CN111025679A - Mirror holder, intelligent glasses, mirror leg, picture frame and picture frame assembly - Google Patents

Abstract

The application discloses mirror holder, intelligent glasses, mirror leg, picture frame and picture frame assembly. The glasses frame comprises glasses legs and a glasses frame, the glasses legs are provided with first electronic units, the glasses frame is provided with second electronic units, and one end parts of the glasses legs are rotatably and detachably connected to one end part of the glasses frame through a connecting shaft; one end part of each glasses leg and one end part of each glasses frame are provided with an electric connecting device, each electric connecting device comprises a first electric connecting part and a second electric connecting part, each first electric connecting part is arranged on each glasses leg and is electrically connected with the corresponding first electronic unit, and each second electric connecting part is arranged on each glasses frame and is electrically connected with the corresponding second electronic unit; when the temple is in the unfolded use state, the first electric connection part is electrically connected with the corresponding second electric connection part; when the temple is in the folded and stored state, the first electrical connection part is electrically disconnected from the corresponding second electrical connection part. The head-wearing and head-surrounding integrated device can meet the requirements of wearing comfort and attractive selectivity of users with different head types and head circumferences, and is high in use reliability and convenient to use.

Description

Mirror holder, intelligent glasses, mirror leg, picture frame and picture frame assembly

Technical Field

The application relates to a wear to show technical field, especially relate to a mirror holder, intelligent glasses, mirror leg, picture frame and picture frame assembly.

Background

The augmented reality technology is a new technology for seamlessly integrating real world information and virtual world information, and is characterized in that entity information (visual information, sound, taste, touch and the like) which is difficult to experience in a certain time space range of the real world originally is overlapped after simulation through scientific technologies such as computers and the like, virtual information is applied to the real world and is perceived by human senses, and therefore sensory experience beyond reality is achieved. An application of the augmented reality technology is the augmented reality intelligent glasses. The intelligent glasses are used as carriers, various virtual technical information is combined with actual operation, great promotion effect can be generated in various fields such as training, medical treatment, military affairs and industrial production, and more attention is paid to the intelligent glasses.

At present, augmented reality intelligence glasses include the picture frame usually, lens and two mirror legs, and the lens sets up in the picture frame, and the tip of two mirror legs passes through connecting axle rotatable coupling respectively in the left and right sides tip of picture frame, and be undetachable connection between two mirror legs and the picture frame, and simultaneously, the signal transmission mode between the electronic unit on the picture frame and the electronic unit on the mirror leg is wired transmission, mainly is the electric connection between the electronic unit on the picture frame and the electronic unit on the mirror leg through the mode of passing the cable in the connecting axle.

By adopting the augmented reality intelligent glasses with the structure, the two glasses legs are connected with the glasses frame in an undetachable manner, so that the glasses frame or the glasses legs cannot be replaced independently, the intelligent glasses have a single style, and cannot meet the requirements of wearing comfort and aesthetic selectivity of users with different head types and head circumferences; simultaneously, realize signal transmission through the mode that passes the cable in the connecting axle for under the mirror leg realizes the condition of switching between expansion state and fold condition many times, the cable that passes the connecting axle buckles many times, easily leads to its fracture, thereby makes this intelligent glasses's use reliability lower, and the cable that passes the connecting axle produces the interference to the rotation of mirror leg, thereby makes mirror leg pivoted resistance great, leads to using inconveniently.

Disclosure of Invention

The utility model provides a purpose aim at solve that intelligent glasses among the prior art can't be compatible different head types and head circumference user's the demand of wearing travelling comfort and pleasing to the eye selectivity, use the reliability lower and use inconvenient problem. Therefore, this application embodiment provides a mirror holder, intelligent glasses, mirror leg, picture frame and picture frame assembly, and it can be compatible different head types and head circumference user's the demand of wearing travelling comfort and pleasing to the eye selectivity, uses the reliability higher and convenient to use.

The embodiment of the application provides a spectacle frame, which comprises spectacle legs and a spectacle frame, wherein the spectacle legs are provided with first electronic units, the spectacle frame is provided with second electronic units, one end parts of the spectacle legs are rotatably connected to one end part of the spectacle frame through a connecting shaft, so that the spectacle legs can be switched between an unfolding use state and a folding and unfolding state, and one end parts of the spectacle legs are detachably connected to one end part of the spectacle frame through the connecting shaft;

one end of the glasses leg and one end of the glasses frame are provided with an electric connecting device, the electric connecting device comprises a first electric connecting part and a second electric connecting part which are correspondingly arranged, the first electric connecting part is arranged at one end of the glasses leg and is electrically connected with the first electronic unit, and the second electric connecting part is arranged at one end of the glasses frame and is electrically connected with the second electronic unit;

when the temple is in the unfolded use state, the first electrical connection part is electrically connected with the corresponding second electrical connection part; when the temple is in the folded and stored state, the first electrical connection portion is electrically disconnected from the corresponding second electrical connection portion.

In the technical scheme that this embodiment adopted, need not just can realize being located the first electronic unit of mirror leg and being located the second electronic unit of picture frame through passing the cable in the connecting axle and switch on, realize the transmission of power signal and low frequency signal. The connecting shaft design degree of difficulty has been reduced like this, increases the design flexibility, and has improved the use reliability of mirror holder, has avoided the cable that passes the connecting shaft to produce the rotation of mirror leg and has interfered to feel when having promoted the mirror leg rotation, it is more convenient to use.

Moreover, the replaceable design of the glasses legs and the glasses frames can be realized, and only the electric connection device of the connection part needs to be shared with signals of the inner wiring of the glasses legs and the glasses frames, so that the signals are kept consistent. Through adopting the modularized design with mirror leg and picture frame, the design has mirror leg and picture frame of unidimensional and different outward appearances not to the user can select the mirror leg and the collocation of picture frame of unidimensional and different outward appearances according to oneself head circumference size and aesthetic taste hobby, can realize the arbitrary equipment between each mirror leg and each picture frame, with this equipment out the mirror holder of different styles and unidimensional, and then can compatible different head types and head circumference user wear the travelling comfort and beautifully the demand of selectivity. Simultaneously, the user can match in advance several mirror legs and picture frames of using regularly when purchasing, like this, when needs use, can be according to the actual need of different occasions, freely change the mirror leg or the picture frame of different styles to collocation goes out different effects, changes convenient operation swiftly. When damaged, the glasses legs or the glasses frames are convenient to replace independently, and the whole glasses frame does not need to be replaced.

In some embodiments, the first electrical connection portion includes at least one first sub electrical connection portion, the second electrical connection portion includes at least one second sub electrical connection portion, and the first sub electrical connection portion is disposed corresponding to the second sub electrical connection portion.

In some embodiments, when the temple is in the unfolded use state, the first sub electrical connection and the corresponding second sub electrical connection are elastically connected, and simultaneously, the temple is provided with a resilience force.

In the technical scheme adopted by this embodiment, when the first electrical connection portion and the corresponding second electrical connection portion are squeezed along the axial direction thereof, a certain floating displacement is provided, so that the generated squeezing force can be eliminated, the first electrical sub-connection portion and the corresponding second electrical sub-connection portion are prevented from generating hard damage, and the stability of the electrical contact between the first electrical sub-connection portion and the corresponding second electrical sub-connection portion can be ensured.

When the temple rotates to a position where a gap is left between the temple and one end of the spectacle frame, the first sub electric connection part and the corresponding second sub electric connection part can still be in contact and elastically connected, and the elastic force can be provided for the temple. Thereby can ensure that mirror leg is to user's head clamping-force when wearing this intelligent glasses, and this mirror leg has certain rotation allowance, thereby increased the user and worn compatibility and comfort level.

In some embodiments, when one of the first sub electrical connection portion and the corresponding second sub electrical connection portion is an elastic electrical connection portion, the other is an elastic electrical connection portion or a non-elastic electrical connection portion.

In some embodiments, the elastic electrical connection portion is an elastic electrical connection terminal or a conductive spring; and/or the inelastic electrical connection part is an inelastic electrical connection terminal or a conductive sheet.

In some embodiments, when the temple is in the folded and retracted state, one end of the first sub electrical connector, which is used for being electrically connected with the corresponding second sub electrical connector, protrudes out of an end face of one end of the temple, one end of the second sub electrical connector, which is used for being electrically connected with the corresponding first sub electrical connector, is recessed in an end face of one end of the frame, or one end of the first sub electrical connector, which is used for being electrically connected with the corresponding second sub electrical connector, is recessed in an end face of one end of the temple, and one end of the second sub electrical connector, which is used for being electrically connected with the corresponding first sub electrical connector, protrudes out of an end face of one end of the frame.

In some embodiments, the first electrical connection portion includes a plurality of the first sub electrical connection portions, the second electrical connection portion includes a plurality of the second sub electrical connection portions, the plurality of the first sub electrical connection portions are arranged at intervals in a direction parallel to an axial direction of the connection shaft, and the plurality of the second sub electrical connection portions are also arranged at intervals in a direction parallel to the axial direction of the connection shaft.

In the technical scheme adopted by the embodiment, the first sub electric connection parts and the second sub electric connection parts can be ensured to be simultaneously conducted or simultaneously disconnected, and short circuit caused by pilot conduction of certain first sub electric connection parts and the corresponding second sub electric connection parts is avoided, so that the use reliability is improved.

In some embodiments, the connecting shaft is a screw.

In some embodiments, the inner side surface of one end part of the glasses legs is provided with a first protruding boss; the inner side surface of one end part of the mirror frame is provided with two protruding second bosses which are arranged at intervals along the axial direction of the screw and form an accommodating space;

the part of the first boss is accommodated in the accommodating space, the screw penetrates through the upper boss and the first boss of the two second bosses from top to bottom, and the screw is screwed in through a threaded hole in the lower boss of the two second bosses.

In the technical scheme that this embodiment adopted, can realize the rotation of mirror leg very conveniently, and make things convenient for mirror leg and picture frame to dismantle alone or change.

