JP2019086329A - Movement, timepiece, and timepiece system - Google Patents

Abstract

To display information on a time in a dial plate with a low power consumption while keeping the design property as a timepiece.SOLUTION: The movement includes: a hand; a driving unit for driving the hand, using a power spring as a power source; a dial plate for displaying a time by the hand; a plurality of light emitting elements arranged in a position where the hand on the dial plate can indicate a time; and a battery for supplying a power source to the plurality of light emitting elements.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a movement, a watch, and a watch system.

Mechanical watches driven by a mainspring are known. In a mechanical watch, the hands only indicate the time, and the information that can be displayed on the display area is limited. Then, in addition to the time display by a pointer, the wristwatch which displays information is known.
With regard to wristwatches, there is known a technique for synchronously controlling analog hand movement pulse timing and digital display pulse timing in a wristwatch that displays both analog and digital time points (see, for example, Patent Document 1).
In addition, a clock unit expressing the current time in a form including at least the short hand of the clock, a storage unit storing schedule data including the start date and end date, and schedule data of a predetermined period based on the current time A clock device is known that includes an information processing unit that generates a schedule image that expresses the extracted schedule data in a pie chart, and a display unit that displays the schedule image superimposed on the clock unit (for example, Patent Document 2).

Unexamined-Japanese-Patent No. 2006-266997 JP, 2015-118033, A

If the clock has a function to display a schedule image or a function to synchronously control analog hand movement pulse timing and digital display pulse timing, etc., when the capacity of the primary battery or secondary battery is exhausted, The watch may lose the ability to figure out the time.
Further, in the case where the dial is configured by an LCD (Liquid Crystal Display) or the like, displaying information related to time on the dial consumes power.
If an analog watch is combined with an LCD, the dial of the analog watch can not be used, the design of the dial is limited, and the design as a watch may be degraded.

  The present invention has been made in consideration of such circumstances, and an object thereof is to display time-related information with low power consumption while maintaining the design as a watch. To provide a movement, a watch, and a watch system.

(1) In view of the above problems, the movement according to an aspect of the present invention includes a pointer, a drive unit using a mainspring as a power source and driving the pointer, a dial plate displaying time by the pointer, and It has a plurality of light emitting elements arranged at positions where the hands on the dial can indicate the time, and a battery for supplying power to the plurality of light emitting elements.

(2) In the movement according to one aspect of the present invention, a detection unit that detects that a crown is pulled, and a plurality of the light emission when the detection unit detects that a crown is pulled The device may be provided with an information processing unit for switching to a time setting mode which is an operation mode for setting the time by the pointer by lighting the element.

(3) In the movement according to one aspect of the present invention, the information processing unit detects, at the current time, of the plurality of light emitting elements when the detection unit detects that the crown has been pulled. The corresponding light emitting element may be turned on.

(4) In the movement according to one aspect of the present invention, the information processing unit lights or blinks each of the plurality of light emitting elements corresponding to the current time among the plurality of light emitting elements.

(5) In the movement according to the aspect of the present invention, the information processing unit may cause the light emitting element to emit light according to schedule information among the plurality of light emitting elements.

(6) In the movement according to the aspect of the present invention, the information processing unit may light a light emitting element corresponding to a scheduled time among the plurality of light emitting elements.

(7) In the movement according to the aspect of the present invention, the information processing section may cause the light emitting element that is lit to blink when a scheduled time has come.

(8) In the movement according to the aspect of the present invention, the information processing section may turn off the light-emitting element which is on when the button is pressed.

(9) In the movement according to one aspect of the present invention, the movement includes an hour hand and a minute hand, and each of the plurality of light emitting elements has a locus by a tip of the hour hand and a locus by a tip of the minute hand It may be arranged in between.

(10) A timepiece according to an aspect of the present invention includes the movement according to any one of (1) to (9) above.

(11) A watch system according to an aspect of the present invention includes a watch including the movement according to any one of (5) to (8) above, and a terminal device, and the terminal device includes a schedule application And a creation unit configured to create schedule information including schedule information of the user by the operation of the schedule application, and a transmission unit configured to transmit the schedule information created by the creation unit to the clock. Here, the transmission unit transmits the schedule information to the clock by performing near field communication.

  According to the present invention, time-related information can be displayed in the dial with low power consumption while maintaining the design as a watch.

It is a figure which shows an example of the timepiece system of embodiment of this invention. It is a block diagram showing an example of a timepiece of an embodiment of the present invention. It is a block diagram showing an example of a terminal unit of an embodiment of the present invention. It is an external view which shows an example of the timepiece of embodiment of this invention. It is a figure which shows an example (the 1) of operation | movement of schedule management of the timepiece of embodiment of this invention. It is a figure which shows an example (the 2) of operation | movement of schedule management of the timepiece of embodiment of this invention. It is a figure which shows an example (the 3) of operation | movement of schedule management of the timepiece of embodiment of this invention. It is a figure which shows an example (the 4) of operation | movement of schedule management of the timepiece of embodiment of this invention. It is a figure which shows an example (the 5) of operation | movement of schedule management of the timepiece of embodiment of this invention. It is a figure which shows an example (the 6) of operation | movement of schedule management of the timepiece of embodiment of this invention. It is a figure which shows an example (the 1) of operation | movement of the time setting of the timepiece of embodiment of this invention. It is a figure which shows an example (the 2) of operation | movement of the time setting of the timepiece of embodiment of this invention. It is a figure which shows an example (the 3) of operation | movement of the time setting of the timepiece of embodiment of this invention. It is a figure which shows an example (the 4) of operation | movement of the time setting of the timepiece of embodiment of this invention. It is a figure which shows an example (the 5) of operation | movement of the time setting of the timepiece of embodiment of this invention. It is a figure which shows an example (the 6) of operation | movement of the time setting of the timepiece of embodiment of this invention.

