CN114296259B

CN114296259B - Glasses with glasses

Info

Publication number: CN114296259B
Application number: CN202111509136.1A
Authority: CN
Inventors: 任二贝; 卜键; 张惠鹰; 赵健男
Original assignee: Huawei Device Co Ltd
Current assignee: Huawei Device Co Ltd
Priority date: 2021-12-10
Filing date: 2021-12-10
Publication date: 2024-01-16
Anticipated expiration: 2041-12-10
Also published as: CN114296259A

Abstract

The application provides a pair of glasses, it sets up range finding module in the picture frame and sets up inertial measurement module and micro-control module in the mirror leg. Like this, glasses of this application can be under different application environment through the distance measurement module accurate detection wearer's with the eye distance (i.e. the straight line distance of lens to the target object), can also be through inertial measurement module accurate detection wearer's use gesture simultaneously to acquire relevant data through the micro-control module, can improve wearer's with the eye habit through relevant data in order to improve with the eye health.

Description

Glasses with glasses

Technical Field

The present application relates to intelligent electronic wearable devices, in particular to glasses.

Background

The variety of intelligent electronic wearable devices is diverse and has been rapidly developed in recent years. The intelligent electronic wearing equipment is used for detecting human health, and is one of the main directions of development of the intelligent electronic wearing equipment, for example, a wrist watch bracelet can detect heart rate, blood oxygen and the like, and a sports earphone can also detect heart rate, body temperature and the like.

The intelligent glasses belong to intelligent electronic wearing equipment, and the health detection function of the intelligent glasses on eyes of a wearer is unique, so that the intelligent glasses cannot be replaced by other intelligent electronic wearing equipment. Thus, implementing a health detection function for the eyes of a wearer in smart glasses is one of the main developments of related technologies of smart glasses. For factors affecting the wearer's eye health, near-distance use of the eye can result in eye muscle tension, blood circulation disorders, insufficient blood supply, and metabolic imbalance; strong light aggravates eye fatigue, causes vision deterioration, and also causes operational safety problems. More and more wearers desire smart glasses that monitor and feed back to the wearer at least a portion of the above factors so that the wearer can adjust the eye usage habit to ensure eye health. Through research, the inventors of the present application found that although some smart glasses capable of detecting eye-using parameters exist in the prior art, the existing smart glasses lack means for reasonably and accurately detecting eye-using distance and wearing posture.

Disclosure of Invention

In view of this, a novel pair of eyeglasses capable of reasonably and accurately detecting the eye distance and the wearing posture of the wearer has been proposed.

For this purpose, the following technical scheme is adopted in the application.

In a first aspect, embodiments of the present application provide an eyeglass comprising a frame and a temple, the temple being connected to the frame and being capable of rotating relative to the frame, the eyeglass further comprising:

the distance measuring module is arranged on the mirror frame and is positioned at the part of the mirror frame connected with the mirror leg, and the distance measuring module comprises a sensing functional component;

the inertial measurement module is arranged in the glasses leg; and

the micro-control module is arranged in the glasses leg and is electrically connected with the ranging module and the inertial measurement module.

Through adopting above-mentioned technical scheme, the glasses of this application can be under different application environment through the distance measurement module accurate detection person's of wearing eye distance (i.e. the straight line distance of lens to object), can also be through inertial measurement module accurate detection person's of wearing use gesture simultaneously to acquire relevant data through micro-control module, can improve person's of wearing eye habit through relevant data in order to improve person's of wearing health.

In a possible implementation manner of the first aspect, the glasses include two ranging modules, one ranging module is disposed at a portion of the glasses frame connected to one of the glasses legs, and the other ranging module is disposed at a portion of the glasses frame connected to the other of the glasses legs.

Through adopting above-mentioned technical scheme, the glasses of this application can improve the accuracy that ranging module detected wearer's with the eye distance.

