CN212623434U - Intelligent head-mounted equipment - Google Patents

Abstract

The embodiment of the application discloses intelligent head-mounted equipment belongs to intelligence and dresses technical field. The glasses comprise a glasses frame, glasses legs and a heating module, wherein the heating module is arranged in the glasses legs; when the intelligent head-mounted equipment is in a wearing state, the glasses legs and the glasses frame are provided with inner walls close to the face of a user and outer walls far away from the face of the user; a flexible heat conductive sheet disposed within the temple and extending to the frame; the first surface of the flexible heat conducting fin is connected with the heating module, and the second surface of the flexible heat conducting fin is connected with the outer wall. The embodiment of the application improves the heat dissipation efficiency of the intelligent head-mounted equipment.

Description

Intelligent head-mounted equipment

Technical Field

The application relates to the technical field of intelligent wearing, more specifically, this application relates to an intelligence head-mounted apparatus.

Background

The intelligent head-mounted equipment has more and more powerful functions, and the heating module generates more and more heat. For example, intelligent head-mounted devices is intelligent glasses, and common intelligent glasses are foldable, mainly include the picture frame and rotate respectively and install the mirror leg in picture frame both sides, and the mainboard and the battery of intelligent glasses mainly set up on the mirror leg.

Because mainboard and battery are the main components that generate heat of intelligent glasses, can produce a large amount of heats in the use in mirror leg department. In the prior art, a heat pipe and other parts are generally arranged at the temple to dissipate heat through the temple, but the generated heat cannot be quickly exhausted in such a way, and the using effect of a user is influenced.

Disclosure of Invention

An object of this application is to provide a new technical scheme of intelligent head-mounted device to solve the technical problem that intelligent head-mounted device's radiating efficiency is low among the prior art.

In order to solve the technical problem, the present application is implemented as follows:

in a first aspect, an intelligent headset is provided. The smart headset includes:

a spectacle frame and spectacle legs;

the heating module is arranged in the glasses legs;

when the intelligent head-mounted equipment is in a wearing state, the glasses legs and the glasses frame are provided with inner walls close to the face of a user and outer walls far away from the face of the user;

a flexible heat conductive sheet disposed within the temple and extending to the frame;

the first surface of the flexible heat conducting fin is connected with the heating module, and the second surface of the flexible heat conducting fin is connected with the outer wall.

In the embodiment of this application, flexible conducting strip sets up in the mirror leg and extend to the picture frame, the heat that the module that generates heat that sets up in the mirror leg produced can conduct to the picture frame through flexible conducting strip, dispels the heat through the surface of mirror leg and picture frame, has improved intelligent head-mounted device's heat-sinking capability.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent headset according to an embodiment of the present application.

Fig. 2 is a partial view of a structure of an intelligent head-mounted device according to an embodiment of the present application.

Fig. 3 is a second partial view of the structure of the smart headset according to the embodiment of the present application.

Description of reference numerals:

101 temple, 102 battery, 103 circuit board, 104-heat insulation film, 105-flexible heat conducting sheet, 106 heat conducting agent, 107 heat radiating sheet, 108 frame and 109 lens.

Detailed Description

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

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be practiced in sequences other than those illustrated or described herein, and that the terms "first," "second," and the like are generally used herein in a generic sense and do not limit the number of terms, e.g., the first term can be one or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The electronic device provided by the embodiment of the present application is described in detail by specific embodiments with reference to the accompanying drawings.

The embodiment of the application provides an intelligent head-mounted device. Referring to fig. 1 to 3, the smart headset includes:

frame 108 and temple 101;

the frame 108 and the temple 101 can be movably connected, for example, the frame 108 and the temple 101 are rotatably connected, and the temple 101 is bent at the connection position with the frame 108, so that the overall volume of the intelligent head-mounted device is reduced, and the intelligent head-mounted device is more convenient to store. The frame 108 has a frame in which a lens 109 is provided.

A heat generating module disposed inside the temple 101; for example, a cavity is formed in the temple 101, and the heat generating module is disposed in the cavity.

When the intelligent headset is in a wearing state, the temples 101 and the glasses frame 108 have inner walls a close to the face of the user and outer walls b far away from the face of the user;

a flexible thermal conductor 105, said flexible thermal conductor 105 being arranged inside said temple 101 and extending to said frame 108;

the first surface of the flexible heat-conducting sheet 105 is connected to the heat generating module, and the second surface of the flexible heat-conducting sheet 105 is connected to the outer wall b.

