CN110971255A

CN110971255A - Wrist wearing equipment

Info

Publication number: CN110971255A
Application number: CN201911201417.3A
Authority: CN
Inventors: 朱琳琳; 吴建川
Original assignee: Sichuan Kedao Xinguo Intelligent Technology Co ltd
Current assignee: Sichuan Kedao Xinguo Intelligent Technology Co ltd
Priority date: 2019-11-29
Filing date: 2019-11-29
Publication date: 2020-04-07

Abstract

The application relates to a wrist wearing equipment includes: the device comprises a first positioning module, a second positioning module, a clock module, a communication module and a control module; the cloud server comprises a first positioning module, a second positioning module, a clock module and a communication module, wherein the communication module is connected with the control module, the control module is in communication connection with the cloud server through the communication module, and the clock module is used for providing clock signals for the control module. First locating module and second locating module all set up on wrist wearing equipment, can fix a position wrist wearing equipment position at any time, need not to go to look for near field equipment and gather near field equipment's data and fix a position. And set up two kinds of orientation module, when first orientation module can't acquire the location data, can also acquire the location data through second orientation module, make wrist wearing equipment's locate function perfect more, location coverage is wider.

Description

Wrist wearing equipment

Technical Field

The application relates to the technical field of portable electronic equipment, in particular to wrist wearable equipment.

Background

Wrist-worn devices generally refer to watches or bracelets. Along with people's standard of living's improvement, multi-functional wrist-watch bracelet is more and more popularized, it has also gradually become user's general demand to be equipped with the locate function on the wrist-watch bracelet, among the prior art, in some fixed areas like school, prison installation near field equipment (like bluetooth basic station or RFID equipment of punching the card), user's wrist-watch bracelet is through the broadcast signal of gathering bluetooth basic station or the information of punching the card of gathering RFID equipment of punching the card, report the information of gathering to the high in the clouds server, handle and calculate wrist-watch bracelet user's position by the high in the clouds server, present for the user through cell-phone APP. Among the prior art, wrist wearing equipment's locate mode needs near field equipment supplementary, and near field equipment installs and deploys the difficulty, and the later maintenance is with high costs, and uncontrollable factor is many to the use area is restricted, causes this locate mode to popularize the degree of difficulty greatly, can't satisfy the demand of real-time location.

Disclosure of Invention

To overcome, at least to some extent, the problems in the related art, the present application provides a wrist-worn device.

The scheme of the application is as follows:

a wrist-worn device comprising:

the device comprises a first positioning module, a second positioning module, a clock module, a communication module and a control module;

the first positioning module, the second positioning module, the clock module and the communication module are all connected with the control module;

the control module is in communication connection with the cloud server through the communication module;

the clock module is used for providing a clock signal for the control module;

the first positioning module is used for starting a positioning function to acquire positioning data and sending the positioning data to the control module when receiving a first control signal sent by the control module;

the second positioning module is used for starting a positioning function to acquire positioning data and sending the positioning data to the control module when receiving a second control signal sent by the control module;

the control module is used for sending the first control signal to the first positioning module when receiving a first positioning instruction sent by the cloud server, and sending the second control signal to the second positioning module when not receiving positioning data sent by the first positioning module within a preset time; when the positioning data is received, the positioning data is further sent to the cloud server through the communication module.

Preferably, in an implementable manner herein,

the first positioning module and the second positioning module are positioned in different modes;

the first positioning module is used for positioning through a GPS and/or a BDS;

the second positioning module is used for positioning through WIFI.

