CN215120786U - Wearable equipment - Google Patents

Abstract

The application discloses wearable equipment includes: a wearable device body and a control device provided in the wearable device body; a fixing member connected to the wearable device main body and configured to fix the wearable device main body; a sensing device provided in the fixed member for outputting the detected user operation information; and the data transmission device is arranged in the fixed part and used for transmitting a corresponding command to the control device through the communication interface according to the user operation information detected by the sensing device so as to enable the control device to perform command processing. By using the scheme of the application, the function of the wearable device can be effectively realized, and meanwhile, the miniaturization and the light and thin design of the wearable device main body are facilitated.

Description

Wearable equipment

Technical Field

The utility model relates to an electronic equipment technical field especially relates to a wearable equipment.

Background

With the continuous development of intelligent wearable technologies, especially the development of technologies such as LTE (Long Term Evolution), intelligent wearable devices have already had the capability of independent application, for example, smart watches are widely used at present.

At present, the main body of the intelligent wearable device has the trend of miniaturization and lightness, but the trend contradicts with the increasingly complex function of the intelligent wearable device, so that the function of the intelligent wearable device is fully exerted, and meanwhile, the miniaturization and lightness of the main body of the intelligent wearable device are realized, and the trend is a potential development trend in the current wearable field.

In summary, how to effectively ensure the function of the wearable device, and at the same time, the design of miniaturization and lightness of the wearable device main body is favorable for solving the technical problem that the technical personnel in the field urgently need to solve.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a wearable equipment to ensure the function realization of wearable equipment effectively, be favorable to realizing the miniaturization of wearable equipment main part, frivolous design simultaneously.

In order to solve the technical problem, the utility model provides a following technical scheme:

a wearable device, comprising:

a wearable device body and a control device provided in the wearable device body;

a fixing member connected to the wearable device body and configured to fix the wearable device body;

a sensing device provided in the fixing member for outputting the detected user operation information;

and the data transmission device is arranged in the fixed part and used for transmitting a corresponding instruction to the control device through a communication interface according to the user operation information detected by the sensing device so as to enable the control device to process the instruction.

Preferably, only 1 communication interface is provided between the data transmission device and the control device.

Preferably, the wearable device main part is a watch main part, the fixed part is a watch watchband, the communication interface comprises a first stitch and a second stitch, the first stitch is arranged at a position of a first end of a watch ear of the watch watchband, and the second stitch is arranged at a position of a second end of the watch ear of the watch watchband.

Preferably, the wearable device body includes therein:

the first energy storage device is used for supplying power to the control device and charging the second energy storage device through the communication interface;

the fixed component comprises a second energy storage device used for supplying power for the data transmission device and the sensing device.

Preferably, the data transmission device includes:

the second controller is connected with the sensing device and used for generating a corresponding instruction according to the user operation information detected by the sensing device;

the second bidirectional communicator is connected with the second controller and is connected with the first bidirectional communicator through the communication interface;

the control device includes:

the first bidirectional communicator connected with the second bidirectional communicator through the communication interface;

and the first controller is connected with the first bidirectional communicator and is used for processing the instruction.

Preferably, the second energy storage device comprises:

a second storage battery;

the second power management circuit is respectively connected with the second storage battery and the second controller and is used for metering the electric energy of the second storage battery;

a second charging circuit respectively connected to the second battery, the second controller and the second bidirectional communicator, and configured to receive power from the second bidirectional communicator and charge the second battery when the second charging circuit is controlled by the second controller to be turned on;

the first energy storage device includes:

a first storage battery;

the first power management circuit is respectively connected with the first storage battery and the first controller and is used for metering the electric energy of the first storage battery;

the first charging circuit is respectively connected with the first storage battery and the first controller and used for receiving electric energy from an input end and charging the first storage battery when the first storage battery is controlled by the first controller to be conducted.

Preferably, the sensing device includes:

the touch module is used for touch detection and/or the key module is used for key detection and/or the pressure sensing module is used for press detection.

Preferably, the method further comprises the following steps:

and the health monitoring module is connected with the data transmission device and used for carrying out health monitoring and outputting health monitoring data to the control device through the data transmission device.

Preferably, the method further comprises the following steps:

and a wireless communication device connected to the control device and performing wireless communication with a controlled apparatus to cause the control device to control the controlled apparatus.

Preferably, the wireless communication device comprises a bluetooth unit based on bluetooth communication and/or a WiFi communication unit based on WiFi communication.