Next, the movement, the watch, and the watch system of the present embodiment will be described with reference to the drawings. The embodiments described below are merely examples, and the embodiments to which the present invention is applied are not limited to the following embodiments.
In addition, “based on XX” in the present application means “based on at least XX”, and includes cases based on other elements in addition to XX. Also, "based on XX" is not limited to the case where XX is used directly, but also includes cases based on those on which operation or processing has been performed on XX. “XX” is an optional element (eg, optional information).

(Embodiment)
Hereinafter, embodiments according to the present invention will be described with reference to the drawings. In the present embodiment, as an example of a watch, a watch which can communicate with an external device such as a smartphone and which combines a mechanical watch driven by a mainspring and a quartz watch driven by a battery will be described as an example. In addition, in each drawing, the scale of each part is appropriately changed as necessary in order to make each part visible. Furthermore, the same code | symbol may be attached | subjected to the structure which has the same or similar function, and the overlapping description regarding the structure may be abbreviate | omitted.

(Overview of clock system)
FIG. 1 is a view showing an example of a timepiece system according to an embodiment of the present invention.
The watch system includes a watch 100, a terminal device 200, and a time server 300.
An example of the watch 100 is a watch configured by combining a mechanical watch driven by a mainspring and a quartz watch driven by a battery. Hereinafter, the description will be continued regarding the case where the watch 100 is a watch. And each of a mechanical watch and a quartz watch has power. Then, it is possible to independently adjust the time for each of the mechanical watch and the quartz watch.
Furthermore, the watch 100 is based on the standard for short distance wireless communication such as Bluetooth (registered trademark), Bluetooth (Wi-Fi), IrDA (Infrared Data Association), TransferJet (registered trademark), ZigBee (registered trademark), etc. Therefore, the near field communication module which communicates is provided. The following description will continue with the case where Bluetooth is applied as an example of near field communication.
The timepiece 100 performs near field communication with the terminal device 200 to acquire time information transmitted by the terminal device 200. The clock 100 adjusts the time of the quartz clock based on the acquired time information.

The terminal device 200 is realized by a mobile phone, a smartphone, a tablet terminal, or the like. The terminal device 200 can be connected to the time server 300 via the network 50 such as the Internet. The terminal device 200 accesses the time server 300 and acquires time information from the time server 300.
In addition, a schedule application is installed in the terminal device 200. The user operates the terminal device 200 to activate a schedule application. The terminal device 200 manages the schedule of the user by activating the schedule application.
In addition, the terminal device 200 is a standard for short distance wireless communication such as Bluetooth (registered trademark), Bluetooth (Wi-Fi), IrDA (Infrared Data Association), TransferJet (registered trademark), ZigBee (registered trademark), etc. And a near field communication module for performing communication according to The following description will continue with the case where Bluetooth is applied as an example of near field communication. The terminal device 200 performs near field communication with the watch 100. The terminal device 200 transmits time information and schedule information to the clock 100. Here, the time information may be time information acquired from the time server 300 or may be time information that the terminal device 200 has.
The clock 100 receives time information transmitted by the terminal device 200 and schedule information.
The clock 100 acquires time information transmitted by the terminal device 200, and adjusts the time of the quartz clock based on the acquired time information. Further, the clock 100 performs time display for adjusting the time of the mechanical clock based on the acquired time information. Also, the clock 100 displays a schedule based on the received schedule information.
The time server 300 is, for example, a server that manages Japan Standard Time. The time server 300 receives the time request transmitted by the terminal device 200, and transmits time information to the terminal device 200 in response to the received time request.

(clock)
FIG. 2 is a block diagram showing an example of a timepiece according to an embodiment of the present invention.
The timepiece 100 includes a mechanical module 102, a digital substrate 112, a solar panel 130, a power supply circuit 132, and a battery 134.
The mechanical module 102 constitutes a mechanical watch. The mechanical module 102 includes an hour hand, a minute hand, a second hand 104, a mainspring 106, a rotary weight 108, and a crown 110.
The hour hand, minute hand, and second hand 104 indicate hands such as an hour hand, a minute hand, and a second hand. The mainspring 106 is a power source of the mechanical module 102 and drives the mechanical module 102. The rotating weight 108 is a weight on a disc provided in the automatic winding movement. The rotary weight 108 freely rotates in both directions to wind up the main spring 106. The crown 110 is part of a winding mechanism. As the crown 110 rotates, the mainspring 106 of the watch 100 is wound up.