Preferably, in an implementation manner of the present application, the method further includes:

the IC card module is connected with the control module and used for performing information interaction with the RFID equipment to generate card swiping data and sending the card swiping data to the control module;

the control module is further used for sending the card swiping data to the cloud server through the communication module.

the third positioning module is connected with the control module;

the third positioning module is provided with a mesh networking, and when a third control signal sent by the control module is received, a broadcast ID is obtained through broadcast scanning and sent to the control module, and the broadcast ID is sent by a Bluetooth base station;

the control module is configured to send the third control signal to the third positioning module when receiving a second positioning instruction sent by the cloud server through the communication module; and the communication module is further used for sending the broadcast ID to the cloud server through the communication module when the broadcast ID is received.

the display screen, the first key module and the second key module;

the display screen, the first key module and the second key module are all connected with the control module;

the first key module comprises a first key, and the first key module is used for sending a first key long-press signal to the control module when the first key is pressed for a long time and sending a first key short-press signal to the control module when the first key is pressed for a short time;

the second key module comprises a second key, and the second key module is used for sending a second key long-press signal to the control module when the second key is pressed for a long time and sending a second key short-press signal to the control module when the second key is pressed for a short time;

the control module is used for controlling the wrist-wearing device to be started up when the first key long-press signal is received and the wrist-wearing device is in a power-off state, acquiring standard time from the cloud server through the communication module, controlling the display screen to display a first interface and displaying the standard time on the first interface;

when the first key long-press signal is received and the wrist wearing equipment is in a pre-shutdown state, controlling the wrist wearing equipment to be shut down;

when the first key short-press signal is received and the wrist-worn device is in a starting state, weather information is acquired from the cloud server through the communication module, the display screen is controlled to display a second interface, and the weather information is displayed on the second interface;

when the second key long-press signal is received and the wrist-worn device is in a starting state, controlling the wrist-worn device to enter a pre-alarm state, controlling the display screen to display a third interface, and displaying pre-alarm information on the third interface;

when the second key short pressing signal is received and the wrist wearing equipment is in a starting-up state, controlling the wrist wearing equipment to enter a pre-shutdown state, controlling the display screen to display a fourth interface, and displaying pre-shutdown information on the fourth interface;

when the first key short-press signal is received and the wrist wearable device is in a pre-alarm state, controlling the communication module to send a first alarm signal to the cloud server;

and when the second key short-press signal is received and the wrist wearable device is in a pre-alarm state, controlling the communication module to send a second alarm signal to the cloud server.

the vibration prompt module and the sound prompt module are connected with the control module;

the control module is further used for controlling the voice prompt module to perform voice prompt when the wrist wearable device is controlled to be started or shut down;

the control module is further used for controlling the vibration prompt module to carry out vibration prompt when the communication module sends the first alarm signal or the second alarm signal to the cloud server.

the sound and light alarm module is connected with the control module;

the control module is further used for controlling the sound-light alarm module to perform sound-light alarm when the communication module is controlled to send the first alarm signal or the second alarm signal to the cloud server.

the heart rate sensing module and the blood pressure sensing module are connected with the control module;

the heart rate sensing module is used for acquiring heart rate information of a user and sending the heart rate information to the control module;

the blood pressure sensing module is used for acquiring blood pressure information of a user and sending the blood pressure information to the control module;

the control module is further configured to receive the heart rate information and the blood pressure information, and display the heart rate information and the blood pressure information on the first interface.

a three-axis sensor connected to the control module;

the three-axis sensor is used for acquiring motion information of a user and sending the motion information to the control module;

the control module is further used for obtaining step number information of the user according to the motion information and displaying the step number information on the first interface; and judging the motion state of the user according to the motion information, and controlling the vibration prompt module to carry out vibration prompt and/or controlling the sound prompt module to carry out sound prompt when the motion state of the user is a sitting posture and lasts for a preset time value.

the power supply module, the power supply management module and the charging interface;

the charging interface is connected with the power supply module through the power supply management module;

the power supply module is also connected with the control module;

the control module is further used for acquiring the electric quantity information of the power supply module and displaying the electric quantity information on the first interface; and the vibration prompting module is also used for controlling vibration prompting when the electric quantity information is lower than a preset electric quantity threshold value, and controlling the sound prompting module to perform sound prompting.

