JP6895637B2 - Control methods for electric lock systems, programs, and mobile terminals - Google Patents

Description

The present invention generally relates to an electric lock system, a program, and a method for controlling a mobile terminal, and more particularly, an electric lock system, a program, which enables unlocking of the electric lock device by communication between the mobile terminal and the electric lock device. And the control method of the mobile terminal.

Conventionally, an electric lock system for electrically locking or unlocking an electric lock provided on a door of a building has been provided (see, for example, Patent Document 1). The electric lock system described in Patent Document 1 includes a lock control device, an electric lock, and a responder. The responder is, for example, a tag key.

In the electric lock system described in Patent Document 1, the identification information included in the response signal from the tag key is collated with the identification information registered in advance in the lock control device, and the electric lock is unlocked when both match. ..

Japanese Unexamined Patent Publication No. 2016-56503

In the field of an electric lock system as described in Patent Document 1, an electric lock system for locking or unlocking an electric lock by a mobile terminal such as a smartphone is also provided. In this electric lock system, the mobile terminal receives a beacon signal from the lock control device as a trigger to communicate between the mobile terminal and the lock control device, and the electric lock is released when the mobile terminal is successfully authenticated. Lock. Therefore, in this case, it is desirable to increase the acquisition frequency of the beacon signal in the mobile terminal so that the beacon signal from the lock control device can be reliably acquired. There was a problem that consumption increased.

The present invention has been made in view of the above problems, and an object of the present invention is to provide an electric lock system, a program, and a method for controlling a mobile terminal, which can suppress power consumption in the mobile terminal.

The electric lock system according to one aspect of the present invention includes at least an electric lock device that unlocks an entrance / exit of a building and a mobile terminal that performs wireless communication between the electric lock device. The electric lock device is configured to unlock at least the doorway by performing wireless communication with the mobile terminal. The mobile terminal stops at least a normal mode in which a wireless signal transmitted from the electric lock device is periodically acquired, a low frequency mode in which the acquisition frequency is lower than that in the normal mode, and an operation of acquiring the wireless signal. It has a stop mode and a stop mode. The wireless signal is a beacon signal periodically transmitted from the electric lock device, and when the mobile terminal does not acquire the beacon signal within a certain period of time in the low frequency mode, the low frequency mode is used. It is configured to switch to stop mode.
Alternatively, the electric lock system according to one aspect of the present invention includes at least an electric lock device that unlocks an entrance / exit of a building and a mobile terminal that performs wireless communication between the electric lock device. The electric lock device is configured to unlock at least the doorway by performing wireless communication with the mobile terminal. The mobile terminal has at least a normal mode in which a wireless signal transmitted from the electric lock device is periodically acquired, and a low frequency mode in which the acquisition frequency is lower than that in the normal mode. The electric lock device has a lock-side operation unit that accepts an operation by a user. The wireless signal is a reception signal indicating that the lock-side operation unit has received an operation by the user, and the mobile terminal does not acquire the reception signal within a predetermined period in the normal mode. It is configured so that the mode can be switched to the low frequency mode.
Alternatively, the electric lock system according to one aspect of the present invention includes at least an electric lock device that unlocks an entrance / exit of a building and a mobile terminal that performs wireless communication between the electric lock device. The electric lock device is configured to unlock at least the doorway by performing wireless communication with the mobile terminal. The mobile terminal stops at least a normal mode in which a wireless signal transmitted from the electric lock device is periodically acquired, a low frequency mode in which the acquisition frequency is lower than that in the normal mode, and an operation of acquiring the wireless signal. It has a stop mode and a stop mode. The mobile terminal is configured to switch from the normal mode to the stop mode when the electric lock device starts the unlocking operation in the normal mode.

The program according to one aspect of the present invention causes a computer used as a mobile terminal to execute at least a normal mode, a low frequency mode, and a stop mode. The mobile terminal performs wireless communication with at least an electric lock device that unlocks an entrance / exit of a building. The normal mode is a mode in which a radio signal transmitted from the electric lock device is periodically acquired. The low frequency mode is a mode in which the acquisition frequency is lower than that of the normal mode. The stop mode is a mode for stopping the wireless signal acquisition operation. In the low frequency mode, if the mobile terminal does not acquire the beacon signal periodically transmitted from the electric lock device within a certain period of time, the program switches the computer from the low frequency mode to the stop mode. Let me.
Alternatively, the program according to one aspect of the present invention causes a computer used as a mobile terminal to execute at least a normal mode and a low frequency mode. The mobile terminal performs wireless communication with at least an electric lock device that unlocks an entrance / exit of a building. The normal mode is a mode in which a radio signal transmitted from the electric lock device is periodically acquired. The low frequency mode is a mode in which the acquisition frequency is lower than that of the normal mode. In the normal mode, when the lock-side operating device of the electric lock device does not acquire a reception signal indicating that the operation has been received from the user within a predetermined period, the program causes the computer to be lowered from the normal mode. Switch to frequency mode.
Alternatively, the program according to one aspect of the present invention causes a computer used as a mobile terminal to execute at least a normal mode, a low frequency mode, and a stop mode. The mobile terminal performs wireless communication with at least an electric lock device that unlocks an entrance / exit of a building. The normal mode is a mode in which a radio signal transmitted from the electric lock device is periodically acquired. The low frequency mode is a mode in which the acquisition frequency is lower than that of the normal mode. The stop mode is a mode for stopping the wireless signal acquisition operation. In the normal mode, when the electric lock device starts the unlocking operation, the program causes the computer to switch from the normal mode to the stop mode.

