CN113189797A

CN113189797A - Intelligent glasses

Info

Publication number: CN113189797A
Application number: CN202110508792.3A
Authority: CN
Inventors: 于洋; 唐贺
Original assignee: TCL Communication Ningbo Ltd
Current assignee: TCL Communication Ningbo Ltd
Priority date: 2021-05-11
Filing date: 2021-05-11
Publication date: 2021-07-30
Also published as: WO2022236996A1

Abstract

The application discloses intelligent glasses. This intelligent glasses includes: a glasses body; the sound output module is arranged in the glasses main body and used for outputting sound; and the AR module is arranged in the glasses main body and is used for realizing the AR function. The utility model provides an intelligence glasses not only can realize the AR function, but also can output sound, for the intelligence glasses that only can realize the AR function, the function is comparatively abundant.

Description

Intelligent glasses

Technical Field

The application belongs to the technical field of electron, especially relates to an intelligent glasses.

Background

With the increasing diversification of intelligent wearable devices, smart glasses are beginning to gradually enter people's lives. In the related art, the intelligent glasses can install programs and complete functions of schedule reminding, navigation, image shooting, video call and the like by receiving user control instructions. However, the smart glasses in the related art can only implement AR (Augmented Reality) functions, and have fewer functions.

Disclosure of Invention

The embodiment of the application provides intelligent glasses. This intelligence glasses not only can realize the AR function, but also can output sound, for the intelligent glasses that only can realize the AR function, the function is comparatively abundant.

The embodiment of the application provides a pair of intelligent glasses, include:

a glasses body;

the sound output module is arranged in the glasses main body and used for outputting sound;

and the AR module is arranged in the glasses main body and is used for realizing the AR function.

In the intelligent glasses that this application embodiment provided, intelligent glasses still includes battery, mainboard and touch module, the glasses main part includes the picture frame and respectively with first mirror leg and the second mirror leg that the relative both sides of picture frame are connected, first mirror leg is inside to be used for the installation sound output module AR module, battery, mainboard and touch module's at least part.

In the intelligent glasses that this application embodiment provided, first mirror leg includes the flat portion and with the kink that the flat portion is connected, the flat portion with picture frame one side is connected.

In the smart glasses provided in the embodiment of the present application, the main board, at least a portion of the touch module, and the AR module are disposed inside the flat portion, and the battery and the sound output module are disposed inside the bent portion; alternatively, the first and second electrodes may be,

the battery, at least part of the touch module and the AR module are arranged inside the flat part, and the main board and the sound output module are arranged inside the bent part; alternatively, the first and second electrodes may be,

the sound output module, at least part of the touch module and the AR module are arranged inside the flat part, and the battery and the main board are arranged inside the bent part; alternatively, the first and second electrodes may be,

the main board, the battery and the AR module are arranged inside the flat part, and at least parts of the sound output module and the touch module are arranged inside the bent part; alternatively, the first and second electrodes may be,

the main board, the sound output module and the AR module are arranged inside the flat part, and at least parts of the battery and the touch module are arranged inside the bent part; alternatively, the first and second electrodes may be,

the battery, the sound output module and the AR module are arranged inside the flat portion, and the main board and at least part of the touch module are arranged inside the bent portion.

In the smart glasses provided in the embodiment of the present application, the sound output module, the main board, at least a part of the touch module, and the AR module are disposed inside the flat portion, and the battery is disposed inside the bent portion; alternatively, the first and second electrodes may be,

the battery, the main board, at least part of the touch module and the AR module are arranged inside the flat part, and the sound output module is arranged inside the bent part; alternatively, the first and second electrodes may be,

the sound output module, the battery, at least part of the touch module and the AR module are arranged inside the flat part, and the main board is arranged inside the bent part; alternatively, the first and second electrodes may be,

the flat portion is provided with the sound output module, the main board, the battery and the AR module, and the bent portion is provided with at least part of the touch module.

In the smart glasses provided in the embodiment of the present application, at least a portion of the touch module and the AR module are disposed inside the flat portion, and the sound output module, the main board, and the battery are disposed inside the bent portion; alternatively, the first and second electrodes may be,

the sound output module and the AR module are arranged inside the flat part, and at least part of the touch module, the main board and the battery are arranged inside the bent part; alternatively, the first and second electrodes may be,

the main board and the AR module are arranged inside the flat portion, and the sound output module, at least part of the touch module and the battery are arranged inside the bent portion; alternatively, the first and second electrodes may be,

the battery and the AR module are arranged inside the flat portion, and the sound output module, the main board and at least part of the touch module are arranged inside the bent portion.

