JP7155751B2 - RF tag label - Google Patents

Description

TECHNICAL FIELD The present invention relates to an RF tag (Radio Frequency) used for wireless individual identification, and more particularly to an RF tag suitable for liquid containers.

If the RF tag label used for wireless individual identification is not suitable for the electrical properties of the object to which the RF tag label is attached, the communication performance of the RF tag label may deteriorate significantly. For example, if an RF tag label that is not intended for metal is attached to a metal surface, the communication performance of the RF tag label attached to the metal surface will deteriorate significantly. In the invention disclosed in Patent Document 1, as an RF tag label intended to be compatible with metal, an antenna consisting of a radiating element and a matching circuit is mounted on the RF tag label, and the radiating element is electrically connected to the metal surface. The metal surface on which the tag label is attached can be used as part of the RF tag label antenna.

JP 2012-104985 A

If the RF tag label is not suitable for the electrical properties of the object to which the RF tag label is attached, the communication performance of the RF tag label is significantly deteriorated.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an RF tag label that is configured so that the communication performance does not significantly deteriorate even if it is attached to a container containing liquid.

The present invention, which solves the above-mentioned problems, includes a loop-shaped element to which an IC chip is connected, a linear element formed by bending a linear conductor in a zigzag shape, and a planar element constituted by a rectangular conductor. an antenna having a structure in which the other end of the linear element with one end open is connected to the loop-shaped element, and the loop-shaped element is connected to the planar element using a waveguide line , a first adhesive layer laminated on the surface of the inlay on which the antenna is mounted, and a release paper for protecting the first adhesive layer, and the planar element improves the gain of the antenna, The RF tag label is characterized in that the resonance frequency of the antenna is designed according to Table 1 by utilizing the inductive reactance of the linear element .

The RF tag label according to the present invention is configured so that the communication performance does not significantly deteriorate even if it is attached to a container containing liquid.

FIG. 4 is a diagram for explaining an RF tag label according to the embodiment; FIG. 4 is a diagram for explaining usage patterns of the RF tag label according to the present embodiment;

Preferred embodiments of the invention will now be described. In addition, the following description does not restrict the technical scope of the present invention, but is described to aid understanding.

1A and 1B are diagrams for explaining the RF tag label 1 according to the present embodiment, FIG. 1A is a diagram for explaining the layer structure of the RF tag label 1, and FIG. FIG. 2 is a diagram for explaining 2. FIG.

The RF tag label 1 according to the present embodiment is a medium used for individual identification using short-range wireless communication, and is designed so that the communication performance does not significantly deteriorate even if it is attached to a liquid container. The frequency band used by the RF tag label 1 according to this embodiment is the UHF band (860 to 960 Mhz), and as shown in FIG. a first adhesive layer 11 laminated on the surface of the inlay 10 mounted with the antenna 2; a release paper 12 protecting the first adhesive layer 11; and a surface sheet 14 that adheres to the inlay 10 using the second adhesive layer 13 . Note that the RF tag label 1 can also have a configuration in which the second adhesive layer 13 and the surface sheet 14 are omitted.

Materials for the RF tag label 1 will be described. For the base film 10a and the surface sheet 14, which are the base of the inlay 10, in addition to synthetic resin films such as polyethylene terephthalate (PET) and polypropylene (PP), art paper and the like can be used. Metal foil such as aluminum foil can be used for the antenna 2 . Also, an acrylic or rubber-based adhesive can be used for the first adhesive layer 11 and the second adhesive layer 13 . Furthermore, as the release paper 12, a synthetic resin film coated with a release agent such as silicone or paper coated with a release agent can be used.

The structure of the antenna 2 mounted on the inlay 10 of the RF tag label 1 will be described with reference to FIG. 1(b). The antenna 2 mounted on the inlay 10 is a dipole antenna and has a loop-shaped element 21 to which an IC chip 24 is connected, a linear element 20 and a planar element 22. One end of the linear element 20 is connected to the loop-shaped element 21. The loop-shaped element 21 is connected to the planar element 22 using the waveguide line 23 .

