JP2008025329A - Locking device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a locking device which carries out locking/unlocking by transmitting and receiving an unlocking cord and rewrites the unlocking cord per locking and/or unlocking. <P>SOLUTION: The locking device is provided with a key 10 having a storage means 11a storing the unlocking cord and first transceiving means 12, 13 which carry out transceiving work and a lock 20 having a microcomputer 21 carrying out the generation and storage of the unlocking cord and second transceiving means 22, 23 which carry out transceiving work. When the unlocking transmitted from the key 10 coincides with the unlocking cord written in the microcomputer 21, the locking/unlocking of the lock 20 is carried out. A new unlocking cord generated in the microcomputer 21 is transmitted to or received from the key 10 and is written in the storage means 11a of the key 10 in locking and/or unlocking. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a locking device that includes a key having a means for transmitting and receiving an unlocking code and a lock and that rewrites the unlocking code each time it is locked and / or unlocked.

  Keys and locks are widely used to prevent theft in safes, lockers, etc., and to prevent suspicious people from entering houses, condominiums, hotels, and the like. Conventionally, locking / unlocking has been performed by the shape of the key and the lock. However, there is a problem that when a key that is locked / unlocked according to its shape is duplicated, the key can be freely unlocked by the duplicate key.

  Therefore, electromagnetic keys that are given electromagnetic password information to the keys and are locked / unlocked based on the password information are becoming widespread. However, even a key that uses electromagnetic password information may be decrypted and copied. In particular, recently, there have been cases where a person who has moved uses the combined key created during his / her residence to commit a crime. Normally, when you move, the keys including the key are returned to the administrator, but since the number of keys created is based on the self-report of the resident, it is difficult to grasp the number. The whole has to be exchanged, which is very expensive.

  Japanese Patent Laid-Open No. 2002-206360 (Patent Document 1) includes an information storage unit that stores password information that proves authenticity, communicates with an external device, and stores password information written in the information storage unit. A key and lock system that is updated for each lock is disclosed. Specifically, when the key is inserted into the keyhole, the control computer of the lock system reads the information stored in the key information storage unit, and the read information is stored in the password information storage unit of the lock system. It is determined whether or not it matches the existing password information, and can be unlocked only when it matches. When the lock operation is performed, the control computer of the lock system generates the password information, updates the information stored in the key information storage unit with the generated password information, and stores the password stored in the password information storage unit. Update information. In such a lock system, it is necessary to insert the key into the keyhole and rotate it by itself. Also, if you have multiple locks like lockers, you can't tell at a glance which locker contains your luggage. In the key disclosed in Patent Document 1, the information storage unit is merely used as a storage unit and is not controlled by a microcomputer. The nature is low.

  Also, there are cases where a plurality of keys such as a home, a car, and a locker are required when going out, and it is troublesome to carry all these keys.

JP 2002-206360 A

  Accordingly, an object of the present invention is to provide a locking device capable of locking / unlocking by transmitting / receiving an unlocking code and rewriting the unlocking code for each locking and / or unlocking.

  Another object of the present invention is to provide a locking device in which a key has a unique ID code and can be locked / unlocked with a plurality of keys with respect to one lock.

  Still another object of the present invention is to provide a locking device in which a lock has a unique ID code and can handle a plurality of locks with a single key.

  As a result of earnest research in view of the above-mentioned purpose, the present inventor performs unlocking / unlocking by transmitting / receiving the unlocking code with the key and lock having the unlocking code creating / storing means and unlocking code transmitting / receiving means. The present inventors have found a locking device capable of preventing theft and intrusion of a house by rewriting an unlocking code for each locking and / or unlocking, and have arrived at the present invention.