In the intelligent glasses that this application embodiment provided, flat portion is inside to be provided with the AR module, kink inside is provided with touch module's at least part, sound output module, mainboard and the battery.

In the intelligent glasses that this application embodiment provided, the AR module is close to the picture frame setting.

In the smart glasses provided by the embodiment of the application, the first glasses legs further comprise a connecting part, the connecting part is connected with the flat part and the bent part, the main board, at least part of the touch module and the AR module are arranged inside the flat part, the sound output module is arranged inside the connecting part, and the battery is arranged inside the bent part; alternatively, the first and second electrodes may be,

the main board, at least part of the touch module and the AR module are arranged inside the flat part, the battery is arranged inside the connecting part, and the sound output module is arranged inside the bent part; alternatively, the first and second electrodes may be,

the sound output module, at least part of the touch module and the AR module are arranged inside the flat part, the main board is arranged inside the connecting part, and the battery is arranged inside the bent part; alternatively, the first and second electrodes may be,

the sound output module, at least part of the touch module and the AR module are arranged inside the flat part, the battery is arranged inside the connecting part, and the main board is arranged inside the bent part; alternatively, the first and second electrodes may be,

the battery, at least part of the touch module and the AR module are arranged inside the flat part, the sound output module is arranged inside the connecting part, and the main board is arranged inside the bent part; alternatively, the first and second electrodes may be,

the battery, at least part of the touch module and the AR module are arranged inside the flat part, the main board is arranged inside the connecting part, and the sound output module is arranged inside the bent part; alternatively, the first and second electrodes may be,

the sound output module, the main board and the AR module are arranged inside the flat portion, at least part of the touch module is arranged inside the connecting portion, and the battery is arranged inside the bent portion; alternatively, the first and second electrodes may be,

the sound output module, the main board and the AR module are arranged inside the flat portion, the battery is arranged inside the connecting portion, and at least part of the touch module is arranged inside the bent portion; alternatively, the first and second electrodes may be,

the battery, the main board and the AR module are arranged inside the flat portion, the sound output module is arranged inside the connecting portion, and at least part of the touch module is arranged inside the bent portion; alternatively, the first and second electrodes may be,

the battery, the main board and the AR module are arranged inside the flat portion, at least part of the touch module is arranged inside the connecting portion, and the sound output module is arranged inside the bent portion; alternatively, the first and second electrodes may be,

the battery, the sound output module and the AR module are arranged inside the flat portion, at least part of the touch module is arranged inside the connecting portion, and the main board is arranged inside the bent portion; alternatively, the first and second electrodes may be,

the battery, the sound output module and the AR module are arranged inside the flat portion, the main board is arranged inside the connecting portion, and at least part of the touch module is arranged inside the bending portion.

In the smart glasses provided in the embodiment of the present application, the battery, the sound output module, the main board, at least part of the touch module, and the AR module are sequentially disposed inside the first glasses leg along a length direction of the first glasses leg, and the AR module is disposed near the glasses frame; alternatively, the first and second electrodes may be,

the sound output module, the battery, the mainboard, at least part of the touch module and the AR module are sequentially arranged inside the first glasses leg along the length direction of the first glasses leg, and the AR module is arranged close to the glasses frame; alternatively, the first and second electrodes may be,

the battery, the mainboard, the sound output module, at least part of the touch module and the AR module are sequentially arranged inside the first glasses leg along the length direction of the first glasses leg, and the AR module is arranged close to the glasses frame; alternatively, the first and second electrodes may be,

the sound output module, the mainboard, the battery, touch module's at least part with the AR module is followed the length direction of first mirror leg sets gradually in inside the first mirror leg, just the AR module is close to the picture frame sets up.

In this application embodiment, smart glasses include: a glasses body; the sound output module is arranged in the glasses main body and used for outputting sound; the AR module, set up in inside the glasses main part, the AR module is used for realizing the AR function to can know, the intelligence glasses that this application embodiment provided not only can realize the AR function, but also sound output, for the intelligent glasses that only can realize the AR function, the function is comparatively abundant.

Drawings

The technical solutions and advantages of the present application will become apparent from the following detailed description of specific embodiments of the present application when taken in conjunction with the accompanying drawings.

Fig. 1 is a schematic view of smart glasses provided in an embodiment of the present application.

Fig. 2 is a first cross-sectional schematic view of a first temple provided in an embodiment of the present application.

Fig. 3 is a second cross-sectional view of a first temple according to an embodiment of the present application.

Fig. 4 is a third schematic sectional view of a first temple provided in an embodiment of the present application.

