CN218675556U - Intelligent glasses - Google Patents

Abstract

The application provides intelligent glasses relates to intelligence wearing equipment technical field, intelligent glasses includes: the glasses frame comprises a glasses frame main body (100), a hinge (200) and glasses legs (300), wherein the glasses legs (300) are detachably hinged on the glasses frame main body (100) through the hinge (200), and the hinge (200) is detachably clamped on the glasses legs (300). This application can realize tearing open fast of hinge and trade so that intelligent glasses can have multiple different dimensions, can satisfy different head types and head circumference user's the demand of wearing the travelling comfort, has improved user's use and has experienced.

Description

Intelligent glasses

Technical Field

The application relates to the technical field of intelligent wearable equipment, in particular to intelligent glasses.

Background

With the increasing diversification of intelligent wearable devices, smart glasses are beginning to gradually enter people's lives. The intelligent glasses have an independent operating system, and can install programs and complete functions of schedule reminding, navigation, photographing, video call and the like by receiving user operation instructions. The intelligent glasses can also realize near-eye display scenes such as Virtual Reality (VR), augmented Reality (AR), mixed Reality (MR) and the like, and images of a real environment and a virtual object can be superimposed in real time on the retina of a user through the intelligent glasses for display.

Smart glasses generally include a frame main body, a hinge, and a temple, which is rotatably disposed on the frame main body through the hinge so that the temple can be unfolded or folded with respect to the frame main body. In the prior art, adopt modes such as point glue, welding or screw to fix usually between hinge and the mirror leg, the hinge can't freely be dismantled in order to change the hinge of other dimensions from the mirror leg, leads to the size of intelligent glasses single, and the demand of wearing the travelling comfort of the unable compatible different head types of glasses of single dimensions and head user has reduced user's use and has experienced.

SUMMERY OF THE UTILITY MODEL

The application provides an intelligence glasses can realize tearing open fast of hinge and trade so that intelligence glasses can have multiple different dimensions, can satisfy different head types and head circumference user's the demand of wearing the travelling comfort, has improved user's use and has experienced.

In a first aspect, a smart eyewear is provided, comprising: the glasses frame comprises a glasses frame main body, a hinge and glasses legs, wherein the glasses legs are detachably hinged onto the glasses frame main body through the hinge, and the hinge is detachably clamped on the glasses legs.

This application is through improving the connection structure to hinge and mirror leg, hinge and mirror holder main part, all adopt the design that can dismantle the connection between hinge and the mirror leg, and then can design the hinge of unidimensional not, the user can select the hinge of unidimensional not to go on nimble collocation with mirror holder main part and mirror leg according to oneself head girth size, with this intelligent glasses of assembling out different size specifications, and then can satisfy the demand of wearing the travelling comfort of different head types and head girth user, user's use experience has been improved, make the product have more market competition.

The utility model provides an intelligence glasses can realize tearing open fast of hinge and trade, and the user can change the interval between mirror holder main part and the mirror leg through changing the hinge to make intelligence glasses can have the size specification of multiple difference, improve the crowd's compatibility of product under the unchangeable condition of mirror leg and mirror holder major structure, make intelligence glasses can adapt to different ear pupil distance crowds, the consumer of being convenient for adjusts according to the personal conditions.

For connect hinge and mirror leg through modes such as spiro union among the prior art, hinge detachable joint in the intelligent glasses that this application embodiment provided can realize the quick dismantlement to the hinge on the mirror leg, and the user can be swift change is fit for the hinge of oneself. In addition, need not the screw lock between hinge and the mirror leg and attach to the influence of buckle connection to product appearance is little, is favorable to improving the whole pleasing to the eye degree of intelligent glasses from this.

Optionally, the smart glasses may be VR glasses, AR glasses or MR glasses, and in some embodiments, the smart glasses may also be other types of glasses, such as common glasses with shooting function, myopia glasses, sunglasses or diving glasses, but not limited thereto.