In a possible implementation form according to the first aspect, the sensing function is exposed from the frame towards a side opposite to the side on which the temple is located, the sensing function comprising transmitting means, receiving means and a protective cover,

the transmitting means and the receiving means being arranged side by side, the transmitting means being adapted to transmit signals to a target object facing the spectacles, the receiving means being adapted to receive signals reflected by the target object,

the protective cover is fixed to the mirror frame in a state of covering the transmitting device and the receiving device.

By adopting the technical scheme, a typical alternative scheme of the sensing functional component is provided, and the embodiment has a simple structure and is easy to realize.

In a possible implementation manner of the first aspect, the glasses further include an audio module and a power module, where the audio module and the power module are both disposed in the temple, and the audio module is electrically connected to the micro-control module.

By adopting the technical scheme, besides integrating the inertial measurement module and the micro control module into the glasses leg, the power module and the audio module are also integrated into the glasses leg, so that the integrated function of the glasses is increased, and meanwhile, the volume of the glasses is not obviously increased.

In a possible implementation manner according to the first aspect, the temple includes:

a first temple portion connected to the frame; and

a second temple portion secured to the first temple portion, the second temple portion forming a folded structure with the first temple portion,

the inertial measurement module, the micro control module and the audio module are all arranged in the first mirror leg part, and the power module is arranged in the second mirror leg part.

Through adopting above-mentioned technical scheme, the glasses of this application have reasonable structural layout.

In a possible implementation form according to the first aspect, the audio module is located against the second temple portion compared to the inertial measurement module and the micro control module.

Through adopting above-mentioned technical scheme, under the state that the wearer wore glasses of this application, audio module is close to the ear of wearer, is favorable to audio signal transmission of audio module to the ear of wearer.

In a possible implementation manner according to the first aspect, the glasses include a hinge assembly and a flexible circuit board, the glasses frame and the glasses legs are connected by the hinge assembly, so that the glasses legs can rotate relative to the glasses frame, the flexible circuit board is used for enabling the ranging module to be electrically communicated with the micro-control module, and the flexible circuit board extends from the glasses frame to the inside of the glasses legs through the hinge assembly.

Through adopting above-mentioned technical scheme, under the state that mirror leg and picture frame are in any relative position, flexible circuit board can both ensure the electric conduction between range finding module and the micro-control module.

In a possible implementation manner according to the first aspect, the hinge assembly includes a first hinge assembly, a second hinge assembly and a connecting piece, the first hinge assembly is fixed with the frame, the second hinge assembly is fixed with the temple, and the first hinge assembly and the second hinge assembly are connected through the connecting piece, so that the first hinge assembly and the second hinge assembly can rotate around the connecting piece.

By adopting the technical scheme, the implementation scheme of the hinge assembly is simple in structure and easy to implement.

In a possible implementation manner according to the first aspect, the first hinge assembly includes a first main body portion and a first connection portion, one end portion of the first main body portion is fixed to the frame, the other end portion of the first main body portion is fixed to the first connection portion, the first connection portion is formed with a first through hole into which the connection member is inserted,

the first hinge assembly is formed with a first guide path guiding the flexible circuit board to extend, the first guide path extending from one end of the first body portion along a length direction of the first body portion up to the first connection portion.

By adopting the technical scheme, the first hinge assembly connected with the glasses frame has the function of guiding the extension of the flexible circuit board, and is beneficial to the installation of the flexible circuit board.

In a possible implementation manner of the first aspect, the first hinge assembly further includes a first cover part including a flat plate part and a curved part formed as one body, the flat plate part being fixed to the first body part, the first body part being formed with a recess opposite to the flat plate part, the first connection part being formed with a cylindrical shape, the curved part being matched with an outer circumferential surface shape of the first connection part,

the first guide passage extends through a space surrounded by the flat plate portion and the first main body portion and through a space between the bent portion and the first connection portion.

The beneficial effect through adopting above-mentioned technical scheme, the first articulated assembly that links to each other with the picture frame has the function of protection flexible circuit board and prevent foreign matter such as dust entering glasses.

