JP7258626B2 - electronic clock - Google Patents

Description

The present invention relates to electronic timepieces.

Conventionally, there is a technique for coping with wireless line failures. Patent Literature 1 discloses a technique of an automatic reconnection method in a mobile communication network including a plurality of base stations and a plurality of mobile communication switching centers. In the automatic reconnection method of Patent Document 1, when the mobile switching center detects recovery of the wireless line from failure, it transmits character display information indicating reconnection to the other user.

JP-A-2000-23231

2. Description of the Related Art In an electronic timepiece, a technique is being studied for performing wireless communication with a mobile communication device and notifying the user of incoming call information of the mobile communication device. Here, when wireless communication is disabled, the electronic timepiece may not be able to obtain incoming call information and may not be able to provide incoming call information to the user. As a result, the user may fail to confirm incoming call information.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an electronic timepiece capable of suppressing omission of confirmation of incoming call information.

An electronic timepiece according to the present invention comprises a communication unit that wirelessly communicates with a mobile communication device, a control unit that acquires incoming call information of the mobile communication device from the mobile communication device by wireless communication and displays the incoming call information, and the control unit. and a display unit controlled by the display unit, when the wireless communication with the mobile communication device is restored to normal after the wireless communication with the mobile communication device is temporarily disabled, the display It is characterized by causing the unit to perform a notification operation.

A control unit of an electronic timepiece according to the present invention causes a display unit to perform a notification operation when wireless communication with a mobile communication device is restored to normal after wireless communication with the mobile communication device is temporarily disabled. The electronic timepiece according to the present invention has the effect of suppressing omission of confirmation of incoming call information by notifying the user that wireless communication has been disabled by the notification operation.

FIG. 1 is a diagram showing an electronic timepiece and an incoming call notification system according to an embodiment. FIG. 2 is a block diagram of the electronic timepiece and incoming call notification system according to the embodiment. FIG. 3 is a diagram for explaining the incoming call notification operation of the embodiment. FIG. 4 is a flow chart showing the operation of the electronic timepiece according to the embodiment. FIG. 5 is a time chart explaining the operation of the electronic timepiece according to the embodiment. FIG. 6 is a diagram for explaining the connection operation of the electronic timepiece according to the embodiment. FIG. 7 is a diagram for explaining the communication OFF operation of the electronic timepiece according to the embodiment. FIG. 8 is another diagram for explaining the communication OFF operation of the electronic timepiece according to the embodiment. FIG. 9 is another flowchart showing the operation of the electronic timepiece according to the embodiment. FIG. 10 is a diagram for explaining the communication ON operation of the electronic timepiece according to the embodiment. FIG. 11 is a diagram for explaining the reconnection operation of the electronic timepiece according to the first modified example of the embodiment. FIG. 12 is a diagram for explaining the operation when wireless communication returns to normal early. FIG. 13 is a diagram for explaining the conditions under which the first notification operation is performed. FIG. 14 is a diagram for explaining the first notification operation. FIG. 15 is a diagram for explaining the conditions under which the second notification operation is performed. FIG. 16 is a diagram for explaining the second notification operation.

An electronic timepiece according to an embodiment of the present invention will be described in detail below with reference to the drawings. In addition, this invention is not limited by this embodiment. In addition, components in the following embodiments include those that can be easily assumed by those skilled in the art or substantially the same components.

[Embodiment]
Embodiments will be described with reference to FIGS. 1 to 10 . This embodiment relates to an electronic timepiece. FIG. 1 is a diagram showing an electronic timepiece and an incoming call notification system according to an embodiment; FIG. 2 is a block diagram of an electronic timepiece and an incoming call notification system according to an embodiment; FIG. FIG. 4 is a flowchart showing the operation of the electronic timepiece according to the embodiment, and FIG. 5 is a time chart explaining the operation of the electronic timepiece according to the embodiment.

As shown in FIG. 1, the electronic timepiece 1 of this embodiment has an analog display section 14 and an exterior case 13 . The outer case 13 has an annular shape, for example, a cylindrical shape. Various marks are arranged on the front surface of the exterior case 13 to indicate the state and operation of the electronic timepiece 1 . A communication ON mark 18a, a communication OFF mark 18b, an ACT mark 19, a CALL mark 20, an INFO mark 25, and the like are arranged on the exterior case 13 of the present embodiment. Each mark such as the communication ON mark 18a, the communication OFF mark 18b, the ACT mark 19, the CALL mark 20, the INFO mark 25, etc. may be arranged on the analog display section 14 such as the dial 15 or the like.

The ACT mark 19 is arranged, for example, in the direction of 12 o'clock when viewed from the center of the clock. The communication ON mark 18a is arranged, for example, in the direction of 2 o'clock when viewed from the center of the clock. The communication OFF mark 18b is arranged, for example, in the direction of 1 o'clock when viewed from the center of the clock. An antenna mark 18c indicating an antenna is arranged between the communication ON mark 18a and the communication OFF mark 18b. The CALL mark 20 is arranged, for example, in the direction of 11 o'clock when viewed from the center of the clock. The INFO mark 25 is arranged, for example, in the direction of 10 o'clock when viewed from the center of the clock.