The digital substrate 112 constitutes a quartz watch. The digital substrate 112 includes a storage unit 114, a short distance wireless communication unit 120, a detection unit 122, an information processing unit 124, a button 126, and an LED 128.
The short distance wireless communication unit 120 is realized by a short distance wireless communication module. The short distance wireless communication unit 120 communicates with another device such as the terminal device 200.
Specifically, the near-field wireless communication unit 120 holds authentication information used to perform pairing with the terminal device 200. The short distance wireless communication unit 120 receives the transmission request transmitted by the terminal device 200, and outputs the received transmission request to the information processing unit 124. The information processing unit 124 determines whether the authentication information matches the held authentication information, based on the authentication information included in the transmission request output by the short-distance wireless communication unit 120. The information processing unit 124 determines that the authentication is successful if they match, and determines that the authentication is failed if they do not match. If the authentication is successful, a communication link is established between the information processing unit 124 and the terminal device 200. After the communication link with the terminal device 200 is established, the short-distance wireless communication unit 120 receives the time information transmitted by the terminal device 200 and the schedule information, and receives the received time information and the schedule information Output to 124.

  The storage unit 114 is realized by, for example, a random access memory (RAM), a read only memory (ROM), a flash memory, or a hybrid storage device in which a plurality of them are combined. The storage unit 114 stores a program 115 executed by the information processing unit 124, a schedule holding unit 116, and a time holding unit 118. The schedule holding unit 116 holds schedule information included in the schedule information transmitted by the terminal device 200. Here, the schedule information includes the date and time when the schedule is available. The time holding unit 118 holds time information transmitted by the terminal device 200.

When detecting that the crown 110 is pulled out, the detection unit 122 outputs information indicating that the crown 110 is pulled out to the information processing unit 124. When detecting that the button 126 has been pressed, the detection unit 122 outputs, to the information processing unit 124, information indicating that the button 126 has been pressed.
The button 126 includes a start button and a stop button. When the button 126 is pressed, the information processing unit 124 of the watch 100 executes the function of the watch 100.
The LED 128 includes a plurality of light emitting elements. Each of the plurality of light emitting elements is lit or blinks under the control of the information processing unit 124.

For example, all or part of the information processing unit 124 is a functional unit (hereinafter referred to as a software functional unit) realized by execution of the program 115 stored in the storage unit 114 by a processor such as a central processing unit (CPU). ). Note that all or part of the information processing unit 124 may be realized by hardware such as a large scale integration (LSI), an application specific integrated circuit (ASIC), or a field-programmable gate array (FPGA). It may be realized by a combination of a part and hardware.
The information processing unit 124 acquires time information output by the short-distance wireless communication unit 120, and performs time adjustment of the quartz clock based on the acquired time information.
The information processing unit 124 acquires the schedule information output by the short distance wireless communication unit 120, and lights or blinks the corresponding light emitting element among the plurality of light emitting elements included in the LED 128 based on the acquired schedule information.
In addition, when the information processing unit 124 acquires information indicating that the detection unit 122 has output the crown 110, the information processing unit 124 shifts to the time setting mode. When the information processing unit 124 shifts to the time setting mode, it enables the time setting to be performed by the hour hand, the minute hand, and the second hand 104 of the mechanical timepiece by turning on the plurality of light emitting elements.
The solar panel 130 converts light energy into electrical energy. A portion of the light received by the solar panel 130 is converted to electrical energy by the solar cell unit. Electrical energy is stored in the secondary battery. The power supply circuit 132 generates the required power from the battery 134 and the power from the secondary battery. The battery 134 stores power.

(Terminal device)
FIG. 3 is a block diagram showing an example of a terminal device according to an embodiment of the present invention.
The terminal device 200 includes a communication unit 210, a storage unit 220, an information processing unit 230, an operation unit 240, a display unit 260, a short distance wireless communication unit 270, and the respective constituent elements shown in FIG. And bus lines 250 such as an address bus and a data bus for electrical connection.
The communication unit 210 is realized by a communication module. The communication unit 210 communicates with another device such as the time server 300 via the network 50. The communication unit 210 transmits the time request output from the information processing unit 230 to the time server 300. The communication unit 210 also receives the time information transmitted by the time server 300 as a response to the time request, and outputs the received time information to the information processing unit 230.

The short distance wireless communication unit 270 is realized by a short distance wireless communication module. The short distance wireless communication unit 270 performs short distance wireless communication with another device such as the watch 100. The short distance wireless communication unit 270 acquires time information output by the information processing unit 230, and transmits the acquired time information to the clock 100. The short distance wireless communication unit 270 acquires the transmission request output from the information processing unit 230, and transmits the acquired transmission request to the timepiece 100. Further, the short distance wireless communication unit 270 acquires the schedule information output by the information processing unit 230, and transmits the acquired schedule information to the clock 100.
Specifically, the near field communication unit 270 holds authentication information used to perform pairing with the near field communication unit 120. When the user performs an operation of transmitting time information or an operation of transmitting schedule information by operating the operation unit 240, the processing unit 232 performs transmission including identification information of the terminal device 200 and authentication information. The request is created, and the created transmission request is output to the near field communication unit 270.
The storage unit 220 is realized by, for example, a RAM, a ROM, an HDD, a flash memory, or a hybrid storage device in which a plurality of these are combined. The storage unit 220 stores a program 222 executed by the information processing unit 230 and an application 224. An example of the application 224 is a schedule application. In the present embodiment, the description will be continued regarding the case where the application 224 is a schedule application.
The operation unit 240 is formed of, for example, a touch panel, detects a touch operation on a screen displayed on the display unit 260, and outputs a detection result of the touch operation to the information processing unit 230. The touch operation includes an operation of acquiring time information, an operation of transmitting time information, an operation of inputting schedule information, an operation of transmitting schedule information, and the like.

