CN114384709B - Intelligent glasses, glasses leg nose support assembly, glasses frame assembly and glasses frame - Google Patents

Abstract

The application discloses intelligence glasses, mirror leg nose support assembly, picture frame assembly and mirror holder. The intelligent glasses include picture frame assembly and mirror leg nose support assembly, and the picture frame assembly includes the picture frame, and mirror leg nose support assembly includes two mirror legs, nose support and connecting portion, and connecting portion is with the nose support in two mirror legs for nose support, connecting portion and two mirror legs are fixed relatively or as an organic wholely, and mirror leg nose support assembly is fixed and can dismantle and connect in the picture frame. The utility model discloses an intelligent glasses can realize the holistic change of mirror leg nose and hold in the palm the assembly to can synchronous regulation and the whole mirror leg of changing and nose hold in the palm, can compatible different bridge of the nose sizes, different head types and the head circumference user wear the demand of travelling comfort, and user convenient to use promotes user experience effect.

Description

Intelligent glasses, glasses leg nose support assembly, glasses frame assembly and glasses frame

Technical Field

The application relates to the technical field of head-mounted display, in particular to an intelligent glasses, a glasses leg nose support assembly, a glasses frame assembly and a glasses frame.

Background

The AR (augmented reality, english full name "Augmented Reality") technology is a technology for calculating the position and angle of a camera image in real time and adding corresponding images, video, and 3D models, and the goal of this technology is to fit a virtual world around the real world on a screen and interact with the virtual world. The augmented reality intelligent glasses are a kind of head-mounted display equipment based on the augmented reality technology.

Because the bridge of the nose size of different users and head form, head circumference size have great difference, the design of the mirror leg and the nose support of augmented reality intelligent glasses becomes the key of guaranteeing user's wearing travelling comfort, and mirror leg and the nose support of a size are difficult to compromise different head forms and head circumference users, and the demand of different bridge of the nose size users.

Currently, the demand for wearing comfort is mainly improved by designing nose pads of intelligent glasses. For example, the nose pad may be provided to be detachable from the frame to facilitate replacement of the nose pad, or the nose pad may be provided to be adjustable in position relative to the frame, or the like. However, the requirements of users with different nose bridge sizes can be improved only by adjusting the nose pads, and the requirements of users with different head shapes and head circumference sizes are still difficult to meet, that is, the wearing comfort of users with different head shapes and head circumference sizes is still not compatible.

Disclosure of Invention

The purpose of this application is to solve among the prior art intelligent glasses and only hold in the palm through the adjustment nose and improve different nose bridge size user's demand, still can't compatible different head forms and head circumference size user's the problem of wearing the travelling comfort. Therefore, this application embodiment provides an intelligent glasses, mirror leg nose support assembly, picture frame assembly and mirror holder, and it can be compatible different bridge of the nose sizes, different head types and head circumference user's the demand of wearing travelling comfort, and user convenient to use promotes user experience effect.

The embodiment of the application provides an intelligent glasses, including the picture frame assembly, the picture frame assembly includes the picture frame, and intelligent glasses still includes:

the glasses leg nose holds in palm the assembly, and glasses leg nose holds in the palm the assembly including two glasses legs, nose and connecting portion, and connecting portion holds in the palm the nose and connects in two glasses legs for nose holds in the palm, connecting portion and two glasses legs relatively fixed or as an organic wholely, and glasses leg nose holds in the palm the assembly fixedly and can dismantle and connect in the picture frame.

In this scheme, connecting portion will hold in the palm the nose and connect in two mirror legs for nose holds in the palm, connecting portion and two mirror legs relatively fixed or as an organic wholely, holds in the palm the whole and can dismantle with the picture frame with mirror leg nose and be connected, can realize that mirror leg nose holds in the palm the holistic change of assembly, thereby can adjust with wholly change mirror leg and nose and hold in the palm, can realize that mirror leg and nose hold in the palm the synchronous replacement. Through with the modular design of mirror leg nose support assembly, the design has not unidimensional mirror leg nose support assembly (including not unidimensional nose support and/or not unidimensional mirror leg), the user can be according to own bridge of the nose size and head form, the head is enclosed the collocation that the size selected unidimensional mirror leg nose support assembly and picture frame, can realize each mirror leg nose support assembly and the arbitrary equipment between the picture frame, with this equipment goes out unidimensional intelligent glasses, so not only can be compatible with the demand of the wearing travelling comfort of different bridge of the nose size users, can also be compatible with the demand of the wearing travelling comfort of different head forms and head surrounding users, thereby applicable more wearing crowd, and then the application scope of intelligent glasses has been improved with low costs.

In addition, because the whole glasses leg nose holds in the palm assembly and the picture frame can be dismantled, change convenient operation is swift, and user convenient to use promotes user experience effect. The glasses leg nose pad assembly is convenient to replace independently when the glasses are damaged, and the whole intelligent glasses do not need to be replaced, so that the maintenance cost of the intelligent glasses is reduced.

When the user wears the intelligent glasses, the nose support portion is clamped with the nose of the user, the glasses legs are worn on the ears of the user, and the nose and the ears of the user are utilized to support the glasses leg nose support assembly, so that the whole intelligent glasses are supported.

In some embodiments, the glasses frame is provided with a clamping module, and the position of the glasses leg nose support assembly corresponding to the clamping module is provided with a clamped module, and the glasses leg nose support assembly is clamped with the glasses frame through the clamping module.

In this scheme, through joint module with by joint module looks joint for the mirror leg nose holds in the palm the assembly and is fixed with the picture frame, when guaranteeing to wear stability, convenient to detach, user operation is convenient, promotes user experience effect.

In some embodiments, under the action of external force on the outer sides of the two glasses legs in the width direction of the glasses frame, the clamping module and the clamped module are released from clamping through the stretching deformation of the nose support, so that the glasses leg nose support assembly is detached from the glasses frame. Thus, the glasses leg nose support assembly and the glasses frame are convenient to detach.

In some embodiments, the clamping module comprises two clamping parts, and the two clamping parts are axially symmetrically arranged at two end parts of the mirror frame respectively;

the clamped module comprises two clamped parts which are axially symmetrically arranged at one end part of the two glasses legs and used for being matched with the two end parts of the glasses frame respectively, and are correspondingly arranged with the two clamped parts;

each clamped part is clamped with the corresponding clamped part by moving from bottom to top in the width direction of the glasses frame, so that the glasses leg nose support assembly is fixed with the glasses frame.

In some embodiments, each clamping part is a cylindrical body extending along the thickness direction of the mirror frame, a chamfer is formed between the lower side surface and the outer side surface of the clamping part, and a tangential surface formed by the chamfer is a guide surface;

each clamped part is a cylindrical body extending along the thickness direction of the glasses frame, a chamfer is formed between the upper side surface and the outer side surface of each clamped part, and a tangential surface formed by the chamfer is a guide surface;

the clamped parts are pushed from bottom to top in the width direction of the glasses frame, and the lower side surfaces of the clamped parts are clamped with the upper side surfaces of the clamping parts after the clamped parts pass through the clamping parts through sliding extrusion of the guide surfaces of the clamped parts and the guide surfaces of the corresponding clamping parts. The glasses leg nose support assembly is conveniently installed to the glasses frame in a moving mode from bottom to top in the width direction of the glasses frame, and the operation is convenient.

In some possible embodiments, each clamping portion has an upper side surface and a lower side surface which are oppositely arranged, and an outer side surface and a guide surface which are sequentially connected, wherein the upper edge of the outer side surface is connected with the outer edge of the upper side surface, and the guide surface extends outwards and obliquely upwards from the outer edge of the lower side surface to the lower edge of the outer side surface;

each clamped part is provided with an upper side surface, a lower side surface, an outer side surface and a guide surface, wherein the upper side surface and the lower side surface are oppositely arranged, the outer side surface and the guide surface are sequentially connected, the lower edge of the outer side surface is connected with the outer edge of the lower side surface, and the guide surface extends outwards and obliquely downwards from the outer edge of the upper side surface to the upper edge of the outer side surface;

the lower side surface of each clamped part is clamped on the upper side surface of the corresponding clamping part; the guide surface of each clamped part is used for being matched with the guide surface of the corresponding clamped part.

In some embodiments, the end surfaces of the respective ends of the lens frame are formed with first notches for receiving one end of the corresponding temple at positions near the lower side in the width direction of the lens frame and near the rear side in the thickness direction of the lens frame. Thus, the temple nose support assembly can be stably and movably mounted to the glasses frame from bottom to top in the width direction of the glasses frame.

In some embodiments, an end surface of one end of each temple is in contact with a front side surface of the corresponding first notch in the thickness direction of the lens frame;

And/or, in the length direction of the lens frame, the outer side surface of one end part of each lens leg is positioned inside or aligned with the end surface of the corresponding end part of the lens frame. Therefore, the end face of the corresponding end part of each glasses leg is prevented from being exposed out of the end face of the corresponding end part of the glasses frame in the length direction of the glasses frame, one end part of each glasses leg is better hidden, and the intelligent glasses are more attractive and compact in structure.