In some embodiments, the frame comprises processing means integrated in the temple arm to form part of the first electronic unit located in the temple arm, or integrated in the frame to form part of the second electronic unit; the first electronic unit comprises an audio device arranged at a position of the temple which is close to the ear of the user when the temple is worn;

when the temple is switched from the folding and unfolding state to the unfolding state, the first electric connection part is electrically connected with the corresponding second electric connection part, and the processing device generates a control signal to turn on the audio device;

when the temple is switched from the unfolding use state to the folding state, the first electric connection part is electrically disconnected from the corresponding second electric connection part, and the processing device generates another control signal to close the audio device or enable the audio device to be in a standby state.

In the technical scheme adopted by the embodiment, the wearing state of a user is judged by the connection and disconnection between the first electric connection part and the second electric connection part of the electric connection device, so that the automatic shutdown/standby and startup of the audio device are realized; and a distance sensor can be omitted, so that the cost is saved.

In some embodiments, the glasses frame comprises two glasses legs, one end of each of the two glasses legs is rotatably and detachably connected to the left and right ends of the glasses frame through a connecting shaft, and the electrical connection device is disposed at one end of each of the glasses legs and the corresponding end of the glasses frame.

In some embodiments, a frame trace is disposed within the frame, the second electronic unit being electrically connected to the frame trace;

when the two glasses legs are in the unfolded use state, the first electronic units located on each glasses leg are electrically connected with the second electronic units located on the glasses frame through the corresponding electric connecting devices and the glasses frame wiring lines, and the first electronic units located on the two glasses legs are electrically connected with the glasses frame wiring lines through the two electric connecting devices.

In the technical scheme adopted by this embodiment, signals between the first electronic units respectively located at the left and right two temples are conducted, so that the stacking possibility and the cruising ability of the smart glasses can be increased (mainly aiming at the situation that the first electronic units located at the two temples both include battery modules).

In some embodiments, a temple wire is disposed in each of the temples, the first electronic unit is electrically connected to the temple wire, the first electrical connector of the electrical connection device is electrically connected to an end of the corresponding temple wire, and the second electrical connector of the electrical connection device is electrically connected to an end of the frame wire.

In some embodiments, each of said temples is integrated with a battery module, said battery module forming part of the corresponding said first electronic unit.

In some embodiments, the first electronic unit is integrated into the temple arm and the second electronic unit is integrated into the frame.

In some embodiments, the frame integrates a battery module that forms part of the second electronic unit; the second electronic unit further comprises a wireless charging coil, the wireless charging coil comprises a first coil part and a second coil part, the first coil part and the second coil part are respectively arranged around the two lenses of the glasses frame, and the first coil part and the second coil part are connected in series, so that voltages generated by the first coil part and the second coil part are connected in series to charge the battery module.

In the technical scheme that this embodiment adopted, need not to consider the folding randomness problem of user to the mirror leg, arrange that two coil parts can charge simultaneously, charging efficiency is high, and the induction coil location nature and the compatibility of the box that charge that correspond are good.

In some embodiments, the first electrical connection and the second electrical connection are both located outside the connection shaft;

and/or, when the temple is in the extended use state, the first electrical connection is in contact with the corresponding second electrical connection; when the temple is in the folded and stored state, the first electrical connection part and the corresponding second electrical connection part are separated.

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

the frame provided in any of the above embodiments;

and the lens is fixed on the frame of the spectacle frame.

In the technical scheme that this application adopted, the intelligent glasses of the mirror holder that the embodiment provided above was adopted need not just can realize being located the first electronic unit of mirror leg and the signal of telecommunication between the second electronic unit that is located the picture frame and switch on through passing the cable in the connecting axle, realizes the transmission of power signal and low frequency signal. The connecting shaft design degree of difficulty has been reduced like this, increases the design flexibility, and has improved the use reliability of intelligent glasses, has avoided the cable that passes the connecting shaft to produce the rotation of mirror leg and has interfered to feel when having promoted the mirror leg rotation, it is more convenient to use.

And, through adopting the modularized design with mirror leg and picture frame, the design has mirror leg and picture frame of unidimensional and different outward appearances not to the user can select the mirror leg and the collocation of picture frame of unidimensional and different outward appearances according to oneself head circumference size and aesthetic taste hobby, can realize the arbitrary equipment between each mirror leg and each picture frame, with this equipment out intelligent glasses of different styles and unidimensional, and then can compatible different head types and head circumference user wear travelling comfort and pleasing to the eye selective demand. Simultaneously, the user can match in advance several mirror legs and picture frames of using regularly when purchasing, like this, when needs use, can be according to the actual need of different occasions, freely change the mirror leg or the picture frame of different styles to collocation goes out different effects, changes convenient operation swiftly. Conveniently change mirror leg or picture frame alone when damaging, need not to change whole intelligent glasses.

In some embodiments, the lens has a display unit capable of displaying an image;

when the glasses legs are switched from the folding and unfolding states to the unfolding and using states, the first electric connection parts are electrically connected with the corresponding second electric connection parts, and a processing device of the intelligent glasses generates a control signal to turn on the display unit;

when the temple is switched from the unfolding use state to the folding storage state, the first electric connection part is electrically disconnected from the corresponding second electric connection part, and the processing device generates another control signal to close the display unit or enable the display unit to be in a standby state.

In some embodiments, the smart glasses are augmented reality smart glasses or virtual reality smart glasses.

The embodiment of the application also provides a glasses leg, which is integrated with an electronic unit, wherein one end part of the glasses leg is used for being rotatably connected through a connecting shaft and detachably connected to one end part of a glasses frame, so that the glasses leg can be switched between an unfolding use state and a folding storage state;

one end of the glasses leg is provided with an electric connection part, the electric connection part is electrically connected with the electronic unit, and the electric connection part positioned on the glasses leg is used for being matched with the electric connection part positioned on one end of the glasses frame;

when the temple is in the unfolded use state, the electric connection part positioned on the temple is electrically connected with the corresponding electric connection part positioned on one end part of the spectacle frame, so that the electronic unit integrated on the temple is electrically connected with the electronic unit integrated on the spectacle frame; when the glasses legs are in the folding and storage states, the electric connection parts located on the glasses legs are electrically disconnected with the corresponding electric connection parts located on one end part of the glasses frame, so that the electronic units integrated on the glasses legs are electrically disconnected with the electronic units integrated on the glasses frame.

In some embodiments, the electrical connections at the temple comprise at least one sub electrical connection, the electrical connections at the frame comprise at least one sub electrical connection, the sub electrical connections at the temple are for corresponding arrangement with the sub electrical connections at one end of the frame;

when the glasses legs are in the unfolded use state, the sub electric connection parts positioned on the glasses legs are in elastic electric connection with the corresponding sub electric connection parts positioned on one end part of the glasses frame, and meanwhile, the glasses legs are provided with resilience.

In some embodiments, the sub electrical connection at the temple is a resilient electrical connection.

In some embodiments, the elastic electrical connection portion is an elastic electrical connection terminal or a conductive spring.

In some embodiments, when the temple arm is in the folded, stowed condition, an end of the electrical sub-connection at the temple arm protrudes beyond an end face of an end of the temple arm.

In some embodiments, the electrical sub-connection portion of the electrical connection portion of the temple has a plurality, and the plurality of electrical sub-connection portions of the temple are spaced in a direction parallel to an axial direction of the connection shaft.

In some embodiments, the inner side surface of one end of each of the glasses legs is provided with a protruding boss, and the protruding boss is used for being rotatably and detachably connected with one end of the corresponding glasses frame through the connecting shaft.

The embodiment of the application also provides a glasses frame, which is integrated with an electronic unit, and two end parts of the glasses frame are respectively connected with one end parts of two glasses legs in a rotatable and detachable manner through a connecting shaft, so that the two glasses legs can be switched between an unfolding use state and a folding state;

the two end parts of the glasses frame are respectively provided with an electric connecting part, the electric connecting parts are electrically connected with the electronic unit, and the electric connecting parts positioned at the two end parts of the glasses frame are used for being respectively matched with the electric connecting parts positioned on the two glasses legs;

when the temples are in the unfolded use state, the electric connecting parts positioned at the two end parts of the glasses frame are respectively and electrically connected with the electric connecting parts positioned at the two temples, so that the electronic unit integrated on the glasses frame is electrically connected with the electronic units integrated on the temples; when the glasses legs are in the folding and storage state, the electric connecting parts at the two end parts of the glasses frame are respectively electrically disconnected with the electric connecting parts at the two glasses legs, so that the electronic units integrated on the glasses frame are electrically disconnected with the electronic units integrated on the glasses legs.

In some embodiments, the electrical connectors on the frame comprise at least one sub electrical connector, the electrical connectors on the temple comprise at least one sub electrical connector, and the sub electrical connectors on the two ends of the frame are used for being respectively arranged corresponding to the sub electrical connectors on the two temples;

when the glasses legs are in the unfolded use state, the sub electric connection parts positioned on the glasses legs are in elastic electric connection with the corresponding sub electric connection parts positioned on one end part of the glasses frame, and meanwhile, the glasses legs are provided with resilience.

In some embodiments, the sub electrical connection at the frame is a non-elastic electrical connection, which is a non-elastic electrical connection terminal or a conductive strip.

In some embodiments, one end of each of the sub electrical connection portions at the frame is recessed from an end face of the corresponding end portion of the frame.

In some embodiments, the sub electric connection portions of the electric connection portions at the respective ends of the lens frame are provided in plurality, and the plurality of sub electric connection portions at the respective ends of the lens frame are provided at intervals in a direction parallel to the axial direction of the connecting shaft.

In some embodiments, two protruding bosses are arranged on the inner side surface of each end of the mirror frame, the two protruding bosses are arranged at intervals along the axial direction of the connecting shaft, and an accommodating space is formed;

the part of the lug boss of the glasses leg is accommodated in the accommodating space, the connecting shaft penetrates through the upper lug boss of the two lug bosses of the glasses frame and the lug boss of the glasses leg from top to bottom, and the connecting shaft is screwed in through the threaded hole in the lower lug boss of the two lug bosses of the glasses frame.

