CN219016711U - Glasses frame and intelligent glasses - Google Patents

Abstract

The embodiment of the application provides a glasses frame and intelligent glasses. The electronic glasses legs of the glasses frame are split into the connecting section and the wearing section which are detachably connected, so that the connecting section is hinged with the electronic glasses frame of the glasses frame, and the electronic module in the connecting section is electrically connected with the electronic module in the electronic glasses frame. Like this, the linkage segment of electron mirror leg and wear a easy dismounting can change the size and the style of mirror holder and intelligent glasses through changing the section of wearing, and the degree of difficulty of changing the size, the style of mirror holder and intelligent glasses is less, the cost is lower for the user's that same mirror holder and intelligent glasses can cover quantity is more.

Description

Glasses frame and intelligent glasses

Technical Field

The application relates to the technical field of head-mounted equipment, in particular to a glasses frame and intelligent glasses.

Background

Virtual Reality (VR) technology, augmented Reality (Augmented Reality, AR) technology, and Mixed Reality (MR) technology are multimedia technologies that have emerged in recent years, and are applicable to various fields such as games, education, movies, military, and medical treatment. The smart glasses are one type of glasses that incorporate electronic modules, for example, VR, AR, MR, etc. modules may be incorporated into the smart glasses, so that the smart glasses may provide a rich functionality for the user.

In the related art, the intelligent glasses can include mirror holder and lens, and the mirror holder includes electron picture frame and electron mirror leg, and the lens sets up on the electron picture frame, for accomodating, the tip of electron mirror leg can be articulated with the tip of electron picture frame to make mirror holder and intelligent glasses can switch between expansion state and folding state. The electronic glasses legs and the glasses frames are respectively provided with an electronic module, and the electronic modules on the electronic glasses legs and the electronic modules on the glasses frames can be electrically connected through an electric connecting device penetrating through the joint of the electronic glasses legs and the electronic glasses frames.

However, in the related art, the difficulty of changing the size and style of the frame and the smart glasses is high, the cost is high, and the number of users that can be covered by the same frame and smart glasses is small.

Disclosure of Invention

The embodiment of the application provides a mirror holder and intelligent glasses, through the linkage segment that can dismantle the connection with the electronic glasses leg split of mirror holder and wear the section, make the linkage segment articulated with the electronic glasses frame of mirror holder, and make the electronic module in the linkage segment be connected with the electronic module electricity in the electronic glasses frame, make can change the size and the style of mirror holder and intelligent glasses through changing the section of wearing, the degree of difficulty of changing the size, the style of mirror holder and intelligent glasses is less, the cost is lower, make the same mirror holder and intelligent glasses can cover more user's quantity.

An aspect of the present embodiments provides a glasses frame, including electronic glasses frame and at least one electronic glasses leg, electronic glasses leg includes linkage segment and wears the section. In same piece electron mirror leg, the one end of linkage segment is articulated with the tip of electron picture frame, and the other end of linkage segment is connected with wearing the section and can dismantle, wears the section and be used for with user's ear contact to wear the mirror holder at user's head. The electronic mirror frame is provided with a first electronic module, the connecting section is provided with a second electronic module, and the first electronic module is electrically connected with the second electronic module.

The mirror holder that this embodiment provided, the second electronic module of electronic glasses leg is located and is used for making electronic glasses leg and articulated linkage segment of electronic glasses frame, in same electronic glasses leg, wear the section and can dismantle with the linkage segment and be connected, when wearing section and linkage segment dismouting, need not consider the articulated requirement of electronic glasses leg and electronic glasses frame and the requirement of the wiring that first electronic module and second electronic module electricity are connected, it is comparatively convenient to wear section and linkage segment dismouting, can change the size and the style of mirror holder and intelligent glasses through changing the section of wearing, the size of change mirror holder and intelligent glasses, the degree of difficulty of style is less, the cost is lower, make the same mirror holder and intelligent glasses can cover more in quantity of user.

In one possible implementation, the wearing section of at least one electronic temple is provided with a third electronic module and a first connector, and the connecting section of the electronic temple provided with the first connector is also provided with a second connector. In the same electronic glasses leg, the third electronic module is electrically connected with the first connector, the second connector is electrically connected with the second electronic module, and the first connector is detachably connected with the second connector, so that the second electronic module and the third electronic module are electrically connected through the first connector and the second connector.

In one possible embodiment, the first connector is fastened to the end face of the wearing section for connecting to one end of the connecting section, and the second connector is fastened to the end face of the connecting section for connecting to one end of the wearing section. In the same electronic glasses leg, the first connector and the second connector are fixed in a plugging manner.

In one possible implementation, the third electronic module of the at least one electronic temple comprises a speaker. In the same electronic temple, the speaker is electrically connected with the first connector.

In one possible implementation, the wear segment includes a bend and a connection. In same piece electron mirror leg, the one end of connecting portion can be dismantled with the tip of linkage segment and be connected, the other end and the kink fastening connection of connecting portion, the kink is used for contacting with user's ear, and the connecting portion is located to the speaker.

In one possible implementation, the third electronic module of the at least one electronic temple comprises a first battery. In the same electronic temple, the first battery is electrically connected with the first connector.

