KR20080027307A - Rfid card using resin paper - Google Patents

Abstract

An RFID card using paper containing resin is provided to have ecology friendliness by preventing environmental pollution materials from being discharged in case that the RFID card is incinerated and to compensate for adhesive power and strength. An RFID card is made by the following manufacturing steps. Fine copper wires are wound round circumference of an upper face of a base sheet, made of paper containing resin, or an antenna printed with conductive ink is arranged on the upper face of the base sheet, and an RFID tag made of an RFID chip, storing various kinds of information via connection to the antenna and communicating data with a terminal, is fixedly installed(101). Adhesive is covered on both sides of the base sheet(102). Protection sheets, for preserving the RFID tag and printing advertisement, are installed on the adhesive(103). Film sheets for preserving a surface of the advertisement which is printed on the protection sheets are layered on the protection sheets(104), and then are heated and pressed at 140 to 160 degrees by 0.3 to 1 kg weight for 15 to 25 minutes(105).

Description

RF card using resin paper {RFID card using resin paper}

The present invention relates to an RF ID card (hereinafter referred to as an "RFID card") using a resin-containing paper, and more specifically, a paper in which pulp and a resin that does not cause environmental pollution are mixed (hereinafter referred to as "resin-containing paper"). By making RFID card, the adhesive force generated when making RFID card using only paper can be made eco-friendly by not emitting environmental pollutants when incineration of end-of-life products. And it relates to an RF ID using a resin-containing paper that can simultaneously compensate for the decrease in strength.

In general, RFID cards are used to transmit and receive information wirelessly using frequencies, which are already widely used in public transportation cards in subways and buses, and are also called smart tags or smart labels.

The RFID card has the advantage of processing information wirelessly faster than a bar code system that stores information in a line-shaped image, and technology has been developed to the extent that it can read product information wirelessly within a certain distance.

In the above RFID card, when the card holder passes the RFID card on the antenna box of the terminal within the recognition distance, the card terminal processes the speed within 100 ms (0.1 second), so the user does not need to stop and wait for the RFID card processing. It can be the same size as the credit card or can be downsized, so it can be read while holding the RFID card in the wallet or as a jewelry. It also provides convenience, and encrypts the data to prevent fraud and secure it for each RFID card. The built-in serial number is built in, and its uniqueness and security are high, and it has excellent features such as ease of use, providing convenience for card holders.

FIG. 1 is a structural diagram of an RFID card having a general RFID tag. An antenna 12 having a plurality of turns of copper wire wound around a top surface of a base sheet 11 or printed with conductive ink is installed. On one side of the upper surface) is connected to the antenna 12, a variety of information is stored and the 0.38mm thick RFID chip 13 is communicated with the terminal is installed.

Upper and lower sides of the base sheet 11 are provided with a protective sheet 14 and 15 which have a function of protecting the antenna 12 and the RFID chip 13 installed in the base sheet 11 and an advertisement is printed. On the other side of the protective sheets 14 and 15, film sheets 17 and 18 which protect the advertisement surface 16 printed on the surface of the protective sheets 14 and 15 are laminated. .

In the conventional RFID card 10 configured as described above, when a user approaches the RFID card 10 to a terminal (not shown), a frequency of a high frequency band transmitted from the terminal is induced in the antenna 12 to generate electromotive force, thereby generating an RFID chip 13. It is supplied by the driving power of.

When driving power is supplied to the RFID chip 13 by the antenna 12, various information is transmitted to the terminal through the antenna 12 by a stored program to process the information, and the RFID chip 13 and the terminal are antennas. Through 12, bidirectional communication is performed.

Such a conventional RFID card is incinerated when the RFID chip 13 or the antenna 12 is damaged and cannot be used, or is disposed of at the end of its life, and thus, polyvinyl chloride (PVC) From the base sheet 11, the protective sheets 14, 15, and the film sheets 17 and 18 made of a material, the environmental hormones that are harmful to the human body are emitted, thereby causing air pollution.

