JP2016089497A - Lock device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable unlocking by electronic authentication, without a power source such as commercial power supply or a battery.SOLUTION: A lock device includes a cylinder lock 101, a power generator 102, an authentication part 103, and an unlocking control part 104, and the authentication part 103 and the unlocking control part 104 are operated by electricity generated by the power generator 102. The authentication part 103 is started when supply of the electricity generated by the power generator 102 starts, reads out, through a short-distance radio communication, identification information stored in an IC chip in a key 121 of which an insertion shaft 122 is inserted into a key hole 107, and performs authentication by comparing identification information that has been read out with the stored identification information. Based on the authentication result by the authentication part 103, the unlocking control part 104 unlocks a dead bolt 108.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a lock device that can be unlocked by electronic authentication through short-range wireless communication.

  In order to restrict entry, it is important to provide a lock device on the door. In recent years, lock devices that perform an unlocking operation by combining not only a key but also an IC card have been developed. For example, an IC tag is incorporated in a key, and the key is inserted into and brought into contact with a lock device, so that transmission / reception with the IC tag is started and unlocking is possible, and unlocking is performed by rotating the key in this state. An electric lock has been developed (see Patent Document 1).

  In addition, an electric lock using user authentication by a user authentication device such as fingerprint authentication and non-contact IC chip authentication and an electric thumb turn has been developed (see Patent Document 2). In this technique, when the user is authenticated by the user authentication device, the unlocking is performed by the electric thumb turn.

JP 2004-250995 A JP 2009-203633 A

  However, in the electric lock combined with the above-described electronic authentication, electric power is required for the authentication and locking / unlocking operations, and for example, a commercial power supply or a battery is used. For this reason, in the case of a commercial power source, the operation cannot be performed at the time of a power failure, and in the case of a battery, the operation cannot be performed when the battery is exhausted, and the time for replacing the battery is generated.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to enable unlocking by electronic authentication without requiring a power source such as a commercial power source or a battery.

  A lock apparatus according to the present invention includes a rotary shaft provided rotatably on a lock box, a keyhole provided on the rotary shaft, and a cylinder lock having an electrically driven dead bolt, and interlocked with the rotation of the rotary shaft. The identification information stored in the IC chip provided on the key that rotates and generates power and the key that has the insertion shaft inserted in the keyhole is read by short-range wireless communication, and is stored as the read identification information. An authentication unit that performs authentication by comparing the authentication information with the authentication information, and an unlocking control unit that unlocks the deadbolt based on the authentication result of the authentication unit. The authentication unit, the unlocking control unit, and the deadbolt The authentication unit starts operation by starting to supply power generated by power generation by the generator.

  In the above-described lock device, the unlocking control unit unlocks the dead bolt based on the authentication result of the authentication unit when the dead bolt is in the locked state. Lock.

  As described above, according to the present invention, it is possible to obtain an excellent effect that unlocking can be performed by electronic authentication without requiring a power source such as a commercial power source or a battery.

FIG. 1 is a configuration diagram showing a configuration of a locksmith apparatus in an embodiment of the present invention. FIG. 2 is a flowchart for explaining an operation example of the lock-lock device in the embodiment of the present invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a configuration diagram showing a configuration of a locksmith apparatus in an embodiment of the present invention. The lock device includes a cylinder lock 101, a generator 102, an authentication unit 103, and an unlocking control unit 104.

  The cylinder lock 101 includes a rotation shaft 106 rotatably provided on the lock box 105, a key hole 107 provided on the rotation shaft 106, and an electrically driven dead bolt 108. For example, the dead bolt 108 is housed in a housing (not shown) in a state of being able to advance and retreat in the axial direction. In addition, by inserting the tip of the dead bolt 108 that has advanced in the axial direction into a fitting insertion hole (not shown) provided in a door frame (not shown) of a door (not shown) to which the lock device is attached, It will be locked.

  The generator 102 rotates in conjunction with the rotation of the rotating shaft 106 to generate power. The generator 102 is, for example, a dynamo in which a spinning wheel is incorporated, and the spinning wheel rotates by a rotation operation around the key shaft in which the insertion shaft is inserted into the key hole 107 to generate a power generation operation.

  The authentication unit 103 reads the identification information stored in the IC chip provided in the key 121 in which the insertion shaft 122 is inserted into the key hole 107 by known short-range wireless communication, and stores the identification information as the read-out identification information. Authentication is performed by comparing with existing authentication information. An antenna 111 arranged around the lock box 105 is connected to the authentication unit 103 and communicates with an IC chip built in the key 121 by transmitting and receiving radio signals by the antenna 111.