That is, the present invention can be specifically achieved by the following means.
(1) Storage means for storing unlock code, key having first receiving means for transmitting / receiving unlock code and first transmission means, microcomputer for creating and storing unlock code, and unlock code A lock having second receiving means for transmitting and receiving and a second transmitting means, and transmitting the unlock code written in the key storage means to the lock and writing the unlock code written in the microcomputer When the two match, the lock / unlock of the lock is performed, and when unlocking and / or unlocking the lock, a new unlock code created by the microcomputer is A locking device, wherein the locking device transmits the data from the transmitting device to the first receiving device and writes the data in the storage device for the key.
(2) Storage means for storing ID code and unlock code, key having first receiving means and first transmission means for transmitting / receiving them, storage of ID code and creation and storage of unlock code And a lock having a second receiving means and a second transmitting means for transmitting and receiving them, and the ID code stored in the key storage means and the lock microcomputer to the lock and the key. When the lock code and the ID code of the key respectively match, the unlock code written in the key storage means is transmitted to the lock, and the unlock code and the microcomputer are written. When the unlock code is collated, when the two match, the lock / unlock of the lock is performed, and when unlocking and / or unlocking the lock, a new unlock code created by the microcomputer is Second Transmitted from the transmitting means to said first receiving means, locking device and writes in the memory means of said key.
(3) In the locking device according to (2), a plurality of the locks are provided, a unique ID code is stored in the microcomputer of each lock, and the key storage unit has a unique ID code. A locking device characterized in that an ID code is stored and a plurality of locks can be locked and unlocked with a single key.
(4) In the locking device according to the above (2) and (3), a plurality of the keys are provided, a unique ID code is stored in the storage means of each key, and the microcomputer of the lock has the above-mentioned A locking device characterized in that a unique ID code of a key is stored, so that a single lock can be locked and unlocked with a plurality of keys.
(5) In the locking device according to any one of (1) to (4), the first receiving unit is an optical sensor, and the second transmitting unit is a visible light emitting unit. Locking device to do.
(6) In the locking device according to any one of (1) to (5), the first transmission unit includes a transmission antenna, and the second reception unit includes a reception antenna. Locking device.
(7) In the locking device according to any one of (1) to (6), the key includes a convex transmission unit that is integrally provided so as to protrude from a side surface, and the transmission is included in the convex transmission unit. An locking device, wherein an antenna is provided, the lock has a concave receiving portion into which the convex transmitting portion can be inserted, and the receiving antenna is provided adjacent to the concave receiving portion.
(8) In the locking device according to any one of (5) to (7), when the unlocking code transmitted from the key matches the unlocking code written in the microcomputer, the visible light A locking device, wherein the light emitting means emits light.
(9) In the locking device according to any one of (7), the key includes a proximity switch adjacent to the convex transmission unit, the lock is adjacent to the concave reception unit, and is connected to the proximity switch. A magnet is provided at a corresponding position, and when the convex transmission unit is inserted into the concave reception unit, the proximity switch and the magnet come close to each other, and an unlocking code is transmitted from the first transmission unit. A locking device characterized by that.
(10) In the locking device according to any one of (1) to (9), a solenoid is provided on a side surface of the concave receiving unit, and a notch is provided at a corresponding portion of the convex transmitting unit 14. Thus, the locking device is characterized in that the key 10 does not move relative to the lock 20 during communication of the unlocking code.

  In the locking device of the present invention, the unlocking code is transmitted / received by the key and lock having the unlocking code creating / storing means and the unlocking code transmitting / receiving means, and the locking / unlocking is performed. By rewriting the unlocking code every time, it becomes possible to prevent theft and intrusion of the house.

  By providing the light emitting means in front of the lock, even when there are a plurality of locks such as lockers, the user's place can be easily visually confirmed. Further, by providing a unique code for each key and lock, a single key can be used for a plurality of different locks.

[1] Locking Device The locking device of the present invention will be described with reference to FIG. 1, but the locking device of the present invention is not limited to this shape. 1A shows the key 10 and FIG. 1B shows the lock 20. The key 10 includes a microcomputer 11, a first receiving unit 12, a first transmitting unit 13, and a push button 15. The first receiving means 12, the first transmitting means 13 and the push button 15 are each connected to the microcomputer 11, and the microcomputer 11 is provided with a storage means 11a for storing a rewritable unlocking code. Further, the key 10 is provided with a convex transmitter 14 integrally projecting from the main body, and in the convex transmitter 14, a transmission antenna 13a connected to the first transmitter 13 is provided.

