CN106200365A - Intelligent watch and intelligent watch control method - Google Patents

Abstract

The embodiment of the invention discloses an intelligent watch and an intelligent watch control method. The smart watch includes: the device comprises a main battery, a micro battery, a signal transceiving module, a first switch unit and a control module; the output port of the main battery is connected with the power interface of the signal transceiver module; the output port of the micro battery is connected with the power interface of the signal transceiver module through the first switch unit; the control module is used for controlling the first switch unit to conduct the output port of the micro battery and the power interface of the signal receiving and transmitting module when detecting that the output voltage of the main battery is lower than a preset voltage threshold value, and controlling the signal receiving and transmitting module to send the position information of the intelligent watch to a terminal associated with the intelligent watch at regular time. The embodiment of the invention solves the problem that the mobile terminal cannot acquire the position information of the intelligent watch after the intelligent watch is powered off.

Description

Smart watch and smart watch control method

technical field

Embodiments of the present invention relate to the technical field of smart devices, and in particular, to a smart watch and a method for controlling the smart watch.

Background technique

With the development of science and technology, smart wearable devices are loved by people because of their rich functions and portability. Taking a smart watch as an example, it has functions such as communication, heart rate monitoring, exercise data, and information reminder, and can be used in conjunction with a mobile terminal or independently.

Most of the wearers of smart watches are children or the elderly, so that family members can obtain their location in real time to avoid getting lost. However, after the existing smart watch is out of power, the mobile terminal cannot obtain the location information of the smart watch, etc., so family members cannot obtain the location information of the wearer, and the safety of the wearer is greatly reduced.

Contents of the invention

The invention provides a smart watch and a control method for the smart watch to solve the problem that the mobile terminal cannot acquire the location information of the smart watch after the smart watch is out of power.

In a first aspect, an embodiment of the present invention provides a smart watch, and the smart watch includes:

Main battery, micro battery, signal transceiver module, first switch unit and control module; wherein

The output port of the main battery is connected to the power interface of the signal transceiver module;

The output port of the micro-battery is connected to the power interface of the signal transceiver module through the first switch unit;

The control module is configured to control the first switch unit to connect the output port of the micro battery to the power interface of the signal transceiver module when detecting that the output voltage of the main battery is lower than a preset voltage threshold , and control the signal transceiving module to regularly send the location information of the smart watch to the terminal associated with the smart watch.

In the second aspect, the embodiment of the present invention also provides a smart watch control method, the method comprising:

Obtain the output voltage of the main battery of the smart watch;

When the output voltage is lower than the preset voltage threshold, the first switch unit is controlled to connect the output port of the micro-battery of the smart watch to the power interface of the signal transceiver module, and the signal transceiver module is controlled to regularly send the signal to the terminal associated with the smart watch. Send smart watch location information.

In the embodiment of the present invention, when it is detected that the output voltage of the main battery is lower than the preset voltage threshold, the first switch unit is controlled to conduct the output port of the micro-battery with the power interface of the signal transceiver module, so that after the main battery is out of power, the micro-battery The battery can continue to provide working voltage for the signal transceiver module, so that the signal transceiver module can communicate with the terminal associated with the smart watch, and the control module controls the signal transceiver module to regularly send the location information of the smart watch to the terminal associated with the smart watch, so that the smart watch can be associated The terminal can continue to obtain the location information of the smart watch in real time, which improves the safety of the wearer.

Description of drawings

Fig. 1 is a schematic structural diagram of a smart watch in Embodiment 1 of the present invention;

Fig. 2 is a schematic structural diagram of a smart watch in Embodiment 2 of the present invention;

FIG. 3 is a flow chart of a smart watch control method in Embodiment 3 of the present invention.

detailed description

The present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the present invention, but not to limit the present invention. In addition, it should be noted that, for the convenience of description, only some structures related to the present invention are shown in the drawings but not all structures.

