JP2011187075A - Rfid tag system and communication system for the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an RFID tag attaching method allowing reading of an RFID tag attached to a package for enclosing a pillow package including a metal material. <P>SOLUTION: The RFID tag system includes a metallic package; the RFID tag 0104 for transmitting or transmitting/receiving information by electromagnetic waves of predetermined wavelength; a separator 0102 interposed between the metallic package and the RFID tag 0104; and a non-metallic package 0101 enclosing the separator 0102 and the metallic package. A space formed between the RFID tag 0104 and the metallic package by the separator 0102 is set to a value obtained by multiplying the predetermined wavelength by a coefficient (e.g., 0.025-0.04). <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  In the present invention, tablets, capsules, and the like are packed in a metallic package (package made of a material containing a metal material), and the package is stored in a non-metallic package (package made of a material not containing a metal material). In particular, the present invention relates to an RFID tag system with an RFID (Radio Frequency IDentification, non-contact individual identification technology using radio frequency electromagnetic waves) tag, and a communication system for the RFID tag system. The present invention relates to an RFID tag system capable of reading information with high accuracy and a communication system for the RFID tag system.

In general, an RFID tag incorporates an ID code or equivalent identification information in an integrated circuit, and performs transmission or transmission and reception to an external communication device (hereinafter referred to as transmission only, transmission and reception). The identification information is transmitted by calling the “transmission / reception” including both of the cases where it is performed. One of the uses of the RFID tag is known as a product trace system. The trace system communicates between the RFID tag and a communication device when necessary, for example, in a manufacturing process or a distribution process, and the obtained ID code / It tracks and manages the manufacturing history and distribution history of products with RFID tags attached from date / time data / communication location information.
Especially in the field of pharmaceuticals, individual product histories using the trace system such as quality control in the manufacturing process, authenticity judgment in the distribution process, prevention of erroneous sales at pharmacies, feedback when defects occur in the market, etc. It is desired to manage.

  As a conventional technology of the trace system using the RFID tag, for example, the following patent document can be cited. Patent Document 1 reads information on an RFID tag attached to a medicine at the time of sale and uses the medicine name as a terminal. A system that prevents the wrong medicine from passing over to the user by displaying it and comparing it with prescription data is described. Patent Document 2 attaches an RFID tag seal prepared in a seal member to a medicine case. A system is described in which information from a tag sticker is read when entering and leaving a medicine shelf, and inventory management of the medicine shelf is performed.

  In addition, in order to operate these systems with high reliability, it is necessary to reliably read the information of the attached RFID tag, and as a document on this reading method, for a concrete fume pipe as a construction material, In order to improve the reading accuracy of the attached RFID tag, Patent Document 3 describes a jig that embeds the RFID tag antenna with a direction suitable for reading, and also relates to the posture of the product to improve the reading accuracy. Firstly, Patent Document 4, which describes a mechanism for maintaining the orientation of the RFID tag antenna in a certain direction suitable for reading, shows the position of the RFID tag attached to the inside of the box with a display on the outside of the box, Patent Documents 5 to 7 that describe a method for designating a reading position where reading accuracy is high can be cited.

JP 2003-233673 A JP 2003-292123 A JP 2000-91963 A JP 2003-58843 A JP 2001-122334 A Japanese Patent Application Laid-Open No. 2004-115057 JP 2004-191481 A

  Generally, there are tablets and capsules as main forms of pharmaceuticals, and PTP (Press Through Package) packages are known as typical examples of individual packaging of these tablets and capsules. This PTP package is used by placing these medicines in convex parts formed on resin sheets such as PVC (Polyvinyl Chloride) and PP (Polypropylene), and sealing the back with aluminum foil. When a person pushes out a convex part with a finger | toe, it is comprised so that an aluminum foil may be broken and a tablet etc. may be taken out. 90% or more of the packaging forms of tablets and capsules currently on the market are PTP packages. In addition, since the PTP package is inferior in moisture resistance of the resin sheet compared to the metal foil, a certain amount (for example, 100 tablets) of a resin sheet (PP, PE [Polyethylene, polyethylene]) combined with an aluminum foil or an aluminum thin film. Etc.) is further formed into a secondary package, and this secondary package is called a pillow package.

  Common to these packages is the presence of metal materials such as aluminum foil. The presence of the metal material affects electromagnetic waves used for communication of the RFID tag, and remarkably deteriorates data reading accuracy. The degree of deterioration varies depending on the shape and direction of the metal material, the distance from the metal material, and the like.

  Therefore, in order to construct the chemical management system described in Patent Document 1 or 2, it is important to attach the RFID tag to an appropriate position, and a device for realizing it has been demanded. In addition, since the reading accuracy is affected by the positional relationship between the metal material and the RFID tag, the techniques described in Patent Documents 3 to 7 focusing on the positional relationship and the directional relationship with the communication device that receives the electromagnetic wave from the RFID tag. In addition, in order to apply an RFID tag to a pharmaceutical product, a technique for appropriately maintaining the positional relationship and the directional relationship with a metal material has been required.

  An object of the present invention is to eliminate the above-mentioned problems caused by the prior art, and an RFID that can easily communicate with the communication device side even in a package that houses a pillow package packed with a metal material. It is to provide a tag system and a communication system for the RFID tag system.

  In order to achieve the above object, the present invention provides a metallic package, an RFID tag that transmits and receives information using electromagnetic waves, a separator interposed between the metallic package and the RFID tag, An RFID tag system comprising a separator and a non-metallic package for housing the metallic package, wherein an interval between the RFID tag formed by the separator and the metallic package is set to a wavelength of the electromagnetic wave. The first characteristic is that the value is obtained by multiplying the coefficient.