The ACT mark 19 is a mark for indicating that the electronic timepiece 1 is trying to connect with the mobile communication device 50 . The communication ON mark 18a is a mark for indicating that the electronic timepiece 1 has established a connection with the mobile communication device 50. FIG. The communication OFF mark 18b is a mark for indicating that the connection between the electronic timepiece 1 and the mobile communication device 50 has failed. The CALL mark 20 is a mark for indicating that the electronic timepiece 1 has obtained incoming call information from the mobile communication device 50 .

The CALL mark 20 is a mark that notifies the mobile communication device 50 that there is an incoming call. The INFO mark 25 is a mark that notifies the mobile communication device 50 that a message such as an e-mail or SNS (Social Networking Service) has been received. That is, the electronic timepiece 1 of the present embodiment can not only notify the user that there is an incoming call to the mobile communication device 50, but also can notify the user of the type of incoming call.

The analog display section 14 is accommodated in the internal space of the exterior case 29 . The analog display section 14 has hands 6 , a dial 15 and a date display section 26 . The pointer 6 has a second hand 6a, a minute hand 6b and an hour hand 6c. The pointer 6 is part of the display. The date display portion 26 is a member for displaying the date and the day of the week, and is arranged on the back side of the dial 15 . The date display portion 26 is a plate-like member on which characters indicating the date and day of the week are arranged, and is also called a date plate. The dial 15 is provided with an opening for displaying characters of the date display portion 26 . A crown 16 and push buttons 17 are arranged on the exterior case 29 .

The electronic timepiece 1 of this embodiment has a function of wirelessly communicating with the mobile communication device 50 . The mobile communication device 50 is, for example, a device owned by the user of the electronic timepiece 1 and used by the user. The mobile communication device 50 is typically a mobile terminal device such as a smart phone. The mobile communication device 50 has a function of performing short-range wireless communication. Also, the mobile communication device 50 has a function of communicating with the external server 200 via the Internet network 100 . A mobile communication device 50 has a housing 51 and a touch panel 52 . The touch panel 52 is superimposed on the image display surface. A user interface of the application 60 is displayed on the image display screen. A user can operate the mobile communication device 50 by performing an input operation on the touch panel 52 .

As shown in FIG. 2, the electronic timepiece 1 has a driving section 2, a control section 3, a communication section 4, a battery 5, hands 6, a motor 7, a memory 8, a sensor 9, a solar cell 11, and a buzzer 12. The electronic timepiece 1 of this embodiment is an analog electronic timepiece that displays the time with hands 6 . The electronic timepiece 1 may have a digital display that displays the time.

A battery 5 is a power source for the electronic timepiece 1 and is, for example, a rechargeable secondary battery. The battery 5 supplies electric power to each unit including the drive unit 2 , the control unit 3 and the communication unit 4 . A pointer 6 is connected to a motor 7 via a train wheel or the like. Therefore, the pointer 6 rotates in conjunction with the rotation of the motor 7 .

The motor 7 has a first motor 71 and a second motor 72 . The first motor 71 and the second motor 72 are, for example, electromagnetic motors or electrostatic motors. The first motor 71 is a motor that rotates the second hand 6a and the minute hand 6b. The second hand 6a and the minute hand 6b rotate as the first motor 71 rotates. A speed reduction mechanism such as a wheel train is interposed between the first motor 71 and the second hand 6a and the minute hand 6b. The second motor 72 is a motor that rotates the hour hand 6 c and the date display section 26 . A reduction mechanism such as a train wheel is interposed between the second motor 72 and the hour hand 6c and the date display portion . The combination of the hands 6a, 6b, 6c of the hands 6, the date display portion 26, and the motor for rotating them is not limited to the above combination. For example, the second hand 6a, the minute hand 6b, the hour hand 6c, and the date display section 26 may be driven by separate motors.

The memory 8 is, for example, a non-volatile memory such as flash memory or EEPROM. Various programs to be executed by the electronic timepiece 1 are stored in the memory 8 . The memory 8 stores, for example, a program for normal clock operation and an incoming call notification program, which will be described later.

A sensor 9 is a sensor that acquires information about the electronic timepiece 1 . The sensor 9 includes, for example, a temperature sensor that measures the internal temperature of the electronic timepiece 1, an acceleration sensor that measures the acceleration of the electronic timepiece 1, a tilt sensor that detects changes in the tilt angle of the electronic timepiece 1, and light received by the solar cell 11. including an optical sensor or the like that detects the intensity of the A detection result by the sensor 9 is acquired by the control unit 3 and the driving unit 2 .

The solar cell 11 is a photovoltaic mechanism that converts light energy into electrical energy. The solar cell 11 is arranged, for example, on the back side of the dial 15 . Electric power generated by the solar cell 11 is distributed to the battery 5 and the timer circuit.

The buzzer 12 is a ringing mechanism that generates a buzzing sound. The buzzer 12 has, for example, a piezoelectric element such as a piezoelectric element, and generates a buzzing sound by vibration of the piezoelectric element. The piezoelectric element vibrates in response to changes in the supplied voltage to generate a buzzing sound indicating an alarm.

The drive unit 2 is, for example, a clock IC, and drives an operation unit mounted on the electronic timepiece 1 . In the electronic timepiece 1 of the present embodiment, the action units driven by the driving unit 2 include the motor 7 and the buzzer 12 .