In a possible design, the hinge includes hinge main part and fixture block, the installing port has been seted up in the hinge main part, but fixture block elastic expansion set up in the installing port, be equipped with the confession on the mirror leg hinge main part male slot, be equipped with the draw-in groove on the cell wall of slot, work as the hinge main part inserts the back that targets in place, fixture block elastic card is gone into in the draw-in groove.

Through above-mentioned relevant buckle structure, when installing the hinge, can push the hinge along the slot from the extroversion inwards, the hinge can be in place the back and can be through the automatic lock of elasticity in the draw-in groove, and the user can swiftly change the hinge that is fit for oneself, has improved user's use from this and has experienced for the product has more market competition.

In a possible design, the hinge further comprises an elastic element which is arranged in the hinge main body and connected with the clamping block, and when the hinge main body is inserted in place, the elastic element enables the clamping block to be sprung into the clamping groove.

Optionally, in other implementation manners, the fixture block may be made of an elastic material, and may be elastically deformed, and the front end of the fixture block may be clamped into the clamping groove by a deformation force (i.e., an elastic force) of the fixture block.

In a possible design, the hinge further comprises a sliding block arranged in the hinge main body, the elastic piece is connected with the clamping block through the sliding block, and when the hinge main body is inserted in place, the elastic piece drives the sliding block to slide and extrude the clamping block, so that the clamping block is clamped in the clamping groove.

In a possible design, the elastic component is compression spring, compression spring with the slider cover is located along the location that the length direction of mirror leg set up is inserted on the post, works as the hinge main part inserts the back that targets in place, compression spring drive the slider is in slide on the post is inserted in the location to through inclined plane cooperation extrusion the fixture block, so that the fixture block card is gone into in the draw-in groove.

In a possible design, the hinge main body is further provided with a thimble through hole, and the thimble through hole is used for allowing a thimble to penetrate so as to enable the clamping block to be separated from the clamping groove.

In one possible design, the hinge body includes a main body portion and a bottom plate detachably covering the main body portion, and the mounting opening is opened on the bottom plate.

In a possible design, the hinge further includes a hanging lug arranged on the hinge main body, the mirror frame main body includes a mirror frame and a hinge arm arranged on the mirror frame in a protruding mode, and the hinge arm is detachably hinged with the hanging lug.

In one possible design, the smart glasses have a plurality of the hinges, and when different hinges are used to connect the frame body and the temples, the distances between the front ends of the temples and the frame body are different.

In one possible design, the arrangement positions of the hanging lugs of different hinges are different.

Drawings

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

Fig. 2 is a schematic view of the connection of the frame body to the temple.

Fig. 3 is a schematic view of the installation structure of the hinge and the temples.

Fig. 4 is a schematic view of the assembly process of the hinge and the temple.

Fig. 5 is a schematic view of the overall structure of the hinge.

Fig. 6 is an exploded view of the hinge.

Fig. 7 is a schematic view of the hinge disassembly process.

Fig. 8 is a structural comparison diagram of various hinges provided in embodiments of the present application.

Fig. 9 is a comparison of the application of different hinges.

Reference numerals:

100. a frame body; 110. a mirror frame; 120. a lens; 130. an articulated arm;

200. a hinge; 210. a hinge body; 211. a main body portion; 212. a base plate; 220. a clamping block; 221. a release hole; 230. an installation port; 240. an elastic member; 250. a slider; 260. positioning the inserted column; 270. perforating a thimble; 280. hanging a lug;

300. temples; 310. a slot; 320. a card slot; 330. a via hole;

400. and (4) a thimble.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative and are only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In the description of the present application, it is to be understood that the terms "upper", "lower", "side", "front", "rear", and the like indicate orientations or positional relationships based on installation, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present application.

It should be noted that the same reference numerals are used to denote the same components or parts in the embodiments of the present application, and for the same parts in the embodiments of the present application, only one of the parts or parts may be given the reference numeral, and it should be understood that the reference numerals are also applicable to the other same parts or parts.