The method for controlling a mobile terminal according to one aspect of the present invention is at least a method for controlling a mobile terminal that performs wireless communication with an electric lock device that unlocks an entrance / exit of a building. The control method of the mobile terminal includes at least a step of executing a normal mode, a step of executing a low frequency mode, and a step of executing a stop mode . The normal mode is a mode in which a radio signal transmitted from the electric lock device is periodically acquired. The low frequency mode is a mode in which the acquisition frequency is lower than that of the normal mode. The stop mode is a mode for stopping the wireless signal acquisition operation. The control method of the mobile terminal changes from the low frequency mode to the stop mode when the mobile terminal does not acquire a beacon signal periodically transmitted from the electric lock device within a certain period of time in the low frequency mode. Switch.
Alternatively, the method for controlling a mobile terminal according to one aspect of the present invention is at least a method for controlling a mobile terminal that performs wireless communication with an electric lock device that unlocks an entrance / exit of a building. The control method of the mobile terminal includes at least a step of executing a normal mode and a step of executing a low frequency mode. The normal mode is a mode in which a radio signal transmitted from the electric lock device is periodically acquired. The low frequency mode is a mode in which the acquisition frequency is lower than that of the normal mode. The control method of the mobile terminal is described from the normal mode when the reception signal indicating that the lock side operation device of the electric lock device has received an operation from the user is not acquired within a predetermined period in the normal mode. Switch to low frequency mode.
The method for controlling a mobile terminal according to one aspect of the present invention is at least a method for controlling a mobile terminal that performs wireless communication with an electric lock device that unlocks an entrance / exit of a building. The control method of the mobile terminal includes at least a step of executing a normal mode, a step of executing a low frequency mode, and a step of executing a stop mode. The normal mode is a mode in which a radio signal transmitted from the electric lock device is periodically acquired. The low frequency mode is a mode in which the acquisition frequency is lower than that of the normal mode. The stop mode is a mode for stopping the wireless signal acquisition operation. The control method of the mobile terminal switches from the normal mode to the stop mode when the electric lock device starts the unlocking operation in the normal mode.

According to the present invention, it is possible to suppress power consumption in a mobile terminal.

FIG. 1 is a block diagram showing a configuration of an electric lock system according to an embodiment of the present invention. FIG. 2 is a schematic view showing a usage example of the electric lock system of the above. FIG. 3 is an explanatory diagram conceptually showing the mode switching of the electric lock system of the above.

Hereinafter, an embodiment of the present invention will be described. The following embodiments are just one of the various embodiments of the present invention. Further, the following embodiments can be variously modified according to the design and the like as long as the object of the present invention can be achieved.

(1) Outline of Electric Lock System An outline of the electric lock system 10 according to the present embodiment will be described with reference to FIG. The electric lock system 10 according to the present embodiment includes an electric lock device 1 and a mobile terminal 2.

The electric lock device 1 is a device that locks or unlocks the doorway 4 of the building 3. The "doorway" of the building 3 referred to here is a door or window that separates the inside (inside 31) and the outside (outside 32) of the building 3, for example, a entrance door, a self-propelled door, or a sweep window. .. The electric lock device 1 is installed at the doorway 4. Here, the electric lock device 1 is configured to be able to communicate with the mobile terminal 2, and can switch between a locked state in which the doorway 4 is locked and an unlocked state in which the doorway 4 is unlocked by communicating with the mobile terminal 2. Do it electrically.

The mobile terminal 2 has a communication function with the electric lock device 1. In other words, the mobile terminal 2 has a communication unit 22 (see FIG. 1). In the present embodiment, the communication method between the electric lock device 1 and the mobile terminal 2 is wireless communication using radio waves as a medium.

In the present embodiment, a case where the building 3 is a detached house will be described as an example. Therefore, the user 5 is a resident of the building 3 (detached house) that owns the mobile terminal 2.

As a basic function of the electric lock system 10, the key ID (Identification) stored in advance in the mobile terminal 2 is transmitted by the mobile terminal 2 to the electric lock device 1, so that the doorway 4 in the electric lock device 1 is used. Allows unlocking. That is, when the electric lock device 1 and the mobile terminal 2 communicate with each other and the key ID of the mobile terminal 2 is successfully authenticated, the electric lock device 1 is in a state where the doorway 4 can be unlocked. Here, the electric lock device 1 may perform the key ID authentication process by triggering a predetermined operation (unlocking operation) on the lock side operation unit 14 (see FIG. 1), or the unlocking operation is performed. The authentication process may be performed before. As a result, the electric lock device 1 performs an unlocking operation of switching from the locked state to the unlocked state by communicating with the mobile terminal 2.

The unlocking operation by the electric lock device 1 as described above is at least when the user 5 is out of the house 32, that is, when the user 5 returns home, and when the user 5 is in the house 31, that is, when the user 5 goes out. It takes place on one side. In the present embodiment, the unlocking operation by the electric lock device 1 is performed both when the user 5 returns home and when the user goes out. That is, when the user 5 returns home, the user 5 who is outside the house 32 is in possession of the user 5 in a state where the user 5 is close to the doorway 4 to the extent that a radio wave for communication between the electric lock device 1 and the mobile terminal 2 can reach, for example. When the mobile terminal 2 communicates with the electric lock device 1, the doorway 4 can be unlocked. Similarly, when the user 5 goes out, the user 5 in the house 31 is possessed by the user 5 in a state where the user 5 is close to the doorway 4 to the extent that a radio wave for communication between the electric lock device 1 and the mobile terminal 2 can reach, for example. When the mobile terminal 2 communicates with the electric lock device 1, the doorway 4 can be unlocked.

Further, although detailed description is omitted in the present embodiment, the electric lock device 1 is carried after a predetermined operation (locking operation) is performed by the lock side operation unit 14 in a state where the doorway 4 is unlocked. When the key ID is successfully authenticated by communicating with the terminal 2, the doorway 4 is locked. That is, the electric lock device 1 can perform not only the unlocking operation but also the locking operation of switching from the unlocked state to the locked state by communicating with the mobile terminal 2.

