KR101278707B1 - Sheet for preventing double recognition of RF card - Google Patents

Abstract

The disclosed invention relates to a sheet capable of preventing duplicate recognition of an RF card. In particular, only one RF card terminal can be recognized by an RF card terminal only by storing a single electromagnetic shielding film in a wallet. The present invention relates to an RF card duplication prevention sheet.
The sheet includes a shielding area made of an electromagnetic shielding film and an unshielded area made of a material that transmits electromagnetic waves in a band shape subsequent to the shielding area.

Description

Sheet for preventing double recognition of RF card

The present invention relates to a sheet that can prevent duplicate recognition of an RF card. In particular, only one RF card terminal can be recognized by an RF card terminal only by storing a single electromagnetic shielding film in a wallet. The present invention relates to an RF card duplication prevention sheet.

With the recent expansion of the electronic payment system using radio waves, the penetration rate of RF cards such as transportation cards, credit cards for both transportation cards, highway high-pass cards, and identification cards is increasing rapidly. RF cards are widely used for payment of public transportation such as buses and subways because micro-electronic payments can be made by simply approaching the RF card terminal without going through a complicated payment approval process such as a credit card.

In particular, in recent years, as the card combines the functions of a transportation card to allow a postpayment of payment fees, many card users have two or more credit cards that are used as a transportation card.

However, if two or more RF cards of the same type, for example, a transportation card combined with a single wallet, are stored in one wallet, the payment is denied. That is, when the wallet approaches the RF card terminal, the radio wave is transmitted to the integrated circuit chip of all credit cards stored in the pocket of the wallet, thereby attempting electronic payment, so that the RF card terminal is prevented from double payment. Error messages and beeps.

Therefore, in such a case, there is a inconvenience for the card user to remove the credit card separately, and there is a risk of losing the card in a complicated place. Furthermore, after the error message and the warning sound are issued, unnecessary time is consumed in the process of removing the payment card from the wallet and paying and storing it again. The longer the bus stops, the more disturbing the traffic flow and the more crowded the area around the stop, the greater the risk of accidents.

There are several ways to solve the RF card duplication recognition problem.

An example thereof is Korean Patent Publication No. 2007-0110759 shown in FIG. 1. In the wallet 20 shown in FIG. 1, an aluminum sheet for blocking radio waves is built into the right side 20a of the card storage pockets 21 provided on the inner side surfaces 20a and 20b of the wallet 20. The left side 20b does not have a radio wave shield separately. Accordingly, when carrying two transportation card combined credit card (1), one is stored on the right side (20a) inside the wallet 20 and the other is stored on the left side (20b) inside the wallet 20 In this case, since the radio wave transmitted from the RF card terminal cannot be simultaneously propagated to both credit cards 1, when the wallet 20 approaches the RF card terminal toward the outside of the left side 20b, the payment is made. It will not be rejected.

However, since the wallet 20 itself has a built-in radio wave blocking material, there is a disadvantage in that the financial burden and waste are large because it is necessary to purchase the new wallet 20 after discarding the existing wallet.

In comparison, instead of embedding a radio wave shielding material in the wallet itself, a scheme has been proposed to block radio waves by wrapping an RF card with an electromagnetic shielding sheet.

2 is related to an embodiment of Korean Registered Room No. 389190, which shows an example of a conventional design that solves a problem of duplication recognition of an RF card using the electromagnetic shielding sheet 15. According to this, the IC card (Card A) to be used is placed in a storage compartment at the bottom or top layer, and the IC cards (Cards B and C) that are not intended to be used are sandwiched between the electromagnetic shielding sheets 15 for the IC card. If put in, payment is made only by one IC card (card A).

The use of the electromagnetic shielding sheet 15 is preferable in that it is not necessary to change the wallet itself. However, since each IC card that is not intended to be used must be wrapped in the electromagnetic shielding sheet 15, several electromagnetic shielding sheets 15 This is a drawback for wallets, especially for wallets, where the wallet becomes too thick and unsightly to carry in a pocket. In addition, in order to use the card wrapped in the sheet 15, since the card and the sheet 15 must be separated one by one, inconvenience in use still remains.

The present invention solves all the disadvantages of the prior art to prevent the duplicate recognition of the RF card, so that only one of the multiple RF card is recognized in the RF card terminal only by storing one electromagnetic shielding film in the wallet An object of the present invention is to provide an RF card duplication recognition prevention sheet.

In addition, another object of the present invention is to allow one type of RF card duplication recognition sheet to be suitably applied to all kinds of various wallets.

