JP2018094789A - Card - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a card that can enhance the confidentiality of the information visibly composed.SOLUTION: A card 10 includes: a card body 20 including information Is subject to confidentiality on a front surface thereof; a light adjustment sheet 30 positioned on the front surface and covering the information Is; and a switching part that starts application of driving voltage in response to the operation to change the condition of the light adjustment sheet 30 from the impermeable condition to the permeable condition, the light adjustment sheet 30 in the impermeable condition making the information Is invisible during a period in which the driving voltage is not applied, the light adjustment sheet 30 in the permeable condition making the information Is visible during the period in which the driving voltage is applied.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a card.

  Cards such as IC cards have various information formed on the surface by printing or embossing. The information on the surface of the card includes, for example, information related to the card owner and information necessary for using the card. (For example, refer to Patent Document 1).

JP 2014-205322 A

By the way, the information on the surface of the card includes confidential information that is desirably information that only the owner of the card can grasp and that is not desirably leaked to a third party who is a person other than the owner. There is a case. The secret information is, for example, a credit card number that the surface of the credit card has, and for example, a personal number that the surface of the personal number card has. Since such secret information is always visible on the surface of the card, it is easy for the owner of the card to grasp, but it is difficult to avoid being seen by a third party. Also, if the owner loses the card, the person who picked up the card can easily obtain confidential information.
An object of this invention is to provide the card | curd which can improve the confidentiality of the information comprised so that visual recognition was possible.

  A card that solves the above problem is a card body that includes information to be concealed on the surface, and a light control sheet that is located on the surface and covers the information, and the light control is performed during a period in which no drive voltage is applied. A light control sheet in which the sheet is in a non-transparent state in which the information cannot be viewed, and the light control sheet is in a transparent state in which the information can be viewed in a period during which a driving voltage is applied, and the light control sheet And a switching unit that starts application of the driving voltage in response to an operation for changing the state from the non-transmissive state to the transmissive state.

  According to the above configuration, when the surface of the card is viewed, the information to be concealed is not visible when the light control sheet is in a non-transmissive state, and the information is visible when the light control sheet is in a transparent state. is there. Therefore, the confidentiality of the information can be enhanced as compared with a configuration in which the information is always visible on the surface of the card.

  In the above configuration, the switching unit is based on an authentication information input unit that receives input of authentication information, a control unit that receives the authentication information from the authentication information input unit, and a control signal that is received from the control unit. A drive unit that generates a drive voltage and applies the drive voltage to the light control sheet, and the control unit performs authentication using the data stored in the control unit and the authentication information, and the authentication is established. The control signal is output to the drive unit, and the operation of inputting the authentication information for establishing the authentication to the authentication information input unit changes the state of the light control sheet from the non-transparent state to the transmission state. It may be an operation for changing to a state.

  According to the above configuration, since the establishment of authentication is a condition for switching the light control sheet from the non-transmissive state to the transparent state, a person other than the owner who has the authentication information operates the card illegally to obtain information. It can be suppressed.

  In the above configuration, the operation for changing the state of the light control sheet from the non-transmissive state to the transmissive state is an operation for supplying power to the switching unit, and the switching unit supplies the power. Application of the drive voltage may be started based on the reception.

According to the above configuration, it is possible to simplify the configuration of the card as compared with the case where a configuration such as a switch for changing the light control sheet from the non-transmissive state to the transmissive state is provided on the card itself.
In the above configuration, the switching unit may include a circuit positioned inside the card body.
According to the above configuration, it is possible to protect the circuit included in the switching unit from the impact received by the card.

The said structure WHEREIN: The said switching part may be located in the surface of the said card | curd main body.
According to the above configuration, the configuration in which the confidentiality of information is enhanced by switching between the non-transparent state and the transparent state of the light control sheet is applied to a card having a configuration in which it is difficult to arrange an electronic circuit inside the card body. be able to. It is also possible to configure the card by fixing the light control sheet and the switching unit to the card body at an opportunity different from the manufacturing process of the card body. Therefore, there is a high degree of freedom with respect to the application target of the above configuration that improves the confidentiality of information using the light control sheet.

The said structure WHEREIN: Electric power may be supplied to the said switching part by non-contact electric power feeding.
According to the above configuration, when the light control sheet is switched from the non-transmissive state to the transmissive state, it is not necessary to connect the terminal between the card and the power feeding device, so that convenience in confirming information is improved.