The driving section 2 has a motor driving circuit 21 , a power management section 22 , a buzzer driving circuit 23 and a timer 24 . A motor drive circuit 21 is a circuit that drives the motor 7 . A motor drive circuit 21 outputs a drive signal to the motor 7 in accordance with a command input from the control section 3 . For example, the control unit 3 outputs to the drive unit 2 a command to move the second hand 6a, the minute hand 6b, and the hour hand 6c based on the internal time. Upon receipt of this command, the drive unit 2 drives the motor 7 so that the rotational positions of the second hand 6a, minute hand 6b, and hour hand 6c are set to positions corresponding to the internal time.

The power management unit 22 manages charging and discharging of the battery 5 . For example, the power management unit 22 controls power supply from the battery 5 to the driving unit 2 and the control unit 3 . Also, the power management unit 22 manages charging of the battery 5 from the solar battery 11 . Also, the power management unit 22 is connected to a voltage detection circuit that detects the voltage of the battery 5 . The buzzer drive circuit 23 is a circuit that outputs a drive signal for the buzzer 12 . The buzzer driving circuit 23 outputs a driving signal to the buzzer 12 based on the command output from the control section 3 to the driving section 2 .

The timer 24 counts elapsed time based on a clock signal output from an oscillation circuit or the like. The drive unit 2 outputs a drive signal to the timer 24 according to the command input from the control unit 3 . The driving unit 2 uses the timer 24 to perform various operations.

The communication unit 4 has, for example, an antenna, a communication module, and a conversion unit. The communication unit 4 performs short-range wireless communication with the mobile communication device 50 . The communication unit 4 communicates with the mobile communication device 50 by, for example, the Bluetooth (registered trademark) protocol.

The control unit 3 is, for example, a microcomputer, and has a calculation unit 31 , a RAM (Random Access Memory) 32 and a ROM (Read Only Memory) 33 . The calculation unit 31 performs various information processing according to basic programs stored in advance in the ROM 33 . The RAM 32 is used as a work memory for the computing section 31 .

The control unit 3 of this embodiment controls the communication unit 4 and the hands 6 based on a program pre-stored in the electronic timepiece 1 . For example, the controller 3 causes the hands 6 to display the current time. Also, the control unit 3 of the present embodiment executes an incoming call notification program. The incoming call notification program is a program for displaying incoming call information of the mobile communication device 50 on the electronic timepiece 1 and notifying the user of the incoming call information. The control unit 3 acquires incoming call information from the mobile communication device 50 through wireless communication with the mobile communication device 50 .

More specifically, the control unit 3 inquires of the mobile communication device 50 via wireless communication whether or not a new notification has occurred. The inquiry to the mobile communication device 50 may be executed by a user's operation, or may be automatically executed at predetermined intervals. The incoming call notification program of this embodiment is configured to automatically inquire of the mobile communication device 50 whether or not there is a new notification at predetermined intervals. The incoming call notification program is further configured to inquire whether or not there is a new notification according to the user's operation.

An application 60 is installed in the mobile communication device 50 . When the application 60 receives an inquiry from the electronic timepiece 1, it replies whether or not there is a new notification. The application 60 transmits to the electronic timepiece 1 that there is a new notification when there is a new incoming call within a predetermined period of time in the past. In other words, the application 60 responds that there is a new notification when there is a new incoming call to be notified to the user. On the other hand, the application 60 notifies the electronic timepiece 1 that there is no new notification when there is no new incoming call within a predetermined period of time in the past. If there is a new notification, the application 60 notifies the electronic timepiece 1 of the incoming call type. The types of incoming calls include two types of incoming calls, and incoming emails and SNS receptions.

When the mobile communication device 50 responds that there is a new notification, the control unit 3 notifies the user of the existence of the new incoming call. The control unit 3 notifies the user that there is a new notification and the type of incoming call by operating the second hand 6a. For example, when there is a new notification and the new notification is an incoming call, the control unit 3 moves the second hand 6a to the position indicating the CALL mark 20 (hereinafter simply referred to as the "CALL position") as shown in FIG. to move. At this time, the control unit 3 may move the second hand 6a from the current position to the CALL position at a speed faster than the normal movement of the hands. The controller 3 stops the second hand 6a at the CALL position.

When there is a new notification and the new notification is e-mail or SNS reception, the control unit 3 moves the second hand 6a to a position indicating the INFO mark 25 (hereinafter simply referred to as "INFO position"). At this time, the control unit 3 may move the second hand 6a from the current position to the INFO position at a speed faster than the normal movement of the hands. The controller 3 stops the second hand 6a at the INFO position. When there is a new notification and the new notification includes both an incoming phone call and an e-mail or SNS reception, the control unit 3 may move the second hand 6a to the CALL position or move the second hand 6a to the INFO position. Well, the second hand 6a may alternately move to the CALL position and the INFO position.

For example, the control unit 3 may stop the second hand 6a at the CALL position or the INFO position until the user performs an operation, or stop the second hand 6a at the CALL position or the INFO position for a certain period of time. If the second hand 6a is stopped at the CALL position or the INFO position until the user operates it, the controller 3 may rotate the second hand 6a at high speed once every minute. As a result, the position of the minute hand 6b can be moved to a position corresponding to the internal time.

When receiving a response from the mobile communication device 50 that there is no new notification, the control unit 3 causes the hands 6 to operate normally for displaying the time. The control unit 3 issues a hand movement command to the drive unit 2 so that the internal time is displayed by the second hand 6a, the minute hand 6b and the hour hand 6c. The drive unit 2 moves the pointer 6 according to the command.

