JP6677602B2 - Identification body - Google Patents

Description

  The present invention relates to an identification body that enables identification information to be recognized using an antenna.

  2. Description of the Related Art Conventionally, an OCR (Optical Character Reader) technology for reading identification information such as a postal code, an address, and a name of a postal matter by image recognition has been used. By using such an image reading technique, it is possible to increase the speed and efficiency of the reading process of the identification information. However, in such an image reading technique, when the surface on which the identification information is displayed is opposite to the reading surface, such as when the mail is turned over, the identification information cannot be read. Further, even when the identification information is hidden by a shield such as paper, the identification information cannot be read. Further, depending on the print quality of the identification information, there is a possibility that the reading rate may be reduced or erroneous reading may occur for characters that are difficult to distinguish such as “0” and “6” and “1” and “7”.

  In the delivery, an ID for identifying the delivery is displayed as a barcode on a delivery slip, and the delivery status and history of the delivery are managed by reading the ID using infrared rays. However, in the method of reading an ID using a barcode as described above, since the barcode is optically read in the same manner as described above, if the barcode is displayed on a surface that is not irradiated with infrared rays, the ID is read. Can not do. Therefore, in the delivery slip, the ID is displayed not only with the bar code but also with a numeral, and the ID is visually observed in the case where the reading of the bar code has failed.

  In recent years, RFID technology for reading an ID in a non-contact state using electromagnetic waves has become widespread, and has begun to be introduced in the field of physical distribution. In the RFID technology, an ID chip is used to read an ID by electromagnetic waves, and the ID is read from the IC chip in a non-contact manner. Therefore, by applying the RFID technology using such an IC chip to a mail or a delivery slip, it is possible to prevent the ID from being unable to be read due to the orientation of the reading surface or the shield as described above. Can be.

Such an identifier using the RFID technology is not limited to the one using the IC chip as described above, but includes a plurality of antennas having different resonance peak frequencies, and a plurality of antennas without using the IC chip. It is also considered that an ID can be recognized by a combination of. For example, by changing the shape of the dielectric element and the capacitor element constituting a plurality of antennas, or changing the shape and direction of the plurality of antennas, the frequency of the resonance peak differs for each of the plurality of antennas, and the Japanese Patent Application Laid-Open No. H11-163873 discloses a technique that enables an ID to be expressed by a combination. If this technology is used, when the number of antennas is N, two information of "1" and "0" can be provided depending on the presence / absence of one antenna. Thus, (2 ^N -1) IDs can be expressed in a recognizable manner. Further, by adopting a configuration in which an IC chip is not used, an increase in cost due to an expensive IC chip can be avoided.

JP-A-10-76732 Japanese Patent Publication No. 7-80386

  However, as described above, in the case where the identification information can be recognized using only the antenna, the shape of the dielectric element and the capacitor element constituting the antenna may be changed according to the identification information, or the shape or the shape of a plurality of antennas may be changed. By changing the frequency of the resonance peak for each of the plurality of antennas by changing the direction or the like, the ID serving as the identification information can be recognized. Therefore, the identification information cannot be visually recognized. Therefore, for example, the ID “1920045” is expressed by arranging a plurality of antennas having shapes corresponding to “1”, “9”, “2”, “0”, “0”, “4”, and “5”. In this case, the ID may not be recognized in the arrangement order of the antennas, and the ID may be recognized as “1925400”, or the duplicate digits may be missed and recognized as “192045”, and the error cannot be recognized. There is a problem.

  The present invention has been made in view of the above-described problems of the related art, and enables identification information to be recognized using an electromagnetic wave, even when the recognition by the electromagnetic wave fails. It is an object of the present invention to provide an identifier capable of accurately recognizing identification information.

In order to achieve the above object, the present invention provides
Ground pattern,
An antenna having a shape representing a number, a character, or a symbol, disposed opposite to the ground pattern via an insulating layer, and having a resonance peak at a frequency corresponding to the shape when facing the ground pattern. And
The ground pattern has a shape that covers the antenna in plan view.