  According to the present invention, the confidentiality of information configured to be visible can be enhanced.

The perspective view which shows the external appearance structure of a card | curd about 1st Embodiment of a card | curd. Sectional drawing which shows the cross-section of the light control sheet in 1st Embodiment. The block diagram which shows the electrical constitution in the card | curd of 1st Embodiment. The flowchart which shows the process sequence for switching the state of a light control sheet | seat from a non-transmissive state to a transmissive state in the card | curd of 1st Embodiment. The perspective view which shows the external appearance structure of a card | curd about 2nd Embodiment of a card | curd. The block diagram which shows the electrical structure in the card | curd of 2nd Embodiment. The flowchart which shows the process sequence for switching the state of a light control sheet | seat from a non-transmissive state to a transmissive state in the card | curd of 2nd Embodiment.

(First embodiment)
A first embodiment of a card will be described with reference to FIGS.

[Appearance structure of card]
With reference to FIG. 1, the external configuration of the card will be described.
As shown in FIG. 1, the card 10 includes a card body 20 and a light control sheet 30. The card body 20 is flat and has a multilayer structure including a resin layer, a print layer, and the like. An IC or the like is incorporated in the card body 20.

  When viewed from the direction facing the surface of the card body 20, the surface of the card body 20 includes information to be concealed, that is, secret information Is that is not desirably leaked to a person other than the owner of the card 10. It is. The secret information Is is composed of, for example, a print layer and is printed by a thermal transfer method.

  The secret information Is may be information including characters, information including images, or characters and images as long as it is not desirable to leak to a person other than the owner. The information comprised from these may be sufficient. Specifically, for example, when the card 10 is a personal number card, the secret information Is is a personal number. For example, when the card 10 is a credit card, the secret information Is is a credit card number. is there.

  The card 10 includes an authentication information input unit 21, and the authentication information input unit 21 is exposed on the front surface or the back surface of the card body 20. That is, in the card body 20, the authentication information input unit 21 may be located on the same surface as the secret information Is, or may be located on the surface opposite to the secret information Is.

  The authentication information input unit 21 receives input of biometric information that is an example of authentication information. The biometric information is information necessary for biometric authentication. For example, the biometric information is fingerprint information, and the authentication information input unit 21 has a fingerprint reading function, reads the fingerprint of the owner's finger touching the authentication information input unit 21, converts it into a signal, and outputs it as biometric information To do. That is, generation of biometric information by the authentication information input unit 21 based on reading of biometric features is input of biometric information to the authentication information input unit 21.

  The light control sheet 30 has low light transmittance when not energized, and increases light transmittance by consuming electric power. The light control sheet 30 is disposed on the surface of the card body 20 at a position covering the secret information Is. The light control sheet 30 is fixed to the surface of the card body 20 by adhesion or the like, and the power receiving terminal of the light control sheet 30 is placed inside the card body 20 through a hole or the like formed from the surface of the card body 20 to the inside. It is electrically connected to the located circuit.

[Configuration of light control sheet]
With reference to FIG. 2, the structure of the light control sheet 30 is demonstrated in detail.
As shown in FIG. 2, the light control sheet 30 includes a light control layer 31, two electrode layers 32, and two supports 33. The two electrode layers 32 sandwich the light control layer 31, and further, two support bodies 33 sandwich the laminate composed of the light control layer 31 and the two electrode layers 32.

  The light control layer 31 includes a polymer network type liquid crystal having a PNLC (Polymer Network Liquid Crystal) structure. The polymer network type liquid crystal includes a polymer network having a three-dimensional network, and holds liquid crystal molecules in voids of the polymer network. The liquid crystal molecules included in the light control layer 31 have, for example, positive dielectric anisotropy, and the dielectric constant in the major axis direction of the liquid crystal molecules is larger than the dielectric constant in the minor axis direction of the liquid crystal molecules. The liquid crystal molecules are, for example, Schiff base, azo, azoxy, biphenyl, terphenyl, benzoate, tolan, pyrimidine, cyclohexanecarboxylate, phenylcyclohexane, and dioxane liquid crystal molecules. is there.

  The electrode layer 32 is a transparent layer having conductivity. Examples of the material constituting the electrode layer 32 include indium tin oxide (ITO), fluorine-doped tin oxide (FTO), tin oxide, and zinc oxide. The support 33 is a transparent base material. Examples of the support 33 include a glass substrate, a silicon substrate, a high substrate made of polyethylene, polystyrene, polyethylene terephthalate, polyvinyl alcohol, polycarbonate, polyvinyl chloride, polyimide, polysulfone, and the like. Molecular film is used.

