown in FIG. It is a diagram.

In the box 110 shown in FIG. 9, the drawer 111 is housed in the drawer container 115, so that when the opening 114 of the drawer 111 is blocked by the top surface 116 of the drawer container 115, As shown in FIG. 10(a), the distance between the RFID tag 120 attached to the top surface 116 of the drawer container 115 and the antenna 130a attached to the side surface 112a of the drawer 111 is a first distance D1. ing.

On the other hand, when the drawer 111 is pulled out from the drawer container 115 and the opening 114 of the drawer 111 is not blocked, the top surface 116 of the drawer container 115 is closed, as shown in FIG. 10(b). The distance between the attached RFID tag 120 and the antenna 130a attached to the side surface 112a of the drawer 111 is a second distance D2, which is longer than the first distance D1.

In this way, the RFID tag 120 has a surface that becomes the drawer 111 side when the opening 114 of the drawer 111 is blocked by the top surface 116 of the drawer accommodating body 115 when the drawer 111 is accommodated in the drawer accommodating body 115. That is, in the area inside the box 110, the distance from the antenna 130a when the opening 114 of the drawer 111 is not covered by the top surface 116 of the drawer container 115 is It is attached to an area that is longer than the distance from the antenna 130a when it is covered by the top surface 116 of the container 115.

Therefore, in this embodiment as well, the output of the radio waves radiated from the antenna 130a attached to the side surface 112a of the drawer 111 is transmitted by the drawer 111 being accommodated in the drawer container 115, so that the opening 114 of the drawer 111 can be transmitted to the drawer container 115. If the value is such that information can be read from the RFID tag 120 via the antenna 130a only when the top surface 116 of It can be determined whether the drawer 111 is accommodated in the drawer accommodating body 115 and whether the opening 114 of the drawer 111 is covered by the top surface 116 of the drawer accommodating body 115.

In the embodiment described above, the detection RFID tag 20 and the management RFID tag 60 attached to the article 70 resonate at the same frequency, and the RFID tag 20 resonates with the RFID readers 40a and 40b. Although contactless communication is performed using the same protocol, the frequency band used by the RFID reader 40a to read information from the RFID tag 20 and the frequency band used by the RFID reader 40b to read information from the RFID tag 60 are different. They may have different configurations. For example, the RFID tag 60 has a shape as shown in FIG. 7 and resonates in the UHF band or microwave band to perform contactless communication using a radio wave method, while the RFID tag 20 has a coil shape, Contactless communication may be performed by electromagnetic induction using the 13.56 MHz HF band. Even if the RFID tag 20 is of such a type, the strength of the magnetic field generated within the coil can be weakened by providing a metal layer or laminating a magnetic material to cover the antenna in plan view. This prevents the occurrence of problems. However, when using a detection RFID tag 20 that performs contactless communication using an electromagnetic induction method using the 13.56 MHz HF band, it resonates in the UHF band or microwave band and performs contactless communication using a radio wave method. Since the communication distance is extremely short compared to objects, the opening 14 of the storage section 11 of the box 10 is closed by the lid 15 or the opening 114 of the drawer 111 of the box 110 is closed by the drawer storage 115. The RFID tags 20, 120 and the antennas are arranged so that the RFID tags 20, 120 and the antenna for reading information from the RFID tags 20, 120 are close to each other (opposed to each other) while being blocked by the top surface 116. There is a need to. In this way, by configuring the frequency band used for the RFID reader 40a to read information from the RFID tag 20 and the frequency band used for the RFID reader 40b to read information from the RFID tag 60 to be different from each other, the above-mentioned Thus, it is no longer necessary to set IDs to include distinguishable codes between the RFID tag 20 and the RFID tag 60 attached to the article 70.

In the embodiment described above, the detection RFID tags 20 and 120 are attached to the lid 15 of the box 10 or the drawer container 115 of the box 110, and The explanation has been given using an example in which the antennas 30a and 130a are attached to the drawer 111 of the box body 10, but conversely, the antenna is attached to the lid body 15 of the box body 10 or the drawer accommodating body 115 of the box body 110. An RFID tag for detection may be attached to the storage section 11 or the drawer 111 of the box body 110.