Detailed Description

Referring to the drawings, wherein like reference numbers refer to like elements, the principles of the present application are illustrated as being implemented in a suitable computing environment. The following description is based on illustrated embodiments of the application and should not be taken as limiting the application with respect to other embodiments that are not detailed herein.

Referring to fig. 1, fig. 1 is a schematic structural diagram of smart glasses according to an embodiment of the present disclosure.

The smart glasses 100 may include a glasses body 10, a sound output module (not shown in the drawings), and an AR module (not shown in the drawings). The sound output module is disposed inside the glasses body 10. The sound output module is used for outputting sound. The sound output module may comprise a speaker or a bone conduction sound generator. The AR module is disposed inside the glasses body 10. The AR module is used for realizing AR functions. The AR function is a function of fusing virtual information with the real world. For example, a real environment and a virtual object are superimposed on the same picture or space in real time and exist simultaneously, and a virtual world is fused in the real world and interacts with the real world.

Specifically, the AR module may implement an AR function by means of a birdbath, an optical waveguide, a laser projection, and the like. For example, the AR module may include a micro display chip, a micro display screen, a reflective optical element, and the like, wherein the micro display chip is used to generate an optical image with AR content, the micro display screen is used to display the AR image generated by the micro display chip, the micro display screen can see a large-field high-definition display effect in a small volume, and the reflective optical element includes a concave mirror, a reflective prism, or a reflective grating, and the like, and is used to reflect the AR image on the micro display screen onto the lens of the smart glasses 100.

In some embodiments, please refer to fig. 1 and 2 together, and fig. 2 is a first cross-sectional view of a first temple according to an embodiment of the present disclosure. The glasses body 10 includes a frame 11 and first and

second temples

12 and 13 connected to opposite sides of the frame 11, respectively. It will be appreciated that the frame 11 may also be provided with lenses 14 inside. The frame 11 may be used to hold the lenses 14. The inside of the first temple 12 may be used to mount the sound output module 20 and the AR module 30.

The smart glasses 100 may further include a battery 40, a main board 50, and a touch module 60. The inside of the first temple 13 may also be used to mount at least portions of the battery 40, the main board 50, and the touch module 60. It is understood that the inside of the second temple arm 13 may also be used to mount at least a portion of the sound output module 20, the AR module 30, the battery 40, the main board 50 and the touch module 60, so that when the electronics (e.g., the main board 50) inside one of the first temple arm 12 and the second temple arm 13 is damaged, the electronics inside the other temple arm may be used to continue to operate.

The material of picture frame 11, first mirror leg 12 and second mirror leg 13 isotructure can be selected for metal, plastics or carbon fiber etc. for the weight that alleviates AR glasses, and picture frame 11, first mirror leg 12 and second mirror leg 13 isotructure can adopt high strength, high modulus fibre's novel fiber material, and light in weight can avoid the user to wear the oppression sense that AR glasses led to the fact ear, nose for a long time.

In some embodiments, at least portions of the sound output module 20, the AR module 30, the battery 40, the main board 50, and the touch module 60 may be mounted inside the first temple 12 and the second temple 13, respectively. For example, the sound output module 20, the AR module 30, and the main board 50 may be mounted inside the first temple 12, and at least a portion of the battery 40 and the touch module 60 may be mounted inside the second temple 13. To facilitate the user wearing the smart glasses 100, the first temple 12 and the second temple 13 may be symmetrical, such as the weights may be consistent.

In some embodiments, the smart glasses 100 may further include a sound collection module (not shown) for collecting external sounds, an antenna (not shown) for communicating with other electronic devices (such as a mobile phone), and the like. Both the sound collection module and the antenna module may be disposed inside the glasses body 10. The sound collection module may include a microphone. The antenna module may include a bluetooth antenna or a communication antenna.

The following will further describe an example in which at least a part of the sound output module 20, the AR module 30, the battery 40, the main board 50, and the touch module 60 are mounted inside the first temple 12.

The battery 40 is used to supply power to the smart glasses 100 to maintain normal operation of the smart glasses 100. The battery 40 may be charged using a PNGOPIN charging scheme or a wireless coil charging scheme.

The main board 50 may include a sound output interface, an AR interface, a battery interface, and a touch interface. The sound output module 20 may be connected to the main board 50 through a sound output interface. The AR module 30 may be connected to the motherboard 50 through an AR interface. The battery 40 may be connected to the motherboard 50 through a battery interface. The touch module 60 may be connected to the main board 50 through a touch interface.