  When no voltage is applied to the light control layer 31, the orientation of the liquid crystal molecules in the major axis direction is irregular. Therefore, the light incident on the light control layer 31 is scattered, and the light control sheet 30 appears cloudy. On the other hand, when a voltage is applied between the two electrode layers 32, the liquid crystal molecules are aligned according to the magnitude of the voltage, and the major axis direction is adjusted along the direction of the electric field between the electrode layers 32. Light easily passes through the optical layer 31. That is, the light control sheet 30 is opaque during a period when no voltage is applied to the light control layer 31. During the period when the voltage is applied to the light control layer 31, the light transmittance of the light control sheet 30 increases as the absolute value of the voltage increases. The light transmittance of the light sheet 30 is maximized.

  The light control sheet 30 is controlled so as to be switched between a non-transmissive state and a transmissive state. The non-transmissive state is a state in which the light control sheet 30 is opaque so that the secret information Is cannot be visually recognized, and no voltage is applied to the light control layer 31 or the light control layer 31 is applied. The voltage is very small. The transmission state is a state in which the light control sheet 30 has a light transmission property that allows the secret information Is to be visually recognized through the light control sheet 30, and a drive voltage having a larger absolute value than that in the non-transmission state is applied. In this state, the light control layer 31 is applied. The light control sheet 30 in the non-transmissive state preferably has a haze value (or diffuse transmittance) of 80% or more, and the light control sheet 30 in the transparent state has a haze value (or diffuse transmittance) of 10% or less. Is preferred.

[Electrical configuration of card]
The electrical configuration of the card 10 will be described with reference to FIG.
As shown in FIG. 3, the card 10 includes a control unit 41, a drive unit 42, and a power supply unit 43 in addition to the above-described configuration. The control unit 41, the drive unit 42, and the power supply unit 43 are located inside the card body 20.

  The control unit 41 includes a CPU and a memory such as a ROM or a RAM. When the card 10 is an IC card having a contact type or non-contact type communication function, or an IC card having both a contact type and a non-contact type communication function, the control unit 41 controls these communications. It may be embodied by an IC that performs. Alternatively, the control unit 41 may be embodied by an IC different from the IC that performs control related to the communication.

The control unit 41 receives biometric information from the authentication information input unit 21 and performs authentication using the biometric information and the data stored in the control unit 41. For example, the control unit 41 determines whether or not the degree of coincidence between the fingerprint indicated by the biometric information and the fingerprint indicated by the biometric data stored in the control unit 41 is greater than or equal to a predetermined value. Authentication is established when the degree of fingerprint matching is equal to or greater than a predetermined value. A known pattern recognition technique may be used for calculating the degree of matching of fingerprints. The biological data stored in the control unit 41 is data taken from the biological body of the owner of the card 10 and is stored in the control unit 41 in advance.
Further, when the authentication is established, the control unit 41 outputs a control signal that is a signal instructing the drive unit 42 to supply power to the light control sheet 30.

  When the drive unit 42 receives the control signal, the drive unit 42 uses the power received from the power supply unit 43 to generate a drive voltage of the light control sheet 30 and passes the drive voltage to the light control layer 31 through the electrode layer 32 of the light control sheet 30. Apply. As described above, the drive voltage is a voltage for driving the light control sheet 30 in a transmissive state.

  The power supply unit 43 is, for example, a primary battery or a secondary battery, and supplies driving power to each unit of the card 10 such as the control unit 41, the drive unit 42, and the authentication information input unit 21. When the power supply unit 43 is a battery that performs pulse discharge, the durability of the light control layer 31 is enhanced.

  In the above configuration, the authentication information input unit 21, the control unit 41, and the drive unit 42 receive a switching operation that is an operation for changing the state of the light control sheet 30 from the non-transmissive state to the transmissive state, and adjust the drive voltage. A switching unit 44 that starts application to the light sheet 30 is configured. The switching operation is an operation for the card 10 and is an operation for inputting biometric information to the authentication information input unit 21.

[Card operation]
With reference to FIG. 4, operation | movement of the card | curd 10 of 1st Embodiment is demonstrated. FIG. 4 is a flowchart illustrating a procedure of processing for switching the light control sheet 30 from the non-transmissive state to the transmissive state.

