JP2006259781A - Apparatus theft preventing system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an apparatus theft preventing system protecting security, and preventing improper selling by stopping activation of a target, structurally disabling removal of a storing part, erasing data of the storing part, and disconnecting communication with an external apparatus unless there is authentication and authorization between a controller and the target. <P>SOLUTION: The apparatus theft preventing system is realized by a controller authenticating an apparatus by carrying out short-range radio communication between a target apparatus and a controller apparatus, and detecting whether it is within a set range, or it is communicable, the target carrying out the radio communication with the controller and controlling operation of the apparatus and a mechanism system, and as a composition of the target, a system block carrying out operation of the apparatus, storage of data, and communication control with an external apparatus, an authentication lock control block detecting communication failure to carry out lock control of the system block, authentication of the apparatus, and authentication of an owner, and a power source block managing power sources of the system block and the authentication lock control block. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a device antitheft system, and in particular, between a transmission / reception unit in which an owner has a built-in or attached controller in a carried article and a transmission / reception unit in which a owner has been put in or attached to a target placed in a bag or the like. Short-range wireless communication is performed and the distance between the transmitter and receiver is measured and the distance exceeds a certain distance, or when wireless signal communication becomes impossible, the target device stops operating and the storage media is mechanical In addition, the present invention relates to a device antitheft system that loses its value as a target in case of theft by erasing data stored in a storage unit or the like, thereby protecting the security and preventing unauthorized sales of the device.

  In recent years, personal computers (personal computers) and mobile devices have been leaked secret information or illegally sold due to theft, etc., and passwords are set for personal computers to restrict startup and hard disk access To protect the security.

  A conventional anti-theft system will be described below using a personal computer configuration.

  A conventional antitheft system is shown in FIG. FIG. 8 shows a block diagram of a personal computer equipped with a conventional security system. In FIG. 8, reference numeral 80 denotes a personal computer body. A system unit 81 controls the entire system of the personal computer. A hard disk 82 stores data and the like controlled and created by the system unit 81. A basic input output system (BIOS) unit 83 controls a system unit 81 and a hard disk 82 by installing a basic program that is software for controlling and managing data input / output necessary for starting the personal computer 80.

  The operation of the conventional antitheft system configured as described above will be described below.

First, after the personal computer 80 is turned on, the BIOS unit 83 starts the personal computer. At this time, if a password is set in the BIOS unit 83, the password is requested before the system unit 81 is activated. As a result, the activation of the personal computer 80 is restricted to protect the security. Further, depending on the BIOS setting, the hard disk is also restricted so that the hard disk is not recognized even if the hard disk is removed and attached to another personal computer to obtain internal information, thereby protecting the security.
JP 2003-109127 A

  However, the above-described conventional configuration has a problem that it may be released because it is protected by setting a password, and it is not protected in a removable memory card or the like.

  The present invention solves the above-mentioned conventional problems, and unless the recognition is permitted between the controller and the target, the activation of the target is stopped, the program data of the activation part is erased or encrypted, the data of the storage unit Providing a device anti-theft system that protects security and prevents unauthorized sales by erasing data, mechanically dismounting the storage unit, or blocking communication with external devices. Objective.

  In order to achieve this object, the device anti-theft system of the present invention performs wireless communication at a short distance and authenticates the device by detecting whether it is within a set distance or can be communicated with the target device by communication at regular intervals or irregular intervals. A controller that wirelessly communicates with the controller to control the operation and mechanism of the device, a system block that controls operation of the device, accumulation of data, and communication with an external device as the configuration of the target, and the controller An authentication lock control block for performing communication control and measuring the distance to the controller to detect a distance greater than a certain distance or inability to perform communication and performing system block lock control and device authentication and owner authentication, the system block and the system block A power supply block for managing the power supply of the authentication lock control block is provided.

  With this configuration, the activation of the target is stopped unless the recognition is permitted between the controller and the target, the removal of the storage unit is mechanically impossible, the data in the storage unit is erased or encrypted, and communication with an external device By blocking or the like, the effect of protecting the security and preventing illegal sales can be obtained.

  As described above, the present invention stops the activation of the target unless the recognition is permitted between the controller and the target, makes the removal of the storage unit mechanically impossible, erases or encrypts data in the storage unit, and externally By blocking the communication with the device, etc., it is possible to obtain the effect of protecting the security and preventing illegal sales.