All or part of the information processing unit 230 is, for example, a software function unit realized by executing a program 222 stored in the storage unit 220 or a processor such as a CPU. Note that all or part of the information processing unit 230 may be realized by hardware such as an LSI, an ASIC, or an FPGA, or may be realized by a combination of a software function unit and hardware.
The information processing unit 230 includes, for example, a processing unit 232 and a creation unit 234.

When the user performs an operation of acquiring time information on the operation unit 240, the processing unit 232 outputs, to the generation unit 234, an instruction to generate a time request.
Further, when the user performs an operation of activating the application 224 on the operation unit 240, the processing unit 232 activates the application 224. When the user performs an operation of transmitting the schedule information to the clock 100 after the application 224 is activated, the processing unit 232 outputs an instruction to generate the schedule information to the generation unit 234.
When the creation unit 234 acquires an instruction to create a time request output from the processing unit 232, the creation unit 234 creates a time request and outputs the created time request to the communication unit 210. Further, when acquiring the instruction to generate the schedule information output by the generating unit 234, the generating unit 234 generates the schedule information, and outputs the generated schedule information to the short distance wireless communication unit 270.
The display unit 260 displays a screen for performing an operation of acquiring time information, a screen for performing an operation of transmitting schedule information, and the like.

(Basic configuration of watch)
Generally, a mechanical body including a drive portion of a watch is referred to as a "movement". A dial and pointer are attached to this movement, and the state in which it is put in a watch case and made into a finished product is called "complete" of the watch. The glass side (i.e., the dial side) of the watch case with respect to the main plate constituting the watch substrate is referred to as the "back side" of the movement. In addition, the case back cover side of the watch case with respect to the main plate (that is, the side opposite to the dial) is referred to as the "front side" of the movement.
In the present embodiment, the direction from the dial to the case back lid will be described as upper, and the opposite side as lower.

FIG. 4 is an external view showing an example of a timepiece according to an embodiment of the present invention.
As shown in FIG. 4, the complete of the timepiece 100 according to this embodiment includes a movement 160, a dial 154, an hour hand, a minute hand, a second hand 104 (hour hand 104a (in the hour hand 104a) in a watch case 156 having a case back cover and a glass 158 not shown. , Minute hand 104b and second hand 104c). The dial 154 and the hour hand, minute hand, and second hand 104 are disposed so as to be visible through the glass 158.

  In the illustrated example, the hour hand, the minute hand, and the second hand 104 rotate around the rotation axis O. In the present embodiment, the direction rotating clockwise as viewed from the glass 158 side about the rotation axis O is called clockwise, and the direction rotating counterclockwise as viewed from above is called counterclockwise.

The dial 154 is formed in a disk shape, and includes a main display area 152 for displaying time.
In the main display area 152, a time scale 150 indicated by the hour hand, the minute hand, and the second hand 104 is provided along the outer peripheral edge of the dial 154.
Further, light emitting elements 128 (128-1 to 128-24) such as LEDs (light emitting diodes) are provided in the main display area 152 in a multiple of 12 (24 in the example shown in FIG. 4). ing. In the present embodiment, each of the plurality of light emitting elements 128 is disposed between the trajectory of the tip of the hour hand 104a and the trajectory of the tip of the minute hand 104b when viewed from the glass 158 side. Furthermore, the angle between the adjacent light emitting element and the rotation axis O is 15 degrees. The position of each of the light emitting elements 128-1 to 128-24 is associated with the time indicated by the hour hand, the minute hand, and the second hand 104.
For example, a crown 110 for time correction and various buttons 126 (start button 126-1 and stop button 126-2) for performing mode switching performed by the clock 100 are provided on the side surface of the watch case 156. It is done.

(Movement)
The movement 160 is disposed between the dial 154 and a case back (not shown). The movement 160 has a mechanical module 102 to which an hour hand, a minute hand, and a second hand 104 are attached, a digital substrate 112 disposed on the mechanical module 102 and constituting a quartz watch, and a solar panel 130 disposed on the digital substrate 112 And at least a battery.

  The mechanical module 102, the digital substrate 112, the solar panel 130 and the battery 134 are combined in a state of being temporarily fixed to each other, and finally, a fixing screw (not shown) is fixed to a fixing boss (not shown) formed on the mechanical module 102. ) Is fixed integrally. As described above, the movement 160 is a unit body in which the mechanical module 102, the digital substrate 112, the solar panel 130, and the battery 134 are integrally fixed by attachment with a fixing screw.