  In the card 10, the light control sheet 30 is in a non-transparent state during normal times when the confidential information Is is not required to be viewed, and is switched to a transparent state when the confidential information Is is required to be viewed. When the light control sheet 30 is in the non-transmissive state, the light control sheet 30 is opaque, and thus the secret information Is covered by the light control sheet 30 is not visually recognized.

  When the owner needs to confirm the secret information Is when using the card 10 or the like, processing according to the flow shown in FIG. 4 is performed. That is, when the owner performs an operation such as placing a finger on the authentication information input unit 21, biometric information is input to the authentication information input unit 21 as processing in step S <b> 10. In response to this, the authentication information input unit 21 outputs the biometric information to the control unit 41. The activation of the authentication information input unit 21 may be performed in response to an appropriate operation such as pressing of the authentication information input unit 21.

  Subsequently, as a process of step S <b> 11, the control unit 41 performs authentication using the biological information and the data stored in the control unit 41. Then, it is determined whether or not the authentication is established as the process of step S12. When the authentication is established, the control unit 41 outputs a control signal to the drive unit 42 as the process of step S13. Upon receiving the control signal, the drive unit 42 generates a drive voltage for the light control sheet 30 and starts applying the drive voltage to the light control sheet 30 as the process of step S14.

  Thereby, a drive voltage is applied to the light control sheet 30, and the light control sheet 30 is switched from a non-transmission state to a transmission state. As a result, the secret information Is covered with the light control sheet 30 becomes visible. In addition, when establishment of authentication is denied, a process is complete | finished without performing the process of step S13 and step S14, and the impervious state of the light control sheet 30 is maintained. That is, in the first embodiment, an operation for inputting the biometric information for which authentication is established to the authentication information input unit 21 is a switching operation.

  According to the above configuration, since the secret information Is is not visible on the surface of the card 10 except when the owner needs the secret information Is, the secret information Is is seen by a person other than the owner of the card 10. Is suppressed.

  Further, since the light control sheet 30 is switched from the non-transmissive state to the transmissive state on the condition that the authentication is established, it is possible to prevent the person other than the owner from operating the card 10 illegally and obtaining the secret information Is. In particular, since biometric authentication is adopted as authentication, it is possible to suitably suppress that a person other than the owner impersonates the owner and obtains the secret information Is. In addition, since the owner does not need to remember information for authentication, the burden on the owner required for authentication is reduced.

  Note that switching from the transmission state to the non-transmission state in the light control sheet 30 is realized by the following configuration, for example. That is, the drive unit 42 generates the drive voltage and applies it to the light control sheet 30 so that the drive voltage is applied to the light control sheet 30 only during a preset period. Thereby, when the said period passes after application of a drive voltage is started, the light control sheet 30 will switch from a permeation | transmission state to a non-permeability state.

  Alternatively, a stop signal instructing to stop supplying power to the light control sheet 30 is input from the control unit 41 to the drive unit 42, and the drive unit 42 receives the stop signal and the drive unit 42 controls the light control sheet 30 with the drive voltage. Application to may be stopped. When the application of the drive voltage to the light control sheet 30 is stopped, the light control sheet 30 is switched from the transmission state to the non-transmission state.

  The stop signal may be output, for example, after a lapse of a predetermined period from the output of the control signal, or may be output based on the owner's operation. For example, when the authentication information input unit 21 detects that the owner's finger has been removed from the authentication information input unit 21, and the detection result is input to the control unit 41, the control unit 41 outputs a stop signal. . According to such a configuration, the secret information Is can be visually recognized only during a period in which the owner's finger is in contact with the authentication information input unit 21. Further, for example, when a switch unit for instructing switching from the transparent state to the non-transparent state is provided on the surface of the card body 20 and a signal indicating that the switch unit has been pressed is input to the control unit 41, the control is performed. The unit 41 may output a stop signal.

  In the card 10 according to the first embodiment, by using the light control sheet 30 having a non-transmissive state and a transmissive state, it is possible to switch between a state where the secret information Is is not visible and a state where the secret information Is is visible. Is realized. According to such a configuration, for example, the configuration of the card 10 is simpler than a mode in which a display unit such as a liquid crystal panel or electronic paper is provided and secret information is displayed on the display unit only when necessary.

  Further, according to the card 10, the light control sheet 30 can be switched between the non-transmissive state and the transmissive state only by the card 10 without performing communication with an external device or the like. Therefore, the owner can confirm the secret information Is without being restricted by environmental restrictions such as location and facilities. Therefore, the convenience in confirming the secret information Is is high.