In a possible implementation manner according to the first aspect, the second hinge assembly includes a second body portion and a second connection portion, an end portion of the second body portion is fixed to the temple, another end portion of the second body portion is used as a limiting portion capable of abutting against the lens frame for limiting a rotation range of the temple relative to the lens frame, the second connection portion is fixed to the second body portion, the second connection portion is formed with a second through hole into which the connection member is inserted, the second through hole communicates with the first through hole,

the second hinge assembly is formed with a second guide path guiding the extension of the flexible circuit board, the second guide path entering the second body portion from the second connection portion and extending to an end portion of the second body portion.

By adopting the technical scheme, the second hinge assembly connected with the glasses leg has the function of guiding the extension of the flexible circuit board, and is beneficial to the installation of the flexible circuit board.

In a possible implementation manner according to the first aspect, the second connection portion includes a lug portion protruding from the second main body portion, the second through hole is formed in the lug portion, and a guide wall portion rising from an outer peripheral edge of the lug portion,

the second hinge assembly further includes a second cover portion fixed to the second body portion, and the second cover portion and the lug portion are located at both sides of the first connection portion in such a manner as to sandwich the first connection portion.

Through adopting above-mentioned technical scheme, the second hinge assembly who links to each other with the mirror leg has the function of protection flexible circuit board and prevents foreign matter such as dust entering glasses.

In a possible implementation manner of the first aspect, the second body portion is formed with a hollow groove at one end portion thereof, the hollow groove extends along a length direction of the second body portion, and the second body portion is further formed with a mounting hole that communicates the hollow groove with a position where the first connection portion is located, so that the flexible circuit board can be inserted into the hollow groove via the mounting hole.

Through adopting above-mentioned technical scheme, the second articulated assembly has hollow structure and is used for holding the redundant length of flexible circuit board for flexible circuit board can not damage at mirror leg for picture frame pivoted in-process.

These and other aspects of the application will be apparent from and elucidated with reference to the embodiment(s) described hereinafter.

Drawings

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

Fig. 1 is a perspective view showing glasses according to an embodiment of the present application, in which a part of the structure is shown in perspective.

Fig. 2 is an enlarged schematic view showing a partial structure of the glasses in fig. 1, in which sensing function parts of the ranging module and surrounding structures thereof are shown.

Fig. 3 is an enlarged schematic view showing another partial structure of the glasses in fig. 1, in which a hinge assembly for connecting a temple of the glasses and a frame of the glasses and a flexible circuit board are mainly shown.

Fig. 4 is an exploded schematic view showing the hinge assembly of fig. 3 and the flexible circuit board and the ranging module.

Fig. 5 is a perspective view illustrating a second hinge assembly of the hinge assembly of fig. 3.

Description of the reference numerals

SF glasses frame AR glasses leg FPC flexible circuit board

10 ranging module 101 transmitting device 102 receiving device 103 protecting cover 20 inertial measurement module 30 audio module 40 power module 50 micro-control module

HI hinge assembly

1 first hinge member 11 first body portion 11c recess 12 first connecting portion 12h first through hole 13 first cover portion 131 flat plate portion 132 bending portion

2 second hinge member 21 second body portion 21c hollow 21h mounting hole 22 second connecting portion 22h second through hole 221 lug portion 222 guide wall portion 23 second cover portion

3 a connecting piece.

Detailed Description

Various exemplary embodiments, features and aspects of the present application will be described in detail below with reference to the accompanying drawings. In the drawings, like reference numbers indicate identical or functionally similar elements. Although various aspects of the embodiments are illustrated in the accompanying drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

The word "exemplary" is used herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments.

In addition, numerous specific details are set forth in the following examples in order to provide a better understanding of the present application. It will be understood by those skilled in the art that the present application may be practiced without some of these specific details. In some instances, well known methods, procedures, and components have not been described in detail so as not to obscure the subject matter of the present application.