  In the present invention configured as described above, since the antenna is arranged to face the ground pattern via the insulating layer, a resonance peak appears at a frequency corresponding to the shape of the antenna, and this resonance peak is reduced. The identification information is recognized by the detection, but since the antenna has a shape representing a number, a character, or a symbol, the identification information can be visually recognized even when the detection of the resonance peak fails, and the identification information can be recognized. Information can be accurately recognized.

  When the Q value in a state not facing the ground pattern is 30 or less, a sharp resonance peak in which the Q value becomes 30 or more at a frequency according to the shape is obtained by facing the ground pattern. Can be expressed.

  According to the present invention, since the antenna in which the resonance peak appears by facing the ground pattern has a shape representing a number, a character, or a symbol, the identification information can be recognized using the electromagnetic wave, but the recognition by the electromagnetic wave is not performed. Even if it fails, the identification information can be accurately recognized.

It is a figure which shows one Embodiment of the identification body of this invention, (a) is a figure which shows the structure of a front surface, (b) is AA 'sectional drawing shown to (a), (c) is a back surface. FIG. 3 is a diagram illustrating a configuration. It is a figure which shows an example of the delivery slip which applied the identification body of this invention, (a) is a figure which shows the whole structure, (b) is a figure which shows the detailed structure of the inquiry number display column shown in (a) (C) is a diagram showing the configuration of the back surface of the inquiry number display column shown in (a). FIG. 3 is a diagram showing an example of a recognition system for recognizing an inquiry number displayed in an inquiry number display column of the delivery slip shown in FIG. 2. FIG. 4 is a diagram for explaining a method of recognizing the inquiry number displayed in the inquiry number display column of the delivery slip shown in FIG. 2 in the ID recognition system shown in FIG. 3, and FIG. FIGS. 6B to 6E are diagrams showing states of a delivery slip when the delivery is performed, and FIGS. 7B to 7E are views showing states of detection of electromagnetic wave radiation and reflected waves.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIGS. 1A and 1B are diagrams showing an embodiment of the identification body of the present invention, in which FIG. 1A shows the configuration of the surface, FIG. 1B is a cross-sectional view taken along the line AA ′ shown in FIG. () Is a diagram showing the configuration of the back surface.

  As shown in FIG. 1, the identification body in this embodiment is provided with number display areas 21a to 21j on the surface of a base substrate 10, and conductive antennas 20a to 20j are stacked on each of the number display areas 21a to 21j. In addition, ground patterns 30a to 30j are laminated on the back surface of the base member 10 so as to face the antennas 20a to 20j, respectively, whereby the antennas 20a to 20j and the ground patterns 30a to 30j are respectively The ID tag 1 is configured to be disposed to face through the ID tag 1.

Each of the antennas 20a to 20j has a number shape serving as identification information given to the number display areas 21a to 21j, and is opposed to the ground patterns 30a to 30j to have a frequency corresponding to the shape of the antennas 20a to 20j. To generate a resonance peak. Specifically, the antenna 20a stacked on the number display area 21a has a shape of “1”, the antenna 20b stacked on the number display area 21b has a shape of “2”, and the number display area 21c has a shape of “2”. The stacked antenna 20c has a shape of “3”, the antenna 20d stacked on the number display area 21d has a shape of “4”, and the antenna 20e stacked on the number display area 21e has a shape of “5”. The antenna 20f having a shape and stacked on the number display area 21f has a shape of "6", the antenna 20g stacked on the number display area 21g has a shape of "7", and has a shape of "7". The stacked antenna 20h has a shape of “8”, the antenna 20i stacked in the number display area 21i has a shape of “9”, and the antenna 2 stacked in the number display area 21j. j has the shape of a "0", they express a resonance peak at different frequencies by facing the ground pattern 30 a - 30 j. In order for a resonance peak to appear when the antenna 20 faces the ground patterns 30a to 30j, the Q value in a state where the antennas 20a to 20j alone, that is, the antenna 20 does not face the ground pattern 30, is preferably 30 or less, and more preferably It is necessary that it is 20 or less, or that the antenna alone does not exhibit a resonance peak. This is because when the Q value of the antenna alone exceeds 30 and the ground pattern is opposed, the resonance peak does not appear. On the other hand, when the Q value of the antenna alone is 30 or less, the antenna faces the ground pattern. , And a sharp resonance peak at which the Q value becomes 30 or more. Note that the Q value is defined as ω ₀ at a frequency at a resonance peak, ω ₁ at a frequency at which vibration energy is half of the resonance peak at a frequency lower than the resonance peak, and ω ₁ at a frequency higher than the resonance peak. If the frequency of vibration energy becomes half the resonance peak was omega _2, a value expressed by _{Q = ω 0 / (ω 2} -ω 1).