Embodiment one

Fig. 1 is a schematic structural diagram of a smart watch in Embodiment 1 of the present invention. With reference to Fig. 1, the smart watch may specifically include: a main battery 110, a micro battery 120, a signal transceiver module 130, a first switch unit 140 and a control Module 150; where

The output port of the main battery 110 is connected to the power interface of the signal transceiver module 130;

The output port of the micro-battery 120 is connected to the power interface of the signal transceiver module 130 through the first switch unit 140;

The control module 150 is used to control the first switch unit 140 to connect the output port of the micro battery 120 to the power interface of the signal transceiving module 130 when detecting that the output voltage of the main battery 110 is lower than the preset voltage threshold, and control signal transceiving The module 130 regularly sends location information of the smart watch to a terminal associated with the smart watch.

Among them, the main battery 110 provides the smart watch with power required for daily operation, and its stored power is relatively large. The micro-battery 120 is small in size and occupies only a small space in the smart watch, and can be arranged next to the main battery 110 or in any gap inside the smart watch. The signal transceiving module 130 may include a Global Positioning System (Global Positioning System, GPS) unit, and the signal transceiving module 130 may acquire the current location of the smart watch in real time from the GPS unit. The signal transceiving module 130 can also send information to a terminal associated with the smart watch, and receive terminal information. The control module 150 can be the main board of the smart watch. The preset voltage threshold can be set according to the working voltage of each module of the smart watch. Exemplarily, the preset voltage threshold can be slightly higher than the minimum working voltage of the control module 150 or the signal transceiving module 130 .

Specifically, when the output voltage of the main battery 110 is lower than the preset voltage threshold, the main battery 110 will not be able to provide the voltage required for the operation of each working module of the smart watch such as the signal transceiver module 130. At this time, the signal transceiver module 130 It is connected with the micro battery 120 so that the micro battery 120 continues to provide working voltage for the signal transceiving module 130 so that the signal transceiving module 130 can communicate with the terminal associated with the smart watch. At the same time, the control module 150 controls the signal transceiving module 130 to regularly send the location information of the smart watch to the terminal associated with the smart watch, so that the terminal associated with the smart watch can continue to obtain the location information of the smart watch in real time, improving the safety of the wearer.

Optionally, a one-way conduction device can be set between the output port of the main battery 110 and the power interface of the signal transceiver module 130, so as to prevent the current from flowing to the main battery 110 when the micro battery 120 supplies power to the signal transceiver module 130, causing micro The battery 120 loses power.

Optionally, the control module 150 can also be used for: when detecting that the output voltage of the main battery 110 is lower than a preset voltage threshold, the control signal transceiving module 130 sends battery prompt information to a terminal associated with the smart watch. Specifically, by sending battery power prompt information to the terminal, the terminal holder can charge the smart watch as soon as possible. In addition, if the smart watch has not been charged after the preset time, the signal transceiving module 130 may continue to send the battery prompt information.

In addition, the smart watch may also include a charging interface for connecting the charger to charge the main battery 110 and the micro battery 120 .

Optionally, referring to FIG. 1 , the first switch unit 140 can be a first SPST switch, the moving end of the first SPST switch is connected to the output port of the micro-battery 120, and the fixed end is connected to the power supply of the signal transceiver module 130 The interface is connected, and the control terminal is connected with the control module 150. The control module 150 is configured to control the first SPST switch to close when detecting that the voltage of the main battery 110 is lower than a preset voltage threshold; otherwise, control the first SPST switch to open. Specifically, by using the first single pole single throw switch, not only the conduction state between the output port of the micro battery 120 and the power interface of the signal transceiver module 130 can be conveniently controlled, but also occupies less space and consumes less power.

In this embodiment, when it is detected that the output voltage of the main battery is lower than the preset voltage threshold, the first switch unit is controlled to conduct the output port of the micro battery with the power interface of the signal transceiver module, so that after the main battery is out of power, The micro-battery can continue to provide working voltage for the signal transceiver module, so that the signal transceiver module can communicate with the terminal associated with the smart watch, and the control module controls the signal transceiver module to regularly send the location information of the smart watch to the terminal associated with the smart watch, so that it can communicate with the terminal associated with the smart watch. The terminal associated with the watch can continue to obtain the location information of the smart watch in real time, which improves the safety of the wearer.