  The lock 20 includes a microcomputer 21, a second receiving means 22, a second transmitting means 23, and a locking / unlocking mechanism 24. The second receiving means 22, the second transmitting means 23 and the locking / unlocking mechanism 24 are connected to the microcomputer 21, and the microcomputer 21 is provided with a storage means 21a for storing a rewritable unlocking code. Yes. Further, the lock 20 is provided with a concave receiving portion 25 into which the convex transmitting portion 14 can be inserted, and a receiving antenna 22a connected to the second receiving means 22 is provided adjacent to the concave receiving portion 25. . The storage means 11a of the key 10 and the storage means 21a of the lock 20 may store in advance an ID code (non-rewritable) for specifying the key 10 and lock 20 to be locked / unlocked.

  The unlock code written in the storage means 11a in the microcomputer 11 of the key 10 is transmitted from the antenna 13a of the first transmission means 13 of the key 10 and received by the antenna 22a of the second reception means 22 of the lock 20. Is done.

  The first receiving means 12 is an optical sensor and is provided on the side surface of the key 10 where the convex transmission section 14 is provided. The second transmitting means 23 is a visible light emitting means (particularly a visible light LED is preferred). And provided on the side surface of the lock 20 where the concave receiving portion 25 is provided. Thus, when the convex transmission unit 14 of the key 10 is inserted into the concave reception unit 25 of the lock 20, the first reception unit 12 and the second transmission unit 23 are close to each other, and the storage unit in the microcomputer 21 of the lock 20 The unlocking code written in 21a is transmitted from the second transmitting means 23 and received by the first receiving means 12 of the key 10 by the unlocking code. By using the visible light LED and the optical sensor, it is possible to realize the convenience and transmission of the unlocking code at a low cost.

  As described above, the first transmission / reception means 12 and 13 and the second transmission / reception means 22 and 23 realize bi-directional communication by radio wave and optical communication, and highly reliable data between the key 10 and the lock 20. Can be exchanged. Further, by using visible light for transmission of the unlocking code, the second receiving means 22 can be used for visible light, particularly when the locking device of the present invention is used for a plurality of lockers provided with the lock 20 at one place. By releasing, you can see at a glance which of your lockers.

  As a method for transmitting and receiving the unlocking code, in addition to the above-described methods, widely used communication means such as radio waves, visible light, infrared rays, sound waves, and magnetic fields can be used. Further, the unlocking code may be transmitted via a contact, and examples thereof include transmission / reception by a USB interface. Alternatively, a memory card having an insertion slot may be used as the storage means 11a, and data communication may be performed by inserting the insertion slot of the memory card into the lock 20.

  The microcomputer 11 controls the storage and transmission / reception of the unlocking code, and the microcomputer 21 creates and stores the unlocking code, transmits / receives the unlocking code, controls the locking / unlocking mechanism 24, and the like. The unlocking code is a code created by combining the time of locking, the number of times of locking, a random number, etc. from the viewpoint of security. By using an appropriate generation algorithm, one unlocking code can be used within a finite range for practical use. The code is preferably used only once with the key. If a code is created using only random numbers, the same code may be generated in a finite period. However, by creating a code by combining the random time with the time of locking, the number of times of locking, etc., the substantially same code Is never created. When the unlock code written in the microcomputer 21 and the unlock code transmitted from the key 10 match, the lock / unlock mechanism 24 operates and the lock 20 is unlocked. When the unlock code written in the microcomputer 21 and the unlock code transmitted from the key 10 do not match, the lock 20 is not unlocked.

  The storage means 11a, 21a is used for storing an unlocking code, an ID code, etc., and a storage medium that is normally widely used such as a magnetic material and an optical memory can be used, but a sufficient amount of information can be stored, It is preferable that the contents are electrically rewritten and the contents are retained even when the power is turned off, and EEPROM is particularly preferable.

  The locking / unlocking mechanism 24 is controlled by the microcomputer 21 and is preferably electromagnetically or mechanically locked / unlocked by a motor, solenoid, hydraulic piston, hydraulic piston, pneumatic piston or the like.

  It is preferable that a solenoid 26 is provided on a side surface of the concave receiving unit 25 and a notch 16 is provided at a corresponding portion of the convex transmitting unit 14. Thereby, it is possible to prevent the key 10 from moving with respect to the lock 20 during communication of the unlock code.

  An example in which the locking device of the present invention is used as a door key is shown in FIG. The lock 20 is installed on the door together with the door knob 30, and the convex transmitter 14 is connected to the concave receiver 25 so that the first receiver 12 of the key 10 and the second transmitter 23 of the lock 20 are close to each other. By inserting, locking / unlocking can be performed.