The embodiment of the application provides an intelligent glasses, through improving the connection structure to hinge and mirror leg, can realize tearing open fast of hinge and trade so that intelligent glasses can have multiple different dimensions, can satisfy different head types and head circumference user's the demand of wearing the travelling comfort, improved user's use and experienced for the product has more market competition.

Fig. 1 is a schematic overall structure diagram of smart glasses provided in an embodiment of the present application. The smart glasses provided by the embodiments of the present application may be Virtual Reality (VR) glasses, augmented Reality (AR) glasses, or Mixed Reality (MR) glasses, and in some embodiments, the smart glasses may also be other types of glasses, such as general glasses with a shooting function, myopia glasses, sunglasses, or diving glasses, but are not limited thereto.

As shown in fig. 1, the smart glasses provided by the embodiment of the present application include a frame main body 100 and two temples 300, wherein the two temples 300 are rotatably connected to two sides of the frame main body 100, for example, each of the temples 300 is hinged to the frame main body 100 through a hinge 300, so that the temples 300 can be unfolded or folded with respect to the frame main body 100. In fig. 1, two temples 300 of the smart glasses are in an unfolded state, and the smart glasses can be normally worn on the head of the user. When the two temples 300 are in the folded state, the two temples 300 and the frame main body 100 are stacked on each other, and the smart glasses can be received in the glasses case.

As shown in fig. 1, the frame body 100 includes a frame 110 and two lenses 120 fixedly attached to the frame 110. The temples 300 are hinged to the frame 110. The smart glasses provided in the embodiment of the present application may be AR glasses, and the screen projection devices (not shown in the figures) disposed on the two glasses legs 300 may project images to the lenses 120 for users to watch. At this moment, the intelligent glasses can display the virtual image for the user when the user watches the real world scene, and the user can interact with the virtual image to realize the effect of augmented reality.

Optionally, in addition to the screen projection device, various electronic components such as a circuit board, a speaker, a microphone, a storage battery, and an antenna are further disposed on (in) the glasses leg 300 to implement corresponding functions of the smart glasses. The electronic components contained in the smart glasses and the installation details of the electronic components are not particularly limited.

The present application relates generally to improvements in the manner of connecting a hinge 200 of smart glasses to a temple 300, and further details of the related structure will be described with reference to the accompanying drawings. Fig. 2 is a schematic view of the connection of the frame body 100 to the temple 300. Fig. 3 is a schematic view of the installation structure of the hinge 200 and the temples 300. Fig. 4 is a schematic view illustrating an assembling process of the hinge 200 with the temple 300.

As shown in fig. 1 to 4, the smart glasses provided by the embodiment of the present application include a frame main body 100, a hinge 200, and a temple 300, wherein the temple 300 is detachably hinged on the frame main body 100 through the hinge 200, and the hinge 200 is detachably snapped on the temple 300.

The hinge 200 and the temples 300 may be detachably connected by a snap structure, for example, which includes a snap and a catch cooperating with each other, one of the snap and the catch being provided on the hinge 200 and the other being provided on the temples 300. The hinge 200 and the temple 300 may be detachably connected by any snap structure, and the specific form of the snap structure is not particularly limited in the present application.

As shown in fig. 1, in the embodiment of the present application, the smart glasses include two temples 300, each temple 300 is hinged to the frame body 100 by a hinge 200, and each hinge 200 is detachably connected to the temple 300 by snapping.

In other implementations, one of the temples 300 of the smart glasses may be hinged to the frame body 100 by other means without using the hinge 200, or the temple 300 is hinged to the frame body 100 by the hinge 200, but the hinge 200 is not connected to the temple 300 by a snap-fit manner, and the present application is not limited thereto, and the above-mentioned various manners should be included in the scope of the claims of the present application.