(Operation of watch)
The operation of the timepiece 100 configured as described above will be described. As described above, the timepiece 100 includes the movement 160, and the movement 160 includes the mechanical module 102 and the digital substrate 112.
FIG. 5 is a diagram showing an example (part 1) of the operation of schedule management of the clock according to the embodiment of this invention.
(Step S10) The short distance wireless communication unit 120 of the timepiece 100 receives the schedule information transmitted by the terminal device 200, and outputs the received schedule information to the information processing unit 124.
The information processing unit 124 acquires the schedule information output by the short distance wireless communication unit 120, and acquires the schedule information included in the acquired schedule information. The information processing unit 124 causes the light emitting element of the position associated with the scheduled time included in the schedule information to emit light among the plurality of light emitting devices included in the LED 128 based on the acquired schedule information.
Specifically, when the information processing unit 124 includes schedule time indicating that there is a schedule from 10 o'clock to 11 o'clock and schedule time indicating that there is a schedule from 11 o'clock to 11:30 on the schedule information To do the following: The information processing unit 124 lights the light emitting element 128-22 from the light emitting element 128-20 corresponding to the position from 10 o'clock to 11 o'clock as shown in the left diagram of FIG. The light emitting element 128-23 is lighted from the light emitting element 128-22 corresponding to. By this configuration, it is possible to notify the user of the clock 100 that there is a schedule.

(Step S11) The scheduled time, here, 10 o'clock, comes.
(Step S12) The information processing unit 124 blinks the light emitting element corresponding to the scheduled time. Specifically, when 10 o'clock arrives in the state shown in the left drawing of FIG. 5, as shown in the right drawing of FIG. Make 22 blink. By this configuration, it is possible to notify the user of the clock 100 that the scheduled time has arrived.

FIG. 6 is a diagram showing an example (part 2) of the operation of schedule management of the clock according to the embodiment of this invention. FIG. 7 is a diagram showing an example (part 3) of the operation of schedule management of the clock according to the embodiment of this invention.
Step S20 can apply step S10 mentioned above.
(Step S21) The scheduled time, here, 10 o'clock, comes.
(Step S22) When the scheduled time has arrived, and there are a plurality of light emitting elements corresponding to the scheduled time, the information processing unit 124 causes the plurality of light emitting elements to light up in order or repeats lighting and extinguishing. I will let you return. Specifically, when 10 o'clock arrives in the state shown in the left diagram of FIG. 6, the information processing unit 124 emits a light emitting element 128-20 corresponding to 10 o'clock to 11 o'clock as shown in the right diagram of FIG. 6. The light emitting element 128-22 is turned on.
Further, when 10 o'clock comes in the state shown in the left diagram of FIG. 6, the information processing unit 124 emits light from the light emitting element 128-20 corresponding to 10 o'clock to 11 o'clock as shown in FIG. 7A. For the element 128-22, lighting of the light emitting element 128-20, lighting of the light emitting element 128-20 to lighting of the light emitting element 128-21, lighting of the light emitting element 128-20 to lighting of the light emitting element 128-22, lighting of the light emitting element 128-20, Repeat in the order of.
Further, when 10 o'clock arrives in the state shown in the left diagram of FIG. 6, the information processing unit 124 emits light from the light emitting element 128-20 corresponding to 10 o'clock to 11 o'clock as shown in FIG. In the element 128-22, the light emitting element 128-20 turns on the light emitting element 128-22, the light emitting element 128-20 turns off the light emitting element 128-22, the light emitting element 128-20 turns on the light emitting element 128-22,.・ Repeat in the order of By this configuration, it is possible to notify the user of the clock 100 that the scheduled time has arrived.

FIG. 8 is a diagram showing an example (No. 4) of the schedule management operation of the clock according to the embodiment of this invention.
Step S30 can apply step S10 mentioned above.
(Step S31) Scheduled time, here, 10 o'clock comes.
(Step S32) When the scheduled time arrives, the information processing unit 124 causes the light emitting element corresponding to the scheduled time to blink. Specifically, the information processing unit 124 blinks the light emitting element 128-22 from the light emitting element 128-20 corresponding to 10 o'clock to 11 o'clock when the scheduled time of 10 o'clock comes.
(Step S33) The user performs a button operation such as pressing the button 126.
(Step S34) When the user presses the button 126, the information processing unit 124 turns off the flashing light emitting element. Specifically, when detecting that the user has pressed the button 126, the detecting unit 122 outputs, to the information processing unit 124, information indicating that the button 126 has been pressed. When the information processing unit 124 acquires the information indicating that the button 126 output by the detection unit 122 is pressed, the information processing unit 124 causes the light emitting element 128-22 to be extinguished from the blinking light emitting element 128-20.
However, when the scheduled time has elapsed without obtaining information indicating that the button 126 has been pressed, the information processing unit 124 causes the light emitting element 128-22 to blink from the blinking light emitting element 128-20. Turn off. By this configuration, it is possible to reliably notify the user that the scheduled time has arrived. Furthermore, when the scheduled time passes without being noticed by the user, it is possible to prevent power consumption by continuing the extra light emission.