This application adopts flexible conducting strip 105 to carry out the heat conduction, wherein flexible conducting strip 105 has the ductility, flexible conducting strip 105 that sets up in mirror leg 101 can extend to picture frame 108, for example flexible conducting strip 105 that sets up on mirror leg 101 and flexible conducting strip 105 that sets up on picture frame 108 can adopt same flexible conducting strip, flexible conducting strip 105 can match the structure of mirror leg 101 and picture frame 108 completely, make full use of mirror leg 101 and the surface of picture frame 108 dispel the heat, compared with the prior art, the heat radiating area and the heat-sinking capability of intelligent head-mounted equipment have been improved.

On the other hand, because the flexible heat conduction sheet 105 has ductility, the flexible heat conduction sheet 105 can be deformed at the connection part of the glasses frame 108 and the glasses legs 101, compared with the prior art, the present example avoids additionally using a connection mechanism to connect the heat conduction sheet arranged on the glasses legs with the heat conduction sheet arranged on the glasses frame, the internal space of the present example is saved, and more space is provided for heat dissipation.

The heat that the module that generates heat produced at the mirror leg in this application embodiment can conduct to the picture frame through flexible conducting strip, dispel the heat through the surface of mirror leg and picture frame, has improved intelligent head-mounted device's heat-sinking capability.

Optionally, referring to fig. 2 to 3, the smart wearable device further includes a heat insulation film 104, where the heat insulation film 104 includes a heat equalizing layer and a heat insulating layer;

the heat insulation film 104 is arranged in the glass leg 101, the heat equalizing layer is attached to the heating module, and the heat insulation layer is attached to the inner wall a of the glass leg; and/or

The heat insulation film 104 is arranged in the mirror frame 108, the heat equalizing layer is attached to the flexible heat conducting sheet 105, and the heat insulation layer is attached to the inner wall a of the mirror frame.

Specifically, as shown in fig. 2 and 3, the heat insulating film 104 provided in the temple 101 is a heat insulating film 104a, and the heat insulating film 104 provided in the frame 108 is a heat insulating film 104 b;

when the heat insulation film 104a is arranged on the glasses legs 101, the soaking layer is arranged close to the heating module, so that the heat circulation area is increased, and the heat dissipation capacity of the intelligent head-wearing device is improved; the setting of mirror leg inner wall a is hugged closely to the insulating layer, plays isolated heat transfer's effect, avoids the user face to feel the heat that the module produced that generates heat, promotes user experience.

When the heat insulation film 104b is arranged on the frame 108, the heat equalizing layer is attached to the flexible heat conducting sheet 105b, so that the heat conducting and equalizing performance of the flexible heat conducting sheet is enhanced, heat accumulation is avoided, and heat of the flexible heat conducting sheet 105b can be quickly dissipated through the outer surface of the frame 108; the setting of picture frame inner wall a is hugged closely to the insulating layer, plays isolated heat transfer's effect, avoids the user face to feel the heat that the module produced that generates heat, promotes user's experience and feels.

Alternatively, as shown in fig. 2 to 3, the heat insulating film 104b provided in the frame 108 and the heat insulating film 104a provided in the temple 101 are connected.

Specifically, the heat insulating film 104a and the heat insulating film 104b may form a connection within the frame 108, or may form a connection within the temple 101, or may form a connection at the connection of the temple 101 and the frame 108; the heat insulation film 104 arranged in the temple 101 can extend into the mirror frame 108, and the heat generated by the heating module is prevented from being conducted to the face of a user, so that the user experience is improved.

Alternatively, as shown in fig. 1 to 3, a heat conducting agent 106 is disposed between the flexible heat conducting sheet 105 and the heat generating module, and the flexible heat conducting sheet 105 is connected to the heat generating module through the heat conducting agent 106.

Specifically, the heat conducting agent 106 plays a role of connecting the flexible heat conducting sheet 105 and the heating module, so that the connection strength between the flexible heat conducting sheet 105 and the heating module is improved, and the heat conducting agent 106 has a heat conducting property, so that heat generated by the heating module can be conducted to the flexible heat conducting sheet 105, and the heat conducting property of the intelligent head-mounted device is enhanced.

Alternatively, as shown in fig. 1 to 3, the temple outer wall b is provided with a heat sink 107, and the heat sink 107 is connected with the flexible heat-conducting sheet 105 through a heat-conducting agent 106.

Specifically, one surface of the heat radiating fin 107 is connected to the temple outer wall b, and the other surface of the heat radiating fin 107 is connected to the flexible heat conductive sheet 105. The cooling fins 107 are used for balancing heat, so that the heat conducting performance of the intelligent head-mounted equipment is improved; on the other hand, heat generated by the heat generating module can be dissipated through the temple 101.