  The present invention also includes a metallic package, an RFID tag including an antenna that transmits and receives information using electromagnetic waves, a separator interposed between the metallic package and the RFID tag, the separator and the An RFID tag system including a non-metallic package for housing a metallic package, wherein the RFID tag antenna and the metallic package are not overlapped in the traveling direction of the electromagnetic wave. A second feature is that a separator to be held is provided.

  According to the present invention, in the RFID tag system according to any one of the above characteristics, the coefficient is 0.025 to 0.04. The RFID system according to any one of the characteristics includes the metallic property. The packaging body includes an aluminum-based metal material as a fourth feature. In the RFID tag system according to any one of the above features, the metallic packaging body is a pillow packaging body as a fifth feature. In the RFID tag system having the above characteristics, the separator has a cuboid shape as a sixth feature, and in any one of the RFID tag systems, the separator has a pipe shape as a seventh feature. And

  According to the present invention, in the RFID tag system according to any one of the first to seventh features, the non-metallic package has a substantially rectangular parallelepiped shape, and the separator is an internal space at an end of the non-metallic package. An eighth feature is that the two planes of the non-metallic package are connected so as to partition the non-metallic package, and in the RFID tag system of the eighth feature, the plate-like separator is the non-metallic separator. According to a ninth feature of the present invention, the RFID tag system according to the eighth feature is characterized in that the plate-like separator is one surface of the rectangular parallelepiped of the non-metallic package. The RFID tag system according to the ninth or tenth feature is characterized in that a plurality of continuous members are bent at a plurality of times. Separator is a eleventh aspect of that formed by bonding the surface of the member which is continuous from one surface of the rectangular parallelepiped of the non-metallic package on the other side.

  Furthermore, the present invention provides the RFID tag system according to any one of the eighth to eleventh features, wherein the plate-like separator connects two orthogonal surfaces of the rectangular parallelepiped of the non-metallic package, whereby the RFID tag is The RFID tag system according to any one of the eighth to eleventh aspects, wherein the non-metallic package is held at a predetermined offset angle (angle θ) with respect to a horizontal surface of the non-metallic package. According to a thirteenth feature, the outer shape of the package includes an inclined portion having a predetermined offset angle (angle θ) with respect to the horizontal plane of the non-metallic package, and the RFID tag is installed on the inclined portion, In the RFID tag system according to the twelfth or thirteenth feature, the angle θ is 45 to 55 degrees as a fourteenth feature, and the RF of the eighth feature In the D tag system, the plate-like separator forms an internal space that separates the inside of the nonmetallic package by connecting two facing surfaces of the rectangular parallelepiped of the nonmetallic package. According to a fifteenth aspect, the metallic package is accommodated, and the RFID tag is held on one of two orthogonal surfaces of the nonmetallic package in the other internal space.

  The present invention further relates to an RFID tag including a communication device that transmits and receives information using electromagnetic waves, an antenna connected to the communication device, and an RFID tag that transmits and receives information to and from the communication device. And a moving mechanism for moving the system, wherein an opening surface of an antenna connected to the communication device is held at a predetermined offset angle (angle θ) with respect to the moving direction of the RFID tag system. Is the sixteenth feature.

  In addition, the present invention provides a communication device that transmits and receives information using electromagnetic waves, an antenna connected to the communication device, and is arranged side by side on the plane, and transmits and receives information using the communication devices and the electromagnetic waves. And a mounting mechanism for mounting a plurality of RFID tag systems including an RFID tag for performing an antenna, wherein an opening surface of an antenna connected to the communication device has a predetermined offset with respect to an arrangement direction of the RFID tag system A seventeenth feature is that the angle is held at an angle (angle θ).

Furthermore, in the communication system according to the sixteenth or seventeenth feature, the present invention has an eighteenth feature in which the angle θ is 45 to 55 degrees.
The present invention further relates to an RFID tag including a communication device that transmits and receives information using electromagnetic waves, an antenna connected to the communication device, and an RFID tag that transmits and receives information to and from the communication device. A communication system comprising a system and a moving mechanism for moving the RFID tag system, wherein the RFID tag of the RFID tag system is held at a predetermined offset angle (angle θ) with respect to the moving direction of the RFID tag system. In addition, a nineteenth feature is that an opening surface of an antenna connected to the communication device is held at an angle substantially the same as the offset angle (angle θ) of the RFID tag of the RFID tag system.

  In addition, the present invention provides a communication device that transmits and receives information using electromagnetic waves, an antenna connected to the communication device, and is arranged side by side on the plane, and transmits and receives information using the communication devices and the electromagnetic waves. A communication system comprising a plurality of RFID tag systems including an RFID tag for performing an operation and a mounting mechanism for mounting the RFID tag system, wherein the RFID tag of the RFID tag system is predetermined with respect to the arrangement direction of the RFID tag system. And the opening surface of the antenna connected to the communication device is held at substantially the same angle as the offset angle (angle θ) of the RFID tag of the RFID tag system. In the communication system of the feature 19 or 20, the angle θ is 45 to 55 degrees. It is a feature of the 21.

The RFID tag system according to the present invention can ensure the transmission and reception of information between the RFID tag and the communication device by providing a separator that keeps the interval between the pillow package containing a metal material and the RFID tag at a predetermined interval, for example. Further, the separator is formed of a member obtained by extending the end of a paper package or another member, and the antenna of the RFID tag has a predetermined offset angle (angle θ) with respect to the horizontal surface of the package by the separator. By doing so, communication with the RFID tag attached to the package moving at high speed can be accurately performed at low cost.
Further, the communication system according to the present invention is configured such that the opening surface of the antenna connected to the communication device is held at a predetermined offset angle (angle θ) with respect to the moving direction of the RFID tag system, thereby An area where communication with the RFID tag is possible can be widened.