Use the embodiment of the utility model provides a technical scheme shifts wearable equipment's partial function to fixed part on to be favorable to realizing the miniaturization of wearable equipment main part, the design of frivolous, can not influence wearable equipment's function realization simultaneously again. Specifically, the fixing part is connected with the wearable equipment body and can be used for fixing the wearable equipment body, the sensing device and the data transmission device are arranged in the fixing part, the sensing device can detect user operation information, the data transmission device can transmit corresponding instructions to the control device of the wearable equipment body through the communication interface according to the user operation information detected by the sensing device, so that the control device can process the instructions, namely, the user can operate the sensing device on the fixing part, and the wearable equipment can be operated. In conclusion, this application can ensure the function realization of wearable equipment effectively, is favorable to realizing the miniaturization of wearable equipment main part simultaneously, design frivolous.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a wearable device in the present invention;

fig. 2a is a schematic structural diagram of a wearable device body according to an embodiment of the present invention;

FIG. 2b is a schematic structural diagram of a fixing member according to an embodiment of the present invention;

fig. 3 is a schematic diagram of pin positions of a communication interface according to an embodiment of the present invention.

Detailed Description

The core of the utility model is to provide a wearable equipment, can ensure the function realization of wearable equipment effectively, be favorable to realizing the miniaturization of wearable equipment main part, design frivolous simultaneously.

In order to make the technical field better understand the solution of the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings and the detailed description. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a wearable device according to the present invention, the wearable device may include:

a wearable device body 100 and a control apparatus 10 provided in the wearable device body 100;

a fixing member 200 connected to the wearable device body 100 and configured to fix the wearable device body 100;

a sensing device 21 provided in the fixing member 200 for outputting the detected user operation information;

the data transmission device 20 disposed in the fixing member 200 is configured to transmit a corresponding command to the control device 10 through the communication interface according to the user operation information detected by the sensing device 21, so that the control device 10 performs a command process.

Specifically, the wearable device of this application can be smart watch, VR equipment etc to in practical application, smart watch application is more and more extensive, consequently, just explains as the example with the wrist-watch in this application after.

The wearable device body 100 refers to a body structure portion of the wearable device other than the fixing member 200 among the wearable devices, and the fixing member 200 may be used to fix the wearable device body 100. For example, the wristwatch can be divided into a wristwatch band and a wristwatch body, and the wristwatch band serves as a fixing member 200 to be connected to the wristwatch body and to fix the wristwatch body.

In order to achieve the miniaturization and the light weight reduction of the wearable device main body 100, the present application transfers a part of functions to the fixing member 200, that is, the present application provides the sensing device 21 and the data transmission device 20 in the fixing member 200. Wherein the sensing device 21 can output the detected user operation information, and the specific type of the sensing device 21 can be set and adjusted according to actual needs, for example, in a specific embodiment of the present invention, referring to fig. 2b, the sensing device 21 may include:

a touch module 212 for performing touch detection, a key module 213 for performing key detection, and a pressure module 214 for performing press detection.

When the touch module 212 is provided, the user can make the touch module 212 detect the situation by touching the relevant area of the watch band, so as to output the detected user operation information to the data transmission device 20, and it can be understood that the user operation information detected by the touch module 212 is correspondingly different due to different touch positions and different touch modes of the user. The data transmission device 20 can generate a corresponding command according to the user operation information currently detected by the sensor device 21 and transmit the command to the control device 10 in the watch body through the communication interface, so that the control device 10 can process the received command. It can be seen that the user can realize the operation control of the watch main body by touching the relevant area of the watch strap, and the watch is very simple and convenient to use.

When the key module 213 is set, if the user presses a corresponding key in the watch band, the key module 213 will detect the pressed key, so that the user can implement the operation control on the watch body. Similarly, the pressure sensing module 214 enables the user to press the corresponding position to realize the operation control of the watch body.

Of course, in other embodiments, in addition to the above-mentioned 3 kinds of modules, other modules may be provided on the watch band according to actual needs, so as to further expand the function of the watch band, and the implementation of the present invention is not affected. For example, in a specific embodiment of the present invention, the present invention may further include:

and the health monitoring module 211 is connected with the data transmission device 20 and used for performing health monitoring and outputting health monitoring data to the control device 10 through the data transmission device 20.