(2) Configuration of Electric Lock Device Next, the configuration of the electric lock device 1 according to the present embodiment will be described with reference to FIG.

The electric lock device 1 includes a control unit 11, a communication unit 12, an electric lock 13, and a lock-side operation unit 14. Further, the control unit 11 has a signal processing unit 111 and an authentication unit 112. The electric lock device 1 is built in, for example, a door (for example, a front door) that serves as an entrance / exit 4 (see FIG. 2). The electric lock device 1 may be operated by receiving power supply from an external power source such as a system power source (commercial power source), or may be battery-powered.

The control unit 11 is composed of, for example, a CPU (Central Processing Unit) and a microcomputer having a memory as a main configuration. Then, when the CPU executes the program stored in the memory, the microcomputer functions as the control unit 11 (signal processing unit 111 and authentication unit 112). The program executed by the CPU is recorded in advance in the memory of the microcomputer here, but may be recorded in a recording medium such as a memory card and provided, or may be provided through a telecommunication line such as the Internet. ..

At least one registration ID is registered (stored) in the authentication unit 112. The registration ID corresponds to the key ID of the mobile terminal 2. For example, when each resident of the building 3 has an individual mobile terminal 2, that is, when the electric lock system 10 includes a plurality of mobile terminals 2, the key IDs of the plurality of mobile terminals 2 are supported. A plurality of registration IDs are registered in the authentication unit 112.

The communication unit 12 is configured to be able to communicate with the mobile terminal 2 (communication unit 22). The communication method between the communication unit 12 and the mobile terminal 2 (communication unit 22) is, for example, wireless communication compliant with BLE (Bluetooth Low Energy). BLE is the name of version 4.0 in the specifications of Bluetooth (registered trademark), which is a wireless PAN (Personal Area Network) technology. In the present embodiment, the electric lock device 1 not only transmits a radio signal S1 such as a beacon signal to the mobile terminal 2, but also receives, for example, a radio signal S2 such as an ID signal including a key ID from the mobile terminal 2. Therefore, the communication unit 12 has a signal transmission function and a signal reception function, and performs bidirectional communication with the communication unit 22 of the mobile terminal 2.

The electric lock 13 has a lock and a lock driving unit for driving the lock. The electric lock 13 switches between a locked state and an unlocked state by driving the lock by the lock driving unit.

The signal processing unit 111 controls the communication unit 12, the electric lock 13, and the authentication unit 112. The signal processing unit 111 causes the communication unit 12 to receive an ID signal (radio signal S2) including a key ID from at least the mobile terminal 2 (communication unit 22). When the communication unit 12 receives the ID signal, the signal processing unit 111 executes the key ID authentication process by collating the key ID included in the ID signal with the registered ID registered in the authentication unit 112. To do. In the present embodiment, the signal processing unit 111 executes the key ID authentication process after performing a predetermined operation (unlocking operation) on the lock side operation unit 14, and when the key ID authentication is successful, the electric lock 13 Is controlled to unlock the doorway 4.

The lock-side operation unit 14 has a function of accepting an operation by the user 5. The lock-side operation unit 14 includes, for example, push button switches provided on the inside 31 side and the outside 32 side of the doorway 4. The lock-side operation unit 14 may be, for example, a door handle (handle) provided on the door of the doorway 4, or a touch sensor or the like that detects an operation in which the user 5 touches the door handle. In the signal processing unit 111, when the lock-side operation unit 14 receives an operation by the user 5, the lock-side operation unit 14 accepts the operation by the user 5 from the communication unit 12 to the mobile terminal 2 (communication unit 22). A reception signal (radio signal S1) indicating that is transmitted.

(3) Configuration of Mobile Terminal Next, the configuration of the mobile terminal 2 according to the present embodiment will be described with reference to FIG.

The mobile terminal 2 includes a control unit 21, a communication unit 22, a terminal-side operation unit 23, a display unit 24, and a battery 25. The mobile terminal 2 is, for example, a smartphone. By installing dedicated application software on the mobile terminal 2 and activating the application software, the mobile terminal 2 functions as a key (electronic key) of the electric lock device 1. In other words, the application software is a program for causing the computer to function as the control unit 21 in the mobile terminal 2. In other words, the application software is a program for causing the computer to execute at least a low frequency mode (described later) in which the acquisition frequency of the wireless signal S1 transmitted from the electric lock device 1 is low. According to this configuration, it is possible to suppress the power consumption of the mobile terminal 2 without using the dedicated mobile terminal 2. The battery 25 is a power source for operating the mobile terminal 2.

The communication unit 22 is configured to be able to communicate with the electric lock device 1. As described above, since the communication unit 22 and the electric lock device 1 (communication unit 12) communicate with each other in both directions, the communication unit 22 has a signal transmission function and a signal reception function. The communication unit 22 can receive the wireless signal S1 while the power of the mobile terminal 2 is on. Therefore, when the user 5 possessing the mobile terminal 2 enters the receivable area 6 (see FIG. 2) near the doorway 4, the user 5 receives the wireless signal S1 (beacon signal, reception signal) transmitted from the electric lock device 1. be able to. Here, the receivable area 6 is an area in which the mobile terminal 2 can receive the radio signal S1 from the electric lock device 1 (see FIG. 2).

The control unit 21 is composed of, for example, a microprocessor whose main configuration is a CPU and a memory. Then, when the CPU executes the program stored in the memory, the microcomputer functions as the control unit 21. The program executed by the CPU is recorded in advance in the memory of the microcomputer here, but may be recorded in a recording medium such as a memory card and provided, or may be provided through a telecommunication line such as the Internet. .. Further, a key ID unique to the mobile terminal 2 is stored in the memory of the microcomputer.