  The ground patterns 30a to 30j are larger than the opposing antennas 20a to 20j and have a shape that covers the antennas 20a to 20j in plan view.

  The base material 10 is to be an insulating layer in the present invention, and is made of an insulating material having a thickness of about 200 to 300 μm. As the insulating material, a resin film or the like can be considered, but a material having a small dielectric loss tangent is preferable. The insulating layer may be formed by applying an insulating resin film without using the base material 10.

  In the ID tag 1 configured as described above, since the antennas 20a to 20j face the ground patterns 30a to 30j and exhibit a resonance peak at a frequency corresponding to the shape of the antennas 20a to 20j, the electromagnetic wave The ID given to the ID tag 1 can be recognized by detecting whether or not a resonance peak is detected in the vicinity of a frequency corresponding to the shape of the antennas 20a to 20j in the reflected wave. Specifically, the individual IDs “1”, “2”, “3”, “4”, “5”, “6”, “7”, “8”, “9” are set according to the shapes of the antennas 20a to 20j. "," 0 "are set, and when a resonance peak is detected near the frequency corresponding to the shape of the antenna 20a, the individual ID" 1 "is recognized, and the vicinity of the frequency corresponding to the shape of the antenna 20b is recognized. When the resonance peak is detected, the individual ID “2” is recognized. When the resonance peak is detected near the frequency corresponding to the shape of the antenna 20c, the individual ID “3” is recognized, and the antenna 20d is recognized. When the resonance peak is detected near the frequency corresponding to the shape of the antenna 20e, the individual ID “4” is recognized. When the resonance peak is detected near the frequency corresponding to the shape of the antenna 20e, the individual ID “4” is recognized. Recognizing 5 ", the frequency according to the shape of the antenna 20f When the resonance peak is detected in the vicinity, the individual ID “6” is recognized. When the resonance peak is detected in the vicinity of the frequency corresponding to the shape of the antenna 20g, the individual ID “7” is recognized. When the resonance peak is detected near the frequency corresponding to the shape of the antenna 20i, the individual ID “8” is recognized. When the resonance peak is detected near the frequency corresponding to the shape of the antenna 20i, the individual ID is recognized. Recognizing "9" and recognizing individual IDs "0" when a resonance peak is detected near a frequency corresponding to the shape of the antenna 20j and arranging these in a predetermined order, the IDs are assigned to the ID tag 1. ID can be recognized.

  Hereinafter, a specific example to which the above-described ID tag 1 is applied and an ID recognition system using the same will be described.

  2A and 2B are diagrams showing an example of a delivery slip to which the identification object of the present invention is applied, wherein FIG. 2A is a diagram showing the entire configuration, and FIG. 2B is a diagram showing details of an inquiry number display column 43 shown in FIG. FIG. 7C is a diagram showing the configuration of the back of the inquiry number display column 43 shown in FIG.

  As shown in FIG. 2A, the delivery slip 40 in this example includes a delivery destination information display field 41 in which the delivery address and name of the delivery to which the delivery slip 40 is attached and delivered are displayed. A delivery source information display column 42 in which the address and name of the delivery source of the delivery are displayed, and an inquiry number display column 43 in which an inquiry number for managing the delivery status of the delivery is displayed.