FIG. 9 is a diagram showing an example (No. 5) of the schedule management operation of the clock according to the embodiment of this invention.
(Step S40) The information processing unit 124 turns on the light emitting element corresponding to the scheduled time up to 11 hours in the schedule information included in the schedule information. Specifically, the information processing unit 124 has a scheduled time indicating that there is a schedule from 10 to 11 o'clock, a scheduled time indicating that there is a schedule from 11 to 13 o'clock, and a schedule from 16:30 to 18 o'clock The schedule information including the scheduled time indicating that there is a scheduled time indicating that there is a schedule from 19 o'clock to 20 o'clock, and the scheduled time indicating that the schedule has a schedule from 20 o'clock to 21 o'clock, The following process is performed in the case of 9 minutes.
The information processing unit 124 generates a light emitting element from the light emitting element 128-20 corresponding to the light emitting element 128-22 corresponding to 10 o'clock to 11 o'clock and the light emitting element 128-22 corresponding to 11 o'clock to the 13 o'clock. A light emitting element 128-12 is lit from a light emitting element 128-9 corresponding to 128-2 and 16:30 to 18:00, and a light emitting element 128-16 is lit from a light emitting element 128-14 corresponding to 19:00 to 20:00.
(Step S41) The scheduled time, here, 10 o'clock, comes.
(Step S42) When 10 o'clock, which is one of the scheduled times, comes, the information processing unit 124 blinks the light emitting element corresponding to the scheduled time. Specifically, when the information processing unit 124 reaches 10 o'clock, which is one of the scheduled times, the information processing unit 124 causes the light emitting element 128-22 to blink from the light emitting element 128-20 corresponding to 10 o'clock to 11 o'clock.

(Step S43) The information processing unit 124 turns on the light emitting element corresponding to the scheduled time 11 hours ahead. Specifically, the information processing unit 124 causes the light emitting element 128-18 to light up from the light emitting element 128-16 corresponding to the scheduled time from 11:00 to 20:00.
(Step S44) The user performs a button operation such as pressing the button 126.
(Step S45) When the user presses the button 126, the information processing unit 124 turns off the flashing light emitting element. Specifically, when detecting that the user has pressed the button 126, the detecting unit 122 outputs, to the information processing unit 124, information indicating that the button 126 has been pressed. When the information processing unit 124 acquires information indicating that the button 126 output by the detection unit 122 is pressed, the information processing unit 124 turns off the light emitting element 128-22 from the blinking light emitting element 128-20.
However, when the scheduled time has passed without the button 126 being operated, the information processing unit 124 causes the light emitting element 128-22 to be turned off from the blinking light emitting element 128-20.
By configuring in this way, it is possible to maximize the range of displayable scheduled times based on the schedule information. If the scheduled time is up to 12 hours ahead, if there is a schedule at the current time, it is difficult to determine whether it is the current time or 12 hours ahead, By setting the time to 11 hours ahead, it is possible to easily grasp the schedule.

FIG. 10 is a diagram showing an example (part 6) of the schedule management operation of the clock according to the embodiment of this invention.
FIG. 10 is a diagram in which the time until the scheduled time comes is made visually easy to view by the light emitting element. One hour is represented by the light emitting elements 128-1 to 128-24. The information processing unit 124 turns off counterclockwise sequentially from the light emitting element 128-24 according to the remaining time until the scheduled time. FIG. 10 shows an example of displaying a countdown by turning off the lighted light emitting element when the scheduled time is 11 o'clock.
In FIG. 10, the diagram at the left end shows a lighting example of the light emitting element 128 at 10 o'clock. Since the remaining time until the scheduled time is one hour, all 24 light emitting elements from the light emitting element 128-1 to the light emitting element 128-24 are lit.
In FIG. 10, the middle figure shows a lighting example of the light emitting element 128 at 10:10. Since the remaining time until the scheduled time is 50 minutes, 19 light emitting elements from the light emitting element 128-1 to the light emitting element 128-19 are lit.
In FIG. 10, the rightmost drawing shows a lighting example of the light emitting element 128 at 10:20. Since the remaining time until the scheduled time is 39 minutes, 15 light emitting elements from the light emitting element 128-1 to the light emitting element 128-15 are on. With this configuration, the remaining time until the scheduled time is indicated by sequentially turning off the light-emitting device 128-1 from the lit light-emitting device 128-24 one hour before the scheduled time arrives. The user can visually grasp the remaining time until the scheduled time.

FIG. 11 is a diagram showing an example (No. 1) of the time setting operation of the timepiece according to the embodiment of this invention.
In the digital substrate 112, the short distance wireless communication unit 120 acquires time information transmitted by the terminal device 200, and outputs the acquired time information to the information processing unit 124. The information processing unit 124 acquires the time information output by the short distance wireless communication unit 120, and corrects the current time based on the acquired time information.
FIG. 11 shows an example in which the clock 100 is switched to the time setting mode when the user pulls out the crown 110. Here, the time setting mode refers to setting the time of the mechanical module 102 to the time information held by the digital substrate 112. In the time setting mode, the current time is guided by each of the light emitting elements 128-1 to 128-24. By this configuration, the user can adjust the time of the mechanical watch.
When detecting that the crown 110 is pulled out, the detection unit 122 outputs information indicating that the crown 110 is pulled out to the information processing unit 124. When the information processing unit 124 acquires information indicating that the detection unit 122 outputs the crown 110, the information processing unit 124, based on the time information, a light emitting element corresponding to the position of the hour hand indicating the time information; The light emitting element corresponding to the position of the minute hand is turned on. In the example shown in FIG. 10, the light emitting element 128-20 to the light emitting element 128-22 corresponding to ten o'clock, and the light emitting element 128-3 corresponding to seven minutes are lit. With this configuration, the time of the mechanical module 102 can be easily adjusted to the time held by the digital substrate 112.