In addition, another object of the present invention is to provide an electromagnetic shielding structure suitable for the structure of the RF card so that only a desired RF card among a plurality of RF cards can be effectively recognized by the RF card terminal.

The RF card overlap recognition prevention sheet according to the present invention includes a shielding zone made of an electromagnetic shielding film and an unshielded zone made of a material that is formed in a band shape successively to the shielding zone and transmits electromagnetic waves.

Here, the size of the sheet is based on the size of any one of a plurality of banknotes commonly used, the short side length of the sheet corresponds to the short side length of the banknote and the long side length of the sheet is 0.5 to 1.2 times the length of the long banknote It is characterized by.

In this case, the unshielded zone is formed along one end of the long side of the sheet, or is formed along one end of the short side of the sheet.

In particular, in the embodiment of the present invention, the height of the unshielded zone is preferably 14-18mm.

At least one surface of the sheet may be coated with an electromagnetic wave transmitting material.

On the other hand, the size of the sheet on the basis of the size of any one of a plurality of banknotes commonly used, the short side length of the sheet corresponds to 0.8 to 1.5 times the length of the banknote short side and the long side length of the sheet is 0.8 of the long side length of the banknote It is ˜1.2 times, and may be configured such that a plurality of first perforations spaced apart from each other are formed parallel to the long side at both long sides of the sheet facing the unshielded area.

In addition, the sheet may further be formed with at least one second perforation line perpendicular to both long sides.

In this case, the second perforated line may be formed parallel to each other at equal intervals on both sides with respect to the center of the long side of the sheet, wherein the interval between the second perforated lines is 5 to 20% of the long side length of the sheet. Is preferably.

Meanwhile, the RF card overlap recognition prevention sheet according to another embodiment of the present invention has a size corresponding to the size of a credit card or a traffic card that is commonly used, and the shielding area is formed in a band shape along four corners of the sheet.

Here, the sheet is stored in the card storage pocket of the wallet together with the RF card that you do not want to pay by the RF card terminal.

The RF card to be paid by the RF card terminal is stored in a card storage pocket or a bill storage pocket other than the card storage pocket in which the sheet is stored.

In particular, the RF card to be paid by the RF card terminal is preferably stored at least 15 mm offset in the transverse and / or longitudinal direction with respect to the sheet.

The present invention is semi-permanent at low cost without having to change the wallet because only one RF card can be recognized by the RF card terminal simply by inserting a single sheet for preventing duplication of RF card into a wallet, especially a bill storage pocket. Not only is it possible to use it, but it also has the advantage that the wallet does not become unnecessarily thick.

In addition, the present invention has the advantage that it is economical and commercially good because it is made to be appropriately cut out to suit a variety of wallets by forming a plurality of perforation lines crossing longitudinally and horizontally in one sheet.

In addition, according to another embodiment of the present invention, while effectively shielding the antenna coil portion disposed along the outer portion of the RF card, the RF card exposed to the RF card terminal even if the distance to the sheet or even a part of the outer portion of the sheet is exposed to The advantage is that it is easily recognized.

1 is a view showing an example of a wallet according to the prior art having a function of preventing duplicate recognition of an RF card.
Figure 2 is a view showing an example of the prior art for preventing the duplicate recognition of the RF card using the electromagnetic shielding sheet.
3 is a view showing an example in which the RF card duplicate recognition prevention sheet is accommodated in a wallet according to the present invention.
Figure 4 is a view showing another example in which the RF card duplicate recognition prevention sheet is stored in a wallet according to the present invention.
5 is a view showing another example in which the RF card duplicate recognition prevention sheet is stored in a wallet according to the present invention.
Figure 6 is a plan view of an example of the RF card overlap recognition prevention sheet according to the present invention is formed with a perforation line to be applied to a variety of wallets.
7 is a view showing the basic structure of the RF card duplicate recognition prevention sheet and the RF card according to another embodiment of the present invention.
FIG. 8 is a view illustrating a state in which two RF cards are partially overlapped with respect to the RF card overlap recognition prevention sheet of FIG. 7.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the RF card double recognition prevention sheet 10 according to the present invention. In the description of one embodiment of the present invention, descriptions of well-known configurations that will be apparent to those skilled in the art will be omitted so as not to obscure the subject matter of the present invention. In addition, when referring to the drawings it should be considered that the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description.

Meanwhile, terms used to describe one embodiment of the present invention and define relative positions of front, rear, left, right, top and bottom, and both sides thereof are based on the accompanying drawings. It should be noted, however, that such definitions of relative positions may be altered in an equivalent arrangement without changing the essential parts of the invention.