The figure which shows schematic structure of the package which comprises the RFID tag system by the 1st Embodiment of this invention. FIG. 2 is a partial cross-sectional view of the package according to the embodiment shown in FIG. 1. The perspective view which shows the external appearance of a PTP package. Sectional drawing of a PTP package. The perspective view showing the external appearance of a pillow package. Sectional drawing of the condition where 2 sets of PTP package bodies are packed by the pillow package body. FIG. 3 is an external view illustrating an example of an RFID tag according to the embodiment illustrated in FIG. 2. The external view which shows a mode that the RFID tag was affixed on the one side of the package. FIG. 9 is a cross-sectional view of the package of FIG. The figure which shows the relationship between the space | interval of a RFID tag and a pillow package, and the maximum communication distance. Sectional drawing of the example which provided the separator in the package by 2nd Embodiment. FIG. 12 is an external perspective view of the package according to the embodiment shown in FIG. 11. Sectional drawing of the example which provided the separator in the package by 3rd Embodiment. FIG. 14 is an external perspective view of a package according to the embodiment shown in FIG. 13. Sectional drawing of the example which provided the separator in the package by 4th Embodiment. Sectional drawing of the example which provided the separator in the package by 5th Embodiment. Sectional drawing of the example which provided the separator in the package by 6th Embodiment. Sectional drawing of the example which provided the separator in the package by 7th Embodiment. Sectional drawing of the example which provided the separator in the package by 8th Embodiment. The external appearance perspective view of the package by embodiment shown in FIG. Sectional drawing of the example which provided the separator in the package by 9th Embodiment. The external appearance perspective view of the package by embodiment shown in FIG. The fragmentary sectional view of the package by a 10th embodiment. The fragmentary sectional view of the package by an 11th embodiment. FIG. 24 is a development view of the package of FIG. The figure which shows the communication system which conveys the package by this invention by a conveyance means. The figure which shows the communication system which conveys the package by this invention by a conveyance means. The external view which shows a mode that the RFID tag was affixed on the package by 12th Embodiment. FIG. 2 is a development view of a package according to the embodiment shown in FIG. 1. The conceptual diagram which shows the position of the RFID tag which receives the influence of the metal material which concerns on this invention, and the position which does not receive. The conceptual diagram of the direction which an electromagnetic wave advancing direction and a metal material influence.

Hereinafter, an embodiment of an RFID tag system and a communication system for the RFID tag system according to the present invention will be described in detail with reference to the drawings. 1 is a diagram showing a schematic configuration of a package constituting an RFID tag system according to a first embodiment of the present invention, FIG. 2 is a partial sectional view of the package according to the present embodiment, and FIG. 3 is a perspective view showing an external appearance of a PTP package. 4 is a cross-sectional view of the PTP package, FIG. 5 is a perspective view showing the appearance of the pillow package, FIG. 6 is a cross-sectional view of the situation where two sets of PTP packages are packed by the pillow package, and FIG. Is an external view showing an example of an RFID tag according to the present embodiment, FIG. 8 is an external view showing a state in which the RFID tag is attached to one side surface of the package, FIG. 9 is a sectional view of the package according to FIG. 8, and FIG. FIG. 11 is a sectional view of an example in which a separator is provided in the package according to the second embodiment, and FIG. 12 is a view of the package according to the embodiment of FIG. appearance FIG. 13 is a sectional view of an example in which a separator is provided in the package according to the third embodiment, FIG. 14 is a perspective view of the package according to the embodiment shown in FIG. 13, and FIG. 15 is a package according to the fourth embodiment. FIG. 16 is a sectional view of an example in which a separator is provided in the package according to the fifth embodiment, and FIG. 17 is an example in which a separator is provided in the package according to the sixth embodiment. 18 is a sectional view of an example in which a separator is provided in the package according to the seventh embodiment, FIG. 19 is a sectional view of an example in which a separator is provided in the package according to the eighth embodiment, and FIG. FIG. 21 is a sectional view of an example in which a separator is provided in the package according to the ninth embodiment, and FIG. 22 is a package according to the embodiment shown in FIG. FIG. 23 is a partial sectional view of the package according to the tenth embodiment, FIG. 24 is a partial sectional view of the package according to the eleventh embodiment, and FIG. 25 is an exploded view of the package shown in FIG. FIG. 26 is a diagram showing a communication system in which the package according to the present invention is conveyed by the conveying means, FIG. 27 is a diagram showing a communication system in which the package according to the present invention is conveyed by the conveying means, and FIG. 28 is a package according to the twelfth embodiment. FIG. 29 is a developed view of the package according to the embodiment shown in FIG. 28, and FIG. 30 is the position of the RFID tag affected by the metal material according to the present invention, and the metal material. FIG. 31 is a conceptual diagram showing an electromagnetic wave traveling direction and a direction in which a metal material affects.
In general, a combination of an RFID chip, an antenna connected to the RFID chip, and a substrate on which the RFID chip and the antenna are integrally mounted is called an inlet, and a protective transparent film or An RFID tag with a utility such as an adhesive for attachment is called an RFID tag, and a product to which the RFID tag is attached is called an RFID tag system. Since an equivalent effect can be obtained, the RFID tag and the inlet are not distinguished from each other and are referred to as an RFID tag.

<First Embodiment>
The schematic configuration of the first embodiment of the RFID tag system according to the present invention is, as shown in FIG. 1, a flat square box shape (cuboid shape) for storing a pillow package (not shown) in which tablets or capsules are packed. A package 0101, a separator 0209 housed in the package 0101 and inclined on one side thereof, and an RFID tag 0104 attached to the separator 0209 via a holder 0103 are included. The separator 0209 holds the RFID tag at a predetermined distance from the pillow package (not shown) and the RFID tag 0104 for the reason described later, and holds the RFID tag on the upper and lower surfaces of the package 0101 shown in FIG. Is held in a direction offset from the horizontal direction by an angle θ. Note that the package 0101 suitable for the present invention may be any one made of a non-metallic material such as paper or plastic.

