CN210605214U

CN210605214U - Intelligent glasses

Info

Publication number: CN210605214U
Application number: CN201921898927.6U
Authority: CN
Inventors: 王军
Original assignee: Unikom Beijing Technology Co Ltd
Current assignee: Unikom Beijing Technology Co Ltd
Priority date: 2019-11-06
Filing date: 2019-11-06
Publication date: 2020-05-22
Anticipated expiration: 2029-11-06

Abstract

The utility model discloses an intelligent glasses, this intelligent glasses include: the main body part is provided with a first accommodating cavity; the glasses leg part is connected with the main body part and is provided with a second accommodating cavity; the first circuit board is arranged in the first accommodating cavity; the second circuit board is arranged in the second accommodating cavity and is directly or indirectly attached to the side wall of the second accommodating cavity, and the second circuit board is electrically connected with the first circuit board. Some components and parts set up on first circuit board in this intelligence glasses, and another part components and parts set up on the second circuit board, and this moment, the quantity of components and parts on the first circuit board reduces for the heat that first circuit board produced reduces, thereby makes the temperature in the main part reduce, and consequently the components and parts in the main part are difficult to damage, and then have improved the security and the reliability of intelligence glasses.

Description

Intelligent glasses

Technical Field

The utility model relates to an intelligence wearing equipment technical field especially relates to an intelligent glasses.

Background

The intelligent glasses are wearable electronic equipment and can meet the requirements of users on shooting, conversation, audio-video entertainment and the like.

The intelligent glasses comprise a main body part and glasses leg parts, the main body part is connected with the glasses leg parts, lenses are installed on the main body part, and a main board of the intelligent glasses is installed on the main body part.

However, in order to make the smart glasses have a smaller size, more components are integrated on the main board of the smart glasses, so that the installation space of the components is reduced. Because the more components and parts of integration on the mainboard for produce more heat on the mainboard, cause the temperature in the main part higher, lead to components and parts to damage easily, and then make the security and the reliability of intelligent glasses reduce.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an intelligent glasses to the security and the low problem of reliability of solving intelligent glasses.

In order to solve the above problem, the utility model adopts the following technical scheme:

a smart eyewear comprising:

a main body portion provided with a first accommodation chamber;

the mirror leg part is connected with the main body part and is provided with a second accommodating cavity;

the first circuit board is arranged in the first accommodating cavity;

the second circuit board is arranged in the second accommodating cavity and is directly or indirectly attached to the side wall of the second accommodating cavity, and the second circuit board is electrically connected with the first circuit board.

Preferably, the temple portion includes a first temple portion and a second temple portion, and at least one of the first temple portion and the second temple portion is provided with the second accommodation chamber.

Preferably, the first and second temple portions are both provided with the second accommodating chamber, and are provided with the second circuit board, which is symmetrically arranged.

Preferably, the first temple portion and the second temple portion are both provided with the second accommodating cavity, one of the second accommodating cavities is provided with the second circuit board, and the other second accommodating cavity is provided with at least one of an electronic component and a weight.

Preferably, the second circuit board is indirectly attached to the side wall of the second accommodating cavity, the smart glasses further include a heat conducting element, the heat conducting element is disposed in the second accommodating cavity, and the heat conducting element is attached between the side wall of the second accommodating cavity and the second circuit board.

Preferably, the temple portion includes an outer shell and an inner shell, the outer shell and the inner shell are fastened and fixed to form the second accommodating cavity, and the heat conducting element is attached between the outer shell and the second circuit board.

Preferably, an edge of the heat conducting element extends to an edge of the outer case; or the shape of the heat conducting element is matched with the shape of the second circuit board.

Preferably, the temple portion includes an outer shell and an inner shell, the outer shell and the inner shell are fastened and fixed to form the second accommodating cavity, and the second circuit board is directly or indirectly attached to the outer shell.

Preferably, the heat insulation device further comprises a heat insulation element attached to the inner shell.

Preferably, an edge of the insulating element extends to an edge of the inner shell; or the shape of the insulating element matches the shape of the second circuit board.

Preferably, the temple portion has a first end and a second end, the first end is connected to the main body portion, the second end is a free end, and the second circuit board is located at the second end.

The utility model discloses a technical scheme can reach following beneficial effect:

the utility model discloses an among the intelligent glasses, can set up some components and parts on first circuit board, another part components and parts set up on the second circuit board, the second circuit board is attached in the second directly or indirectly and holds the lateral wall in chamber, at this moment, the quantity of components and parts on the first circuit board reduces for the heat that first circuit board produced reduces, thereby makes the temperature in the main part reduce, and consequently the components and parts in the main part are difficult to damage, and then has improved intelligent glasses's security and reliability.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

fig. 1 is a schematic view of smart glasses disclosed in the embodiments of the present invention;

fig. 2 is a schematic view of a part of the structure of the smart glasses disclosed in the embodiment of the present invention;

fig. 3 is a partial schematic view of a temple portion of the smart glasses disclosed in the embodiment of the present invention.

Description of reference numerals:

100-body part, 110-first accommodation cavity, 120-articulated shaft, 200-temple part, 210-first temple part, 220-second temple part, 230-second accommodation cavity, 240-outer shell, 250-inner shell, 300-first circuit board, 400-second circuit board, 500-wire, 600-heat conducting element, 700-lens, 800-second component.

Detailed Description

To make the purpose, technical solution and advantages of the present invention clearer, the following will combine the embodiments of the present invention and the corresponding drawings to clearly and completely describe the technical solution of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The technical solutions disclosed in the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

As shown in fig. 1-3, an embodiment of the present invention discloses a pair of smart glasses, which includes a main body 100, a temple portion 200, a first circuit board 300, and a second circuit board 400.