FIG. 12 is a diagram illustrating an example (part 2) of the time setting operation of the timepiece according to the embodiment. In FIG. 12, (a) is an example of a guide at the position of the hour hand 104a, (b) is an example of a guide at the position of the minute hand 104b, and (c) is an example of a guide at the position of the hour hand 104a and the minute hand 104b. It is.
As illustrated in (a) of FIG. 11, the information processing unit 124 guides that it is 10 o'clock by lighting the light emitting element 128-21. By this configuration, it is possible to guide the position of the hour hand 104a to the user.
As illustrated in (b) of FIG. 11, the information processing unit 124 guides the light emitting element 128-4 to light up to guide it to be 10 minutes. With this configuration, it is possible to guide the position of the minute hand 104b to the user.
As illustrated in (c) of FIG. 11, the information processing unit 124 guides the light emitting element 128-22 from the light emitting element 128-20 by turning on the light emitting element 128-22, and guides that it is 10 o'clock. Guide you to be 10 minutes by flashing. With this configuration, the positions of the hour hand 104a and the minute hand 104b can be simultaneously guided by the user. In this case, the information processing unit 124 turns on the light emitting element 128-22 from the light emitting element 128-20 and blinks the light emitting element 128-4 to make the guides different. As a result, the user can easily identify the guide at the position of the hour hand 104a and the guide at the position of the minute hand 104b.

FIG. 13 is a diagram showing an example (No. 3) of the time setting operation of the timepiece according to the embodiment of this invention.
In FIG. 13, when the user presses the button 126 in FIG. 12, the guide at the position of the hour hand 104 a and the guide at the position of the minute hand 104 b are switched. With this configuration, the user can easily identify the position of the hour hand 104 a and the position of the minute hand 104 b in the time setting guide.

FIG. 14 is a diagram showing an example (No. 4) of the clock setting operation of the timepiece according to the embodiment of this invention. FIG. 15 is a diagram showing an example (No. 5) of the time setting operation of the timepiece according to the embodiment of this invention.
In the example shown in FIG. 14, the position of the minute hand is represented by the position of the light emitting element 128 and the position between the light emitting elements 128 in order to indicate the position of the minute hand 104 b with high accuracy.
As shown in (a) of FIG. 14, 59 minutes 36 seconds to 0 minutes 25 seconds are indicated by blinking the light emitting elements 128-24.
As shown in (b) of FIG. 14, the light emitting element 128-24 is blinked and the light emitting element 128-1 is lighted to indicate 0 minute 26 seconds to 1 minute 15 seconds.
As shown in (c) of FIG. 14, 1 minute 16 seconds to 2 minutes 5 seconds are indicated by lighting the light emitting element 128-24 and blinking the light emitting element 128-1.
As shown in (a) of FIG. 15, 2 minutes 6 seconds to 2 minutes 55 seconds are indicated by blinking the light emitting element 128-1.
As shown in (b) of FIG. 15, 2 minutes 56 seconds to 3 minutes 45 seconds are indicated by blinking the light emitting element 128-1 and lighting the light emitting element 128-2.
As shown in (c) of FIG. 15, the light emitting element 128-1 is turned on and the light emitting element 128-2 is blinked to indicate 3 minutes 46 seconds to 4 minutes 35 seconds.
Hereinafter, in the same manner, the position of the minute hand is expressed by the position of the light emitting element 128 and the position between the light emitting elements 128. With this configuration, the guide display can be performed with a resolution of 50 seconds, so that the time of the mechanical timepiece can be corrected more accurately.

FIG. 16 is a diagram showing an example (No. 6) of the time setting operation of the timepiece according to the embodiment of this invention.
The clock 100 has a function (Greenwich Mean Time (GMT) function) for guiding the position of the hand at the time of the second time zone in addition to the function for guiding the position of the hand at the current time.
(Step S50) The information processing unit 124 displays a guide of the hour hand, the minute hand, and the second hand 104 at the current time.
(Step S51) The user performs a button operation such as pressing the button 126.
(Step S52) The information processing unit 124 switches from the guides of the hour hand, the minute hand, and the second hand 104 at the current time to the guides of the hour hand, the minute hand, and the second hand 104 at GMT time. Here, when the information processing unit 124 switches from the current hour hand, the minute hand, and the guide of the second hand 104 to the GMT time hour hand, the minute hand, and the guide of the second hand 104, the light emitting element 128 is blinked differently It is also good. By this configuration, in addition to the guides of the current hour hand, the minute hand, and the second hand 104, it is possible to guide the hour hand, the minute hand, and the second hand 104 at GMT time.