The control unit 21 controls the communication unit 22 and the display unit 24. The control unit 21 enables the communication unit 22 to communicate with the electric lock device 1 (communication unit 12) to unlock the doorway 4 in the electric lock device 1. Specifically, when the control unit 21 receives the radio signal S1 (acceptance signal) from the communication unit 12 at the communication unit 22, the communication unit 22 sends the communication unit 12 to the communication unit 12 and the communication unit 22. The radio signal S2 (connection request signal) for initiating the communication of is transmitted. When the communication between the communication unit 12 and the communication unit 22 is started, the control unit 21 causes the communication unit 22 to transmit the radio signal S2 (ID signal) including the key ID to the communication unit 12. The control unit 21 causes the display unit 24 to display at least the started application software.

Further, the control unit 21 has a function of acquiring the radio signal S1 from the electric lock device 1 received by the communication unit 22. As described above, in the present embodiment, the communication unit 22 can receive the wireless signal S1 and all of the wireless signals S1 (beacon signals) transmitted from the electric lock device 1 periodically (for example, every second). To receive. On the other hand, the control unit 21 is configured to acquire the radio signal S1 received by the communication unit 22 at regular intervals. Specifically, the control unit 21 has a normal (high frequency) mode in which the wireless signal S1 is periodically acquired, a low frequency mode in which the acquisition frequency (scan frequency) of the wireless signal S1 is lower than that in the normal mode, and wireless. It has a stop mode for stopping the acquisition operation of the signal S1. The control unit 21 is configured to select one of the three modes according to the reception status of the wireless signal S1 from the electric lock device 1. The details of each mode will be described in the column of "(4) Acquisition mode", and the switching of each mode will be described in the column of "(5) Mode switching".

The terminal-side operation unit 23 has a function of accepting an operation by the user 5. The display unit 24 has a function of displaying the started application software. The terminal-side operation unit 23 and the display unit 24 are, for example, touch panels provided on the mobile terminal 2. The touch panel is configured by combining a display device such as an LCD (Liquid Crystal Display) and a resistive touch pad. The display device is not limited to the LCD, and may be, for example, an organic EL (Electro Luminescence) display. The touch pad is not limited to the resistance film type, and may be, for example, a capacitance type.

(4) Acquisition Mode Next, the acquisition mode of the control unit 21 will be described in detail. As described above, the control unit 21 has a normal mode, a low frequency mode, and a stop mode as acquisition modes. Then, the control unit 21 selects one of the normal mode, the low frequency mode, and the stop mode according to the reception status of the wireless signal S1 from the electric lock device 1.

The normal mode is a mode in which the radio signal S1 from the electric lock device 1 received by the communication unit 22 is periodically acquired. In the normal mode, the control unit 21 alternately repeats the acquisition period for acquiring the wireless signal S1 and the pause period for suspending the acquisition operation of the wireless signal S1. As an example, in the normal mode, the control unit 21 has an acquisition period of 4 seconds and a pause period of 1 second. That is, in the normal mode, the control unit 21 acquires the radio signal S1 in the acquisition period of 4 seconds, and suspends the acquisition operation of the radio signal S1 in the pause period of 1 second. In the normal mode, the control unit 21 acquires a reception signal (radio signal S1) indicating that the lock side operation unit 14 of the electric lock device 1 has received an operation by the user 5. As described above, in the normal mode, the acquisition period is long so that the operation of the user 5 with respect to the lock side operation unit 14 can be detected quickly. Therefore, there may be no pause period in order to further extend the acquisition period. That is, in the normal mode, the acquisition period may be continuous.

The low-frequency mode is a mode in which the frequency of acquiring the radio signal S1 from the electric lock device 1 received by the communication unit 22 is lower than that of the normal mode. In the low frequency mode, the control unit 21 alternately repeats the acquisition period and the rest period as in the normal mode. As an example, in the low frequency mode, the control unit 21 has an acquisition period of 3 seconds and a pause period of 2 seconds. That is, in the low frequency mode, the control unit 21 acquires the radio signal S1 in the acquisition period of 3 seconds, and suspends the acquisition operation of the radio signal S1 in the pause period of 2 seconds. The control unit 21 acquires the beacon signal (radio signal S1) transmitted from the electric lock device 1 in the low frequency mode. In this case, the beacon signal received by the communication unit 22 during the pause period cannot be acquired, but the beacon signal received by the communication unit 22 during the next acquisition period can be acquired. The low-frequency mode acquisition period and pause period are the ratio of the low-frequency mode acquisition period within the range in which the control unit 21 can acquire the beacon signal from the time the user 5 enters the receivable area 6 to the time when the user 5 reaches the entrance / exit 4. Is preferably set to be smaller than in the normal mode.

The stop mode is a mode for stopping the acquisition operation of the wireless signal S1 from the electric lock device 1 received by the communication unit 22. That is, the control unit 21 does not acquire the radio signal S1 in the stop mode. As a result, the power consumption of the mobile terminal 2 can be suppressed by the amount that the wireless signal S1 acquisition operation is not performed.

(5) Mode switching Next, switching of each mode will be described with reference to FIGS. 2 and 3. The area surrounded by the alternate long and short dash line in FIG. 2 is the receivable area 6. Further, FIG. 3 is an explanatory diagram conceptually showing the mode switching of the control unit 21. Each arrow in FIG. 3 indicates a switching direction between each mode.

First, the user 5 activates the application software (abbreviated as "application" in FIG. 3) by operating the terminal-side operation unit 23 in order to make the mobile terminal 2 function as the key of the electric lock device 1. In the state where the application software is started, the acquisition mode of the control unit 21 becomes the normal mode (step ST1).