  As shown in FIG. 2, the cross section of the package 0101 holding the RFID tag 0104 has a trapezoidal cross section space by bending one side end of the sheet (surface) constituting the package 0101 five times. This trapezoidal cross-section space is maintained by heat-sealing the adhesive portions 0105 to 0107, which are folding surfaces for constituting the separator 0209, and the surfaces of the adhesive portions that are in contact with or coated with an adhesive. The As described above, the separator 0209 according to the present embodiment includes the separator plate 0102, the holder 0103 that holds the RFID tag 0104, and the bonding portions 0105 to 0107 for bonding the package 0101 with an adhesive. By attaching the RFID tag 0104 using an adhesive or the like, an offset angle can be given to the RFID tag and the pillow package in the package can be installed separately.

If the RFID tag 0104 is placed in the holder 0103, the object of the present invention can be achieved. Therefore, when the material of the holder 0103 is paper, it is spread on paperboard. It may be arranged by inserting.
Further, when the material of the holder 0103 is resin or ceramics, it may be arranged by being incorporated when the holder part is molded.
Further, the separator 0209 is not limited to the form of the present embodiment, and is interposed between the metallic package (pillow package) and the RFID tag based on the form according to the embodiment described later and the concept of the present invention. I need it.

  In the development view of the package according to the present embodiment, as shown in FIG. 29, the adhesive portion (margin) 0105 in the normal development view of the package is extended to provide separator plate 0102 / separator adhesive portion 0106 / holder 0103 / holder portion. An adhesive portion 0107 is provided, and a separator 0209 is constituted by these. Since the RFID tag system according to the present embodiment receives pressure from the pillow package as in the case of FIGS. 23 and 24, the adhesion of the separator adhesive part 0106 can be omitted (the separator adhesive part 0106 In addition, the spring back force of the bent portion from the separator adhesive portion 0106 to the holder 0103 is adjusted to omit the adhesion of the holder adhesive portion 0107 (the surface of the holder adhesive portion 0107 itself). It may be omitted).

  As shown in FIG. 3, the PTP package body accommodated in the package 0101 suitable for the RFID tag system to be the subject of the present embodiment has a tablet or a tablet or the like in a convex portion 0302 formed on a resin sheet 0301 such as PVC or PP. A capsule is placed, and the back surface of the resin sheet 0301 is sealed with an aluminum foil. This PTP package can break the aluminum foil and take out tablets and the like by extruding the convex portion with a finger.

  As shown in FIG. 4, the cross section of this PTP package is obtained by fusing an aluminum foil 0402 to the back surface of a resin sheet 0301 and storing tablets 0401 inside the convex portions of the PTP. As described above, this PTP package is inferior to the aluminum foil in the moisture resistance of the resin part. Therefore, a plurality of PTP packages are combined into a resin sheet (PP, PE, etc.) using an aluminum foil or an aluminum thin film. The pillow package body 0501 formed into a secondary package is applied. As shown in FIG. 5, a perspective view of the appearance of the pillow package body 0501, the open portions at both ends are sealed by the fused portions 0502. For example, two sets of PTP packages 0601 are packaged as shown in a cross section in FIG. The

  Now, as shown in FIG. 7, an example of the RFID tag 0701 according to the present embodiment includes an RFID chip 0702 mounted on a substrate such as a polyimide resin film, and a metal thin film antenna 0703 connected to the RFID chip 0702. A base material (shown by hatching in the figure) on which these are mounted, and utilities such as a protective transparent film and an adhesive for attachment are attached thereto. In the RFID tag having this structure, the metal thin film antenna 0703 portion is substantially the opening surface of the antenna, and electromagnetic waves travel in a direction perpendicular to the paper surface of FIG. The effective length of the antenna 0703 varies depending on the frequency of the electromagnetic wave used by the RFID tag 0701. As an example, in the 2.45 GHz band (wavelength of about 122 mm) that can realize a small tag advantageous for attachment to a pharmaceutical package, The total length is about 60 mm, the width is about several mm, and the thickness is 1 mm or less. However, the present invention is not limited to this antenna structure, and a structure in which a plurality of antennas are bent or wound may be used.

  As described above, in the RFID tag system according to the present embodiment, the separator 0209 holds the RFID tag 0701 (reference numeral 0104 in FIG. 1) at a predetermined distance from the pillow package 0501 and is offset by an angle θ from the horizontal direction. It is configured to provide an angle. Next, the reason why the RFID tag is held at a predetermined distance from the pillow package 0501 will be described.

<Reason for holding RFID tags at intervals>
FIG. 8 shows a state where the RFID tag 0104 is attached to the package 0101. In FIG. 8, the RFID tag 0104 is attached to the outside of the package 0101. However, it is desirable that the RFID tag 0104 is attached to the inside for the protection of the tag and the appearance of the package 0101. A cross-sectional view at that time is shown in FIG. First, as shown in FIG. 8, when the RFID tag 0104 is attached to one side outer side of the package 0101 (same as the inner side), there is a space 0902 in the package 0101, and the pillow package 0901 moves a little in the package 0101. To do. By this movement, the distance d between the RFID tag 0104 and the pillow package 0901 changes. When the pillow package 0901 containing a metal material approaches the RFID tag (d becomes smaller), the RFID tag communication performance (normal This adversely affects the maximum distance between the RFID tag capable of communication and the antenna of the communication device.