In one possible implementation, one of the end face of the connecting section for connecting with the end face of the wearing section and the end face of the wearing section for connecting with the end of the connecting section is provided with a groove, and the other of the end face of the connecting section for connecting with the end face of the wearing section and the end face of the wearing section for connecting with the end face of the connecting section is provided with a bump. In the same electronic glasses leg, the lug is inserted in the groove, and the side wall of the groove clamps and fixes the lug so that the connecting section and the wearing section can be detachably connected.

In one possible implementation, the second electronic module of the at least one electronic temple comprises a motherboard electrically connected to the first electronic module.

In one possible implementation, the second electronic module of the at least one electronic temple comprises a second battery, which is electrically connected to the first electronic module.

Another aspect of the embodiments of the present application provides a pair of smart glasses, including at least one lens and a frame in any of the foregoing embodiments, where the lens is mounted on an electronic frame of the frame.

In one possible implementation, the at least one lens is an optical waveguide lens, the first electronic module of the frame comprises an optical engine, and the second electronic module of the frame is electrically connected to the optical engine.

Drawings

Fig. 1 is a schematic diagram of an intelligent glasses provided in an embodiment of the present application;

FIG. 2 is a perspective view of yet another smart glasses provided in an embodiment of the present application;

fig. 3 is a schematic view of a view angle of still another smart glasses according to an embodiment of the present disclosure after a wearing section of the smart glasses is removed;

fig. 4 is a schematic view of a view angle of still another smart glasses according to an embodiment of the present disclosure after a wearing segment of the smart glasses is removed;

FIG. 5 is a schematic view of a viewing angle of a wearing segment of still another smart glasses according to an embodiment of the present disclosure;

fig. 6 is a perspective view of still another smart glasses according to an embodiment of the present application, with a viewing angle of a wearing section removed.

Reference numerals illustrate:

100. a frame;

110. an electronic mirror frame; 111. a mounting port; 112. a limit part;

120. an electronic temple; 121. a connection section; 122. a wearing section; 1221. a connection part; 1222. a bending part;

130. a rotating shaft;

140. an electrical connection device;

150. a nose pad;

200. a lens;

300. a first electronic module; 310. a light machine;

400. a second electronic module; 410. a main board; 420. a second battery;

500. a third electronic module; 510. a speaker; 520. a first battery;

610. a first connector; 620. a second connector; 630. a groove; 640. and a bump.

Detailed Description

The terminology used in the description of the embodiments of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application, as will be described in detail with reference to the accompanying drawings.

The smart glasses provided in the embodiments of the present application may include, but are not limited to, glasses with audio functions only, virtual Reality (VR) glasses, augmented Reality (Augmented Reality, AR) glasses, mixed Reality (MR) glasses, or the like. The embodiment of the application is described by taking the intelligent glasses as AR glasses as an example.

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

As shown in fig. 1, in an embodiment of the present application, smart glasses include a frame 100 and at least one lens 200, the lens 200 being mounted on the frame 100. Specifically, the frame 100 has a mounting opening 111 for mounting the lens 200, and the lens 200 can be mounted in the mounting opening 111.

It is understood that only one lens 200 may be mounted on the frame 100, and that two lenses 200 may be mounted on the frame 100. When two lenses 200 are mounted on the frame 100, the frame 100 has two mounting openings 111, and each lens 200 is mounted in one of the mounting openings 111.

It is understood that the lens 200 may be a glass lens, a resin lens, or the like.

In embodiments of the present application, the frame 100 can include an electronic frame 110 and at least one temple, an end of which can be hinged to an end of the electronic frame 110 such that the frame 100 and smart glasses can be switched between an extended state and a collapsed state. The temples are used to contact the user's ears when the frame 100 and the smart glasses are in the unfolded state to wear the frame 100 and the smart glasses on the user's head.

It is understood that the electronic eyeglass frame 110 is a eyeglass frame provided with electronic modules, which may include one or more electronic devices.

It is understood that the electronic frame 110 has a mounting opening 111 for mounting the lens 200 thereon, and the lens 200 is mounted on the electronic frame 110.

It is understood that the temple may rotate relative to the electronic glasses frame 110, and when the glasses frame 100 and the smart glasses are in the folded state, the temple may rotate to a position where the temple is stacked with the electronic glasses frame 110, and at this time, the glasses frame 100 and the smart glasses are conveniently stored in the glasses case. When the glasses frame 100 and the smart glasses are in the unfolded state, the glasses legs can be rotated to a position where the included angle between the glasses legs and the electronic glasses frame 110 is approximately 90 degrees, and at this time, the glasses frame 100 and the smart glasses can be worn on the head of the user. It will be appreciated by those skilled in the art that for reasons of design tolerances, etc., in the present application the angle between two structural members is approximately 90, and may not be an absolute 90, allowing for a few deviations, such as 80, 85, 95, etc.

It will be appreciated that the electronic frame 110 may be provided with a nose pad 150, the nose pad 150 being configured to contact the nose of the user when the frame 100 and the smart glasses are in the extended state, the nose pad 150 cooperating with the temple to wear the frame 100 and the smart glasses on the head of the user. After the eyeglass frame 100 and the smart glasses are worn on the head of the user, the nose of the user can support the electronic eyeglass frame 110 through the nose pad 150, and the ear of the user can support the electronic eyeglass frame 110 through the glasses legs so as to wear the electronic eyeglass frame 110 in front of the eyes of the user.