In some embodiments, each clamping portion is located at a bottom surface of the corresponding first notch in a length direction of the lens frame, and two second notches respectively located above and below the clamping portion are further formed at the bottom surface of the first notch, and when the temple nose support assembly is mounted with the lens frame, the two second notches are respectively used for accommodating at least part of the clamped portion before and after the clamped portion is clamped with the clamping portion.

In some embodiments, the lower end of the second notch located below the clamping part in the width direction of the lens frame is an opening, and the opening is used for the clamped part on the corresponding lens leg to enter and exit the second notch.

In some embodiments, when the clamped portion is clamped with the clamping portion, the front end of the clamped portion in the thickness direction of the mirror frame is abutted against the front side surface of the second notch located above the clamping portion, and the rear end of the clamped portion in the thickness direction of the mirror frame is abutted against the rear side surface of the second notch located above the clamping portion, so that the front-back movement of the mirror leg nose pad assembly relative to the mirror frame in the thickness direction of the mirror frame is limited.

In some embodiments, the lower portion of the frame is provided with a first magnetic member and the upper portion of the connecting portion of the temple nose pad assembly is provided with a second magnetic member, the first magnetic member being configured to attract the second magnetic member such that the temple nose pad assembly is subjected to an upward magnetic force. Therefore, the glasses leg nose support assembly and the glasses frame are fixed more reliably, and the glasses leg nose support assembly and the glasses frame are convenient to detach.

In some embodiments, the lower side surface of the lower part of the mirror frame is provided with a containing groove at a position close to the rear in the thickness direction of the mirror frame, the containing groove is recessed towards the inside of the mirror frame along the width direction of the mirror frame, a groove is formed on the bottom surface of the containing groove in the width direction of the mirror frame, and the first magnetic component is embedded in the groove;

the upper part of the connecting part of the glasses leg nose pad assembly is provided with a groove, and the second magnetic part is embedded in the groove of the connecting part;

wherein, the connecting portion of mirror leg nose holds in palm the assembly is located the holding tank.

In this scheme, the connecting portion that the glasses leg nose held in the palm the assembly is located the holding tank, can hide the connecting portion that the glasses leg nose held in the palm the assembly with in the picture frame, can avoid the connecting portion to shelter from the lens to make the regional barrier-free that user left eye and right eye correspond, improve the image integrity who gets into user's eyes, but also can satisfy the outward appearance effect of intelligent glasses better, and the structure is compacter.

In addition, the first magnetic part is embedded in the groove of the glasses frame, the second magnetic part is embedded in the groove of the connecting part, so that the first magnetic part is more reliably fixed on the glasses frame, the second magnetic part is more reliably fixed on the connecting part of the glasses leg nose support assembly, and the whole structure of the intelligent glasses is more compact.

In some possible embodiments, the first magnetic component and the second magnetic component are permanent magnets. The permanent magnet has a simple structure, the permanent magnet can keep magnetism for a long time, one-time input is realized, and the maintenance cost generated in the later period is low.

In some embodiments, when each end of the lens frame is provided with a second notch, the accommodating groove is connected and communicated with the corresponding second notch positioned below the clamping part;

and/or the holding groove is further provided with a front side surface and a rear side surface which are oppositely arranged along the thickness direction of the mirror frame, the front side surface of the connecting part is abutted to the front side surface of the holding groove, and the rear side surface of the connecting part is abutted to the rear side surface of the holding groove so as to limit the fore-and-aft movement of the mirror leg nose support assembly relative to the mirror frame in the thickness direction of the mirror frame.

In some embodiments, the connecting portion comprises two cross beams, one ends of the two cross beams are respectively connected to one end parts of the two glasses legs, and the other ends of the two cross beams are respectively connected to two sides of the nose pad.

In some possible embodiments, the lower portion of the frame is provided with an arcuate notch at a location intermediate the length of the frame, at least a portion of the nose pad being received in the arcuate notch.

In some embodiments, when the first magnetic component is disposed at the lower portion of the lens frame, and the second magnetic component is disposed at the upper portion of the connecting portion of the temple nose pad assembly, the second magnetic component is disposed at the upper portion of each cross beam of the connecting portion, and the first magnetic component that is attracted to the second magnetic component is disposed at the position of the lower portion of the lens frame corresponding to each cross beam. Therefore, the glasses leg nose support assembly is more reliable to fix with the glasses frame, and the wearing stability of the intelligent glasses is guaranteed.

In some embodiments, the frame is provided with a first sub-unit and each temple is provided with a second electronic unit;

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

when the glasses leg nose support assembly is fixed with the glasses frame, the first electric connection part is electrically connected with the corresponding second electric connection part; when the glasses leg nose support assembly is detached from the glasses frame, the first electric connection part is electrically disconnected from the corresponding second electric connection part.

In this scheme, when the glasses leg nose holds in the palm the assembly and is fixed with the picture frame, through first electric connection portion and the second electric connection portion electricity that corresponds, realized being located the first electronic unit of picture frame and being located the second electronic unit of glasses leg and switch on to realize the transmission of power signal and/or low frequency signal. When the glasses leg nose support assembly is detached from the glasses frame, the first electric connection part is electrically disconnected from the corresponding second electric connection part, so that an electric signal between the first electronic unit positioned on the glasses frame and the second electronic unit positioned on the glasses leg is disconnected. Therefore, the replaceable design of the glasses leg nose support assembly and the glasses frame can be realized, and only the electric connection device of the connection part is shared with signals of internal wiring of the glasses legs and the glasses frame, so that the glasses leg nose support assembly and the glasses frame are consistent.

In some embodiments, the first electrical connection comprises at least one first sub-electrical connection, the second electrical connection comprises at least one second sub-electrical connection, and the first sub-electrical connection is disposed in correspondence with the second sub-electrical connection;

when the glasses leg nose support assembly is fixed with the glasses frame, the first sub-electric connection part is elastically and electrically connected with the corresponding second sub-electric connection part, and meanwhile, resilience force is provided for the glasses legs.

In the scheme, when the first electric connection part and the corresponding second electric connection part are extruded along the axial direction, certain floating displacement is provided, so that the generated extrusion force can be eliminated, the first sub-electric connection part and the corresponding second sub-electric connection part are prevented from being hard damaged, and the stability of electric contact between the first sub-electric connection part and the corresponding second sub-electric connection part can be ensured.

In some embodiments, each of the temples is integrated with a battery module that forms part of the corresponding second electronic unit.

In this scheme, with battery module integration in the mirror leg, when mirror leg nose holds in the palm the assembly and is fixed with the picture frame, battery module can be for the electronic unit power supply in the picture frame.

In some embodiments, when each end of the lens frame is provided with the first notch, the first electrical connection portion is located on a front side surface of the corresponding first notch in a thickness direction of the lens frame, and the second electrical connection portion is located on an end surface of one end of the corresponding lens leg.

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

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

In some possible embodiments, when the temple nose pad assembly is fixed to the frame, one end of the first sub-electrical connection portion for electrically connecting with the corresponding second sub-electrical connection portion is concavely disposed on a front side of the first notch of the end portion of the frame, one end of the second sub-electrical connection portion for electrically connecting with the corresponding first sub-electrical connection portion protrudes from an end face of one end portion of the temple, or one end of the first sub-electrical connection portion for electrically connecting with the corresponding second sub-electrical connection portion protrudes from a front side of the first notch of the end portion of the frame, and one end of the second sub-electrical connection portion for electrically connecting with the corresponding first sub-electrical connection portion is concavely disposed on an end face of one end portion of the temple.

In some possible embodiments, the first electrical connection portion includes a plurality of first sub-electrical connection portions, the second electrical connection portion includes a plurality of second sub-electrical connection portions, the plurality of first sub-electrical connection portions are disposed at intervals along a direction parallel to the width direction of the frame, and the plurality of second sub-electrical connection portions are also disposed at intervals along a direction parallel to the width direction of the frame.

In some possible embodiments, a frame wire is provided in the frame, the first electronic unit being electrically connected to the frame wire;

when the glasses leg nose support assembly is fixed with the glasses frame, the second electronic unit positioned on each glasses leg is electrically connected with the first electronic unit positioned on the glasses frame through the corresponding electric connecting device and the glasses frame wiring, and the second electronic units positioned on the two glasses legs are electrically connected with the glasses frame wiring through the two electric connecting devices.

In this scheme, be located the signal conduction between the second electronic unit of two mirror legs about respectively, can increase intelligent glasses's stacking possibility and duration (mainly to the second electronic unit that is located two mirror legs all including the condition of battery module).

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

The embodiment of the application also provides a glasses leg nose holds in palm assembly, and it includes two glasses legs, nose holds in the palm and connecting portion, and connecting portion holds in the palm the nose and connects in two glasses legs for nose holds in the palm, connecting portion and two glasses legs relatively fixed or as an organic wholely, and glasses leg nose holds in the palm the assembly and can fix and can dismantle and connect in the picture frame.

