KR102040779B1 - Contactless lock and method for locking and unlocking lock by using the same - Google Patents

Abstract

According to an aspect of the present invention, there is provided a non-contact lock including a main body and a locking part installed at the main body and configured to open and close. A short range communication unit for receiving the terminal one-time authentication information from the mobile communication terminal; A driving unit linked to the locking unit to drive the opening and closing operation; A capacitance unit serving as a driving source of the driving unit; A memory for storing one-time key information; And charges the capacitance unit by using the electromagnetic force of the wake-up signal from the mobile communication terminal, wakes up with the charging power of the capacitance unit, and compares the terminal one-time authentication information with the one-time key information to control the operation of the driving unit. It may include a control unit for controlling to open and close the lock.

Description

CONTACTLESS LOCK AND METHOD FOR LOCKING AND UNLOCKING LOCK BY USING THE SAME}

The present invention relates to a contactless lock and a lock unlocking method using the same.

In recent years, along with the fitness craze, a variety of storage boxes are used a lot. By the way. In most of these cases, mechanical locks are used.

As such a mechanical lock, a method of unlocking in response to input of several number buttons and a method of unlocking using a key are used.

However, in the case of inputting a number button, there is a problem in that the password is easily released so that anyone can unlock it through a random input several times for a few minutes to several tens of minutes, and if it forgets the password, it is not easy to release it.

Meanwhile, a lock using a short range communication module such as RFID has been developed. In the case of a lock having an RFID, the lock is automatically released when the user waits at the lock by using the short range communication module mounted in the smartphone (Korean Patent No. 10-1757208).

However, in this case, there is a problem that a battery for driving is mounted in the lock itself, and thus replacement of the battery is inevitable. In addition, in the case of a smart phone having a one-way near field communication module (a smart phone having a read-only NFC tag), it was impossible to lock and release the lock by using the smart phone.

An object of the present invention is to provide a non-contact padlock which can be used semi-permanently, which is devised to solve the above-mentioned problems and which does not have a regular power supply unit such as a battery.

In addition, an object of the present invention is to provide a contactless lock and a lock unlocking method using the same, which can be unlocked in a contactless manner even with a smartphone (that is, a read-only smartphone) having a read-only NFC module. .

In order to solve the above-mentioned problems, a non-contact lock including a main body and a locking unit provided in the main body to open and close the operation includes: a memory for storing key information; A short range communication unit for receiving the terminal one-time authentication information from the mobile communication terminal; A driving unit linked to the locking unit to drive the opening and closing operation; A capacitance unit serving as a driving source of the driving unit; A memory for storing one-time key information; And charges the capacitance unit by using the electromagnetic force of the wake-up signal from the mobile communication terminal, wakes up with the charging power of the capacitance unit, and compares the terminal one-time authentication information with the one-time key information to control the operation of the driving unit. It may include a control unit for controlling to open and close the lock.

The memory further stores first authentication required information, and the mobile communication terminal reads the first authentication required information to generate the key information, and the controller wakes up with the wakeup signal. The one-time key information may be generated and stored in the memory using the first necessary authentication information.

Here, the lock further comprises a replacement authentication signal receiving unit for receiving an alternative authentication signal including the terminal one-time authentication information from the mobile communication terminal, wherein the control unit, if the replacement authentication signal is received, the replacement authentication It may include a control unit for controlling to open and close the lock by decoding the signal to control the operation of the driving unit in comparison with the one-time key information.

Here, the replacement authentication signal is a replacement authentication voice signal, the replacement authentication signal receiver may include a microphone for receiving the replacement authentication voice signal.

Here, the replacement authentication signal is a replacement authentication optical signal, the replacement authentication signal receiving unit may include an optical sensor for receiving the replacement authentication optical signal.

Here, the alternative authentication signal may include the terminal one-time authentication information.

Here, the controller may release the lock and generate second necessary authentication information and store the second necessary authentication information in the memory.