As will be described below, the control unit 3 of the present embodiment, when the wireless communication with the mobile communication device 50 is restored to normal after the wireless communication with the mobile communication device 50 is temporarily disabled, the pointer 6 to perform the notification operation. For example, the control unit 3 executes a reconnection request to the mobile communication device 50 and a notification operation of the pointer 6 according to an incoming call notification program.

The operation of the control unit 3 of this embodiment will be described with reference to FIGS. 4 and 5. FIG. The flowchart shown in FIG. 4 is started, for example, after wireless communication between the electronic timepiece 1 and the mobile communication device 50 is established. Wireless communication between the electronic timepiece 1 and the mobile communication device 50 is established, for example, by the following procedure. As shown in FIG. 5, in this embodiment, the electronic timepiece 1 issues a connection request when starting a connection by wireless communication. That is, wireless communication is established by the following procedure.
(1) The electronic timepiece 1, for example, starts the wireless communication connection procedure while the second hand 6a is operating normally.
(2) The electronic timepiece 1 issues a connection request to the portable communication device 50 . The electronic timepiece 1 transmits a connection request to the mobile communication device 50 based on pre-stored pairing information.
(3) The application 60 of the mobile communication device 50 transmits a connection request in response to the connection request from the electronic timepiece 1 . The application 60 authenticates the electronic timepiece 1 based on pre-stored pairing information, and transmits a connection request to the electronic timepiece 1 .
(4) When the mobile communication device 50 transmits a connection request in response to the connection request from the electronic timepiece 1 , wireless communication connection is established between the electronic timepiece 1 and the mobile communication device 50 . A communication link is formed between the electronic timepiece 1 and the mobile communication device 50 .

When the wireless communication connection is established with the mobile communication device 50, the control unit 3 confirms the notification in step S10. The control unit 3 transmits a signal for confirming whether or not there is a new notification to the mobile communication device 50 . In FIG. 5, notification acknowledgments are sent at (5) and (8). After step S10 is executed, the process proceeds to step S20.

In step S20, the control unit 3 determines whether or not notification information has been received. The control unit 3 determines whether or not notification information has been received from the mobile communication device 50 during a predetermined period of time after confirmation of notification in step S10. If the determination in step S20 is affirmative that the notification information has been received, the process proceeds to step S30, and if the determination is negative, the process proceeds to step S70.

In step S30, the control unit 3 determines whether or not there is a new notification. In FIG. 5, the notification information is transmitted from the mobile communication device 50 to the electronic timepiece 1 in (6), and the determination in step S30 is performed. The control unit 3 makes the determination in step S30 based on the notification information received from the mobile communication device 50. FIG. If the received notification information indicates that there is a new notification, an affirmative determination is made in step S30. As a result of the determination in step S30, when the new notification is determined to be positive, the process proceeds to step S40, and when the determination is negative, the process proceeds to step S60.

At step S40, the controller 3 moves the second hand 6a to a predetermined position. The predetermined position in this embodiment is the CALL position or the INFO position. For example, the predetermined position when the new notification is an incoming call is the CALL position. In this case, the control unit 3 outputs a hand movement command to the drive unit 2 to move the second hand 6a to the CALL position and stop it at the CALL position. The drive unit 2 moves the second hand 6a to the CALL position in accordance with the hand movement command from the control unit 3 . After step S40 is executed, the process proceeds to step S50.

In step S50, the control unit 3 determines whether or not to return the hand movement of the hands 6 to the normal hand movement. For example, after outputting a command to move the second hand 6a to a predetermined position, the control unit 3 makes an affirmative determination in step S50 when an operation by the user is detected. The control unit 3 may make an affirmative determination in step S50 when a predetermined time has elapsed after outputting the command to move the second hand 6a to the predetermined position. As a result of the determination in step S50, when the affirmative determination to return to the normal hand movement is made, the process proceeds to step S60, and when the negative determination is made, the determination of step S50 is repeated.

In step S<b>60 , the control unit 3 outputs a hand movement command to the drive unit 2 to cause the hands 6 to perform normal time hand movement. Normal time hand movement is a hand movement that positions the second hand 6a, the minute hand 6b, and the hour hand 6c at positions corresponding to the internal time. In normal time movement, the second hand 6a is moved, for example, by one second. Note that the second hand 6a may be rotated continuously at a constant speed in normal time movement. When step S60 is executed, this control flow ends.

In step S70, the control section 3 outputs a hand movement command to the drive section 2 to move the second hand 6a to the ACT position and stop it at the ACT position. In FIG. 5, step S70 is executed when the mobile communication device 50 does not respond to the notification confirmation of (8). The ACT position is the position indicating the ACT mark 19 . The rotation direction of the second hand 6a when moving to the ACT position is, for example, the clockwise rotation direction. The drive unit 2 rotates the second hand 6a to the ACT position as shown in FIG. After step S70 is executed, the process proceeds to step S80.

At step S<b>80 , the control unit 3 transmits a connection request to the mobile communication device 50 . When wireless communication with the mobile communication device 50 is cut off, the control unit 3 of the present embodiment automatically transmits a connection request and tries to restore wireless communication. In FIG. 5, a connection request is transmitted to the mobile communication device 50 at (10). After step S80 is executed, the process proceeds to step S90.

