JP2005327208A - Shield body and non-contact type ic card storage case - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a shield body and a non-contact type IC card storage case, which can use a desired non-contact type IC cards without malfunctions to reader-writers even if a plurality of non-contact type IC cards are stored in the same storage case. <P>SOLUTION: The non-contact type IC card storage case has a plane-shaped metallic layer and a magnetic substance layer that is formed on both surfaces of the metallic layer and has a property that absorbs field lines. A non-contact type IC card is attached to the surface of each magnetic substance layer in a side different from that of the metallic layer to be integrated, or a non-contact type IC card is inserted into the non-contact type IC card storage case, which is provided with a card holder that holds the non-contact type IC cards on both surfaces of the shield body. With this structure, shield bodies intervene between a plurality of non-contact type IC cards. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a shield body and a non-contact type IC card storage case that are applied when a plurality of non-contact type IC cards are carried together.

  A system for managing automatic ticket gates and entry / exit by communicating between the two by holding a non-contact type IC card over a parent reader / writer is becoming widespread. As is well known, the non-contact type IC card contains not only the IC but also a spirally wound wiring called an antenna coil, and components such as a power source and a capacitor for keeping the voltage constant. The non-contact type IC card communicates data with a reader / writer using radio waves (magnetic fields). In that case, the antenna coil takes out a signal from the reader / writer from a magnetic field change across the coil during reception, and generates a magnetic field according to the transmission signal during transmission. The antenna coil also functions as a power generator for a non-contact type IC card that uses an electromagnetic induction phenomenon that induces an electromotive force according to a change in the number of lines of magnetic force passing through the coil. That is, the reader / writer applies a magnetic field to the portion (antenna coil) that holds the non-contact type IC card, and the non-contact type IC card takes out power by the antenna coil. The non-contact IC card operates with the electric power to generate a radio wave (magnetic field) for sending data to the reader / writer.

  A user generally uses a contactless IC card in a storage case such as a pass case or a wallet. Therefore, the case where it adjoins with another conductor (Coin 10-yen coin other metal) within a storage case tends to occur. When such a non-contact type IC card adjacent to another conductor is held over the reader / writer, a magnetic field from the reader / writer side is shielded by the other adjacent conductor, which causes a problem that communication cannot be performed. Conventionally, in order for a non-contact type IC card to function normally, a thin flat plate with a metal layer that reflects radio waves interposed between insulator layers is placed around the coin purse of the storage case. Have been considered (see, for example, Patent Document 1).

  Further, when a user uses a plurality of non-contact type IC cards having different uses in the same storage case in the same type of non-contact type IC card system, for example, the same type of non-contact type ICs of company A and company B Cards may be placed in close proximity within a single storage case. In such a case, when trying to use the non-contact type IC card of company A, the polling signal issued by the reader / writer for the non-contact type IC card of company A is accepted from both non-contact type IC cards. A response ACK signal is output. Therefore, the desired non-contact IC card of company A cannot be used normally.

JP 2003-123037 A

  It is also possible to apply the magnetic field shielding prevention measures disclosed in Patent Document 1 to a case where a plurality of non-contact type IC cards having different uses are used in the same housing case in the same type non-contact type IC card system. However, there are the following problems. In the non-contact type IC card system, since communication is performed by a magnetic field, when a metal having a very low relative permeability such as aluminum or copper is used as a metal layer that reflects radio waves, the magnetic lines of force easily penetrate, The shielding effect is insufficient. In addition, when the antenna built in the non-contact type IC card and the metal layer are close to each other, the characteristics of the antenna deteriorate and the recognition rate of the non-contact type IC card is lowered.

  The present invention has been made to solve the above problems, and even if a plurality of non-contact type IC cards are placed in the same housing case, a desired non-contact type IC card can be obtained without malfunctioning with respect to the reader / writer. An object is to obtain a shield body and a non-contact type IC card storage case that can be used.

  A shield body according to the present invention includes a planar metal layer and a magnetic layer formed on both surfaces of the metal layer and having a property of sucking lines of magnetic force between the non-contact IC cards. It is intended to intervene.