A loop-shaped element 21 forming the antenna 2 is an antenna element for impedance matching with an IC chip 24 mounted on the inlay 10 . Since a capacitive reactance (capacitance) exists between the input terminals of the IC chip 24, the shape of the loop-shaped element 21 connected to the IC chip 24 is made into a loop shape to reduce the capacitive reactance existing between the input terminals of the IC chip 24. The loop element 21 has an inductive reactance (inductance) corresponding to .

A planar element 22 constituting the antenna 2 is composed of a rectangular conductor such as a plate electrode. The gain of the antenna 2 mounted on the RF tag label 1 can be improved by forming the planar element 22 that constitutes the antenna 2 from a rectangular conductor.

Even if the gain of the antenna 2 mounted on the RF tag label 1 is improved, if the resonance frequency of the RF tag label 1 deviates significantly from the carrier frequency of the RF tag label 1, the communication characteristics of the RF tag label 1 deteriorate. The antenna 2 is provided with a mechanism that allows the resonance frequency to be easily set to a predetermined value at the design stage of the antenna 2, and the resonance frequency of the RF tag label 1 is determined in consideration of sticking to a container containing liquid. .

The linear element 20 constituting the antenna 2 according to the present embodiment is an antenna element used for setting the resonance frequency at the stage of designing the antenna 2, and has a shape obtained by bending a linear conductor in a zigzag shape. Since the linear element 20, which is a linear conductor bent in a zigzag shape, has an inductive reactance, the antenna 2 is designed so that the resonance frequency of the RF tag label 1 becomes a predetermined frequency by using this inductive reactance. becomes easier. Considering that the RF tag label 1 is affixed to a container containing liquid, the RF tag label 1 according to this embodiment uses the linear element 20 constituting the antenna 2 so that the resonance frequency of the RF tag label 1 satisfies Table 2. Designed.

In Table 2, the size of the planar element 22 that constitutes the antenna 2 is defined by the half-level resonance frequency, and the size of the planar element 22 that constitutes the antenna 2 corresponds to the half-level resonance frequency. . When the RF tag label 1 is affixed to a container containing liquid, the resonance frequency of the RF tag label 1 decreases. is designed to be the lowest.

FIG. 2 is a diagram for explaining how the RF tag label 1 according to this embodiment is used. In FIG. 2, the test tube 3 is used as a container to which the RF tag label 1 according to this embodiment is attached. In FIG. 2, the RF tag label 1 according to this embodiment is affixed to the top of the test tube 3 in a curved shape so that the linear element 20 constituting the antenna 2 is on the mouth side of the test tube 3 . As shown in FIG. 2, by attaching the RF tag label 1 according to the present embodiment to the test tube 3, regardless of the liquid level of the test tube 3 or the reading direction of the RF tag label 1, A communication distance (for example, 1 m or more) can be obtained.

REFERENCE SIGNS LIST 1 RF tag label 10 inlay 11 first adhesive layer 12 release paper 13 second adhesive layer 14 surface sheet 2 antenna 20 linear element 21 loop element 22 planar element 23 waveguide line 24 IC chip 3 test tube

Claims (1)

The wire has a loop-shaped element to which an IC chip is connected, a linear element in which a linear conductor is bent in a zigzag shape, and a planar element composed of a rectangular conductor, and one end of which is open. An inlay mounted with an antenna having a structure in which the other end of the element is connected to the loop-shaped element, and the loop-shaped element is connected to the planar element using a waveguide line; and the antenna is mounted. A first adhesive layer laminated on the surface of the inlay and a release paper protecting the first adhesive layer are provided, the gain of the antenna is improved by the planar element, and the inductive reactance of the linear element is reduced. is designed so that the resonant frequency of said antenna is in accordance with Table 1,
An RF tag label characterized by:

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