  The invention according to claim 1 of the present invention is a controller that authenticates a device by performing short-range wireless communication, detecting whether it is within a set distance or being communicable with a target device by communication at regular intervals or irregular intervals, A target that wirelessly communicates with the controller to control the operation and mechanism of the device, a system block that controls the operation of the device, storage of data, and communication with an external device as the configuration of the target, and a controller that communicates with the controller An authentication lock control block that performs lock control of a system block by measuring a distance to the device and detecting that communication is not possible or more than a certain distance, and authentication of a device and authentication of an owner, the system block and the authentication lock control block Device anti-theft system characterized by having a power supply block to manage the power supply If the controller and the target do not permit recognition, the target will not start, the storage unit will be removed mechanically, the storage unit data will be erased or encrypted, and communication with external devices will be interrupted Etc. have the effect of protecting security and preventing unauthorized sales.

  Hereinafter, embodiments of the present invention will be described with reference to FIGS.

(Embodiment 1)
FIG. 1 is a block diagram of a device anti-theft system according to the present invention. In FIG. 1, reference numeral 1 denotes whether short-distance wireless communication is performed and communication with a target device is within a set distance or is possible by communication at regular intervals or irregular intervals. It is a controller that detects and performs device authentication. When the target 2 (described later) is used, the controller 1 needs to be arranged nearby so that communication with the target 2 is possible. For this purpose, the controller 1 may be made into a small unit so that the user can install the target in a place where the target is normally used or can be easily worn by the user. In addition, when it is assumed that the user wears it, it may be modularized and built in a device that is generally assumed to be worn by the user, such as a mobile phone or a wristwatch. In any case, the installation state and the mounting state are not particularly limited.

  Reference numeral 2 denotes a target having functions of performing wireless communication with the controller 1 to perform device authentication operations, storing device operations and data, and controlling communication with external devices. The wireless communication means is not particularly limited, but it is desirable to activate the lock system immediately after the theft, so it is conceivable to use one based on the Bluetooth (registered trademark) standard having a communication distance of about 5 m. In the present embodiment, the target 2 is assumed to be a mobile device such as a notebook personal computer. However, the target 2 is not limited to a notebook personal computer because it can be used within a practical range as long as it is portable.

  3 is mounted on the target 2, performs wireless communication with the controller 1, authenticates the device, stops the operation of the target 2 depending on the communication status, and mechanically operates the storage unit 17 (described later). This is an authentication lock control block including a block for performing a control for blocking the communication with an external device, performing an operation of erasing or encrypting data in the storage unit 17, and a control for blocking communication with an external device. A system that stops the operation of the target 2 or locks the storage unit 17 mechanically or signalally is hereinafter referred to as a lock system.

  A system block 4 is provided in the target 2 and controls the operation of the target 2 device, stores data, and controls communication with external devices. Examples of the external device include an accumulator such as a hard disk using IEEE 1394, USB, and LAN standards, a disk drive, etc., or all devices adopting IEEE 1394, USB, and LAN standards.

  A power supply block 5 supplies power to the authentication lock control block 3 and the system block 4.

  6 is a transmission / reception unit built in the controller 1 and performs wireless communication with the target 2; 7 is a communication control unit that controls the transmission / reception unit 6 that performs wireless communication with the target 2; Is a device authentication unit that authenticates whether the target 2 registered in the controller 1 matches based on information from the communication control unit 7, 9 is a transmission / reception unit that is built in the target 2 and performs wireless communication with the controller 1, 10 is a communication control unit that controls the transmission / reception unit 9 that performs wireless communication with the controller 1 and also controls on / off of the function of the lock system. 11 is a controller that is registered in the target 2 based on information from the communication control unit 10 1 may be a device authentication unit that authenticates whether or not 1 is the same, and 12 may be a distance greater than or equal to the setting based on information from the communication control unit 10 This is a detection unit that detects when communication is impossible, and 13 is an owner authentication unit that identifies the owner by combining with biometrics (a method for authentication of fingerprints, retinas, etc.) and a password. In this form, owner authentication is performed using both biometrics and a password, but authentication may be performed using only one of them. The means for authenticating is not limited to biometrics and passwords, and other means may be used. 14 is the system block 4 when communication is not established based on the information from the detection unit 12, when the device authentication of the device authentication unit 11 cannot be performed, or when the owner cannot be specified by the owner authentication unit 13. Controls startup and stops or erases the data in the startup block, and mechanically locks the storage unit (including removable memory cards) so that it cannot be removed or stored in the storage unit Lock control unit for erasing or encrypting data, and for controlling to stop communication with an external device or to stop power supply (for example, power is supplied in communication based on standards such as IEEE 1394 and USB) , 15 is a power supply unit A which is a first power supply unit mounted on the power supply block 5 for supplying power to the authentication lock control block 3, and in this embodiment, Getto and a detachable battery to the device. 16 is a system unit for controlling the activation and operation of the target 2, 17 is an accumulating unit for accumulating data under the control of the system unit 16 and for performing lock processing when receiving information from the lock control unit 14, 18 Is an external I / F control unit that communicates with the system unit 16 and controls devices connected to the outside, and 19 is a second power unit mounted on the power supply block 5 that supplies power to the system block 4. A certain power supply unit B includes a battery that can be attached to and detached from the target device in the present embodiment. Reference numeral 20 denotes a power source (button battery or the like) built in separately from the power source unit A15 and the power source unit B19. When the power source unit A15 and the power source unit B19 are not operating (such as when the battery is removed), the system unit 16 is activated and locked. Only the lock control of the control unit 14 is performed, and the power supply unit C is a third power supply unit that is charged by a battery supplied to the power supply unit A and the power supply unit B during normal operation.