[Modification]
The card 10 of the first embodiment can be implemented with the following modifications.
-Authentication may be performed by a method different from biometric authentication. For example, the card body 20 has a numeric key as the authentication information input unit 21 on the front surface or the back surface thereof, and is composed of a predetermined number of digits as authentication information based on the owner pressing the numeric key. A passcode may be input to the authentication information input unit 21. In this case, the control unit 41 stores the data of a preset passcode, and performs authentication by determining whether or not the input passcode matches the stored data. That is, the generation of authentication information by the authentication information input unit 21 based on an operation on the authentication information input unit 21 is an input of authentication information to the authentication information input unit 21, and the authentication information for which authentication is established is input. The operation input to the unit 21 is a switching operation.

  In the above-described embodiment, the configuration in which power is supplied from the battery to the control unit 41 and the drive unit 42 is illustrated as the power supply unit 43, but the form of power supply is not limited thereto. For example, a power receiving unit including a terminal for receiving power may be exposed on the surface of the card body 20, and power may be supplied from the external device through contact between the terminal of the power receiving unit and the power supply terminal of the external device. 20 may include a power reception unit including an antenna or the like, and power may be supplied to the control unit 41 and the drive unit 42 by non-contact power feeding through the power reception unit. When the card 10 is an IC card having a contact type or non-contact type communication function, the above-described contact power supply or non-contact power supply may be performed through a terminal or an antenna for the communication.

  In the above embodiment, the switching operation is an operation of inputting authentication information for which authentication is established to the authentication information input unit 21, but the switching operation is not limited to this operation. For example, when a switch unit for instructing switching from the non-transparent state to the transparent state is provided on the surface of the card body 20 and a signal indicating that the switch unit is pressed is input to the control unit 41, the control unit 41 may output a control signal to the drive unit 42. In this case, the operation of pressing the switch unit is a switching operation. In such a case, authentication by the control unit 41 is not performed, and the switching unit 44 may not include the authentication information input unit 21.

  Further, the switching operation may be an operation for supplying power to the switching unit 44. For example, the switching operation may be an operation for starting the above-described contact power supply or non-contact power supply, that is, an operation of placing the card 10 at a predetermined position with respect to an external device that performs such power supply. In this case, the control unit 41 outputs a control signal to the drive unit 42 based on the start of power supply to the switching unit including the power receiving unit by power feeding from the external device. In such a case, authentication by the control unit 41 is not performed, and the card 10 may not include the authentication information input unit 21. The drive unit 42 may be supplied with power transmitted from an external device, or may be supplied with power from the power supply unit 43. Further, in the case where the switching operation is an operation for supplying power to the switching unit, the card 10 does not include the control unit 41, and the drive unit supplies power from the power receiving unit based on power supply from an external device. When 42 receives, the drive part 42 may perform the production | generation of a drive voltage, and the application to the light control sheet 30. FIG.

As described above, according to the first embodiment, the following effects can be obtained.
(1) Since the secret information Is is covered with the light control sheet 30 having a non-transmission state and a transmission state, when the light control sheet 30 is in the non-transmission state when the surface of the card 10 is viewed, the secret information Is is not visible, and the secret information Is is visible when the light control sheet 30 is in the transmissive state. Therefore, the confidentiality of the secret information Is can be enhanced as compared with a configuration in which the secret information Is is always visible on the surface of the card.

  (2) In a configuration in which the switching operation for changing the state of the light control sheet 30 from the non-transparent state to the transparent state is an operation for inputting authentication information for which authentication is established to the authentication information input unit 21, other than the owner Can be prevented from illegally operating the card 10 to obtain the secret information Is.

  (3) In the configuration in which the switching operation for changing the state of the light control sheet 30 from the non-transmissive state to the transmissive state is an operation for supplying power to the switching unit 44, the switching from the non-transmissive state to the transmissive state is performed. Therefore, the configuration of the card 10 can be simplified as compared to the case where the configuration of the switch or the like is provided on the card 10.

  (4) The control unit 41 and the drive unit 42 are located inside the card body 20. That is, since the switching unit 44 includes a circuit located inside the card body 20, it is possible to protect the circuit included in the switching unit 44 from an impact received by the card 10.

(Second Embodiment)
A second embodiment of the card will be described with reference to FIGS. Below, it demonstrates centering on difference with 1st Embodiment, about the structure similar to 1st Embodiment, the same code | symbol is attached | subjected and the description is abbreviate | omitted.