The technical scheme provided by the application can comprise the following beneficial effects:

wrist wearing equipment in this application includes: the device comprises a first positioning module, a second positioning module, a clock module, a communication module and a control module; the cloud server comprises a first positioning module, a second positioning module, a clock module and a communication module, wherein the communication module is connected with the control module, the control module is in communication connection with the cloud server through the communication module, and the clock module is used for providing clock signals for the control module. When a user needs to position the user, a positioning function is started at the mobile phone APP, the mobile phone APP sends a signal for positioning to the cloud server, the cloud server sends a first positioning instruction to the control module, the control module sends a first control signal to the first positioning module when receiving the first positioning instruction, the first positioning module starts the positioning function to acquire positioning data when receiving the first control signal, and the positioning data is sent to the control module. When the control module does not receive the positioning data sent by the first positioning module within the preset time, the control module judges that the first positioning module can not accurately position the current position, sends a second control signal to the second positioning module, the second positioning module starts a positioning function to acquire the positioning data when receiving the second control signal, and sends the positioning data to the control module, and the control module sends the positioning data to the cloud server through the communication module when receiving the positioning data. Because first locating module and second locating module all set up on wrist wearing equipment, can fix a position wrist wearing equipment position at any time, need not to go to look for near field equipment and gather near field equipment's data and fix a position. And set up two kinds of orientation module, when first orientation module can't acquire the location data, can also acquire the location data through second orientation module, make wrist wearing equipment's locate function perfect more, location coverage is wider.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

FIG. 1 is a schematic diagram of a wrist-worn device according to an embodiment of the present application;

fig. 2 is an information interaction diagram between a wrist-worn device and a cloud server, a mobile phone APP, according to an embodiment of the present application;

FIG. 3 is a schematic diagram of a wrist-worn device according to another embodiment of the present application;

fig. 4 is a pictorial illustration of a wrist-worn device in accordance with an embodiment of the present application.

Reference numerals: a control module-1; a first positioning module-2; a second positioning module-3; a clock module-4; a communication module-5; an IC card module-6; a third positioning module-7; a display screen-8; a first key module-9; a second key module-10; a vibration prompt module-11; a voice prompt module-12; an audible and visual alarm module-13; a heart rate sensing module-14; a blood pressure sensing module-15; a three-axis sensor-16; a power supply module-17; a power management module-18; a charging interface-19.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

Fig. 1 is a schematic structural view of a wrist-worn apparatus according to an embodiment of the present application, and referring to fig. 1, the wrist-worn apparatus includes:

the system comprises a first positioning module 2, a second positioning module 3, a clock module 4, a communication module 5 and a control module 1;

the first positioning module 2, the second positioning module 3, the clock module 4 and the communication module 5 are all connected with the control module 1;

the control module 1 is in communication connection with the cloud server through a communication module 5;

the clock module 4 is used for providing a clock signal for the control module 1;

the first positioning module 2 is used for starting a positioning function to acquire positioning data and sending the positioning data to the control module 1 when receiving a first control signal sent by the control module 1;

the second positioning module 3 is used for starting a positioning function to acquire positioning data and sending the positioning data to the control module 1 when receiving a second control signal sent by the control module 1;

the control module 1 is used for sending a first control signal to the first positioning module 2 when receiving a first positioning instruction sent by the cloud server, and sending a second control signal to the second positioning module 3 when not receiving positioning data sent by the first positioning module 2 within a preset time; when receiving the positioning data, the positioning data is also sent to the cloud server through the communication module 5.

The control module 1 is a data algorithm unit of the wrist-worn device, mainly comprises an MTK2625D chip and a peripheral circuit, and undertakes the work of central processing, data algorithm and the like.

The communication module 5 adopts a narrowband Band Internet of Things (NB-IoT) technology, and the control module 1 and the cloud server communicate with each other through an NB-IoT network.

The first positioning module 2 and the second positioning module 3 are positioned in different modes;

the first Positioning module 2 performs Positioning through a Global Positioning System (GPS) and/or a BeiDou Navigation Satellite System (BDS);

the second positioning module 3 performs positioning through Wireless Fidelity (WIFI).

The first positioning module 2 is composed of a chip MT2503D and peripheral circuits, and mainly realizes the positioning function of GPS and/or BDS, and the chip MT2503D also has the function of bluetooth communication. The control module 1 wakes up to work through instructions and returns corresponding data.