  As shown in FIG. 2B, the inquiry number display column 43 is provided with number display areas 121a to 121l similarly to the ID tag 1 shown in FIG. 1, and is provided in each of the number display areas 121a to 121l. , And antennas 120a to 120l. Specifically, since the inquiry number displayed in the inquiry number display column 43 is “2313-4945-7806”, the antenna 120a having the shape of the numeral “2” is stacked in the number display area 121a, In the number display area 121b, an antenna 120b having a shape of the number “3” is stacked, in the number display area 121c, an antenna 120c having a shape of the number “1” is stacked, and in the number display area 121d, a number is displayed. An antenna 120d having a shape of “3” is stacked, an antenna 120e having a shape of a number “4” is stacked in a number display area 121e, and an antenna having a shape of a number “9” is stacked in a number display area 121f. The antenna 120g having the shape of the numeral “4” is stacked in the number display area 121g. The number display area 121h is stacked with an antenna 120h having the shape of the number “5”, the number display area 121i is stacked with the antenna 120i having the shape of the number “7”, and the number display area 121j. The antenna 120j having the shape of the number “8” is stacked, the antenna 120k having the shape of the number “0” is stacked in the number display area 121k, and the shape of the number “6” is stacked in the number display area 121l. Antennas 120a to 120l having the number shapes assigned to the number display areas 121a to 121l, the inquiry numbers "2313-4945-7806" displayed in the inquiry number display column 43. "Is visible.

  As shown in FIG. 2C, ground patterns 130a to 130l are stacked on the back surface of the inquiry number display column 43 so as to face the antennas 120a to 120l, respectively. Each of the ground patterns 130a to 130l is larger than the opposed antennas 120a to 120l and has a shape that covers the antennas 120a to 120l in plan view, similarly to the ID tag 1 shown in FIG.

  The antennas 120a to 120l face the ground patterns 130a to 130l, respectively, so that resonance peaks appear near a frequency corresponding to the shape of the antennas 120a to 120l. Resonance peaks appear near different frequencies for each of the shapes 2 "," 3 "," 4 "," 5 "," 6 "," 7 "," 8 "," 9 ", and" 0 ". . Therefore, by detecting the resonance peaks of the antennas 120a to 120l, the numbers assigned to the number display areas 121a to 121l can be recognized. Further, by recognizing the arrangement order, the inquiry number display field 43 is displayed. The displayed inquiry number can be identified.

  FIG. 3 is a diagram showing an example of an ID recognition system for recognizing the inquiry number displayed in the inquiry number display column 43 of the delivery slip 40 shown in FIG.

  As shown in FIG. 3, the ID recognition system in the present example includes the delivery slip 40 shown in FIG. 2 and a reading device 50 that recognizes the inquiry number displayed in the inquiry number display column 43 of the delivery slip 40. The reading device 50 has antennas 51a and 51b, an electromagnetic wave radiating unit 52, a reflected wave receiving unit 53, a processing unit 54, a control unit 58, and an ID database 59.

  The electromagnetic wave radiating unit 52 faces the ground patterns 130a to 130l with respect to each of the number display areas 121a to 121l, so that "1", "2", "3", "4", "5", " An electromagnetic wave in a frequency band including all frequencies of the resonance peak of the antenna that appears according to the shapes of “6”, “7”, “8”, “9”, and “0” is transmitted via the antenna 51a.

  The reflected wave receiving unit 53 receives, via the antenna 51b, a reflected wave from the delivery slip 40 with respect to the electromagnetic wave transmitted from the electromagnetic wave emitting unit 52 via the antenna 51a.

  The processing unit 54 includes a reflection intensity detection unit 55, an individual ID recognition unit 56, and an ID recognition unit 57.

  The reflection intensity detector 55 detects the reflection intensity of the reflected wave received by the reflected wave receiver 53.