In this application, the description of the "longitudinal direction" refers to the longitudinal direction of each component itself.

The technical idea of the present application is explained below. The glasses of the present application are in fact so-called smart glasses, which have a distance measuring module in the frame and an inertial measuring module and a micro-control module in the temple. Like this, glasses of this application can be under different application environment through the distance measurement module accurate detection wearer's with the eye distance (i.e. the straight line distance of lens to the target object), can also be through inertial measurement module accurate detection wearer's use gesture simultaneously to acquire relevant data through the micro-control module, can improve wearer's with the eye habit through relevant data in order to improve with the eye health.

The structure of the glasses according to an embodiment of the present application is described below.

As shown in fig. 1, the glasses according to an embodiment of the present application include a frame SF, two temples AR, and two hinge assemblies HI. The two temples AR are respectively connected to the frame SF via a hinge assembly HI such that the temples AR can be rotated in a predetermined range with respect to the frame SF. When the two temples AR are in an open state as shown in fig. 1 with respect to the frame SF, the glasses are in a state capable of being worn. In order to facilitate the accommodation of the glasses, the two temples AR can be rotated with respect to the frame SF from the open state shown in fig. 1 to the retracted state. In this retracted state, the two temples AR are substantially parallel to the frame SF.

In this embodiment, the frame SF has a frame body to which two lenses (the lenses may be lenses capable of being energized to change light transmittance or to achieve an atomization effect) are attached, and the size and structure of the frame body may be adjusted as needed. The two temples AR are connected to the upper ends of the side frames on both sides in the width direction of the mirror frame SF. Specifically, each temple AR includes a first temple portion and a second temple portion fixed to each other. The first temple portion extends linearly and is connected to the frame SF via a hinge assembly HI. The second temple portion is secured to the first temple portion. The second temple portion forms a folded structure with the first temple portion. When the eyeglasses are in an open state, the second temple portion is positioned on the opposite side of the frame SF with respect to the first temple portion.

Further, as shown in fig. 1, in order to detect the eye distance and the use posture of the wearer and to implement the voice function, the glasses according to an embodiment of the present application further include a ranging module 10, an inertial measurement module 20, a micro control module 50, an audio module 30, and a flexible circuit board FPC (see fig. 3 and 4).

In the present embodiment, two ranging modules 10 are disposed in the lens frame SF and located at the positions of the lens frame SF connected to the two temples AR. The distance measuring module 10 comprises a distance sensor (sensing function) and a corresponding resistor, capacitor, inductor etc. The distance sensor is not limited to a specific type, and may be a laser ranging sensor, a TOF (Time of flight) sensor, an ultrasonic sensor, or the like, and an appropriate ranging sensor may be selected depending on the use scene. The distance measuring sensor is exposed from the lens frame SF to the opposite side of the side where the temple AR is located. In the present embodiment, as shown in fig. 2, the ranging sensor includes a transmitting device 101, a receiving device 102, and a protective cover 103. The transmitting device 101 and the receiving device 102 are arranged side by side, the transmitting device 101 is used for transmitting a signal (for example, an ultrasonic signal) to a target object facing the glasses, and the receiving device 102 is used for receiving a signal reflected by the target object. The protective cover 103 is made of a transparent material, and the protective cover 103 is fixed to the frame SF in a state of covering the transmitting device 101 and the receiving device 102, for example, by dispensing. It will be appreciated that in order to improve the accuracy of the distance measuring module 10 in detecting the distance of the wearer's eyes, the spectacles comprise two distance measuring modules 10, wherein one distance measuring module 10 is disposed at the portion of the frame SF connected to one of the temples AR, and the other distance measuring module 10 is disposed at the portion of the frame SF connected to the other of the temples AR. The ranging module 10 may be connected to the flexible circuit board FPC by means of pressure welding or the like to achieve electrical conduction.