[2] Locking / Unlocking Method The locking / unlocking method of the locking device of the present invention will be described in detail below.

(a) Initial state Before the lock 20 is used for the first time, an unlock code is written in the storage means 21a in advance. Similarly, with respect to the key 10, in the initial state, nothing is written in the storage means 11a. For example, when the lock 10 is locked, the same unlock code as the unlock code written in the lock 20 is obtained. Write the lock code to the storage means 11a.

(b) Unlocking Method FIG. 3 is a flowchart showing the unlocking process of the key and the lock in the locking device of the present invention. First, push the push button 15 attached to the key 10 (process A). The unlock code written in the storage means 11a of the microcomputer 11 is transmitted from the first transmission means 13 (step B). When the transmitted unlock code is received by the second receiving means 22 of the lock 20, the microcomputer 21 of the lock 20 uses the received unlock code and the unlock code written in the storage means 21a of the microcomputer 21. Verify (Step C). When the unlock code matches, the visible light LED 23 blinks to indicate that the lock 20 is to be unlocked. If any of the unlock codes does not match, the visible light LED 23 does not flash (step D). The convex transmitter 14 of the key 10 is inserted into the concave receiver 25 of the lock 20. As a result, the optical sensor 12 and the visible light LED 23 are close to each other, and the antenna 13a of the first transmission means 13 and the antenna 22a of the second reception means 22 are close to each other, thereby enabling bidirectional communication (steps E and E). F). After the two-way communication is established, the lock / unlock mechanism 24 is operated by the microcomputer 21 of the lock 20 to bring the lock 20 into an unlocked state (step G).

(c) Locking Method FIG. 4 is a flowchart showing the locking process. First, the convex transmitter 14 of the key 10 is inserted into the concave receiver 25 of the lock 20 and the push button 15 attached to the key 10 is pressed (step A). When the unlocking code written in the storage means 11a of the microcomputer 11 is transmitted from the first transmitting means 13 and received by the second receiving means 22 of the lock 20, the microcomputer 21 of the lock 20 receives the unlocking code. The code and the unlocking code written in the storage means 21a of the microcomputer 21 are collated (step B). If the unlock codes match, the microcomputer 21 creates a new unlock code and writes it in the storage means 21a in the microcomputer 21 (step C). The new unlocking code is a code created by a combination of the time of locking, the number of times of locking, a random number, etc., and by using an appropriate generation algorithm, the key 10 can be used only within a finite range for practical use. The code can be used only once.

  The new unlock code written in the storage means 21a in the microcomputer 21 of the lock 20 is transmitted from the second transmission means 23 to the first reception means 12 of the key 10, and the microcomputer 11 of the key 10 stores the storage means 11a. (Process D). After the writing to the storage means 11a is confirmed, the microcomputer 21 operates the locking / unlocking mechanism 24 to bring the lock 20 into the locked state (steps E and F). The method for confirming writing to the storage means 11a is not particularly limited.For example, when the microcomputer 11 confirms that the data has been written to the storage means 11a, the confirmation is made from the first transmission means 13 via the second reception means 22. To the microcomputer 21.

(d) When the locking device is used as a locker The case where the lock 20 is used as a locker will be described in more detail with reference to FIG. In a station premises, etc., a plurality of lockers are usually installed at one place as shown in FIG. In such a case, you first checked the locker containing your baggage and then inserted the key. In the present locking device, an unlocking code is written in each lock 20 of the locker, and a unique ID code is written in each lock 20. By locking each key 10 in the initial state to each lock 20, the unique ID code of each lock 20 and the unlock code written in each lock 20 are written in each key 10.

  When the push button 15 of the key 10 in which the ID code and the unlock code are written is pressed, the unlock code of the key 10 is transmitted from the first transmission means 13, and the lock having the same ID code as the ID code of the key 10 is transmitted. Twenty second receiving means 22 receive. When the unlocking code written on the key 10 matches the unlocking code written on the lock 20, the visible light LED 23 on the lock 20 shines, so that the owner of the key 10 can see the location of his locker. can do.

  In addition to using it as a locker, for example, even if the location of the lock 20 is not clearly visible in the dark, such as in a warehouse, the location of the lock 20 can be found quickly by the visible light LED 23 of the lock 20 glowing. There is an advantage that can be.