  The operation of the device antitheft system configured as described above will be described with reference to FIG.

  First, the device anti-theft system of each of the controller 1 and the target 2 is turned on and put into operation. Next, in order to authenticate the owner, the owner authenticating unit 13 authenticates the target and the owner by a combination of biometrics and password. Next, communication is started by performing an authentication operation by the device authentication unit 8 of the controller 1 and the device authentication unit 11 of the target 2. The activation of the target 2 is executed when both the device authentication unit 11 and the owner authentication unit 13 are established or when one of them is established.

  When the authentication is established, the communication control unit 7 controls the transmission / reception unit 6 in parallel with the communication with the device authentication unit 8 to maintain the relationship with the target 2. Next, in parallel with the communication control unit 10 controlling the communication with respect to the transmission / reception unit 9, the relationship with the controller 1 is maintained in cooperation with the device authentication unit 11. In an environment where the authentication relationship is maintained between the controller 1 and the target 2, the target 2 performs normal operation.

  When the target 2 is taken outside, there is a case where the owner carries the controller 1 and puts the target 2 in a bag or the like. In this case, since the target 2 is turned off, the power supply B is supplied to the minimum necessary part. In the power supply block 5, only the power supply unit A is operated, and device authentication is continued between the authentication lock control block 3 and the controller 1.

  If the target 2 is stolen, either the distance between the transmission / reception unit 6 and the transmission / reception unit 9 exceeds the set distance or communication becomes impossible, and short-range communication becomes impossible. At that time, authentication between the device authentication unit 8 and the device authentication unit 11 becomes impossible. This information is received from the communication control unit 10 and the detection unit 12 determines that authentication is not possible. The lock control unit 14 stops the activation circuit of the system unit 16 or erases the program of the activation circuit upon receiving information that the detection unit 12 determines that the authentication is impossible. Next, regarding the storage unit 17, a mechanism lock is physically applied, or data stored in the storage unit 17 is erased or encrypted. Next, with respect to the external I / F control unit, control such as communication interruption is performed, or power supply is stopped. If the battery is removed by a thief, the power supply unit C, which consists of a built-in button battery, etc. controls only the lock control unit and the activation unit of the system unit to execute the mechanism lock and erase all data. To do.

  It should be noted that the mechanism lock may be configured so that it can be maintained even when the battery life of the power supply unit C has expired. Since the power supply unit A and the power supply unit B take over the power supply unit C when the battery is mounted again, it is impossible to release the lock control. In order to release the lock control, the controller 1 and the target 2 can be wirelessly communicated, and then the authentication is established between the device authentication unit 8 and the device authentication unit 11, or possessed by a combination of biometrics or a password. It is necessary to establish authentication in the person authentication unit 13.

  In addition, you may make it the structure that the authentication of both the apparatus authentication part 11 and the owner authentication part 13 was established. When the program of the activation circuit of the system unit 16 is erased in the state where the authentication is established, the system unit 16 is operated by reading from the ROM (read only memory) storing the same program.

  In the above description, the device anti-theft system for the controller 1 and the target 2 is turned on. However, when the controller 1 and the target 2 are moved to a position outside the specific area, the device anti-theft is forcibly prevented. The system may be turned on. In this case, there is a method in which a GPS function is mounted on the controller or target, the current position of the controller or target is grasped, and the movement outside the specific area is recognized. Moreover, a specific signal may be transmitted in a specific area, and communication may be performed between the controller 1 and the target 2 to forcibly turn on the device theft prevention system. In any case, whether or not the function for forcibly turning on the device anti-theft system is required is arbitrary, and the configuration for mounting is not limited to the above example.