In order to solve such a conventional problem, a paper type RFID tag has been proposed in Korean Patent Laid-Open Publication No. 2005-79621, but the manufacturing process of the metal foil laminate, the resin layer forming process, the antenna pattern manufacturing process, the protective tape bonding process, the ultrasonic mounting process , As it is made by going through the thread processing process and papermaking process, the manufacturing process is not only very complicated, but also the synthetic resin such as polyester film (including protective member) to increase the rigidity as the shape is weak due to its weak strength and moisture. The use of still causes the problem of air pollution in incineration disposal.

Therefore, in order to solve the above problem, the applicant of the Korean Patent No. 697844 (Registration Date: 2007.03.14), the applicant of each sheet constituting the RFID card has various kinds of excellent toughness, strength, shock buffer effect By using Hanji and using the screen printing on the antenna, and waterproofing it to prevent water from penetrating it, the RFID card is manufactured. Therefore, it has been proposed an RFID card using a Korean paper that can prevent air pollution, as well as significantly reduce the manufacturing cost and weight.

When manufacturing RFID card using the Korean paper proposed by the applicant, it was possible to obtain many effects in reducing environmental pollution, weight reduction and cost, but due to the problem of the characteristics of the paper used as the main material of Korean paper, long-term use There is a problem that the adhesive strength between the sheets can be reduced.

According to the present invention, when an RFID card is manufactured using a resin-containing paper mixed with a pulp and a resin that does not cause environmental pollution, incineration of a product having reached the end of its life does not emit environmental pollutants, thereby making it environmentally friendly. At the same time, it is possible to compensate for the deterioration of the adhesive force caused by using only paper to make RFID card. Therefore, when incineration is disposed of at the end of its life, no harmful environmental hormones are released. Of course, it is a technical problem to be able to improve durability.

The present invention includes a base sheet on which an RFID tag is disposed, a protective sheet laminated on upper and lower surfaces of the base sheet to protect the RFID tag, and a film sheet stacked on upper and lower surfaces of the protective sheet to form an advertisement surface. In the conventional RFID ID card, the base sheet, the protective sheet, the film sheet is characterized in that made of a resin-containing paper.

According to the present invention, when an RFID card is manufactured using a resin-containing paper mixed with a pulp and a resin that does not cause environmental pollution, incineration of a product having reached the end of its life does not emit environmental pollutants, thereby making it environmentally friendly. At the same time, it is possible to compensate for the deterioration of adhesive force generated when only RFID paper is made using only paper, and thus prevents environmental pollution as no environmental hormones are released to the body when incineration is disposed of at the end of its life. Of course, there is an effect that can improve the durability.

First, there are various types of resin-containing paper used in the present invention.

In Japanese Patent Laid-Open No. 5-156598 (name of the invention: thermosetting resin composition for impregnation paper and impregnation paper), 9,10-dihydro-oxa-10-phosphenanthrene is used in a resol type phenol resin using phenol. A resin-containing paper in which a methanol solution containing -10-oxide is impregnated into a filter paper made of cotton linter pulp has been proposed.

In addition, Japanese Laid-Open Patent Publication No. 11-348035 (name of the invention: a composite material of paper and resin and a method of manufacturing the same) is mixed in a paper and a resin composite material obtained by mixing a paper which is dehydrated by dry with a resin. Resin-containing paper in which the water content of the previous sea island was adjusted in the range of 1 to 5% has been proposed.

In addition, Japanese Laid-Open Patent Publication No. 2000-265002 (name of the invention: a composite material of paper and resin) is a resin-containing paper obtained by mixing a paper that has been dehydrated by dry with at least one or more resins. By using a rubber elastic resin such as EVA, and adding a non-elastic elastic resin such as low density polyethylene in addition to the rubber elastic resin, the elasticity of the composite material of this paper and resin is 5% or more of tensile fatigue elongation, Adherence) A resin-containing paper has been proposed that can obtain more than 4 kgf · cm / cm 2, and not only good disposal properties but also excellent elasticity and impact resistance.