The second positioning module 3 mainly realizes WIFI communication and WIFI positioning, is awakened by the control module 1 through an instruction to work, and returns corresponding data. And when the first positioning module 2 cannot return data, the WIFI probe function is called to collect mac positioning data, and the mac positioning data is sent to the control module 1. In addition, wrist wearing equipment can carry out WIFI _ FOTA upgrading through the WIFI connection after receiving the upgrading instruction.

Preferably, the wrist-worn device further comprises: an Assisted Global Positioning System (AGPS) is used for assisting the first positioning module 2 and the second positioning module 3 in positioning, so that the positioning speed is faster.

The clock module 4 is mainly used for providing a clock signal for the control module 1, i.e. the MTK2625D chip.

The cloud server is a server of a service provider side of the wrist wearable device.

Fig. 2 is an information interaction diagram between wrist wearable device and cloud server and mobile phone APP provided by an embodiment of the present application, and referring to fig. 2, a user can download APP provided by a service provider on a mobile terminal (a mobile phone or a palm computer), send a signal for positioning to the cloud server through the APP, and receive positioning information sent by the cloud server through the APP.

Wrist wearing equipment in this application includes: the system comprises a first positioning module 2, a second positioning module 3, a clock module 4, a communication module 5 and a control module 1; the system comprises a first positioning module 2, a second positioning module 3, a clock module 4 and a communication module 5, wherein the communication module 5 is connected with a control module 1, the control module 1 is in communication connection with a cloud server through the communication module 5, and the clock module 4 is used for providing clock signals for the control module 1. When the user needs to fix a position self, start the locate function at cell-phone APP, cell-phone APP sends the signal of going on fixing a position to the high in the clouds server, the high in the clouds server sends first locating instruction to control module 1, control module 1 is when receiving first locating instruction, sends first control signal to first locating module 2, first locating module 2 is when receiving first control signal, start the locate function and acquire the locating data, and send the locating data to control module 1. When control module 1 does not receive the positioning data that first positioning module 2 sent within the preset time, judge that first positioning module 2 can't carry out accurate positioning to the current position, send the second control signal to second positioning module 3, second positioning module 3 is when receiving the second control signal, open the locate function and acquire the positioning data, and send the positioning data to control module 1, control module 1 is when receiving the positioning data, still send the positioning data to the high in the clouds server through communication module 5. Because first orientation module 2 and second orientation module 3 all set up on wrist wearing equipment, can fix a position wrist wearing equipment position at any time, need not to go to look for near field equipment and gather near field equipment's data and fix a position. And set up two kinds of orientation module, when first orientation module 2 can't acquire the location data, can also acquire the location data through second orientation module 3, make wrist wearing equipment's locate function perfect more, location coverage is wider.

The wrist-worn device in some embodiments, referring to fig. 3, further comprising:

an Integrated Circuit (IC) Card module connected to the control module 1, configured to perform information interaction with a Radio Frequency Identification (RFID) device to generate Card swiping data, and send the Card swiping data to the control module 1;

the control module 1 is further configured to send the card swiping data to the cloud server through the communication module 5.

The IC card module 6 is constituted by a CIU9872B chip and its peripheral circuits.

The service provider can set the RFID device in some fixed areas (such as schools), or establish a communication relationship with existing RFID devices (such as subway station card readers and school canteen card readers), so as to obtain the set position of the RFID device.

The IC card is used as a bus card or a meal card, when a user swipes the card on the RFID equipment, the IC card module 6 and the RFID equipment perform information interaction to generate card swiping data, the card swiping data is sent to the control module 1, and the control module 1 sends the card swiping data to the cloud server through the communication module 5.

And the cloud server determines the position of the user according to the set position of the RFID equipment and feeds the position back to the mobile phone APP of the user.

a third positioning module 7 connected with the control module 1;

the third positioning module 7 is provided with a mesh network, and when receiving a third control signal sent by the control module 1, acquires a broadcast ID through broadcast scanning and sends the broadcast ID to the control module 1, wherein the broadcast ID is sent by a Bluetooth base station;

the control module 1 is configured to send a third control signal to the third positioning module 7 when receiving a second positioning instruction sent by the cloud server through the communication module 5; and is further configured to send the broadcast ID to the cloud server through the communication module 5 when receiving the broadcast ID.

