WO2009117855A1

WO2009117855A1 - Powerless electric locking device and control method thereof

Info

Publication number: WO2009117855A1
Application number: PCT/CN2008/000697
Authority: WO
Inventors: 林岱右
Original assignee: Lin Dai-You
Priority date: 2008-03-28
Filing date: 2008-04-07
Publication date: 2009-10-01
Also published as: CN101545337A

Abstract

A powerless electric locking device includes at least a portable devices (10) and many sets of electric locks (20). One electric lock (20) is provided in each of file cabinets, each electric lock (20) possesses different identification code, identification code corresponding to the code in the lock (20)is provided in a database (30). A control method of the powerless electric locking device includes the following steps: the portable device (10) gets corresponding identification code from the database (30), then contacts or noncontacts the electric lock (20) in the file cabinet and supplies power to the electric lock (20), finally the portable device (10) transmits the stored identification code to the electric lock (20). The electric lock (20) will be opened if the identification code in the portable device (10) is identical to which in the electric lock (20). The electric lock is normally powerless and can reduce the electric energy consumption.

Description

Electric type electric lock and control method thereof

Technical field

The present invention relates to a lock that is manipulated or controlled using non-mechanical means, and more particularly to an electroless type electric lock. The invention also relates to a method of controlling the electroless type electric lock. Background technique

In the past, the lock was opened by physical means, such as using a key to open, or rotating the password ring and pressing the password button to open, and later developed a lock that is activated by induction, in which the wireless identification system (RFID) Technology is one of them. This technology is to provide an inductive label on a carry-on item such as a card, and to supply the current of the inductive label. One of them is to set a power source in the item to directly supply the inductive label current. The induction tag is sensed by the sensing device, and the other is to provide a coil in the article, and the coil is also provided with a current through the induction device, and the coil in the sensing device generates a magnetic field due to the current, when the sensing tag approaches the sensing device, According to Faraday's law, the coil in the inductive tag is cut by the magnetic field of the sensing device to generate a current, which can be used by the inductive tag to sense with the sensing device. When the sensing is generated, the electric lock connected to the sensing device can be turned on. The electric lock will re-lock after a period of time. , It was found to be a wired or wireless manner is supplied to turn on the induced electric current tag technology has been developed lock.

However, as can be seen from the foregoing, the inductively activated lock must be energized. If there are ten locks, ten induction devices must be energized. If there are one hundred locks, one hundred inductions must be applied. When the device is energized, the power consumed is very considerable, and even if the sensing device does not operate with the sensing tag, the power will continue to be used, resulting in unnecessary waste of energy. Moreover, the design must be continuously powered, that is, the wire must be electrically conductive. In order to increase the construction work and cost of the overall cable, there is a need for improvement. Summary of the invention

The technical problem to be solved by the present invention is to provide an electroless type electric lock component, which can reduce the power supply structure setting of the electric lock and the cabinet body, thereby achieving the purpose of simplifying the structure and reducing the cost. To this end, the present invention also provides a method of controlling the electroless type electric lock. In order to solve the above technical problem, the technical solution of the electroless type electric lock component of the present invention comprises: a plurality of portable devices and a plurality of electric locks, wherein the portable device has a power source and a read/write sensing unit connected to each other. The power supply is used by the portable device. The read/write sensing unit stores an authentication code. The electric lock has a storage sensing unit and an action unit connected to each other. The storage sensing unit and the read/write sensing unit can be connected to each other. Transmit and receive the signal, the storage sensing unit can store a comparison authentication code, and the storage sensing unit can also generate a new comparison authentication code, and the action unit can control the opening and closing of the electric lock.

The technical effects that can be achieved by the present invention are:

The portable electric power supply is supplied by a portable device, and the electric lock is activated after being supplied with power, and the electric lock is integrally provided with the file cabinet or the filing cabinet, so that the lock structure on the cabinet is simplified, and the The power supply can generate electricity with the portable device to reduce the power supply structure of the electric lock and the cabinet, thereby simplifying the structure and reducing the cost.