At step S<b>90 , the control unit 3 determines whether or not a connection request from the mobile communication device 50 has been received. As a result of the determination in step S90, if the connection request has been received, the process proceeds to step S100, and if the determination is negative, the process proceeds to step S140. In FIG. 5, a connection request is transmitted from the portable communication device 50 to the electronic timepiece 1 at (11), and the process proceeds to step S100.

In step S100, the controller 3 moves the hands 6 in an unusual motion. This operation is the operation of the hands 6 when wireless communication with the mobile communication device 50 is restored to normal, and is called "notification operation" in this embodiment. The notification operation is an operation of notifying the user that wireless communication with the mobile communication device 50 has been resumed. In the notification operation of the present embodiment, the control unit 3 first moves the second hand 6a to the communication ON position, and then sets the rotation interval of the second hand 6a to a different value than usual. The rotation interval is, for example, 10 seconds or 20 seconds. After step S100 is executed, the process proceeds to step S110.

In step S110, the control unit 3 determines whether or not a button operation has been performed. The control unit 3 makes an affirmative determination in step S110 when the user operates the push button 17 after the notification operation is started. As a result of the determination in step S110, if the button operation is determined to be affirmative, the process proceeds to step S120, and if the determination is negative, the process proceeds to step S100. Note that the operation for ending the notification operation is not limited to the operation on the push button 17 . In FIG. 5, the user's button operation is detected in (13), and the process proceeds to step S120.

In step S120, the control unit 3 outputs to the drive unit 2 a command to display the time when the wireless communication is disabled. The time of disconnection is the time when the wireless communication was disconnected. The time of disconnection may be, for example, the time when a negative determination is made in step S20. The control unit 3 outputs a hand movement command to the drive unit 2 to rotate the hands 6 to a position corresponding to the time of cutting and stop at a position corresponding to the time of cutting. After step S120 is executed, the process proceeds to step S130.

In step S130, the control unit 3 determines whether or not to return the hand movement of the hands 6 to the normal hand movement. For example, the control unit 3 makes an affirmative determination in step S130 when a predetermined time has passed since the hand movement command was output in step S120. Note that the control unit 3 may determine to return the hand movement of the hands 6 to the normal hand movement when the user's operation is detected even before the predetermined time has elapsed. As a result of the determination in step S130, if the affirmative determination to return to normal hand movement is made, the process proceeds to step S60, and if the negative determination is made, the process proceeds to step S120. In FIG. 5, normal hand movement is started at (15).

In step S140, the control unit 3 determines whether or not the connection has failed. For example, if wireless communication is not restored to normal even after transmitting a connection request to the mobile communication device 50 a predetermined number of times, the control unit 3 makes an affirmative determination in step S140. As a result of the determination in step S140, if the connection has failed, the process proceeds to step S150, and if the determination is negative, the process proceeds to step S80 to transmit the connection request again. The control unit 3 repeats the connection request at predetermined intervals. That is, in the incoming call notification program, the interval from the transmission of the connection request to the mobile communication device 50 to the transmission of the next connection request is set to a predetermined interval.

In step S150, the control unit 3 executes a communication OFF operation. The communication OFF operation is an operation for notifying the user that reconnection with the mobile communication device 50 has not been successful and wireless communication with the mobile communication device 50 has been disconnected. The communication OFF operation of this embodiment is, for example, the operation of pointer 6 shown in FIGS.

First, the control unit 3 outputs a hand movement command to the drive unit 2 to move the second hand 6a to the communication OFF position and stop it at the communication OFF position as shown in FIG. The communication OFF position is a position indicating the communication OFF mark 18b. The control unit 3 also outputs a hand movement command to the drive unit 2 to rotate the second hand 6a once every 60 seconds. In response to this hand movement command, the drive unit 2 rotates the second hand 6a once every 60 seconds, as shown in FIG. When the second hand 6a rotates once, the drive unit 2 stops the second hand 6a at the communication OFF position. When step S150 is executed, this control flow ends. Note that the control unit 3 may terminate the communication OFF operation when the user's operation is detected, and cause the hands 6 to perform normal time movement.

As will be described with reference to FIG. 9, the action of attempting to restore wireless communication may be performed by user manipulation. The flowchart shown in FIG. 9 is started, for example, after the communication OFF operation is executed. In step S210, the control unit 3 determines whether or not a reconnection operation has been detected. A reconnection operation is an operation by the user, for example, an operation on the push button 17 . As an example, the reconnection operation is an operation of pushing the push button 17 while the communication OFF operation is being performed. As a result of the determination in step S210, when the reconnection operation is determined to be positive, the process proceeds to step S220, and when the determination is negative, the determination in step S210 is repeated.

In step S220, the control unit 3 outputs a hand movement command to the driving unit 2 to move the second hand 6a to the ACT position and stop it at the ACT position. After step S220 is executed, the process proceeds to step S230.

At step S<b>230 , the control unit 3 transmits a connection request to the mobile communication device 50 . After step S230 is executed, the process proceeds to step S240.

At step S240, the control unit 3 determines whether or not a connection request from the mobile communication device 50 has been received. As a result of the determination in step S240, if the connection request has been received, the process proceeds to step S250, and if the determination is negative, the process proceeds to step S270.