  This communication performance is shown in FIG. 10, which shows the experimental results of measuring the maximum distance that can be communicated by changing the distance between the pillow package using the aluminum foil (aluminum thin film) and the RFID tag, and the pillow package and the RFID tag. The distance d and the maximum communication distance L are expressed as d ′ and L ′ according to Equation 1 [d ′ = d / λ] and Equation 2 [L ′ = L / λ] using the wavelength λ of the electromagnetic wave used for communication, respectively. When d 'is made dimensionless, communication becomes impossible when d' is zero, L 'increases rapidly from around d' = 0.015, and the increase in L 'slows down from around d' = 0.025. In addition, in the vicinity of d ′ = 0.04, it is completely slowed down. Thereafter, L ′ gradually increases until around d ′ = 0.1. According to the result of this experiment, the effect of expanding the maximum communication distance by increasing d ′ is d ′ = 0.025. It can be seen that the hits are prominent. At this time, L ′ is 2.2, but it is preferable that L′ ≈2.0 with a margin. These specific numerical values are d = 3 mm and L = 244 mm when the wavelength of the electromagnetic wave having the frequency of 2.45 GHz and λ = 122 mm. If d ′ at this time is called da ′, da ′ can be selected in a range of approximately 0.025 to 0.04 depending on the use conditions. This value “0.025 to 0.04” can also be referred to as a coefficient for determining the interval between the pillow package and the RFID tag.

  Here, an example of 2.45 GHz is given as the frequency used in the RFID tag system, but the frequency applicable to the present invention is not limited to this. The frequency that can be used by the RFID tag system is over the entire radio frequency range, and the frequency to be used is determined in consideration of factors such as the target product form, communication conditions, and the surrounding environment. The present invention can be applied.

  According to the above experimental results, when electromagnetic waves having a frequency of 2.45 GHz are used for communication, it is necessary to secure at least 3 mm of the distance d between the pillow package and the RFID tag 0104 in order to obtain the maximum communication distance L = 244 mm. . Therefore, in this embodiment, a separator 0209 that forms a trapezoidal cross-sectional space is provided to hold the RFID tag 0104 at a predetermined distance from the pillow package 0501 (FIGS. 1 and 2).

  Note that the communication device used in the above-described experiment used an RFID reader / writer device MS6502RWEA (rated output 300 mW) manufactured by Hitachi Ultra LSI Systems Co., Ltd. and a 4-patch antenna dedicated to the device (circular polarization, gain 14 dBi). In addition, the communication protocol in this experiment was based on ISO 18000-4 draft version and measured at a transfer rate of 40 kbps. The communication device is a device that performs radio communication of arbitrary information using an RFID tag and an electromagnetic wave, and is connected to an antenna through which electromagnetic waves are transmitted and received to identify and receive information via the antenna. A signal receiving circuit, a control circuit that generates information corresponding to the information received by the signal receiving circuit, and a transmission that generates the corresponding information generated by the control circuit as an electromagnetic wave via the antenna It consists of a circuit. The communication device includes an antenna connected to the communication device, and a pedestal (which may include a moving mechanism) on which a plurality of packages containing RFID tags are mounted, and transmits and receives information to and from the RFID tag of the package. The system that performs is called a communication system.

<Reason for setting the offset angle>
Next, the reason why the antenna of the RFID tag is arranged with the offset angle set will be described with reference to FIGS.
First, as described above, the package 0101 containing the RFID tag moves at high speed in the direction of the arrow 2504 (conveyed by a belt conveyor or the like) as shown in FIG. 26 in the trace system including the communication system of the manufacturing process. In the state, transmission / reception of information with the antenna 2501 is performed. The antenna 2501 operates by receiving power from the signal line 2502. An RFID tag suitable for a package having a thickness of about several tens of millimeters, such as a tablet package, is an RFID tag that uses a microwave (for example, frequency 2.45 GHz) region. It is characterized by high straightness of radiated electromagnetic waves. As a result, at a communication distance of several times the wavelength, there is a characteristic that the communicable region becomes almost the same as the area of the aperture surface of the antenna. This is because the communicable region is the area of the antenna 2501 in FIG. It will have almost the same characteristics.

  Therefore, as shown in FIG. 26, when the antenna 2501 is installed in parallel with the arrow 2504 on the package 0101 mounted horizontally on the belt conveyor 2503, the communication range covered by the antenna is the antenna size indicated by the symbol D in the figure. It will be almost the same. This dimension D differs depending on the wavelength used and the structure of the antenna, but in the case of a single antenna element in the 2.45 GHz band, it has a structure called a four-patch antenna that is about 120 mm and four antenna elements are integrated. About 220 mm.

  In the trace system for pharmaceutical products such as tablets and capsules, information such as manufacturing date / time / factory code / line code / product code / manufacturing number is included between the RFID tag of the package 0101 and the antenna 2501. Communicate data. In order to express such information, about 20 bytes are required even if a device such as data compression is used. In order to read / write / verify the data, a communication time of about 750 ms must be secured. Must not. If the conveyor speed of the belt conveyor is 20 m / min (333 mm / sec), the package will advance 250 mm within the above 750 ms, and will not be within the range of dimension D. For this reason, it is necessary to take measures such as reducing the conveyance speed or dividing the reading / writing into a plurality of units and performing, for example, 10 bytes each.

In contrast, the communication system for the RFID tag system according to the present embodiment is installed at an angle in which the opening surface of the antenna 2501 is offset by an angle θ with respect to the moving direction of the package 0101 by the belt conveyor 2503 as shown in FIG. To do. At this time, by setting the dimension P in the figure to be equal to or less than the maximum communicable distance, D ′ obtained by projecting D onto the belt conveyor becomes the communicable range, and the communicable area is expanded. The communicable area is maximized when P is the maximum communicable distance.
Further, if the angle of the opening surface of the antenna of the RFID tag in the package 0101 and the angle of the opening surface of the antenna 2501 are different, the maximum communicable distance is shortened.