In addition, the terms to be described later are defined in consideration of functions or shapes in the present invention, which may vary depending on the intention or custom of the user or operator, and the definition of these terms should be interpreted based on the contents throughout the present specification. something to do.

As shown in Figures 3 to 5, the RF card double recognition sheet 10 (hereinafter referred to simply as "sheet") according to the present invention is a shielding zone 12 made of an electromagnetic shielding film, and the shielding zone ( It comprises two zones of the non-shielding zone 14 formed of a material that transmits electromagnetic waves narrower than this in succession.

The electromagnetic wave shielding film literally refers to a film having a function of preventing the penetration of electromagnetic waves, which is already commercially available and commercially available. Electromagnetic shielding films can be produced in a number of ways, for example, by vacuum deposition, which produces a thin metal film on the surface of a vapor produced by heating a metal, mainly aluminum, in a high vacuum. Can be.

Since the present invention uses the electromagnetic shielding film, detailed description of the electromagnetic shielding film itself is omitted. However, it should be noted that the present invention is not limited to the electromagnetic shielding film because the present invention can be applied to any sheet having a function of blocking electromagnetic waves. For example, in addition to a film made of synthetic resin, even a material such as fabric can be applied as long as it has a function of blocking electromagnetic waves.

The size of the sheet 10 is based on the size of any one of a number of banknotes that are commonly used, so that the length of the short side 18 corresponds to the short side length of the bill, and the length of the long side 16 is the bill long side length. It is composed of 0.5 to 1.2 times.

Here, the size of the sheet 10 based on the banknote is that the sheet 10 according to the present invention is stored in the banknote storage pocket 120 of the wallet 100, and contrasting with the size of the banknote helps the understanding of the present invention. Because it becomes. In addition, since the size of the sheet 10 may also be variously changed according to the size of the wallet 100, in particular, the size of the bill storage pocket 120, it is the present invention to define the size of the sheet 10 by a specific value. It is also because it unreasonably limits the point. Therefore, the definition that the length of the long side 16 of the sheet 10 is 0.5 to 1.2 times the length of the long side banknote also corresponds to the meaning that the length of the long side 16 of the sheet 10 is about half or more of the width of the bill storage pocket 120. .

The non-shielding area 14 is formed along one end of the long side 16 side of the sheet 10 or long in a band shape along one end of the short side 18 side.

FIG. 3 shows a case in which the size of the sheet 10 corresponds to the size of the banknote and the unshielded area 14 is formed at one end of the long side 16 side of the sheet 10. Such a sheet 10 is useful when the wallet 100 is a long wallet or a card storage pocket 110 is provided on the entire inner surface of the bill storage pocket 120 as shown in a ring wallet.

Each card storage pocket 110 provided with a layered layer on the wallet 100 has a depth enough to expose a portion of the card to facilitate the withdrawal of the card. That is, cards stored in a line in the card storage pocket 110 have a continuous height difference. Accordingly, when the unshielded area 14 of the sheet 10 is placed downward and placed in the bill storage pocket 120, only a part of the RF card 200 at the bottom thereof is unshielded area 14 of the sheet 10. The RF card 200 which is exposed to and rests on it is entirely blocked by the shielding area 12.

Eventually, in the case of the illustrated wallet, both sides of the outer surface of the wallet 100, and in the case of the long wallet illustrated in the drawing, when the side of the bill storage pocket 120 is close to the RF card terminal, the card is stored without the duplicate recognition of the RF card 200. Payment is made only by the RF card 200 at the bottom of the pocket 110 for.

However, based on FIG. 3, the card storage pocket 110 at the bottom right is also exposed to the unshielded area 14, so it is preferable to store or leave the general card instead of the RF card 200.

4 shows a case in which the size of the sheet 10 corresponds to half the size of the banknote and the unshielded area 14 is formed at one end of the long side 16 side of the sheet 10. This sheet 10 is useful when the card storage pocket 110 is provided only on the inner half of the bill storage pocket 120, the bill storage pocket 120 is located near the bottom of the RF card terminal close to the side Payment is made only by the RF card 200.

FIG. 5 is similar to the case of FIG. 4 except that the wallet 100 is provided with a card storage pocket 110 to store the card at a right angle with respect to the direction in which the bill is stored. There is a difference. In this case, the unshielded area 14 is configured to be formed long in a band shape along one end of the short side 18 side of the sheet 10. Accordingly, only the RF card 200 at the bottom (most right in the drawing), which is partially exposed to the unshielded area 14, reacts to the RF card terminal to make a payment.

In particular, in the embodiment of the present invention, it is preferable that the height of the unshielded zone 14 is 14 to 18 mm, but when the unshielded zone 14 has a height of about 14 to 18 mm, it is successful without error of double recognition. It is confirmed that payment is made.