It is understood that the frame 100 may include only one temple, which is hinged to one end of the electronic frame 110. The frame 100 may also include two legs hinged to opposite ends of the electronic glasses frame 110, where the two legs can rotate between a position overlapping the electronic glasses frame 110 and a position having an included angle of about 90 ° with the electronic glasses frame 110, and when the frame 100 and the smart glasses are in an unfolded state, the two legs are in contact with two ears of a user.

Illustratively, the end of the temple may be rotatably coupled to the end of the electronic frame 110 by a shaft 130. The end portion of the electronic mirror frame 110, which is used for being connected with the mirror leg, is provided with a limiting portion 112 corresponding to the mirror leg, when the mirror frame 100 and the intelligent glasses are in an unfolded state, the mirror leg is abutted against the corresponding limiting portion 112 to limit the outward rotation angle of the mirror leg, so that the mirror leg can not rotate outwards again after rotating outwards to a position at which the included angle between the mirror leg and the electronic mirror frame 110 is approximately 90 degrees.

Fig. 2 is a perspective view of still another pair of smart glasses according to an embodiment of the present application.

As shown in fig. 2, in the embodiment of the present application, at least one of the temples hinged to the electronic glasses frame 110 is an electronic temple 120, and it is understood that the electronic temple 120 is a temple provided with an electronic module.

In the embodiment of the present application, the electronic mirror frame 110 is provided with a first electronic module 300, the electronic mirror leg 120 is provided with a second electronic module 400, and the first electronic module 300 and the second electronic module 400 are electrically connected.

It is to be appreciated that where the frame 100 includes only one temple, the temple of the frame 100 is the electronic temple 120. When the frame 100 includes two temples, only one of the two temples may be the electronic temple 120. When the frame 100 includes two temples, both temples may also be electronic temples 120.

It can be understood that when the frame 100 includes two temples and the two temples are all electronic temples 120, the two electronic temples 120 are all provided with the second electronic modules 400, the second electronic modules 400 disposed on the two electronic temples 120 are all electrically connected with the first electronic modules 300, and the second electronic modules 400 disposed on the two electronic temples 120 may be the same electronic modules or different electronic modules.

For example, the electronic frame 110 may have a first mounting cavity (not shown) therein, and the first electronic module 300 may be mounted in the first mounting cavity. The electronic temple 120 may have a second mounting cavity (not shown) therein. In the same electronic temple 120, a second electronic module 400 may be mounted in a second mounting cavity.

In the embodiment of the present application, the second electronic module 400 disposed on the electronic temple 120 and the first electronic module 300 disposed on the electronic frame 110 may be electrically connected through the electrical connection device 140.

For example, the electrical connection device 140 may be a first flexible circuit board, which may be wound on the outer side of the rotating shaft 130, and a portion of the first flexible circuit board is located on the electronic glasses frame 110, and a portion of the first flexible circuit board is located on the electronic glasses leg 120 where the electrically connected second electronic module 400 is located. When the frame 100 includes two temples and the two temples are both electronic temples 120, the second electronic modules 400 disposed on the two electronic temples 120 may be electrically connected to the first electronic modules 300 disposed on the electronic frame 110 through the same first flexible circuit board. When the frame 100 includes two temples and the two temples are both electronic temples 120, the second electronic modules 400 disposed on the two electronic temples 120 may be electrically connected to the first electronic modules 300 disposed on the electronic frame 110 through a corresponding first flexible circuit board.

For example, the electrical connection device 140 may be a first electrical wire, which may be wound around the outside of the rotating shaft 130 or pass through the rotating shaft 130, where a portion of the first electrical wire is located on the electronic mirror frame 110, and a portion of the first electrical wire is located on the electronic mirror leg 120 where the electrically connected second electronic module 400 is located. When the first wire is wound on the outside of the rotation shaft 130, the first wire may be a flat cable. When the frame 100 includes two temples and the two temples are both electronic temples 120, the second electronic modules 400 disposed on the two electronic temples 120 may be electrically connected to the first electronic modules 300 disposed on the electronic frame 110 through a set of corresponding first wires.

Along with the enrichment of the functions that can be realized by the intelligent glasses, for example, in the AR glasses, the circuits that need to be electrically connected between the first electronic module 300 and the second electronic module 400 are more, so that the wires at the hinge positions of the glasses frame 100 and the electronic glasses legs 120 and the electronic glasses frame 110 of the intelligent glasses are more complex, and when the electronic glasses legs 120 and the electronic glasses frame 110 are disassembled and assembled, the requirements of the hinge positions of the electronic glasses legs 120 and the electronic glasses frame 110 are met, and the requirements of the wires that the first electronic module 300 and the second electronic module 400 are electrically connected are met, so that the disassembly and assembly between the electronic glasses legs 120 and the electronic glasses frame 110 are more difficult, and the replacement difficulty of the electronic glasses legs 120 is higher.

In the related art, the size and style of the electronic glasses legs cannot be changed, so that the difficulty of changing the size and style of the glasses frame and the intelligent glasses is high. Because the head shape, the head circumference, the preference and the like of the user are different, the different users have different requirements on the sizes and the styles of the glasses frame and the intelligent glasses, in the related technology, the sizes and the styles of the glasses frame and the intelligent glasses are required to be changed, the electronic glasses frame and the electronic glasses legs can be replaced together, and the costs for changing the sizes and the styles of the glasses frame and the intelligent glasses are high. The size and style of the glasses frame and the intelligent glasses are changed, so that the difficulty and the cost of the glasses frame and the intelligent glasses are high, and the number of users which can be covered by the same glasses frame and the intelligent glasses is small.