Communication area D ′ enlarged by this embodiment, the offset angle at that time is θ ′,
D ′ = SQRT (D * D + L * L) (SQRT means the square root in the argument)
θ ′ = ATAN (L / D) (ATAN means arc tangent of argument)
D = 200mm, L = 244mm
, Θ ′ = 51 degrees, for example, a range of about 45 to 55 degrees can be used. At this time, D ′ is 316 mm, and the necessary communication area can be covered with a margin.

  As described above, the communication system according to the present embodiment can transmit and receive information to and from the RFID tag that is transported at high speed by arranging the antenna of the communication system with an offset angle. In addition, the present invention is not limited to application to RFID tags installed in moving products. Since the communicable area is expanded, the number of packages equipped with RFID tags that can be arranged in the communicable area can be increased, thereby enabling simultaneous communication with a larger number of RFID tags. That is, in the above-described embodiment, a communication system that transmits and receives information for a moving RFID tag system (product) has been described as an example. For example, a plurality of RFID tag systems (products) are stationary on a gantry. And can be applied to a communication system that performs transmission / reception of information for a plurality of RFID tag systems.

  In the present embodiment, the configuration has been described in which the RFID tag and the pillow package are held at a predetermined distance from each other by the separator 0102 that forms the trapezoidal cross-section gap shown in FIGS. 1 and 2. The separator according to the invention is not limited to the above-described embodiment, and may have other shapes, and other embodiments will be described below.

<Second Embodiment>
As shown in FIGS. 11 and 12, the RFID tag system according to the second embodiment of the present invention is configured to hold the RFID tag with a predetermined distance between the RFID tag and the pillow package body. This is an example in which a rectangular (cuboid) separator 1101 having a predetermined thickness da is provided on an end surface, and an RFID tag 0104 is attached to the inner surface side of a package 0101 on the separator 1101 side. The separator 1101 may be a member such as urethane foam or a paper box-shaped separator. At this time, the RFID tag 0104 is present at the position shown in FIG. 12 with respect to the package 0101, and the RFID tag 0104 itself may be attached outside or inside the package.

<Third Embodiment>
As shown in FIGS. 13 and 14, the RFID tag system according to the third embodiment of the present invention has a longitudinal dimension (a thickness of the package) of a rectangular parallelepiped separator 1101 in order to secure a gap between the RFID tag and the pillow package. The vertical dimension) is set to be equal to or smaller than the inner dimension of the package 0101, the separator 1101 is disposed at the end of the package 0101, and the RFID tag 0104 is sandwiched in the upper gap generated in the horizontal direction between the separator 1101 and the package 0101. It is composed. In the present embodiment, the RFID tag 0104 is arranged so that the pillow package 0901 having a horizontal plane in the drawing and the antenna plane of the RFID tag 0104 do not overlap in the traveling direction of the electromagnetic wave. . This arrangement is the same in the embodiments shown in FIGS. 16/18/21 described later, and the reason for the arrangement will be described later.

<Fourth embodiment>
In the RFID tag system according to the fourth embodiment of the present invention, as shown in FIG. 15, a hollow cylindrical or elliptical pipe-shaped separator 1501 is arranged at the end of a package 0101, and the separator 1501 and the package 0101 are arranged. The RFID tag 0104 is sandwiched in a gap on the right side generated in the vertical direction. The separator 1501 can hold the RFID tag 0104 between the RFID tag 0104 and the pillow package 0901 at a predetermined interval and can hold the RFID tag 0104 elastically by the hollow separator 1501.

<Fifth Embodiment>
In the RFID tag system according to the fifth embodiment of the present invention, as shown in FIG. 16, a hollow cylindrical or elliptical pipe-shaped separator 1501 is arranged at the end of a package 0101, and the separator 1501 and the package 0101 are arranged. The RFID tag 0104 is sandwiched between the upper gaps generated in the horizontal direction. The separator 1501 can sandwich the RFID tag 0104 with elasticity.
In the present embodiment, the RFID tag 0104 is arranged in the drawing so that the pillow package 0901 and the antenna plane of the RFID tag 0104 do not overlap in the traveling direction of the electromagnetic wave, and the reason will be described later. Further, the separator 1501 and the RFID tag 0104 may be bonded with an adhesive.

<Sixth embodiment>
As shown in FIG. 17, the RFID tag system according to the sixth embodiment of the present invention has a plate-shaped separator 1701 attached as a partition wall with an interval between the ends of the package 0101, and the plate-shaped separator 1701 and the package 0101. A space is formed between the end portions, and the RFID tag 0104 is held on the vertical wall of the package 0101 in the space. The separator 1701 is adhered with an adhesive while keeping a distance da between the RFID tag 0104 and the pillow package 0901 at a predetermined distance. That is, in the RFID tag system according to the present embodiment, the plate-shaped separator connects the upper and lower surfaces facing each other of the rectangular parallelepiped of the package to form an internal space that divides the inside of the package, and a metal material is formed in one internal space. The pillow package body 0901 containing the RFID tag 0104 is held on the vertical wall of the other internal space.

<Seventh embodiment>
As shown in FIG. 18, the RFID tag system according to the seventh embodiment of the present invention has a plate-shaped separator 1701 attached as a partition wall with an interval between the ends of the package 0101, and the plate-shaped separator 1701 and the package 0101 are separated. A space is formed between the end portions, and the RFID tag 0104 is held on the upper horizontal wall in the package 0101 in the space. The separator 1701 is bonded with an adhesive. That is, in the RFID tag system according to the present embodiment, the plate-like separator 1701 connects the upper and lower surfaces facing each other of the rectangular parallelepiped of the package 0101 to form an internal space that divides the inside of the package. A pillow package 0901 containing a metal material is accommodated, and the RFID tag 0104 is held on the upper horizontal wall of the other internal space.
Also in this embodiment, the RFID tag 0104 is arranged so that the pillow package 0901 and the antenna plane of the RFID tag 0104 do not overlap in the traveling direction of the electromagnetic wave in the drawing, and the reason will be described later.