When the acquisition mode of the control unit 21 is the normal mode, if the control unit 21 cannot acquire the reception signal (wireless signal S1) from the electric lock device 1 within a predetermined period (for example, 5 minutes), the control unit 21 is acquired. The mode is switched from the normal mode to the low frequency mode (step ST2). In this case, it is assumed that the user 5 cannot operate the lock side operation unit 14 due to, for example, standing talk, and the acquisition mode of the control unit 21 is switched to the low frequency mode, so that the power consumption of the mobile terminal 2 is consumed. Can be suppressed.

When the acquisition mode of the control unit 21 is the low frequency mode, when the control unit 21 acquires the beacon signal (wireless signal S1) from the electric lock device 1, the acquisition mode of the control unit 21 is switched from the low frequency mode to the normal mode. (Step ST3). By switching the acquisition mode of the control unit 21 to the normal mode in this way, the operation of the user 5 with respect to the lock side operation unit 14 can be detected quickly. Further, by detecting the operation of the user 5 with respect to the lock side operation unit 14 as soon as possible, the time required for unlocking the doorway 4 can be shortened.

When the acquisition mode of the control unit 21 is the low frequency mode, if the control unit 21 cannot acquire the beacon signal (radio signal S1) from the electric lock device 1 within a certain period (for example, 10 minutes), the control unit 21 The acquisition mode is switched from the low frequency mode to the stop mode (step ST4). In this case, for example, it is assumed that the user 5 is away from the building 3, and the acquisition mode of the control unit 21 is switched to the stop mode, so that unnecessary acquisition operations can be stopped, whereby the mobile terminal 2 can stop the acquisition operation. Power consumption can be suppressed.

By the way, when the acquisition mode of the control unit 21 is the stop mode, the user 5 operates the application software on the terminal side operation unit 23 to switch the acquisition mode of the control unit 21 from the stop mode to the normal mode. Can be done (step ST5). In this case, the acquisition mode of the control unit 21 can be switched to the normal mode based on the intention of the user 5. In other words, the acquisition mode of the control unit 21 can be returned from the stop mode based on the intention of the user 5.

When the acquisition mode of the control unit 21 is the normal mode, if the state in which the control unit 21 is acquiring the beacon signal (radio signal S1) continues for a certain period of time (for example, 5 minutes), the acquisition mode of the control unit 21 is normal. The mode can be switched to the stop mode (step ST6). That is, even though the acquisition mode of the control unit 21 is the normal mode, the reception signal cannot be acquired, so the acquisition mode of the control unit 21 is switched to the stop mode. For example, if the acquisition mode of the control unit 21 remains in the normal mode and the user 5 stays in the receivable area 6 and in a position invisible from the electric lock device 1, there is a risk of unauthorized unlocking by a suspicious person or the like. There is. On the other hand, by switching the acquisition mode of the control unit 21 to the stop mode, the risk of unauthorized unlocking can be reduced. Further, by switching the acquisition mode of the control unit 21 from the normal mode to the stop mode, the power consumption of the mobile terminal 2 can be suppressed.

When the acquisition mode of the control unit 21 is the normal mode, when the electric lock device 1 starts the unlocking operation, no further acquisition operation is required, so that the acquisition mode of the control unit 21 is switched from the normal mode to the stop mode. (Step ST7). In this way, by stopping the acquisition operation of the wireless signal S1 after the electric lock device 1 starts the unlocking operation, the power consumption in the mobile terminal 2 can be suppressed.

After unlocking the electric lock 13, the acquisition mode of the control unit 21 is the stop mode. Therefore, when the unlocking operation or the locking operation is performed next, it is necessary for the user 5 to operate the application software on the terminal side operation unit 23 to switch the acquisition mode of the control unit 21 to the normal mode (step). ST5).

By the way, it is assumed that the user 5 starts the application software, the acquisition mode of the control unit 21 is the normal mode, and the user 5 stays outside the receivable area 6. In this case, it is preferable that the acquisition mode of the control unit 21 is switched from the normal mode to the stop mode when the state in which the control unit 21 does not receive the beacon signal continues for a certain period of time (for example, 5 minutes). Even in this case, the power consumption of the mobile terminal 2 can be suppressed by switching the acquisition mode of the control unit 21 from the normal mode to the stop mode.

(6) Operation of the Electric Lock System Next, the operation of the electric lock system 10 will be described. In the following, it is assumed that the application software is running and the acquisition mode of the control unit 21 is the low frequency mode. Further, although the unlocking operation of the electric locking device 1 will be described below, the same applies to the locking operation.

When the user 5 possessing the mobile terminal 2 approaches the doorway 4 of the building 3 and enters the receivable area 6 near the doorway 4, the beacon signal (radio signal S1) periodically transmitted from the electric lock device 1 is transmitted. The communication unit 22 receives the signal. Since the acquisition mode of the control unit 21 is the low frequency mode, the control unit 21 acquires the beacon signal during the acquisition period of the low frequency mode. Then, when the control unit 21 acquires the beacon signal, the acquisition mode of the control unit 21 is switched from the low frequency mode to the normal mode. After that, when the communication unit 22 receives the reception signal (wireless signal S1) from the electric lock device 1, the control unit 21 communicates between the communication unit 12 and the communication unit 22 from the communication unit 22 to the communication unit 12. A connection request signal (wireless signal S2) for starting is transmitted. In the electric lock device 1 that has received the connection request signal, the signal processing unit 111 causes the communication unit 12 to transmit a response signal (ACK: acknowledgment) to the communication unit 22. As a result, communication between the communication unit 12 and the communication unit 22 is started.