In another embodiment of the present invention, a lock contact unlocking method using a contactless lock and a mobile communication terminal is configured to read first authentication required information from the contactless lock as the mobile communication terminal is adjacent to the contactless lock, thereby providing terminal one-time authentication information. Generating; The contactless lock wakes up as the mobile communication terminal approaches, and generates one-time key information based on the first authentication required information; Transmitting, by the mobile communication terminal, the terminal one-time authentication information to the contactless lock; The contactless lock may include comparing the terminal one-time information with the one-time key information to release the lock of the lock and generating second authentication necessary information in the memory.

In another embodiment of the present invention, a lock release method using a non-contact lock and a mobile communication terminal includes reading first authentication required information from the non-contact lock as the mobile communication terminal is adjacent to the non-contact lock, thereby providing terminal one-time authentication information. Generating; The contactless lock wakes up as the mobile communication terminal approaches, and generates one-time key information based on the first authentication required information; The mobile communication terminal outputs an alternative authentication signal including one of a voice signal and an optical signal including the terminal one-time authentication information; And the contactless lock receives any one of a microphone and a light receiving device to decode the replacement authentication signal, decodes it, releases the lock of the contactless lock by comparing with the one-time key information, and generates second authentication required information in a memory. It may include the step.

According to one embodiment of the present invention having the above-described configuration, it is possible to achieve the unnecessary structure of the battery in the lock to minimize the economic cost and administrative waste of battery replacement.

In addition, according to an embodiment of the present invention, even a smart phone having a read-only short-range communication module is able to transmit key information by using voice output or optical output, so that the lock can be unlocked with high security. .

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view for explaining a use aspect of a contactless lock which is an embodiment of the present invention.
Figure 2 is a schematic diagram for explaining the relationship between a contactless lock that is an embodiment of the present invention and a mobile communication terminal and a server related thereto.
3 shows an example of a contactless lock that is one embodiment of the present invention.
4 is a block diagram illustrating an electronic configuration of a contactless lock and a mobile communication terminal according to an embodiment of the present invention.
5 is a flowchart for explaining a first embodiment of a lock release method using a contactless lock and a mobile communication terminal according to another embodiment of the present invention;
6 is a flow chart for explaining a second embodiment of a lock release method using a contactless lock and a mobile communication terminal according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. The embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described below. These embodiments are provided to explain in detail the present invention to those skilled in the art.

1 is a view for explaining the use of the non-contact lock 1, which is an embodiment of the present invention. As shown in Fig. 1, a plurality of locks 1 according to the present invention are installed in a conventional locker. These locks 1 are provided with a near field communication unit 11, and when the user places his smartphone 2 adjacent to the lock 1, the drive unit 12 drives the lock unit 20 to release the locks ( 1) is released. NFC may be used as the local area communication unit 11 or RFID. That is, the lock 1 has an NFC tag or an RFID tag, and when the smartphone 2 is adjacent in this state, the electromagnetic force according to the wake-up signal is stored in the capacitance part 13 embedded in the lock 1. This becomes a drive source, and the lock unit 20 is released by operating the drive unit 12 of the lock 1. In addition, the lock 1 is equipped with a microphone 15 and an optical sensor 16 so that the smartphone 2 when the near field communication module 21 can read only or is not mounted is used as a key. Encrypted voice is output from the speaker of the) or the encrypted light output is made from the flash, and thus the microphone 15 and the optical sensor 16 receive and analyze it to release the lock. Accordingly, the lock 1 can be locked / unlocked through the voice output and the light output replacing the NFC in the smartphone 2 that is not equipped with NFC such as RFID.

According to such a structure, since the battery is unnecessary for the lock 1, it has the advantage that convenience in use becomes high. In addition, there is an advantage that can lock / unlock the lock (1) even with a smart phone (2) of the NFC-free structure, such as RFID.

Hereinafter, the relationship between the contactless lock 1, the mobile communication terminal 2 (smartphone), and the management server 3, which is an embodiment of the present invention, will be described in more detail with reference to FIG.

2 is a schematic diagram for explaining a relationship between a contactless lock 1, which is an embodiment of the present invention, and a mobile communication terminal 2 and a server 3 related thereto. As shown in FIG. 2, the non-contact lock 1 is provided with an NFC module, and the smartphone 2 functions as a key of the lock 1. By the way, the management server 3 is used for interlocking the smart phone 2 and the lock 1 which function as keys of the lock 1. The smart phone 2 is installed with a lock app having an authentication generation algorithm for generating a terminal one-time authentication number using the necessary authentication information, and the lock is stored in the memory in the same authentication generation algorithm. Here, the management server 3 manages downloads, updates, and the like, for the lock driving app.