This application improves through the connection structure to hinge 200 and mirror leg 300, hinge 200 and mirror leg main part 100, all adopt the design scheme of dismantling the connection between hinge 200 and the mirror leg 300, and then can design the hinge 200 of unidimensional not, the user can select the not hinge 200 and mirror leg main part 100 and mirror leg 300 of unidimensional not to arrange in a flexible way according to oneself head circumference size, with this intelligent glasses of assembling out different dimensions, and then can satisfy the demand of wearing the travelling comfort of different head types and head circumference users, user's use experience has been improved, make the product have more market competition.

The utility model provides an intelligence glasses can realize tearing open fast of hinge 200 and trade, and the user can change the interval between mirror holder main part 100 and the mirror leg 300 through changing hinge 200 to make intelligence glasses can have multiple different dimensions, improve the crowd's compatibility of product under the unchangeable condition of mirror leg 300 and mirror holder main part 100 structure, make intelligence glasses can adapt to different ear pupil distance crowds, the consumer of being convenient for adjusts according to the individual condition.

For connect hinge 200 and mirror leg 300 through modes such as spiro union among the prior art, hinge 200 detachable joint in the intelligent glasses that this application embodiment provided can realize the quick dismantlement to hinge 200 on mirror leg 300, and the user can be swift change be fit for own hinge 200. In addition, the hinge 200 and the glasses legs 300 are not locked by screws, and the influence of the snap connection on the appearance of the product is small, so that the overall attractiveness of the intelligent glasses is improved.

Fig. 5 is a schematic view of the overall structure of the hinge 200. Fig. 6 is an exploded view of the hinge 200. As shown in fig. 4-6, in the present embodiment, the hinge 200 includes a hinge body 210 and a latch 220, the hinge body 210 is a block-shaped hollow structure, the hinge body 210 is provided with a mounting opening 230, and the latch 220 is elastically and telescopically disposed in the mounting opening 230. The temple 300 is provided with a slot 310 into which the hinge body 210 is inserted, and a slot 320 is provided on a wall of the slot 310, and when the hinge body 210 is inserted in place, the latch 220 is elastically latched into the slot 320.

As shown in fig. 3 and 4, the insertion groove 310 is disposed on the front end surface of the temple 300, the cross-sectional shape of the insertion groove 310 is adapted to the cross-sectional shape of the hinge main body 210, the front end of the hinge main body 210 can be inserted into the insertion groove 310, and can slide towards the inside of the insertion groove 310 under the guidance of the insertion groove 310, during the sliding process, the groove wall of the insertion groove 310 abuts against the latch 220, so that the latch 220 is retracted into the mounting opening 230, and at this time, the outer end surface of the latch 220 can be kept flush with the outer wall surface of the hinge main body 210. When the hinge body 210 is inserted in place, for example, the hinge body is inserted into the innermost side of the slot 310, the front end surface of the hinge body 210 is abutted against the inner bottom surface of the slot 310, the latch 220 is directly opposite to the latch 320, the slot wall of the slot 310 releases the limit of the latch 220, and the latch 220 is elastically latched into the latch 320 under the action of elastic force, thereby realizing the reliable connection between the hinge 200 and the temple 300.

Through above-mentioned relevant buckle structure, when installing hinge 200, can push in hinge 200 along slot 310 from the extroversion inwards, hinge 200 can be in draw-in groove 320 through the automatic lock of elasticity after to the position, and the user can swiftly change the hinge 200 that is fit for oneself, has improved user's use from this and has experienced for the product has more market competition.

As shown in fig. 3, when the hinge 200 is inserted into place, the outer end surface of the hinge 200 and the front end surface of the temples 300 may be maintained flush with each other, so that the overall beauty of the smart glasses can be improved.