In some embodiments, the frame integrates a battery module that forms part of the electronic unit integrated into the frame; the electronic unit integrated with the glasses frame comprises a wireless charging coil, the wireless charging coil comprises a first coil part and a second coil part, the first coil part and the second coil part are used for being respectively arranged around two lenses, and the first coil part and the second coil part are connected in series, so that voltages generated by the first coil part and the second coil part are connected in series to charge a battery module.

The embodiment of this application still provides a picture frame assembly, the picture frame assembly includes:

the mirror frame provided by any one of the above embodiments;

and the lens is fixed on the mirror frame.

In the technical scheme that this application adopted, the picture frame assembly of the picture frame that the embodiment provided more than the adoption, through adopting the modular design with the picture frame assembly, the design has the picture frame assembly of unidimensional and different outward appearances not, thereby the user can select the picture frame assembly of unidimensional and different outward appearances according to oneself head circumference size and aesthetic taste hobby, can realize the arbitrary equipment between mirror leg and each picture frame assembly, with this intelligent glasses of assembling out different styles and unidimensional, and then can compatible different head types and head circumference user wear travelling comfort and pleasing to the eye selective demand. Simultaneously, the user can be in advance in the time of purchasing and match the mirror leg of common use and several style picture frame assemblies, like this, when needs use, can be according to the actual need of different occasions, freely change the mirror leg or the picture frame of different styles to collocation goes out different effects, changes convenient operation swiftly. Conveniently change mirror leg or picture frame assembly alone when damaging, need not to change whole intelligent glasses.

Drawings

In order to more clearly illustrate the detailed description of the present application or the technical solutions in the prior art, the drawings needed to be used in the detailed description of the present application or the prior art description will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic perspective view (i) of an embodiment of smart glasses according to an embodiment of the present application, wherein two temples are in an unfolded use state;

FIG. 2 is an exploded view of the smart eyewear of FIG. 1;

fig. 3 is a schematic perspective view (ii) of an embodiment of smart glasses according to an embodiment of the present application, wherein two glasses legs are in a folded state;

fig. 4 is a schematic top view of an embodiment of smart glasses according to an embodiment of the present application, wherein two temples are in an unfolded use state, and a frame trace and a temple trace are shown in the drawing;

fig. 5 is a schematic structural diagram of an embodiment of smart glasses according to an embodiment of the present application, wherein two temples are in an unfolded use state, and the viewing angle is viewed from the front of a lens, and a wireless charging coil is shown in the diagram;

FIG. 6 is an enlarged schematic view of portion A of FIG. 3;

fig. 7 is a schematic internal structure diagram of an embodiment of an electrical connection device part of smart glasses according to an embodiment of the present application, wherein a matching structure between a first electrical connection part provided on a temple and a second electrical connection part provided on a frame in a state that the temple is unfolded for use is shown, and the first electrical connection part adopts an elastic probe structure;

fig. 8 is a schematic top view of an embodiment of smart glasses according to an embodiment of the present application, wherein one of the temples is in an unfolded use state, and the other of the temples is in a folded storage state;

FIG. 9 is an enlarged view of portion B of FIG. 8;

fig. 10 is a schematic internal structure diagram of another embodiment of an electrical connection device portion of smart glasses according to an embodiment of the present application, where a matching structure between a first electrical connection portion disposed on a temple and a second electrical connection portion disposed on a frame is shown, and the first electrical connection portion adopts a spring structure.

Fig. 11 is a schematic top view of the electrical connector of fig. 10, wherein the first electrical connector of the temple is separated from the second electrical connector of the frame.

Description of reference numerals:

100: smart glasses;

200: a mirror frame; 210: an end portion; 211: an inner side surface; 212: an end face; 220: a second boss; 230: routing the spectacle frame; 240: a circuit board;

300: a temple; 310: an end portion; 311: an inner side surface; 312: an end face; 320: a first boss; 330: the glasses legs are wired; 340: a circuit board;

400: a connecting shaft;

500: an electrical connection device; 510: a first electrical connection portion; 511: a first sub-electrical connection; 512: a needle head; 513: a needle tube; 514: a spring; 520: a second electrical connection portion; 521: a second sub-electrical connection;

600: a wireless charging coil; 610: a first coil portion; 620: a second coil portion;

700: a lens;

800: a gap;

o1: the axial direction of the screw;

l1: a length direction of one end of the temple;

l2: a length direction of one end portion of the lens frame;

Detailed Description

The following description of the embodiments of the present application is provided by way of specific examples, and other advantages and effects of the present application will be readily apparent to those skilled in the art from the disclosure herein. While the description of the present application will be described in conjunction with the preferred embodiments, it is not intended that the features of the present application be limited to this embodiment. On the contrary, the application of the present disclosure with reference to the embodiments is intended to cover alternatives or modifications as may be extended based on the claims of the present disclosure. In the following description, numerous specific details are included to provide a thorough understanding of the present application. The present application may be practiced without these particulars. Moreover, some of the specific details have been omitted from the description in order to avoid obscuring or obscuring the focus of the present application. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

It should be noted that in this specification, like reference numerals and letters refer to like items in the following drawings, and thus, once an item is defined in one drawing, it need not be further defined and explained in subsequent drawings.

The technical solutions of the present application will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the description of the present application, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present application. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1 to 3, fig. 1 is a schematic perspective view illustrating an embodiment of smart glasses 100 according to an embodiment of the present disclosure, wherein two temples 300 are in an unfolded use state. When the two temples 300 are in the unfolded use state, the smart glasses 100 can be normally worn on the head of the user. Fig. 2 is an exploded view of an embodiment of the smart glasses 100 according to an embodiment of the present disclosure, wherein two temples 300 are in an unfolded use state. Fig. 3 is a schematic perspective view illustrating an embodiment of the smart glasses 100 according to an embodiment of the present application, wherein two temples 300 are in a folded state. When the two temples 300 are in the folded and stored state, both the temples 300 are stacked on the frame 200, and the smart glasses 100 can be stored in the glasses case.

When the smart glasses 100 are worn on the head of the user, the user can see an image presented by a display unit (not shown in the drawings) of the smart glasses 100. In this embodiment, the smart glasses 100 are augmented reality smart glasses (AR smart glasses), and may display a virtual image for a user while the user views a real-world scene, and the user may interact with the virtual image to achieve an augmented reality effect.

As can be understood by those skilled in the art, the embodiment of the present application is described by taking the smart glasses 100 as an example of augmented reality smart glasses, but some embodiments of the embodiment of the present application are not limited to the augmented reality smart glasses, and may also be other smart glasses, such as virtual reality smart glasses (VR smart glasses) for implementing a Virtual Reality (VR) effect or smart glasses for implementing a Mixed Reality (MR) effect, for example, smart glasses without a display function (e.g., smart glasses with only an audio function, etc.).

As shown in fig. 1-3, the smart eyewear 100 includes a frame and lenses 700. The frame includes temples 300 and a frame 200. The lenses 700 are secured to the frame 200 and form a frame assembly.

In the present embodiment, the temples 300 have two, and each of the temples 300 is provided with an electronic unit (not shown). The electronic unit integrated in one of the temples 300 is defined as a first electronic unit, and the electronic unit integrated in the other of the temples 300 is defined as a third electronic unit. The frame 200 is also provided with an electronic unit (not shown in the figures). The electronic unit integrated in the frame 200 is defined as a second electronic unit.

However, it will be understood by those skilled in the art that the structural composition of the third electronic unit may adopt the structural composition of the first electronic unit described in any of the embodiments of the present application, and the matching structure of the third electronic unit and the temple 300 integrated with the third electronic unit may adopt the matching structure of the first electronic unit and the temple 300 integrated with the first electronic unit described in any of the embodiments of the present application. The structural composition of the third electronic unit may be the same as or different from the structural composition of the first electronic unit. The fitting structure of the third electronic unit and the temple 300 integrated with the third electronic unit may be the same as or different from the fitting structure of the first electronic unit and the temple 300 integrated with the first electronic unit.

As will be understood by those skilled in the art, in alternative other embodiments, only one of the two temples 300 may be provided with an electronic unit, in this case, the electronic unit integrated in the one temple 300 is defined as a first electronic unit, the structural composition of the first electronic unit may adopt the structural composition of the first electronic unit described in any embodiment of the present application, and the matching structure of the first electronic unit and the temple 300 integrated with the first electronic unit may adopt the matching structure of the first electronic unit described in any embodiment of the present application and the temple 300 integrated with the first electronic unit.

Of course, it can be understood by those skilled in the art that in alternative other embodiments, the temple 300 may be only one, and in this case, the electronic unit integrated in this temple 300 is also defined as the first electronic unit, the structural composition of the first electronic unit may adopt the structural composition of the first electronic unit described in any embodiment of the present application, and the matching structure of the first electronic unit and the temple 300 integrated with the first electronic unit may adopt the matching structure of the first electronic unit described in any embodiment of the present application and the temple 300 integrated with the first electronic unit.

In the description of the present application, it should be noted that the matching structure refers to a positional relationship and a connection relationship between components that match each other (or between an electronic unit and an electronic unit that match each other, or between a component and an electronic unit that match each other), where the positional relationship may be a positional relationship on a mechanical structure or a positional relationship on a circuit, and the connection relationship may be a mechanical connection relationship or an electrical connection relationship. The specific meaning of the mating structures in this application will be understood in the specific context to those of ordinary skill in the art.

As shown in fig. 1 to 3, an end 310 of one of the temples 300 is rotatably coupled to an end 210 of the eyeglass frame 200 by a coupling shaft 400 so that the one of the temples 300 can be switched between an unfolded use state and a folded storage state. One end 310 of one of the temples 300 is detachably connected to one end 210 of the frame 200 by a connecting shaft 400.

An electrical connection means 500 is provided between an end 310 of one of the temples 300 and an end 210 of the frame 200. The electrical connection device 500 includes a first electrical connection portion 510 and a second electrical connection portion 520, which are correspondingly disposed. The first electrical connector 510 is disposed at one end 310 of one of the temples 300, and is electrically connected to the first electronic unit. The second electrical connection portion 520 is disposed at one end portion 210 of the frame 200 and electrically connected to the second electronic unit. In the present embodiment, the first electrical connection portion 510 and the second electrical connection portion 520 are both located outside the connection shaft 400 and are provided separately from the connection shaft 400. In this embodiment, the first electrical connection portion 510 is not part of the first electronic unit, and the second electrical connection portion 520 is not part of the second electronic unit.

