KR200453009Y1 - Flexible RFID tag in VHF - Google Patents

Abstract

The present invention is made of a flexible synthetic resin material having a flexible (flexible) tag substrate itself so that it can be easily attached to the edge portion of the object requiring automatic recognition, and improved the antenna pattern of the RFID tag attached to the automatic recognition object, After installing the first and second antennas electrically connected to each other via RFID IC chips on both sides, RFID of the VHF band has the flexibility to more accurately grasp various information on the automatic recognition object and minimize the error of recognition. It's about tags.

To this end, the present invention is an RFID tag attached to an information recognition object, the substrate material of the RFID tag is a flexible synthetic resin material having a flexible (flexible), the front surface of the RFID tag substrate is made of a silver printed pattern 2 A first antenna having a predetermined pattern is installed at the same time, and is electrically connected through an RFID IC chip. The rear surface of the RFID tag substrate is integrally connected to the first antenna along both sides of the substrate, and at the same time, printing is made of silver. It consists of a pattern and the 2nd antenna which has a predetermined pattern is provided.

 RFID Tag Substrate, Flexible, 1st Antenna, 2nd Antenna, Silver Material Printing Pattern

Description

Flexible RFID tag in VHF band with flexibility {Flexible RFID tag in VHF}

The present invention relates to an RFID tag, more specifically, the tag substrate itself is a flexible synthetic resin material having a flexible (flexible) so that it can be easily attached to the corner portion of the object requiring automatic recognition, and is attached to the automatic recognition object By improving the antenna pattern of the RFID tag and installing the first and second antennas that are electrically connected to each other through the RFID IC chip on both sides of the substrate, it is possible to more accurately grasp various types of information on the automatic recognition object and detect errors in recognition. The present invention relates to an RFID tag in the VHF band having flexibility to be minimized.

As is well known, an RFID tag is composed of an IC chip, an antenna, and an attachment, and is a device for transmitting and receiving an external RFID reader and predetermined data, also called a transponder.

Such an RFID tag transmits and receives data to and from an RFID reader in a non-contact manner. Inductive coupling, electromagnetic backscattering, and surface acoustic waves (SAW) Acoustic Wave) and the like, and can transmit and receive RFID readers and data in full duplex (FDX), half duplex (HDX: half duplex), and sequential (SEQ) modes. have.

For example, RFID tags are used for various purposes such as IC cards or pass tickets for the management of goods or payment of calls due to the nature of non-contact, and passive tags that generate the required current by manually operating on external changes without a separate internal battery ( Passive Tag) is mainly used.

In addition, depending on whether the data can be modified, it is also classified into read-only, write once read memory (WORM), and read / write methods.

The RFID reader transmits and receives an RFID tag and a radio signal to read / write data embedded in the RFID tag.

In addition, as a recognition method using a conventional RFID technology, a method using a tag itself, a method of integrating into a card manufactured by laminating, a method using an adhesive medium such as a sticker, and injection molding And a method of integrally forming a tag.

However, the conventional RFID tag is made of epoxy resins, which is a kind of rigid plastic resin, and the substrate on which the internal antenna is patterned is attached and fastened to a place where it is difficult to attach the tag, such as an edge of an automatic recognition object. Not only is it easy, but the internal antenna of the tag is formed only on the front of the board, so that the antenna impedance can be adjusted by appropriately adjusting parameters including the length, angle, spacing, and thickness (width) of the antenna components. There is a problem in that the tag recognition distance in the RFID reader cannot be recognized more accurately because it cannot be matched with the optimum state.

      Therefore, the present invention is devised to solve the above problems of the prior art, an object of the present invention is a flexible synthetic resin material having a flexible (flexible) tag substrate itself so that it can be easily attached to the corner portion of the object requiring automatic recognition. By improving the antenna pattern of the RFID tag attached to the automatic recognition object, the first and second antennas electrically connected to each other through the RFID IC chip on both sides of the substrate, thereby providing various information on the automatic recognition object. The present invention provides an RFID tag in the VHF band that has the flexibility to more accurately identify and minimize errors in recognition.

In order to achieve the above object, the present invention is an RFID tag attached to an information recognition object, the substrate material of the RFID tag is a flexible synthetic resin material having a flexible (flexible), the front of the RFID tag substrate printed on the silver material A first antenna having a predetermined pattern and at the same time is formed in a pattern and is divided into two and electrically connected through an RFID IC chip. A rear surface of the RFID tag substrate is integrally connected to the first antenna along both sides of the substrate. At the same time, a second antenna having a predetermined pattern is formed of a silver material printed pattern.

In addition, the present invention is characterized in that the predetermined pattern of the first antenna has a zigzag shape.

In addition, the present invention is characterized in that the predetermined pattern of the second antenna has a rectangular shape covering a part of the rear surface of the RFID tag substrate.

       According to the flexible RFID tag of the VHF band according to the present invention, the tag substrate itself is a flexible synthetic resin material having a flexible (flexible) can be easily attached to the corner portion of the automatic recognition object, and also the automatic recognition object By improving the antenna pattern of the RFID tag attached to it, the first and second antennas, which are electrically connected to each other through IC chips, are installed on both sides of the substrate, so that various types of information on the automatic recognition object can be more accurately recognized. This has the effect of minimizing errors.