Fig. 3 is a schematic view of another viewing angle of a wearing section of smart glasses according to an embodiment of the present application after being detached.

As shown in fig. 3, and referring to fig. 2, in the embodiment of the present application, the electronic glasses leg 120 includes a connection section 121 and a wearing section 122, and in the same electronic glasses leg 120, a second electronic module 400 is disposed at the connection section 121, one end of the connection section 121 is hinged to an end of the electronic glasses frame 110, the other end of the connection section 121 is detachably connected to the wearing section 122, and the wearing section 122 is used for contacting with an ear of a user to wear the glasses frame 100 on the head of the user.

In this way, the second electronic module 400 of the electronic glasses leg 120 is disposed on the connecting section 121 for hinging the electronic glasses leg 120 with the electronic glasses frame 110, in the same electronic glasses leg 120, the wearing section 122 is detachably connected with the connecting section 121, when the wearing section 122 is detached from the connecting section 121, the requirement of hinging the electronic glasses leg 120 with the electronic glasses frame 110 and the requirement of wiring electrically connected with the first electronic module 300 and the second electronic module 400 do not need to be considered, the wearing section 122 is convenient to detach from the connecting section 121, the size and style of the glasses frame 100 and the intelligent glasses can be changed by changing the wearing section 122, the difficulty of changing the size and style of the glasses frame 100 and the intelligent glasses is small, the cost is low, and the number of users which can be covered by the same glasses frame 100 and the intelligent glasses is large.

It is understood that the electronic glasses leg 120 where the connection section 121 is located may be hinged to the electronic glasses frame 110 through the connection section 121 hinged to the electronic glasses frame 110. In the same electronic glasses leg 120, the wearing section 122 is hinged to the electronic glasses frame 110 through the connecting section 121, the wearing section 122 can drive the connecting section 121 to rotate relative to the electronic glasses frame 110, and the connecting section 121 can also drive the wearing section 122 to rotate relative to the electronic glasses frame 110.

It is understood that the connection section 121 may be straight. It will be appreciated by those skilled in the art that in the present application, the straight bar-like structure may not be perfectly straight, and may have a curvature in part or in whole.

It will be appreciated that the wear segment 122 can be configured to hang over the user's ear when the frame 100 and smart glasses are in the extended state such that the wear segment 122 is in contact with the user's ear. After the frame 100 and the smart glasses are worn on the head of the user, the user's ears may support the wearing section 122 to support the electronic glasses frame 110 through the wearing section 122 and the connection section 121.

In the example where the second electronic module 400 is provided in a second mounting cavity, the second mounting cavity is located within the connection section 121 of the electronic temple 120 in which it is located.

Fig. 4 is a schematic view of one view angle of a wearing section of still another pair of smart glasses according to an embodiment of the present application after the wearing section of the still another pair of smart glasses is removed, and fig. 5 is a schematic view of one view angle of the wearing section of the still another pair of smart glasses according to an embodiment of the present application.

As shown in fig. 4 and 5, and referring to fig. 1 and 3, in the embodiment of the present application, one of an end surface of the connection section 121 for connecting one end of the wearing section 122 and an end surface of the wearing section 122 for connecting one end of the connection section 121 is provided with a groove 630, and the other one of the end surface of the connection section 121 for connecting one end of the wearing section 122 and the end surface of the wearing section 122 for connecting one end of the connection section 121 is provided with a bump 640. In the same electronic temple 120, the protruding block 640 is inserted into the groove 630, and the side wall of the groove 630 clamps and fixes the protruding block 640, so that the connecting section 121 and the wearing section 122 are detachably connected.

Thus, the connecting section 121 and the wearing section 122 in the same electronic glasses leg 120 are convenient to assemble and disassemble. In addition, after the connecting section 121 and the wearing section 122 are connected, the electronic glasses leg 120 has a less convex structure, and the glasses frame 100 and the smart glasses have a higher wearing comfort.

It will be appreciated that the side walls of the groove 630 are the groove walls adjacent to the notches of the groove 630, and the groove walls of the groove 630 opposite the notches are the bottom walls of the groove 630.

It is understood that the shape of the space defined by the groove 630 corresponds to the shape of the bump 640 in the same electronic temple 120. For example, when the bump 640 is cylindrical, the space defined by the groove 630 has a cylindrical shape corresponding to the bump 640; when the bump 640 is in a cube shape, the space defined by the groove 630 is in a cube shape corresponding to the bump 640; when the bump 640 is polygonal, the space defined by the groove 630 has a polygonal shape corresponding to the bump 640.

For example, the bump 640 may be made of a resilient material, and in the same electronic temple 120, the bump 640 may be elastically deformed and inserted into the groove 630 by applying a force to the wearing section 122 to press the bump 640 into the groove 630, and after the bump 640 is inserted into the groove 630, the bump 640 is in interference fit with the groove 630, so that the side wall of the groove 630 clamps and fixes the bump 640.