When the one of the temples 300 is in the unfolded use state, the first electrical connector 510 is electrically connected with the corresponding second electrical connector 520, so that the first electronic unit located at the one of the temples 300 and the second electronic unit located at the frame 200 are electrically connected, and signal transmission between the first electronic unit and the second electronic unit can be realized. At this time, the one temple 300 is unfolded with respect to the frame 200 and can be worn on the ear of the user.

When one of the temples 300 is in the folded state, the first electrical connector 510 is electrically disconnected from the corresponding second electrical connector 520, so that the first electronic unit located in one of the temples 300 is electrically disconnected from the second electronic unit located in the frame 200, and signal transmission between the first electronic unit and the second electronic unit cannot be realized. At this time, the one of the temples 300 is folded with respect to the frame 200.

In the present embodiment, when one of the temples 300 is in the unfolded use state, the first electrical connection portion 510 and the corresponding second electrical connection portion 520 are in contact, so that the first electrical connection portion 510 and the second electrical connection portion 520 are electrically connected. When one of the temples 300 is in the folded and stored state, the first electrical connector 510 and the corresponding second electrical connector 520 are separated, so that the first electrical connector 510 and the second electrical connector 520 are electrically disconnected. Those skilled in the art will appreciate that in alternative embodiments, the first electrical connection portion 510 and the corresponding second electrical connection portion 520 may be connected in other ways to achieve electrical signal connection, such as, for example, the relative arrangement of the first electrical connection 510 and the second electrical connection 520 can be detected by providing a photosensor (not shown in the figures), and the processing means (not shown in the figures) of the smart glasses 100 according to the detected relative positions of the first electrical connection 510 and the second electrical connection 520, causing electrical signals of the first electrical connection portion 510 and the second electrical connection portion 520 to be connected or disconnected, for example, when one of the temples 300 is rotated in the unfolding direction with respect to the frame 200 to a position where the first electrical connector 510 is close to the second electrical connector 520, the photo sensor sends a sensing signal to the processing means, the processing device communicates the electrical signals of the first electrical connection 510 and the second electrical connection 520; when one of the temples 300 is rotated in the folding direction (the folding direction is opposite to the unfolding direction) with respect to the frame 200 to a position where the first electrical connector 510 is far away from the second electrical connector 520, the photo sensor sends another sensing signal to the processing device, and the processing device disconnects the electrical signals of the first electrical connector 510 and the second electrical connector 520.

The mechanical connection between one of the temples 300 and the frame 200 is realized through the connecting shaft 400, so that the one of the temples 300 can rotate relative to the frame 200, the switching between the unfolding use state and the folding storage state of the one of the temples 300 is realized, and the one of the temples 300 is detachably connected to the frame 200, so that the one of the temples 300 and the frame 200 can be respectively detached or replaced. Meanwhile, when one of the temples 300 is in the unfolded use state, the first electrical connector 510 and the corresponding second electrical connector 520 are electrically connected, so that the electrical signal conduction between the first electronic unit of one of the temples 300 and the second electronic unit of the lens frame 200 is realized, when one of the temples 300 is in the folded use state, the first electrical connector 510 and the corresponding second electrical connector 520 are electrically disconnected, the electrical signal disconnection between the first electronic unit of one of the temples 300 and the second electronic unit of the lens frame 200 is realized, and thus the electrical signal conduction between the first electronic unit of one of the temples 300 and the second electronic unit of the lens frame 200 can be realized without passing a cable through the connecting shaft 400, the transmission of power signals and low-frequency signals (such as audio signals and the like) is realized. Thus, the design difficulty of the connecting shaft 400 is reduced, the design flexibility is improved, the use reliability of the glasses frame and the intelligent glasses 100 is improved, interference of a cable penetrating through the connecting shaft 400 on rotation of the glasses legs 300 is avoided, hand feeling of one of the glasses legs 300 during rotation is improved, and the intelligent glasses are more convenient to use.

Moreover, the interchangeable design of one of the temples 300 and the frame 200 can be realized, and it is only necessary that the structures and the electrical connection manners of the first electrical connector 510 and the second electrical connector 520 of the electrical connection device 500 of the connection part are kept consistent. Through adopting the modularized design with mirror leg 300 and picture frame 200, design mirror leg 300 and picture frame 200 of different size and different outward appearances, thereby the user can select the collocation of mirror leg 300 and picture frame 200 of different size and different outward appearances according to oneself head circumference size and aesthetic taste hobby, can realize the arbitrary equipment between each mirror leg 300 and each picture frame 200, assemble out mirror holder and intelligent glasses 100 of different styles and different sizes with this, and then can compatible different head types and head circumference user's the demand of wearing travelling comfort and pleasing to the eye selectivity. Meanwhile, the user can match several commonly used temples 300 and glasses frames 200 in advance when purchasing, so that when the glasses frame is needed, the temples 300 or the glasses frames 200 in different styles can be freely replaced according to actual needs of different occasions, different effects are matched, and the replacement operation is convenient and fast. When the glasses are damaged, the temples 300 or the frames 200 can be conveniently and independently replaced without replacing the whole frames or the smart glasses 100.

The present application is mainly applied to a scene where a user customizes the size and appearance, and the temples 300 and the glasses frames 200 have an electrical connection requirement.

In the present embodiment, as shown in fig. 1 to 3, the structure of the other temple 300 may adopt the structure of one of the temples 300 described in any of the embodiments of the present application. The other side arm 300 and the frame 200 are also provided with an electrical connection device 500, and the matching structure between the other side arm 300 and the frame 200 may adopt the matching structure between one side arm 300 and the frame 200 as described in any of the embodiments of the present application.

Further, the other temple 300 is of a symmetrical design and construction to one of the temples 300. And substantially the same weight and weight distribution is used to maximize comfort. An electrical connection means 500 is also provided between the other temple 300 and the frame 200. And the coupling structure between the other one of the temples 300 and the frame 200 is the same as that between one of the temples 300 and the frame 200.

It will be appreciated by those skilled in the art that the two temple bars 300 are generally symmetrically designed in construction, and may be mirror images of the same or different; the fitting structure between the two temples 300 and the frame 200 may be the same or different, that is, the structure of the two electrical connection means 500 may be the same or different.

Further, one ends 310 of the temples 300 are rotatably and detachably connected to the left and right one ends 210 of the frame 200 by means of a connecting shaft 400, respectively. That is, the one end 310 of the temple 300 positioned at the left side of the smart glasses 100 is rotatably and detachably coupled to the one end at the left side of the frame 200 through a coupling shaft 400, and the one end 310 of the temple 300 positioned at the right side of the smart glasses 100 is also rotatably and detachably coupled to the one end 210 at the right side of the frame 200 through a coupling shaft 400.

As will be understood by those skilled in the art, when the smart glasses 100 are worn on the head of the user, the left side of the smart glasses 100 is the side of the smart glasses 100 close to the left side of the head of the user, the right side of the smart glasses 100 is the side of the smart glasses 100 close to the right side of the head of the user, the left end 210 of the frame 200 is the left end of the frame 200 close to the left side of the head of the user, and the right end 210 of the frame 200 is the right end of the frame 200 close to the right side of the head of.

And, an electrical connection means 500 is provided between one end 310 of each temple 300 and the corresponding one end 210 of the frame 200. And the electrical connection means 500 between the two temples 300 and the frame 200 are defined as left and right electrical connection means, respectively. That is, the electrical connection device 500 between the one end 310 of the temple 300 positioned at the left side of the smart glasses 100 and the one end 210 of the left side of the frame 200 is defined as a left electrical connection device, and the electrical connection device 500 between the one end 310 of the temple 300 positioned at the right side of the smart glasses 100 and the one end 210 of the right side of the frame 200 is defined as a right electrical connection device.

In order to further reduce the overall weight of the smart glasses 100 of the present application, the temples 300 and the frame 200 are generally made of lightweight materials, such as composite materials, lightweight alloys, carbon fiber composite materials, and the like.

It will be understood by those skilled in the art that the smart glasses 100 in the embodiment of the present application are described by taking the smart glasses 100 including a pair of temples 300, that is, two temples 300 as an example, but the embodiment of the present application is not limited to the smart glasses 100 using two temples 300, and may also be the smart glasses 100 using one temple 300.

Referring to fig. 4, fig. 4 is a schematic top view of an embodiment of the smart glasses 100 according to an embodiment of the present disclosure, wherein two temples 300 are in an unfolded use state, and a frame wire 230 and a temple wire 330 are shown in the drawing.

As shown in fig. 4, a frame trace 230 is disposed within the frame 200, and the second electronic unit is electrically connected to the frame trace 230. When both of the temples 300 are in the unfolded use state, the first electronic unit integrated in one of the temples 300 and the second electronic unit integrated in the frame 200, and the third electronic unit integrated in the other of the temples 300 and the second electronic unit integrated in the frame 200 are electrically connected through the corresponding electrical connection means 500 and frame wire 230. Meanwhile, the first electronic unit integrated in one of the temples 300 and the third electronic unit integrated in the other of the temples 300 are electrically connected through the two electrical connection means 500 and the frame wire 230. That is, the first electronic unit integrated in one of the temples 300 and the third electronic unit integrated in the other of the temples 300 are electrically connected through the left electrical connection means, the frame wire 230 and the right electrical connection means.