Further, the number of antennas attached to the boxes 10, 110 for reading information from the RFID tags 60 by the RFID reader 40b is appropriately set depending on the form of the boxes 10, 110 and the articles 70 accommodated therein. . An antenna for reading information from the RFID tag 60 may also be attached to the lid 15 and the drawer container 115 in order to read information from the top surface of the article 70 housed in the boxes 10 and 110.

It is also conceivable to install a plurality of detection RFID tags 20, 120 in parallel, for example, so that the distance from the antennas 30a, 130a is the distance D1 shown in FIGS. 5 and 10. In that case, when information is read from at least one RFID tag 20, 120 among the plurality of RFID tags 20, 120 via the antenna 30a, 130a, the opening 14 of the accommodating part 11 of the box body 10 It may be determined that the opening 114 of the drawer 111 of the box body 110 is blocked by the top surface 116 of the drawer container 115, or that all of the plurality of RFID tags 20, 120 If no information is read from the antennas 30a and 130a, the opening 14 of the storage section 11 of the box 10 is closed by the lid 15, or the opening 114 of the drawer 111 of the box 110 is closed. It may be arranged so that it is not determined that the top surface 116 of the body 115 is blocked.

10,110 Box body 11 Storage part 12a~12d, 112a~112d, 118a~118c Side face 13,113,117 Bottom face 14,114 Opening part 15 Lid body 20,60,120 RFID tag 21,61 IC chip 22,30a~ 30d, 62, 130a to 130d Antenna 23, 63 Base material 24, 64 Inlet 25, 65 Top sheet 26 Metal layer 27a, 27b, 67a, 67b Adhesive layer 40a, 40b RFID reader 41 Dual unit 42 Tag data transmission processing unit 43 Digital signal conversion section 44, 51 Communication section 46 RF transmission section 47 RF reception section 48 Tag data reception processing section 50 Management personal computer 53 Opening/closing state judgment section 54 Article management section 55 Output section 56 Reading control section 70 Article 80 Foldable container 111 Drawer 115 Drawer container 116 Top surface

Claims (4)

An article management system for managing articles to which management RFID tags are attached,
The device is capable of accommodating an article to which the management RFID tag is attached, and has a accommodating portion having an opening for accommodating the article, and a covering portion that opens and closes the opening, and reflects radio waves. a box body made of a material that reflects radio waves or a material that absorbs radio waves, or surrounded by a material that reflects radio waves or a material that absorbs radio waves;
a first reading means for reading information from an RFID tag present in the box body via the first antenna by emitting radio waves from a first antenna provided in the box body;
a second reading means for reading information from an RFID tag present in the box via the second antenna by emitting radio waves from a second antenna provided in the box;
The distance from the second antenna in a state where the opening is not covered by the covering part is greater than the distance from the second antenna when the opening is covered by the covering part. and a detection RFID tag attached to a region inside the box body, which is also long,
The first reading means sets the output of the radio waves radiated from the first antenna to a first value that makes it possible to read information from all RFID tags present in the box via the first antenna. year,
The second reading means transmits the output of the radio waves radiated from the second antenna from the detection RFID tag to the second antenna only when the opening is covered with the covering part. a second value that allows the information to be read through;
moreover,
determining means for determining that the opening is closed by the covering portion when the second reading means reads information from the detection RFID tag via the second antenna; ,
The second reading means reads information from the detection RFID tag via the second antenna, and the determining means determines that the opening is closed with the covering part. an article management system comprising: reading control means for causing the first reading means to read information from the management RFID tag via the first antenna; The article management system according to claim 1,
The second reading means constantly radiates radio waves from a second antenna provided inside the box,
The first reading means reads the first antenna provided inside the box body when the second reading means reads information from the detection RFID tag via the second antenna. An article management system that starts reading information from an RFID tag present in the box via the first antenna by emitting radio waves from the box. The article management system according to claim 2,
The determining means may cause the second reading means to read information from the management RFID tag through the antenna while the first reading means is reading the information from the management RFID tag through the antenna. An article management system that outputs an alarm when information can no longer be read from the detection RFID tag. The article management system according to any one of claims 1 to 3,
A frequency band used by the first reading means to read information from the management RFID tag and a frequency band used by the second reading means to read information from the detection RFID tag are different from each other. , goods management system.

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