In the same electronic temple 120, the first elastic layer (not shown) is elastically deformed by applying a force to the wearing section 122 to press the bump 640 into the groove 630, and after the bump 640 is inserted into the groove 630, the sidewall of the groove 630 clamps and fixes the bump 640 through the first elastic layer.

For example, a second elastic layer (not shown) is disposed on a sidewall of the groove 630, and in the same electronic temple 120, the second elastic layer may be elastically deformed by applying a force to the wearing section 122 to press the bump 640 into the groove 630, and after the bump 640 is inserted into the groove 630, the sidewall of the groove 630 is clamped and fixed by the bump 640 of the second elastic layer.

Of course, in the same electronic temple 120, the connection section 121 and the wearing section 122 may be detachably connected by a fastening structure, or the like.

Illustratively, in the same electronic temple 120, one of the connecting section 121 and the wearing section 122 is provided with an elastic claw (not shown), and the other of the connecting section 121 and the wearing section 122 is provided with a clamping block (not shown), and the elastic claw and the clamping block are clamped, so that the connecting section 121 and the wearing section 122 are detachably connected.

It will be appreciated that the resilient fingers and the latch may be provided on the side wall of the connecting section 121 and the side wall of the wearing section 122, respectively. A groove 630 may be formed on one of an end surface of the connecting section 121 for connecting with one end of the wearing section 122 and an end surface of the wearing section 122 for connecting with one end of the connecting section 121, a bump 640 may be formed on the other one of the end surface of the connecting section 121 for connecting with one end of the wearing section 122 and the end surface of the wearing section 122 for connecting with one end of the connecting section 121, and an elastic claw and a clamping block are respectively provided on a peripheral wall of the bump 640 and a side wall of the groove 630.

Illustratively, in the same electronic temple 120, a first mounting ear (not shown) is provided on a side wall of one of the connection section 121 and the wearing section 122, and a second mounting ear (not shown) corresponding to the first mounting ear is provided on a side wall of the other of the connection section 121 and the wearing section 122, and the first mounting ear and the second mounting ear are detachably connected by a fastener, so that the connection section 121 and the wearing section 122 are detachably connected.

Fig. 6 is a perspective view of still another smart glasses according to an embodiment of the present application, with a viewing angle of a wearing section removed.

As shown in fig. 6 and referred to in fig. 2-5. In the embodiment of the present application, the wearing section 122 of at least one electronic temple 120 is provided with a third electronic module 500 and a first connector 610, and the connecting section 121 of the electronic temple 120 provided with the first connector 610 is further provided with a second connector 620. In the same electronic temple 120, the third electronic module 500 is electrically connected to the first connector 610, the second connector 620 is electrically connected to the second electronic module 400, and the first connector 610 is detachably connected to the second connector 620, so that the second electronic module 400 and the third electronic module 500 are electrically connected through the first connector 610 and the second connector 620.

In this way, a portion of the electronics can be disposed on the detachable wear section 122 of the electronic temple 120, which facilitates reducing the size of the connecting section 121 and reducing the number of electronics disposed on the connecting section 121, resulting in a more uniform weight distribution of the frame 100 and smart glasses. In addition, the electronic temple 120 may have a larger space for disposing electronic devices, and a larger number of electronic devices may be disposed.

It can be appreciated that when the frame 100 includes two temples and the two temples are both electronic temples 120, the wearing section 122 of only one of the two electronic temples 120 is provided with the third electronic module 500 and the first connector 610, and the connecting section 121 is provided with the second connector 620.

When the frame 100 includes two temples and the two temples are both electronic temples 120, the wearing sections 122 of the two electronic temples 120 may be provided with the third electronic module 500 and the first connector 610, and the connecting sections 121 may be provided with the second connector 620.

When the wearing sections 122 of the two electronic temples 120 are provided with the third electronic modules 500, the third electronic modules 500 provided by the two electronic temples 120 may be the same electronic module or different electronic modules.

It is understood that the first connector 610 and the second connector 620 may be detachably connected in various ways. For example, the first connector 610 and the second connector 620 may be bound together by a strap such as a velcro strap. For another example, the first connector 610 and the second connector 620 may be fixedly connected by magnetic attraction.

For example, the wearing section 122 of the electronic temple 120 provided with the third electronic module 500 may have a third mounting cavity (not shown) therein, and the third electronic module 500 may be mounted in the third mounting cavity of the electronic temple 120 where it is located.

In the same electronic temple 120, the first connector 610 may be electrically connected to the third electronic module 500 through a wire partially located outside the wearing section 122 and partially located inside the wearing section 122, the first connector 610 may be suspended from the wearing section 122 through the wire, the second connector 620 may be disposed on a side of the connecting section 121 adjacent to an end surface for connecting the wearing section 122, and the first connector 610 may be detachably connected to the second connector 620 after being moved to the second connector 620.

In the same electronic temple 120, the second connector 620 may be electrically connected to the second electronic module 400 by a wire partially located outside the connection section 121 and partially located inside the connection section 121, the second connector 620 may be suspended from the connection section 121 by the wire, the first connector 610 may be disposed on a side of the wearing section 122 adjacent to an end surface for connecting the connection section 121, and the second connector 620 may be detachably connected to the first connector 610 after being moved to the first connector 610.