In this scheme, connecting portion will hold in the palm the nose and connect in two mirror legs for nose holds in the palm, connecting portion and two mirror legs relatively fixed or as an organic wholely, makes mirror leg nose hold in the palm the whole can be fixed and can dismantle with the picture frame and be connected, can realize that mirror leg nose holds in the palm the holistic change of assembly, thereby can adjust in step and wholly change mirror leg and nose and hold in the palm, can realize that mirror leg and nose hold in the palm the synchronous replacement. Through with the modular design of mirror leg nose support assembly, the design has not unidimensional mirror leg nose support assembly (including not unidimensional nose support and/or not unidimensional mirror leg), the user can be according to own bridge of the nose size and head form, the head is enclosed the collocation that the size selected unidimensional mirror leg nose support assembly and picture frame, can realize each mirror leg nose support assembly and the arbitrary equipment between the picture frame, with this equipment goes out unidimensional intelligent glasses, so not only can be compatible with the demand of the wearing travelling comfort of different bridge of the nose size users, can also be compatible with the demand of the wearing travelling comfort of different head forms and head surrounding users, thereby applicable more wearing crowd, and then the application scope of intelligent glasses has been improved with low costs.

In addition, because the whole glasses leg nose holds in the palm assembly and the picture frame can be dismantled, change convenient operation is swift, and user convenient to use promotes user experience effect. The glasses leg nose pad assembly is convenient to replace independently when the glasses are damaged, and the whole intelligent glasses do not need to be replaced, so that the maintenance cost of the intelligent glasses is reduced.

In some embodiments, the temple nose pad assembly further comprises a clamped module, the clamped module comprises two clamped parts, the two clamped parts are axially symmetrically arranged at one end part of the two temples for being matched with two end parts of the glasses frame respectively, and the clamped parts are arranged corresponding to the clamped parts positioned on the glasses frame;

each clamped part can be clamped with the corresponding clamping part by moving from bottom to top in the width direction of the glasses frame, so that the glasses leg nose support assembly is fixed with the glasses frame;

under the external force action of outside in the width direction of picture frame is received respectively to two mirror legs, through the nose holds in the palm extension deformation, will be by joint portion and the joint portion release joint that corresponds to make mirror leg nose hold in the palm assembly and the picture frame dismantlement separation.

In some embodiments, the upper portion of the connection portion of the temple nose cup assembly is provided with a magnetic member that is configured to attract a magnetic member located in the lower portion of the frame such that the temple nose cup assembly is subjected to an upward magnetic force.

In some embodiments, each of the temples is integrated with an electronic unit, and one end of each of the temples is provided with an electrical connection part, the electrical connection part is electrically connected with the electronic unit, and the electrical connection part positioned on each of the temples is used for being matched with the electrical connection part positioned on the corresponding end of the glasses frame;

When the glasses leg nose support assembly is fixed with the glasses frame, the electric connection part positioned on the glasses leg is electrically connected with the electric connection part positioned on the corresponding end part of the glasses frame, so that the electronic unit integrated on the glasses leg is electrically connected with the electronic unit integrated on the glasses frame; when the glasses leg nose support assembly is detached from the glasses frame, the electric connection part positioned on the glasses leg is electrically disconnected from the electric connection part positioned on the corresponding end part of the glasses frame, so that the electronic unit integrated on the glasses leg is electrically disconnected from the electronic unit integrated on the glasses frame.

The embodiment of the application also provides a mirror frame, wherein the mirror frame is provided with a clamping module, the clamping module comprises two clamping parts, and the two clamping parts are axially symmetrically arranged at two end parts of the mirror frame respectively and are correspondingly arranged with the clamped parts at one end parts of two mirror legs in the mirror leg nose support assembly;

each clamping part moves from bottom to top in the width direction of the glasses frame through the corresponding clamped part to be clamped with the clamped part, so that the glasses frame is fixed with the glasses leg nose support assembly;

under the external force action of outside in the width direction of picture frame is received respectively at two mirror legs, can be with joint portion and the quilt joint portion release joint that corresponds to make picture frame and mirror leg nose hold in the palm the assembly dismantlement separation.

In some embodiments, each clamping part is a cylindrical body extending along the thickness direction of the mirror frame, a chamfer is formed between the lower side surface and the outer side surface of the clamping part, and a tangential surface formed by the chamfer is a guide surface;

the clamped parts are pushed from bottom to top in the width direction of the glasses frame, and the lower side surfaces of the clamped parts are clamped with the upper side surfaces of the clamping parts after the clamped parts pass through the clamping parts through sliding extrusion of the guide surfaces of the clamped parts and the guide surfaces of the corresponding clamping parts.

In some embodiments, the end surfaces of the respective ends of the lens frame are formed with first notches at positions near the lower side in the width direction of the lens frame and near the rear side in the thickness direction of the lens frame, the first notches being for accommodating one end portions of the corresponding lens legs;

each clamping part is located at the bottom surface of the corresponding first notch in the length direction of the glasses frame, two second notches are formed in the bottom surface of the first notch and located above and below the clamping part respectively, and when the glasses leg nose support assembly is installed with the glasses frame, the two second notches are used for accommodating at least part of the clamped part before and after the clamped part is clamped with the clamping part.

In some embodiments, the lower portion of the frame is provided with a magnetic member that is configured to attract the magnetic member of the upper portion of the connection in the temple nose cup assembly such that the temple nose cup assembly is subjected to an upward magnetic force.

In some embodiments, the frame is integrated with an electronic unit; each end part of the glasses frame is provided with an electric connection part, the electric connection parts are electrically connected with the electronic unit, and the electric connection parts positioned at each end part of the glasses frame are respectively matched with the electric connection parts positioned at the two glasses legs;

when the glasses frame is fixed with the glasses leg nose support assembly, the electric connection parts at the two end parts of the glasses frame are respectively and electrically connected with the electric connection parts at the two glasses legs, so that the electronic unit integrated in the glasses frame is electrically connected with the electronic unit integrated in each glasses leg; when the glasses frame and the glasses leg nose support assembly are detached and separated, the electric connection parts at the two end parts of the glasses frame are respectively electrically disconnected with the electric connection parts at the two glasses legs, so that the electronic unit integrated in the glasses frame is disconnected with the electronic unit electric signals integrated in each glasses leg.

The embodiment of the application also provides a lens frame assembly, which comprises a lens frame and lenses, wherein the lenses are fixed on the lens frame, and the lens frame is provided by any one of the embodiments or possible embodiments.

The embodiment of the application also provides a glasses frame, which comprises a glasses leg nose support assembly and a glasses frame, wherein the glasses leg nose support assembly is provided by any one of the embodiments or the possible embodiments, and the glasses frame is provided by any one of the embodiments or the possible embodiments.

Drawings

Fig. 1 is a schematic perspective view of a smart glasses according to an embodiment of the present application;

fig. 2a is an exploded view of the smart glasses according to the embodiment of the present application;

fig. 2b is a schematic structural diagram of a frame assembly of the smart glasses and three different-sized temple nose pad assemblies according to an embodiment of the present application;

fig. 3 is a schematic perspective view of a frame assembly in the smart glasses according to an embodiment of the present application;

FIG. 4 is a schematic perspective view of a frame assembly of the smart glasses according to an embodiment of the present disclosure;

fig. 5 is a schematic perspective view of a temple nose support assembly in the smart glasses according to the embodiment of the present application;

fig. 6 is a schematic perspective view of a glasses frame in the smart glasses according to the embodiment of the present application;

fig. 7 is a schematic top view of a smart glasses according to an embodiment of the present application;

FIG. 8 is a schematic cross-sectional view taken along line A-A of FIG. 7;

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

FIG. 10 is an enlarged schematic view of the portion C in FIG. 3;

FIG. 11 is an enlarged schematic view of the portion D of FIG. 4;

fig. 12 is an enlarged schematic view of the portion E in fig. 5.

Reference numerals illustrate:

100: an intelligent glasses;

200: a frame assembly;

300: a frame; 301: a lower part; 302: an end portion; 303: an end face; 304: an upper side; 305: a lower side surface; 306: a front side; 307: a rear side; 320: a clamping module; 330: a clamping part; 331: an upper side; 332: a lower side surface; 333: an outer side surface; 334: a guide surface; 340: a first magnetic member; 350: a first notch; 351: a front side; 352: a bottom surface; 360: a second notch; 361: a front side; 362: a rear side; 370: a receiving groove; 371: a front side; 372: a rear side; 373: a bottom surface; 380: an arc-shaped notch; 390: a groove;

400: a lens;

500: a temple nose support assembly; 510: a nose pad; 520: a connection part; 521: a cross beam; 522: a groove; 523: an upper side; 524: a front side; 525: a rear side; 530: a temple; 531: an end portion; 532: the other end part; 533: an inner side surface; 534: an outer side surface; 535: an end face; 540: the clamped module; 550: a clamped part; 551: an upper side; 552: a lower side surface; 553: an outer side surface; 554: a guide surface; 555: a front end; 556: a rear end; 560: a second magnetic member;

600: a frame;

700: an electrical connection device; 710: a first electrical connection; 720: a first sub-electrical connection; 730: a second electrical connection; 740: a second sub-electrical connection;

800: a display module;

900: an audio device;

l: the length direction of the mirror frame;

w: the width direction of the glasses frame;

h: the thickness direction of the mirror frame;

o1: a center line.