<Eighth embodiment>
In general, in the PTP package, as shown in FIG. 3, the convex portion 0302 is not formed up to the end portion of the sheet portion 0301. For this reason, as shown in FIG. 6, in the pillow package in which the PTP packages are wrapped in two layers, the upper (upper half) in the figure can be slightly crushed at the end compared to the lower (lower half). It is in a state.
Utilizing this fact, the RFID tag system according to the eighth embodiment of the present invention is constituted by a plate-like separator 1901 which is inclined as shown in a cross section in FIG. 19 instead of the vertical partition wall shown in FIG. As shown in FIG. 20, the RFID tag 0104 is attached to the vertical wall of the package 0101.

In this RFID tag system, an inclined plate-like separator 1901 is provided, the upper half of the pillow package body that can be crushed is largely pushed, and the RFID tag 0104 is shifted and pasted to a position corresponding to the upper half. Thus, the distance da between the pillow package 0901 and the RFID tag 0104 was secured. In this configuration, since it is not necessary to secure the distance da in the lower half, the size of the package 0101 can be reduced compared to the configuration in which the distance da is ensured over the entire surface as shown in FIG.
In addition to the case where the PTP packagings are stacked in two stages as shown in FIG. 6, for example, even in the case where the PTP packagings are stacked in five stages or six stages, it is sufficient if the uppermost pillow package can be crushed. In that case, as shown in FIG. 24, an inclined separator 1901 may be provided only in a portion that can be crushed and held by the bonding portion 2301 and the bonding portion 2302.

<Ninth embodiment>
As shown in FIGS. 21 and 22, the RFID tag system according to the ninth embodiment of the present invention is provided with a plate-like separator 1901 that is inclined in the same manner as in the eighth embodiment, and has a triangular shape generated on the end surfaces of the separator 1901 and the package 0101. The RFID tag 0104 may be attached horizontally on the upper surface side of the package in the space. Also in this embodiment, the size of the package 0101 can be further reduced as in the eighth embodiment.

In the embodiment shown in FIGS. 13, 16, 18, and 21, the electromagnetic wave is emitted from the upper side of the drawing toward the package, and the RFID tag plane (antenna plane) and the metallic property in the traveling direction of the electromagnetic wave. The example which does not arrange | position with a package body substantially parallelly is shown, and this arrangement | positioning reason is demonstrated.
According to the experiments conducted by the inventors, the RFID tag plane (antenna plane) and the metallic package (pillow package) are arranged at overlapping positions in the traveling direction of the electromagnetic wave emitted from the reader / writer (communication device). It has been found that the influence received by the RFID tag is different between the case where the RFID tag is placed and the case where the RFID tag is placed at a position not overlapping.

  The influence of this difference in arrangement will be specifically described. As shown in FIG. 30, the RFID package 0501 having a flat surface and the RFID tag 3011 plane are arranged in a position overlapping in a substantially parallel manner in the electromagnetic wave traveling direction 3001. In the tag 3011, the communication performance of the RFID tag 3011 is remarkably high under the condition that the distance between the RFID tag 3011 and the pillow package body 0501 cannot secure da (see the above-mentioned “Reason for holding the RFID tag with the interval”). On the other hand, the RFID tag 3012 disposed at a position where the pillow package 0501 having a flat surface and the plane of the RFID tag 3011 do not overlap substantially parallel to each other in the traveling direction 3001 of the electromagnetic wave It has been found that the communication performance of the RFID tag does not deteriorate even if the interval is da or less.

This is because, as shown in FIG. 31, the influence 3111 of the metal material (the metal material constituting the pillow package) generated by the electromagnetic wave 3101 traveling in the vertical downward direction propagates only in the vertical upward direction and also in the horizontal left direction. It can be considered that the influence 3112 of the metal material caused by 3102 extends only in the horizontal right direction.
For these reasons, the embodiments shown in FIGS. 13, 16, 18, and 21 described above use a separator and arrange the RFID tag plane and the metal material at positions that do not overlap in the traveling direction of the electromagnetic wave. This shows an example in which an RFID tag is applied to a product without being affected by a metal material.

<Tenth embodiment>
As shown in FIG. 23, the inclined separator 2309 is composed of adhesive portions 2301 and 2302 for adhering to the package 0101 with an adhesive, and a portion extending from the adhesive portion 2301 at the end of the package 0101. An adhesive portion 2302 can also be provided. Even when the bonding portion 2302 is not bonded by an adhesive, the bonding portion 2302 is pressed against the package due to the pressure received from the PTP package, and as a result, the inclination can be maintained.

  A development view of the package 0101 is shown in FIG. The adhesion part 2301 shown in FIG. 23 is an adhesion part 2401 on the development view of FIG. 25, and the inclined separator part 2402 and the developed separator adhesion part 2403 are extended therefrom.

<Eleventh embodiment>
Further, as shown in FIG. 24, the inclined separator 2409 is bent so that the extended portion from the adhesive portion 2301 at the end of the package 0101 is in contact with the wall surface (side surface) of the package, and the adhesive portion 2302 at the tip thereof is Glue in the middle of the package wall (side). For this reason, the separator 2409 according to the present embodiment is composed of bonding portions 2301 and 2302 for bonding with an adhesive and an inclined holder 1901, and the bonding portion 2302 is not bonded with an adhesive. As in the tenth embodiment, the pressure is pressed against the package wall surface due to the pressure received from the PTP package, and as a result, the inclination can be maintained.