In addition, Japanese Laid-Open Patent Publication No. 2002-30594 (name of the invention: recyclable resin-containing paper) proposes a resin-containing paper which can be recycled because resin is contained in the battery layer and can be disassembled with water.

Further, Japanese Laid-Open Patent Publication No. 2004-308094 (name of the invention: a resin-containing paper and a laminated resin based on the same) contains a resin component consisting of a synthetic resin and a water-repellent agent having a glass transition point of 20 ° C. or higher in the paper, and the resin The content of the component is not less than 2% by weight but less than 30% by weight, and the weight ratio of the synthetic resin / water repellent is 80/20 to 98/2, and preferably, the cross-sectional water soaking property is not more than 250 mg / cm < 2 > Resin-containing paper of m2 has been proposed.

As described above, various types of resin-containing papers used in the present invention have been proposed, and they can be recycled according to the types of resins contained in the paper without maintaining environmental pollutants during incineration. In the present invention, the type of resin-containing paper is not limited.

Hereinafter, a process of manufacturing an RFID card using the resin-containing paper according to the present invention will be described.

Figure 2 is a manufacturing process diagram of the RF ID card using the resin-containing paper according to the present invention first the copper wire to the center around the upper surface of the base sheet (11a) is a resin-containing paper winding or printed with conductive ink (12) is arranged, and fixedly installed (step 101) the RFID tag 20, which is made of an RFID chip 13 connected to the antenna 12 and stored with various information and communicating with the terminal.

Thereafter, an adhesive is applied to both sides of the base sheet 11a of which the material is resin-containing paper (step 102), and then the material has a function of protecting the RFID tag 20 as the resin-containing paper and the advertisement is printed. Protective sheets 14 and 15 are installed (step 103).

When the installation of the protective sheets 14 and 15 is completed in step 103, the advertisement surface 16 on which the material is resin-containing paper and printed on the surface of the protective sheets 14 and 15 is printed on the protective sheets 14 and 15. ), And then laminating 104 film sheets 17 and 18, and then heating and pressurizing (step 105) for 15 to 25 minutes at a temperature of 0.3 to 1 Kg at a temperature of 140 to 160 ° C to complete the manufacture.

In the above process, if the pressure is 0.3Kg or less, the load for pressing each sheet is less, so that pores are formed between each layer of the sheet, so that contact failure may occur. If the pressure is 1Kg or more, damage to the RFID chip 13 may occur. It is preferable to pressurize at a weight of 0.3 to 1 Kg, and if the pressure is less than 15 minutes, the adhesive 32 is not sufficiently cured, and if it is cured for more than 25 minutes, thermal deformation of each sheet may occur, so about 15 to 25 minutes Preference is given to heating under pressure.

RFID card using the resin-containing paper according to the present invention manufactured through the process described above is to use environmentally friendly paper at the same time to ensure that environmentally friendly substances do not emit when incinerated disposal of products at the end of life It is possible to simultaneously compensate for the loss of adhesion and strength caused by the RFID card.

1 is an exploded perspective view of a typical RFID card.

Figure 2 is a manufacturing process of the RF card using a resin-containing paper according to the present invention.

<Code Description of Main Parts of Drawing>

10: RFID card 11: base sheet

11: chip inlet 12: antenna

13: RFID chip 14, 15: protective sheet

17, 18: film sheet 20: RFID tag

Claims (1)

A base sheet having an RFID tag disposed thereon, a protective sheet laminated on upper and lower surfaces of the base sheet to protect the RFID tag, and a film sheet laminated on the upper and lower surfaces of the protective sheet to form an advertisement surface, is provided. In the RFID card, The base sheet, the protective sheet, the film sheet RF card using a resin-containing paper, characterized in that made of a resin-containing paper.

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