In this embodiment, the health monitoring module 211 may be disposed in the watch band, i.e., in the fixing member 200, which is advantageous for realizing the lightness and thinness of the wearable device main body 100. And in practical application, set up health monitoring module 211 in the wrist-watch watchband, compare in setting up in the wrist-watch table body, be favorable to improving health monitoring's accuracy.

The sensing device 21 can output the detected user operation information, and the data transmission device 20 can transmit a corresponding command to the control device 10 through the communication interface according to the user operation information currently detected by the sensing device 21, that is, the data transmission device 20 and the control device 10 are in communication connection.

In an embodiment of the present invention, considering that the size of the wearable device such as a watch is small, the contact area between the wearable device main body 100 and the fixing member 200 is small, and therefore, only 1 communication interface is provided between the data transmission device 20 and the control device 10, so that the influence on the external shape of the wearable device main body 100 and the fixing member 200 is small. In addition, since only 1 communication interface is provided between the data transmission device 20 and the control device 10, the waterproof performance of the wearable device is improved, and the assembly difficulty is reduced.

Further, referring to fig. 3, in an embodiment of the present invention, the wearable device main body 100 is a watch main body, the fixing member 200 is a watch band, the communication interface includes a first pin and a second pin, the first pin is disposed at a first end of the watch band, and the second pin is disposed at a second end of the watch band.

In this kind of embodiment, consider that in present wrist-watch, the wrist-watch watchband all is connected through the watchband with the wrist-watch main part usually, consequently, set up first stitch in the position department of the first end of the watchband's watchband, set up the position department of the second end of the watchband's watchband with the second stitch for when using the scheme of this application, need not adjust by a wide margin the wrist-watch appearance originally, also be favorable to the application of this application scheme. It should be noted that, in some embodiments, the watch has two ears, and in this case, the first pin and the second pin may be disposed at the first end and the second end of any one of the ears, and the ear in the 6 o' clock direction of the watch is usually selected, so as to facilitate the user to trigger the sensing device 21. And some watches only have a watch ear, namely one end of the watch watchband is fixed with the watch main body, then use the first end and the second end of this watch ear to set up the first stitch and the second stitch of the communication interface of this application.

In addition, in the embodiment of fig. 3, the first pins and the second pins may be connected to the internal Circuit through a Flexible Printed Circuit (FPC) board, which is provided to facilitate the protection of the Circuit in consideration of the fact that the watch band near the ear position needs to be bent. The device layout area in fig. 3 shows the arrangement area of the data transfer means 20 and the sensing means 21.

In a specific embodiment of the present invention, the wearable device main body 100 includes a first energy storage device for supplying power to the control device 10 and charging the second energy storage device through the communication interface;

the fixed component 200 comprises a second energy storage device for supplying power to the data transmission device 20 and the sensing device 21;

specifically, in this embodiment, in order to ensure the shape and comfort of the fixing component 200, the second energy storage device in the fixing component 200 only needs to supply power to the data transmission device 20 and the sensing device 21, and the first energy storage device in the wearable device main body 100 can supply power to the control device 10.

Furthermore, considering that the battery capacity of the second energy storage device is generally low, the second energy storage device can be charged by the first energy storage device. In addition, in this kind of embodiment, first energy memory charges for the second energy memory through communication interface, that is to say, need not to set up the interface of usefulness of charging in addition again, can reduce the interface quantity between wearable equipment main part 100 and fixed part 200 like this, is favorable to improving waterproof nature to the interface that needs is less, just is favorable to carrying out the appearance design more.

In practical applications, the data transmission device 20 may selectively perform bidirectional communication with the control device 10 by using a carrier, and because the bidirectional communication is carrier communication, the first energy storage device can also charge the second energy storage device through the communication interface while the communication is performed.

The data transmission device 20 may select to perform bidirectional communication with the control device 10 by time-division multiplexing the interface, that is, time-division multiplexing of charging and communication. When no communication is performed between the data transmission device 20 and the control device 10, the first energy storage device can charge the second energy storage device through the communication interface.

In a specific embodiment of the present invention, the data transmission device 20 may include:

a second controller 202 connected to the sensing device 21 for generating a corresponding command according to the user operation information detected by the sensing device 21;

a second bidirectional communicator 201 connected to the second controller 202 and connected to the first bidirectional communicator 101 through a communication interface;

referring to fig. 2a, the control device 10 may include:

a first bidirectional communicator 101 connected to the second bidirectional communicator 201 through a communication interface;

and a first controller connected to the first bidirectional communicator 101 and configured to process the instruction.