At least one surface of the surface of the sheet 10 may be coated with an electromagnetic wave transmitting material. The reason for the coating is to prevent the sheet 10 from being easily crumpled or damaged to lose its function or its apparent end of life. In particular, the coating with the electromagnetic wave transmitting material is for maintaining the unshielded area 14 as it is, and if there is sufficient strength to transmit the electromagnetic wave and the strength is not particularly limited. It is also possible to print or attach the pattern to the surface of the sheet 10 in order to increase the marketability.

Meanwhile, the RF card overlap recognition prevention sheet 10 according to the present invention may be made by forming a perforation line in a sheet 10 having a larger size than a bill so that a user can conveniently cut and use it according to the size of various purses 100. It may be.

An embodiment of such a sheet 10 is shown in FIG. 6. As shown, the size of the sheet 10, based on the size of any one of a number of banknotes commonly used, the length of the short side 18 corresponds to 0.8 to 1.5 times the length of the short bill side length, the long side 16 length Is made from 0.8 to 1.2 times the length of the banknote.

At this time, a plurality of first perforations 20 spaced apart from each other are formed parallel to the long side 16 on the opposite long side 16 side of the long side 16 of the sheet 10 opposite to the unshielded area 14. Accordingly, the user may properly follow one of the first cutting lines 20 according to the height of the bill storage pocket 120 of the wallet 100 possessed by the user, such as the cut sheet 10 indicated by “A” in FIG. 6. The sheet 10 can be cut out and used.

In addition, the sheet 10 may be further formed with at least one second cut line 22 crossing the long sides 16 vertically. The second perforation line 22 is intended to be about half the size of the bill as the sheet 10 shown in FIGS. 4 and 5. In particular, it is sufficient to increase the length of the short side 18 of the sheet 10 to about 0.8 to 1.5 times the length of the short side of the banknote, as shown in FIG. 5, on the short side 18 side of the sheet 10. ) Can be cut to position, and the sheet 10 marked with "C" in FIG. 6 shows such an example. The sheet 10 indicated by "B" in FIG. 6 corresponds to the sheet 10 in FIG. 5.

Two second cut lines 22 may be formed in parallel to each other at the same intervals on both sides with respect to the center of the long side 16 side of the sheet 10, and the interval between the second cut lines 22 may be It is preferable that it is 5 to 20% of the length of the long side 16 of the sheet 10. The two second perforations 22 are provided to allow the cutting to be appropriately cut in half according to the length of the banknote storing pocket 120.

Although the first and second perforations 20 and 22 are intended to be perforated lines in the form of dashed lines so that the sheet 10 can be conveniently cut without other tools, only the dashed lines without perforation are simply broken lines. It does not exclude the configuration which prints and provides a baseline at the time of cutting. Therefore, it should be noted that the cutout line in the present invention is a concept that includes both perforated cutouts or printed cutouts.

On the other hand Figure 7 and Figure 8 shows another embodiment of the RF card duplicate recognition prevention sheet 10 'according to the present invention.

A feature of this embodiment is that the shielding zone 12 is formed in a band shape along the four corners of the sheet 10 'having a size corresponding to the size of a credit card or a transportation card.

Figure 7 (a) is a schematic view showing the internal structure of a typical RF card 200, the inside of the card 200 RF chip 210, the RF chip 210 is an antenna for electromagnetic induction The coil 220 is connected. In particular, the antenna coil 220 is wrapped around the outside of the RF card 200 for effective electromagnetic induction.

RF card duplication recognition sheet 10 'according to another embodiment of the present invention is to take into account the internal structure of the RF card 200, as shown in Figure 7 (b) of the antenna coil of the RF card 200 A shielding zone 12 is formed in a band shape along the four edges of the sheet 10 'like the 220, and thus the card storage pocket of the wallet 100 together with the RF card 200 with the sheet 10'. If it is stored in 110, the electromagnetic induction is suppressed, the payment by the RF card terminal is not made.

As such, when the shielding area 12 is formed in a band shape along the four edges of the sheet 10 ', a card storage pocket or a bill storage pocket other than the card storage pocket 110 in which the sheet 10' is accommodated. RF card 200 housed in 120 is effectively settled by the RF card terminal. In other words, if the sheet 10 'is not stored in the stored card storage pocket 100, payment is made by the RF card terminal.

