CN214122710U - Mechanical intelligent watch - Google Patents

Abstract

The utility model discloses a mechanical type intelligence wrist-watch, including the dial plate be provided with pointer and a plurality of photoelectric switch on the dial plate, the pointer includes hour hand, minute hand and second hand, hour hand, minute hand and second hand are coaxial setting, a plurality of photoelectric switch set up the position at different moments on the dial plate, and it is responded to the light change that the pointer passed through, and every photoelectric switch corresponds respectively to hour hand, minute hand and second hand operating position, and the time interval that every pointer passed through the photoelectric switch to its correspondence is different, be provided with the rotatory mechanical core of drive pointer below the dial plate; an intelligent circuit module which records user information and can feed back the user information is arranged below the dial plate, and the intelligent circuit module comprises a clock unit which is used for generating one-second intervals and keeping continuous counting; the plurality of photoelectric switches acquire time information through the pointer positions for calibrating the clock unit.

Description

Mechanical intelligent watch

Technical Field

The utility model relates to a wrist-watch technical field, in particular to mechanical type intelligence wrist-watch.

Background

With the development and popularization of smart watches, the intellectualization of mechanical watches gradually becomes a trend. The intelligent one side of mechanical table has continued the traditional outward appearance of mechanical table, has kept original mechanical table connotation, adds the meter step simultaneously, and the rhythm of the heart, the healthy measurement of motion such as sleep has added intelligent wrist-watch element for mechanical wrist-watch combines together with intelligent wrist-watch, tradition, fashion, science and technology complement each other.

At present, a mechanical watch is calibrated by a clock of an intelligent circuit module in a traditional watch and the intelligent circuit module, so that the time of a mechanical watch core is consistent with the time of the intelligent circuit module. The prior art calibration of a mechanical clock using an intelligent circuit module has the following disadvantages:

1. the clock of the intelligent circuit module is powered by the battery, when the battery is not powered, the clock of the intelligent circuit module does not move, the battery is charged or the battery is replaced, time calibration is directly carried out, and the problem of time confusion can occur. While mechanical watches generally have the property of being stable and accurate in operation, the properties of the mechanical watch are destroyed if time is disturbed because the battery is dead.

2. The intelligent circuit module is usually connected with the mobile terminal, so that the intelligent circuit module can utilize the mobile terminal to synchronize or calibrate time, but software in the mobile terminal is needed to be utilized to carry out operation connection on the intelligent circuit module, and the operations are somewhat complicated and even burdensome for users who are accustomed to a mechanical watch, and the inconvenience of using the intelligent circuit module can be caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a mechanical type intelligence wrist-watch detects through adding the optical coupling at mechanical table needle operating position to acquire mechanical table clock, do the comparison with mechanical table clock and intelligent circuit module clock unit, with this calibration clock unit, realize regularly calibrating.

According to the utility model discloses a mechanical type intelligence wrist-watch that the purpose provided, including the dial plate, be provided with pointer and a plurality of photoelectric switch on the dial plate, the pointer includes hour hand, minute hand and second hand, hour hand, minute hand and second hand are coaxial setting, a plurality of photoelectric switch set up the position at different moments on the dial plate, and it is in response to the light change that the pointer passed through, and every photoelectric switch corresponds respectively hour hand, minute hand and second hand operating position, and the time interval that every pointer passed through the photoelectric switch to its correspondence is different, be provided with the rotatory mechanical core of drive pointer below the dial plate;

an intelligent circuit module which records user information and can feed back the user information is arranged below the dial plate, and the intelligent circuit module comprises a clock unit which is used for generating one-second intervals and keeping continuous counting;

the plurality of photoelectric switches acquire time information through the pointer positions for calibrating the clock unit.

Optionally, the clock unit compares the time information to obtain a time difference for clock calibration.

Optionally, the clock unit extracts the time information at a fixed time to perform clock calibration.

Optionally, a photoelectric switch is arranged at the passing position of the hour hand at the 1 o' clock.

Optionally, the minute hand and the second hand share the same photoelectric switch, and one photoelectric switch is respectively arranged at the positions where the minute hand and the second hand pass through four moments 3, 6, 9 and 12.

Optionally, a power supply is further arranged under the dial plate, and the power supply is connected with the intelligent circuit module and the photoelectric switch.

Optionally, a power management unit is disposed between the power supply and the intelligent circuit module and between the power supply and the photoelectric switch, and the power supply is connected to the intelligent circuit module and the photoelectric switch through the power management unit.

Optionally, the intelligent circuit module includes a PCB circuit board electrically connected to the sensor module, and the PCB circuit board is provided with one or more sensors and a wireless transmission module.

Optionally, the one or more sensors are sensors that record user movement information.

Optionally, the wireless transmission module is a bluetooth module that is capable of transmitting and receiving data by being docked with an external mobile terminal.

The utility model has the advantages that:

1. the user does not need to calibrate the clock of the intelligent circuit module through the software of the mobile terminal.