In some embodiments, the motherboard 50 may also include a sound collection interface and an antenna interface. Wherein, the sound collection module can be connected with the main board 50 through a sound collection interface. The antenna module may be connected to the main board 50 through an antenna interface. The motherboard 50 may further include a bluetooth chip, a central processing unit, a memory, a GPS positioning module, various sensors (e.g., a gravity sensor, a gyroscope sensor), and the like.

The touch module 60 may be a touch button disposed on an inner surface of the first temple 12, so that the integrity of the first temple 12 can be maintained, and the first temple can be waterproof and dustproof. The user can directly operate the touch key to control the touch key, so that the smart glasses 100 generate a corresponding touch instruction.

In some embodiments, touch module 60 may be a physical button partially protruding from the outer surface of first temple 12. The user can directly operate the physical key to control the physical key, so that the smart glasses 100 generate a corresponding touch instruction.

In some embodiments, the smart glasses 100 may send the geographic location information to a server through an antenna. Wherein the geographical location information may be input by a user. After the server receives the geographical position information, an image acquisition instruction can be issued to the satellite system through the micro-display chip or the central processing unit according to the geographical position information, so that the satellite system can acquire a scene image of a corresponding place as an initial scene image through the camera device of the satellite system and send the initial scene image to the server. The server may send the initial scene image to the smart glasses 100. The server may also determine the smart glasses in the corresponding location according to the geographic location, and issue a sound acquisition instruction to the smart glasses, so that the smart glasses acquire the sound of the corresponding location through the sound acquisition module of the smart glasses, and the server may transmit the sound to the smart glasses 100. The intelligent glasses 100 can also calculate the displacement information of the user wearing the intelligent glasses 100 in real time through a micro display chip or a central processor, and send the displacement information to the server, so that the server returns real-time scene images and real-time sounds according to the displacement information and the geographical position information; the intelligent glasses 100 can update the initial scene image based on the real-time scene image through the micro display chip or the central processing unit to obtain the adjusted AR image, the intelligent glasses 100 can display the AR image through the micro display screen, so that the AR image can be reflected to the lens 14 of the intelligent glasses 100, the sound output module 20 is controlled to output the sound corresponding to the AR image returned by the server in real time, and the user wearing the intelligent glasses 100 can feel personally on the scene. For example, if the geographical location information is the location information of a dribble, when the user wearing the smart glasses 100 walks, the AR image displayed by the smart glasses 100 also changes along with the walking of the user, and the sound output by the smart glasses 100 also changes along with the walking of the user, so that the user can experience the dribble scenery even if the user is not at home.

In some embodiments, the corresponding image may also be generated for display based on the adjusted AR image and the motion of the user wearing the smart glasses. For example, the picture displayed to the user wearing the smart glasses 100 is a grassland picture, and when the user steps on a grassland to walk, along with the walking of the user, the grass at the position where the user is located can correspondingly present the trampled effect, that is, the picture displayed to the user wearing the smart glasses 100 by the smart glasses 100 presents the grassland with the trampled effect for the grass at the corresponding position, so as to give the user the feeling of actually walking on the grassland.

In some embodiments, the battery 40, the sound output module 20, the main board 50, at least a portion of the touch module 60, and the AR module 30 are sequentially disposed inside the first temple 12 along the length direction of the first temple 12. To facilitate the projection of images onto the lenses 14 by the AR module 30, the AR module 30 may be positioned proximate the frame 11.

In some embodiments, two or more of the AR module 30, at least part of the touch module 60, the main board 50, the sound output module 20, and the battery 40 may be stacked in a direction perpendicular to the length direction of the first temple 12. For example, at least portions of the AR module 30 and the touch module 60 may be stacked, and the main board 50, the sound output module 20, and the battery may be stacked. To facilitate the projection of images onto the lens 14 by the AR module 30, at least portions of the AR module 30 and the touch module 60 may be stacked adjacent to the frame 11.

In some embodiments, the sound output module 20, the battery 40, the main board 50, at least a portion of the touch module 60, and the AR module 30 are sequentially disposed inside the first temple 21 along the length direction of the first temple 12. AR module 30 is disposed adjacent frame 11.

In some embodiments, the battery 40, the main board 50, the sound output module 20, at least a portion of the touch module 60, and the AR module 30 are sequentially disposed inside the first temple 12 along the length direction of the first temple 12. AR module 30 is disposed adjacent frame 11.

In some embodiments, the sound output module 20, the main board 50, the battery 40, at least a portion of the touch module 60, and the AR module 30 are sequentially disposed inside the first temple 12 along the length direction of the first temple 12. AR module 30 is disposed adjacent frame 11.

In some embodiments, the main board 50, the sound output module 20, the battery 40, at least a portion of the touch module 60, and the AR module 30 are sequentially disposed inside the first temple 12 along the length direction of the first temple 12. AR module 30 is disposed adjacent frame 11.