Specifically, a temple wire 330 is disposed within each temple 300. The first electronic unit located on one of the temples 300 is electrically connected to the corresponding temple trace 330, the third electronic unit located on the other of the temples 300 is electrically connected to the corresponding temple trace 330, the first electrical connector 510 of the corresponding electrical connector 500 is electrically connected to the temple trace 330, and the second electrical connector 520 is electrically connected to the frame trace 230. When the two temples 300 are both in the unfolded use state, the first electronic unit located at one of the temples 300 is electrically connected to the second electronic unit located at the glasses frame 200, and the third electronic unit located at the other of the temples 300 is electrically connected to the second electronic unit located at the glasses frame 200 through the corresponding temple wire 330, electrical connection device 500 and glasses frame wire 230, and the first electronic unit located at one of the temples 300 is electrically connected to the third electronic unit located at the other of the temples 300 through the temple wire 330 located at the two temples 300, the two electrical connection devices 500 and the glasses frame wire 230. The signals of the left and right temples 300 are conducted, so that the stacking possibility and the cruising ability of the smart glasses 100 are increased (mainly aiming at the case that the first electronic unit and the third electronic unit which are positioned on the two temples 300 comprise the battery modules).

That is, if the temple wires 330 in the two temples 300 are respectively defined as a left temple wire and a right temple wire, the first electrical connector 510 of the left electrical connector is electrically connected to one end of the left temple wire, and the second electrical connector 520 of the left electrical connector is electrically connected to the left end of the frame wire 230; the first electrical connector 510 of the right electrical connector is electrically connected to one end of the right temple trace, and the second electrical connector 520 of the right electrical connector is electrically connected to the right end of the frame trace 230.

When the two temples 300 are both in the unfolded use state, the first electronic unit (or the third electronic unit) of the temple 300 located on the left side is electrically connected with the second electronic unit located on the spectacle frame 200 through the left temple wire, the left electrical connection device and the spectacle frame wire 230, the third electronic unit (or the first electronic unit) of the temple 300 located on the right side is electrically connected with the second electronic unit located on the spectacle frame 200 through the right temple wire, the right electrical connection device and the spectacle frame wire 230, and the first electronic units respectively located on the two temples 300 are electrically connected through the left temple wire, the left electrical connection device, the spectacle frame wire 230, the right electrical connection device and the right temple wire.

In this embodiment, the frame wire 230 and the temple wire 330 both use flexible circuit boards. The frame trace 230 is located in the frame 200 and is formed in the frame 200 by injection molding or ultrasonic welding. The temple wire 330 is positioned within the corresponding temple 300 and is formed within the temple 300 by in-mold molding, ultrasonic welding, or the like. It will be appreciated by those skilled in the art that in alternative embodiments, the frame and temple traces 230, 330 may also take the form of a cable, and are not limited to a flexible circuit board, and are not intended to limit the scope of the present application.

In the present embodiment, the first electronic unit is integrally integrated within the respective temple 300. It will be appreciated by those skilled in the art that in alternative embodiments, the first electronic unit may be integrated entirely with the respective temple 300, or a portion of the first electronic unit may be integrated within the respective temple 300 and another portion may be integrated with the respective temple 300.

In the present embodiment, most of the second electronic unit is integrated into the frame 200, and a small part is integrated into the frame 200. It will be understood by those skilled in the art that in alternative embodiments, the second electronic unit may be integrated with the frame 200 as a whole, or alternatively, the second electronic unit may be integrated with the frame 200 as a whole, without limiting the scope of the present application.

In this embodiment, the structural composition, the arrangement manner, the electrical connection manner, and the like of the first electronic unit and the second electronic unit can adopt the arrangement manner of the electronic units in the smart glasses 100 in the prior art, which is not described herein in detail.

Further, the smart glasses 100 have a processing device not shown in the figure. In this embodiment, the processing means are integrated in one of the temples 300, that is to say they form part of the first electronic unit located in the corresponding temple 300. It will be appreciated by those skilled in the art that in alternative embodiments, the processing means may also be integrated into the frame 200, in which case the processing means forms part of the second electronic unit located in the frame 200.

In the present embodiment, a display unit (not shown) of the smart glasses is used to display a screen or video captured by the image capturing device or display video information stored in the smart glasses 100. The display unit may be integrated with the frame 200 or the temple 300 of the smart glasses 100, or may be integrated with the lens 700. It can be understood by those skilled in the art that the structure and the arrangement position of the display unit can adopt the structure known in the prior art, and will not be described in detail herein.

In this embodiment, there are two lenses. It will be appreciated by those skilled in the art that in alternative embodiments, there may be only one lens. In the present embodiment, the lens 700 may be a lens capable of displaying an image output by the display unit, such as an optical waveguide lens, which is known in the art. Those skilled in the art will appreciate that in alternative embodiments, the lenses may be common lenses that are not capable of displaying images in the prior art, and the smart glasses do not have a display unit, and the smart glasses are not capable of displaying images and only have an audio function.

When the temple 300 is switched from the folded and folded state to the unfolded state, the first electrical connector 510 is electrically connected with the corresponding second electrical connector 520, and the processing device generates a control signal to turn on the display unit. When the temple 300 is switched from the unfolded use state to the folded storage state, the first electrical connector 510 is electrically disconnected from the corresponding second electrical connector 520, and the processing device generates another control signal to turn off the display unit or to put the display unit in a standby state.

Alternatively, when the temple 300 is switched from the folded and stored state to the unfolded and used state, the first electrical connector 510 is electrically connected with the corresponding second electrical connector 520, and the processing device generates a control signal to turn on the display unit or to make the display unit in a standby state. When the temple 300 is switched from the unfolded use state to the folded storage state, the first electrical connector 510 is electrically disconnected from the corresponding second electrical connector 520, and the processing device generates another control signal to turn off the display unit.

The wearing state of the user is judged by the connection and disconnection of the electric connection device 500, and automatic shutdown/standby and startup are realized; the sensor for wearing detection can be omitted, and cost is saved. The wear detection sensor may be a distance sensor, a proximity light sensor or a capacitive touch sensor. The distance sensor can turn off and turn on the screen according to the distance when a user is in a call.

It should be noted that examples of the processing device include, but are not limited to, a processor, an Application Specific Integrated Circuit (ASIC), etc., and/or any combination thereof. According to one aspect, the processor may be a microprocessor, a digital signal processor, a microcontroller, or the like, and/or any combination thereof. According to another aspect, the processor may be a single-core processor, a multi-core processor, the like, and/or any combination thereof.

The processor may include one or more processing units, such as: the processors may include application processors, modem processors, graphics processors, image signal processors, video processing units, controllers, memories, video codecs, digital signal processors, baseband processors, and/or neural network processors, etc. The different processing units may be separate devices or may be integrated into one or more processors.

The processor may be, among other things, the neural center and the command center of the smart glasses 100. The processor can generate an operation control signal according to the instruction operation code and the timing signal to complete the control of instruction fetching and instruction execution. The image information receiving end of the processor is connected with the image information output end of the camera device, the audio information receiving end of the processor is connected with the audio information output end of the microphone, the microphone further comprises a data transmission line, one end of the data transmission line is provided with a Type-C data interface, the other end of the data transmission line is electrically connected with the processor, and the data receiving end of the data transmission line is connected with the data output end of the processor.

A memory may also be provided in the processor for storing instructions and data. In some embodiments, the memory in the processor is a cache memory. The memory may hold instructions or data that have just been used or recycled by the processor. If the processor needs to reuse the instruction or data, it can be called directly from memory. Avoiding repeated accesses and reducing the latency of the processor, thereby increasing the efficiency of the system.

Further, the smart glasses 100 further have an audio device, not shown in the drawings, provided at a position of the temples 300 near the ears of the user when the smart glasses 100 are worn. The audio device employs a speaker or a bone conduction device. The audio device can play audio information stored in the smart glasses 100 alone, and the smart glasses can also be connected to other electronic devices, such as a mobile phone, in a wired or wireless manner, so that the audio device of the smart glasses can play audio information in other electronic devices (such as a mobile phone).

When the audio device employs a speaker, the speaker may be integrated into the temple 300, enabling the user to clearly hear the sound even in a noisy environment. When the audio device employs a bone conduction device, the generated sound can be transmitted to the inner ear through the bone at the side of the user's head, so that the user can hear the sound.

In the present embodiment, the audio device is integrated in both temples 300, and in this case, the audio device integrated in one of the temples 300 constitutes a part of the first electronic unit, and the audio device integrated in the other temple constitutes a part of the third electronic unit.

When the temple 300 is switched from the folded and folded state to the unfolded state, the first electrical connector 510 is electrically connected with the corresponding second electrical connector 520, and the processing device generates a control signal to turn on the audio device. When the temple 300 is switched from the unfolded use state to the folded storage state, the first electrical connector 510 is electrically disconnected from the corresponding second electrical connector 520, and the processing device generates another control signal to turn off the audio device or to put the audio device in a standby state.

It will be appreciated by those skilled in the art that in alternative embodiments, when the temple 300 is switched from the folded and stored state to the unfolded and used state, the first electrical connector 510 is electrically connected to the corresponding second electrical connector 520, and the processing device generates a control signal to turn on or standby the audio device. When the temple 300 is switched from the unfolded use state to the folded storage state, the first electrical connector 510 is electrically disconnected from the corresponding second electrical connector 520, and the processing device generates another control signal to turn off the audio device.

Further, the smart glasses 100 also have a microphone not shown in the drawing. The microphone is provided to the temples 300 for collecting audio information. At this time, the microphone constitutes a part of the first electronic unit.

It will be appreciated by those skilled in the art that in alternative embodiments, the microphone may also be integrated into the frame 200. At this time, the microphone constitutes a part of the second electronic unit.

The smart glasses 100 also have a camera device not shown in the figure. The camera device is disposed at the front of the frame 200 and is used to collect image information. In this case, the image pickup device constitutes a part of the second electronic unit.

The communication circuit among the camera device, the display unit, the audio device and the processing device is a circuit known in the prior art, and will not be described in detail herein.

In some embodiments, the processing device and the image capturing device communicate via a CSI Interface (i.e., a Camera Serial Interface, which is collectively referred to as a "Camera Serial Interface") to implement the capturing function of the smart glasses 100. The processing device and the Display unit communicate via a DSI Interface (i.e., a Display Serial Interface, which is called "Display Serial Interface" in english), so as to implement the Display function of the smart glasses 100.