In step S250, the control unit 3 executes the communication ON operation. The communication ON operation is one of the notification operations, and is an operation for notifying the user that reconnection with the mobile communication device 50 has succeeded and wireless communication has been established. The communication ON operation of this embodiment is, for example, the operation of the hands 6 shown in FIG. In the communication ON operation, the control unit 3 outputs a hand movement command to the driving unit 2 to move the second hand 6a to the communication ON position and stop it at the communication ON position. The communication ON position is a position indicating the communication ON mark 18a. In the communication ON operation, the control unit 3 stops the second hand 6a at the communication ON position until a predetermined time elapses. After step S250 is executed, the process proceeds to step S260.

In step S260, the control section 3 outputs a hand movement command to the drive section 2 to cause the hands 6 to perform normal time hand movement. When step S260 is executed, this control flow ends.

In step S270, the control unit 3 determines whether or not the connection has failed. For example, if wireless communication is not restored to normal even after transmitting a connection request to the mobile communication device 50 a predetermined number of times, the control unit 3 makes an affirmative determination in step S270. The predetermined number of times for determining connection failure in step S270 may be the same as the predetermined number of times in step S140, or may be different. As a result of the determination in step S270, if the connection has failed, the process proceeds to step S280, and if the determination is negative, the process proceeds to step S230 to transmit the connection request again.

In step S280, the control unit 3 executes a communication OFF operation. The communication OFF operation in step S280 is the same as the communication OFF operation in step S150. When step S280 is executed, this control flow ends.

As described above, the electronic timepiece 1 of this embodiment has the communication section 4, the control section 3, and the hands 6. The communication unit 4 includes a communication circuit and a communication unit that wirelessly communicate with the mobile communication device 50 . Control unit 3 includes a control circuit configured to control communication unit 4 and hands 6 . The control unit 3 acquires the incoming call information of the mobile communication device 50 from the mobile communication device 50 by wireless communication, and displays the incoming call information. The pointer 6 is an example of a display section whose operation is controlled by the control section 3 .

When the wireless communication with the mobile communication device 50 is restored to normal after the wireless communication with the mobile communication device 50 is temporarily disabled, the control unit 3 causes the hands 6 to perform the notification operation. The electronic timepiece 1 of the present embodiment can prevent failure to confirm incoming call information by notifying the user that wireless communication has been disabled.

The electronic timepiece 1 of this embodiment notifies the user by the notification operation of the hands 6 that wireless communication has been temporarily disabled. As a result, the electronic timepiece 1 can inform the user that there may have been a new incoming call while wireless communication was disabled, and prompt the user to check the mobile communication device 50 . As a result, even if notification information is missed during a period in which wireless communication is disabled, it is unlikely that incoming call information will be overlooked. Therefore, in the electronic timepiece 1 of the present embodiment, it is possible to lengthen the connection request transmission interval when attempting reconnection. By lengthening the connection request transmission interval, it is possible to retry reconnection for a long period of time.

In this embodiment, the incoming call notification system 10 is configured by the electronic timepiece 1 and the application 60 of the mobile communication device 50 . The incoming call notification system 10 of the present embodiment can prevent the user from omitting confirmation of incoming call information.

[First modification of the embodiment]
A first modification of the embodiment will be described. 11 is a diagram for explaining the reconnection operation of the electronic timepiece according to the first modified example of the embodiment, FIG. 12 is a diagram for explaining the operation when wireless communication is normalized early, and FIG. 14 is a diagram for explaining the first notification operation; FIG. 15 is a diagram for explaining the conditions for the second notification operation; FIG. It is a figure explaining the alerting|reporting operation|movement of. In the first modified example of the embodiment, the difference from the above embodiment is, for example, that the interval at which connection requests are sent is variable.

As shown in FIG. 11, the electronic timepiece 1 according to the first modification of the embodiment is configured to perform a first connection operation and a second connection operation when trying to reconnect with the mobile communication device 50. It is The control unit 3 performs the second connection operation when the wireless communication with the mobile communication device 50 does not recover normally even after performing the first connection operation.

A first connection operation is an operation of repeating a connection request at a first interval Δt1. That is, while control unit 3 does not receive a connection request from portable communication device 50, control unit 3 repeatedly transmits a connection request to portable communication device 50 at first intervals Δt1. When executing the first connection operation, the control unit 3 sets the position of the second hand 6a to the ACT position (see FIG. 6). Upon receiving the connection request from the mobile communication device 50 in the first connection operation, the control unit 3 interrupts the first connection operation and executes the first notification operation.

The condition for ending the first connection operation and shifting to the second connection operation is, for example, that a predetermined time has elapsed since the start of the first connection operation without receiving a connection request from the mobile communication device 50. be. The condition for shifting to the second connection operation may be that the number of transmissions of the connection request to the mobile communication device 50 reaches a predetermined number without receiving the connection request from the mobile communication device 50 .

A second connection operation is an operation of repeating a connection request at a second interval Δt2. That is, while control unit 3 does not receive a connection request from portable communication device 50, control unit 3 repeatedly transmits a connection request to portable communication device 50 at second intervals Δt2. The second interval Δt2 is longer than the first interval Δt1. When executing the second connection operation, the control unit 3 sets the position of the second hand 6a to the ACT position (see FIG. 6). Upon receiving a connection request from the mobile communication device 50 in the second connection operation, the control unit 3 interrupts the second connection operation and executes the second notification operation.