In this state, necessary authentication information is stored in a memory (where the memory may be an NFC tag), which is read by the mobile communication terminal through a short range communication unit. Then, both the lock 1 and the mobile communication terminal 2 have the same necessary authentication information and authentication generation algorithm, so that the same one-time key information and the terminal one-time authentication information are generated. As a result, the lock is released.

Hereinafter, the configuration and operation of the contactless lock 1 and the mobile communication terminal 2 will be described in detail with reference to FIGS. 3 and 4.

3 is a view showing an example of the non-contact lock 1, which is an embodiment of the present invention. As shown in FIG. 3. The non-contact lock 1 may be composed of the main body 10 and the locking portion 20. The main body 10 is provided with a short-range communication unit 11 for transmitting and receiving one-time authentication information and necessary authentication information from the short-range communication module 21 of the mobile communication terminal 2 therein, and further, a short-range communication module. If there is no (21) or if the function of the near field communication module 21 can only be read, a microphone 15 and an optical sensor 16 are provided as an alternative authentication receiver for receiving an alternative authentication signal from the mobile communication terminal 2. . Accordingly, if the user's smartphone 2 is provided with an NFC module capable of two-way communication, when the user closes the smartphone 2 to the non-contact lock 1, the terminal one-time authentication information is short-range communication unit 11: NFC tag. ), Thereby unlocking the lock 1. In addition, when the replacement authentication signal is received through the microphone 15 or the optical sensor 16 that is the replacement authentication reception signal unit, the lock 1 is released. Hereinafter, a detailed configuration and control method for the operation will be described with reference to FIGS. 4 to 6.

4 is a block diagram illustrating an electronic configuration of the contactless lock 1 and the mobile communication terminal 2 according to an embodiment of the present invention. As shown in FIG. 4, the lock 1 includes a near field communication unit 11, a driving unit 12, a capacitance unit 13, a memory unit 14, a microphone 15, an optical sensor 16, and a control unit. It comprises a 17.

The short-range communication unit 11 is a part that is connected to the mobile communication terminal 2 serving as a key through short-range communication to transmit and receive data. The local area communication unit 11 may be a local area communication device of various methods such as NFC, Bluetooth, Zigbee, RFID. In the following description, an example in which an NFC tag is utilized as the local area communication unit 11 is described. Here, the NFC tag has a function as a communication unit as well as a memory unit for storing predetermined data.

The driver 12 releases the lock state of the lock unit 20 according to the control command of the controller 17. The driving unit 12 receives a driving signal from the control unit 17 to operate the motor of the locking unit 20.

The capacitance unit 13 is a component that is charged by the electromagnetic force of the near field communication signal (wake-up signal) of the mobile communication terminal 2 received from the near field communication unit 11, and functions as a driving source.

The memory unit 14 is a part for storing various data and programs, and in particular, has a function of storing key information and necessary authentication information. Here, the key information is information for comparison with the terminal one-time authentication information input through the local area communication unit 11, and the necessary authentication information is a one-time authentication code used for generating the terminal one-time authentication information and the key information.

The optical sensor 16 functions to receive a replacement authentication optical signal generated by a flash unit (not shown) of the mobile communication terminal 2. The alternative authentication optical signal is an alternative authentication optical pattern signal, and the control unit 17 receives the alternative authentication optical pattern signal through the optical sensor 16, decodes it, and acquires the terminal one-time authentication information. In comparison, the lock 1 is unlocked. The optical sensor 16 may use a light receiving element such as a photo coupler.

The controller 17 charges the capacitance unit 13 by using the electromagnetic force of the wakeup signal from the mobile communication terminal 2, and wakes up with the charging power of the capacitance unit 13 to authenticate the terminal one-time authentication. By comparing the information with the one-time key information to control the operation of the drive unit 12 to control the opening and closing of the locking unit 20. That is, the controller may generate the one-time key information using the first necessary authentication information and store the one-time key information in the memory after waking up with the wake-up signal, release the lock part, and then store the second required authentication information. It generates and stores in the memory.