(e) When there are multiple keys 10 for one lock 20 When there are multiple keys 10a, 10b, 10c ..., the lock 20 has multiple unique ID codes a, b, c ... And unlock codes a, b, c... Corresponding to the respective ID codes a, b, c. In addition, the initial keys 10a, 10b, 10c,... Have a unique ID code a, b, c, etc. and an unlock code a, b, c corresponding to the lock 20 by locking the lock 20 or the like. ... are written respectively.

  A specific locking / unlocking method will be described with reference to FIG. When locking the lock 20 using the key 10a, when the unlock code a and ID code a of the key 10a are transmitted to the lock 20 and match the unlock code a and ID code a written in the lock 20. A new unlocking code unlocking code a ′ is created, stored in the microcomputer 21 and transmitted to the key 10a, and then locked. Similarly, when locking the lock 20 using the key 10b, the unlock code b and ID code b transmitted from the key 10b match the unlock code b and ID code b written in the lock 20. At this time, a new unlocking code unlocking code b ′ is created, stored in the microcomputer 21 and transmitted to the key 10b, and then locked. By storing the unlock code for each key 10 in the microcomputer 21 of the lock 20 in this way, the unlock code corresponding to the ID code of each key 10 can be rewritten at the time of locking / unlocking. Therefore, a plurality of keys 10 can be used for one lock 20.

  In the above-described locking / unlocking method, the unlocking code is rewritten only at the time of locking. However, the locking device of the present invention is not limited to this, and the unlocking code may be rewritten at the time of unlocking. The unlocking code may be rewritten at any time of unlocking. By rewriting the unlocking code even when unlocking, even if the key is duplicated when going out, the unlocking code changes once the user goes home, and the lock is not unlocked with the duplicated key.

(e) When there are a plurality of keys 10 and locks 20 respectively As shown in FIG. 7, the lock device of the present invention is locked with a plurality of keys 10a, 10b,. -Key unlock can also be performed. The locks 20a, 20b,... Each have a unique ID code A, B,..., And the keys 10a, 10b,. In the initial state, the lock 20a stores the ID codes a, b,... Of the keys 10a, 10b... And the corresponding unlock codes Aa, Ab,. Stores the ID codes a, b,... Of the keys 10a, 10b... And the corresponding unlock codes Ba, Bb... The unlock code is stored. In the initial state, the key 10a stores ID codes A, B,... Of the locks 20a, 20b... And the corresponding unlock codes Aa, Ba. 20a, 20b ... ID codes A, B ... and the corresponding unlock codes Ab, Bb ... are stored, and the other keys have the same ID code and unlock. The code is memorized. The structure of the keys 10a, 10b,... Is the same as that of the key 10 described above, and the structure of the locks 20a, 20b,.

  As an example of the unlocking process, a flowchart showing a process of unlocking the lock 20a with the key 10a is shown in FIG. First, the push button 15 attached to the key 10a is pressed, and the ID code a written in the storage means 11a of the microcomputer 11 is transmitted from the first transmission means 13 (steps A and B). When the transmitted ID code a is received by the second receiving means 22 of the lock 20a, it is determined whether or not it matches any of the ID codes of the key 10 stored in the lock 20a (step C). If the ID codes match (the ID code a of the key 10a is stored in the lock 20a), the visible light LED 23 blinks to indicate that the lock 20a is to be unlocked (step D). If none of the ID codes match, the visible light LED 23 does not blink. The convex transmitter 14 of the key 10a is inserted into the concave receiver 25 of the lock 20a. As a result, the optical sensor 12 and the visible light LED 23 are close to each other, and the antenna 13a of the first transmission unit 13 and the antenna 22a of the second reception unit 22 are close to each other, thereby enabling bidirectional communication (step E). . After establishing the two-way communication, the lock 20a ID code A is transmitted by optical communication by blinking the visible light LED 23, and it is determined whether or not it matches the ID code of the lock 20a registered in the key 10a (step F). ). When a match with the ID code A of the lock 20a is recognized, an unlock code Aa corresponding to the ID code A of the lock 20a is transmitted from the key 10a (step G). When the unlock code Aa transmitted from the key 10a matches the unlock code corresponding to the ID code a stored in the lock 20a (when the unlock code Aa is stored in the lock 20a) The lock 20a is unlocked (steps H and I).