2. The clock unit in the intelligent circuit module can be temporarily closed, the calibration time of the mobile terminal which needs to be connected after restarting cannot occur, the loss is reduced, and the service time of the battery is prolonged.

3. The intelligent circuit module can cancel an external RTC clock, and the cost is reduced.

Drawings

FIG. 1 is a schematic structural diagram of the device of the present invention;

FIG. 2 is a schematic diagram of power supply connecting the photoelectric switch and the intelligent circuit module

In the figure: 1: first photoelectric switch, 2: second photoelectric switch, 3: third photoelectric switch, 4: fourth photoelectric switch, 5: fifth photoelectric switch, 10: hour hand, 20: minute hand, 30: and a second hand.

Detailed Description

The present invention will be described in detail with reference to the specific embodiments shown in the drawings, but the embodiments are not limited to the present invention, and structural, methodological, or functional changes made by those skilled in the art according to the embodiments are included in the scope of the present invention.

As shown in fig. 1, the utility model discloses a mechanical intelligent watch, which comprises a dial plate, an intelligent circuit module and a pointer, wherein the intelligent circuit module is arranged below the dial plate and can record user information and feed back the user information, the pointer is arranged on the dial plate, and the intelligent circuit module comprises a clock unit which is used for generating one-second intervals and keeping continuous counting;

the intelligent circuit module comprises a PCB (printed circuit board) which is electrically connected, one or more sensors and a wireless transmission module can be arranged on the PCB, the one or more sensors are used for recording information of a user and can be a sensor for recording sleep information, a sensor for recording motion information, a sensor for recording heartbeat or a sensor for measuring blood pressure, the wireless transmission module can be a low-power Bluetooth module, and the intelligent circuit module is connected with a mobile terminal through the low-power Bluetooth module to realize transmission and reception of data information of the user;

a mechanical movement for driving the pointer to rotate is arranged below the dial plate, and the mechanical movement drives the spring to generate energy by power generated by the left-right swing of the automatic plate at the bottom of the mechanical movement; the hands include an hour hand 10, a minute hand 20 and a second hand 30, the hour hand 10, the minute hand 20 and the second hand 30 are coaxially arranged, photoelectric switches are respectively arranged at the path passing positions of the hour hand 10, the minute hand 20 and the second hand 30, a first photoelectric switch 1 is arranged at the time position of 1 point pointed by the hour hand 10, the first photoelectric switch 1 is changed in response to the change of light when the hour hand 10 passes, the time interval of the hour hand 10 passing through the first photoelectric switch 1 is 12 hours, a second photoelectric switch 2, a third photoelectric switch 3, a fourth photoelectric switch 4 and a fifth photoelectric switch 5 are arranged at the four time positions of 3, 6, 9 and 12, the second photoelectric switch 2, the third photoelectric switch 3, the fourth photoelectric switch 4 and the fifth photoelectric switch 5 are commonly used for the minute hand 20 and the second hand 30, the time intervals of running through the minute hand 20 and the second hand 30 are different, so that the minute hand 20 and the second hand 30 are distinguished to obtain the current time, each photoelectric switch is connected with the intelligent circuit module, and the current time is compared with the intelligent circuit module clock unit by inputting an electric signal to the intelligent circuit module, so that the timing calibration of the intelligent circuit module clock unit is realized;

as shown in fig. 2, a power supply is further arranged below the dial plate, the power supply is connected with the intelligent circuit module and the photoelectric switch, a Power Management Unit (PMU) is arranged between the power supply and the intelligent circuit module and between the power supply and the photoelectric switch, and the power supply is connected with the intelligent circuit module and the photoelectric switch through the PMU, so that higher power conversion efficiency and lower power consumption can be realized.

The specific operation mode of the embodiment is as follows: the hour hand 10 can be distinguished through the photoelectric switch 1 of 1 o' clock direction at first, and hour hand 10 is through photoelectric switch 1, and photoelectric switch 1 obtains current moment 1 to intelligent circuit module input low level: 00: 00, distinguishing a minute hand 20 and a second hand 30 in the directions of 3 o ' clock, 6 o ' clock and 9 o ' clock, wherein the running speed of the minute hand 20 is slower than that of the second hand 30, 15 minute hands 20 are needed when the minute hand 20 passes through the next photoelectric switch, the second hand 30 runs fast and the photo switch is interrupted continuously, when the minute hand 20 passes the second photo switch 2, the second photoelectric switch 2 continuously inputs low level to the intelligent circuit module within one minute, and simultaneously the second hand 30 respectively inputs low level to the intelligent circuit module through the third photoelectric switch 3 and the fourth photoelectric switch 4, the intelligent circuit module recognizes that the input position of each low level signal is different, distinguishes the response position of the minute hand 20 and the second hand 30, thereby obtaining time information, the time of the current dial plate is set at the same fixed time corresponding to the intelligent circuit module, and the time information is extracted at the fixed time to calibrate the clock unit;

in the embodiment, one photoelectric switch is arranged to correspond to the hour hand 10, four photoelectric switches are arranged to correspond to the minute hand 20 and the second hand 30, the time calibrated in 24 hours corresponds to the time position set by the photoelectric switch 1, and the time interval between two times of the hour hand 10 passing through the photoelectric switch 1 is 12 hours, so that 3 times of calibration corresponding to the settable calibration time exist every 12 hours, namely 6 times of calibration opportunities exist.