When the user 5 performs a predetermined operation (unlocking operation) on the lock side operation unit 14, the signal processing unit 111 is operated by the user 5 from the communication unit 12 to the communication unit 22. The reception signal (radio signal S1) indicating that the reception has been received is transmitted. In the mobile terminal 2, the communication unit 22 is in a state where the wireless signal S1 can be received, and the communication unit 22 receives the reception signal from the electric lock device 1. Since the acquisition mode of the control unit 21 is the normal mode, the control unit 21 acquires the reception signal during the acquisition period of the normal mode. Then, when the control unit 21 acquires the reception signal, the communication unit 22 causes the communication unit 12 to transmit an ID signal (radio signal S2) including the key ID.

In the electric lock device 1 that has received the ID signal, the signal processing unit 111 collates the key ID included in the ID signal with the registered ID registered in the authentication unit 112, and if both match, the electric lock device 1. At 13, the doorway 4 is unlocked. At this time, the signal processing unit 111 causes the communication unit 12 to transmit a notification signal (radio signal S1) notifying that the unlocking operation has started. In the mobile terminal 2, the acquisition mode of the control unit 21 is switched from the normal mode to the stop mode by acquiring the notification signal received by the communication unit 22 by the control unit 21.

(7) Effect As is clear from the above-described embodiment, the electric lock system 10 according to the first aspect includes an electric lock device 1 for unlocking at least an entrance 4 of a building 3 and an electric lock device 1. It includes a mobile terminal 2 that performs wireless communication between them. The electric lock device 1 is configured to unlock at least the doorway 4 by performing wireless communication with the mobile terminal 2. The mobile terminal 2 has at least a normal mode in which the wireless signal S1 transmitted from the electric lock device 1 is periodically acquired, and a low frequency mode in which the acquisition frequency is lower than that in the normal mode.

According to the first aspect, the mobile terminal 2 has a normal mode in which the wireless signal S1 from the electric lock device 1 is periodically acquired, and a low frequency mode in which the acquisition frequency is lower than that in the normal mode. By executing the low frequency mode, the power consumption of the mobile terminal 2 can be suppressed.

In the electric lock system 10 according to the second aspect, in the first aspect, the mobile terminal 2 further has a stop mode for stopping the acquisition operation of the wireless signal S1.

According to the second aspect, one of the low frequency mode, the normal mode, and the stop mode can be selected according to the reception status of the radio signal S1 from the electric lock device 1. However, this configuration is not essential, and the mobile terminal 2 may have only two modes, for example, a low frequency mode and a normal mode.

In the electric lock system 10 according to the third aspect, in the second aspect, the radio signal S1 is a beacon signal periodically transmitted from the electric lock device 1. The mobile terminal 2 is configured to switch from the low frequency mode to the normal mode when the beacon signal is acquired in the low frequency mode.

According to the third aspect, when the beacon signal is acquired, the user 5 is near the building 3 (electric lock device 1), so that the user 5 can switch from the low frequency mode to the normal mode. The next operation (operation of the lock side operation unit 14) can be detected quickly. Further, by detecting the operation of the user 5 as soon as possible, the time required for unlocking the doorway 4 can be shortened. However, this configuration is not essential, and even when a beacon signal is acquired, it may be configured so that the low frequency mode cannot be switched to the normal mode.

In the electric lock system 10 according to the fourth aspect, in the second or third aspect, the radio signal S1 is a beacon signal periodically transmitted from the electric lock device 1. The mobile terminal 2 is configured to be switched from the normal mode to the stop mode when the state of acquiring the beacon signal in the normal mode continues for a certain period of time.

According to the fourth aspect, when the state of acquiring the beacon signal in the normal mode continues for a certain period of time, it is assumed that the user 5 is talking, for example, in the vicinity of the doorway 4 of the building 3. .. Therefore, in such a case, by switching from the normal mode to the stop mode, it is possible to suppress the power consumption of the mobile terminal 2 and reduce the risk of unauthorized unlocking. However, this configuration is not essential, and may be configured so that, for example, the normal mode can be switched to the low frequency mode.

In the electric lock system 10 according to the fifth aspect, in any one of the second to fourth aspects, the radio signal S1 is a beacon signal periodically transmitted from the electric lock device 1. The mobile terminal 2 is configured to be switched from the low frequency mode to the stop mode when the beacon signal is not acquired within a certain period in the low frequency mode.

According to the fifth aspect, if the beacon signal cannot be acquired within a certain period of time, it is assumed that the user 5 is away from the building 3. In such a case, by switching from the low frequency mode to the stop mode, unnecessary acquisition operations can be stopped, and thus power consumption in the mobile terminal 2 can be suppressed. In addition, since the low-frequency mode is continued until a certain period of time elapses, there is an advantage that convenience is not impaired if the user goes out for a short time. However, this configuration is not essential, and the low frequency mode may be continued even when the beacon signal cannot be acquired within a certain period of time, for example.

In the electric lock system 10 according to the sixth aspect, in the first aspect, the electric lock device 1 has a lock side operation unit 14 that accepts an operation by the user 5. The wireless signal S1 is a reception signal indicating that the lock-side operation unit 14 has received an operation by the user 5. The mobile terminal 2 is configured to be switched from the normal mode to the low frequency mode when the reception signal is not acquired within a predetermined period in the normal mode.

According to the sixth aspect, if the reception signal cannot be acquired within a predetermined period, it is assumed that the user 5 cannot operate the lock side operation unit 14. In such a case, by switching from the normal mode to the low frequency mode, the power consumption in the mobile terminal 2 can be suppressed by reducing the acquisition frequency. However, this configuration is not essential, and may be configured so that the normal mode can be switched to the stop mode, for example, when the reception signal cannot be acquired within a predetermined period.

In the electric lock system 10 according to the seventh aspect, in any one of the second to sixth aspects, the mobile terminal 2 has a terminal-side operation unit 23 that accepts an operation by the user 5. The mobile terminal 2 is configured to switch from the stop mode to the normal mode when the terminal side operation unit 23 receives an operation by the user 5 in the stop mode.