  According to the present invention, when a shield body is interposed between a plurality of non-contact type IC cards, when the desired non-contact type IC card is held over a reader / writer, it extends to other non-contact type IC cards. Since the magnetic field to be blurred can be weakened by the magnetic layer, there is an effect of preventing a malfunction that recognizes another non-contact type IC card. Also, since the built-in antenna of the non-contact type IC card and the metal layer are close to each other through the magnetic layer, the deterioration of the antenna characteristics due to the metal layer is suppressed, and the desired non-contact type IC card can be recognized more. There is an effect to ensure.

Embodiment 1 FIG.
FIG. 1 is a perspective view showing a shield body according to Embodiment 1 of the present invention. In the figure, the shield body is composed of a metal layer 1 and magnetic layers 2 and 3. The metal layer 1 is formed of a plane body, and magnetic layers 2 and 3 having a predetermined thickness having a property of sucking lines of magnetic force are formed on both surfaces of the metal layer 1.
FIG. 2 is a side view showing a use state of the shield body of the non-contact type IC card according to the first embodiment, and the shield body of the non-contact type IC card is sandwiched between two non-contact type IC cards 4 and 5. Indicates the state.
The magnetic field generated from the reader / writer 13 forms magnetic field lines 11 that pass through the magnetic layer 2, and forms magnetic field lines 12 that pass through the metal layer 1 and pass through the magnetic layer 3. When a desired non-contact type IC card 4 is held over the reader / writer 13 of the parent apparatus while the shield body is sandwiched between the two non-contact type IC cards 4 and 5, the reader / writer 13 of the parent apparatus The generated magnetic field reaches an antenna built in the non-contact type IC card 4 located on the reader / writer side, and the non-contact type IC card 4 is recognized. The magnetic field generated from the reader / writer 13 passes through the non-contact type IC card 4 and passes through the magnetic layer 2 having the property of sucking the magnetic lines of force, thereby forming magnetic lines of force 11. Furthermore, the magnetic field that has passed through the magnetic layer 2 generates eddy currents in the metal layer 1, resulting in a loss. Further, even if a magnetic field passes through the metal layer 1, the other magnetic layer 3 absorbs the passing magnetic field lines, and forms magnetic field lines 12 through the magnetic layer 3. Therefore, the magnetic field generated from the reader / writer 13 is extremely difficult to reach the other non-contact type IC card 5 located on the opposite side of the reader / writer 13 with the shield interposed therebetween. It becomes difficult to be recognized.

  Further, since the magnetic layers 2 and 3 having the property of absorbing the magnetic field lines are provided on both sides of the metal layer 1, the magnetic layer 2 on the reader / writer 13 side is caused to generate a magnetic field generated from the parent reader / writer 13 side. The antenna of the non-contact type IC card 4 located on the reader / writer 13 side easily transmits and receives a magnetic field. Due to such a configuration, even if the antenna built in the non-contact type IC card 4 is close to the metal layer 1, the deterioration of the antenna characteristics is suppressed, and the non-contact type IC card 4 is recognized. Make sure.

  As described above, according to the first embodiment, a planar metal layer and a magnetic layer formed on both surfaces of the metal layer and having a property of sucking magnetic lines of force are provided. This is a shield body interposed between contact IC cards. Therefore, when the desired non-contact type IC card is held over the reader / writer, the magnetic field to be exerted on the other non-contact type IC card can be weakened by the magnetic layer, so the other non-contact type IC card The effect of preventing the malfunction that recognizes is obtained. In addition, since the antenna built in the non-contact IC card and the metal layer are close to each other through the magnetic layer, the deterioration of the antenna characteristics caused by the metal layer is suppressed, and the non-contact IC card is recognized. A more certain effect can be obtained.

Embodiment 2. FIG.
FIG. 3 shows a state in which the shield body of the non-contact type IC card according to Embodiment 2 of the present invention is integrated with the non-contact type IC card. In the first embodiment, the shield body in which the magnetic layers 2 and 3 are provided on both sides of the metal layer 1 has been described. In the second embodiment, the non-contact type IC cards 4 and 5 are used as the shield body. It is an integrated card structure directly pasted. Specifically, the non-contact type IC card 4 is fixed to the surface of the magnetic layer 2 with an adhesive or a double-sided adhesive sheet. The other non-contact type IC card 5 is fixed to the surface of the magnetic layer 3 on the opposite side by the same method.
This makes it easy for the user to handle the integrated card because it can be used alone or stored in another case.