[Appearance structure of card]
As shown in FIG. 5, the card 11 according to the second embodiment includes a circuit unit 50 including a circuit constituting a switching unit on the surface of the card body 20. The circuit unit 50 has a sheet shape, and includes, in addition to the above circuit, a base material on which a circuit is formed, a support body that sandwiches the circuit and the base material, and the like. In addition, the circuit unit 50 may include a printed layer that constitutes a picture or the like for suppressing the visual recognition of the circuit and enhancing the decorativeness of the card 11.

  The circuit included in the circuit unit 50 is electrically connected to the power receiving terminal of the light control sheet 30. The circuit unit 50 preferably constitutes a sheet member 51 that is a sheet-like member together with the light control sheet 30.

  The sheet member 51 including the light control sheet 30 and the circuit unit 50 is fixed to the surface of the card body 20 by adhesion or the like. Similar to the first embodiment, the light control sheet 30 covers the secret information Is.

The card 11 may be shipped after the sheet member 51 is fixed to the card main body 20, or the card member 20 may be shipped by the person in charge of distributing the card 11 or the owner who has received the distribution of the card 11. Fixing may be performed. In such a case, for example, the owner himself / herself can select whether or not to hide the secret information Is with the light control sheet 30 according to the content of the secret information Is.
[Electrical configuration of card]
As shown in FIG. 6, the card 11 includes a switching unit 46 including a driving unit 42 and a power receiving unit 45.

  The power receiving unit 45 is supplied with power from an external device by non-contact power feeding, and supplies power to the driving unit 42 based on the power. The contactless power supply method is not particularly limited, and may be selected in consideration of the transmission distance, the amount of power required for supply, the circuit configuration required for power supply, and the like. The power reception unit 45 is configured of elements necessary for power reception such as an antenna and a coil, for example, according to a non-contact power feeding method. When the drive unit 42 receives supply of power as a control signal from the power receiving unit 45, the drive unit 42 generates a drive voltage using the power and applies the drive voltage to the light control sheet 30.

  In the second embodiment, the switching operation for changing the state of the light control sheet 30 from the non-transmissive state to the transmissive state is an operation for supplying power to the switching unit 44, and the switching unit 44 is caused by the switching operation. On the basis of receiving the supplied power, application of the drive voltage to the light control sheet 30 is started.

  When the card 11 is an IC card having a contact-type or non-contact-type communication function, a circuit including an IC, an antenna for communication, etc. is located inside the card body 20, but the switching unit 46 is The circuit inside the card body 20 may not be connected.

[Card operation]
With reference to FIG. 7, the operation of the card 11 of the second embodiment will be described. FIG. 7 is a flowchart illustrating a procedure of processing for switching the light control sheet 30 from the non-transmissive state to the transmissive state. Also in the card 11 of the second embodiment, the light control sheet 30 is in a non-transparent state during normal times when the confidential information Is is not required to be viewed, and is switched to a transparent state when the confidential information Is is required to be viewed. It is done.

  When the owner needs to confirm the secret information Is when using the card 11 or the like, processing according to the flow shown in FIG. 7 is performed. That is, the owner places the card 11 in the vicinity of an external device that performs non-contact power supply as a switching operation. Thereby, as a process of step S20, electric power is supplied from the external device to the power receiving unit 45, and in response thereto, electric power is supplied from the power receiving unit 45 to the driving unit 42. The drive unit 42 that has received the supply of power generates a drive voltage and starts applying the drive voltage to the light control sheet 30 as the process of step S <b> 21.

  Thereby, a drive voltage is applied to the light control sheet 30, and the light control sheet 30 is switched from a non-transmission state to a transmission state. As a result, the secret information Is covered with the light control sheet 30 becomes visible.

  Even in the above configuration, as in the first embodiment, the secret information Is is not visible on the surface of the card 10 except when the owner needs the secret information Is. It is possible to prevent the person from seeing the secret information Is.

  Note that the light control sheet 30 may be switched from the transmissive state to the non-transmissive state in the same manner as in the first embodiment. That is, the drive unit 42 generates the drive voltage and applies it to the light control sheet 30 so that the drive voltage is applied to the light control sheet 30 only during a preset period. Thereby, after the elapse of a preset period, application of the drive voltage to the light control sheet 30 is stopped, and the light control sheet 30 is switched from the transmission state to the non-transmission state.