The technical solution of the control method of the electroless electric lock of the invention is:

The authentication code of the portable device and the power of the power source are transmitted to the storage sensing unit of the power lock, wherein the authentication code can be compared with the comparison authentication code stored in the storage sensing unit. If the two match, the storage sensing unit controls the action unit to turn on the electric lock. If the authentication code in the read/write sensing unit does not match the comparison authentication code of the storage sensing unit, the electric lock remains locked. .

Further, the technology that the storage sensing unit and the read/write sensing unit transmit and receive signals to each other may use wireless inductive transmission, or a transmission connector may be disposed on the portable device, and the transmission connector is connected to the read/write sensing unit. And a transmission socket is disposed in the electric lock, the transmission socket is connected to the storage sensing unit, and the transmission connector and the transmission socket cooperate with each other;

When the transmission connector is connected to the transmission socket, the power of the power source of the portable device and the authentication code of the read/write sensing unit can be transmitted to the storage sensing unit through the transmission connector via the transmission connector.

After the electric lock is turned on, a new comparison authentication code is generated by the storage sensing unit and stored, and the comparison authentication code is transmitted to the read/write sensing unit of the portable device for storage to become a new authentication code. The transmission method is also as described above, and may be wireless inductive transmission, or transmitted to the read/write sensing unit via the transmission connector and the transmission socket.

The technical effect that can be achieved by the present invention is - While using the portable device to supply the electric lock power supply, the authentication code of the portable device is transmitted to the electric lock for comparison, and the electric lock is opened when the device is in compliance with the electric lock, and the lock is maintained, thereby achieving the purpose of safety. DRAWINGS

The present invention will be further described in detail with reference to the accompanying drawings and specific embodiments. FIG. 1 is a schematic diagram of a portable device transmitting electrical energy and an authentication code to an electric lock according to an embodiment of the present invention; FIG. 2 is a schematic diagram of an electric lock being opened and transmitted in the embodiment of the present invention. Schematic diagram of the authentication code to the portable device;

3 is a schematic diagram of the portable device stopping transmission of electric energy and electrically locking the lock according to the embodiment of the present invention; FIG. 4 is a schematic diagram showing the addition of a transmission joint of the portable device and the addition of the transmission socket of the electric lock according to the embodiment of the present invention;

5 is a schematic diagram of a portable device transmitting power and an authentication code to an electric lock via a transmission connector and a transmission socket according to an embodiment of the present invention;

6 is a schematic view of the transmission connector removed from the transmission socket according to an embodiment of the present invention;

7 is a schematic diagram of a portable device transmitting an authentication code to a database and storing it according to an embodiment of the present invention;

8 is a schematic diagram of the electric lock transmitting a plurality of authentication codes and a comparison authentication code to a database and storing the same according to an embodiment of the present invention;

FIG. 9 is a schematic diagram of a portable device reading an authentication code from a database according to an embodiment of the present invention. In the figure, 10 portable devices, 11 power supplies, 12 read/write sensing units, 20 electric locks, 21 storage sensing units, 22 action units, 23 display units, 13 transmission connectors, 24 transmission sockets, 30 databases. detailed description

As shown in FIG. 1 to FIG. 3, the electroless electric lock of the present invention comprises:

A portable device 10 has a power source 11 and a read/write sensing unit 12, the power source 11 is connected to the read/write sensing unit 12, and the power source 11 is supplied to the portable device 10 for operation. The read/write sensing unit 12 stores an authentication code. The read/write sensing unit 12 can transmit the authentication code and the power of the power source 11 outward; An electric lock 20 is disposed on a cabinet of a filing cabinet or a filing cabinet to control opening and closing of the cabinet; and the electric lock 20 has a storage sensing unit 21, an action unit 22 and a display unit 23, and stores the sensing The unit 21 is connected to the action unit 22 and the display unit 23, and the storage sensing unit 21 senses and receives the authentication code and power transmitted by the read/write sensor unit 12, and the storage unit. 21 and can drive the action unit 22 and the display unit 23 to operate, the storage sensing unit 21 can store a comparison authentication code, the storage sensing unit 21 can also generate a new comparison authentication code, and the storage sensing unit 21 can also generate a new comparison authentication. The code is transmitted to the read/write sensing unit 12 of the portable device 10 for storage, and the action unit 22 is used to control the opening and closing of the electric lock 20, and the display unit 23 can emit light.