As shown in fig. 3, the insertion groove 310 is provided on the front end surface of the temple 300, and forms an "L-shaped opening", the "L-shaped opening" includes a notch located on the front end surface of the temple 300 for the hinge 200 to be inserted, and a guide opening provided along the length direction of the temple 300, the hinge main body 210 penetrates into the insertion groove 310 from the notch, the cross-sectional shape of the hinge main body 210 is in a "convex shape", and the front end of the "convex shape" is slidably inserted into the guide opening, thereby reliably guiding the insertion operation of the hinge 200. The locking groove 320 may be disposed on a groove wall opposite to the guide opening.

Further, as shown in fig. 2 to 6, the hinge 200 further includes a hanging lug 280 provided on the hinge main body 210, the frame main body 100 includes a frame 110 and a hinge arm 130 fixedly protruded on the frame 110, and a front end of the hinge arm 130 is detachably hinged to the hanging lug 280. When the hinge body 210 is inserted into the insertion slot 310, the hanging lug 280 extends out of the guiding opening, and the guiding opening also forms an avoiding opening for avoiding the hanging lug 280.

Alternatively, the frame 110 and the hinge arm 130 may be integrally formed by a casting, injection molding, or 3D printing, so as to improve the connection strength between the two. The hanging lug 280 can be provided with a hinge hole, the hinge arm 130 can be rotatably arranged on the hanging lug 280 through a pin shaft or a screw and other parts, and the hanging lug 280 and the hinge arm 130 can be conveniently detached and separated by a user.

Alternatively, the hanging lug 280 may include two aligned and spaced apart hanging lugs 280, and the hinge holes of the two hanging lugs 280 are opposite to each other, and the hinge arm 130 is rotatably disposed in the two hinge holes, so that the hinge arm 130 and the hanging lugs 280 can be reliably connected.

As shown in fig. 6, the hinge 200 further includes an elastic member 240 disposed in the hinge body 210 and connected to the latch 220, the elastic member 240 is used to provide an elastic force to the latch 220, and when the hinge body 210 is inserted into place, the elastic force accumulated by the elastic member 240 due to being compressed is released, and the latch 220 is ejected into the latch groove 320 by the elastic force.

Alternatively, the elastic element 240 may be any elastic mechanism such as a spring (e.g., a compression spring, a tension spring, or a torsion spring), a spring plate, an elastic cord, or a rubber band, which is not limited in this application.

Optionally, in other implementation manners, the fixture block 220 itself may be made of an elastic material, and can be elastically deformed, and the front end of the fixture block 220 may be clamped into the clamping groove 320 by a deformation force (i.e., an elastic force) of itself.

As shown in fig. 5 and 6, the hinge 200 in the embodiment of the present application further includes a slider 250 slidably disposed in the hinge body 210, the elastic member 240 is connected to the latch 220 through the slider 250, and when the hinge body 210 is inserted in place, the elastic member 240 drives the slider 250 to press the latch 220, so that the latch 220 is latched into the latch slot 320. The force is guided and transmitted by the slider, so that the elastic expansion and contraction movement of the clamping block 220 is smooth and free, and the clamping stagnation and other conditions are prevented.

Further, as shown in fig. 6, in the embodiment of the present invention, the elastic member 240 is a compression spring, the compression spring and the slider 250 are sleeved on a positioning insertion post 260 disposed along the length direction of the temple 300, one end of the compression spring abuts against the inner wall of the hinge main body 210, and the other end abuts against the slider 250. When the hinge body 210 is inserted into the proper position, the compression spring drives the slider 250 to slide on the positioning post 260 and press the latch 220 through the slope fit, so that the latch 220 is latched into the latch groove 320.

With the above arrangement, the elastic member 240 (i.e., the compression spring) can be arranged along the length direction of the temple 300 and juxtaposed with the latch 220 in the length direction of the temple 300, whereby the size of the temple 300 in the width direction can be reduced, which is advantageous for the structural design of the temple 300. The sliding block 250 and the clamping block 220 are in extrusion fit through the inclined plane, the design is ingenious, the conversion of the movement direction can be efficiently realized on the premise of no need of additional parts, the horizontal movement of the sliding block 250 is converted into the telescopic movement of the clamping block 220 in the vertical direction, and the miniaturization design of the hinge 200 and the glasses legs 300 is facilitated.