In the present embodiment, the inertial measurement module 20, the audio module 30, and the micro-control module 50 are all disposed within the first temple portion, and the power module 40 is disposed within the second temple portion. The inertial measurement module 20 and the micro control module 50 are both disposed on a motherboard (printed circuit board) that is electrically connected to the ranging module 10 through a flexible circuit board FPC. The inertial measurement module 20 is configured to detect a usage posture of a wearer, and may detect a plurality of usage postures such as a user lowering his head, lifting his head, turning his head, etc. The detection scene of the inertia measurement module 20 is more diversified, and the accuracy is more accurate. In addition, the inertial measurement module 20 can also be used to determine the spinal status of the wearer, enriching the detection parameters of the smart glasses. The micro control module 50 is used for processing detection data of the ranging module 10 and the inertial measurement module 20, and can also mobilize the audio module 30 to report and remind, and can also upload data to the terminal device through a bluetooth chip and the like. In contrast to the inertial measurement module 20 and the micro-control module 50, the audio module 30 is located in a position proximate to the second temple portion. In fact, in order to bring the audio module 30 close to the wearer's ear, the audio signal of the audio module 30 may be advantageously transmitted to the wearer's ear, the audio module 30 may be located in the first temple portion very close to the second temple portion, i.e. in the folded position of the entire temple AR. The power module 40 may be a battery capable of repeatedly charging and discharging, which is capable of providing the necessary power to the ranging module 10, the inertial measurement module 20, the audio module 30, and the micro control module 50.

In this embodiment, the flexible circuit board FPC extends from the frame SF to the temple AR via the hinge assembly HI. The flexible circuit board FPC can ensure electrical conduction between the ranging module 10 and the motherboard (micro control module 50) in a state where the temple AR and the frame SF are at any relative positions. Further, the hinge assembly HI not only plays a role in guiding the flexible circuit board FPC and shielding the flexible circuit board FPC, but also can prevent foreign matters such as dust from entering the inside of the glasses, improving reliability. The specific structure of the hinge assembly HI is described below.

As shown in fig. 3 to 4, the hinge assembly HI includes a first hinge assembly 1, a second hinge assembly 2, and a connection member 3. The first hinge assembly 1 may be fixed to the frame SF, for example, by an insert molding process, and the second hinge assembly 2 may be fixed to the temple AR, for example, by an insert molding process. The first hinge assembly 1 and the second hinge assembly 2 are connected by a connecting member 3 such that the first hinge assembly 1 and the second hinge assembly 2 can rotate about the connecting member 3.

In the present embodiment, as shown in fig. 4, the first hinge assembly 1 includes a first main body portion 11, a first connecting portion 12, and a first cover portion 13, which are fixed together. One end portion of the first body portion 11 is formed as an insertion structure, and the insertion structure of the first body portion 11 is buried in the frame SF so that the first body portion 11 is fixed to the frame SF. The other end portion of the first body portion 11 is fixed to the first connecting portion 12. The first connecting portion 12 is formed in a cylindrical shape, and an outer peripheral surface of the first connecting portion 12 is fixed to the first main body portion 11. The first connection portion 12 is formed with a first through hole 12h into which the connection member 3 is inserted. The first cover 13 is fixed to the first body 11. The first cover portion 13 includes a flat plate portion 131 and a curved portion 132 formed integrally. The flat plate portion 131 is fixed to the first body portion 11, and the first body portion 11 is formed with a recess 11c facing the flat plate portion 131, and the flat plate portion 131 and the recess 11c together enclose a hollow space. The curved portion 132 is shape-matched with the outer peripheral surface of the first connecting portion 12, and the curved portion 132 is spaced apart from the outer peripheral surface of the first connecting portion 12.