In an embodiment in which the wearing section 122 of the at least one electronic temple 120 is provided with the third electronic module 500 and the first connector 610, the first connector 610 may be fastened to the end surface of the wearing section 122 for connecting with one end of the connecting section 121, and the second connector 620 may be fastened to the end surface of the connecting section 121 for connecting with one end of the wearing section 122.

In this way, it is advantageous to connect the first connector 610 and the second connector 620 when the connecting section 121 and the wearing section 122 are connected. In addition, after the wearing section 122 is connected with the connecting section 121, the first connector 610 and the second connector 620 can not be protruded outwards, so that the electronic glasses leg 120 has a less protruded structure, the first connector 610 and the second connector 620 are not easy to knock the user, and the wearing comfort of the glasses frame 100 and the intelligent glasses is high.

Illustratively, the first connector 610 may be electrically connected to the third electronic module 500 through a second flexible circuit board (not shown) that may be disposed within a third mounting cavity in which the electrically connected third electronic module 500 is disposed.

For example, the first connector 610 may be electrically connected to the third electronic module 500 through a second wire (not shown), which may be disposed in a third mounting cavity where the electrically connected third electronic module 500 is located.

The second connector 620 may be electrically connected with the second electronic module 400 by electrically connecting the first flexible circuit board of the first electronic module 300.

For example, the second connector 620 may be electrically connected to the second electronic module 400 through a third wire (not shown), which may be disposed in a second mounting cavity where the electrically connected second electronic module 400 is located.

In the embodiment of the present application, the first connector 610 and the second connector 620 are plugged and fixed in the same electronic temple 120.

In this way, the first connector 610 and the second connector 620 are convenient to connect and disconnect, and the stability of the electrical connection after the first connector 610 and the second connector 620 are connected is better.

It is understood that in the same electronic temple 120, one of the first connector 610 and the second connector 620 may be a male connector, and the other of the first connector 610 and the second connector 620 may be a female connector.

In an embodiment in which the groove 630 is provided on one of the end face of the connection section 121 for connecting the one end of the wearing section 122 and the end face of the wearing section 122 for connecting the one end of the connection section 121, the projection 640 is provided on the other of the end face of the connection section 121 for connecting the one end of the wearing section 122 and the end face of the wearing section 122 for connecting the one end of the connection section 121, one of the first connector 610 and the second connector 620 is provided on the bottom wall of the groove 630, and the other of the first connector 610 and the second connector 620 is provided on the end face of the projection 640.

It can be understood that, when the end surface of the wearing section 122 for connecting with the end of the connecting section 121 is provided with the groove 630, and the end surface of the connecting section 121 for connecting with the end of the wearing section 122 is provided with the bump 640, the first connector 610 is disposed on the bottom wall of the groove 630, and the second connector 620 is disposed on the end surface of the bump 640.

When the end surface of the wearing section 122 for connecting with the end of the connecting section 121 is provided with the bump 640, and the end surface of the connecting section 121 for connecting with the end of the wearing section 122 is provided with the groove 630, the first connector 610 is disposed on the end surface of the bump 640, and the second connector 620 is disposed on the bottom wall of the groove 630.

In an embodiment of the present application, the third electronic module 500 of the at least one electronic temple 120 comprises a speaker 510. In the same electronic temple 120, the speaker 510 is electrically connected to the first connector 610.

Thus, the speaker 510 is located on the wearing section 122, and the position of the speaker 510 relative to the electronic glasses frame 110 can be changed along with the replacement of the wearing section 122, so that the distance between the speaker 510 and the electronic glasses frame 110 can be conveniently adjusted when the glasses frame 100 and the intelligent glasses are in the unfolded state, and when the glasses frame 100 and the intelligent glasses are worn on the heads of users with different head types and head circumferences, the speaker 510 is located at a position closer to the ears of the users, and the loudness and tone quality of sound emitted by the speaker 510 heard by the users can be higher.

It can be understood that, in the example where the third electronic module 500 is mounted in the third mounting cavity of the electronic temple 120 where the third electronic module is located, the wearing section 122 where the speaker 510 is mounted is provided with an acoustic hole that communicates with the third mounting cavity, and the speaker 510 is disposed at the acoustic hole of the wearing section 122 where the speaker 510 is located.

It is understood that when the frame 100 includes two temples and the two temples are the electronic temples 120, the third electronic module 500, which may be only one of the two electronic temples 120, includes the speaker 510. When the frame 100 includes two temples and the two temples are both electronic temples 120, the third electronic modules 500 of the two electronic temples 120 may also each include a speaker 510.

It is understood that in the same electronic temple 120, the speaker 510 may be electrically connected to the first connector 610 through a second flexible circuit board or a second wire.

In an embodiment of the present application, wear segment 122 includes a bend 1222 and a connection 1221. In the same electronic temple 120, one end of the connecting portion 1221 is detachably connected to an end of the connecting section 121, the other end of the connecting portion 1221 is fastened to the bending portion 1222, the bending portion 1222 is used for contacting with an ear of a user, and the speaker 510 is provided at the connecting portion 1221.

Thus, after the glasses frame 100 and the smart glasses are worn on the head of the user, the speaker 510 can be located between the ear and the electronic glasses frame 110, so that the sound emitted by the speaker 510 can enter the ear hole of the user, and the loudness and the tone quality of the sound emitted by the speaker 510 heard by the user are high.

It is understood that the connecting portion 1221 may be straight.