The third positioning module 7 is a bluetooth positioning device, adopts a mesh networking scheme, and has a maximum connection number of 6W multiple nodes.

When the user wears the wrist-worn device outdoors, the GPS, and/or the BDS, may pinpoint the user's location, but when the user is indoors, the GPS, and/or the BDS may not pinpoint the user's location. At the moment, the user can apply for Bluetooth positioning to the cloud server through the mobile phone APP.

The service provider may locate bluetooth base stations in some fixed area (e.g., school) and record the location of each bluetooth base station, each bluetooth base station having a unique broadcast ID. The bluetooth base station is in a state of always transmitting the broadcast ID.

The user can apply for carrying out the bluetooth location to the high in the clouds server through cell-phone APP, and the high in the clouds server sends the second location instruction to control module 1, and when control module 1 received the second location instruction, sends the third control signal to third location module 7.

After receiving the third control signal, the third positioning module 7 obtains the broadcast ID sent by the bluetooth base station through broadcast scanning and sends the broadcast ID to the control module 1, and when receiving the broadcast ID, sends the broadcast ID to the cloud server through the communication module 5.

The cloud server determines the Bluetooth base station according to the broadcast ID, further determines the position of the Bluetooth base station, and sends the position set by the Bluetooth base station to a mobile phone APP of the user as the current position of the user.

The wrist-worn device in some embodiments, referring to fig. 3-4, further comprises:

a display screen 8, a first key module 9 and a second key module 10;

the display screen 8, the first key module 9 and the second key module 10 are all connected with the control module 1;

the first key module 9 comprises a first key, and the first key module 9 is used for sending a first key long-press signal to the control module 1 when the first key is pressed for a long time and sending a first key short-press signal to the control module 1 when the first key is pressed for a short time;

the second key module 10 comprises a second key, and the second key module 10 is configured to send a second key long-press signal to the control module 1 when the second key is pressed for a long time, and send a second key short-press signal to the control module 1 when the second key is pressed for a short time;

the control module 1 is used for controlling the wrist-wearing device to start up when receiving a first key long-press signal and the wrist-wearing device is in a power-off state, acquiring standard time from a cloud server through the communication module 5, controlling the display screen 8 to display a first interface and displaying the standard time on the first interface;

when a first key long-press signal is received and the wrist wearing equipment is in a pre-shutdown state, controlling the wrist wearing equipment to be shut down;

when a first key short-press signal is received and the wrist-worn device is in a starting state, weather information is acquired from a cloud server through the communication module 5, the display screen 8 is controlled to display a second interface, and the weather information is displayed on the second interface;

when a second key long-press signal is received and the wrist-wearing device is in a starting state, controlling the wrist-wearing device to enter a pre-alarm state, controlling the display screen 8 to display a third interface and displaying pre-alarm information on the third interface;

when a second key short pressing signal is received and the wrist-worn device is in a starting-up state, controlling the wrist-worn device to enter a pre-shutdown state, controlling the display screen 8 to display a fourth interface, and displaying pre-shutdown information on the fourth interface;

when a first key short-press signal is received and the wrist-worn device is in a pre-alarm state, controlling the communication module 5 to send a first alarm signal to the cloud server;

when the second key short-press signal is received and the wrist-worn device is in the pre-alarm state, the communication module 5 is controlled to send a second alarm signal to the cloud server.

Wrist wearing equipment is provided with display screen 8, and display screen 8 can be the OLED screen, mainly used shows the data that control module 1 received.

Referring to fig. 4, the first key and the second key are disposed on the side of the wrist-worn device, and send different signals to the control module 1 when pressed for different durations, and the control module 1 performs corresponding control operations according to the pressing conditions of the first key and the second key.

Optionally, when the first key or the second key is pressed for more than 3S or 3S, the first key or the second key is regarded as being pressed for a long time.

Preferably, when the second interface is displayed on the display screen 8 and the third interface or the fourth interface reaches the preset time, the control module 1 controls the display screen 8 to display the first interface again.

The preset time may be 30S, that is, after the display screen 8 maintains the second interface, the third interface or the fourth interface for 30S, the control module 1 controls the display screen 8 to display the first interface again.