Embodiment two

This embodiment provides a smart watch based on the above embodiments. FIG. 2 is a schematic structural diagram of a smart watch in Embodiment 2 of the present invention. With reference to FIG. 2 , the smart watch includes: a main battery 110, a micro battery 120, a signal transceiver module 130, a first switch unit 140, and a control module 150 , the solar panel 160 and the second switch unit 170 .

Wherein, the solar panel 160 is arranged on the outer surface of the smart watch for charging the micro-battery 120 . The charging port of the micro battery 120 is connected to the output terminal of the solar panel 160 through the second switch unit 170, and the control module 150 is used to control the second switch unit 170 to The charging port of the micro-battery 120 is connected to the output terminal of the solar panel 160; when it is detected that the surface temperature of the smart watch is higher than the preset temperature threshold, the second switch unit 170 is controlled to connect the charging port of the micro-battery 120 to the output terminal of the solar panel 160. The output is disconnected.

Specifically, the solar panel 160 can be arranged on any area of the case of the smart watch, for example, it can be arranged on the side of the case. The solar panel 160 is used to convert solar energy into electrical energy to charge the micro battery 120 . The micro-battery 120 can be charged in real time by using the solar panel 160, and it is clean and pollution-free.

Wherein, the preset charging voltage can be set according to needs and is not specifically limited. For example, the preset voltage can be set to be slightly lower than the output voltage of the micro-battery 120 when it is fully charged. In addition, since the solar panel 160 may generate heat during the charging process of the micro-battery 120, the temperature of the smart watch will rise, so a temperature sensor can be set to measure the surface temperature of the smart watch. When the temperature threshold is set, the second switch unit 170 is controlled to disconnect the charging port of the micro-battery 120 from the output terminal of the solar panel 160, so as to avoid excessive temperature, damage to the smart watch or discomfort to the wearer. The preset temperature threshold can be set according to the material of the watch case, the temperature requirements of the internal components of the smart watch, and the experience of the wearer, and is not specifically limited, and can be set to about 40 degrees for example.

Optionally, referring to FIG. 2 , the second switch unit 170 may be a second single pole single throw switch. The moving end of the second SPST switch is connected to the charging port of the micro-battery 120 , the fixed end is connected to the output end of the solar panel 160 , and the control end is connected to the control module 150 . The control module 150 is used to control the second SPST switch to close when it detects that the output voltage of the micro-battery 120 is lower than the preset charging voltage; when it detects that the surface temperature of the smart watch is higher than the preset temperature threshold, control The second SPST switch is turned off. Specifically, by adopting the second single pole single throw switch, not only the conduction state between the charging port of the micro battery 120 and the output terminal of the solar panel 160 can be conveniently controlled, but also occupies less space and consumes less power.

In this embodiment, by setting the solar panel, the micro-battery can be charged in real time, and it is clean and pollution-free, and when it is detected that the surface temperature of the smart watch is higher than the preset temperature threshold, the second switch unit is controlled to charge the micro-battery. The port is disconnected from the output of the solar panel to avoid overheating and damage to the smart watch.

Embodiment Three

Fig. 3 is a flow chart of a smart watch control method in Embodiment 3 of the present invention. Referring to Fig. 3, the method may specifically include:

Step 310, obtaining the output voltage of the main battery of the smart watch.

Step 320, when the output voltage is lower than the preset voltage threshold, control the first switch unit to connect the output port of the micro-battery of the smart watch to the power interface of the signal transceiver module, and control the timing direction of the signal transceiver module to communicate with the smart watch. The terminal associated with the watch sends the location information of the smart watch.

Further, the method may also include:

When detecting that the output voltage of the micro-battery is lower than the preset charging voltage, the second switch unit is controlled to conduct the charging port of the micro-battery with the output end of the solar panel; when it is detected that the surface temperature of the smart watch is higher than When the temperature threshold is preset, the second switch unit is controlled to disconnect the charging port of the micro-battery from the output end of the solar panel.

Further, the method may also include:

When it is detected that the output voltage of the main battery is lower than the preset voltage threshold, the signal transceiving module is controlled to send power prompt information to a terminal associated with the smart watch.

