KR101169699B1 - Sheet type rfid tag - Google Patents

Abstract

PURPOSE: A sheet type radio frequency identification(RFID) tag is provided to keep firm combination regardless of the thin thickness of the RFID tag by implementing a thermo-compression bonding operation. CONSTITUTION: Antennas(20) are formed on a base film, and coil shapes are applied to the antennas. A chip(30) is attached on the base film to be in connection with the antennas. A flat plate type upper member(50) is attached on the upper side of the base film. A flat plate type lower member(40) is attached on the lower side of the base film. The base film, the upper member, and the lower member are based on identical materials and are fused by thermo-compression bonding operation.

Description

Sheet Type RFID Tag {Sheet Type RFID Tag}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an RFID tag, and more particularly, to an RFID tag manufactured in a sheet shape so as to be adapted to an ID card such as a passport or a resident registration card.

RF (Radio Frequency Identification) technology is applied to various fields such as logistics management. It is equipped with an RFID tag having identification information of the skin complex on the skin complex to be managed, and by wirelessly recognizing the information contained in the RFID tag through the RFID reader while the RFID tag is attached to the skin complex, Contactless automatic recognition and management

Such RFID tags have been widely used in various fields, and in recent years, they have also been employed in identification cards such as passports and national ID cards. Since the ID card is generally manufactured and distributed in the form of a notebook or a card so as to be convenient for the user to carry, it is necessary to manufacture the RFID tag in a thin sheet shape in order to apply the RFID tag to the ID card. Furthermore, identification cards are typically used for a period of several years or more, so they must be durable enough not to be torn or broken even when manufactured in a thin sheet shape.

1 is a view illustrating an example of a conventional RFID tag configured to be durable while being manufactured in a thin sheet shape so as to be used in an identification card. Conventional sheet-shaped RFID tag is attached to the coil antenna (2) and the chip (3) on the base film (1) and the lower member 4 and the upper member (5) having a thin flat plate attached to the lower and upper, respectively It is produced in the form. In order to reduce the thickness of the entire tag, the antenna (2) is formed in a form partially impregnated on the outer surface of the base film (1) is configured so that its height is as low as possible, protruding upward from the antenna (2) In order to provide an accommodating space of the chip 3, a chip accommodating hole 5a having the same shape as that of the chip 3 is formed in the upper material 5. Accordingly, the thickness of the entire tag does not increase despite the height of the chip 3.

However, such a conventional RFID tag is manufactured in a thin film form and has high durability, but provides a suitable property for application to an ID card, but has a disadvantage in that the manufacturing process is complicated. That is, an additional process for partially impregnating the antenna 2 on the base film 1 is required, and the chip receiving hole 5a is punched before the upper material 5 is pressed against the lower member 4. It is necessary to further process.

In addition, in the conventional RFID tag, since the chip 3 is exposed to the outside through the upper material 5 and the chip 3 is not protected by the upper material 5, the chip 3 itself is applied to an external force. This may cause physical damage.

Meanwhile, in the conventional RFID tag, the lower member 4 and the upper member 5 are made of PC, PET, or PVC material in order to ensure durability that the sheet-shaped tag is not torn or broken, and the base film 1 and The upper material 5 and the lower member 4 are usually made of different materials due to problems in the manufacturing process. Therefore, as time passes, separation occurs between the upper material 5 and the base film 1 of different materials or the base film 1 and the lower member 4, thereby degrading the product reliability and appearance of the entire RFID tag. There is a problem.

The present invention has been made to solve the above problems, the object of the present invention can be manufactured in a thin form and durable and has the characteristics that are suitable for application to long-term identification such as passport or national ID card It is to provide a sheet-shaped RFID tag that the process is simple and the chip protection can be properly made. In addition, another object of the present invention is to provide an RFID tag that does not have a separation phenomenon between the upper material and the base film or the base film and the lower member, which may occur over time.

The present invention to achieve the above object, the base film; An antenna formed in a coil shape on the base film; A chip attached to the base film to be connected to the antenna; A flat upper material attached to an upper surface of the base film; And proposes an RFID tag including a lower plate-like member attached to the lower surface of the base film. Here, the base film, the upper material, and the lower member are made of the same material and fused by mutual thermal compression.

The upper material, the lower member, and the base film is made of any one of PC, PET, and PVC material.

On the other hand, the upper portion, it is preferable that the receiving portion for accommodating the chip is formed in a portion corresponding to the position of the chip.