  FIG. 9 is a flowchart illustrating an example of the locking process. First, the convex transmitter 14 of the key 10a is inserted into the concave receiver 25 of the lock 20a, the push button 15 attached to the key 10a is pressed, and the ID code a of the key 10a is transmitted to the lock 20a (step A). In this state, since the key 10a and the lock 20a are close to each other, bidirectional communication becomes possible. The ID code a of the key 10a is collated with the ID code written in the lock 20a, and the ID code A of the lock 20a is transmitted and collated with the ID code written in the key 10a (step B). If the ID codes A and a match each other, the key 10a transmits the unlock code Aa corresponding to the ID code A to the lock 20a (steps C and D). If the unlock code Aa matches, the microcomputer 21 creates a new unlock code Aa ′, writes it to the storage means 21a in the microcomputer 21, transmits it to the key 10a, and writes it to the storage means 11a of the key 10a. (Process E, F, G). After the writing to the storage means 11a is confirmed, the lock 20a is locked (steps H and I).

  An example of use of a lock device in which a plurality of keys 10 and lock 20 are provided with unique ID codes is shown below. Parts, chemicals, etc. used in various manufacturing sites are each stored in a case with a lock 20 attached, and only the lock 20 of a case (usually multiple) containing parts, chemicals, etc. necessary for manufacturing a product The ID code a of the key 10a is stored, and the unique ID code of the lock 20 is stored in the key 10a. As a result, when the ID code a is transmitted from the key 10a, only the visible light LED 23 of the lock 20 of the case in which the necessary parts and medicines are stored blinks, and the necessary parts and medicines can be quickly found. You can prevent selection mistakes and missing items. Similarly, by storing the ID codes b, c ... of the keys 10b, 10c ... in the lock 20 of the case containing the parts, chemicals, etc. necessary for the manufacture of other products, various products It can correspond to.

  In the example described above, each key 10 and lock 20 has an unlock code and a unique ID code. However, the present invention is not limited to this, and the ID code of each key 10 and lock 20 is included in the unlock code. A code portion corresponding to may be provided.

[3] Another Embodiment FIG. 10 shows a locking device according to another embodiment of the present invention. The parts common to the locking device of FIG. The key 100 is the same as the key 10 of FIG. 1 except that there is no push button 15 and a proximity switch 17 is provided between the convex transmitter 14 and the first receiver 12. The lock 200 is common to the lock 20 of FIG. 1 except that a magnet 27 is provided between the concave receiver 25 and the second transmitter 23.

  In the locking device shown in FIG. 10, by inserting the convex transmission part 14 of the key 10 into the concave reception part 25 of the lock 20, the proximity switch 17 comes close to the magnet 27 and the proximity switch 17 senses the magnet 27. Accordingly, the microcomputer 11 of the key 10 transmits the unlock code. As a result, only by inserting the convex transmission part 14 of the key 10 into the concave reception part 25 of the lock 20 without using a push button, the transmission / reception of the unlocking code and the locking / unlocking operation can be performed.

  FIG. 11 shows a lock 201 of a locking device according to yet another embodiment of the present invention. Parts that are the same as those of the lock 20 in FIG. The lock 201 is common to the lock 20 of FIG. 1 except that the concave receiving portions 250 and 251 are provided on the opposing surfaces. FIG. 11 shows a case where the lock 201 is used for a door, where the concave receiving unit 250 faces the outdoors and the concave receiving unit 251 faces the indoors.

  By providing the concave receivers on both the indoor and outdoor surfaces of the door, bidirectional communication between the key 10 and the lock 20 is possible even when locking from the indoor side of the door. As a result, the unlocking code can be rewritten while the door is locked indoors, and the lock 20 is not unlocked even if the key 10 is copied when the door is out.

1 shows a locking device according to an embodiment of the present invention, in which (a) is a schematic diagram showing a key, and (b) is a schematic diagram showing a lock. It is a figure which shows the case where the locking device of this invention is used for a door. It is a flowchart which shows the unlocking method. It is a flowchart which shows the locking method. It is a figure which shows the case where the locking device of this invention is used as a locker. It is a figure which shows an example of the usage method of the locking device of this invention. It is a figure which shows another example of the usage method of the locking device of this invention. It is a flowchart which shows the unlocking method. It is a flowchart which shows the locking method. FIG. 4 shows a locking device according to another embodiment of the present invention, wherein (a) is a schematic diagram showing a key, and (b) is a schematic diagram showing a lock. It is a schematic diagram which shows the lock of the locking device which is another Example of this invention.