According to the seventh aspect, the stop mode can be switched to the normal mode based on the intention of the user 5. However, this configuration is not essential, and may be configured so that the stop mode can be switched to the low frequency mode by an operation by the user 5, for example.

In the electric lock system 10 according to the eighth aspect, in any one of the second to seventh aspects, the mobile terminal 2 has a terminal-side operation unit 23 that accepts an operation by the user 5. The mobile terminal 2 is configured to execute a normal mode when the terminal-side operation unit 23 receives an operation by the user 5.

According to the eighth aspect, the acquisition operation of the radio signal S1 from the electric lock device 1 can be started in the normal mode based on the intention of the user 5. However, this configuration is not essential, and may be configured to start the acquisition operation of the wireless signal S1 in the low frequency mode by, for example, an operation by the user 5.

In the electric lock system 10 according to the ninth aspect, in any one of the second to eighth aspects, the mobile terminal 2 changes from the normal mode to the stop mode when the electric lock device 1 starts the unlocking operation in the normal mode. It is configured to switch to.

According to the ninth aspect, when the electric lock device 1 starts the unlocking operation, it is not necessary to acquire the wireless signal S1, and the power consumption in the mobile terminal 2 is reduced by switching from the normal mode to the stop mode. It can be suppressed. However, this configuration is not essential, and may be configured so that the electric lock device 1 can be switched to the low frequency mode when the electric lock device 1 starts the unlocking operation in the normal mode, for example.

The program according to the tenth aspect has a normal mode in which at least the wireless signal S1 transmitted from the electric lock device 1 is periodically acquired by the computer used in the mobile terminal 2, and the acquisition frequency is lower than that in the normal mode. Run with low frequency mode. The mobile terminal 2 performs wireless communication with at least the electric lock device 1 that unlocks the doorway 4 of the building 3.

According to the tenth aspect, the mobile terminal 2 has a normal mode in which the wireless signal S1 from the electric lock device 1 is periodically acquired, and a low frequency mode in which the acquisition frequency is lower than that in the normal mode. By executing the low frequency mode, the power consumption of the mobile terminal 2 can be suppressed.

The method for controlling the mobile terminal according to the eleventh aspect is a method for controlling the mobile terminal 2 that performs wireless communication with at least the electric lock device 1 that unlocks the doorway 4 of the building 3. The control method of the mobile terminal is at least a step of executing a normal mode in which the wireless signal S1 transmitted from the electric lock device 1 is periodically acquired and a step of executing a low frequency mode in which the acquisition frequency is lower than that of the normal mode. And, including.

According to the eleventh aspect, the mobile terminal 2 has a normal mode in which the wireless signal S1 from the electric lock device 1 is periodically acquired, and a low frequency mode in which the acquisition frequency is lower than that in the normal mode. By executing the low frequency mode, the power consumption of the mobile terminal 2 can be suppressed.

(8) Modification Example Hereinafter, a modification of the present embodiment will be described.

In the present embodiment, the case where the building 3 is a detached house has been described as an example, but the building 3 is not limited to the detached house, for example, a house other than the detached house such as each dwelling unit of an apartment house, or an office or a store. It may be a non-residential facility such as a nursing facility.

In the present embodiment, the case where the mobile terminal 2 is a smartphone has been described as an example, but the mobile terminal 2 is not limited to the smartphone, and may be, for example, a general-purpose information terminal such as a PDA (Personal Digital Assistant) or a tablet. ..

In the present embodiment, the case where the communication method between the electric lock device 1 and the mobile terminal 2 is BLE-compliant wireless communication has been described as an example, but for example, wireless communication using other radio waves or infrared rays has been described. It may be optical communication or the like using light as a medium.

In the present embodiment, the key ID is authenticated by the electric lock device 1, but the present invention is not limited to this example, and the key ID may be authenticated by, for example, the mobile terminal 2. That is, in this case, the registration ID stored in advance in the electric lock device 1 is transmitted from the electric lock device 1 to the mobile terminal 2, and the key ID and the registration ID are collated by the mobile terminal 2 to perform both. If they match, the authentication signal may be transmitted from the mobile terminal 2 to the electric lock device 1. In this case, the electric lock device 1 enables the doorway 4 to be unlocked by receiving the authentication signal from the mobile terminal 2.

In the present embodiment, the case where the control unit 21 has three modes (low frequency mode, normal mode, and stop mode) has been described as an example. On the other hand, in addition to the above three modes, the control unit 21 acquires a mode in which the acquisition frequency is lower than that in the low frequency mode, a mode in which the acquisition frequency is between the low frequency mode and the normal mode, and the acquisition frequency is higher than the normal mode. It may have a mode or the like with a high frequency.

The switching condition between the modes in the present embodiment is an example, and switching can be performed under any condition. For example, in the present embodiment, the normal mode is switched to the stop mode on the condition that the unlocking operation by the electric lock device 1 is started, but the normal mode is changed on the condition that the control unit 21 acquires the reception signal. You may switch to stop mode.

The predetermined period, the fixed period, and the fixed time in the present embodiment are examples, and can be appropriately set according to, for example, the construction state of the electric lock device 1.