  FIG. 2 is a diagram for mechanically locking a removable memory card in the storage unit 17 of the present invention. In FIG. 2, 2 in (a) is a target, 24 is a removable memory card, and 25 is a memory card 24. In a mobile device having a push-type take-out pin for take-out, (b) 26 is a lock pin that mechanically inserts the pin 26 into the lock hole 25a from the arrow position of (b) and fixes it. Composed. (C) And (d) is another example of the position which provided the lock pin.

  The operation of the device antitheft system locking method configured as described above will be described with reference to FIG.

  First, the push-type eject pin 25 is pushed into the target 2 with the memory card 24 inserted into the target 2. When the memory card is taken out, it is popped out by pushing the push-type take-out pin 25 into the target 2, so that the memory card 24 can be taken out by pushing it again. The above operation is mechanically performed in the direction of the arrow (a).

  In a situation where the memory card 24 is inserted and the push-type takeout pin 25 is inserted into the target 2, the lock pin 26 of (b) locks the push-type takeout pin 25 from the direction of the arrow according to a command from the lock control unit 14. It is inserted into the hole 25a and fixed. This operation physically makes it impossible to remove the memory card 24.

  In the above description, the position of the lock pin 26 in (b) has been described.

  Although the memory card has been described in the above description, a card having a storage function such as a hard disk card or a disk card may be used. In the above description, the slot for inserting the memory card 24 is described as one, but it may be configured by a slot into which a plurality of cards are inserted.

  FIG. 3 is a view for mechanically locking a memory card removable by the storage unit 17 of the present invention. FIG. 3 (a) is a perspective view showing the entire configuration of the target equipped with the lock mechanism, and FIG. 3 (b). Is a perspective view of the vicinity of the take-out pin 27 in FIG. 10A, FIGS. 10C to 10E are perspective views showing a configuration example for fixing the storage lever 28 using the lock pin 30, and FIGS. (H) is a perspective view showing a configuration example in which the takeout pin 27 is fixed using the lock pin 31. FIG. In addition, the same figure (b) and (c) is the same structure. In FIG. 3, 2 is a target, 24 is a removable memory card, 27 is a take-out pin for taking out the memory card 24, 28 is a take-out pin 27 popping out when the memory card 24 is stored as indicated by an arrow with a rotation axis. A storage lever that is folded into the target 2 and stored in the target 2, 27 a is a lock hole into which the lock pin 31 is inserted, 28 a is a lock hole into which the lock pin 30 is inserted, 29 is a rotary shaft that connects the take-out pin 27 and the storage lever 28, Reference numeral 30 is a lock pin for fixing the storage lever 28 for mechanically fixing the take-out pin 27, and 31 is a lock pin for fixing the take-out pin 27. In addition, the same figure (c)-(h) is an application example of the position of a lock pin and a lock hole.

  The operation of the device antitheft system locking method configured as described above will be described with reference to FIG. First, when the memory card 24 is inserted into the target 2, the take-out pin 27 is in a state in which the storage lever 28 protrudes from the target 2. The storage lever 28 is folded in the direction of arrow A in FIG. As for the removal of the memory card 24, the storage lever 28 is rotated in the direction indicated by the arrow in FIG. 3B by the rotation shaft 29 so as to be straight with the take-out pin 27, and the arrow in FIG. It has a configuration that can be realized by pushing in the c direction. In the case of this configuration, the lock pin 30 is inserted into the lock hole 28a as shown in FIG. In this embodiment, as a fixing method using a lock pin, in addition to the configuration shown in FIGS. 2B and 2C, the position of the lock hole 28a and the insertion direction of the lock pin 30 as shown in FIGS. A configuration in which the memory card 24 is made unusable by fixing the takeout pin 27 with the lock pin 31 as shown in FIGS.

  Although the position of the lock pin 30 as shown in (b) to (e) has been described in the above description, it may be installed at any position on the storage lever 28. In addition, although the position of the lock pin 31 as shown to (f)-(h) was demonstrated in the above description, as long as it is on the taking-out pin 27, you may install in any position. In addition, although the lock pin 30 and the lock pin 31 were demonstrated separately by the above description, you may mount both. Although the memory card has been described in the above description, a card having a storage function such as a hard disk card or a disk card may be used. In the above description, the slot for inserting the memory card 24 is described as one, but it may be configured by a slot into which a plurality of cards are inserted.