In this embodiment, in order to realize bidirectional communication between the data transmission device 20 and the control device 10, the data transmission device 20 includes the second bidirectional communicator 201, and the control device 10 includes the first bidirectional communicator 101. The second controller 202 and the second bidirectional communicator 201 may be connected by an I2C bus, a GPIO interface, or the like, and the first bidirectional communicator 101 and the first controller may be connected by an I2C bus, a GPIO interface, or the like.

In addition, in practical applications, the second Controller 202 may be generally selected as an MCU (Micro Controller Unit), and the first Controller is a main control component of the wearable device main body 100, and therefore, the function of the first Controller is complex, and in the embodiment of fig. 2a, the first Controller may specifically be composed of an MCU102 and an SOC (system on Chip) 103.

The specific configuration of the first energy storage device and the second energy storage device can also be set and adjusted as desired, for example in a specific embodiment of the present invention, the second energy storage device comprises:

a second battery 304;

a second power management circuit 305 connected to the second battery 304 and the second controller 202, respectively, for measuring the electric energy of the second battery 304;

a second charging circuit 306 connected to the second battery 304, the second controller 202, and the second bidirectional communicator 201, respectively, for receiving power from the second bidirectional communicator 201 and charging the second battery 304 when the second charging circuit is controlled by the second controller 202 to be turned on;

the first energy storage device includes:

a first battery 301;

a first power management circuit 302 connected to the first battery 301 and the first controller, respectively, for measuring electric energy of the first battery 301;

and a first charging circuit 303 respectively connected with the first storage battery 301 and the first controller and used for receiving electric energy from the input end and charging the first storage battery 301 when the first storage battery 301 is controlled by the first controller to be conducted.

In this embodiment, the second energy storage device is provided with the second power management circuit 305 for metering the electric energy of the second storage battery 304, so that the second controller 202 can accurately determine the electric energy condition of the second energy storage device, and further, when the electric energy is insufficient, the second controller 202 can control the second charging circuit 306 to be turned on, thereby allowing the second storage battery 304 to be charged.

Similarly, the first power management circuit 302 for metering the electric energy of the first storage battery 301 is arranged in the first energy storage device, so that the first controller can accurately determine the electric quantity condition of the first energy storage device, and further can display the electric quantity condition. When the user charges the watch, the first controller may control the first charging circuit 303 to be turned on, so that the commercial power is input to the first storage battery 301 from the input terminal of the first charging circuit 303.

The specific circuit configuration of the first charging circuit 303 and the second charging circuit 306 can be set and adjusted as needed, for example, the first charging circuit 303 can be a commonly used voltage reduction circuit. In practical applications, the first power management circuit 302 may be used for metering the electric energy of the first battery 301, and may also have various functions such as power mode management, reset, and overvoltage detection.

In a specific embodiment of the present invention, the present invention can further include:

and a wireless communication device connected to the control device 10 and performing wireless communication with the controlled device, so that the control device 10 controls the controlled device.

In this embodiment, considering that a user sometimes wants to control other electronic devices through the watch when operating the watch strap, such as controlling a headset, a sound box, etc., a wireless communication device connected to the control device 10 and capable of wirelessly communicating with a controlled device is provided in the wearable device main body 100, for example, the wireless communication device may specifically include a bluetooth unit based on bluetooth communication and/or a WiFi communication unit based on WiFi communication, which is commonly used, and is convenient for implementation of the scheme. As shown in fig. 2a, the wireless communication device may also perform wireless communication based on GPS, LTE, or other methods.

In addition, the data transmission device 20 of the present application needs to communicate with the control device 10, and the specific communication protocol may be a conventional communication protocol, or may be a customized communication protocol, for example, a table is a format of an instruction in a specific situation.

Table one:

wrapping head

Packet length

Bag characteristics

Service ID

Command ID

Data of

CRC checking

The packet characteristics may include ACK bit of the instruction, instruction type, and other information. In one specific case, the service ID may include both 0x01 and 0x02, 0x01 indicating that the command is a notification message, and 0x02 indicating that the command is a data transfer message. Different command IDs under the notification message indicate different command types, for example, when the command ID is 0x01, it indicates that the watchband is low in charge, and applies for charging. When the command ID is 0x02, it indicates that the wristband charging is completed, and the application closes the charging. When the command ID is 0x03, it indicates that the wristband has detected a user operation, and requests for communication. Can be set according to actual needs. Similarly, different command IDs in the data transfer message indicate different command types, for example, when the command ID is 0x01, it indicates that the watchband charge is synchronized, and the command ID is followed by specific watchband charge data. When the command ID is 0x02, it indicates key data transmission, and the command ID is followed by specific key information.