  The individual ID recognition unit 56 detects a resonance peak for each of the number display areas 121a to 121l based on the reflection intensity detected by the reflection intensity detection unit 53, refers to the ID database 59, and corresponds to the frequency of the detected resonance peak. The number is recognized as an individual ID for each of the number display areas 121a to 121l.

  In the ID database 59, numbers according to the shapes of the antennas 120a to 120l are registered in association with the frequencies of the resonance peaks generated when the antennas 120a to 120l face the ground patterns 130a to 130l.

  The ID recognizing unit 57 arranges the numbers recognized by the individual ID recognizing unit 56 in the order in which the resonance peaks of the frequencies corresponding to the numbers are detected, thereby changing the inquiry number displayed in the inquiry number display column 43. recognize.

  The control unit 58 controls the emission of the electromagnetic wave in the electromagnetic wave emission unit 52 and each processing in the processing unit 54.

  Hereinafter, a method of recognizing the inquiry number displayed in the inquiry number display column 43 of the delivery slip 40 shown in FIG. 2 in the ID recognition system configured as described above will be described.

  FIG. 4 is a diagram for explaining a method of recognizing the inquiry number displayed in the inquiry number display column 43 of the delivery slip 40 shown in FIG. 2 in the ID recognition system shown in FIG. Is a diagram showing a state of the delivery slip 40 when the inquiry number is recognized, and (b) to (e) show the detection of the radiation of the electromagnetic wave via the antenna 51a and the detection of the reflected wave from the delivery slip 40 via the antenna 51b. It is a figure showing a state.

  The electromagnetic wave radiated from the electromagnetic wave radiating section 52 is radiated via the antenna 51a onto the conveyor 3 on which the delivery 2 to which the delivery slip 40 is affixed is transported as shown in FIG. As described above, the electromagnetic wave radiating section 42 faces the ground patterns 130a to 130l, thereby setting "1", "2", "3", "4", "5", "6", "7". , “8”, “9”, and “0”, an electromagnetic wave in a frequency band including all the frequencies of the resonance peaks of the antenna, transmitted through the antenna 51a. When the opposed antennas 120a to 120l are not present in the region where the electromagnetic waves are radiated, no reflected wave is detected, and the antennas 120a to 120l facing the ground patterns 130a to 130l are present in the region where the electromagnetic waves are radiated. In this case, reflected waves from the antennas 120a to 120l are detected, and the reflected waves are shared at a frequency corresponding to the shape of the antennas 120a to 120l. So that the peak is detected. The antennas 51a and 51b are not limited to those provided above the conveyor 3 as shown in FIG. For example, it may be provided below the conveyor 3, may emit electromagnetic waves via the conveyor 3 to the delivery 2 conveyed on the conveyor 3, or may be provided on the side of the conveyor 3.

  Then, as shown in FIG. 4A, the delivery 2 to which the delivery slip 40 has been attached is conveyed on the conveyor 3, and the inquiry number display column 43 faces the antennas 51a and 51b. At this time, as described above, the inquiry number display column 43 is provided with the number display areas 121a to 121l, and when the delivery 2 is transported on the conveyor 3, the antennas 51a and 51b The display areas 121a are sequentially opposed to the number display areas 121a to 121l.

  When the antennas 51a and 51b first face the number display area 121a, as shown in FIG. 4B, the electromagnetic wave radiated from the electromagnetic wave radiating section 52 is radiated to the antenna 120a in the number display area 121a via the antenna 51a. . When the electromagnetic wave radiated from the electromagnetic wave radiating unit 52 is radiated to the antenna 120a via the antenna 51a, the reflected wave from the antenna 120a is received by the reflected wave receiving unit 53 via the antenna 51b, and the reflected intensity detecting unit 55 In, the reflection intensity of the reflected wave from the antenna 120a received by the reflected wave receiving unit 53 is detected.