  FIG. 4 is a diagram that makes it impossible to remove the memory card by covering the slot of the memory card that can be removed by the storage unit 17 of the present invention. In FIG. Is a removable memory card, 35 is a cover for covering the memory card 24 mounted on the target 2, and 36 is a mobile device having a rotating shaft for attaching the cover 35 to the target 2. Reference numeral 37 denotes a lock pin for fixing the cover 35, (c) 38 denotes a fixing part for fixing the cover 35, and (d) 39 denotes an arrow shape attached to the target 2 by a part of the fixing part 38. A fixed part 40 is an arrow-shaped fixed part that is a part of the fixed part 38 and is attached to the target 2, and 41 is a part of the cover 35 that is an arrow-shaped lock part for fixing the cover 35 to the target 2. It is.

  The operation of the device antitheft system locking method configured as described above will be described with reference to FIG. First, when the memory card 24 is inserted into the target 2 as the operation (a), the cover 35 is closed with the rotation shaft 36 as a base point. It is equipped with a mechanism that can lock the rotating shaft 36 without it. (B) is configured so that the lock pin 37 can be mounted between the target 35 and the cover 35 without the rotary shaft 36, and when the lock command is issued from the lock control unit 14, the lock pin 37 causes the target 2 and the cover 2 to be covered. 35 is fixed so that the memory card 24 cannot be removed. (C) opens and closes the cover 35 by installing a fixed portion 38 between the target 35 and the cover 35 without the rotating shaft 36. (D) is an explanation of the structure of (c). Usually, the arrow-shaped lock part 41 is fixed and released by moving the arrow-shaped fixed part 39 and the arrow-shaped fixed part 40 as shown by the arrows to open and close the cover 35. Do. When a lock command is issued from the lock control unit 14, the arrow-shaped fixing unit 39 and the arrow-shaped fixing unit 40 fix the target 2 and the cover 35 in preference to the normal opening and closing, thereby making it impossible to remove the memory card 24. . In the above description, the position of the lock pin 37 in FIG. 7B has been described.

  In the above description, (d) the arrow-shaped fixing portion 39, the fixing portion 38 constituted by the arrow-shaped fixing portion 40 and the arrow-shaped locking portion 41 attached to the cover 35 are fixed. The shape of the fixed part is arbitrary. Although the memory card has been described in the above description, a card having a storage function such as a hard disk card or a disk card may be used. In the above description, the slot for inserting the memory card 24 is described as one, but it may be configured by a slot into which a plurality of cards are inserted.

  FIG. 5 is a diagram that makes it impossible to remove the memory card by covering the slot of the memory card that is removable by the storage unit 17 of the present invention. In FIG. Is a removable memory card, 42 is a cover for covering the memory card 24 mounted on the target 2, and 43 is a cover for opening the cover 42 by sliding in the direction of the arrow when the cover 42 is opened. In a mobile device having a slide portion for fixing 42 so that it does not come off, 44 in (b) is a lock pin for fixing the cover 42, 45 in (c) is a fixing portion for fixing the cover 42, (d ) 39 is an arrow-shaped fixing part that is a part of the fixing part 45 and is attached to the target 2, 40 is an arrow-shaped fixing part that is a part of the fixing part 45 and is attached to the target 2, and 46 is a cover. Constituted by the arrow-shaped locking portion for fixing the cover 42 to the target 2 in a part of the 5.

  The operation of the device anti-theft system locking method configured as described above will be described with reference to FIG. First, as the operation of (a), the slot portion for storing the memory of the target 2 is seen by pulling the upper portion of the cover 42 and sliding the slide portion 43 in the direction of the arrow, so that the memory card can be inserted. It has a mechanism that can be locked to this slide part. (B) is configured so that the lock pin 44 can be mounted between the slide portion 43 and the target 2, and when the lock command is issued from the lock control portion 14, the target 2 and the cover 42 are moved from the normal opening and closing by the lock pin 44. The memory card 24 is made unusable by preferentially fixing and preventing sliding. (C) controls the opening and closing of the cover 42 by installing a fixing portion 45 between the slide portion 43 and the target 2. (D) is an explanation of the structure of (c). Normally, the arrow-shaped locking part 46 is fixed and released by moving the arrow-shaped fixing part 39 and the arrow-shaped fixing part 40 as shown by the arrows, and the cover 42 is opened and closed. Do. When a lock command is issued from the lock control unit 14, the arrow-shaped fixing unit 39 and the arrow-shaped fixing unit 40 fix the arrow-shaped locking unit 46 in preference to the normal opening and closing, thereby making it impossible to remove the memory card 24. . In the above description, the position of the lock pin 44 in FIG. 5B has been described. However, the cover 42 may be installed at any position. Although it has been described that the fixing is performed by the arrow-shaped fixing portion 39 and the fixing portion 38 constituted by the arrow-shaped fixing portion 40 and the arrow-shaped locking portion 46 attached to the cover 35, the shape of the fixing portion is as follows. Is optional. Although the memory card has been described in the above description, a card having a storage function such as a hard disk card or a disk card may be used. In the above description, the slot for inserting the memory card 24 is described as one, but it may be configured by a slot into which a plurality of cards are inserted.