  Alternatively, when the operation of moving the card 11 away from the external device is performed and the supply of power from the external device to the power receiving unit 45 is stopped, the drive unit 42 stops applying the drive voltage to the light control sheet 30. Also good.

  According to the card 11 of the second embodiment, an external device for supplying power is required when confirming the secret information Is, but the configuration of the card body 20 and the switching unit 46 is simplified compared to the first embodiment. can do. Therefore, the card 11 can be easily downsized.

[Modification]
The card 11 of the second embodiment can be implemented with the following modifications.
In the above-described embodiment, power is supplied to the switching unit 46 by non-contact power supply, but instead of this, power may be supplied to the switching unit 46 through contact between terminals. That is, the power receiving unit 45 has a terminal that is brought into contact with the power supply terminal of the external device, and this terminal is exposed on the surface of the card 11, that is, the surface of the sheet member 51, and the terminal of the power receiving unit 45 and the power supply terminal of the external device Power may be supplied to the switching unit 46 through contact with the power supply.

  The switching unit 46 may include a control unit that controls generation of the driving voltage by the driving unit 42. In response to the input of power from the external device to the power receiving unit 45, the control unit outputs a control signal instructing the supply of power to the light control sheet 30 to the drive unit 42, receives the control signal, and drives The unit 42 generates a drive voltage and supplies it to the light control sheet 30.

As described above, according to the second embodiment, the following effects can be obtained in addition to the effects (1) and (3) of the first embodiment.
(5) Since the switching unit 46 is located on the surface of the card body 20, the non-transmission state and the transmission state in the light control sheet 30 can be applied to a card having a configuration in which it is difficult to arrange an electronic circuit inside the card body 20. It is possible to apply a configuration in which the confidentiality of the secret information Is is increased by switching between them. Further, a configuration for concealing the secret information Is, that is, the sheet member 51 including the light control sheet 30 and the circuit unit 50 is fixed to the card main body 20 at an opportunity different from the manufacturing process of the card main body 20, and the card 11 It is also possible to configure. Therefore, there is a high degree of freedom with respect to the application target of the above configuration that uses the light control sheet 30 to increase the confidentiality of the secret information Is.

  (6) In the configuration in which power is input to the switching unit 46 by non-contact power feeding, connection of terminals between the card 11 and an external device for power feeding is unnecessary, and thus convenience in confirming the secret information Is. Is increased.

[Modification]
The cards of the above embodiments and comparative examples can be implemented with the following modifications.
-In 1st Embodiment, the light control sheet 30 may cover the whole surface of the card | curd main body 20, and the electrode layer 32 may be arrange | positioned only in the area | region which overlaps with the secret information Is. According to such a configuration, it is possible to suppress the formation of irregularities due to the light control sheet 30 on the surface of the card 10, so that handling such as storage of the card 10 becomes easy. In areas other than the area where the secret information Is is located, the alignment layer sandwiching the light control layer 31 is disposed between the light control layer 31 and the support 33, so that the light control sheet 30 is high when not energized. It has optical transparency, and the image on the surface of the card body 20 can be visually recognized through the light control sheet 30. The alignment layer is a layer that aligns the major axis direction of the liquid crystal molecules along the thickness direction of the light control sheet 30.

  Also in the second embodiment, the light control sheet 30 covers the entire surface of the card body 20 at portions other than the circuit unit 50, and the electrode layer 32 is disposed only in the region overlapping the secret information Is. Also good.

  The secret information Is and the light control sheet 30 may be located on both sides of the card body 20. When the secret information Is and the light control sheet 30 are located only on one surface of the card body 20, the surface on which the secret information Is and the light control sheet 30 are located is the surface of the card body 20 in the embodiment and the modification example. It is a surface defined as

  -At least one of the light control sheet 30 or the card body 20 may have an ultraviolet barrier function. The ultraviolet barrier function is a function of suppressing the incidence of ultraviolet rays on the liquid crystal composition included in the light control layer 31. Since the liquid crystal composition contained in the light control layer 31 having the PNLC structure contains an ionizing radiation curable resin that is a photopolymerizable compound, the liquid crystal composition is likely to be deteriorated by the incidence of ultraviolet rays. If at least one of the light control sheet 30 or the card body 20 has a UV barrier function, the light control layer 31 can be protected from UV light, so that the weather resistance of the light control sheet 30 is improved. Is possible.