The smart glasses 100 further have a battery module, not shown in the drawings, disposed in the temples 300. In the present embodiment, both temples 300 have battery modules integrated therein. At this time, the battery module integrated in one of the temples 300 constitutes a part of the corresponding first electronic unit. The battery module integrated with the other temple 300 constitutes a part of the third electronic unit. It is understood that the bank, the battery module may be provided in one of the temples.

Can arrange battery module in mirror leg 300 middle-end near the ear fulcrum when wearing for the weight distribution of whole glasses is more balanced, is favorable to alleviateing the pressure that intelligence 100 front end weight held in the palm to the bridge of the nose through the nose, alleviates the sense of oppression, increases especially the travelling comfort of wearing for a long time.

In the present embodiment, the battery modules are symmetrically provided at the two temples 300. The battery module supplies electric energy to intelligent components such as the lens 700, the audio device, and the camera device provided in the smart glasses 100.

It will be appreciated by those skilled in the art that in alternative embodiments, the battery module may be integrated into the frame 200, in which case the battery module forms part of the second electronic unit; it is also possible to integrate the battery module at only one temple 300; it is also possible to integrate the battery module on the temples 300.

Referring to fig. 5, fig. 5 is a schematic structural diagram of an embodiment of the smart glasses 100 according to an embodiment of the present application, wherein two temples 300 are in an unfolded use state, and the viewing angle is viewed from the front of a lens 700, and a wireless charging coil 600 is shown in the diagram. In the present embodiment, a battery module, which constitutes a part of the second electronic unit, is integrated with the frame 200.

As shown in fig. 5, the second electronic unit further includes a wireless charging coil 600, and the wireless charging coil 600 is disposed on the mirror frame 200. And the wireless charging coil 600 includes a first coil portion 610 and a second coil portion 620, the first coil portion 610 and the second coil portion 620 being respectively disposed around the two lenses 700 of the smart glasses 100. And the first coil portion 610 and the second coil portion 620 are connected in series such that the voltages generated by the first coil portion 610 and the second coil portion 620 are connected in series to charge the battery module. Thus, the problem of randomness of folding of the user to the glasses legs 300 does not need to be considered, the two coil parts can be arranged to be charged simultaneously, the charging efficiency is high, and the corresponding charging box is good in induction coil positioning performance and compatibility.

In an alternative embodiment, the case in which the smart glasses 100 are placed may be used as the charging device. After the intelligent glasses 100 are placed in the cavity in the glasses case, the wireless charging coil 600 of the intelligent glasses 100 is induced by the induction coil arranged on the inner wall of the cavity of the glasses case, so that the power supply is supplied to the battery module of the glasses legs 300 through the glasses case, and charging is realized.

The smart glasses 100 also have memories, sensor modules, communication modules, etc., not shown in the figures, which may be integrated in the temple, forming part of the first electronic unit, or in the frame, forming part of the second electronic unit. Wherein the sensor module may include a focus detection optical sensor for detecting a focus of an eyeball of the eye of the user. The sensor module may also contain other sensors such as sound detectors, proximity light sensors, distance sensors, gyroscope sensors, ambient light sensors, acceleration sensors, temperature sensors, etc.

The temples 300 also have a circuit board 340 (see fig. 7) therein, and the circuit board 340 is fixed in the corresponding temples 300. Electronics (e.g., processing devices, audio devices, batteries, etc.) located within the corresponding temple 300 are integrated with the corresponding circuit board 340. In the present embodiment, both temples 300 have integrated therein a circuit board 340 (see fig. 7). At this time, the circuit board 340 integrated to one of the temples 300 constitutes a part of the corresponding first electronic unit, and the circuit board integrated to the other of the temples 300 constitutes a part of the third electronic unit.

The circuit board 240 (see fig. 7) may be integrated into the left and right end portions 210 of the frame 200, and in this case, the circuit board 240 constitutes a part of the second electronic unit. The circuit board 240 is fixed in the frame 200.

In order to further reduce the power consumption of the smart glasses 100, reduce the volume and weight of the circuit part of the augmented reality smart glasses 100, and increase the wearing comfort, the design of the circuit board may adopt the design of an HDI board (high density interconnection board), so as to minimize the volume of the circuit board.

In some embodiments, control buttons (not shown) may be provided on each of the two temples 300 to provide uniform or individual control of the content displayed on the lenses 700. Control buttons may also be provided on the frame 200, preferably in pairs to balance the weight distribution.

The multifunctional keys can be arranged on the glasses legs 300 and are self-defined keys, and the functions of the keys can be self-defined in a user setting interface according to the use requirements of users, so that the application range of the intelligent glasses 100 according to the application is greatly expanded.

In addition, the smart eyewear 100 may include wireless communication functionality. The communication module may include a wireless communication module and a mobile communication module. The wireless communication function may be implemented by an antenna (not shown), a mobile communication module (not shown), a modem processor (not shown), a baseband processor (not shown), and the like.

It should be noted that, the hardware and software can be known in the prior art, and are not described herein in detail.

The structure of an embodiment of a portion of the frame of the smart glasses 100, where one of the temples 300 is engaged with the frame 200, will be mainly described with reference to fig. 6 to 9.

Referring to fig. 6-9, fig. 6 is an enlarged schematic structural view of a portion a in fig. 3, and mainly illustrates a structure of a portion of the temple 300 engaged with the end portion 210 of the frame 200 in a folded state. Fig. 7 is a schematic internal structure diagram of an embodiment of an electrical connection device 500 of the smart glasses 100 according to an embodiment of the present application, wherein the diagram shows a matching structure between a first electrical connector 510 provided to a temple 300 and a second electrical connector 520 provided to a frame 200 in a state where the temple 300 is in an unfolded use state.

Fig. 8 is a schematic top view of an embodiment of the smart glasses 100 according to an embodiment of the present application, wherein one of the temples 300 is in an unfolded use state, and the other of the temples 300 is in a folded storage state. Fig. 9 is an enlarged structural diagram of a portion B in fig. 8, which mainly illustrates that when the temple 300 is rotated to still leave a gap 800 with the end portion 210 of the frame 200, the first electrical connector 510 and the second electrical connector 520 of the electrical connector 500 can still be in contact and elastically connected, and can provide a resilient force to the temple 300.

As shown in fig. 6, the connection shaft 400 is a screw. The inner side 311 of one end 310 of the temple 300 is provided with a first boss 320 protruding therefrom. The inner side 211 of the one end portion 210 of the lens frame 200 is provided with two second bosses 220 protruded therefrom, and the two second bosses 220 are spaced apart from each other in the axial direction O1 of the screw and form a receiving space. A portion of the first boss 320 is received in the receiving space. The screws penetrate through the upper bosses of the two second bosses 220 and the first bosses 320 from top to bottom, and are screwed into the screws through the threaded holes in the lower bosses of the two second bosses 220. This enables very convenient rotation of the temples 300 and facilitates the separate removal or replacement of the temples 300 and the frame 200.

It should be noted that the upper boss of the two second bosses 220 is the boss located uppermost along the axial direction O1 of the screw in the two second bosses 220, and the lower boss of the two second bosses 220 is the boss located lowermost along the axial direction O1 of the screw in the two second bosses 220.

It will be appreciated by those skilled in the art that in alternative embodiments, the relative configurations of the rotatable and detachable connection of the end 310 of the temple 300 and the end 210 of the frame 200 may be reversed, for example, the first protrusion 320 may be disposed on the end face 312 of the end 310 of the temple 300 and the second protrusion 220 may be disposed on the end face 212 of the end 210 of the frame 200.

Further, in the present embodiment, the first boss 320 is integrally formed with the one end 310 of the temple 300, and the second boss 220 is integrally formed with the one end 210 of the frame 200. It will be appreciated by those skilled in the art that in alternative embodiments, the first boss 320 and the end 310 of the temple 300 may be constructed in a separate structure, and the second boss 220 and the end 210 of the frame 200 may be constructed in a separate structure.

As shown in fig. 6-7, the first electrical connection portion 510 includes at least one first sub electrical connection portion 511, the second electrical connection portion 520 includes at least one second sub electrical connection portion 521, and the at least one first sub electrical connection portion 511 and the at least one second sub electrical connection portion 521 are disposed correspondingly.

In the present embodiment, each of the first and second sub electrical connection portions 511 and 521 has a plurality. The plurality of first sub electrical connection portions 511 are disposed at intervals in a direction parallel to the axial direction of the connection shaft 400, and the plurality of second sub electrical connection portions 521 are also disposed at intervals in a direction parallel to the axial direction of the connection shaft 400. This ensures that the first electrical sub-connections 511 and the second electrical sub-connections 521 are electrically connected or disconnected simultaneously, and prevents short circuits caused by the pilot conduction of some of the first electrical sub-connections 511 and the corresponding second electrical sub-connections 521, thereby improving the reliability of use.

It will be understood by those skilled in the art that in alternative embodiments, the plurality of first sub electrical connection portions 511 may be spaced along other directions, and the plurality of second sub electrical connection portions 521 may be spaced along other directions, so long as the arrangement direction of the plurality of first sub electrical connection portions 511 and the arrangement direction of the plurality of second sub electrical connection portions 521 are substantially the same.

As shown in fig. 7, when the temple 300 is in the unfolded use state, the first sub electrical connection portion 511 is electrically connected to the corresponding second sub electrical connection portion 521 elastically, while providing a resilient force to the temple 300.

When the temple 300 is in the unfolded use state, the first sub electrical connection portion 511 of the first electrical connection portion 510 is electrically connected with the corresponding second sub electrical connection portion 521 of the second electrical connection portion 520 in an elastic manner, and meanwhile, a resilience is provided for the temple 300, and when a pressing force along the length direction L1 of one end portion of the temple or a direction substantially parallel to the length direction L1 of one end portion of the temple is provided between the two, a certain floating displacement is provided, the generated pressing force can be eliminated, the first sub electrical connection portion 511 and the corresponding second sub electrical connection portion 521 are prevented from generating hard damage, and the stability of the electrical contact between the first sub electrical connection portion 511 and the corresponding second sub electrical connection portion 521 can be ensured.