Explanation of symbols

10, 10a, 10b, 100 ... key
20, 20a, 20b, 200, 201 ... lock
11 ... Microcomputer
11a ・ ・ ・ Storage means
12: First receiving means
13. First transmission means
13a: Transmitting antenna
14 ... Convex transmitter
15 ... Push button
16 ...
17 ... Proximity switch
21 ... Microcomputer
21a ・ ・ ・ Storage means
22 ... Second receiving means
22a ・ ・ ・ Receiving antenna
23 ... Second transmission means
24 ・ ・ ・ Locking / unlocking mechanism
25, 250, 251 ... concave receiver
26 Solenoid
27 ・ ・ ・ Magnet
30 ... Door knob

Claims (10)

Storage means for storing unlocking code, key having first receiving means and first transmitting means for transmitting / receiving unlocking code, microcomputer for creating and storing unlocking code, and transmitting / receiving unlocking code A lock having a second receiving means and a second transmitting means, and transmitting the unlock code written in the key storage means to the lock and collating it with the unlock code written in the microcomputer. When the two coincide with each other, the locking / unlocking of the lock is performed, and when unlocking and / or unlocking the lock, a new unlocking code created by the microcomputer is sent from the second transmitting means. A locking device, wherein the locking device transmits to the first receiving means and writes to the key storage means. A storage means for storing an ID code and an unlocking code; a key having a first receiving means and a first transmitting means for transmitting and receiving them; a microcomputer for storing the ID code and creating and storing the unlocking code; And a lock having second receiving means for transmitting and receiving them and a second transmitting means, and transmitting the ID code stored in the key storage means and the microcomputer of the lock to the lock and the key, respectively. When the lock code and the ID code of the key respectively match, the unlock code written in the key storage means is transmitted to the lock, and the unlock code and the unlock code written in the microcomputer When the two match, the lock / unlock of the lock is performed, and when the lock is locked and / or unlocked, a new unlock code created by the microcomputer is of Transmitted from the signal means to the first receiving means, locking device and writes in the memory means of said key. 3. The locking device according to claim 2, wherein a plurality of the locks are provided, a unique ID code is stored in the microcomputer of each lock, and the unique ID code of the lock is stored in the key storage means. A locking device characterized in that a plurality of locks can be locked and unlocked with a single key. 4. The locking device according to claim 2, wherein a plurality of the keys are provided, a unique ID code is stored in each key storage means, and a unique ID code of the key is stored in the lock microcomputer. Is stored, and can be locked and unlocked with a plurality of keys for one lock. 5. The locking device according to claim 1, wherein the first receiving means is an optical sensor and the second transmitting means is a visible light emitting means. 6. The locking device according to claim 1, wherein the first transmission unit includes a transmission antenna, and the second reception unit includes a reception antenna. The locking device according to any one of claims 1 to 6, wherein the key has a convex transmission part that is integrally provided so as to protrude from a side surface, and the transmission antenna is provided in the convex transmission part. The locking device has a concave receiving part into which the convex transmitting part can be inserted, and the receiving antenna is provided adjacent to the concave receiving part. 8. The locking device according to claim 5, wherein the visible light emitting means emits light when an unlocking code transmitted from the key matches an unlocking code written in the microcomputer. Locking device characterized by. 8. The locking device according to claim 7, wherein the key includes a proximity switch adjacent to the convex transmission unit, and the lock includes a magnet adjacent to the concave reception unit and corresponding to the proximity switch. When the convex transmitter is inserted into the concave receiver, the proximity switch and the magnet come close to each other, and the unlocking code is transmitted from the first transmitter. . The locking device according to any one of claims 1 to 9, wherein a solenoid is provided on a side surface of the concave receiving portion, and a notch is provided at a corresponding portion of the convex transmitting portion 14, thereby A locking device that prevents the key 10 from moving relative to the lock 20 during communication of the lock code.

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