  FIG. 6 is a diagram that makes it impossible to remove the memory card by locking the removable memory card itself in the storage unit 17 of the present invention. In FIG. 6, 2 is a target, 24 is a removable memory card, Reference numeral 47 is a card fixing portion provided in the memory card itself, and 48 is a lock pin for fixing the memory card. Depending on the memory slot, there is a device that uses the card fixing unit 47 to fix the memory card 24, or there is a memory slot that is not used for fixing although the card fixing unit 47 is provided.

  The operation of the device antitheft system locking method configured as described above will be described with reference to FIG. First, when a lock command is issued from the lock control unit 14 with the memory card 24 inserted into the target 2, the lock pin 48 is inserted into the card fixing unit 47, thereby making it impossible to remove the memory card 24. If there is a device that fixes the memory card 24 by the card fixing unit 47, a lock command is issued from the lock control unit 14, and priority is given to the fact that the memory card 24 cannot be removed. In the above description, the card fixing part 47 may be installed in any part of the memory card, and a plurality of card fixing parts 47 may exist. In the above description, the memory card has been described. However, a hard disk card or a card having a storage function may be used.

  FIG. 7 is a diagram for mechanically locking a hard disk mounted on a mobile device by the storage unit 17 of the present invention. In FIG. 7, 2 in (a) is a target, 50 is a hard disk, and 51 is installed on the hard disk 50. In the mobile device provided with the hard disk fixing portion that is fixed to the target 2, (b) 52 is a lock pin for locking the hard disk fixing portion 51 to the target 2, and (c) 53 is the hard disk 50. A fixing bar for fixing the hard disk 50 so that it cannot be removed from the target. 54 in (d) is a fixing bar for fixing the hard disk 50 so that it cannot be removed from the target. 55 in (e) is fixed so that the hard disk 50 cannot be removed from the target. The fixing bar 56 is used to remove the hard disk 50 from the target. It is composed of a fixed bar to be fixed so as not to be removed.

  The operation of the device anti-theft system locking method configured as described above will be described with reference to FIG. First, when a lock command is issued from the lock control unit 14 in (b), the lock pin 52 is inserted into the hard disk fixing unit 52, and the hard disk 50 cannot be removed. When a lock command is issued from the lock control unit 14 in (c), the fixing bar 53 is installed in the take-out unit of the hard disk 50 to make it impossible to remove the hard disk 50. When a lock command is issued from the lock control unit 14 in (d), the fixing bar 54 is installed in the take-out unit of the hard disk 50 and makes it impossible to remove the hard disk 50. When a lock command is issued from the lock control unit 14 in (e), the fixing bar 55 and the fixing bar 56 are installed in the take-out unit of the hard disk 50, making it impossible to remove the hard disk 50.

  In the above description, the lock pins 52 in (b) have been described as being installed at all positions, but the number of lock pins may be arbitrary. In the above description, the fixing bar 53 of (c), the fixing bar 54 of (d), and the fixing bars 55 and 56 of (e) are described as one. However, a plurality of the fixing bars 53 and 56 may be provided. You may be comprised with the iron plate of an equivalent magnitude | size. In the above description, the single hard disk 50 is described. However, a plurality of hard disks may be used, and the fixing bar may be composed of more than the number of hard disks.

  As described above, according to the present embodiment, the activation of the target is stopped unless the recognition is permitted between the controller and the target, and the removal of the storage unit is mechanically impossible. By performing encryption, blocking communication with external devices, etc., it is possible to obtain the effects of security protection and prevention of unauthorized sales.

  The present invention communicates between a controller and a target and makes the target inoperable when both of them are separated by a predetermined distance. Various application examples can be considered for portable devices and mobile devices.