Detailed Description

Further advantages and effects of the present application will be readily apparent to those skilled in the art from the present disclosure, by describing embodiments of the present application with specific examples. While the description of the present application will be presented in conjunction with some embodiments, it is not intended that the features of this application be limited to only this embodiment. Rather, the purpose of the description presented in connection with the embodiments is to cover other alternatives or modifications, which may be extended by the claims based on the present application. The following description contains many specific details in order to provide a thorough understanding of the present application. The present application may be practiced without these specific details. Furthermore, some specific details are omitted from the description in order to avoid obscuring the focus of the application. It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other.

It should be noted that in this specification, like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present application, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description of the present application and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like, 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 should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1 to 2a, fig. 1 is a schematic perspective view of a smart glasses 100 according to an embodiment of the disclosure. Fig. 2a is an exploded view of the smart glasses 100 according to the embodiment of the present application. When the smart glasses 100 are worn on the head of a user, the user can see an image presented by the display module 800 of the smart glasses 100 (wherein the lenses 400 form a part of the display module 800). In this embodiment, the smart glasses 100 are augmented reality smart glasses (AR smart glasses), and can display a virtual image for a user while the user views a real world scene, and the user can interact with the virtual image to achieve an augmented reality effect.

It will be appreciated by those skilled in the art that the embodiment of the present application is described using smart glasses as an example of augmented Reality smart glasses, but some implementations of the embodiment of the present application are not limited to augmented Reality smart glasses, but may be other smart glasses, such as Virtual Reality smart glasses (VR smart glasses) that implement Virtual Reality (VR) effects or smart glasses that implement Mixed Reality (MR) effects, for example, smart glasses without display functions (e.g., smart glasses with audio only functions, etc.).

Referring to fig. 1-2 a, an embodiment of the present application provides a pair of smart glasses 100, wherein the smart glasses 100 includes a frame assembly 200 and a temple nose pad assembly 500.

Referring to fig. 3 to 4, fig. 3 is a schematic perspective view of a mirror frame assembly 200 according to an embodiment of the present application. Fig. 4 shows a schematic perspective view of a frame 300 of a frame assembly according to an embodiment of the present application. As shown in fig. 3 to 4, the frame assembly 200 includes a frame 300 and lenses 400, and the lenses 400 are fixed to the frame 300. Specifically, the lens 400 is fixed to the lower portion 301 of the lens frame 300 in the width direction W of the lens frame, and protrudes from the lower side 305 of the lower portion 301 of the lens frame 300.

In the present embodiment, the frame assembly 200 has two lenses 400, and the two lenses 400 are disposed at intervals along the longitudinal direction L of the frame. When the smart glasses 100 are worn on the head of the user, the two lenses 400 are disposed corresponding to the left and right eyes of the user, respectively. Of course, those skilled in the art will appreciate that in alternative embodiments, the frame assembly 200 may have only one lens, and the scope of the present application is not limited thereto.

Of course, it will be understood by those skilled in the art that when the smart glasses 100 are smart glasses without display function, the smart glasses may not have a display module, i.e. no lens is required, and the frame assembly 200 may not include lenses.

The lens frame 300 has two end surfaces 303 facing each other in the longitudinal direction L of the lens frame, an upper side surface 304 and a lower side surface 305 facing each other in the width direction W of the lens frame, and a front side surface 306 and a rear side surface 307 facing each other in the thickness direction H of the lens frame.

In the present embodiment, when the smart glasses 100 are worn on the head of the user, the left-right direction of the glasses frame 300 is the longitudinal direction L of the glasses frame, the up-down direction of the glasses frame 300 is the width direction W of the glasses frame, and the front-back direction of the glasses frame 300 is the thickness direction H of the glasses frame.

Referring to fig. 5, fig. 5 is a schematic perspective view of a temple nose pad assembly 500 according to an embodiment of the present application. As shown in fig. 5, the temple nose cup assembly 500 includes two temples 530, a nose cup 510, and a connecting portion 520. The connecting portion 520 connects the nose pad 510 to the two temples 530, such that the nose pad 510, the connecting portion 520 and the two temples 530 are relatively fixed or integrated. As will be appreciated in connection with fig. 1, the temple nose cup assembly 500 is fixedly and removably attached to the frame 300. In this embodiment, the temple nose cup assembly 500 is a unitary structure.

In this application, connecting portion 520 will hold in the palm 510 in nose and hold in the palm 510 in two glasses legs 530 for nose holds in the palm 510, connecting portion 520 and two glasses legs 530 are fixed relatively or as an organic wholely, hold in the palm the assembly 500 with the glasses frame 300 is whole to be fixed and can dismantle the connection, can realize that the glasses leg holds in the palm the holistic change of assembly 500, thereby can synchronous regulation and wholly change glasses leg 530 and nose and hold in the palm 510, can realize that glasses leg 530 and nose hold in the palm 510 and replace in step. Through with the modular design of mirror leg nose pad assembly 500, the design has not unidimensional mirror leg nose pad assembly 500 (including not unidimensional nose pad 510 and/or not unidimensional mirror leg 530), the user can be according to own bridge of the nose size and head form, the collocation of mirror leg nose pad assembly 500 and picture frame 300 of different sizes is selected to the head size, can realize each arbitrary equipment between mirror leg nose pad assembly 500 and the picture frame 300, with this equipment goes out the intelligent glasses of different sizes, so not only can be compatible with the demand of the wearing travelling comfort of different bridge of the nose size users, can also be compatible with the demand of the wearing travelling comfort of different head forms and head surrounding users, thereby applicable more wearing crowd, and then the application scope of intelligent glasses has been improved with low costs.

In addition, because the whole glasses leg nose pad assembly 500 is detachable from the glasses frame 300, the replacement operation is convenient and quick, the use is convenient for users, and the user experience effect is improved. The glasses leg nose pad assembly 500 is convenient to replace independently when damaged, and the whole intelligent glasses do not need to be replaced, so that the maintenance cost of the intelligent glasses is reduced.

When the user wears the smart glasses 100, the nose pad 510 is engaged with the nose bridge of the user, the glasses legs 530 are worn on the ears of the user, and the glasses leg nose pad assembly 500 is supported by the nose bridge and the ears of the user, so that the whole smart glasses are supported.

Specifically, as shown in fig. 2b, the temple nose support assembly 500 can be designed into three kinds of integrated sizes, namely, small, medium and large, so that the sizes of the head dies P5, P50 and P95 are respectively met, all head users can be basically compatible, namely, all user groups are basically covered, only one temple nose support assembly 500 suitable for the user is required to be selected when the user wears the glasses nose support assembly, the glasses nose support assembly 500 is assembled on the glasses frame assembly 200, and when other head users use the glasses nose support assembly 500 only needs to be detached and replaced, so that the operation is convenient, and the user experience is improved.

It should be noted that, P5, P50, and P95 represent three percentiles most commonly used in design, and the ergonomic percentiles refer to anthropometric data often using the percent Pk as a location index, a boundary value. One percentile divides all measurements of a population or sample into two parts, with K% of the measurements being equal to and less than it and (100-K)% of the measurements being greater than it. Wherein, the 5 th percentile (i.e., P5) represents a "small" head form, meaning that 5% of the population's head forms are smaller than this value, while 95% of the population's head forms are larger than this value. The 50 th percentile (i.e., P50) represents a "middle" head form, meaning that 50% of the population's head forms are all smaller than this value, and also that 50% of the population's head forms are larger than this value. The 95 th percentile (i.e., P95) represents a "large" head form, meaning that 95% of the population's head forms are less than this value, while only 5% of the population's head forms are greater than this value.

Referring to fig. 5, the connecting portion 520 includes two beams 521, one ends of the two beams 521 are respectively connected to one ends 531 of the two temples 530, and the other ends of the two beams 521 are respectively connected to two sides of the nose pad 510. Specifically, one end of the left beam 521 is connected to the inner side 533 of one end 531 of the left temple 530, and the other end of the left beam 521 is connected to the left of the nose pad 510; one end of the right beam 521 is connected to the inner side 533 of one end 531 of the right temple 530, and the other end of the right beam 521 is connected to the right side of the nose pad 510.

Further, as will be understood in conjunction with fig. 4, the lower portion 301 of the frame 300 is provided with an arcuate notch 380 at a location intermediate the length direction L of the frame, and at least a portion of the nose pad 510 is received in the arcuate notch 380.

Still further, the two temples 530 are of symmetrical design and construction. And substantially the same weight and weight distribution is used to maximize comfort.

In addition, the nose pad 510 is coated with soft rubber (not shown) at a position for contacting the bridge of the nose, and the other end 532 of the temple 530 is also coated with soft rubber (not shown) at a position for contacting the ear, so as to improve contact comfort.

To further reduce the overall weight of the smart glasses of the present application, the temple 530, nose pad 510, connecting portion 520 and frame 300 are typically made of lightweight materials, such as composite materials, lightweight alloys, carbon fiber composite materials, and the like.