As shown in FIG. 8, since the cards 200 and 200 ′ stored in a line in the card storage pocket 110 have a continuous height difference, the card storage pocket 110 in which the seat 10 ′ is accommodated is shown. Part of the outer portion of the RF card 200 'accommodated in the pocket is inevitably exposed, and thus the antenna coil 220' of the exposed portion of the RF card 200 'responds to the RF card terminal.

In particular, if the shielding zone 12 is formed only along the four corners of the sheet 10 ', the inside of the shielding zone 12 forms an unshielded zone 14 (see FIG. 7 (b)). The antenna coil 220 'of the exposed RF card 200' also responds to the RF card terminal so that the payment success rate is very good, and FIG. 8 clearly shows such a shielding structure.

Experimentally, it is confirmed that the RF card 200 'that the user wants to pay by the RF card terminal can be effectively paid if the sheet 10' is shifted at least 15 mm along at least one of the horizontal direction and the vertical direction.

8 illustrates a case in which RF cards 200 and 200 'are stacked in a card storage pocket 110 on the same side of the wallet 100, the RF card 200' desired for payment by the RF card terminal. ) Can be settled even if the sheet 10 'is stored in a pocket for storing cards on a surface different from the wallet side on which the sheet 10' is stored. This is because electromagnetic induction may occur if the sheet 10 'is physically separated to some extent, and for the same reason, payment can be made by the RF card terminal even if it is stored in the bill storage pocket 120 instead of the card storage pocket 110. Do.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible for those skilled in the art to which the art pertains. I will understand the point. Therefore, the true technical protection scope of the present invention will be defined by the claims.

Description of the Related Art
10,10 ': RF card duplicate recognition prevention sheet
12: shielded area 14: unshielded area
16: long side of sheet 18: short side of sheet
20: first perforated line 22: second perforated line
100: wallet 110: card storage pocket
120: bill storage pocket 200,200 ': RF card
210: RF chip 220,220 ': antenna coil

Claims (14)

A shielding zone consisting of an electromagnetic shielding film; And
Consecutively formed in a band shape in the shielding zone, including an unshielded zone made of a material that transmits electromagnetic waves,
The non-shielding zone is RF card redundant recognition prevention sheet, characterized in that formed along one end side of the long side of the sheet. The method of claim 1,
The sheet size is based on the size of any one of a number of banknotes commonly used, the short side length of the sheet corresponds to the short side length of the bill and the long side length of the sheet is characterized in that 0.5 to 1.2 times the long side length of the bill RF card duplicate recognition prevention sheet. delete The method of claim 2,
The non-shielding zone is RF card redundant recognition prevention sheet, characterized in that formed along one end of the short side of the sheet. The method according to any one of claims 1, 2, and 4,
The height of the non-shielding zone is 14 to 18mm RF card, the duplicate recognition prevention sheet. The method according to any one of claims 1, 2, and 4,
At least one side of the surface of the sheet is RF card overlap recognition prevention sheet, characterized in that the coating with an electromagnetic wave transmitting material. The method of claim 1,
The length of the sheet corresponds to 0.8 to 1.5 times the length of the short side of the banknote, and the long side length of the sheet corresponds to 0.8 to the length of the long side of the banknote, based on the size of any one of a plurality of banknotes commonly used. And a plurality of first perforations spaced apart from each other on a long side of the long side of the sheet opposite to the non-shielding area of the long sides of the sheet, parallel to the long side. The method of claim 7, wherein
The sheet for preventing duplication recognition of the RF card, characterized in that the sheet is further formed with at least one second perforated line vertically across both long sides. 9. The method of claim 8,
The second perforated line is RF card duplication recognition prevention sheet, characterized in that formed on each side in parallel with each other at equal intervals on the basis of the long side side center of the sheet. 10. The method of claim 9,
The interval between the second perforations is RF card duplication recognition prevention sheet, characterized in that 5 to 20% of the long side length of the sheet. The method of claim 1,
The size of the sheet corresponds to the size of a credit card or a traffic card commonly used, wherein the shielding zone is formed of a strip shape along the four corners of the sheet, RF card double recognition prevention sheet. 12. The method of claim 11,
The sheet is an RF card duplicate recognition prevention sheet, characterized in that is stored in the card storage pocket of the wallet with the RF card that you do not want to pay by the RF card terminal. The method of claim 12,
The RF card to be paid by the RF card terminal is RF card duplicate recognition prevention sheet, characterized in that is stored in other card storage pocket or bill storage pocket other than the card storage pocket in which the sheet is stored. The method of claim 13,
The RF card to be duplicated by the RF card terminal is RF card duplicate recognition prevention sheet, characterized in that stored at least 15mm shifted along at least one of the transverse direction and the longitudinal direction with respect to the sheet.

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