In an embodiment of the present application, the third electronic module 500 of the at least one electronic temple 120 comprises a first battery 520. In the same electronic temple 120, the first battery 520 is electrically connected to the first connector 610.

Thus, the endurance of the glasses frame 100 and the smart glasses can be enhanced by replacing the wearing section 122, and after the wearing section 122 is disassembled, the first battery 520 in the wearing section 122 can be charged independently, so that the use of the glasses frame 100 and the smart glasses can not be affected by the charging of the first battery 520. In addition, the placement of the first battery 520 for power on the wear segment 122 also facilitates a more uniform weight distribution of the frame 100 and smart glasses.

It is understood that the first battery 520 may be electrically connected to the first connector 610 through a second flexible circuit board or a second wire in the same electronic temple 120.

It can be appreciated that when the frame 100 includes two temples and both of the temples are electronic temples 120, the third electronic module 500, which may be only one of the two electronic temples 120, includes the first battery 520. When the frame 100 includes two temples and the two temples are both electronic temples 120, the third electronic modules 500 of the two electronic temples 120 may also each include the first battery 520.

In some embodiments of the present application, the third electronic module 500 of the at least one electronic temple 120 includes a first battery 520 and a speaker 510, and in the same electronic temple 120, both the first battery 520 and the speaker 510 are electrically connected with the first connector 610.

It is understood that in the same electronic temple 120, both the first battery 520 and the speaker 510 may be electrically connected to the first connector 610 through a second flexible circuit board, and both the first battery 520 and the speaker 510 may be mounted on the second flexible circuit board.

In embodiments where the wear segment 122 includes a bend 1222 and a connection 1221, the first battery 520 may be provided at the bend of the wear segment 122 where it is located. In this way, heavier weight devices can be provided at the electronic frame 110 to facilitate more uniform weight distribution to the frame 100 and smart glasses.

In some embodiments of the present application, all of the third electronic modules 500 of the electronic temples 120 may also be made to not include the first battery 520. In this way, the need for the size of the wear segment 122 may be reduced, and the size of the wear segment 122 may be made smaller.

In some embodiments of the present application, all the wearing segments 122 of the electronic temples 120 may be provided without the third electronic module 500 and the first connector 610. In this way, the need for the size of the wear segment 122 may be reduced, and the size of the wear segment 122 may be made smaller. In addition, the manufacturing cost of the wear segment 122 can also be reduced, resulting in lower costs for changing the size and style of the frame 100 and smart glasses.

In the embodiment of the present application, the second electronic module 400 of the at least one electronic temple 120 includes a motherboard 410, and the motherboard 410 is electrically connected to the first electronic module 300.

In this way, the weight distribution of the frame 100 and the smart glasses is relatively uniform. In addition, the installation of the main board 410 is also facilitated.

It can be appreciated that when the frame 100 includes two temples and both of the temples are electronic temples 120, the second electronic module 400, which may be only one of the two electronic temples 120, includes the motherboard 410. When the frame 100 includes two temples and the two temples are both electronic temples 120, the second electronic modules 400 of the two electronic temples 120 may also each include a motherboard 410.

It is understood that the motherboard 410 may be electrically connected to the first electronic module 300 through the electrical connection device 140.

When the connection section 121 is provided with the second connector 620, the main board 410 may be electrically connected to the second connector 620 through a third wire or a first flexible circuit board electrically connected to the first electronic module 300 in the same electronic temple 120.

In an embodiment of the present application, the second electronic module 400 of the at least one electronic temple 120 includes a second battery 420, and the second battery 420 is electrically connected with the first electronic module 300.

Thus, the second battery 420 provided by the connection section 121 can supply power to the electronic devices of the glasses frame 100 and the smart glasses, and the weight distribution of the glasses frame 100 and the smart glasses is uniform.

It can be appreciated that when the frame 100 includes two temples and both of the temples are electronic temples 120, the second electronic module 400, which may be only one of the two electronic temples 120, includes the second battery 420. When the frame 100 includes two temples and the two temples are both electronic temples 120, the second electronic modules 400 of the two electronic temples 120 may also each include a second battery 420.

It is understood that the electronic temple 120 may include only the first battery 520 located on the wearing section 122, and in this case, the first battery 520 may supply power to the electronic devices such as the speaker 510 of the third electronic module 500, the second electronic module 400, and the first electronic module 300.

The electronic temple 120 may include only the second battery 420 located at the connection section 121, and in this case, the second battery 420 may supply power to the third electronic module 500, the electronic devices such as the motherboard 410 of the second electronic module 400, and the first electronic module 300.

The electronic glasses leg 120 may also include a first battery 520 located at the wearing section 122 and a second battery 420 located at the connecting section 121, where the first battery 520 may supply power to electronic devices such as the speaker 510 of the third electronic module 500, the second electronic module 400, and the first electronic module 300, and the second battery 420 may supply power to electronic devices such as the third electronic module 500, the motherboard 410 of the second electronic module 400, and the first electronic module 300.

In an embodiment in which the electronic temple 120 includes a first battery 520 positioned at the wearing section 122 and a second battery 420 positioned at the connecting section 121, the first battery 520 may supply power to the electronics such as the speaker 510 of the third electronic module 500, the second electronic module 400, and the first electronic module 300 when the wearing section 122 is assembled on the connecting section 121, and the second battery 420 may supply power to the electronics such as the motherboard 410 of the second electronic module 400, and the first electronic module 300 when the wearing section 122 is detached from the connecting section 121.