Block diagram of a device anti-theft system in Embodiment 1 of the present invention Configuration diagram for mechanically locking a removable memory card of the device anti-theft system in the first embodiment Configuration diagram for mechanically locking a removable memory card of the device anti-theft system in the first embodiment FIG. 2 is a configuration diagram that makes it impossible to remove a memory card by covering a slot of a removable memory card in the device theft prevention system according to the first embodiment. FIG. 2 is a configuration diagram that makes it impossible to remove a memory card by covering a slot of a removable memory card in the device theft prevention system according to the first embodiment. The block diagram which makes it impossible to take out a memory card by locking to the removable memory card itself of the device antitheft system in the first embodiment Configuration diagram for mechanically locking the hard disk of the device anti-theft system in the first embodiment Block diagram of a conventional anti-theft system

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Controller 2 Target 3 Authentication lock control block 4 System block 5 Power supply block 6 Transmission / reception part 7 Communication control part 8 Equipment authentication part 9 Transmission / reception part 10 Communication control part 11 Equipment authentication part 12 Detection part 13 Owner authentication part 14 Lock control part 15 Power supply A
16 System unit 17 Storage unit 18 External I / F control unit 19 Power supply unit B
20 Power supply C
24 Memory Card 25 Push-type Ejection Pin 26 Lock Pin 27 Ejection Pin 28 Storage Lever 29 Rotating Shaft 30 Lock Pin 31 Lock Pin 35 Cover 36 Rotating Shaft 37 Lock Pin 38 Fixed Portion 39 Arrow Shaped Fixed Portion 40 Arrow Shaped Fixed Portion 41 Arrow Shape Lock part 42 Cover 43 Slide part 44 Lock pin 45 Fixed part 46 Arrow shaped lock part 47 Card fixed part 48 Lock pin 50 Hard disk 51 Fixed part 52 Lock pin 53 Fixed bar 54 Fixed bar 55 Fixed bar 56 Fixed bar

Claims (39)