According to the present invention, since the upper material and the lower member are made of the same material and thermo-compressed, a thin thickness can be maintained while maintaining a firm coupling, and a complicated process does not require the process of impregnating the antenna into the base film.

1 is a side cross-sectional view of a conventional RFID tag.
2 is a side cross-sectional view of an exploded state of an RFID tag according to the present invention.
3 is a partial perspective view showing only the base film and the antenna and the chip portion of FIG.
4 is a side cross-sectional view of the engaged state of FIG. 2.

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

2 to 4 are diagrams showing a sheet-shaped RFID tag according to the present invention. Sheet-shaped RFID tag according to the present invention comprises a base film 10, the antenna 20, the chip 30, the lower member 40, and the upper member 50.

The base film 10 is a thin film made of a material such as PC, PET, or PVC, in which an antenna and a chip are formed in a conventional RFID tag. The antenna 20 is formed in a conventional manner such as printing or etching on the base film 10, and is composed of a coil-shaped antenna wound on the base film 10 as shown in FIG. The chip 30 is attached on the base film 10 by thermocompression bonding or wire bonding so as to be connected to the antenna 20.

The lower member 40 and the upper member 50 are flat members attached to the lower and upper surfaces of the base film 10, respectively, and are made of a material such as PC, PET, or PVC.

In the present invention, the base member 10 as well as the lower member 40 and the upper member 50 is also made of the same material. That is, as described above, the lower member 40, the upper material 50 and the base film 10 may be employed as a material of the PC, PET, PVC, etc., in the present invention, any of these materials is adopted, the lower member 40 and the upper material 50 and the base film 10 is made of the same material. At this time, the upper material 50 and the lower member 40 in the upper and lower portions of the base film 10 is fused by thermocompression, whereby the three members 10, 40, 50 are firmly bonded.

According to the present invention, all three members 10, 40, 50 are all made of the same material, so that they are firmly fused without mutual dissimilarity during thermocompression, and thus the separation between them does not occur over time. It is increased and the appearance quality is maintained. In particular, the RFID tag used in the electronic ID card is required to have a thin thickness, it is possible to maintain a strong bond while producing a thin thickness by the thermal bonding between the same material. Therefore, it is possible to manufacture a thin RFID tag without performing the process of impregnating the antenna in the base film in a complex process as in the prior art.

In addition, according to the present invention, the antenna 20 formed on the base film 10 in the process of heat-sealing the upper material 50 and the lower member 40 on the base film 10, the upper material 50 Impregnated and inserted into the effect occurs. Therefore, even if the antenna 20 is inserted into the upper material 50 without performing a special process for impregnating and forming the antenna in the base film in the conventional method shown in FIG. The antenna 20 can be protected from external deformation and external impact, and damage to the antenna 20 pattern due to foreign matter can be prevented.

On the other hand, in this invention, the accommodating part 53 for accommodating the chip | tip 30 is recessed in the lower surface of the upper material 50. FIG. The depression 53 is formed at a portion corresponding to the position of the chip 30 on the base film 10. Thus, when the upper material 50 is bonded to each other by the compression or heat fusion method on the lower member 40 or on the base film 10 without the lower member 40, the chip 30 is the receiving portion 53 Will be accommodated in.

According to this structure, since the space in which the chip 30 is accommodated is provided on the lower surface of the upper material 40, the shape in which only the chip 30 arrangement portion protrudes outward by the height of the chip 30 does not occur. . Therefore, the outer shape of the sheet-shaped RFID tag is formed to form a smooth surface and at the same time the chip 30 is not exposed to the outside, there is no fear of damage by the external force of the chip 30.

Further, according to the present invention, the RFID tag is provided by the upper member 40 and the lower member 50 while being manufactured in a thin sheet shape and resistant to tearing characteristics, thereby being suitable for use in identification.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: base film 20: antenna
30: chip 40: lower member
50: upper material 53: receiving portion

Claims (3)

Base film;
An antenna formed in a coil shape on the base film;
A chip attached to the base film to be connected to the antenna;
A flat upper material attached to an upper surface of the base film; And
A lower plate member attached to a lower surface of the base film;
Including;
The base film, the upper material, and the lower member is made of the same material is fused by mutual thermal compression,
The upper RFID tag-shaped RFID tag, characterized in that the receiving portion for receiving the chip is formed in a portion corresponding to the position of the chip.
The method of claim 1,
The upper member, the lower member, and the base film is a sheet-shaped RFID tag, characterized in that made of any one of PC, PET, and PVC material.
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