The mobile communication terminal 2 serves as a key for the contactless lock 1. The mobile communication terminal 2 includes a short range communication module 21, a mobile communication module 22, a memory module 23, a display module 24, and a control module 25.

The short range communication module 21 transmits a wake-up signal and the terminal one-time authentication information to the short range communication unit of the lock 1. The wakeup signal functions to charge the capacitance unit 13 while activating the control unit 17 of the lock 1, and the terminal one-time authentication information is matched with key information in the lock.

The mobile communication module 22 is a component for communicating with the external server 3. The external server is a management server, and the mobile communication terminal 2 receives a lock driving app having an authentication generation algorithm from the external server 3.

The memory module 23 functions to store various programs and lock driving apps. The memory module 23 also temporarily stores necessary authentication information and key information.

The display module 24 is a component in which various GUIs are displayed. In the present invention, a password generation window is displayed on the display module 24, and the password entered therein can be used as a password for receiving necessary authentication information from the lock 1.

Although not shown in the figure, the mobile communication terminal 2 is provided with a flash and audio output means (speakers) as means for outputting an alternative authentication signal.

The control module 25 drives the lock driving app stored in the memory module 23 to transmit the wakeup signal to the contactless lock 1 through the short range communication module 21, and the terminal one-time authentication. Information may be controlled to be transmitted to the contactless lock 1. The control module 25 displays a password generation window generated by driving the contactless lock driving app on the display module 24, and then a password inputted through the control module 25 may be used as a password used to first receive a required authentication number. Can be. In addition, the control module 25 may be connected to the external server 3 through the mobile communication module 22, so that the download and update of the lock driving app may be performed.

Hereinafter, a method of releasing a lock using a contactless lock and a mobile communication terminal having the above-described configuration will be described in more detail with reference to FIGS. 5 and 6.

5 is a flowchart illustrating a first embodiment of a lock release method using a contactless lock and a mobile communication terminal according to another embodiment of the present invention. The mobile communication terminal according to the first embodiment is an apparatus including an NFC module (near field communication unit) and capable of two-way transmission and reception. As shown, first, the mobile communication terminal approaches the contactless lock (S21). Thereafter, when approaching within a predetermined distance, the wakeup signal is transmitted to the lock, and the tag information (first required authentication information) in the NFC tag of the lock is read (S22 and S11). The mobile communication terminal acquiring the first necessary authentication information generates terminal one-time authentication information using the same, and transmits the one-time authentication information to the lock (S23 and S24).

On the other hand, the non-contact lock is driven in accordance with the wake-up signal, to generate one-time key information using the first necessary authentication information stored in advance (S12). The control unit of the lock compares the one-time key information with the terminal one-time authentication information transmitted from the mobile communication terminal and checks whether they match (S13). If the match, the control unit of the lock operates the drive unit to release the lock of the lock as well as to generate the second necessary authentication information for the next unlock (S14, S15). Accordingly, if the user locks the contactless lock and then accesses the mobile communication terminal to the contactless lock to reopen it, the lock is unlocked with the second required authentication information different from the first required authentication information. You can increase the castle.

Hereinafter, a method of releasing a lock in a mobile communication terminal having a read-only short range communication module will be described with reference to FIG. 6.

6 is a flowchart illustrating a second embodiment of a lock unlocking method using a contactless lock and a mobile communication terminal according to another embodiment of the present invention. The mobile communication terminal used herein is a device having a short range communication module that can read NFC tags, but cannot transmit data with an NFC tag of a lock. Since S11, S12, S13, S14, S15, S21, S22, and S23 described with reference to FIG. 5 are used as they are in the second embodiment, description thereof will be omitted.

After step S23, that is, the mobile communication terminal generates the terminal one-time authentication information, and generates an alternative authentication signal containing the terminal one-time authentication information (S25). Here, the alternative authentication signal may be an alternative authentication voice signal output through the speaker of the mobile communication terminal or an alternative authentication optical signal output through the flash. The replacement authentication signal is received by the lock through the microphone or light sensor of the lock (S26). Then, in the lock, the terminal decodes the authentication signal to obtain the terminal one-time authentication information, and then proceeds to step S13 after (S16).