In some embodiments, the main board 50, the battery 40, the sound output module 20, at least a portion of the touch module 60, and the AR module 30 are sequentially disposed inside the first temple 12 along the length direction of the first temple 12. AR module 30 is disposed adjacent frame 11.

In some embodiments, at least a portion of the touch module 60, the battery 40, the sound output module 20, the main board 50, and the AR module 30 are sequentially disposed inside the first temple 12 along the length direction of the first temple 12. AR module 30 is disposed adjacent frame 11.

In some embodiments, the main board 50, at least part of the touch module 60, the sound output module 20, the battery 40, and the AR module 30 are sequentially disposed inside the first temple 12 along the length direction of the first temple 12. AR module 30 is disposed adjacent frame 11.

In some embodiments, the main board 50, the battery 40, at least part of the touch module 60, the sound output module 20, and the AR module 30 are sequentially disposed inside the first temple 12 along the length direction of the first temple 12. AR module 30 is disposed adjacent frame 11.

It should be noted that the above are only a few examples of how at least some of the sound output module 20, the AR module 30, the battery 40, the main board 50 and the touch module 60 are specifically disposed along the length direction of the first temple 12, and are not intended to limit the present application. In practical applications, at least portions of the sound output module 20, the AR module 30, the battery 40, the main board 50 and the touch module 60 may be disposed along the length direction of the first temple 12 in other orders.

Referring to fig. 3, fig. 3 is a second cross-sectional view of the first temple according to the present application.

Wherein, the first temple 12 may include a flat portion 121 and a bent portion 122 connected to the flat portion 121. The flat portion 121 is connected to the frame 11 side. The flat portion 121 may be internally provided with the main board 50, at least a portion of the touch module 60, and the AR module 30. The bent portion 122 may be internally provided with the battery 40 and the sound output module 20.

It will be appreciated that to facilitate the projection of images onto the lens 14 by the AR module 30, the AR module 30 may be positioned adjacent the frame 11. To facilitate the user to operate the touch module 60, at least a portion of the touch module 60 may be disposed between the main board 50 and the AR module 30. In order to facilitate the user to hear the sound output by the sound output module 20, the sound output module 20 may be disposed inside the side of the bending portion 122 close to the flat portion 121, and the battery 40 may be disposed inside the side of the bending portion 122 far from the flat portion 20.

In some embodiments, the AR module 30 may be disposed proximate to the frame 11, and the main board 50 may be disposed between at least a portion of the touch module 60 and the AR module 30. The sound output module 20 may be disposed inside the side of the bending portion 122 away from the flat portion 121, and the battery 40 may be disposed inside the side of the bending portion 122 close to the flat portion 121.

In some embodiments, the main board 50 and at least a portion of the touch module 60 can be stacked inside the flat portion 121, such as the main board 50 is disposed on at least a portion of the touch module 60, or at least a portion of the touch module 60 is disposed on the main board 50. The battery 40 and the sound output module 20 can be stacked inside the bending portion 122, such as the battery 40 is disposed on the sound output module 20.

In some embodiments, the main board 50 and the AR module 30 may be stacked inside the flat portion 121, such as the main board 50 is disposed on the AR module 30, or the AR module 30 is disposed on the main board 50. To facilitate the AR module 30 projecting the image onto the lens 14, the AR module 30 and the main board 50 may be stacked inside the flat portion 121 near the frame 11, and at least a portion of the touch module 60 is disposed inside the flat portion 121 far from the frame 11.

In some embodiments, the AR module 30 and at least a portion of the touch module 60 may be stacked inside the flat portion 121, such as the AR module 30 is disposed on at least a portion of the touch module 60, or at least a portion of the touch module 60 is disposed on the AR module 30. To facilitate the AR module 30 projecting the image onto the lens 14, at least a portion of the AR module 30 and the touch module 60 may be stacked inside the flat portion 121 on the side close to the frame 11, and the main board 50 may be disposed inside the flat portion 121 on the side far from the frame 11.

In some embodiments, the AR module 30, at least a portion of the touch module 60, and the main board 50 may be stacked inside the flat portion 121, such as the AR module 30 is disposed on at least a portion of the touch module 60, and at least a portion of the touch module 60 is disposed on the main board 50. To facilitate the AR module 30 projecting the image onto the lens 14, the AR module 30, at least a portion of the touch module 60, and the main board 50 may be stacked inside the flat portion 121 near the frame 11.