Preferably, when the control module 1 receives the second key short-press signal and the wrist-wearing device is in the power-on state, the wrist-wearing device is controlled to enter the pre-power-off state, the display screen 8 is controlled to display the fourth interface, pre-power-off information is displayed on the fourth interface, and when the second key short-press signal is received again in a short time (for example, within 5S), the wrist-wearing device is controlled to cancel the pre-power-off state, and the display screen 8 is controlled to display the first interface.

That is, the user can switch the display screen 8 between the first interface and the fourth interface by performing continuous short-time pressing on the second key.

The wrist-worn device further has an alarm function, when the wrist-worn device encounters an emergency, if the wrist-worn device encounters an emergency, the user can enter a pre-alarm state by pressing the second key for a long time, the display screen 8 displays a third interface, pre-alarm information is displayed on the third interface, and the user is prompted to perform primary alarm or secondary alarm. When the user presses the first key for a short time, the control module 1 controls the communication module 5 to send a first alarm signal to the cloud server, the cloud server pushes a primary alarm signal to a place and a user guardian, for example, when the user is a student, the primary alarm simultaneously informs a police, a entrance guard and a student parent.

When the user presses the first key for a short time, the control module 1 controls the communication module 5 to send a second alarm signal to the cloud server, the cloud server pushes a second-level alarm signal to the guardian of the user, the level of the second-level alarm is lower than that of the first-level alarm, and when the user feels that police assistance is not needed, the second-level alarm can be selected to only inform the guardian.

After the police or the guardian arrives at the scene, the corresponding alarm state removing tool can be held to enable the wrist-wearing equipment to remove the alarm state, and if no police or guardian removes the alarm state of the wrist-wearing equipment through the alarm state removing tool, the wrist-wearing equipment can continuously send the first alarm signal or the second alarm signal.

a vibration prompt module 11 and a sound prompt module 12 connected with the control module 1;

the control module 1 is further configured to control the voice prompt module 12 to perform voice prompt when the wrist wearable device is controlled to be powered on or powered off;

the control module 1 is further configured to control the vibration prompting module 11 to perform vibration prompting when the control communication module 5 sends the first alarm signal or the second alarm signal to the cloud server.

When the wrist-worn device is powered on or powered off, the voice prompt module 12 is used for carrying out voice prompt to remind a user that the wrist-worn device is powered on or powered off.

When the wrist wearing device sends the first alarm signal or the second alarm signal to the cloud server, the vibration prompt module 11 is controlled to perform vibration prompt to remind a user that the alarm signal is sent.

The vibration prompting module 11 may be a motor, and the sound prompting module 12 may be a speaker.

the sound and light alarm module 13 is connected with the control module 1;

the control module 1 is further configured to control the sound-light alarm module 13 to perform sound-light alarm when the control communication module 5 sends the first alarm signal or the second alarm signal to the cloud server.

When the control module 1 controls the communication module 5 to send the first alarm signal or the second alarm signal to the cloud server, the sound-light alarm module 13 is controlled to give sound-light alarm.

The wrist wearing device is further provided with a sound and light alarm module 13.

When the user gives an alarm, the sound-light alarm module 13 of the wrist-worn device can also send out a distress signal to nearby people.

the heart rate sensing module 14 and the blood pressure sensing module 15 are connected with the control module 1;

the heart rate sensing module 14 is used for acquiring heart rate information of a user and sending the heart rate information to the control module 1;

the blood pressure sensing module 15 is used for acquiring blood pressure information of a user and sending the blood pressure information to the control module 1;

the control module 1 is further configured to receive the heart rate information and the blood pressure information, and display the heart rate information and the blood pressure information on a first interface.

The heart rate sensing module 14 and the blood pressure sensing module 15 are composed of a VC9S sensor and a signal processing circuit, and the VC9S sensor is an optical sensor and an optical sensor which integrate a green light LED, an infrared LED and high sensitivityUltra low power, compatible I filter and optical barrier²And C and a heart rate detection sensor of the SPI interface.