The control method of the electroless type electric lock component of the present invention is first shown in FIG. 1. The read/write sensing unit 12 of the portable device 10 and the storage sensing unit 21 of the electric lock 20 sense, read and write the sensing unit 12 and store the sensing unit. 21 transmission of the authentication code and the power of the power source 11 (where the technology for wirelessly transmitting power has been developed and proven to be practicable, using a magnetic field change of electromagnetic induction between the two coils to generate a current, and causing the two coils to resonate at the same frequency to generate a powerful The electromagnetic field, in this way, can increase the transmission rate of the electric energy between the two coils, and achieve the purpose of wirelessly transmitting the electric energy. The storage sensing unit 21 drives the display unit 23 with the electric energy after receiving the electric energy and the authentication code of the read/write sensing unit 12. Illuminating, letting the user know that the electric lock 20 has received the electric energy, storing the sensing unit 21 and comparing the stored authentication code with the authentication code of the read/write sensing unit 12;

If the two match, as shown in FIG. 2, the storage sensing unit 21 drives the action unit 22 to control the power lock 20 to be turned on, and the storage sensing unit 21 regenerates a new comparison authentication code and stores it. The storage sensing unit 21 will Transmitting a new comparison authentication code to the read/write sensing unit 12 of the portable device 10 to store a new authentication code;

When the authentication code of the read/write sensing unit 12 does not match the comparison authentication code of the storage sensing unit 21, the storage sensing unit 21 does not drive the action unit 22, and the electric lock 20 does not open; and the portable device 10 When the read/write sensing unit 12 stops sensing with the storage sensing unit 21 of the electric lock 20, as shown in FIG. 3, the read/write sensing unit 12 simultaneously stops the power supply to the power supply 11 to the storage sensing unit 21, and the storage sensing unit 21 stops. The operation unit 22 and the display unit 23 are driven, and the operation unit 22 stops controlling the electric lock 20 to lock the electric lock 20, and the display unit 23 stops emitting light.

In addition, as shown in FIG. 4, the portable device 10 may further include a transmission connector 13 and a transmission connector. 13 is connected to the read/write sensing unit 12, the electric lock 20 is additionally provided with a transmission socket 24, the transmission socket 24 is connected to the storage sensing unit 21, and the transmission joint 13 and the transmission socket 24 are matched with each other;

The control method is as shown in FIG. 5, the transmission connector 13 is inserted into the transmission socket 24 to connect the two, and the power of the power source 11 and the authentication code of the read/write sensing unit 12 are transmitted through the transmission connector 24 via the transmission connector 14. To the storage sensing unit 21, the storage sensing unit 21 drives the display unit 23 to emit light and perform an comparison of the authentication codes. If the driving operation unit 22 turns on the electric lock 20, if not, the action unit 22 is not driven, and the action unit is not driven. After the electric lock 20 is turned on, the storage sensing unit 21 also regenerates a new comparison authentication code and stores it, stores the sensing unit 21 and transmits the new comparison authentication code to the read/write sensing via the transmission socket 24 and the transmission connector 13. Unit 12 is stored as a new authentication code;

When the transmission connector 13 is pulled out from the transmission socket 24, as shown in FIG. 6, the power of the power source 11 is stopped from being supplied to the storage sensing unit 21, and the storage sensing unit 21 stops the driving operation unit 22 and the display unit 23, and the action unit 22, the electric lock 20 is stopped and the electric lock 20 is blocked, and the display unit 23 stops emitting light.