In some embodiments, the battery 40, at least a portion of the touch module 60, and the AR module 30 may be disposed inside the flat portion 121, and the main board 50 and the sound output module 20 may be disposed inside the bent portion 122.

In some embodiments, how the battery 40, at least a portion of the touch module 60, and the AR module 30 are disposed inside the flat portion 121, and how the main board 50 and the sound output module 20 are disposed inside the bent portion 122 may refer to the above embodiments, which are not described herein again.

In some embodiments, the sound output module 20, at least a portion of the touch module 60, and the AR module 30 may be disposed inside the flat portion 121, and the battery 40 and the main board 50 may be disposed inside the bent portion 122.

In some embodiments, how the sound output module 20, at least a portion of the touch module 60, and the AR module 30 are disposed inside the flat portion 121, and how the battery 40 and the main board 50 are disposed inside the bent portion 122 may refer to the above embodiments, which are not described herein again.

In some embodiments, the flat portion 121 may be internally provided with the main board 50, the battery 40 and the AR module 30, and the bent portion 122 may be internally provided with at least portions of the sound output module 20 and the touch module 60.

In some embodiments, how the main board 50, the battery 40 and the AR module 30 are specifically disposed inside the flat portion 121, and how at least a portion of the sound output module 20 and the touch module 60 are specifically disposed inside the bent portion 122 may refer to the above embodiments, which are not described herein again.

In some embodiments, the flat portion 121 may be internally provided with the main board 50, the sound output module 20, and the AR module 30, and the bent portion 122 may be internally provided with the battery 40 and at least a portion of the touch module 60.

In some embodiments, how the main board 50, the sound output module 20, and the AR module 30 are specifically disposed inside the flat portion 121, and how at least a portion of the battery 40 and the touch module 60 are specifically disposed inside the bent portion 122 may refer to the above embodiments, which are not described herein again.

In some embodiments, the battery 40, the sound output module 20, and the AR module 30 may be disposed inside the flat portion 121, and at least a portion of the main board 50 and the touch module 60 may be disposed inside the bent portion 122.

Specifically, how the battery 40, the sound output module 20, and the AR module 30 are disposed inside the flat portion 121, and how at least a portion of the main board 50 and the touch module 60 are disposed inside the bent portion 122 may refer to the above embodiments, which are not described herein again.

In some embodiments, the sound output module 20, the main board 50, at least a portion of the touch module 60, and the AR module 30 may be disposed inside the flat portion 121, and the battery 40 may be disposed inside the bent portion 122.

For how to dispose the sound output module 20, the main board 50, at least a portion of the touch module 60, and the AR module 30 inside the flat portion 121, reference may be made to the above embodiments, and details thereof are not repeated herein.

In some embodiments, the battery 40, the main board 50, at least a portion of the touch module 60, and the AR module 30 may be disposed inside the flat portion 121, and the sound output module 20 may be disposed inside the bent portion 122.

For how to dispose the battery 40, the main board 50, at least a portion of the touch module 60, and the AR module 30 inside the flat portion 121, reference may be made to the above embodiments, and details thereof are not repeated herein.

In some embodiments, the sound output module 20, the battery 40, at least a portion of the touch module 60, and the AR module 30 may be disposed inside the flat portion 121, and the main board 50 may be disposed inside the bent portion 122.

For the above embodiments, how the sound output module 20, the battery 40, at least a portion of the touch module 60 and the AR module 30 are specifically disposed inside the flat portion 121 may be referred to, and details thereof are not repeated herein.

In some embodiments, the sound output module 20, the main board 50, the battery 40, and the AR module 30 may be disposed inside the flat portion 121, and at least a portion of the touch module 60 may be disposed inside the bent portion 122.

For how the sound output module 20, the main board 50, the battery 40 and the AR module 30 are specifically disposed inside the flat portion 121, reference is made to the above embodiments, and details thereof are not repeated herein.

In some embodiments, at least a portion of the touch module 60 and the AR module 30 are disposed inside the flat portion 121, and the sound output module 20, the main board 50, and the battery 40 are disposed inside the bent portion 122.

In some embodiments, how at least a portion of the touch module 60 and the AR module 30 are disposed inside the flat portion 121, and how the sound output module 20, the main board 50 and the battery 40 are disposed inside the bent portion 122 may refer to the above embodiments, which are not described herein again.

In some embodiments, the sound output module 20 and the AR module 30 are disposed inside the flat portion 121, and at least a portion of the touch module 60, the main board 50, and the battery 40 are disposed inside the bent portion 122.

In some embodiments, how the sound output module 20 and the AR module 30 are specifically disposed inside the flat portion 121, and how at least a portion of the touch module 60, the main board 50 and the battery 40 are specifically disposed inside the bent portion 122 may refer to the above embodiments, which are not described herein again.