The wrist-worn device may also display heart rate information and blood pressure information of the user via the display screen 8.

a three-axis sensor 16 connected to the control module 1;

the three-axis sensor 16 is used for acquiring motion information of a user and sending the motion information to the control module 1;

the control module 1 is further used for obtaining step number information of the user according to the motion information and displaying the step number information on a first interface; and judging the motion state of the user according to the motion information, and controlling the vibration prompt module 11 to perform vibration prompt and/or controlling the sound prompt module 12 to perform sound prompt when the motion state of the user is a sitting posture and continues to a preset time value.

The triaxial sensor 16 is composed of a sensor QMA6981 and a signal processing circuit.

The three-axis sensor 16 is configured to acquire motion information of a user and send the motion information to the control module 1, and the control module 1 obtains step number information of the user according to the motion information and displays the step number information on the first interface.

The control module 1 may also perform a sedentary reminder to the user. The preset time may be 45 minutes.

The control module 1 judges the motion state of the user according to the motion information, and controls the vibration prompting module 11 to perform vibration prompting and/or controls the sound prompting module 12 to perform sound prompting when the motion state of the user is a sitting posture and lasts for 45 minutes, so as to remind the user that the user should stand up, and perform appropriate motion to adjust the body state.

a power supply module 17, a power supply management module 18 and a charging interface 19;

the charging interface 19 is connected with the power supply module 17 through the power supply management module 18;

the power supply module 17 is also connected with the control module 1;

the control module 1 is further configured to obtain power information of the power module 17, and display the power information on a first interface; and the controller is also used for controlling the vibration prompt module 11 to perform vibration prompt and controlling the sound prompt module 12 to perform sound prompt when the electric quantity information is lower than a preset electric quantity threshold value.

The power supply module 17 may be an MC2539 charging chip.

The power management module 18 is composed of ETA3560D2G (DC-DC) and SGM2036-3V3YUDH4G/TR (LDO), and mainly realizes power management, voltage output and lithium battery charging and discharging.

The control module 1 obtains the electric quantity information of the power module 17, and displays the electric quantity information on the first interface, specifically, a virtual battery icon can be displayed, and a battery electric quantity percentage number can also be displayed.

The control module 1 further controls the vibration prompt module 11 to perform vibration prompt when the electric quantity information is lower than the preset electric quantity threshold, and controls the sound prompt module 12 to perform sound prompt, wherein the preset electric quantity threshold can be 20%.

Referring to fig. 3, the wrist-worn device in some embodiments, in combination with the preferred embodiment described above, includes: the device comprises a control module 1, a first positioning module 2, a second positioning module 3, a clock module 4, a communication module 5, an IC card module 6, a third positioning module 7, a display screen 8, a first key module 9, a second key module 10, a vibration prompt module 11, a sound prompt module 12, an audible and visual alarm module 13, a heart rate sensing module 14, a blood pressure sensing module 15, a three-axis sensor 16, a power supply module 17, a power supply management module 18 and a charging interface 19.

It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments.

It should be noted that, in the description of the present application, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Further, in the description of the present application, the meaning of "a plurality" means at least two unless otherwise specified.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and the scope of the preferred embodiments of the present application includes other implementations in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present application.

In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present application have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present application, and that variations, modifications, substitutions and alterations may be made to the above embodiments by those of ordinary skill in the art within the scope of the present application.

Claims

1. A wrist-worn device, comprising:

the clock module is used for providing a clock signal for the control module;

2. The wrist-worn device of claim 1,

the second positioning module is used for positioning through WIFI.

3. The wrist-worn device of claim 1, further comprising:

4. The wrist-worn device of claim 1, further comprising:

the third positioning module is connected with the control module;

5. The wrist-worn device of claim 1, further comprising:

the display screen, the first key module and the second key module;

6. The wrist-worn device of claim 5, further comprising:

7. The wrist-worn device of claim 5, further comprising:

the sound and light alarm module is connected with the control module;

8. The wrist-worn device of claim 5, further comprising:

9. The wrist-worn device of claim 6, further comprising:

a three-axis sensor connected to the control module;

10. The wrist-worn device of claim 6, further comprising:

the power supply module is also connected with the control module;