Further, the first hinge assembly 1 is formed with a first guide path guiding the extension of the flexible circuit board FPC. The first guide passage extends from one end of the first body 11 along the longitudinal direction of the first body 11 to the outer peripheral surface of the first connecting portion 12. The first guide passage passes through one end portion of the first body portion 11, extends through a space surrounded by the flat plate portion 131 and the first body portion 11, and passes through a space between the bent portion 132 and the first connection portion 12. The actual extension shape of the first guide path can be seen by the shape of the flexible circuit board FPC in fig. 4.

In the present embodiment, as shown in fig. 4, the second hinge assembly 2 includes a second main body portion 21, a second connection portion 22, and a second cover portion 23. One end portion of the second body portion 21 is formed as an insertion structure, and the insertion structure of the second body portion 21 is buried in the temple AR such that the second body portion 21 is fixed to the temple AR. The other end portion of the second body portion 21 serves as a stopper portion capable of abutting against the lens frame SF, for limiting the range of rotation of the temple AR with respect to the lens frame SF. That is, when the two temples AR are opened at the maximum angle to each other, the other end portions of the second body portions 21 of the second hinge assemblies 2 of the two hinge assemblies HI abut against the frame SF. The second connecting portion 22 is fixed to the second main body portion 21. The second connection portion 22 includes a lug portion 221 and a guide wall portion 222. The lug portion 221 protrudes from the second body portion 21 toward one side of the second body portion 21, and the lug portion 221 is formed with a second through hole 22h into which the connector 3 is inserted. The second through hole 22h is opposite to the first through hole 12h of the first connection part 12 such that the connection member 3 inserted into the first through hole 12h and the second through hole 22h can connect the first hinge assembly 1 and the second hinge assembly 2 together. The guide wall 222 stands from the outer peripheral edge of the lug 221. The second cover portion 23 is fixed to the guide wall portion 222, and the second cover portion 23 and the lug portion 221 are located on both sides of the first connecting portion 12 so as to sandwich the first connecting portion 12. The second cover part 23 is formed with a hole for mounting the connector 3.

Further, the second hinge assembly 2 is formed with a second guide path guiding the extension of the flexible circuit board FPC, the second guide path entering the second main body portion 21 from the second connection portion 22 via the mounting hole 21h and extending to one end portion of the second main body portion 21.

In addition, the glasses are considered to be continuously opened and closed in the hands of a wearer, so that a certain length redundancy is required to be reserved on the flexible circuit board FPC, and direct stretch-breaking is avoided. A hollow 21c is thus provided in the second hinge member 2 as a flexible circuit board FPC movement space. Specifically, as shown in fig. 5, the second body portion 21 is formed with an empty groove 21c at one end portion thereof. The empty groove 21c extends along the length direction of the second body portion 21, and the second body portion 21 is further formed with a mounting hole 21h, the mounting hole 21h communicating the empty groove 21c with the position of the first connection portion 12 so that the flexible circuit board FPC can be inserted into the empty groove via the mounting hole 21 h.

The foregoing has outlined exemplary embodiments and related variations of the embodiments of the present application, and the additional description is provided below.

i. It will be appreciated that by adopting the above technical solutions, it is possible to achieve, in addition to the main objects of the present application. The scheme of this application has more reasonable structural layout, can not obviously increase the volume of glasses.

it can be appreciated that when the flexible circuit board FPC is adopted to realize electrical conduction, the flexible circuit board FPC is basically covered by the glasses frame SF, the glasses legs AR and the hinge assemblies HI, so that the appearance is ensured, and the reliability of electrical conduction is also improved.

The glasses can not only remind the user that the eye distance is too close by voice, but also record an eye usage curve of the user for a period of time by using the terminal equipment to generate an eye usage habit report; in addition, the passing rate can be actively changed by combining the lenses.

The same configuration may be provided in both temples AR to correspond to different ranging modules 10, respectively. It is also possible to electrically connect both ranging modules 10 to the micro-control module 50 in one of the temples AR, wherein the ranging module 10 at a greater distance may be electrically connected by a flexible circuit board extending in the frame SF.