Use the embodiment of the utility model provides a technical scheme shifts wearable equipment's partial function to fixed part 200 on to be favorable to realizing wearable equipment main part 100's miniaturization, the design of frivolous, can not influence wearable equipment's function realization simultaneously again. Specifically, the fixing component 200 is connected to the wearable device main body 100 and can be used for fixing the wearable device main body 100, in the present application, the sensing device 21 and the data transmission device 20 are disposed in the fixing component 200, the sensing device 21 can detect user operation information, and the data transmission device 20 can transmit a corresponding instruction to the control device 10 of the wearable device main body 100 through the communication interface according to the user operation information detected by the sensing device 21, so that the control device 10 performs instruction processing, that is, the user can operate the wearable device by operating the sensing device 21 on the fixing component 200. In conclusion, the function realization that this application can ensure wearable equipment effectively is favorable to realizing the miniaturization of wearable equipment main part 100 simultaneously, design frivolous.

It is further noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, article, or apparatus that comprises the element.

The principle and the implementation of the present invention are explained herein by applying specific examples, and the above descriptions of the embodiments are only used to help understand the technical solution and the core idea of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (10)

1. A wearable device, comprising:

a wearable device body and a control device provided in the wearable device body;

a fixing member connected to the wearable device body and configured to fix the wearable device body;

a sensing device provided in the fixing member for outputting the detected user operation information;

and the data transmission device is arranged in the fixed part and used for transmitting a corresponding instruction to the control device through a communication interface according to the user operation information detected by the sensing device so as to enable the control device to process the instruction.

2. Wearable device according to claim 1, characterized in that there are only 1 communication interface between the data transmission means and the control means.

3. The wearable device according to claim 2, wherein the wearable device body is a watch body, the fixing member is a watch band, and the communication interface includes a first pin and a second pin, the first pin being provided at a position of a first end of a case of the watch band, and the second pin being provided at a position of a second end of the case of the watch band.

4. The wearable device according to claim 2, wherein the wearable device body includes therein:

the first energy storage device is used for supplying power to the control device and charging the second energy storage device through the communication interface;

the fixed component comprises a second energy storage device used for supplying power for the data transmission device and the sensing device.

5. The wearable device of claim 4, wherein the data transmission means comprises:

the second controller is connected with the sensing device and used for generating a corresponding instruction according to the user operation information detected by the sensing device;

the second bidirectional communicator is connected with the second controller and is connected with the first bidirectional communicator through the communication interface;

the control device includes:

the first bidirectional communicator connected with the second bidirectional communicator through the communication interface;

and the first controller is connected with the first bidirectional communicator and is used for processing the instruction.

6. The wearable device of claim 5, wherein the second energy storage means comprises:

a second storage battery;

the second power management circuit is respectively connected with the second storage battery and the second controller and is used for metering the electric energy of the second storage battery;

a second charging circuit respectively connected to the second battery, the second controller and the second bidirectional communicator, and configured to receive power from the second bidirectional communicator and charge the second battery when the second charging circuit is controlled by the second controller to be turned on;

the first energy storage device includes:

a first storage battery;

the first power management circuit is respectively connected with the first storage battery and the first controller and is used for metering the electric energy of the first storage battery;

the first charging circuit is respectively connected with the first storage battery and the first controller and used for receiving electric energy from an input end and charging the first storage battery when the first storage battery is controlled by the first controller to be conducted.

7. The wearable device of claim 1, wherein the sensing means comprises:

the touch module is used for touch detection and/or the key module is used for key detection and/or the pressure sensing module is used for press detection.

8. The wearable device of claim 1, further comprising:

and the health monitoring module is connected with the data transmission device and used for carrying out health monitoring and outputting health monitoring data to the control device through the data transmission device.

9. The wearable device according to any of claims 1-8, further comprising:

and a wireless communication device connected to the control device and performing wireless communication with a controlled apparatus to cause the control device to control the controlled apparatus.

10. The wearable device according to claim 9, wherein the wireless communication means comprises a bluetooth unit based on bluetooth communication and/or a WiFi communication unit based on WiFi communication.

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