The condition for ending the second connection operation may be that a predetermined time has passed since the start of the second connection operation without receiving a connection request from the mobile communication device 50 . The condition for ending the second connection operation may be that the number of transmissions of the connection request to the mobile communication device 50 reaches a predetermined number without receiving the connection request from the mobile communication device 50 .

When the wireless communication with the mobile communication device 50 is restored normally by executing the first connection operation, the control unit 3 of this modification causes the hands 6 to perform the first notification operation. When the wireless communication with the mobile communication device 50 is restored to normal by executing the second connection operation, the control unit 3 causes the hands 6 to perform the second notification operation. The motion of the pointer 6 in the second notification operation is different from the motion of the pointer 6 in the first notification operation. Therefore, the electronic timepiece 1 of this modified example can notify the user of the length of time during which wireless communication with the portable communication device 50 has been disabled by the movement of the hands 6 .

With reference to FIG. 12, the operation of electronic timepiece 1 when the period during which wireless communication with mobile communication device 50 is disabled (hereinafter simply referred to as "communication disabled period") is short will be described. As shown in FIG. 12, a connection request is transmitted from the electronic timepiece 1 to the mobile communication device 50 in the first connection operation. If the time from the start of the first connection operation until the electronic timepiece 1 receives the connection request from the mobile communication device 50 is short, the control unit 3 causes the hands 6 to perform normal time movement. . That is, the control unit 3 does not perform the notification operation to the user when the communication disabled period is short.

The control unit 3 does not perform the notification operation, for example, when the communication disabled period until the wireless communication is restored to normal is equal to or less than a predetermined time. Alternatively, the control unit 3 does not perform the notification operation when the number of times the connection request is transmitted to the mobile communication device 50 before the wireless communication is restored to normal is equal to or less than a predetermined number of times. When wireless communication is restored, the control unit 3 confirms the notification with the mobile communication device 50, and moves the second hand 6a to a predetermined position when there is a new notification. If the new notification is e-mail or SNS reception, the control unit 3 moves the second hand 6a to the INFO position.

The conditions under which the first notification operation is performed will be described with reference to FIG. The control unit 3 executes the first notification operation when the wireless communication is restored to normal by the first connection operation and the communication disabled period exceeds the predetermined time. Alternatively, the control unit 3 executes the first notification operation when the wireless communication is restored to normal and the number of times the connection request is transmitted to the mobile communication device 50 in the first connection operation exceeds a predetermined number of times. .

The first notification operation is, for example, the 10-second movement shown in FIG. When performing a 10-second hand movement, the control section 3 outputs a hand movement command to the driving section 2 to move the second hand 6a by 10 seconds. The drive unit 2 moves the second hand 6a once every 10 seconds in accordance with this hand movement command. The rotation angle of the second hand 6a in one movement is 60°. For example, the drive unit 2 moves the second hand 6a so that the position of the second hand 6a after movement corresponds to the internal time. For example, when the user's operation is detected, the control unit 3 ends the first notification operation and causes the hands 6 to perform normal time movement.

Conditions for performing the second notification operation will be described with reference to FIG. 15 . When the wireless communication is restored to normal by the second connection operation, the control unit 3 executes the second notification operation. The second notification operation is, for example, the 20-second movement shown in FIG. When performing the 20-second hand movement, the control section 3 outputs a hand movement command to the drive section 2 to move the second hand 6a for 20 seconds. The drive unit 2 moves the second hand 6a once every 20 seconds in accordance with this hand movement command. The rotation angle of the second hand 6a in one movement is 120°. For example, the drive unit 2 moves the second hand 6a so that the position of the second hand 6a after movement corresponds to the internal time. For example, when the user's operation is detected, the control unit 3 ends the second notification operation and causes the hands 6 to perform normal time movement.

The electronic timepiece 1 of this modified example executes two types of notification operations according to the length of the communication unavailable period until wireless communication is restored to normal. Therefore, the electronic timepiece 1 of this modified example can notify the user of the length of the communication unavailable period. Therefore, the electronic timepiece 1 of this modified example can provide the user with information for analyzing the cause of the communication error.

Also, in this modification, the second interval Δt2 is longer than the first interval Δt1. That is, the electronic timepiece 1 of this modified example makes the connection request transmission interval longer when the communication disabled period is longer than when the communication disabled period is short. This reduces power consumption when wireless communication is physically impossible, such as when the mobile communication device 50 is placed in a room away from the electronic timepiece 1 .

Note that the electronic timepiece 1 may perform three or more types of notification operations. For example, when wireless communication is restored to normal in the second notification operation, the control unit 3 executes the second notification operation if the communication disabled period is short, and executes the third notification operation if the communication disabled period is long. may be executed. The third notification action is an action of the pointer 6 that differs from both the first notification action and the second notification action. The third notification operation may be, for example, a 30-second movement.