1 Electric lock device 14 Lock side operation unit 2 Mobile terminal 23 Terminal side operation unit 3 Building 4 Doorway 5 User 10 Electric lock system S1 Radio signal

Claims (14)

At least an electric lock device that unlocks the entrance and exit of the building,
A mobile terminal for wireless communication with the electric lock device is provided.
The electric lock device is configured to unlock at least the doorway by performing wireless communication with the mobile terminal.
The mobile terminal stops at least a normal mode in which a wireless signal transmitted from the electric lock device is periodically acquired, a low frequency mode in which the acquisition frequency is lower than that in the normal mode, and an operation of acquiring the wireless signal. Has a stop mode and
The radio signal is a beacon signal periodically transmitted from the electric lock device.
The mobile terminal is configured to switch from the low frequency mode to the stop mode when the beacon signal is not acquired within a certain period of time in the low frequency mode.
Electric lock system. At least an electric lock device that unlocks the entrance and exit of the building,
A mobile terminal for wireless communication with the electric lock device is provided.
The electric lock device is configured to unlock at least the doorway by performing wireless communication with the mobile terminal.
The mobile terminal has at least a normal mode in which a wireless signal transmitted from the electric lock device is periodically acquired and a low frequency mode in which the acquisition frequency is lower than that in the normal mode.
The electric lock device has a lock-side operation unit that receives an operation by a user.
The wireless signal is a reception signal indicating that the lock-side operation unit has received an operation by the user.
The mobile terminal is configured to switch from the normal mode to the low frequency mode when the reception signal is not acquired within a predetermined period in the normal mode.
Electric lock system. At least an electric lock device that unlocks the entrance and exit of the building,
A mobile terminal that performs wireless communication with the electric lock device is provided.
The electric lock device is configured to unlock at least the doorway by performing wireless communication with the mobile terminal.
The mobile terminal stops at least a normal mode in which a wireless signal transmitted from the electric lock device is periodically acquired, a low frequency mode in which the acquisition frequency is lower than that in the normal mode, and an operation of acquiring the wireless signal. Has a stop mode and
The mobile terminal is configured to switch from the normal mode to the stop mode when the electric lock device starts the unlocking operation in the normal mode.
Electric lock system. The mobile terminal further has a stop mode for stopping the wireless signal acquisition operation.
The electric lock system according to claim 2. The radio signal is a beacon signal periodically transmitted from the electric lock device.
The mobile terminal is configured to switch from the normal mode to the stop mode when the state of acquiring the beacon signal in the normal mode continues for a certain period of time.
The electric lock system according to claim 1 or 3 or 4. The mobile terminal has a terminal-side operation unit that accepts operations by the user.
The mobile terminal is configured to switch from the stop mode to the normal mode when the terminal-side operation unit receives an operation by the user in the stop mode.
The electric lock system according to any one of claims 1, 3 to 5. The radio signal is a beacon signal periodically transmitted from the electric lock device.
The mobile terminal is configured to switch from the low frequency mode to the normal mode when the beacon signal is acquired in the low frequency mode.
The electric lock system according to any one of claims 1 to 6. The mobile terminal has a terminal-side operation unit that accepts operations by the user.
The mobile terminal is configured to execute the normal mode when the terminal-side operation unit receives an operation by the user.
The electric lock system according to any one of claims 1 to 7. At least for computers used in mobile terminals that perform wireless communication with electric lock devices that unlock entrances and exits of buildings.
At least, a normal mode in which the wireless signal transmitted from the electric lock device is periodically acquired, a low frequency mode in which the acquisition frequency is lower than that in the normal mode, and a stop mode in which the acquisition operation of the wireless signal is stopped. To execute,
To switch the computer from the low frequency mode to the stop mode when the beacon signal periodically transmitted from the electric lock device is not acquired within a certain period of time in the low frequency mode.
program. At least for computers used in mobile terminals that perform wireless communication with electric lock devices that unlock entrances and exits of buildings.
At least, a normal mode in which the wireless signal transmitted from the electric lock device is periodically acquired and a low frequency mode in which the acquisition frequency is lower than that in the normal mode are executed .
In the normal mode, when the lock-side operating device of the electric lock device does not acquire a reception signal indicating that the operation has been received from the user within a predetermined period, the computer is switched from the normal mode to the low frequency mode. To make
program. At least for computers used in mobile terminals that perform wireless communication with electric lock devices that unlock entrances and exits of buildings.
At least, a normal mode in which the wireless signal transmitted from the electric lock device is periodically acquired, a low frequency mode in which the acquisition frequency is lower than that in the normal mode, and a stop mode in which the acquisition operation of the wireless signal is stopped. To execute,
To switch the computer from the normal mode to the stop mode when the electric lock device starts the unlocking operation in the normal mode.
program. It is a control method for a mobile terminal that performs wireless communication with at least an electric lock device that unlocks the entrance and exit of a building.
At least, a step of executing a normal mode for periodically acquiring a wireless signal transmitted from the electric lock device, a step of executing a low frequency mode in which the acquisition frequency is lower than that of the normal mode, and a step of acquiring the wireless signal. Includes a step to perform a stop mode to stop operation,
In the low frequency mode, when the beacon signal periodically transmitted from the electric lock device is not acquired within a certain period of time, the low frequency mode is switched to the stop mode.
How to control a mobile terminal. It is a control method for a mobile terminal that performs wireless communication with at least an electric lock device that unlocks the entrance and exit of a building.
At least, it includes a step of executing a normal mode in which a radio signal transmitted from the electric lock device is periodically acquired, and a step of executing a low frequency mode in which the acquisition frequency is lower than that of the normal mode.
In the normal mode, when the lock side operation device of the electric lock device does not acquire a reception signal indicating that the operation has been received from the user within a predetermined period, the normal mode is switched to the low frequency mode.
How to control a mobile terminal. It is a control method for a mobile terminal that performs wireless communication with at least an electric lock device that unlocks the entrance and exit of a building.
At least, a step of executing a normal mode for periodically acquiring a wireless signal transmitted from the electric lock device, a step of executing a low frequency mode in which the acquisition frequency is lower than that of the normal mode, and a step of acquiring the wireless signal. Includes a step to perform a stop mode to stop operation,
In the normal mode, when the electric lock device starts the unlocking operation, the normal mode is switched to the stop mode.
How to control a mobile terminal.

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