Referring to fig. 6, fig. 6 is a schematic perspective view of a glasses frame 600 in the smart glasses according to an embodiment of the disclosure. As shown in fig. 6, the frame 600 includes a temple bridge assembly 500 and a frame 300.

Referring to fig. 7 to 9, fig. 7 is a schematic top view of the smart glasses 100 according to the embodiment of the present application. Fig. 8 is a schematic cross-sectional view along A-A in fig. 7, which shows the structure of the engaging module 320 of the lens frame 300 engaged with the engaged module 540 of the temple nose pad assembly 500, and the structure of the first magnetic member 340 of the lens frame 300 engaged with the second magnetic member 560 of the temple nose pad assembly 500. Fig. 9 is an enlarged schematic view of the portion B in fig. 8, which mainly illustrates a structure in which the engaging portion 330 located at the one end 302 of the lens frame 300 (i.e., the left end of the lens frame 300) is engaged with the corresponding engaged portion 550 of the temple nose pad assembly 500.

Referring to fig. 10 to 12, fig. 10 is an enlarged schematic view of a portion C in fig. 3, mainly illustrating a structure of one end 302 of the lens frame 300 (i.e. a left end of the lens frame 300), and a structure that a first electrical connection portion 710 located at the one end 302 of the lens frame 300 is matched with a second electrical connection portion 730 on a corresponding lens leg 530. Fig. 11 is an enlarged schematic view of the portion D in fig. 4, mainly illustrating the structure of one end 302 of the lens frame 300 (i.e., the left end of the lens frame 300). Fig. 12 is an enlarged schematic view of the portion E in fig. 5, mainly showing the structure of one end 531 of the temple 530 located on the left side, which end of the temple 530 is engaged with the lens frame 300.

Referring to fig. 8, the lens frame 300 is provided with a clamping module 320, and a clamped module 540 is disposed at a position of the temple nose support assembly 500 corresponding to the clamping module 320, and the temple nose support assembly 500 is fixed to the lens frame 300 by the clamping module 320 being clamped with the clamped module 540. When can guarantee to wear stability like this, convenient to detach, user operation is convenient, promotes user experience effect.

Further, under the action of external force applied to the outer sides of the two glasses legs 530 in the width direction W of the glasses frame, the nose pads 510 are stretched and deformed to release the clamping of the clamping module 320 and the clamped module 540, so that the glasses leg nose pad assembly 500 is detached from the glasses frame 300. This facilitates removal of the temple nose cup assembly 500 from the frame 300.

Further, the clamping module 320 includes two clamping portions 330, and the two clamping portions 330 are disposed at two ends 302 of the frame 300 in an axisymmetric manner. That is, the engaging portion 330 provided at the left end 302 of the lens frame 300 and the engaging portion 330 provided at the right end 302 of the lens frame 300 are disposed symmetrically with respect to the center line O1 of the lens frame 300, wherein the center line O1 is perpendicular to the longitudinal direction L of the lens frame and the thickness direction H of the lens frame, and is parallel to the width direction W of the lens frame.

The clamped module 540 comprises two clamped parts 550, wherein the two clamped parts 550 are axially symmetrically arranged at one end 531 of the two glasses legs 530 for being matched with the two end 302 of the glasses frame 300 respectively, and are correspondingly arranged with the two clamped parts 330. Each clamped portion 550 is clamped with the corresponding clamped portion 330 by moving from bottom to top in the width direction W of the lens frame, so that the temple nose pad assembly 500 is fixed with the lens frame 300.

Referring to fig. 9 to 12, each of the engaging portions 330 has an upper side 331 and a lower side 332 disposed opposite to each other, and an outer side 333 and a guide surface 334 connected in order, wherein an upper edge of the outer side 333 is connected to an outer edge of the upper side 331, and the guide surface 334 extends from the outer edge of the lower side 332 to a lower edge of the outer side 333 obliquely upward. Each engaged portion 550 has an upper side 551 and a lower side 552 which are disposed opposite to each other, and an outer side 553 and a guide surface 554 which are sequentially connected to each other, wherein the lower edge of the outer side 553 is connected to the outer edge of the lower side 552, and the guide surface 554 extends outward and obliquely downward from the outer edge of the upper side 551 to the upper edge of the outer side 553. The lower side 552 of each clamped portion 550 is clamped to the upper side 331 of the corresponding clamped portion 330, and the guide surface 554 of each clamped portion 550 is configured to mate with the guide surface 334 of the corresponding clamped portion 330.

Each of the engaging portions 330 is a columnar body extending in the thickness direction H of the frame, and a chamfer is formed between the lower surface 332 and the outer surface 333 of the engaging portion 330, and the chamfer is a guide surface 334 of the engaging portion 330. Each clamped portion 550 is a cylindrical body extending along the thickness direction H of the frame, and a chamfer is formed between the upper side 551 and the outer side 553 of the clamped portion 550, and the chamfer is a guide surface 554 of the clamped portion 550.

The clamped portions 550 are pushed from bottom to top in the width direction W of the frame, and the guide surfaces 554 of the clamped portions 550 slide and squeeze the guide surfaces 334 of the corresponding clamping portions 330, so that the lower side surfaces 552 of the clamped portions 550 are clamped with the upper side surfaces 331 of the clamping portions 330 after the clamped portions 550 pass over the clamping portions 330. The temple nose support assembly 500 is conveniently installed to the glasses frame 300 in a manner of moving from bottom to top in the width direction W of the glasses frame, and the operation is convenient.

The end surface 303 of each end 302 of the lens frame 300 has a first notch 350 formed at a position below in the width direction W of the lens frame and behind in the thickness direction H of the lens frame, and the first notch 350 accommodates one end 531 of the corresponding temple 530. This enables the temple nose pad assembly 500 to be more stably attached to the frame 300 in the width direction W of the frame from bottom to top.

The first notch 350 has a front side 351 in the thickness direction H of the frame and a bottom 352 in the longitudinal direction L of the frame. That is, the front side 351 of the first notch 350 is perpendicular to the thickness direction H of the frame, and the bottom 352 of the first notch 350 is perpendicular to the length direction L of the frame.

Further, an end surface 535 of one end 531 of each temple 530 contacts the front side 351 of the corresponding first notch 350. The outer side 534 of one end 531 of each temple 530 is located inside the end face 303 of the corresponding end 302 of the frame 300 or aligned with the end face 303 of the corresponding end 302 of the frame 300 in the length direction L of the frame. In this way, the end 531 of each temple 530 is prevented from exposing the end surface 303 of the corresponding end 302 of the frame 300 in the length direction L of the frame, so that the end 531 of each temple 530 is better hidden, and the smart glasses are more attractive and compact in structure.

In addition, each clamping portion 330 is located at the bottom 352 corresponding to the first notch 350, and two second notches 360 located above and below the clamping portion 330 are formed at the bottom 352 of the first notch 350. When the temple nose support assembly 500 is mounted to the frame 300, the two second notches 360 are respectively configured to receive at least a portion of the clamped portion 550 before and after the clamped portion 550 is clamped to the clamping portion 330.

The second notch 360 located below the locking portion 330 is an opening at the lower end of the frame in the width direction W, and the opening is used for the locked portion 550 on the corresponding temple 530 to enter and exit the second notch 360.

Further, when the clamped portion 550 is clamped with the clamping portion 330, the front end 555 of the clamped portion 550 in the thickness direction H of the frame abuts against the front side 361 of the second notch 360 located above the clamping portion 330, and the rear end 556 of the clamped portion 550 in the thickness direction H of the frame abuts against the rear side 362 of the second notch 360 located above the clamping portion 330, so as to limit the front-rear movement of the temple nose pad assembly 500 in the thickness direction H of the frame relative to the frame 300.

Referring to fig. 8 to 9, the lower portion 301 of the frame 300 is provided with a first magnetic member 340, and the upper portion of the connection portion 520 of the temple nose pad assembly 500 is provided with a second magnetic member 560. The first magnetic member 340 is configured to attract the second magnetic member 560 such that the temple nose cup assembly 500 is subjected to an upward magnetic force. This can make the temple nose pad assembly 500 more secure with the frame 300 and also facilitate the removal of the temple nose pad assembly 500 from the frame 300.

In the present embodiment, the second magnetic members 560 are provided on the upper portions of the cross members 521 of the connection portion 520, and the first magnetic members 340 that engage with the second magnetic members 560 are provided on the lower portions 301 of the frame 300 at positions corresponding to the cross members 521. Thus, the glasses leg nose pad assembly 500 is more reliably fixed with the glasses frame 300, and the wearing stability of the intelligent glasses is ensured.

Further, the first magnetic member 340 and the second magnetic member 560 are permanent magnets. The permanent magnet has a simple structure, the permanent magnet can keep magnetism for a long time, one-time input is realized, and the maintenance cost generated in the later period is low. Of course, those skilled in the art will appreciate that in alternative embodiments, the first magnetic member 340 and the second magnetic member 560 may be electromagnets, which are not intended to limit the scope of the present application.