  Then, the individual ID recognition unit 56 first detects a resonance peak in the reflected wave from the antenna 120a based on the reflection intensity of the reflected wave from the antenna 120a detected by the reflection intensity detection unit 55. As described above, the electromagnetic wave radiating section 42 faces the ground patterns 130a to 130l, thereby setting "1", "2", "3", "4", "5", "6", "7". , “8”, “9”, and “0”, the electromagnetic wave in the frequency band including all the frequencies of the resonance peaks of the antenna is transmitted via the antenna 51a. Includes a resonance peak in the reflected wave from the antenna 120a having the shape of the numeral “2”, and this resonance peak is detected at a frequency corresponding to “2”. become.

  Then, the individual ID recognizing unit 56 refers to the ID database 59, and recognizes the number corresponding to the detected resonance peak frequency as the individual ID of the number display area 121a. As described above, in the ID database 59, the numbers according to the shapes of the antennas 120a to 120l are registered in association with the frequencies of the resonance peaks generated when the antennas 120a to 120l face the ground patterns 130a to 130l. Therefore, the number “2” registered corresponding to the resonance peak in the reflected wave from the antenna 120a is recognized as the individual ID of the number display area 121a.

  When the goods 2 are conveyed on the conveyor 3 and the antennas 51a and 51b face the number display area 121b, as shown in FIG. The light is radiated to the antenna 120b in the number display area 121b via 51a. When the electromagnetic wave radiated from the electromagnetic wave radiating unit 52 is radiated to the antenna 120b via the antenna 51a, the reflected wave from the antenna 120b is received by the reflected wave receiving unit 53 via the antenna 51b, and the reflected intensity detecting unit 55 In, the reflection intensity of the reflected wave from the antenna 120b received by the reflected wave receiving unit 53 is detected.

  Then, in the same manner as described above, the individual ID recognition unit 56 detects the resonance peak in the reflected wave from the antenna 120b based on the reflection intensity of the reflected wave from the antenna 120b detected by the reflection intensity detection unit 55, and the ID database 59 Is referred to, and the number “3” corresponding to the detected resonance peak frequency is recognized as the individual ID of the number display area 121b.

  When the delivery 2 is conveyed on the conveyor 3 and the antennas 51a and 51b face the number display area 121c, as shown in FIG. The light is radiated to the antenna 120c in the number display area 121c via 51a. When the electromagnetic wave radiated from the electromagnetic wave radiating unit 52 is radiated to the antenna 120c via the antenna 51a, the reflected wave from the antenna 120c is received by the reflected wave receiving unit 53 via the antenna 51b, and the reflected intensity detecting unit 55 In, the reflection intensity of the reflected wave from the antenna 120c received by the reflected wave receiving unit 53 is detected.

  Then, in the same manner as described above, the individual ID recognition unit 56 detects a resonance peak in the reflected wave from the antenna 120c based on the reflection intensity of the reflected wave from the antenna 120c detected by the reflection intensity detection unit 55, and the ID database 59. Is referred to, and the number “1” corresponding to the frequency of the detected resonance peak is recognized as the individual ID of the number display area 121c.

  The delivery 2 is conveyed on the conveyor 3, and then, when the antennas 51a and 51b face the number display area 121d, as shown in FIG. The light is radiated to the antenna 120d in the number display area 121d via 51a. When the electromagnetic wave radiated from the electromagnetic wave radiating unit 52 is radiated to the antenna 120d via the antenna 51a, the reflected wave from the antenna 120d is received by the reflected wave receiving unit 53 via the antenna 51b, and the reflected intensity detecting unit 55 In, the reflection intensity of the reflected wave from the antenna 120d received by the reflected wave receiving unit 53 is detected.

  In the same manner as above, the individual ID recognition unit 56 detects the resonance peak in the reflected wave from the antenna 120d based on the reflection intensity of the reflected wave from the antenna 120d detected by the reflection intensity detection unit 55, and the ID database 59 Is referred to, and the number “3” corresponding to the frequency of the detected resonance peak is recognized as the individual ID of the number display area 121d.