The thermal conductive agent 106 of this example functions to connect the flexible thermal conductive sheet 105 and the heat sink, and improves the connection strength between the flexible thermal conductive sheet 105 and the heat sink, and the thermal conductive agent 106 has thermal conductive properties, and conducts heat to the heat sink via the flexible thermal conductive sheet 105 and the thermal conductive agent 106, and dissipates heat via the heat sink and the temple, thereby enhancing the heat dissipation performance of the smart headset.

Optionally, the frame outer wall b is provided with a heat sink 107, and the heat sink 107 is connected to the flexible heat-conducting fin 105 through a heat-conducting agent 106. This example can improve the heat dispersion of intelligent head-mounted device.

Optionally, the heat dissipation plate 107 is made of a metal material or a graphite sheet, so that the heat dissipation performance of the heat dissipation plate 107 is improved.

The graphite sheet has unique crystal grain orientation, heat is uniformly conducted along two directions, and the laminated structure can be well adapted to any surface, so that the heat conducting performance of the intelligent head-wearing equipment is improved; the graphite flake also provides thermal insulation in the aspect of thickness in even radiating, and the graphite flake is used to intelligent head-mounted apparatus, can improve user experience and feel.

Optionally, referring to fig. 1, the temple 101 includes a first temple 101a and a second temple 101 b; the frame 108 is disposed between the first temple 101a and the second temple 101 b; one end of the flexible heat-conducting strip 105 is arranged in the first temple 101a, the flexible heat-conducting strip 105 extends to the frame 108 and the second temple 101b, and the other end of the flexible heat-conducting strip 105 is arranged in the second temple 101 b.

The flexible conducting strip 105 of this example can extend to one side mirror leg from one side mirror leg through picture frame 108, and flexible conducting strip 105 adapts to intelligent head-mounted apparatus's structure and surface, make full use of intelligent head-mounted apparatus's heat dissipation space, has promoted intelligent head-mounted apparatus's heat radiating area and heat-sinking capability greatly.

Optionally, referring to fig. 1, the smart headset includes a first temple 101a and a first frame connected to the first temple 101a, a second temple 101b and a second frame connected to the second temple 101b, and the first frame and the second frame are connected through a nose bridge; the flexible heat conducting fin 105 comprises a first flexible heat conducting fin and a second flexible heat conducting fin, one end of the first flexible heat conducting fin is arranged in the first glasses leg 101a, and the other end of the first flexible heat conducting fin extends to the nose frame through the first glasses frame; one end of the second flexible heat conducting fin is arranged in the second glasses leg 101b, the other end of the second flexible heat conducting fin extends to the nose frame through the second glasses frame, and the first flexible heat conducting fin and the second flexible heat conducting fin are connected in the nose frame.

The flexible heat-conducting fin 105 can better adapt to the structure and the surface of the intelligent head-mounted device, the heat dissipation space of the intelligent head-mounted device is fully utilized, and the heat dissipation area and the heat dissipation capacity of the intelligent head-mounted device are greatly improved.

Alternatively, referring to fig. 2 to 3, the heat generating module includes a circuit board 103, a battery 102, and the circuit board 103 and the battery 102 are respectively disposed in the two temples.

Specifically, the two temples include a first temple and a second temple; cavities are arranged in the first and second temples and used for accommodating the circuit board 103 and the battery 102.

The heating module of the intelligent head-mounted device comprises a circuit board 103 and a battery 102, wherein the circuit board 103 is located in a cavity of a first glasses leg, and the battery 102 is located in a cavity of a second glasses leg, so that the balance of the intelligent head-mounted device is improved, and the situation that a user is inclined when wearing the intelligent head-mounted device is avoided.

In this example, the circuit board 103 and the battery 102 are connected by a connecting wire, and the battery 102 supplies power to the circuit board 103 by the connecting wire, so that each functional module arranged on the circuit board 103 can normally operate, and the multifunctional requirement of the intelligent head-mounted device is met.

Optionally, the circuit board 103 includes a shielding cover 1031, and the flexible heat conduction sheet 105 is disposed on the shielding cover 1031 via a heat conduction agent 106.

The shielding cover 1031 of this example is used to protect the functional modules disposed on the circuit board 103, and is used to shield signals and prevent the flexible heat-conducting sheet 105 from interfering with the signals.