Referring to fig. 4 and 11, the lower side 305 of the lower portion 301 of the lens frame 300 is provided with a receiving groove 370 at a position near the rear in the thickness direction H of the lens frame, and the receiving groove 370 is recessed toward the inside of the lens frame 300 in the width direction W of the lens frame. And the receiving groove 370 is formed with a groove 390 at a bottom surface 373 of the frame in the width direction W, and the first magnetic member 340 is fitted into the groove 390 of the frame 300.

Referring to fig. 12, a groove 522 is formed at an upper portion of the connection portion 520 of the temple nose pad assembly 500, and the second magnetic member 560 is embedded in the groove 522 of the connection portion 520. In the present embodiment, the upper portion of each beam 521 of the connection portion 520 is provided with a groove 522, and the groove 522 is recessed inward from the upper side 523 of the beam 521.

Wherein, referring to fig. 4 and 8, the connection portion 520 of the temple nose pad assembly 500 is positioned within the receiving slot 370 (see fig. 11). In the present embodiment, the lower portion 301 of the frame 300 is provided with two receiving grooves 370, and the two receiving grooves 370 are located on both sides of the arc-shaped notch 380 for receiving the nose pad 510 in the longitudinal direction L of the frame. The two receiving grooves 370 are provided corresponding to the two beams 521 of the connection part 520, and each beam 521 is received in the corresponding receiving groove 370 to hide the beam 521.

The connecting portion 520 of the glasses leg nose pad assembly 500 is located in the containing groove 370, the connecting portion 520 of the glasses leg nose pad assembly 500 can be hidden in the glasses frame 300, the connecting portion 520 can be prevented from shielding the lens 400, accordingly, the corresponding area of the left eye and the right eye of a user is free of obstacles, the integrity of images entering the eyes of the user is improved, the appearance effect of the intelligent glasses can be better met, and the structure is more compact.

Meanwhile, the first magnetic component 340 is embedded in the groove 390 of the glasses frame 300, the second magnetic component 560 is embedded in the groove 522 of the connecting portion 520, so that the first magnetic component 340 can be more reliably fixed on the glasses frame 300, the second magnetic component 560 can be more reliably fixed on the connecting portion 520 of the glasses leg nose pad assembly 500, and the whole structure of the intelligent glasses is more compact.

Further, referring to fig. 11, the receiving groove 370 is connected and communicated with the corresponding second notch 360 located below the clamping portion 330.

Further, as will be understood in conjunction with fig. 12, the receiving groove 370 further has a front side 371 and a rear side 372 disposed opposite to each other in the thickness direction H of the frame. The front side surface 524 of the connection part 520 is abutted against the front side surface 371 of the accommodating groove 370, and the rear side surface 525 of the connection part 520 is abutted against the rear side surface 372 of the accommodating groove 370, so as to limit the fore-and-aft movement of the temple nose pad assembly 500 relative to the frame 300 in the thickness direction H of the frame.

As will be appreciated with reference to fig. 3 and 10-12, the frame 300 is provided with a first sheet member (not shown). Each temple 530 is provided with a second electronic unit (not shown in the drawings), wherein the structural compositions of the second electronic units respectively located on the two temples 530 may be the same or different, and the protection scope of the present application is not limited herein.

An electrical connection device 700 is provided at one end 531 of each temple 530 and the corresponding end 302 of the frame 300. The electrical connection device 700 includes a first electrical connection portion 710 and a second electrical connection portion 730 disposed correspondingly, where the first electrical connection portion 710 is disposed at the corresponding end 302 of the frame 300 and is electrically connected to the first electronic unit. The second electrical connection portion 730 is disposed at one end 531 of the corresponding temple 530 and is electrically connected to the second electronic unit.

When the temple nose pad assembly 500 is secured to the frame 300, the first electrical connection 710 is electrically connected to the corresponding second electrical connection 730. When the temple nose pad assembly 500 is detached from the frame 300, the first electrical connection 710 is electrically disconnected from the corresponding second electrical connection 730.

In this application, when the temple nose pad assembly 500 is fixed to the lens frame 300, the first electrical connection portion 710 is electrically connected to the corresponding second electrical connection portion 730, so that electrical signal conduction between the first electronic unit located in the lens frame 300 and the second electronic unit located in the temple 530 is achieved, and thus, transmission of a power signal and/or a low frequency signal is achieved. When the temple nose pad assembly 500 is detached from the lens frame 300, the first electrical connection 710 is electrically disconnected from the corresponding second electrical connection 730, so that the electrical signal between the first electronic unit located in the lens frame 300 and the second electronic unit located in the temple 530 is disconnected. Thus, the replaceable design of the glasses leg nose pad assembly 500 and the glasses frame 300 can be realized, and only the electric connection device 700 of the connection part is shared with signals of the glasses legs 530 and the internal wiring of the glasses frame 300, so that the signals are consistent.

In the present embodiment, the first electrical connection portion 710 is not part of the first electronic unit, and the second electrical connection portion 730 is not part of the second electronic unit.

In addition, each of the temples 530 is integrated with a battery module (not shown in the drawing), which constitutes a part of the corresponding second electronic unit. When the temple nose cup assembly 500 is secured to the frame 300, the battery module is capable of powering the electronics unit within the frame 300, as well as powering other components of the electronics unit within the temple 530. Of course, it will be appreciated by those skilled in the art that the battery module may be provided in only one of the temples 530.

Can arrange the battery module in the earpick fulcrum when the shank 530 middle-end is close to wearing for the weight distribution of whole intelligent glasses is more balanced, is favorable to reducing the intelligent glasses front end weight and passes through the nose and hold in the palm 510 and apply the pressure to the bridge of the nose, lightens the sense of oppression, increases the travelling comfort of wearing especially for a long time. In this embodiment, the battery module is symmetrically disposed on the two temples 530.

It will be appreciated by those skilled in the art that in alternative embodiments, the battery module may be integrated into the frame 300, where the battery module forms part of the first electronic unit.

In addition, the first electrical connection portion 710 is located on the front side 351 of the corresponding first notch 350 in the thickness direction H of the frame, and the second electrical connection portion 730 is located on the end surface 535 of the one end 531 of the corresponding temple 530.

Further, the first electrical connection portion 710 includes at least one first sub-electrical connection portion 720, the second electrical connection portion 730 includes at least one second sub-electrical connection portion 740, and the first sub-electrical connection portion 720 is disposed corresponding to the second sub-electrical connection portion 740. When the temple nose pad assembly 500 is secured to the frame 300, the first electrical sub-connection 720 is resiliently electrically connected to the corresponding second electrical sub-connection 740, while providing a resilient force to the temple 530.

When the first electrical connection portion 710 and the corresponding second electrical connection portion 730 have a certain floating displacement when being pressed along the axial direction thereof, the generated pressing force can be eliminated, the hard damage of the first sub-electrical connection portion 720 and the corresponding second sub-electrical connection portion 740 is avoided, and the stability of the electrical contact between the first sub-electrical connection portion 720 and the corresponding second sub-electrical connection portion 740 can be ensured.

Still further, the first electrical connection portion 710 includes a plurality of first sub-electrical connection portions 720, the second electrical connection portion 730 includes a plurality of second sub-electrical connection portions 740, the plurality of first sub-electrical connection portions 720 are disposed at intervals along a direction parallel to the width direction W of the frame, and the plurality of second sub-electrical connection portions 740 are also disposed at intervals along a direction parallel to the width direction W of the frame. It will be understood by those skilled in the art that, in alternative embodiments, the plurality of first sub-electrical connection portions 720 may be disposed at intervals along other directions, and the plurality of second sub-electrical connection portions 740 may be disposed at intervals along other directions, so long as the arrangement direction of the plurality of first sub-electrical connection portions 720 and the arrangement direction of the plurality of second sub-electrical connection portions 740 are substantially the same.

In the present embodiment, the first electrical connection portion 710 includes two first sub-electrical connection portions 720, and the second electrical connection portion 730 includes two second sub-electrical connection portions 740. Of course, it will be understood by those skilled in the art that in alternative embodiments, the first electrical connection portion 710 may include 3 or more first sub-electrical connection portions 720, not limited to two, and the second electrical connection portion 730 may include 3 or more second sub-electrical connection portions 740, not limited to two.

In the present embodiment, the first sub-electrical connection 720 is an inelastic electrical connection, and the second sub-electrical connection 740 is an elastic electrical connection. The inelastic electrical connection part is an inelastic electrical connection terminal or a conductive sheet. The elastic electric connection part is an elastic electric connection terminal (such as a spring type probe) or a conductive spring piece. Of course, it will be understood by those skilled in the art that, in alternative other embodiments, the first electrical sub-connection portion 720 and the second electrical sub-connection portion 740 may also adopt other suitable mating structures, and only one of the first electrical sub-connection portion 720 and the corresponding second electrical sub-connection portion 740 is required to be an elastic electrical connection portion, and the other is required to be an elastic electrical connection portion or a non-elastic electrical connection portion, which does not limit the protection scope of the present application.