  In addition, when a weathering agent such as an ultraviolet absorber or a light stabilizer is included in the liquid crystal composition in order to suppress deterioration of the liquid crystal composition, ultraviolet light required for curing is generated when the light control layer 31 is cured and molded. It is absorbed by the weathering agent and the curing reaction is inhibited. Therefore, it is preferable that members other than the light control layer 31 have an ultraviolet barrier function. For example, the light control sheet 30 may include a barrier layer having an ultraviolet barrier function. The barrier layer contains, for example, a photopolymerization initiator, a compound having an unsaturated double bond, and an ultraviolet absorber. Examples of the ultraviolet absorber include salicylic acid, benzophenone, benzotriazole, cyanoacrylate, and triazine. Further, the electrode layer 32 and the support 33 may have an ultraviolet barrier function. Alternatively, the card body 20 may include the barrier layer, and the base material constituting the card body 20 may include an ultraviolet barrier function.

  Note that the card may have a security structure on the front and back surfaces of the card body 20 as a configuration for preventing counterfeiting of the card, which is a region that develops color when irradiated with ultraviolet light from a black light or the like. The security structure is formed by applying ink that develops color when it receives ultraviolet rays so as to form a predetermined character or picture. When the card has a security structure portion, the secret information Is and the light control sheet 30 covering the secret information Is are arranged on the surface of the card body 20 opposite to the surface on which the security structure portion is provided. It is preferable. According to such a configuration, the light control sheet 30 is protected from the ultraviolet rays irradiated for confirmation of the security structure portion, as compared with the configuration in which the light control sheet 30 is disposed on the same surface as the security structure portion. Can do.

  The light control layer 31 may include a dye that has a predetermined color and does not hinder the movement of liquid crystal molecules according to the magnitude of the voltage applied to the light control layer 31. According to such a structure, since the light control sheet 30 which has a predetermined color is implement | achieved, the designability of a card | curd can also be improved.

  -The light control sheet 30 should just be comprised so that it may have a non-transmission state and a permeation | transmission state, ie, it may be opaque at the time of non-energization, and may improve the light transmittance at the time of electricity supply, It may have a structure different from the PNLC structure. For example, in the case where the light control sheet 30 is a liquid crystal type light control sheet, as a kind of liquid crystal included in the light control layer 31, in addition to a polymer network type liquid crystal having a PNLC structure, a polymer dispersed liquid crystal (PDLC: Polymer Dispersed Liquid Crystal) and capsule type nematic liquid crystal (NCAP: Nematic Curvilinear Aligned Phase) may be mentioned. Further, the light control sheet 30 may be an electrochromic type or polarizing plate type light control sheet.

  Is ... secret information, 10, 11 ... card, 20 ... card body, 21 ... authentication information input part, 30 ... light control sheet, 31 ... light control layer, 32 ... electrode layer, 33 ... support, 41 ... control part, 42 ... Drive unit, 43 ... Power supply unit, 44,46 ... Switching unit, 45 ... Power receiving unit, 50 ... Circuit unit, 51 ... Sheet member.

Claims (6)

A card body containing information to be concealed on the surface;
A light control sheet that is positioned on the surface and covers the information, wherein the light control sheet is in a non-transparent state in which the information is not visible during a period in which the drive voltage is not applied, and the drive voltage is applied. A light control sheet that is in a transmissive state that allows the information to be visually recognized by the light control sheet;
A switching unit that starts an application of the driving voltage in response to an operation for changing the state of the light control sheet from the non-transmissive state to the transmissive state;
Card with. The switching unit is
An authentication information input unit that accepts input of authentication information;
A control unit to which the authentication information is input from the authentication information input unit;
A drive unit that generates the drive voltage based on receiving a control signal from the control unit and applies the drive voltage to the light control sheet, and
The control unit performs authentication using the data stored in the control unit and the authentication information, and when the authentication is established, outputs the control signal to the drive unit,
The operation for inputting the authentication information for which the authentication is established to the authentication information input unit is an operation for changing the state of the light control sheet from the non-transmissive state to the transmissive state. card. The operation for changing the state of the light control sheet from the non-transmissive state to the transmissive state is an operation for supplying power to the switching unit,
The card according to claim 1, wherein the switching unit starts applying the driving voltage based on receiving the supply of electric power. The card according to any one of claims 1 to 3, wherein the switching unit includes a circuit located inside the card body. The card according to claim 1, wherein the switching unit is located on a surface of the card body. The card according to claim 5, wherein power is supplied to the switching unit by non-contact power feeding.