Although the above-mentioned embodiment explained the case where watch 100 has 24 light emitting elements, it is not this limitation. For example, the number of light emitting elements included in the timepiece 100 may be twelve or thirty-six which is a multiple of twelve. In these cases, the light emitting elements adjacent to each other and the rotation axis O are arranged to be equal in angle.
In the embodiment described above, the case where the user operates the terminal device 200 to transmit time information and schedule information from the terminal device 200 to the clock 100 has been described, but the present invention is not limited to this. For example, when the user operates the clock 100, time information or schedule information may be acquired from the terminal device 200. In this case, when the user performs an operation of acquiring time information or an operation of acquiring schedule information by operating the clock 100, the clock 100 is acquired including identification information of the clock 100 and authentication information. The request is created, and the created acquisition request is output to the near-field wireless communication unit 120. The short distance wireless communication unit 120 transmits the acquisition request output from the information processing unit 124 to the terminal device 200.
The short distance wireless communication unit 270 receives the acquisition request transmitted by the clock 100, and outputs the received acquisition request to the information processing unit 230. The information processing unit 230 determines whether the authentication information matches the held authentication information, based on the authentication information included in the acquisition request output by the short distance wireless communication unit 270. The information processing unit 230 determines that the authentication is successful if they match, and determines that the authentication has failed if they do not match. If the authentication is successful, a communication link is established between the information processing unit 230 and the clock 100.

According to the watch system of the embodiment described above, even when the watch displayed by the mechanical module 102 of the watch 100 stops due to unwinding of the mainspring 106, the watch included in the digital substrate 112 does not stop, so the light emitting element 128 The time can be displayed continuously.
In addition, even when the digital substrate 112 of the watch 100 is stopped due to the battery 134 running out or the like, the watch displayed by the mechanical module 102 may not stop, so the time can be continuously displayed.
Although the digital substrate 112 acquires the time information transmitted by the terminal device 200 and corrects the current time based on the acquired time information in the embodiment described above, the present invention is not limited to this. For example, the current time may be displayed by lighting the light emitting element 128.

  While the embodiments of the present invention have been described above, these embodiments are presented as examples and are not intended to limit the scope of the invention. The embodiment can be implemented in various other forms, and various omissions, replacements, and modifications can be made without departing from the scope of the invention. The embodiments and the modifications thereof include, for example, those which can be easily conceived by those skilled in the art, substantially the same ones, and equivalent ranges.

  Reference Signs List 50 network 100 clock 102 mechanical module 104 hour hand, minute hand, second hand 104 a hour hand 104 b minute hand 104 c second hand 106 mainspring 108 rotating weight 110 110 crown, 112 digital Substrate 114 memory unit 116 scheduled holding unit 118 time holding unit 120 short distance wireless communication unit 122 detection unit 124 information processing unit 126 button 126-1 start button 126 -2-Stop button, 128, 128-1-128-24-LED, 130-Solar panel, 132-Power circuit, 134-Battery, 150-Memory for time, 152-Main display area, 154-Dial plate, 156 ... watch case, 158 ... glass, 160 ... movement, 200 ... terminal device, DESCRIPTION OF SYMBOLS 210 ... Communications part, 220 ... Storage part, 222 ... Program, 224 ... Application, 230 ... Information processing part, 232 ... Processing part, 234 ... Creation part, 240 ... Operation part, 250 ... Bus line, 260 ... Display part, 270 ... Near field communication unit, 300 ... Time server

Claims (11)

The guidelines,
A driving unit that uses a mainspring as a power source and drives the pointer;
A dial that displays the time by the pointer;
A plurality of light emitting elements arranged at positions where the hands on the dial can indicate the time;
And a battery that supplies power to the plurality of light emitting elements. A detection unit that detects that the crown has been pulled;
An information processing unit for switching to a time setting mode, which is an operation mode in which time setting is performed by the hands, by turning on the plurality of light emitting elements when the detection unit detects that the crown has been pulled; The movement of claim 1, comprising:   3. The information processing unit according to claim 2, wherein, when the detection unit detects that the crown is pulled, the information processing unit lights a light emitting element corresponding to the current time among the plurality of light emitting elements. Movement.   The movement according to claim 3, wherein the information processing unit lights or blinks each of a plurality of light emitting elements corresponding to a current time among the plurality of light emitting elements.   The movement according to any one of claims 2 to 4, wherein the information processing unit causes the light emitting element to emit light according to schedule information among the plurality of light emitting elements.   The movement according to claim 5, wherein the information processing unit turns on a light emitting element corresponding to a scheduled time among the plurality of light emitting elements.   The movement according to claim 6, wherein the information processing unit blinks the light emitting element that is lit when a scheduled time has come.   The movement according to claim 7, wherein the information processing unit turns off the light emitting element that is lit when a button is pressed. The movement includes an hour hand and a minute hand,
The movement according to any one of claims 1 to 8, wherein each of the plurality of light emitting elements is disposed between a trajectory by the tip of the hour hand and a trajectory by the tip of the minute hand.   A timepiece provided with the movement according to any one of claims 1 to 9. A watch comprising a movement according to any one of claims 5 to 8;
Terminal equipment and
The terminal device is
With schedule app,
A creation unit that creates schedule information including schedule information of the user by operating the schedule application;
A transmitter configured to transmit the schedule information generated by the generator to the clock.

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