In the present embodiment, when the temple nose pad assembly 500 is fixed to the lens frame 300, one end of the first sub-electrical connection portion 720 for electrically connecting to the corresponding second sub-electrical connection portion 740 protrudes from the front side 351 of the first notch 350 of the end 302 of the lens frame 300, and one end of the second sub-electrical connection portion 740 for electrically connecting to the corresponding first sub-electrical connection portion 720 is concavely provided on the end surface 535 of the one end 531 of the temple 530. Of course, it will be understood by those skilled in the art that, in alternative other embodiments, one end of the first electrical sub-connection portion 720 for electrically connecting with the corresponding second electrical sub-connection portion 740 may also be concavely disposed on the front side 351 of the first notch 350 of the end 302 of the frame 300, and one end of the second electrical sub-connection portion 740 for electrically connecting with the corresponding first electrical sub-connection portion 720 protrudes from the end surface 535 of the end 531 of the temple 530.

In the present embodiment, a frame wire (not shown in the drawing) is disposed in the frame 300, and the first electronic unit is electrically connected to the frame wire. When the temple nose pad assembly 500 is fixed to the lens frame 300, the second electronic units located in each temple 530 are electrically connected to the first electronic units located in the lens frame 300 through the corresponding electrical connection device 700 and the lens frame wiring, and the second electronic units located in the two temple 530 are electrically connected to each other through the two electrical connection devices 700 and the lens frame wiring. The signal conduction between the second electronic units of the two temples 530 respectively located at the left and right can increase the stacking possibility and the cruising ability of the smart glasses (mainly for the case that the second electronic units located at the two temples 530 each include a battery module).

Further, a temple wire (not shown) is disposed in each temple 530, the second electronic unit is electrically connected to the temple wire, the second electrical connection portion 730 of the electrical connection device 700 is electrically connected to one end of the corresponding temple wire, and the first electrical connection portion 710 of the electrical connection device 700 is electrically connected to one end of the frame wire. The glasses frame wiring and the glasses leg wiring can be in the form of cables or flexible circuit boards.

In the present embodiment, a large part of the first electronic unit is integrated in the lens frame 300, and a small part is integrated in the lens frame 300. It will be appreciated by those skilled in the art that in alternative embodiments, the first electronic unit may be integrated with the frame 300, or the first electronic unit may be integrated with the frame 300, which is not intended to limit the scope of the present application.

In this embodiment, the second electronic unit is integrally formed within the corresponding temple 530. Those skilled in the art will appreciate that in alternative embodiments, the second electronic unit may be integral to the respective temple 530, or that a portion of the second electronic unit may be integral to the respective temple 530 and another portion may be integral to the respective temple 530.

In this embodiment, the structural composition, arrangement, electrical connection, etc. of the first electronic unit and the second electronic unit may adopt the arrangement of the electronic units in the existing smart glasses in the prior art, and will not be described herein in detail.

In this embodiment, the smart glasses include a display module 800 (see fig. 3), and the display module 800 includes two lenses 400 and an optical unit (not shown). The optical unit is integrated in the frame 300 at a position corresponding to the lens 400, and constitutes a part of the first electronic unit. The display module 800 is used for displaying a picture or video shot by the camera device or displaying video information stored in the smart glasses. Those skilled in the art will appreciate that the structure and the arrangement position of the display module 800 may be any structure known in the art, and will not be described in detail herein.

Further, the smart glasses further have an audio device 900 (see fig. 3), and the audio device 900 is disposed in the frame 300 and forms a part of the first electronic unit. The audio device 900 employs speakers. The audio device 900 may play the audio information stored in the smart glasses separately, and the smart glasses may also be connected to other electronic devices, such as a mobile phone, through a wired or wireless manner, so that the audio device 900 of the smart glasses may play the audio information in other electronic devices (such as a mobile phone).

The communication circuit between the display unit and the audio device 900 is a circuit known in the prior art, and will not be described herein in detail.

To sum up, in this application, through with mirror leg 530, nose holds in the palm 510 and adopts the integration design to form mirror leg nose to hold in the palm assembly 500, and mirror leg nose holds in the palm assembly 500 and picture frame 300 are fixed and can dismantle the connection, can realize that mirror leg 530 and nose hold in the palm 510's synchronous replacement, applicable more wearing crowd promotes user experience effect, wherein, through designing mirror leg nose that "little", "well", "big" three kind of different specification sizes holds in the palm assembly 500, can be compatible basically all different nose bridge, head form and head enclose crowd, promote the user and wear the travelling comfort. Meanwhile, the glasses leg nose support assembly 500 and the glasses frame of the glasses frame assembly 200 are fixed in a combined mode through the buckles and the magnets, so that convenience in disassembly is realized when wearing stability is guaranteed, operation is convenient for a user, and user experience effect is improved.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present application without departing from the spirit or scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims and the equivalents thereof, the present application is intended to cover such modifications and variations.

Claims (27)

1. An intelligent glasses, includes the picture frame assembly, the picture frame assembly includes the picture frame, its characterized in that, intelligent glasses still includes:

the glasses leg nose support assembly comprises two glasses legs, a nose support and a connecting part, wherein the nose support is connected to the two glasses legs by the connecting part, so that the nose support, the connecting part and the two glasses legs are relatively fixed or integrated, and the glasses leg nose support assembly is fixed and detachably connected to the glasses frame; the connecting part comprises two cross beams, one ends of the two cross beams are respectively connected with one end parts of the two glasses legs, and the other ends of the two cross beams are respectively connected with two sides of the nose pad;

the mirror frame is provided with a clamping module, the clamping module comprises two clamping parts, and the two clamping parts are respectively arranged at two end parts of the mirror frame; the glasses leg nose support assembly comprises a glasses leg nose support assembly, a clamping module and a lens frame, wherein the clamping module is arranged at a position, corresponding to the clamping module, of the glasses leg nose support assembly, and comprises two clamped parts which are respectively arranged at one end part of the two glasses legs, which is used for being matched with two end parts of the lens frame, and are correspondingly arranged with the two clamped parts;

Each clamped part is clamped with the corresponding clamping part, so that the glasses leg nose support assembly is fixed with the glasses frame;

under the action of external force to the outside, the two glasses legs are stretched and deformed through the nose pads, the clamping modules are released from clamping with the clamped modules, and the glasses leg nose pad assembly is detached and separated from the glasses frame.

2. The pair of smart glasses according to claim 1, wherein two of the engaging portions are axially symmetrically disposed at both ends of the glasses frame, and two of the engaged portions are axially symmetrically disposed at one end of the two glasses legs for engaging with both ends of the glasses frame, respectively, and each of the engaged portions is engaged with the corresponding engaging portion by moving from bottom to top in a width direction of the glasses frame.

3. The pair of smart glasses according to claim 2, wherein each of the engaging portions is a cylindrical body extending in a thickness direction of the frame, and a chamfer is formed between a lower side surface and an outer side surface of the engaging portion, and a tangential surface formed by the chamfer is a guide surface;

each clamped part is a cylindrical body extending along the thickness direction of the glasses frame, a chamfer is formed between the upper side surface and the outer side surface of each clamped part, and a tangent plane formed by the chamfer is a guide surface;

And the clamped parts are pushed from bottom to top in the width direction of the mirror frame, and the lower side surfaces of the clamped parts are clamped with the upper side surfaces of the clamping parts after the clamped parts pass over the clamping parts through sliding extrusion of the guide surfaces of the clamped parts and the guide surfaces of the corresponding clamping parts.

4. The pair of smart glasses according to claim 2, wherein an end face of each end of the glasses frame is formed with a first notch for receiving a corresponding one end of the glasses leg at a position near the lower side in the width direction of the glasses frame and near the rear side in the thickness direction of the glasses frame.

5. The pair of smart glasses according to claim 4, wherein an end face of one end of each of the temples is in contact with a front side face of the corresponding first notch in a thickness direction of the glasses frame;

and/or, in the length direction of the lens frame, the outer side surface of one end part of each lens leg is positioned inside or aligned with the end surface of the corresponding end part of the lens frame.

6. The pair of smart glasses according to claim 4, wherein each of the engaging portions is located at a bottom surface of the corresponding first notch in a longitudinal direction of the glasses frame, and two second notches are formed at the bottom surface of the first notch and located above and below the engaging portions, respectively, and the two second notches are used for accommodating at least part of the engaged portion before and after the engaged portion is engaged with the engaging portion when the temple nose support assembly is mounted with the glasses frame.

7. The pair of smart glasses according to claim 6, wherein the second notch located below the engaging portion is an opening at a lower end of the frame in a width direction, and the opening is configured to allow the engaged portion on the corresponding temple to enter and exit the second notch.

8. The pair of smart glasses according to claim 6, wherein when the engaged portion is engaged with the engaging portion, a front end of the engaged portion in a thickness direction of the glasses frame abuts against a front side surface of the second notch located above the engaging portion, and a rear end of the engaged portion in the thickness direction of the glasses frame abuts against a rear side surface of the second notch located above the engaging portion, so as to restrict forward and backward movement of the temple nose support assembly relative to the glasses frame in the thickness direction of the glasses frame.