Through the above configuration, even a smartphone (mobile communication terminal) that is not able to transmit data to the NFC tag transmits the terminal one-time authentication information by sound or light, thereby unlocking the lock.

According to one embodiment of the present invention having the above-described configuration, it is possible to achieve the unnecessary structure of the battery in the lock to minimize the economic cost and administrative waste of battery replacement.

In addition, according to an embodiment of the present invention, even a smartphone without a short-range communication module is installed, it is possible to unlock the lock by using the voice output or the light output.

The described embodiments may be configured by selectively combining all or part of the embodiments so that various modifications can be made. In addition, it should be noted that the embodiments are provided for the purpose of description and not of limitation. In addition, those skilled in the art will understand that various embodiments are possible within the scope of the technical idea of the present invention.

1: contactless lock
11: near field communication unit
12: drive unit
13: capacitance section
14: memory
15: microphone
16: light sensor
17: control unit
2: mobile communication terminal, smartphone
21: near field communication module
22: mobile communication module
23: memory module
24: display module
25 control module
3: server

Claims (10)

A non-contact lock comprising a main body and a locking portion provided in the main body and configured to open and close.
A memory for storing first authentication required information;
A short range communication unit for receiving the terminal one-time authentication information from the mobile communication terminal;
A driving unit linked to the locking unit to drive the opening and closing operation;
A capacitance unit serving as a driving source of the driving unit;
The contactless lock wakes up as the mobile communication terminal approaches, generates one-time key information based on the first authentication required information, stores the one-time key information in the memory, and receives the terminal one-time authentication information received from the local area communication unit. And a control unit for comparing the one-time key information to release the lock unit, and controlling to generate and store second authentication required information in the memory.
delete The method of claim 1,
And an alternative authentication signal receiver configured to receive an alternative authentication signal including the terminal one-time authentication information from the mobile communication terminal.
The control unit,
And a control unit configured to control opening and closing of the lock unit by controlling the operation of the driving unit in comparison with the one-time key information by decoding the substitute authentication signal when the substitute authentication signal is received.
The method of claim 3, wherein
The substitute authentication signal is a substitute authentication voice signal,
And the replacement authentication signal receiving unit includes a microphone for receiving the replacement authentication voice signal.

The method of claim 3, wherein
The alternative authentication signal is an alternative authentication optical signal,
And the replacement authentication signal receiving unit includes an optical sensor for receiving the replacement authentication optical signal.
The method of claim 3, wherein
And the substitute authentication signal includes the terminal one-time authentication information.
The method of claim 1,
The short range communication unit may include one of an RF tag and an NFC tag.
The method of claim 1,
The control unit,
And after unlocking the lock, generate second required authentication information and store in the memory.
A lock release method using a contactless lock and a mobile communication terminal,
Generating terminal one-time authentication information by reading first authentication required information from the contactless lock as the mobile communication terminal is adjacent to the contactless lock;
The contactless lock wakes up as the mobile communication terminal approaches, and generates one-time key information based on the first authentication required information;
Transmitting, by the mobile communication terminal, the terminal one-time authentication information to the contactless lock; And
The contactless lock includes comparing the terminal one-time information and the one-time key information to release the lock of the lock and generating second authentication required information in a memory, the lock contact unlocking method using the contactless lock and the mobile communication terminal. .
A lock release method using a contactless lock and a mobile communication terminal,
Generating terminal one-time authentication information by reading first authentication required information from the contactless lock as the mobile communication terminal is adjacent to the contactless lock;
The contactless lock wakes up as the mobile communication terminal approaches, and generates one-time key information based on the first authentication required information;
The mobile communication terminal outputs an alternative authentication signal including one of a voice signal and an optical signal including the terminal one-time authentication information; And
The contactless lock receives any one of a microphone and a light receiving element, decodes the replacement authentication signal, compares the one-time key information to release the lock of the contactless lock, and generates second authentication required information in a memory. A method of unlocking a lock using a contactless lock and a mobile communication terminal, the method comprising: a lock release method.

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