In addition, as shown in FIG. 7, the portable device 10 can also be connected to a database 30, and the portable device 10 transmits the authentication code in the read/write sensing unit 12 to the database 30 for storage. The portable device 10 reads the authentication code from the database 30, and is used to open the electric lock 20 that matches the authentication code;

Or, as shown in FIG. 8, a power lock 20 is connected to the database 30, and a plurality of authentication codes for storing the sensing unit 21 in the electric lock 20 are stored in the database 30, and the database 30 stores the storage sensing unit synchronously. 21, the comparison authentication code, when the electric lock 20 is to be turned on, as shown in FIG. 9, a portable device 10 is connected to the database 30, and the comparison authentication code is read by the database 30, and the comparison authentication code is carried again. The read/write sensing unit 12 of the type device 10 is stored as an authentication code, so that the portable device 10 can be used to turn on the electric lock 20.

Claims

Rights request

1. An electroless type electric lock, characterized in that:

At least one portable device having a power source connected to each other and a read/write sensing unit, wherein the power source is used by the portable device, and an authentication code is stored in the read/write sensing unit;

At least one electric lock, which has a storage sensing unit and an action unit connected to each other, the action unit can control the opening and closing of the electric lock, and the storage sensing unit can transmit and receive signals to and from the read/write sensing unit The read/write sensing unit can transmit the authentication code and the power of the power to the storage sensing unit, and the storage sensing unit can store a comparison authentication code, and the storage sensing unit can also generate a new comparison authentication code.

2. The electroless type electric lock according to claim 1, wherein: the read/write sensing unit of the portable device transmits the authentication code and the power of the power source to the outside of the power supply. The storage sensing unit can sense and receive the authentication code and power transmitted by the read/write sensing unit.

3. The electroless type electric lock according to claim 1, wherein: the portable device is further provided with a transmission connector, the transmission connector is connected to the read/write sensing unit, and the electric lock is further provided with a a transmission socket, the transmission socket is connected to the storage sensing unit, the transmission connector cooperates with the transmission socket, and the transmission connector is connected to the transmission socket, the authentication code of the read/write sensing unit and the power of the power source The transmission sensing unit can be transmitted via the transmission connector and the transmission socket.

4. The electroless type electric lock according to claim 1, wherein: the electric lock is further provided with a display unit, the display unit is connected to the storage sensing unit, and the display unit is subjected to the storage. The sensing unit controls and emits light.

5. The method of controlling an electroless type electric lock according to claim 1, wherein: the authentication code of the portable device and the power of the power source are transmitted by the read/write sensing unit of the portable device. The storage sensing unit of the electric lock, wherein the authentication code can be compared with the comparison authentication code stored by the storage sensing unit, and the storage sensing unit controls the action unit to open the electric lock, and does not comply with the electric lock. Keep locked.

The control method of the electric-less electric lock according to claim 5, wherein: after the electric lock is opened, the storage sensing unit generates a new comparison authentication code and stores the storage sensing unit. The new comparison authentication code is transmitted to the read/write sensing unit of the portable device to be stored as a new authentication code.

7. The method of controlling an electroless type electric lock according to claim 5, wherein: when the read/write sensing unit of the portable device stops supplying power of the power source to the storage sensing unit, the storage sensing unit The driving of the action unit is stopped and the control of the electric lock is stopped, and the electric lock is locked.

The control method of the electric-less electric lock according to claim 5, wherein: the read/write sensing unit of the portable device senses with the storage sensing unit of the electric lock, and the read/write sensing unit The sensing method transmits an authentication code and power to the storage sensing unit.

9. The method of controlling an electroless type electric lock according to claim 5, wherein - the read/write sensing unit of the portable device and the storage sensing unit of the electric lock can pass through a transmission connector and a transmission connection The power connection of the power supply and the authentication code of the read/write sensing unit can be transmitted to the storage sensing unit through the transmission connector via the transmission connector.