In some embodiments, the flat portion 121 is internally provided with the main board 50 and the AR module 30, and the bent portion 122 is internally provided with the sound output module 20, at least a portion of the touch module 60, and the battery 40.

In some embodiments, how the main board 50 and the AR module 30 are specifically disposed inside the flat portion 121, and how the sound output module 20, at least a portion of the touch module 60, and the battery 40 are specifically disposed inside the bent portion 122 may refer to the above embodiments, which are not described herein again.

In some embodiments, the battery 40 and the AR module 30 are disposed inside the flat portion 121, and at least a portion of the sound output module 20, the main board 50, and the touch module 60 is disposed inside the bent portion 122.

In some embodiments, how the battery 40 and the AR module 30 are specifically disposed inside the flat portion 121, and how at least a portion of the sound output module 20, the main board 50 and the touch module 60 are specifically disposed inside the bent portion 122 may refer to the above embodiments, which are not described herein again.

In some embodiments, the AR module 30 is disposed inside the flat portion 121, and at least a portion of the touch module 60, the sound output module 20, the main board 50, and the battery 40 are disposed inside the bent portion 122.

In some embodiments, reference may be made to the above embodiments for how to dispose at least a portion of the touch module 60, the sound output module 20, the main board 50, and the battery 40 inside the bending portion 122, which is not described herein again.

In some embodiments, when the sound output module 20 includes the bone conduction sound generator, the sound output module 20 may be disposed at a position where the bending part 122 contacts the skin. When the user wears the smart glasses 100, the position where the skin of the user contacts the smart glasses 100 is the position where the smart glasses 100 contact the skin.

Referring to fig. 4, fig. 4 is a third cross-sectional view of the first temple according to the embodiment of the present application.

The first temple 12 may include a flat portion 121, a bent portion 122, and a connecting portion 123 connecting the flat portion 121 and the bent portion 122. The flat portion 121 is connected to the frame 11 side.

The flat portion 121 may have the main board 50, at least a portion of the touch module 60, and the AR module 30 disposed therein, the connection portion 123 may have the sound output module 20 disposed therein, and the bent portion 122 may have the battery 40 disposed therein.

For how to dispose the main board 50, at least a portion of the touch module 60, and the AR module 30 inside the flat portion 121, reference may be made to the above embodiments, which are not repeated herein.

In some embodiments, the main board 50, at least a portion of the touch module 60, and the AR module 30 may be disposed inside the flat portion 121, the battery 40 may be disposed inside the connecting portion 123, and the sound output module 20 may be disposed inside the bent portion 122.

In some embodiments, the sound output module 20, at least a portion of the touch module 60, and the AR module 30 may be disposed inside the flat portion 121, the main board 50 may be disposed inside the connecting portion 123, and the battery 40 may be disposed inside the bent portion 122.

In some embodiments, the sound output module 20, at least a portion of the touch module 60, and the AR module 30 may be disposed inside the flat portion 121, the battery 40 may be disposed inside the connecting portion 123, and the main board 50 may be disposed inside the bent portion 122.

In some embodiments, the battery 40, at least a portion of the touch module 60, and the AR module 30 may be disposed inside the flat portion 121, the sound output module 20 may be disposed inside the connecting portion 123, and the main board 50 may be disposed inside the bent portion 122.

For how to dispose the battery 40, at least a portion of the touch module 60, and the AR module 30 inside the flat portion 121, reference may be made to the above embodiments, which are not repeated herein.

In some embodiments, the battery 40, at least a portion of the touch module 60, and the AR module 30 may be disposed inside the flat portion 121, the main board 50 may be disposed inside the connecting portion 123, and the sound output module 20 may be disposed inside the bent portion 122.

In some embodiments, the sound output module 20, the main board 50, and the AR module 30 may be disposed inside the flat portion 121, at least a portion of the touch module 60 may be disposed inside the connecting portion 123, and the battery 40 may be disposed inside the bent portion 122.

For the above embodiments, how the sound output module 20, the main board 50 and the AR module 30 are specifically disposed inside the flat portion 121 is not described herein again.

In some embodiments, the sound output module 20, the main board 50, and the AR module 30 may be disposed inside the flat portion 121, the battery 40 may be disposed inside the connecting portion 123, and at least a portion of the touch module 60 may be disposed inside the bent portion 122.

In some embodiments, the battery 40, the main board 50, and the AR module 30 may be disposed inside the flat portion 121, the sound output module 20 may be disposed inside the connecting portion 123, and at least a portion of the touch module 60 may be disposed inside the bent portion 122.