  The unlock control unit 104 unlocks the dead bolt 108 based on the authentication result of the authentication unit 103. When the deadbolt 108 is in the locked state, the unlocking control unit 104 unlocks the deadbolt 108 when the authentication unit 103 performs the authentication. Further, when the dead bolt 108 is in the unlocked state, the unlocking control unit 104 locks the dead bolt 108 when the authentication unit 103 performs the authentication. The unlocked state and the locked state can be identified by the position of the dead bolt 108. Further, the unlocking control unit 104 maintains the unlocked state or the locked state of the dead bolt 108 until the authentication unit 103 performs the authentication.

  In the lock device according to the embodiment, the authentication unit 103 and the unlocking control unit 104 are operated by the power generated by the power generation by the generator 102, and the authentication unit 103 supplies the power generated by the power generation by the power generator 102. The operation starts when it starts. For example, an IC (Integrated Circuit) chip constituting the authentication unit 103 and the unlocking control unit 104 can operate at about 100 to 200 mA, and operates sufficiently according to the generator 102 that can supply about 6 W of power. .

  The lock device also includes a thumb turn 112 that is linked to the rotation shaft 106 on the indoor side. Regardless of whether or not the authentication unit 103 performs authentication, the dead turn 108 can be advanced and retracted in the axial direction by artificially rotating the thumb turn 112, and can be changed to either the locked state or the unlocked state.

  Next, an operation example of the lock-lock device in the embodiment of the present invention will be described. First, when the rotating shaft 106 rotates in step S201, the generator 102 generates power in conjunction with this in step S202. The user inserts the insertion shaft 122 of the key 121 into the key hole 107 and tries to rotate the key 121. At this time, for example, if the dimple shape on the surface of the insertion shaft 122 matches the state of the tumbler on the cylinder lock 101 side, the key 121 rotates and the rotating shaft 106 rotates, and the generator 102 generates power. Be started.

  Next, in step S203, the authentication unit 103 starts operation, and the identification information stored in the IC chip provided in the key 121 in which the insertion shaft 122 is inserted in the key hole 107 is obtained by short-range wireless communication. read out. Next, in step S204, the authentication unit 103 compares the read identification information with the stored authentication information. As a result of this comparison, when the read identification information matches the stored authentication information and authentication is performed (y in step S204), the process proceeds to step S205. On the other hand, if the read identification information does not match the stored authentication information by the comparison, the operation is stopped and the process ends.

  If transfering it to step S205, the unlocking control part 104 will confirm that it is a locked state. If it is locked (y in step S205), the unlock control unit 104 unlocks the dead bolt 108 in step S206. On the other hand, in the unlocked state instead of the locked state (step S205: n), the unlocking control unit 104 locks the dead bolt 108 in step S207.

  As described above, according to the present invention, the authentication unit and the unlocking control unit are operated by the power generation of the generator by the rotation of the rotating shaft of the cylinder lock, and the dead bolt is unlocked. It can be unlocked by electronic authentication without requiring a power source such as a power source or a battery. Therefore, it is possible to reduce power consumption and to save power for a lock device using electronic authentication that functions all day throughout the year. Further, it can operate even during a power failure, and high safety can be secured.

  The present invention is not limited to the embodiment described above, and many modifications and combinations can be implemented by those having ordinary knowledge in the art within the technical idea of the present invention. It is obvious.

  DESCRIPTION OF SYMBOLS 101 ... Cylinder lock, 102 ... Generator, 103 ... Authentication part, 104 ... Unlocking control part, 105 ... Lock box, 106 ... Rotating shaft, 107 ... Keyhole, 108 ... Dead bolt, 111 ... Antenna, 112 ... Thumb turn, 121 ... key, 122 ... insertion shaft.

Claims (2)

A cylinder lock provided with a rotary shaft rotatably provided in the lock box, a key hole provided in the rotary shaft, and an electrically driven dead bolt;
A generator for generating electricity by rotating in conjunction with the rotation of the rotating shaft;
The identification information stored in the IC chip provided in the key with the insertion shaft inserted in the keyhole is read by short-range wireless communication, and authentication is performed by comparing the read identification information with the stored authentication information. An authenticator to perform,
An unlocking control unit for unlocking the deadbolt according to the authentication result of the authentication unit,
The authentication unit, the unlock control unit, and the dead bolt are operated by power generated by power generation by the generator,
The said authentication part starts operation | movement by the supply start of the electric power generated by the electric power generation by the said generator. The lock apparatus characterized by the above-mentioned. The lock device according to claim 1,
The unlocking control unit unlocks the deadbolt based on the authentication result of the authentication unit when the deadbolt is locked, and the deadbolt based on the authentication result of the authentication unit when the deadbolt is unlocked. A locking device characterized by locking a bolt.