The control unit 3 may change the threshold value of the communication disabled period for determining which notification operation to perform, depending on the time zone or the like. For example, different threshold values may be set for a time period in which the frequency of incoming calls is low and a time period in which the frequency of incoming calls is high. The time period in which the frequency of incoming calls is low is, for example, a time period in the middle of the night or a time period in which it is determined that the number of notifications to the electronic timepiece 1 is low based on the history of incoming calls to the mobile communication device 50 in the past. A threshold value for a period of time when the frequency of incoming calls is low is longer than a threshold value for a period of time when the frequency of incoming calls is high. In this case, even if the communication disabled period is long, the behavior when wireless communication is restored to normal is not the third notification operation but the second notification operation. In addition, a filtering function is provided for the types of incoming calls (telephone, email, LINE, etc.) to be notified to the electronic watch 1, and even if the period during which no communication is possible is long, the filtering function determines that the number of notifications to the electronic watch 1 is low. It is good also considering the behavior at the time of having recovered to the 2nd alerting|reporting operation|movement instead of the 3rd.

The electronic timepiece 1 may make the first interval Δt1 variable in the first connection operation. For example, in the first connection operation, the first interval Δt1 may be lengthened as the communication disabled period lengthens. However, the maximum value of the first interval Δt1 is set to be equal to or less than the second interval Δt2. The electronic timepiece 1 may make the second interval Δt2 variable in the second connection operation. For example, in the second connection operation, the second interval Δt2 may be lengthened as the communication disabled period lengthens.

The control unit 3 may vary the execution period of the first connection operation according to the time zone or the like. For example, during times when the frequency of incoming calls is low, the execution period of the first connection operation may be shorter than during times when the frequency of incoming calls is high. As a result, the electronic timepiece 1 quickly transitions from the first connection operation to the second connection operation during a time period when the frequency of incoming calls is low, thereby reducing power consumption. In addition, a filtering function is provided for the types of incoming calls (telephone, mail, LINE, etc.) to be notified to the electronic timepiece 1, and the period during which the first connection operation is executed is determined by the filtering function to be less likely to be notified to the electronic timepiece 1. may be shortened.

The control unit 3 may execute the communication OFF operation when the wireless communication does not recover normally even after executing the second connection operation. In this case, when the condition for ending the second connection operation is established, the control unit 3 moves the second hand 6a to the communication OFF position (see FIG. 7) and rotates the second hand 6a once every 60 seconds (see FIG. 8). reference).

[Second Modification of Embodiment]
A second modification of the embodiment will be described. The control unit 3 may display that there is a new notification using a component other than the second hand 6a. For example, if the electronic timepiece 1 has a lamp, the control unit 3 may indicate that there is a new notification by turning on the lamp, blinking the lamp, or the like. In this case, the lamp becomes the display. Moreover, when the display unit is a digital display unit, digital display may be performed as the notification operation. Furthermore, the control unit 3 may change the operation of the display unit such as the second hand 6a depending on whether there is a new notification or not when performing the notification operation.

The contents disclosed in the above embodiments and modifications can be executed in combination as appropriate.

REFERENCE SIGNS LIST 1 electronic clock 2 drive section 3 control section 4 communication section 5 battery 6 hand 6a: second hand 6b: minute hand 6c: hour hand 7 motor 8 memory 9 sensor 10 incoming call notification system 11 solar cell 12 buzzer 13 exterior case 14 analog display section 15 Dial 16 Crown 17 Push button 18a Communication ON mark 18b Communication OFF mark 19 ACT mark 20 CALL mark 21 Motor drive circuit 22 Power supply control unit 23 Buzzer drive circuit 24 Timer 25 INFO mark 26 Date display unit 50 Mobile communication device 60 Application 71 Second First motor 72 Second motor 100 Internet network 200 External server Δt1 First interval Δt2 Second interval

Claims (6)

a communication unit that wirelessly communicates with a mobile communication device;
a control unit that acquires incoming call information of the mobile communication device from the mobile communication device by wireless communication and displays the incoming call information;
a display unit controlled by the control unit;
with
The control unit inquires the mobile communication device about the incoming call information at predetermined intervals, and obtains the new incoming call information to be notified to the user from the mobile communication device by wireless communication,
When wireless communication with the mobile communication device is restored to normal after wireless communication with the mobile communication device is temporarily disabled, the control unit updates the new incoming call information acquired from the mobile communication device. Before displaying on the display unit, the display unit is caused to perform an informing operation to notify recovery of wireless communication.
An electronic clock characterized by: The electronic timepiece according to claim 1, wherein the control unit causes the display unit to perform the notification operation until a confirmation operation is performed by the user. 3. The electronic timepiece according to claim 2, wherein when the confirmation operation is performed by the user, the control section causes the display section to display the time at which wireless communication with the mobile communication device is disabled. When wireless communication with the mobile communication device becomes impossible, the control unit issues a connection request to the mobile communication device, and the wireless communication with the mobile communication device fails even if the connection request is issued a predetermined number of times. 4. The electronic timepiece according to any one of claims 1 to 3, wherein execution of said connection request is terminated if recovery is not normal. When wireless communication with the mobile communication device is disabled, the control unit executes a first connection operation that repeats a connection request to the mobile communication device at a first interval, and executes the first connection operation. 5. If the wireless communication with the mobile communication device is not normally restored even if the wireless communication is performed, a second connection operation is executed to repeat the connection request at a second interval longer than the first interval. or the electronic timepiece according to item 1. The notification operation includes executing the first notification operation and the second connection operation, which are executed when the wireless communication with the mobile communication device is restored to normal after executing the first connection operation. 6. The electronic timepiece according to claim 5, further comprising a second notification operation that is executed when wireless communication with the mobile communication device is restored to normal.

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