{Example}

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 1a is a front perspective view of the RFID tag of the VHF band with flexibility according to the present invention, Figure 1b is a rear perspective view of the RFID tag of the VHF band with the flexibility according to the present invention, Figure 2 has a flexibility according to the present invention A flat cross-sectional view of an RFID tag in the VHF band.

As shown in FIGS. 1 and 2, the material of the substrate 1 of the RFID tag 10 is a flexible synthetic resin material having flexibility, and a silver print is formed on the front surface of the RFID tag 10 substrate 1. A first antenna 3 having a predetermined pattern while being electrically connected through the RFID IC chip 2 is formed in a pattern and divided into two, and a substrate 1 is formed on the rear surface of the RFID tag 10 substrate 1. A second antenna 5 having a predetermined pattern, which is integrally connected to the first antenna 3 and simultaneously made of a silver printing pattern, is installed along both side surfaces 4 and 4 of FIG.

In this case, although the predetermined pattern of the 1st antenna 3 is divided into two, it consists in a substantially zigzag shape as a whole.

In addition, the predetermined pattern of the second antenna 5 has a rectangular shape covering a part of the rear surface of the RFID tag substrate 1.

In FIG. 1A and FIG. 2, reference numeral 6 denotes a thin transparent cover member for preventing damage to the RFID IC chip 2 and the RFID tag first antenna 3.

The operation of the RFID tag of the VHF band having flexibility according to the present invention configured as described above will be described in detail with reference to FIG. 3.

First, as shown in FIGS. 1A and 1B, the RFID tag substrate 1 having a substantially rectangular shape is made of a flexible synthetic resin material having flexibility, and thus an automatic recognition object that is difficult to attach an RFID tag substrate made of epoxy resin as in the prior art. It can be attached easily to the corner part of (20).

On the front surface of the RFID tag 10 substrate 1, a first antenna 3 having a predetermined pattern, which is made of a silver printing pattern and divided into two and electrically connected through the RFID IC chip 2, is installed. On the rear surface of the RFID tag 10, the substrate 1 is connected to the first antenna 3 along both sides 4 and 4 of the substrate 1, and is formed of a silver-printed printing pattern and has a predetermined pattern. The antenna 5 is installed.

In this case, the predetermined pattern of the first antenna 3 divided into two and electrically connected through the RFID IC chip 2 is generally formed in a zigzag shape, and the predetermined pattern of the second antenna 5 is formed on the rear substrate. It consists of a rectangular shape covering a part.

At this time, the first antenna 3 installed on the front surface of the substrate 1 is integrally connected to the second antenna 5 in a form surrounding the side surfaces 4 and 4 of the substrate 1 to be electrically connected to each other. .

As described above, the first antenna 3 is divided into two and electrically connected to each other through the RFID IC chip 2, and is generally formed in a zigzag shape, and the second antenna 5 covers a part of the rear substrate. It is formed in a rectangular shape and the first antenna 3 and the second antenna 5 is configured to be integrally connected along both sides (4, 4) of the substrate 1 to be electrically connected to each other, By appropriately adjusting parameters including length, angle, spacing, and thickness (width), the antenna impedance is optimally matched to the impedance of the RFID IC chip 2 so that the tag recognition distance in the RFID reader 40 to be described later will be described. It is to recognize more accurately.

In addition, the frequency band of the RFID tag according to the present invention is VHF (433MHZ).

Figure 3 is a block diagram of the information recognition device of the RFID tag of the VHF band having the flexibility associated with the present invention, as shown in Figure 3 attached to any location, such as the corner of the information recognition object 20 Recognition related information of the information recognition object 20 stored in the RFID IC chip 2 included in the RFID tag 10 is formed on the first and second antennas 3 and 5 formed before and after the substrate of the RFID tag 10. When received by the RFID reader 40 through the antenna 30 provided in the external RFID reader 40, the RFID reader 40, the various kinds of information recognition object 20 transmitted from the RFID tag 10 The relevant information is transmitted to the computer 5 through a wireless LAN (LAN),

Accordingly, the computer 5 provides various related information services required for the information recognition object to the user through an output device such as a monitor in comparison with a previously stored database.

From the above description, those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims and their equivalents.

Figures 1a and 1b is a front and rear perspective view of the RFID tag of the VHF band with flexibility according to the present invention.

Figure 2 is a cross-sectional view of the RFID tag of the VHF band with flexibility according to the present invention.

Figure 3 is a block diagram of the information recognition device of the RFID tag of the VHF band with flexibility according to the present invention.

 * Description of the symbols for the main parts of the drawings *

1: Substrate 2: RFID IC Chip

3: first antenna 4, 4: both sides of substrate

5: second antenna 20: information recognition object

30: RFID reader Antenna 40: RFID reader

50: computer

Claims (3)

In the RFID tag attached to the information recognition object, The substrate 1 of the RFID tag 10 is made of a flexible synthetic resin material having flexibility, The front surface of the RFID tag substrate 1 is made of a silver printed pattern, divided into two, electrically connected through an RFID IC chip 2, and a first antenna 3 having a predetermined pattern is installed. On the rear surface of the tag substrate 1, a second antenna having a predetermined pattern made of a silver-printed printing pattern which is integrally connected to the first antenna 3 along both sides 4 and 4 of the substrate 1, 5) In the RFID tag of the VHF band having the flexibility to be installed, The RFID tag of the VHF band having flexibility, characterized in that the predetermined pattern of the first antenna (3) is zigzag. delete delete

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