As shown in fig. 8 to 9, when the temple 300 is rotated to a position where a gap 800 is still left between the temple 300 and the one end portion 210 of the frame 200, the first sub electrical connection portion 511 and the corresponding second sub electrical connection portion 521 can still be in contact and elastically electrically connected, and an elastic force can be provided to the temple 300. Thereby, the clamping force of the glasses legs 300 to the head of the user can be ensured when the intelligent glasses 100 are worn, and the glasses legs 300 have a certain rotation allowance, thereby increasing the wearing compatibility and comfort of the user.

As shown in fig. 7, when one of the first sub electrical connection portion 511 and the corresponding second sub electrical connection portion 521 is an elastic electrical connection portion, the other is an elastic electrical connection portion or a non-elastic electrical connection portion. That is, at least one of the first sub electrical connection portion 511 and the corresponding second sub electrical connection portion 521 is an elastic electrical connection portion. Namely, the first sub electrical connection portion 511 and the corresponding second sub electrical connection portion 521 can both be elastic electrical connection portions; or, the first sub electrical connection portion 511 is an elastic electrical connection portion, and the corresponding second sub electrical connection portion 521 is a non-elastic electrical connection portion; alternatively, the first sub electrical connection portion 511 is a non-elastic electrical connection portion, and the corresponding second sub electrical connection portion 521 is an elastic electrical connection portion. The elastic electric connection part is an elastic electric connection terminal or a conductive elastic sheet. And/or the inelastic electrical connection portion is an inelastic electrical connection terminal or a conductive sheet.

In this embodiment, the first sub electrical connection portion 511 is an elastic electrical connection portion, and the corresponding second sub electrical connection portion 521 is also a non-elastic electrical connection portion.

It will be appreciated by those skilled in the art that in alternative other embodiments, both the first sub electrical connection 511 and the corresponding second sub electrical connection 521 may employ inelastic electrical connections, i.e., hard contact may also be employed between the first sub electrical connection 511 of the first electrical connection 510 and the corresponding second electrical connection 521 of the second electrical connection 520 when the temple 300 is in the extended use state.

As shown in fig. 7, when the temple 300 is in the folded and stored state, one end of the first sub electrical connector 511 for electrical connection with the corresponding second sub electrical connector 521 protrudes from the end face 312 of the one end portion 310 of the temple 300, and one end of the second sub electrical connector 521 for electrical connection with the corresponding first sub electrical connector 511 is recessed into the end face 212 of the one end portion 210 of the frame 200.

It will be understood by those skilled in the art that in alternative other embodiments, one end of the first sub electrical connection portion 511 for electrical connection with the corresponding second sub electrical connection portion 521 may be recessed in the end face 312 of the one end portion 310 of the temple 300, and one end of the second sub electrical connection portion 521 for electrical connection with the corresponding first sub electrical connection portion 511 protrudes from the end face 212 of the one end portion 210 of the frame 200.

In this embodiment, the first sub electrical connection portions 511 are all spring probes, and the second sub electrical connection portions 521 are all conductive sheets. It will be understood by those skilled in the art that the first sub electrical connection portion 511 and the second sub electrical connection portion 521 can be other types of electrical connection terminals as long as signal conduction can be realized through contact and signal disconnection can be realized through disconnection.

It can be understood by those skilled in the art that the plurality of first sub electrical connection portions 511 may have the same or different structures, for example, a part of the plurality of first sub electrical connection portions 511 adopts a spring-type probe, and another part of the plurality of first sub electrical connection portions 511 adopts a conductive sheet; the structures of the plurality of second sub electrical connection portions 521 may be the same or different, for example, a conductive sheet is used as one part of the second sub electrical connection portions 521 among the plurality of second sub electrical connection portions 521, and a spring-type probe is used as another part of the second sub electrical connection portions 521, which does not limit the scope of the present application.

Further, one end of each of the first sub electrical connection portions 511 of each of the temples 300, which faces away from the corresponding second sub electrical connection portion 521, is fixed to the circuit board 340 and is electrically connected to the circuit board 340. The circuit board 340 is electrically connected to the corresponding temple trace 330.

The ends of the second sub electrical connection portions 521 away from the corresponding first sub electrical connection portions 511, which are respectively located at the left and right end portions 210 of the lens frame 200, are all fixed to the circuit board 240 and electrically connected to the circuit board 240. The circuit board 240 is electrically connected to the frame trace 230.

In this embodiment, the spring-type probe may adopt a structure known in the art, and will not be described in detail herein.

For example, the spring-type probe may include a needle 512, a needle tube 513 and a spring 514, where the needle 512 is slidably disposed in the needle tube 513 along an axial direction of the needle tube 513, the spring 514 is disposed in the needle tube 513, one end of the spring 514 abuts against a bottom of the needle tube 513, and the other end abuts against a bottom end of the needle 512. And the bottom end of the needle 512 is a bevel structure, so that the needle 512 is ensured to be in contact with the inner wall of the needle tube 513 during operation, and current mainly passes through the gold-plated needle 512 and the needle tube 513, so as to ensure the stability and low impedance of the spring type probe. The tip of the needle 512 is used to contact the conductive pad (i.e., the second sub electrical connection 521). The bottom end of the needle tube 513 is fixed to the circuit board 340 and electrically connected to the circuit board 340. It will be appreciated by those skilled in the art that in alternative embodiments, when the spring-loaded probe is in an active state (i.e. the electrical signal is on), current may also be conducted primarily through the needle, through the spring, and to the needle.

Referring to fig. 10-11, fig. 10 is a schematic internal structure diagram of another embodiment of an electrical connection device 500 portion of the smart glasses 100 according to an embodiment of the present disclosure, in which a matching structure between a first electrical connection portion 510 disposed on the temple 300 and a second electrical connection portion 520 disposed on the frame 200 is shown, and the first electrical sub-connection portion 511 adopts a spring structure. Fig. 11 is a schematic top view of the electrical connector of fig. 10, wherein the first electrical connector of the temple is separated from the second electrical connector of the frame.

As shown in fig. 10 to 11, the electrical connection device 500 and the matching structure of the first electrical connection part 510 and the temple 300 of the electrical connection device 500, and the matching structure of the second electrical connection part 520 and the frame 200 are substantially the same as those described in the above embodiments, except that the plurality of first electrical connection parts 511 are all elastic pieces, and the plurality of second electrical connection parts 521 are all conductive pieces. In this embodiment, the elastic sheet has a 2-shaped structure.

It can be understood by those skilled in the art that the plurality of first sub electrical connection portions 511 may have the same or different structures, for example, a part of the plurality of first sub electrical connection portions 511 is an elastic sheet, and another part of the plurality of first sub electrical connection portions 511 is a conductive sheet; the structures of the plurality of second sub electrical connection portions 521 may be the same or different, for example, a part of the plurality of second sub electrical connection portions 521 is a conductive sheet, and another part of the plurality of second sub electrical connection portions 521 is a spring sheet, which does not limit the scope of the present application.

Specifically, one end of each of the plurality of elastic pieces located at each of the temples 300, which faces away from the corresponding conductive sheet, is fixed to the circuit board 340 and electrically connected to the circuit board 340. The circuit board 340 is electrically connected to the corresponding temple trace 330.

The ends of the conductive strips at the left and right ends 210 of the frame 200, which are away from the corresponding spring strips, are fixed to the circuit board 240 and electrically connected to the circuit board 240. The circuit board 240 is electrically connected to the frame trace 230.

One end of each of the plurality of resilient pieces of each of the temples 300 facing the corresponding conductive sheet is used for achieving electrical connection therebetween when contacting the conductive sheet, and for achieving electrical disconnection therebetween when being separated from the conductive sheet.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (35)

1. A spectacle frame comprises a spectacle leg and a spectacle frame, wherein the spectacle leg is provided with a first electronic unit, the spectacle frame is provided with a second electronic unit, one end part of the spectacle leg is rotatably connected with one end part of the spectacle frame through a connecting shaft, so that the spectacle leg can be switched between an unfolding use state and a folding storage state, and the spectacle frame is characterized in that one end part of the spectacle leg is detachably connected with one end part of the spectacle frame through the connecting shaft;

one end of the glasses leg and one end of the glasses frame are provided with an electric connecting device, the electric connecting device comprises a first electric connecting part and a second electric connecting part which are correspondingly arranged, the first electric connecting part is arranged at one end of the glasses leg and is electrically connected with the first electronic unit, and the second electric connecting part is arranged at one end of the glasses frame and is electrically connected with the second electronic unit;

when the temple is in the unfolded use state, the first electrical connection part is electrically connected with the corresponding second electrical connection part; when the temple is in the folded and stored state, the first electrical connection portion is electrically disconnected from the corresponding second electrical connection portion.

2. The frame of claim 1, wherein the first electrical connection comprises at least one first sub-electrical connection and the second electrical connection comprises at least one second sub-electrical connection, the first sub-electrical connection corresponding to the second sub-electrical connection.

3. The frame of claim 2, wherein the first sub electrical connector is in resilient electrical connection with the corresponding second sub electrical connector when the temple is in the extended use state, while providing a resilient force to the temple.

4. The frame of claim 3, wherein when one of the first sub electrical connection and the corresponding second sub electrical connection is a resilient electrical connection, the other is a resilient electrical connection or a non-resilient electrical connection.

5. The frame of claim 4, wherein the resilient electrical connection is a resilient electrical connection terminal or a conductive spring; and/or the inelastic electrical connection part is an inelastic electrical connection terminal or a conductive sheet.

6. The spectacle frame according to any one of claims 2 to 5, wherein when the spectacle frame is in the folded and stored state, one end of the first sub electrical connector for electrical connection with the corresponding second sub electrical connector protrudes from an end face of one end of the spectacle frame, one end of the second sub electrical connector for electrical connection with the corresponding first sub electrical connector is recessed in an end face of one end of the spectacle frame, or one end of the first sub electrical connector for electrical connection with the corresponding second sub electrical connector is recessed in an end face of one end of the spectacle frame, and one end of the second sub electrical connector for electrical connection with the corresponding first sub electrical connector protrudes from an end face of one end of the spectacle frame.