Embodiment 3 FIG.
FIG. 4 shows a non-contact type IC card storage case provided with a shield body according to the third embodiment. In the figure, the non-contact type IC card storage case is made of a material such as leather or synthetic leather, and incorporates the shield body 7 described in the first embodiment, and the non-contact type IC card 4 is provided on both sides thereof. , 5 is provided, which is like a so-called pass case. In this case, the non-contact type IC cards 4 and 5 can be easily put in and out of those described in FIG.

Embodiment 4 FIG.
FIG. 5 shows a non-contact type IC card storage case using a shield body according to Embodiment 4 of the present invention. Here, the shield body 7 described in the first embodiment is provided between the plurality of card storage portions 6 to store the plurality of non-contact type IC cards 4, 5, 8, 9. The card storage portion 6 and the shield body 7 are formed like a book by binding one end edges of the card storage portion 6 and the shield body 7 with a movable member 10. As the movable member 10, a flexible resin may be used, or a rigid mechanic structure may be used.

  FIG. 6 shows a use state of the non-contact type IC card storage case. For example, when the non-contact type IC card 5 is used, a card storage unit 6 containing the non-contact type IC card 4 and a shield body provided between the non-contact type IC card 4 and the non-contact type IC card 5. The contactless IC card 5 is selected by turning 7 by turning 180 with the binding portion of the movable member 10 as a fulcrum. When approaching the reader / writer in this state, the non-contact type IC card 5 is recognized, but the non-contact type IC card 4 and the non-contact type IC card 8 are not recognized because they are sandwiched between the shield bodies 7. Therefore, the desired non-contact type IC card 5 can be used without being disturbed by other non-contact type IC cards.

  In the fourth embodiment, the storage case for storing four non-contact type IC cards using three shield bodies is illustrated, but by increasing the number of card storage sections 6 and shield bodies 7 in pairs. A non-contact type IC card storage case that can store any number of non-contact type IC cards can be realized. Further, although the card storage unit 6 is connected to the movable member 10, the non-contact type IC card may be directly connected to the movable member 10 by, for example, holding without using the card storage unit 6.

It is a perspective view which shows the shield body of the non-contact-type IC card by Embodiment 1 of this invention. It is a side view which shows the use condition of the shield body of the non-contact-type IC card which concerns on Embodiment 1 of this invention. It is a side view which shows the state which integrated the shield body of the non-contact-type IC card by Embodiment 2 of this invention with the non-contact IC card. It is a perspective view which shows the non-contact-type IC card storage case by Embodiment 3 of this invention. It is a side view which shows the non-contact-type IC card storage case by Embodiment 4 of this invention. It is a side view which shows the use condition of the non-contact-type IC card storage case which concerns on Embodiment 4 of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Metal layer, 2 Magnetic body layer, 3 Magnetic body layer, 4, 5, 8, 9 Non-contact IC card, 6, 60 Card storage part, 7 Shield body, 10 Movable member, 11, 12 Magnetic field line, 13 Reader / writer.

Claims (4)

  A flat metal layer and a magnetic layer formed on both surfaces of the metal layer and having a property of absorbing magnetic force lines are interposed between a plurality of non-contact type IC cards. Shield body.   2. The shield body according to claim 1, wherein a non-contact type IC card is bonded and integrated on the surface of each magnetic layer.   A non-contact type IC card storage case, wherein a card storage unit for storing a non-contact type IC card is provided on both surfaces of the shield body according to claim 1.   A shield body according to claim 1 is provided between a non-contact type IC card or a card storage part in which the non-contact type IC card is stored, and each end edge is bound with a movable member like a book, A non-contact type IC card storage case characterized in that an arbitrary non-contact type IC card or the target non-contact type IC card is selected by rotating the card storage unit around a binding portion as a fulcrum.

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