The smart watch control method provided in this embodiment belongs to the same inventive concept as the smart watch provided in any embodiment of the present invention, and has corresponding beneficial effects. For technical details not exhaustively described in this embodiment, refer to the smart watch provided by any embodiment of the present invention.

Note that the above are only preferred embodiments of the present invention and applied technical principles. Those skilled in the art will understand that the present invention is not limited to the specific embodiments described herein, and that various obvious changes, readjustments and substitutions can be made by those skilled in the art without departing from the protection scope of the present invention. Therefore, although the present invention has been described in detail through the above embodiments, the present invention is not limited to the above embodiments, and can also include more other equivalent embodiments without departing from the concept of the present invention, and the present invention The scope is determined by the scope of the appended claims.

Claims (10)

1. A smart watch, characterized in that, comprising: Main battery, micro battery, signal transceiver module, first switch unit and control module; wherein The output port of the main battery is connected to the power interface of the signal transceiver module; The output port of the micro-battery is connected to the power interface of the signal transceiver module through the first switch unit; The control module is configured to control the first switch unit to connect the output port of the micro battery to the power interface of the signal transceiver module when detecting that the output voltage of the main battery is lower than a preset voltage threshold , and control the signal transceiving module to regularly send the location information of the smart watch to the terminal associated with the smart watch. 2. The smart watch according to claim 1, wherein the first switch unit is a first single-pole single-throw switch; The moving end of the first SPST switch is connected to the output port of the micro-battery, the fixed end is connected to the power interface of the signal transceiver module, and the control end is connected to the control module; The control module is configured to control the first SPST switch to close when detecting that the output voltage of the main battery is lower than a preset voltage threshold; otherwise, control the first SPST switch to open. 3. The smart watch according to claim 1, further comprising: The charging interface is used to connect the charger to charge the main battery and the micro battery. 4. The smart watch according to claim 1, further comprising: The solar panel is arranged on the outer surface of the smart watch and is used for charging the micro battery. 5. The smart watch according to claim 4, further comprising: A second switch unit, the charging port of the micro-battery is connected to the output end of the solar panel through the second switch unit; The control module is used to control the second switch unit to conduct the charging port of the micro battery with the output terminal of the solar panel when detecting that the output voltage of the micro battery is lower than a preset charging voltage; When it is detected that the surface temperature of the smart watch is higher than the preset temperature threshold, the second switch unit is controlled to disconnect the charging port of the micro-battery from the output terminal of the solar panel. 6. The smart watch according to claim 5, wherein the second switch unit is a second single-pole single-throw switch; The moving end of the second SPST switch is connected to the charging port of the micro-battery, the fixed end is connected to the output end of the solar panel, and the control end is connected to the control module; The control module is used to control the second SPST switch to close when it detects that the output voltage of the micro-battery is lower than the preset charging voltage; when it detects that the surface temperature of the smart watch is higher than the preset temperature threshold , controlling the second single pole single throw switch to be turned off. 7. The smart watch according to claim 1, wherein the control module is also used for: When it is detected that the output voltage of the main battery is lower than the preset voltage threshold, the signal transceiving module is controlled to send power prompt information to a terminal associated with the smart watch. 8. A smart watch control method, characterized in that, comprising: Obtain the output voltage of the main battery of the smart watch; When the output voltage is lower than the preset voltage threshold, the first switch unit is controlled to connect the output port of the micro-battery of the smart watch to the power interface of the signal transceiver module, and the signal transceiver module is controlled to regularly send the signal to the terminal associated with the smart watch. Send smart watch location information. 9. The method according to claim 8, further comprising: When detecting that the output voltage of the micro-battery is lower than the preset charging voltage, the second switch unit is controlled to conduct the charging port of the micro-battery with the output end of the solar panel; when it is detected that the surface temperature of the smart watch is higher than When the temperature threshold is preset, the second switch unit is controlled to disconnect the charging port of the micro-battery from the output end of the solar panel. 10. The method of claim 8, further comprising: When it is detected that the output voltage of the main battery is lower than the preset voltage threshold, the signal transceiving module is controlled to send power prompt information to a terminal associated with the smart watch.