9. The pair of smart glasses according to any one of claims 1 to 8, wherein a first magnetic member is provided at a lower portion of the glasses frame, a second magnetic member is provided at an upper portion of the connection portion of the temple nose pad assembly, and the first magnetic member is configured to attract the second magnetic member so that the temple nose pad assembly is subjected to an upward magnetic force.

10. The pair of smart glasses according to claim 9, wherein a lower side surface of the lower portion of the glasses frame is provided with a receiving groove at a position near the rear in the thickness direction of the glasses frame, the receiving groove is recessed toward the inside of the glasses frame in the width direction of the glasses frame, and a bottom surface of the receiving groove in the width direction of the glasses frame is formed with a groove, the first magnetic member being embedded in the groove;

the upper part of the connecting part of the glasses leg nose support assembly is provided with a groove, and the second magnetic component is embedded in the groove of the connecting part;

wherein, the connecting portion of mirror leg nose holds in the palm the assembly is located the holding tank.

11. The pair of intelligent glasses according to claim 10, wherein when each end of the glasses frame is provided with a second notch, the accommodating groove is connected and communicated with the corresponding second notch positioned below the clamping part;

and/or, the accommodating groove is further provided with a front side surface and a rear side surface which are oppositely arranged along the thickness direction of the mirror frame, the front side surface of the connecting part is abutted to the front side surface of the accommodating groove, and the rear side surface of the connecting part is abutted to the rear side surface of the accommodating groove so as to limit the fore-and-aft movement of the mirror leg nose support assembly relative to the mirror frame in the thickness direction of the mirror frame.

12. The pair of smart glasses according to claim 9, wherein when a first magnetic member is disposed at a lower portion of the glasses frame, and a second magnetic member is disposed at an upper portion of the connection portion of the temple nose pad assembly, the second magnetic member is disposed at an upper portion of each of the cross members of the connection portion, and the first magnetic member that is attracted to the second magnetic member is disposed at a position of the lower portion of the glasses frame corresponding to each of the cross members.

13. The smart glasses according to any one of claims 1 to 8, wherein the frame is provided with a first sub-unit and each of the temples is provided with a second electronic unit;

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

when the glasses leg nose support assembly is fixed with the glasses frame, the first electric connection part is electrically connected with the corresponding second electric connection part; when the glasses leg nose support assembly is detached from the glasses frame, the first electric connection part is electrically disconnected from the corresponding second electric connection part.

14. The smart glasses according to claim 13, 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 being disposed in correspondence with the second sub-electrical connection;

when the glasses leg nose support assembly is fixed with the glasses frame, the first sub-electric connection part is elastically and electrically connected with the corresponding second sub-electric connection part, and simultaneously, a resilience force is provided for the glasses legs.

15. The smart glasses according to claim 13, wherein each of the temples is integrated with a battery module, the battery module constituting a part of the corresponding second electronic unit.

16. The pair of smart glasses according to claim 13, wherein when each end of the glasses frame is provided with a first notch, the first electrical connection portion is located on a front side of the corresponding first notch in a thickness direction of the glasses frame, and the second electrical connection portion is located on an end face of one end of the corresponding glasses leg.

17. The glasses leg nose support assembly is characterized by comprising two glasses legs, a nose support and a connecting part, wherein the nose support is connected with the two glasses legs by the connecting part, so that the nose support, the connecting part and the two glasses legs are relatively fixed or integrated, and the glasses leg nose support assembly can be fixedly and detachably connected with a glasses frame; the connecting part comprises two cross beams, one ends of the two cross beams are respectively connected with one end parts of the two glasses legs, and the other ends of the two cross beams are respectively connected with two sides of the nose pad;

The glasses leg nose support assembly further comprises a clamped module, the clamped module comprises two clamped parts, the two clamped parts are respectively arranged at one end parts of the two glasses legs, which are used for being matched with two end parts of the glasses frame, and the clamped parts are arranged corresponding to the clamped parts of the glasses frame;

each clamped part is clamped with the corresponding clamping part, so that the glasses leg nose support assembly is fixed with the glasses frame;

under the action of external force to the outside, the two glasses legs are stretched and deformed through the nose pads, the clamped parts are released from the clamping parts correspondingly, so that the glasses leg nose pad assembly is detached and separated from the glasses frame.

18. The temple nose cup assembly of claim 17, wherein two of said snapped parts are disposed axially symmetrically at one end of each of said two temple arms for mating with the two ends of the frame;

each clamped part can be clamped with the corresponding clamped part by moving from bottom to top in the width direction of the glasses frame.

19. A temple nose cup assembly according to claim 17 or 18 wherein a magnetic member is provided on an upper portion of said connecting portion of said temple nose cup assembly, said magnetic member being configured to attract a magnetic member located on a lower portion of said frame so as to subject said temple nose cup assembly to an upward magnetic force.

20. The temple nose-pad assembly of claim 17 or 18, wherein each of said temples is integrated with an electronic unit, and one end of each of said temples is provided with an electrical connection portion, said electrical connection portion being electrically connected to said electronic unit, said electrical connection portion at each of said temples being adapted to mate with an electrical connection portion at a corresponding end of said frame;

when the glasses leg nose support assembly is fixed with the glasses frame, the electric connection part positioned on the glasses leg is electrically connected with the electric connection part positioned on the corresponding end part of the glasses frame, so that the electronic unit integrated on the glasses leg is electrically connected with the electronic unit integrated on the glasses frame; when the glasses leg nose support assembly is detached from the glasses frame, the electric connection part positioned on the glasses leg is electrically disconnected from the electric connection part positioned on the corresponding end part of the glasses frame, so that the electronic unit integrated on the glasses leg is electrically disconnected from the electronic unit integrated on the glasses frame.

21. The glasses frame is characterized by being provided with a clamping module, wherein the clamping module comprises two clamping parts which are axially symmetrically arranged at two end parts of the glasses frame respectively and correspond to clamped parts at one end parts of two glasses legs in the glasses leg nose support assembly;

Each clamping part moves from bottom to top in the width direction of the corresponding clamped part to be clamped with the clamped part, so that the mirror frame and the mirror leg nose support assembly are fixed;

under the action of external force on the outer sides of the two glasses legs in the width direction of the glasses frame, the clamping parts and the corresponding clamped parts can be released from clamping, so that the glasses frame and the glasses leg nose support assembly are detached and separated.

22. A frame as claimed in claim 21, wherein each of the engaging portions is a cylindrical body extending in a thickness direction of the frame, and a chamfer is formed between a lower side surface and an outer side surface of the engaging portion, the chamfer forming a tangential surface that is a guide surface;

and the clamped parts are pushed from bottom to top in the width direction of the mirror frame, and the lower side surfaces of the clamped parts are clamped with the upper side surfaces of the clamping parts after the clamped parts pass over the clamping parts through sliding extrusion of the guide surfaces of the clamped parts and the guide surfaces of the corresponding clamping parts.

23. A lens frame according to claim 21 or 22, wherein an end face of each end portion of the lens frame is formed with a first notch for receiving an end portion of the corresponding lens leg at a position closer to the lower side in the width direction of the lens frame and closer to the rear side in the thickness direction of the lens frame;

Each clamping part corresponds to the bottom surface of the first notch in the length direction of the glasses frame, two second notches are formed in the bottom surface of the first notch and are respectively located above and below the clamping part, and when the glasses leg nose support assembly is installed with the glasses frame, the two second notches are respectively used for accommodating at least part of the clamped part before and after the clamped part is clamped with the clamped part.

24. A frame as claimed in claim 21 or claim 22, wherein the lower portion of the frame is provided with a magnetic member arranged to attract the magnetic member of the upper portion of the connection in the temple nose pad assembly so that the temple nose pad assembly is subjected to an upward magnetic force.

25. A frame as claimed in claim 21 or 22, characterized in that the frame is integrated with an electronic unit; each end part of the glasses frame is provided with an electric connection part, the electric connection parts are electrically connected with the electronic unit, and the electric connection parts positioned at each end part of the glasses frame are respectively matched with the electric connection parts positioned at the two glasses legs;

when the glasses frame and the glasses leg nose support assembly are fixed, the electric connection parts at the two end parts of the glasses frame are respectively and electrically connected with the electric connection parts of the two glasses legs, so that the electronic unit integrated in the glasses frame is electrically connected with the electronic unit integrated in each glasses leg; when the glasses frame and the glasses leg nose pad assembly are detached and separated, the electric connection parts at the two end parts of the glasses frame are respectively electrically disconnected with the electric connection parts at the two glasses legs, so that the electronic unit integrated in the glasses frame is disconnected with the electronic unit electric signals integrated in each glasses leg.

26. A frame assembly comprising a frame and lenses, said lenses being secured to said frame, wherein said frame employs a frame as claimed in any one of claims 21 to 25.

27. A spectacle frame comprising a temple nose pad assembly and a spectacle frame, wherein the temple nose pad assembly is as claimed in any one of claims 17 to 20 and the spectacle frame is as claimed in any one of claims 21 to 25.

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