A plurality of corresponding hour hand photoelectric switches are optionally arranged, time information of a plurality of moments can be obtained, the time information transmitted by the photoelectric switches is obtained and compared with a clock unit of the intelligent circuit module, a time difference is obtained, and the clock unit is calibrated according to the time difference.

This is novel through adding photoelectric switch at mechanical table needle through the route, through photoelectric switch's level discernment mechanical table needle time to the clock unit of calibration intelligent circuit module guarantees when combining intelligent circuit module and traditional mechanical dial plate need not to connect mobile terminal when intelligent circuit module changes the battery and carries out the time calibration.

The mechanical intelligent watch specifically comprises the following steps of calibrating a clock unit of an intelligent module circuit:

s1, setting a photoelectric switch at the hour hand running position, wherein the photoelectric switch only responds to the hour hand running and confirms whether to enter the calibration time;

s2, arranging a plurality of minute-second photoelectric switches at the operating positions of the minute hand and the second hand, wherein the minute-second photoelectric switches are operated in response to the minute hand and the second hand, and the time interval of the operation of the second hand is smaller than that of the operation of the minute hand, so that the second hand and the minute hand are distinguished;

s3, when the hour hand is detected to pass by the hour photoelectric switch, an electric signal is input to the intelligent circuit module;

s4, when the minute hand is moved to the minute-second photoelectric switch detection position, the second hand is located at the 12 o' clock time position, the minute-second photoelectric switch inputs an electric signal to the intelligent circuit module, so as to confirm the minute hand time of the calibration time, and when the second hand passes another minute-second photoelectric switch within the same minute, the minute-second photoelectric switch inputs an electric signal to the intelligent circuit module, so as to confirm the second hand time of the calibration time;

and S5, the intelligent circuit module obtains the calibration time through the electric signals transmitted by the time photoelectric switch and the minute-second photoelectric switch, and the calibration time is compared with the internal clock of the intelligent circuit module to finish time calibration.

In the present embodiment, the time photoelectric switch is located at the time point direction position 1, that is, the photoelectric switch 1; the nanosecond photoelectric switches are located at the positions of time directions of 3, 6, 9 and 12, namely the photoelectric switch 2, the photoelectric switch 3, the photoelectric switch 4 and the photoelectric switch 5.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

Claims (10)

1. The utility model provides a mechanical type intelligence wrist-watch, includes the dial plate, its characterized in that:

the dial is provided with a pointer and a plurality of photoelectric switches, the pointer comprises an hour hand, a minute hand and a second hand, the hour hand, the minute hand and the second hand are coaxially arranged, the plurality of photoelectric switches are arranged at different moments on the dial and respond to the change of light passing by the pointer, each photoelectric switch respectively corresponds to the running positions of the hour hand, the minute hand and the second hand, the time interval of passing by each pointer through the corresponding photoelectric switch is different, and a mechanical movement for driving the pointer to rotate is arranged below the dial;

an intelligent circuit module which records user information and can feed back the user information is arranged below the dial plate, and the intelligent circuit module comprises a clock unit which is used for generating one-second intervals and keeping continuous counting;

the plurality of photoelectric switches acquire time information through the pointer positions for calibrating the clock unit.

2. A mechanical smartwatch according to claim 1, characterized in that: the clock unit compares the time information to obtain a time difference for clock calibration.

3. A mechanical smartwatch according to claim 1, characterized in that: and the clock unit extracts the time information at a fixed moment to carry out clock calibration.

4. A mechanical smartwatch according to claim 1, characterized in that: a photoelectric switch is arranged at the passing position of the hour hand at the 1 o' clock.

5. A mechanical smartwatch according to claim 4, characterized in that: the minute hand and the second hand share the same photoelectric switch, and one photoelectric switch is respectively arranged at the positions of the minute hand and the second hand passing through four moments of 3, 6, 9 and 12.

6. A mechanical smartwatch according to claim 1, characterized in that: still be provided with the power under the dial plate, the power with intelligent circuit module with photoelectric switch connects.

7. The mechanical smartwatch according to claim 6, wherein: the power supply is connected with the intelligent circuit module and the photoelectric switch through the power supply management unit.

8. A mechanical smartwatch according to claim 1, characterized in that: the intelligent circuit module comprises a PCB circuit board which is electrically connected, and the PCB circuit board is provided with one or more sensors and a wireless transmission module.

9. A mechanical smartwatch according to claim 8, wherein: the one or more sensors are sensors that record user movement information.

10. A mechanical smartwatch according to claim 8, wherein: the wireless transmission module is a Bluetooth module which is connected with an external mobile terminal to realize data transmission and reception.

Images