For how the battery 40, the main board 50 and the AR module 30 are disposed inside the flat portion 121, reference is made to the above embodiments, and details thereof are not repeated herein.

In some embodiments, the battery 40, the main board 50, and the AR module 30 may be disposed inside the flat portion 121, at least a portion of the touch module 60 may be disposed inside the connecting portion 123, and the sound output module 20 may be disposed inside the bent portion 122.

In some embodiments, the battery 40, the sound output module 20, and the AR module 30 may be disposed inside the flat portion 121, at least a portion of the touch module 60 may be disposed inside the connecting portion 123, and the main board 50 may be disposed inside the bent portion 122.

For how the battery 40, the sound output module 20, and the AR module 30 are disposed inside the flat portion 121, reference is made to the above embodiments, and details thereof are not repeated herein.

In some embodiments, the battery 40, the sound output module 20, and the AR module 30 may be disposed inside the flat portion 121, the main board 50 may be disposed inside the connecting portion 123, and at least a portion of the touch module 60 may be disposed inside the bent portion 122.

In some embodiments, one or two of the sound output module 20, the AR module 30, the battery 40, the main board 50, and at least a portion of the touch module 60 may be disposed inside the flat portion 121, and correspondingly, one or two of the sound output module 20, the AR module 30, the battery 40, at least a portion of the main board 50, and at least a portion of the touch module 60 may be disposed inside the connecting portion 123, and correspondingly, one or two of the sound output module 20, the AR module 30, the battery 40, at least a portion of the main board 50, and at least a portion of the touch module 60 may be disposed inside the bent portion 122. It is understood that the electronic devices disposed inside the flat portion 121, the connecting portion 123, and the bent portion 122 are all different. For example, the sound output module 20 and the AR module may be disposed inside the flat portion 121, the battery 40 may be disposed inside the connection portion 123, and at least a portion of the main board 50 and the touch module 60 may be disposed inside the bent portion 122. The positional relationship among the electronic devices inside the flat portion 121, the connecting portion 123 and the bending portion 122 can refer to the above embodiments, and will not be described herein again.

It should be noted that the above description is only a few examples of the arrangement positions of the main board 50, the touch module 60, the AR module 30, the sound output module 20, and the battery 40, and is not intended to limit the present application.

The foregoing describes in detail a pair of smart glasses provided in an embodiment of the present application, and a specific example is applied to illustrate the principle and the implementation manner of the present application, and the description of the foregoing embodiment is only used to help understand the method and the core idea of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. A smart eyewear, comprising:

a glasses body;

2. The smart glasses according to claim 1, further comprising a battery, a main board, and a touch module, wherein the glasses main body comprises a frame and a first leg and a second leg respectively connected to opposite sides of the frame, and at least a portion of the sound output module, the AR module, the battery, the main board, and the touch module is mounted inside the first leg.

3. The smart glasses according to claim 2, wherein the first temple includes a flat portion and a bent portion connected to the flat portion, and the flat portion is connected to the frame side.

4. The smart glasses according to claim 3, wherein the main board, at least a portion of the touch module, and the AR module are disposed inside the flat portion, and the battery and the sound output module are disposed inside the bent portion; alternatively, the first and second electrodes may be,

5. The smart glasses according to claim 3, wherein the sound output module, the main board, at least a portion of the touch module, and the AR module are disposed inside the flat portion, and the battery is disposed inside the bent portion; alternatively, the first and second electrodes may be,

6. The smart glasses according to claim 3, wherein at least a portion of the touch module and the AR module are disposed inside the flat portion, and the sound output module, the main board, and the battery are disposed inside the bent portion; alternatively, the first and second electrodes may be,

7. The smart glasses according to claim 3, wherein the AR module is disposed inside the flat portion, and at least a portion of the touch module, the sound output module, the main board, and the battery are disposed inside the bent portion.

8. The smart eyewear of any of claims 4-7, wherein the AR module is disposed proximate to the frame.

9. The smart glasses according to claim 3, wherein the first glasses leg further comprises a connecting portion, the connecting portion connects the flat portion and the bent portion, the main board, at least a portion of the touch module, and the AR module are disposed inside the flat portion, the sound output module is disposed inside the connecting portion, and the battery is disposed inside the bent portion; alternatively, the first and second electrodes may be,

10. The smart glasses according to claim 2, wherein the battery, the sound output module, the main board, at least a part of the touch module, and the AR module are sequentially disposed inside the first glasses leg along a length direction of the first glasses leg, and the AR module is disposed near the glasses frame; alternatively, the first and second electrodes may be,