A controller that performs short-range wireless communication and detects whether the communication is within a set distance or communication with a target device by communication at regular or irregular intervals, and authenticates the device, and the operation and mechanism of the device that performs wireless communication with the controller A system block that controls the system and a system block that controls the operation of the device, storage of data, and communication with external devices as the configuration of the target, communicates with the controller, measures the distance from the controller, and communicates with the controller over a certain distance or communicates An authentication lock control block for detecting the impossibility and performing system block lock control and for device authentication and owner authentication, and a power supply block for managing the power of the system block and the authentication lock control block. A device anti-theft system. The controller includes a transmission / reception unit that transmits / receives to / from the target, a communication control unit that performs control related to communication including the transmission / reception unit, and device authentication that performs transmission / reception with the target and performs device authentication based on a signal from the communication control unit of the controller The device theft prevention system according to claim 1, further comprising a unit. The device theft prevention system according to claim 1, wherein the controller functions as a module mounted on a portable communication device. The authentication lock control block is configured to detect a transmission / reception unit that transmits / receives communication for authenticating a device with a controller, a communication control unit that performs control related to communication including the transmission / reception unit, and that a distance from the controller is a predetermined distance or more Alternatively, a detection unit that detects whether communication is possible by communication at irregular intervals, a device authentication unit that performs transmission / reception with the controller and performs device authentication by a signal of the target communication control unit, and an owner by biometrics and a password An owner authentication unit to be identified, a lock operation for locking the system block by the detection unit, and a lock control unit for performing an unlock operation by the device authentication unit and the owner authentication unit are provided. The device theft prevention system according to claim 1. The system block manages all operations of the target and locks the system block by a signal from the detection unit, a storage unit that performs lock control of stored data, and an external device that locks and controls communication with external devices. The device theft prevention system according to claim 1, further comprising an I / F control unit. 6. The device antitheft system according to claim 1 or 5, wherein the system unit is provided with lock control of operation of the device by stopping activation by a signal from the lock control unit. 6. The device theft prevention system according to claim 1, wherein the system unit erases the activation data of the system unit by a signal from the lock control unit. 6. The device antitheft system according to claim 1, wherein the storage unit is mechanically locked by a signal from the lock mechanism unit so that the storage unit cannot be removed. 6. The device theft prevention system according to claim 1, wherein the storage unit erases the stored data by a signal from the lock control unit. 6. The device theft prevention system according to claim 1, wherein the storage unit encrypts the stored data by a signal from the lock control unit. 6. The device theft prevention system according to claim 1, wherein the external I / F control unit cuts off communication with the external device by a signal from the lock control unit. 6. The device theft prevention system according to claim 1, wherein the external I / F control unit stops the power supply to the external device by a signal from the lock control unit. The power supply block includes a first power supply unit that supplies power to the authentication lock control block, a second power supply unit that supplies power to the system block, and a third power source that supplies power to the block that controls activation of the system unit. The device theft prevention system according to claim 1, further comprising a power supply unit. When the first power supply unit and the second power supply unit of the power supply block correspond to removable batteries, the system unit is not authenticated by the device authentication unit and the owner authentication even if it is intentionally removed. 14. The device antitheft system according to claim 1 or 13, wherein all data in a block for controlling the activation of the system unit is deleted by a built-in third power source unit. When the first power supply unit and the second power supply unit of the power supply block correspond to removable batteries, the system unit is not authenticated by the device authentication unit and the owner authentication even if it is intentionally removed. 14. The device theft prevention system according to claim 1, wherein the system unit is stopped by a built-in third power supply unit. When the first power supply unit and the second power supply unit of the power supply block correspond to removable batteries, the system unit is not authenticated by the device authentication unit and the owner authentication even if it is intentionally removed. 14. The device antitheft system according to claim 1, wherein the lock control operation is held by a built-in third power supply unit. When the first power supply unit and the second power supply unit of the power supply block correspond to removable batteries, the system unit is not authenticated by the device authentication unit and the owner authentication even if it is intentionally removed. 14. The device theft prevention system according to claim 1, wherein communication with the external I / F control unit is blocked by a built-in third power supply unit. When the first power supply unit and the second power supply unit of the power supply block correspond to removable batteries, the system unit is not authenticated by the device authentication unit and the owner authentication even if it is intentionally removed. 14. The device theft prevention system according to claim 1, wherein the power supply of the external I / F control unit is stopped by a built-in third power source unit. 5. Theft of a device according to claim 1 or 4, wherein activation data is supplied to enable activation of the system unit since data of a block for controlling activation is incorporated when authentication is established in the authentication lock control block. Prevention system. 5. The device theft prevention system according to claim 1, wherein the mechanical lock of the storage unit can be released when authentication is established by the authentication lock control block. 5. The device theft prevention system according to claim 1 or 4, wherein when the authentication is established by the authentication lock control block, the communication of the external I / F control unit is restored and the device can be operated. The device theft prevention system according to claim 1, wherein the controller and the target each have a configuration capable of controlling on / off of the device theft prevention system. The controller and the target are provided with a normal mode and an anti-theft mode when the device anti-theft system is on, respectively, by increasing the communication interval between the controller and the target in the normal mode and shortening the communication interval in the anti-theft mode. 2. The device theft prevention system according to claim 1, wherein the target is immediately locked even if it is stolen. The device anti-theft system according to claim 1, wherein the controller and the target are configured to forcibly set the anti-theft device to an anti-theft mode by turning on the respective device anti-theft systems when they leave any place. The device theft prevention system according to claim 1, wherein the target is a portable device equipped with a storage unit. The device theft prevention system according to claim 1, wherein the storage unit detachable by the lock control unit locks the take-out lever to make the take-out impossible. 2. The device theft prevention system according to claim 1, wherein in the case of a configuration in which the storage unit detachable by the lock control unit is covered, the cover is locked to make the removal impossible. The device theft prevention system according to claim 1, wherein the lock control unit performs control so that the data in the storage unit disappears and cannot be restored. 11. The device theft prevention system according to claim 8, 9, or 10, wherein the storage unit is a fixed hard disk. The device theft prevention system according to claim 8, 9, or 10, wherein the storage unit is a built-in memory. The device theft prevention system according to claim 8, 9, or 10, wherein the storage unit is a removable memory card. The device theft prevention system according to claim 8, 9, or 10, wherein the storage unit is a removable hard disk card. The device antitheft system according to claim 8, 9, or 10, wherein the storage unit is a hard disk. The device theft prevention system according to claim 8, 9, or 10, wherein the storage unit is a tape medium. The device theft prevention system according to claim 8, 9, or 10, wherein the storage unit is a disk medium. The device theft prevention system according to claim 1, wherein the lock control unit mechanically locks a portion prepared for fixing the hard disk to the target. 2. The device antitheft system according to claim 1, further comprising n lock bars (n = 1, 2, 3,...) For preventing the hard disk from being removed from the target by the lock control unit. In lock control, unlocking is performed when either the device authentication unit or the owner authentication unit can authenticate, or unlocking is performed when both the device authentication unit and the owner authentication unit are authenticated. The device theft prevention system according to claim 1 having a configuration to perform. 5. The device theft prevention system according to claim 1, wherein the owner authentication unit is configured to authenticate the owner with either biometrics or password, or to authenticate the owner with both biometrics and password. .

Images