<Twelfth embodiment>
In the RFID tag system according to the present invention, as described above, in order to ensure the maximum communicable distance, the RFID tag antenna is provided with an offset angle (angle θ) so as to be approximately coincident with the antenna angle on the communication device side. It is preferable to arrange. Therefore, as shown in FIG. 28, the RFID tag system according to the twelfth embodiment has an outer shape of a package 2701 having a pentagonal prism shape in which one corner of a package 2701, which is a substantially rectangular parallelepiped, is cut off at an angle θ. It is desirable to place the RFID tag 0104 on the formed inclined surface 2702.

<Package description>
As shown in FIG. 29, the development view of the package according to the first embodiment of the present invention is an extension of the adhesive portion 0105 in the normal development view of the package, and separator 0102 / separator adhesive portion 0106 / holder 0103. / A holder portion adhesive portion 0107 is provided. Since the RFID tag system according to the present embodiment receives pressure from the pillow package as in the case of FIG. 23 and FIG. 24, the adhesion of the separator adhesive portion 0106 with the adhesive can be omitted (separator adhesion). The surface of the part 0106 cannot be omitted), and the spring back force of the bent part from the separator adhesive part 0106 to the holder 0103 is adjusted, and the adhesive of the holder part adhesive part 0107 is omitted (adhesion for the holder part) The surface of the portion 0107 can be omitted).

  As described above, the RFID tag system according to the present invention can provide an RFID tag system that enables stable communication even for a package containing a package including a metallic package, and further expands the communication area. Thus, it is possible to communicate with the RFID tag that moves at high speed.

  Moreover, in the said embodiment, although the example which has arrange | positioned the RFID tag 0104 along the side of the longitudinal direction of the package 0101 shown, for example in FIG. 1 was demonstrated, this invention is not limited to this, A pillow package body and The RFID tag is packaged by setting a distance between the RFID tag and the da tag or by using a separator that holds the RFID tag in a position where the RFID tag antenna and the pillow package do not overlap in the traveling direction of the electromagnetic wave. It can also be placed on other surfaces.

  In the above-described embodiment, description has been made by taking as an example a package for packing tablets, capsules, etc., which are pharmaceuticals, but the RFID tag system according to the present invention is not limited to pharmaceuticals, and a PTP package and a pillow package are used. The present invention can be widely applied to other combined packages, for example, foods such as confectionery. Further, the present invention is not limited to the PTP package, and can be applied to all packaged products packaged in a metal package and stored in an outer box of a non-metal package.

0101: Pharmaceutical package, 0104: RFID tag, 0102 ... Separator, 0103 ... Holder, 0105 ... Adhesive part for closing the plane to the box, 0106 ... Adhesive part for keeping the distance between the separator and the holder , 0107... Adhesive part that holds the offset angle of the holder, 0301... Resin sheet, 0402... Aluminum foil, 0401... Tablet, 0501... Pillow package, 0601. Base material such as film, 0702... RFID chip, 0703... Antenna, 0901... Pillow package, 0902... Space between package and pillow package, 1101... Separator, 1501. 1901: Separator 2301 ... Adhesive part 2302 ... Separator adhesive portion for maintaining inclination, 2501 .. Antenna, 2502... Signal line, 2504... Travel direction of conveyor means such as a belt conveyor, 2701... Package 2702. Arrow indicating the traveling direction of electromagnetic wave, 3011... RFID tag affected by metal material, 3012... RFID tag not affected by metal material, 3101... Arrow indicating the direction of electromagnetic wave traveling in the vertical direction in the figure 3102... Arrow indicating the direction of the electromagnetic wave traveling in the horizontal direction in the figure. 3111... Arrow indicating the direction of the influence caused by the metal material generated by 3101. 3112. .

Claims (6)

Movement for moving an RFID tag system including a communication device that transmits / receives information using electromagnetic waves, an antenna connected to the communication device, and an RFID tag that transmits / receives information using the electromagnetic waves with the communication device A communication system comprising a mechanism,
A communication system, wherein an opening surface of an antenna connected to the communication device is held with a predetermined offset angle (angle θ) with respect to a moving direction of the RFID tag system. A communication device that transmits and receives information using electromagnetic waves, an antenna connected to the communication device, and an RFID tag that is arranged side by side on the plane and that transmits and receives information using the electromagnetic waves. A communication system comprising a mounting mechanism for mounting a plurality of RFID tag systems including:
A communication system, wherein an opening surface of an antenna connected to the communication device is held with a predetermined offset angle (angle θ) with respect to an arrangement direction of the RFID tag system. The communication system according to claim 2 or 3 , wherein the angle θ is 45 to 55 degrees. An RFID tag system including a communication device that transmits and receives information using electromagnetic waves, an antenna connected to the communication device, and an RFID tag that transmits and receives information using the communication device and the electromagnetic waves, and the RFID A communication system comprising a moving mechanism for moving a tag system,
The RFID tag of the RFID tag system is held at a predetermined offset angle (angle θ) with respect to the moving direction of the RFID tag system, and the opening surface of the antenna connected to the communication device is the RFID of the RFID tag system A communication system, wherein the tag is held at substantially the same angle as the offset angle (angle θ) of the tag. A communication device that transmits and receives information using electromagnetic waves, an antenna connected to the communication device, and an RFID tag that is arranged side by side on the plane and that transmits and receives information using the electromagnetic waves. A communication system comprising a plurality of RFID tag systems including a mounting mechanism for mounting the RFID tag systems,
The RFID tag of the RFID tag system is held at a predetermined offset angle (angle θ) with respect to the arrangement direction of the RFID tag system, and the opening surface of the antenna connected to the communication device is the RFID of the RFID tag system A communication system, wherein the tag is held at substantially the same angle as the offset angle (angle θ) of the tag. The communication system according to claim 4 or 5 , wherein the angle θ is 45 to 55 degrees.