As shown in fig. 5 and 6, the hinge body 210 may be assembled by two parts to facilitate the arrangement of the elastic member 240, the slider 250, and the positioning post 260 in the hinge body 210. Specifically, the hinge body 210 includes a body 211 and a bottom plate 212 detachably covering an opening of the body 211, and the mounting opening 230 is opened on the bottom plate 212. After the elastic member 240, the sliding block 250 and other related components are assembled in the main body 211, the bottom plate 212 can be packaged on the opening of the main body 211.

As shown in fig. 6, the bottom plate 212 and the opening of the main body portion 211 are adapted to each other, for example, the opening of the bottom plate 212 and the opening of the main body portion 211 are both "L" shaped, and the L-shaped bottom plate 212 can be slidably inserted (e.g., embedded) into the opening of the main body portion 211 from a side port of the main body portion 211, so as to cover the opening.

The disassembling process of the hinge 200 and the temples 300 according to the embodiment of the present application will be described with reference to the accompanying drawings. According to the above description, the hinge 200 and the temple 300 can be clamped by any snap structure, and depending on the difference of the snap structure, the user can release the snap structure by any corresponding way, so as to detach and separate the hinge 200 and the temple 300. For example, the hinge 200 and the temple 300 may be released by pressing, pulling, pushing up a thimble, rotating, or the like, which is not particularly limited in the present application.

Fig. 7 is a schematic view of the disassembling process of the hinge 200 in the embodiment of the present application. As shown in fig. 7, in the embodiment of the present application, the hinge main body 210 is further provided with a thimble through hole 270, for example, the thimble through hole 270 is provided on the main body portion 211, and the thimble through hole 270 is used for the thimble 400 to penetrate so as to enable the fixture block 220 to be pulled out from the fixture slot 320.

Through the above arrangement, when the hinge 200 needs to be disassembled, the thimble 400 can penetrate into the hinge 200 from the thimble through hole 270, and the front end of the thimble 400 is in contact with the fixture block 220 to move the fixture block 220, so that the fixture block 220 is lifted to contract towards the hinge 200, and further can be separated from the clamping groove 320, the hinge 200 and the glasses leg 300 are unlocked, at this time, the hinge 200 can slide towards the outside, and finally the hinge 200 and the glasses leg 300 are disassembled and separated.

Further, as shown in fig. 6, a release hole 221 for inserting the front end of the thimble 400 is further disposed at a corresponding position of the fixture block 220, and when the front end of the thimble 400 passes through the thimble through hole 270, the front end can extend into the release hole 221, so that a user can lift the fixture block 220 through the thimble 400 conveniently, and release is achieved.

Further, as shown in fig. 7, considering that the thimble through hole 270 may be covered by a groove wall of the slot 310, in the embodiment of the present disclosure, a through hole 330 opposite to the thimble through hole 270 is further disposed on the temple 300 (i.e., on the groove wall of the slot 310), and the front end of the thimble 400 passes through the through hole 330 and the thimble through hole 270 in sequence and then penetrates into the release hole 221 of the latch 220.

Alternatively, as shown in fig. 6, the thimble 400 may include a needle portion and a ring portion connected to each other, the ring portion being inserted by a finger of a user to facilitate a lifting operation of the user.

Optionally, smart glasses may include the thimble 400, i.e., the thimble 400 may be sold together as an accessory to smart glasses.

Fig. 8 is a structural comparison diagram of various hinges 200 provided in the embodiments of the present application. Fig. 9 is a comparison of the application of different hinges 200.

As shown in fig. 8 and 9, the smart glasses provided in the embodiments of the present invention have a plurality of hinges 200 for users to choose, and when different hinges 200 are used to connect the frame main body 100 and the temples 300, the distances between the front ends of the temples 300 and the frame main body 100 are different. Thereby can make intelligent glasses have multiple different dimensions, can adapt to the demand of wearing the travelling comfort of different ear pupil distance crowds.