  Thereafter, similarly, for each of the number display areas 121e to 121l, resonance peaks in the reflected waves from the antennas 120e to 120l were sequentially detected, whereby the number display areas 121e to 121l were displayed by the antennas 120e to 120l. The numbers are recognized by the individual ID recognition unit 56.

  When the numbers displayed in the number display areas 121a to 121l are respectively recognized by the individual ID recognizing units 56, the numbers recognized by the individual ID recognizing units 56 in the ID recognizing unit 57 correspond to the resonances corresponding to the numbers. The peaks are arranged in the order in which they were detected. In this example, the individual ID recognition unit 56 corresponds to the resonance peak at the frequency corresponding to “2”, the resonance peak at the frequency corresponding to “3”, the resonance peak at the frequency corresponding to “1”, and “3”. A resonance peak at a frequency corresponding to "4", a resonance peak at a frequency corresponding to "9", a resonance peak at a frequency corresponding to "4", a resonance peak at a frequency corresponding to "5", Since the resonance peak at the frequency corresponding to “7”, the resonance peak at the frequency corresponding to “8”, the resonance peak at the frequency corresponding to “0”, and the resonance peak at the frequency corresponding to “6” were detected in this order, In the ID recognition unit 57, these numbers are “2”, “3”, “1”, “3”, “4”, “9”, “4”, 5 ”,“ 7 ”,“ 8 ”,“ 0 ”,“ 6 ”, so that the numbers“ 2 ”,“ 3 ”,“ 1 ”,“ 3 ”,“ 4 ”,“ 9 ” "231334457806", which is a combination of "4", "5", "7", "8", "0", and "6" in this order, is used as the inquiry number displayed in the inquiry number display field 43. Will be recognized.

  In addition, since this inquiry number can be visually recognized by the shape of the antennas 120a to 120l stacked on the number display areas 121a to 121l, the inquiry number is obtained from the antennas 120a to 120l in the number display areas 121a to 121l as described above. Even if the inquiry number cannot be recognized using the reflected wave of, it can be visually recognized.

  Note that, in the above-described embodiment, an example in which the shape of the antenna is a number has been described. However, the shape of the antenna may be a symbol or a character as long as it can be visually identified. .

  In the ID tag 1 shown in FIG. 1, ground patterns 30a to 30j are laminated on the back surface of the base member 10 so as to face the antennas 20a to 20j, respectively. Also, the ground patterns 130a to 130l are stacked so as to face each of the antennas 120a to 120l. May be laminated on the entire surface of the substrate.

  In the ID tag 1 shown in FIG. 1 and the delivery slip 40 shown in FIG. 3, each of the ground patterns 30a to 30j and 130a to 130l is larger than the facing antennas 20a to 20j and 120a to 120l, and It has a shape that covers the antennas 20a to 20j and 120a to 120l when viewed, but may not cover a very small area of the opposed antennas 20a to 20j and 120a to 120l when viewed in plan. In addition, it is defined as having a shape that covers the antenna in plan view.

DESCRIPTION OF SYMBOLS 1 ID tag 2 Deliverable 3 Conveyor 10 Base material 20a-20j, 51a, 51b, 120a-120l Antenna 21a-21j, 121a-121l Number display area 30a-30j, 130a-130l Ground pattern 40 Delivery slip 41 Delivery destination information Display column 42 Delivery source information display column 43 Inquiry number display column 50 Reader 52 Electromagnetic wave radiating unit 53 Reflected wave receiving unit 54 Processing unit 55 Reflection intensity detecting unit 56 Individual ID recognizing unit 57 ID recognizing unit 58 Control unit 59 ID database

Claims (2)

Ground pattern,
An antenna having a shape representing a number, a character, or a symbol, disposed opposite to the ground pattern via an insulating layer, and having a resonance peak at a frequency corresponding to the shape when facing the ground pattern. And
The identification body, wherein the ground pattern has a shape covering the antenna in plan view. The identification body according to claim 1,
The identification body, wherein the antenna has a Q value of 30 or less in a state where the antenna does not face the ground pattern.

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