In the embodiment of the present application, at least one lens 200 is an optical waveguide lens, the first electronic module 300 of the frame 100 includes a light machine 310, and the second electronic module 400 of the frame 100 is electrically connected to the light machine 310.

Therefore, the optical waveguide lens can be used as a display device and can be used for displaying image information, and interaction between a user and the intelligent glasses is facilitated.

It will be appreciated that the light engine 310 may cooperate with an optical waveguide lens to deliver image information to be displayed to the optical waveguide lens, which may be used to display the image information delivered by the light engine 310.

It is to be appreciated that when two lenses 200 are mounted on the frame 100, only one of the two lenses 200 can be an optical waveguide lens. When two lenses 200 are mounted on the frame 100, both lenses 200 may be optical waveguide lenses.

When two optical waveguide lenses are mounted on the frame 100 and the frame 100 includes two electronic glasses legs 120, two optical machines 310 corresponding to the optical waveguide lenses can be respectively disposed at two ends of the electronic glasses frame 110, each optical machine 310 can be electrically connected with a second electronic module 400 of the electronic glasses leg 120 hinged to one end of the electronic glasses frame 110 where the optical machine 310 is located, each optical machine 310 is used for conveying image information to be displayed to the corresponding optical waveguide lens, and each optical waveguide lens is respectively used for displaying the image information conveyed by the corresponding optical machine 310.

In the description of the embodiments of the present application, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "coupled" are to be construed broadly, and may be, for example, fixedly coupled, indirectly coupled through intermediaries, in communication with each other, or in an interaction relationship between two elements. The specific meaning of the above terms in the embodiments of the present application will be understood by those of ordinary skill in the art according to the specific circumstances.

The terms first, second, third, fourth and the like in the description and in the claims of embodiments of the application and in the above-described figures, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solutions of the embodiments of the present application, and are not limited thereto; although embodiments of the present application have been described in detail with reference to the foregoing embodiments, it will be appreciated by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the essence of the corresponding technical solutions from the scope of the technical solutions of the embodiments of the present application.

Claims (11)

1. The glasses frame is characterized by comprising an electronic glasses frame and at least one electronic glasses leg;

the electronic glasses leg comprises a connecting section and a wearing section;

in the same piece of electronic glasses leg, one end of the connecting section is hinged with the end part of the electronic glasses frame, the other end of the connecting section is detachably connected with the wearing section, and the wearing section is used for contacting with the ear part of a user so as to wear the glasses frame on the head of the user;

the electronic mirror frame is provided with a first electronic module, the connecting section is provided with a second electronic module, and the first electronic module is electrically connected with the second electronic module.

2. The frame of claim 1, wherein the wear section of at least one of the electronic temples is provided with a third electronic module and a first connector, the connection section of the electronic temple provided with the first connector being further provided with a second connector;

in the same electronic glasses leg, the third electronic module is electrically connected with the first connector, the second connector is electrically connected with the second electronic module, and the first connector is detachably connected with the second connector, so that the second electronic module and the third electronic module are electrically connected through the first connector and the second connector.

3. The frame of claim 2, wherein the first connector is securely attached to an end face of the wear segment for attachment to an end of the connection segment, and the second connector is securely attached to an end face of the connection segment for attachment to an end of the wear segment;

in the same electronic glasses leg, the first connector and the second connector are fixed in a plugging manner.

4. The frame of claim 2, wherein the third electronic module of at least one of the electronic temples comprises a speaker;

in the same piece of electronic glasses leg, the speaker is electrically connected with the first connector.

5. The frame of claim 4, wherein the wear segment comprises a bend and a connection;

in the same piece of electronic glasses leg, the one end of connecting portion with the tip of linkage segment can be dismantled and be connected, the other end of connecting portion with kink fastening connection, kink be used for with user's ear contact, the speaker is located connecting portion.

6. The frame of claim 2, wherein the third electronic module of at least one of the electronic temples comprises a first battery;

in the same electronic glasses leg, the first battery is electrically connected with the first connector.

7. The frame according to any one of claims 1 to 6, wherein one of an end face of the connection section for connecting with one end of the wearing section and an end face of the wearing section for connecting with one end of the connection section is provided with a groove, and the other one of the end face of the connection section for connecting with one end of the wearing section and the end face of the wearing section for connecting with one end of the connection section is provided with a projection;

in the same piece of electronic glasses leg, the lug is inserted in the groove, and the side wall of the groove clamps and fixes the lug so that the connecting section and the wearing section can be detachably connected.

8. The frame of any one of claims 1-6, wherein the second electronic module of at least one of the electronic temples comprises a motherboard, the motherboard electrically connected to the first electronic module.

9. The frame of any one of claims 1-6, wherein the second electronic module of at least one of the electronic temples comprises a second battery electrically connected to the first electronic module.

10. A pair of smart glasses comprising at least one lens and a frame as claimed in any one of claims 1 to 9;

the lenses are mounted on an electronic frame of the frame.

11. The smart glasses of claim 10 wherein at least one of the lenses is an optical waveguide lens;

the first electronic module of the glasses frame comprises a light machine, and the second electronic module of the glasses frame is electrically connected with the light machine.

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