For example, the smart glasses include two hinges 200 shown in parts (a) and (b) of fig. 8, corresponding to parts (a) and (b) of fig. 9, when the two different hinges 200 are used to connect the frame main body 100 and the temples 300, the hinge 200 shown in part (b) of fig. 8 obviously enables the distance between the front ends of the temples 300 and the frame main body 100 to be larger, and can satisfy the requirement of wearing comfort for people with larger interpupillary distance.

Further, as shown in fig. 8 and 9, the arrangement positions of the hanging lugs 280 of different hinges 200 are different. It is possible to realize that when different hinges 200 are used to connect the frame main body 100 and the temples 300, the distances between the front ends of the temples 300 and the frame main body 100 are different. With the above arrangement, the design of the hinge 200 can be simplified, and in this case, the different hinges 200 only have different arrangement positions of the hanging lugs 280, and the design in other aspects can be completely the same.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A smart eyewear, comprising: the glasses frame comprises a glasses frame main body (100), a hinge (200) and glasses legs (300), wherein the glasses legs (300) are detachably hinged to the glasses frame main body (100) through the hinge (200), and the hinge (200) is detachably clamped to the glasses legs (300).

2. The pair of smart glasses according to claim 1, wherein the hinge (200) includes a hinge body (210) and a latch (220), the hinge body (210) is provided with an installation opening (230), the latch (220) is elastically and telescopically disposed in the installation opening (230), the temple (300) is provided with a slot (310) for the hinge body (210) to be inserted, a slot wall of the slot (310) is provided with a slot (320), and when the hinge body (210) is inserted in place, the latch (220) is elastically latched into the slot (320).

3. The smart eyewear of claim 2, wherein the hinge (200) further comprises a resilient member (240) disposed within the hinge body (210) and connected to the latch (220), wherein when the hinge body (210) is inserted into position, the resilient member (240) causes the latch (220) to spring into the detent (320).

4. The smart glasses according to claim 3, wherein the hinge (200) further comprises a slider (250) disposed in the hinge body (210), the elastic member (240) is connected to the latch (220) through the slider (250), and when the hinge body (210) is inserted into the slot, the elastic member (240) drives the slider (250) to slide and press the latch (220) so that the latch (220) is latched in the latch slot (320).

5. The smart glasses according to claim 4, wherein the elastic member (240) is a compression spring, the compression spring and the slider (250) are sleeved on a positioning insertion post (260) arranged along a length direction of the glasses leg (300), and when the hinge body (210) is inserted in place, the compression spring drives the slider (250) to slide on the positioning insertion post (260) and presses the latch (220) through an inclined surface fit, so that the latch (220) is latched into the latch groove (320).

6. The pair of smart glasses according to any one of claims 2 to 5, wherein the hinge body (210) further comprises a pin through hole (270), and the pin through hole (270) is used for a pin (400) to penetrate through so as to enable the fixture block (220) to be removed from the fixture slot (320).

7. The smart glasses according to any one of claims 2 to 5, wherein the hinge body (210) includes a body portion (211) and a bottom plate (212) detachably covering the body portion (211), and the mounting opening (230) is opened on the bottom plate (212).

8. The smart glasses according to any one of claims 2 to 5, wherein the hinge (200) further comprises a hanging lug (280) disposed on the hinge body (210), the frame body (100) comprises a frame (110) and a hinge arm (130) protruding from the frame (110), and the hinge arm (130) is detachably hinged to the hanging lug (280).

9. The smart glasses according to claim 8, wherein the smart glasses have a plurality of hinges (200), and when different hinges (200) are used to connect the frame body (100) and the temples (300), distances between front ends of the temples (300) and the frame body (100) are different.

10. The smart eyewear of claim 9 wherein the attachment ears (280) of different hinges (200) are positioned differently.

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