In order to prevent undesired rotation of the second cover part 23 relative to the second body part 21, corresponding male-female engagement may be provided in both the second cover part 23 and the second body part 21.

Under the teaching of the technical conception of the application, a scheme for detecting corresponding parameters can be realized in different wearable electronic devices so as to improve the use habit of a wearer in wearing the electronic wearable devices.

Although the present application has been described herein in connection with various embodiments, other variations to the disclosed embodiments can be understood and effected by those skilled in the art in practicing the claimed application, from a review of the figures, the disclosure, and the appended claims. In the claims, the word "comprising" does not exclude other elements or steps, and the "a" or "an" does not exclude a plurality. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to advantage.

The embodiments of the present application have been described above, the foregoing description is exemplary, not exhaustive, and not limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the improvement of technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims

1. Glasses, glasses include picture frame and mirror leg, the mirror leg with the picture frame links to each other and can for the picture frame rotates, its characterized in that, glasses still include:

the inertial measurement module is arranged in the glasses leg;

the micro-control module is arranged in the glasses leg and is electrically connected with the ranging module and the inertial measurement module;

the glasses frame and the glasses legs are connected through the hinge assembly; and

a flexible circuit board for electrically connecting the ranging module and the micro control module, the flexible circuit board extending from the lens frame through the hinge assembly to the inside of the lens leg,

the hinge assembly comprises a first hinge assembly, a second hinge assembly and a connecting piece, wherein the first hinge assembly is fixed with the glasses frame, the second hinge assembly is fixed with the glasses leg, the first hinge assembly and the second hinge assembly are connected through the connecting piece, so that the first hinge assembly and the second hinge assembly can rotate around the connecting piece,

the first hinge assembly comprises a first main body part, a first connecting part and a first cover part, wherein one end part of the first main body part is fixed on the mirror frame, the other end part of the first main body part is fixed with the first connecting part, the first connecting part is formed with a first through hole for the connecting piece to be inserted, the first cover part comprises a flat plate part and a bending part which are integrally formed, the flat plate part is fixed on the first main body part, the first main body part is formed with a concave part opposite to the flat plate part, the first connecting part is formed with a cylindrical shape, and the bending part is matched with the shape of the outer peripheral surface of the first connecting part.

2. The eyewear of claim 1, comprising two said ranging modules, one of said ranging modules being disposed at a portion of said frame associated with one of said temples and the other of said ranging modules being disposed at a portion of said frame associated with the other of said temples.

3. The spectacles of claim 1, wherein the sensing function is exposed from the frame toward a side opposite to the side on which the temples are located, the sensing function including a transmitting device, a receiving device and a protective cover,

4. The eyewear of any one of claims 1-3, further comprising an audio module and a power module, both disposed in the temple, the audio module in electrical communication with the micro-control module.

5. The eyewear of claim 4, wherein the temple comprises:

a first temple portion connected to the frame; and

6. The eyewear of claim 5, wherein the audio module is located against the second temple portion as compared to the inertial measurement module and the micro-control module.

7. The glasses according to claim 1 to 3, wherein,

8. The glasses according to claim 7, wherein,

9. The eyewear of claim 8, wherein said second hinge assembly comprises a second body portion having one end portion fixed to said temple and the other end portion serving as a stopper portion capable of abutting against said frame for limiting a range of rotation of said temple with respect to said frame, and a second connection portion fixed to said second body portion, said second connection portion being formed with a second through hole into which said connection member is inserted, said second through hole being in communication with said first through hole,

10. The eyewear of claim 9, wherein said second connection portion comprises a tab portion protruding from said second body portion, said second through hole being formed in said tab portion, and a guide wall portion rising from an outer peripheral edge of said tab portion,

11. The eyewear of claim 10, wherein the second body portion is formed with a void at one end thereof, the void extending along a length direction of the second body portion, the second body portion further being formed with a mounting hole that communicates the void with a location where the first connection portion is located such that the flexible circuit board can be inserted into the void via the mounting hole.