7. The frame according to any one of claims 2 to 6, wherein the first electrical connection portion includes a plurality of the first sub electrical connection portions, the second electrical connection portion includes a plurality of the second sub electrical connection portions, the plurality of first sub electrical connection portions are arranged at intervals in a direction parallel to an axial direction of the connecting shaft, and the plurality of second sub electrical connection portions are also arranged at intervals in a direction parallel to the axial direction of the connecting shaft.

8. Frame as claimed in any of the claims 1-7, characterized in that the connecting shaft is a screw.

9. The frame of claim 8, wherein the inner side of one end of the temple is provided with a first boss protruding therefrom; the inner side surface of one end part of the mirror frame is provided with two protruding second bosses which are arranged at intervals along the axial direction of the screw and form an accommodating space;

the part of the first boss is accommodated in the accommodating space, the screw penetrates through the upper boss and the first boss of the two second bosses from top to bottom, and the screw is screwed in through a threaded hole in the lower boss of the two second bosses.

10. Frame according to any one of claims 1 to 9, characterized in that it comprises processing means integrated in said temple arm so as to constitute a part of said first electronic unit located in said temple arm, or in said frame so as to constitute a part of said second electronic unit; the first electronic unit comprises an audio device arranged at a position of the temple which is close to the ear of the user when the temple is worn;

when the temple is switched from the folding and unfolding state to the unfolding state, the first electric connection part is electrically connected with the corresponding second electric connection part, and the processing device generates a control signal to turn on the audio device;

when the temple is switched from the unfolding use state to the folding state, the first electric connection part is electrically disconnected from the corresponding second electric connection part, and the processing device generates another control signal to close the audio device or enable the audio device to be in a standby state.

11. The spectacle frame according to any one of claims 1 to 10, wherein the spectacle frame comprises two temples, one end of each of the temples is rotatably and detachably connected to the left and right ends of the spectacle frame by a connecting shaft, and one end of each of the temples and the corresponding end of the spectacle frame are provided with the electrical connecting device.

12. The frame of claim 11, wherein a frame trace is disposed within the frame, the second electronics unit being electrically connected to the frame trace;

when the two glasses legs are in the unfolded use state, the first electronic units located on each glasses leg are electrically connected with the second electronic units located on the glasses frame through the corresponding electric connecting devices and the glasses frame wiring lines, and the first electronic units located on the two glasses legs are electrically connected with the glasses frame wiring lines through the two electric connecting devices.

13. The frame of claim 12, wherein a temple wire is disposed within each of the temples, the first electronic unit is electrically connected to the temple wire, the first electrical connector of the electrical connection device is electrically connected to an end of the corresponding temple wire, and the second electrical connector of the electrical connection device is electrically connected to an end of the frame wire.

14. The frame according to claim 12 or 13, wherein each of said temples integrates a battery module forming part of the corresponding first electronic unit.

15. The frame according to any one of claims 1 to 14, wherein the first electronic unit is integrated into the temple arm and the second electronic unit is integrated into the frame.

16. Frame according to any one of claims 1 to 13, characterized in that said frame integrates a battery module forming part of said second electronic unit;

the second electronic unit further comprises a wireless charging coil, the wireless charging coil comprises a first coil part and a second coil part, the first coil part and the second coil part are respectively arranged around the two lenses of the glasses frame, and the first coil part and the second coil part are connected in series, so that the voltage generated by the first coil part and the second coil part is connected in series to charge the battery module.

17. The frame of any one of claims 1-16, wherein the first electrical connection and the second electrical connection are both located outside the connecting shaft;

and/or, when the temple is in the extended use state, the first electrical connection is in contact with the corresponding second electrical connection; when the temple is in the folded and stored state, the first electrical connection part and the corresponding second electrical connection part are separated.

18. A smart eyewear, comprising:

the frame of any one of claims 1-17;

and the lens is fixed on the frame of the spectacle frame.

19. The smart eyewear of claim 18, further comprising a display unit capable of displaying an image;

when the glasses legs are switched from the folding and unfolding states to the unfolding and using states, the first electric connection parts are electrically connected with the corresponding second electric connection parts, and a processing device of the intelligent glasses generates a control signal to turn on the display unit;

when the temple is switched from the unfolding use state to the folding storage state, the first electric connection part is electrically disconnected from the corresponding second electric connection part, and the processing device generates another control signal to close the display unit or enable the display unit to be in a standby state.

20. The smart glasses according to claim 18 or 19, wherein the smart glasses are augmented reality smart glasses or virtual reality smart glasses.

21. A temple integrated with an electronic unit, characterized in that one end of the temple is adapted to be rotatably connected and detachably connected to one end of a spectacle frame by means of a connecting shaft, so that the temple can be switched between an extended use state and a folded storage state;

one end of the glasses leg is provided with an electric connection part, the electric connection part is electrically connected with the electronic unit, and the electric connection part positioned on the glasses leg is used for being matched with the electric connection part positioned on one end of the glasses frame;

when the temple is in the unfolded use state, the electric connection part positioned on the temple is electrically connected with the corresponding electric connection part positioned on one end part of the spectacle frame, so that the electronic unit integrated on the temple is electrically connected with the electronic unit integrated on the spectacle frame; when the glasses legs are in the folding and storage states, the electric connection parts located on the glasses legs are electrically disconnected with the corresponding electric connection parts located on one end part of the glasses frame, so that the electronic units integrated on the glasses legs are electrically disconnected with the electronic units integrated on the glasses frame.

22. The temple of claim 21 wherein said electrical connector at said temple comprises at least one sub electrical connector, said electrical connector at said frame comprises at least one sub electrical connector, said sub electrical connector at said temple is for corresponding placement with said sub electrical connector at one end of said frame;

when the glasses legs are in the unfolded use state, the sub electric connection parts positioned on the glasses legs are in elastic electric connection with the corresponding sub electric connection parts positioned on one end part of the glasses frame, and meanwhile, the glasses legs are provided with resilience.

23. The temple of claim 22 wherein said sub-electrical connection located on said temple is a resilient electrical connection.

24. The temple of claim 23, wherein said resilient electrical connection is a resilient electrical connection terminal or a conductive clip.

25. The temple arm of any of claims 22-24, wherein an end of said electrical sub-connector at said temple arm protrudes from an end face of an end of said temple arm when said temple arm is in said folded, stowed condition.

26. The temple arm according to any one of claims 22 to 25, wherein said sub electric connection portion located at said electric connection portion of said temple arm has a plurality, and a plurality of said sub electric connection portions located at said temple arm are arranged at intervals in a direction parallel to an axial direction of said connection shaft.

27. The temples as claimed in any one of claims 21 to 26, wherein an inner side of one end of said temples is provided with a protruding boss for rotatably and detachably coupling with a corresponding one end of said glasses frame through said coupling shaft.

28. The spectacle frame is integrated with an electronic unit, and is characterized in that two end parts of the spectacle frame are respectively and rotatably and detachably connected with one end parts of two spectacle legs through a connecting shaft, so that the two spectacle legs can be switched between an unfolded use state and a folded folding state;

the two end parts of the glasses frame are respectively provided with an electric connecting part, the electric connecting parts are electrically connected with the electronic unit, and the electric connecting parts positioned at the two end parts of the glasses frame are used for being respectively matched with the electric connecting parts positioned on the two glasses legs;

when the temples are in the unfolded use state, the electric connecting parts positioned at the two end parts of the glasses frame are respectively and electrically connected with the electric connecting parts positioned at the two temples, so that the electronic unit integrated on the glasses frame is electrically connected with the electronic units integrated on the temples; when the glasses legs are in the folding and storage state, the electric connecting parts at the two end parts of the glasses frame are respectively electrically disconnected with the electric connecting parts at the two glasses legs, so that the electronic units integrated on the glasses frame are electrically disconnected with the electronic units integrated on the glasses legs.

29. The frame according to claim 28, characterized in that said electrical connections on the frame comprise at least one sub-electrical connection, said electrical connections on the temples comprise at least one sub-electrical connection, said sub-electrical connections on the two ends of the frame being intended to be arranged in correspondence with said sub-electrical connections on the two temples, respectively;

when the glasses legs are in the unfolded use state, the sub electric connection parts positioned on the glasses legs are in elastic electric connection with the corresponding sub electric connection parts positioned on one end part of the glasses frame, and meanwhile, the glasses legs are provided with resilience.

30. The frame according to claim 29 wherein said sub electrical connections on said frame are non-elastic electrical connections, said non-elastic electrical connections being non-elastic electrical connection terminals or conductive strips.

31. A mounting frame according to claim 29 or 30, wherein one end of each of said sub-electrical connection portions on said frame is recessed from an end face of a corresponding end portion of said frame.

32. The lens frame according to any one of claims 29 to 31, wherein the sub electric connection portion of the electric connection portion located at each end portion of the lens frame is plural, and the plural sub electric connection portions located at each end portion of the lens frame are provided at intervals in a direction parallel to an axial direction of the connecting shaft.

33. The spectacle frame as claimed in any one of claims 28 to 32, wherein the inner side of each end of the spectacle frame is provided with two protruding bosses which are spaced apart in the axial direction of the connecting shaft and which form accommodating spaces;

the part of the lug boss of the glasses leg is accommodated in the accommodating space, the connecting shaft penetrates through the upper lug boss of the two lug bosses of the glasses frame and the lug boss of the glasses leg from top to bottom, and the connecting shaft is screwed in through the threaded hole in the lower lug boss of the two lug bosses of the glasses frame.

34. The frame according to any one of claims 28 to 33, characterized in that it integrates a battery module that forms part of said electronic unit integrated in said frame; the electronic unit integrated with the glasses frame comprises a wireless charging coil, the wireless charging coil comprises a first coil part and a second coil part, the first coil part and the second coil part are used for being respectively arranged around two lenses, and the first coil part and the second coil part are connected in series, so that voltages generated by the first coil part and the second coil part are connected in series to charge a battery module.

35. A frame assembly, the frame assembly comprising:

a frame as claimed in any one of claims 28-34;

and the lens is fixed on the mirror frame.

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