Specifically, referring to fig. 3, the heat generated by the circuit board 103 is transferred to the flexible heat conductive sheet 105a through the shield cover 1031 and the heat conductive agent 106, and the flexible heat conductive sheet 105a transfers a part of the heat to the heat sink 107 through the heat conductive agent 106 on the one hand, and the part of the heat is dissipated to the external environment through the temple 101; while on the other hand the flexible thermally conductive sheet 105a diffuses another part of the heat to the flexible thermally conductive sheet 105b, said another part of the heat being dissipated through the frame 108.

Referring to fig. 2, the heat of the battery 102 is transferred to the flexible heat-conducting sheet 105a through the heat-conducting agent 106, and the flexible heat-conducting sheet 105a transfers a part of the heat to the heat sink 107 through the heat-conducting agent 106, and the part of the heat is dissipated to the external environment through the temple 101; while on the other hand the flexible thermally conductive sheet 105a diffuses another part of the heat to the flexible thermally conductive sheet 105b, said another part of the heat being dissipated through the frame 108.

Alternatively, as shown in fig. 1, the temple 101 includes a fixed section 02 connected to the frame 108 and an extension section 01 integrally formed with the fixed section 02, and the heat generating module is disposed at the fixed section 02.

Being in the wearing state at intelligent head-mounted apparatus, canned paragraph 02 is located the front end, and extension 01 is located the rear end, and the module of generating heat is located mirror leg 101 front end and can makes the better balanced sense of keeping wearing the in-process of user, avoids intelligent head-mounted apparatus to incline the circumstances such as backward.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. The term "comprising" is used to specify the presence of stated features, integers, steps, operations, elements, components, operations.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An intelligent headset, comprising:

a spectacle frame and spectacle legs;

the heating module is arranged in the glasses legs;

when the intelligent head-mounted equipment is in a wearing state, the glasses legs and the glasses frame are provided with inner walls close to the face of a user and outer walls far away from the face of the user;

a flexible heat conductive sheet disposed within the temple and extending to the frame;

the first surface of the flexible heat conducting fin is connected with the heating module, and the second surface of the flexible heat conducting fin is connected with the outer wall.

2. The smart headset of claim 1, further comprising a thermal insulating film comprising a thermal equalizing layer and a thermal insulating layer;

the heat insulation film is arranged in the glasses legs, the heat equalizing layer is attached to the heating module, and the heat insulation layer is attached to the inner walls of the glasses legs; and/or the presence of a gas in the gas,

the heat insulation film is arranged in the mirror frame, the heat equalizing layer is attached to the flexible heat conducting fins, and the heat insulation layer is attached to the inner wall of the mirror frame.

3. The smart headset of claim 2, wherein the thermal insulating film disposed within the frame and the thermal insulating film disposed within the temple form a connection.

4. The intelligent headset of claim 1, wherein a thermal conductive agent is disposed between the flexible thermal conductive sheet and the heat generating module, and the flexible thermal conductive sheet is connected to the heat generating module via the thermal conductive agent.

5. The smart headset of claim 1, wherein the outer wall of the temple is provided with a heat sink, and the heat sink is connected to the flexible heat conducting fin through a heat conducting agent.

6. The smart headset of claim 1, wherein the flexible thermally conductive sheet is in particular a graphite sheet.

7. The smart headset of claim 1, wherein the temple arms include a first temple arm, a second temple arm; the glasses frame is arranged between the first glasses leg and the second glasses leg;

one end of the flexible heat conducting sheet is arranged in the first glasses leg, the flexible heat conducting sheet extends to the glasses frame and the second glasses leg, and the other end of the flexible heat conducting sheet is arranged in the second glasses leg.

8. The intelligent headset of claim 1, wherein the intelligent headset comprises a first temple and a first frame connected to the first temple, a second temple and a second frame connected to the second temple, the first frame and the second frame being connected by a nose bridge;

the flexible heat conducting fins comprise a first flexible heat conducting fin and a second flexible heat conducting fin, one end of the first flexible heat conducting fin is arranged in the first glasses leg, and the other end of the first flexible heat conducting fin extends to the nose frame through the first glasses frame;

one end of the second flexible heat conducting fin is arranged in the second glasses leg, the other end of the second flexible heat conducting fin extends to the nose frame through the second glasses frame, and the first flexible heat conducting fin and the second flexible heat conducting fin are connected in the nose frame.

9. The smart headset of claim 1, wherein the heat generating module comprises a circuit board and a battery, the circuit board and the battery being disposed within the two temples, respectively.

10. The smart headset of claim 9, wherein the circuit board includes a shield cover, the flexible thermally conductive sheet being disposed on the shield cover via a thermally conductive agent.

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