Main part 100 is the constitution main part of intelligent glasses, and it provides installation space for the most device that intelligent glasses contain, and this main part 100 is provided with first chamber 110 that holds, and first chamber 110 internally mounted that holds has the components and parts of intelligent glasses, and this components and parts specifically can be sensor, receiver and central processing unit etc.. Specifically, the main body 100 is provided with two lenses 700, and the main body 100 may be made of plastic or alloy material.

The temple part 200 is connected to the main body part 100, and the temple part 200 is provided with a second receiving chamber 230, and the temple part 200 is used for a user to wear smart glasses. Specifically, the temple portion 200 may be hinged with the main body portion 100; corresponding hooks may be provided on the temple part 200 and the main body part 100 to allow the temple part 200 and the main body part 100 to be clamped; threaded connections may also be used to threadably connect temple portion 200 to body portion 100. Temple portion 200 may be made of plastic or alloy material.

The first circuit board 300 is disposed in the first accommodating cavity 110, and the first circuit board 300 may be a main board of the smart glasses.

The second circuit board 400 is disposed in the second accommodating cavity 230 and directly or indirectly attached to the sidewall of the second accommodating cavity 230, and the second circuit board 400 is electrically connected to the first circuit board 300. Specifically, the first circuit board 300 and the second circuit board 400 are printed circuit boards, or the first circuit board 300 and the second circuit board 400 are rigid-flex boards, or the first circuit board 300 and the second circuit board 400 include a flexible circuit board and a reinforcing board which are attached to each other. Specifically, the component on the first circuit board 300 is a first component, the component on the second circuit board 400 is a second component 800, and the second component 800 may be a sensor or other functional chip.

The embodiment of the utility model provides an in, can set up some components and parts in intelligent glasses on first circuit board 300, another part components and parts set up on second circuit board 400, second circuit board 400 is attached in the second directly or indirectly and holds the lateral wall of chamber 230, at this moment, the quantity of components and parts on first circuit board 300 reduces, make the heat that first circuit board 300 produced reduce, thereby make the temperature in the main part 100 reduce, consequently, components and parts in the main part 100 are difficult to damage, and then the security and the reliability of intelligent glasses have been improved.

Specifically, the temple portion 200 includes a first temple portion 210 and a second temple portion 220, and at least one of the first temple portion 210 and the second temple portion 220 is provided with a second receiving chamber 230. This scheme makes the user wear intelligent glasses more convenient, convenient. Alternatively, the first temple portion 210 may be provided with the second accommodating chamber 230, or the second temple portion 220 may be provided with the second accommodating chamber 230.

In order to further reduce the number of components integrated on the first circuit board 300, the temple portion 200 of the smart glasses may include a first temple portion 210 and a second temple portion 220, in an alternative embodiment, the first temple portion 210 and the second temple portion 220 are both provided with the second accommodating cavity 230, and the second circuit board 400 is provided at the same time. At this time, the number of components on the first circuit board 300 is further reduced, and thus, the amount of heat generated on the first circuit board 300 is less, thereby further reducing the temperature inside the main body part 100, and promoting higher safety and reliability of the smart glasses.

In order to prevent the user from being inclined when wearing the smart glasses, further, the second circuit board 400 may be symmetrically arranged. At this time, the distribution positions of the second circuit board 400 in the first temple portion 210 and the second circuit board 400 in the second temple portion 220 are substantially the same, so that the weight distribution of the two temple portions 200 is uniform, and therefore when a user wears the smart glasses, the phenomenon that the smart glasses incline to one side does not occur, and the user experience is better.

In another embodiment, the first and

second temple portions

210 and 220 are respectively provided with second receiving cavities 230, wherein one of the second receiving cavities 230 may be provided with the second circuit board 400, and the other second receiving cavity 230 may be provided with at least one of an electronic component and a weight. At this time, the weight of the first temple portion 210 is substantially the same as the weight of the second temple portion 220, so that when a user wears the smart glasses, the smart glasses do not tilt to one side, and the user experience is further improved.

When electronic components are disposed in the second receiving cavity 230, the number of electronic components on the first circuit board 300 can be further reduced, thereby further reducing the heat generated by the first circuit board 300. Optionally, the electronic component may be at least one of a microphone and a speaker.

In the above embodiment, the pins may be additionally arranged on the first circuit board 300 and the second circuit board 400, and the pins on the first circuit board 300 and the pins on the second circuit board 400 are electrically connected, however, the length of the pins is small, so the positions of the first circuit board 300 and the second circuit board 400 are relatively close to each other, and thus, heat is relatively concentrated, which is not beneficial to heat dissipation of the smart glasses. In another embodiment, the smart glasses further include a wire 500, the main body 100 is provided with a hinge shaft 120, and the temple portion 200 is hinged to the main body 100 through the hinge shaft 120, so that the temple portion 200 can be folded with respect to the main body 100, thereby facilitating storage of the smart glasses. A gap is formed between the hinge shaft 120 and the body 100, one end of the wire 500 is electrically connected to the second circuit board 400, and the other end of the wire 500 passes through the gap and is electrically connected to the first circuit board 300. At this time, the length of the wire 500 is long, so that the second circuit board 400 can be arranged at a far position, and therefore the heat generated by the first circuit board 300 and the second circuit board 400 cannot affect each other, and further the heat dissipation of the smart glasses cannot be affected. Meanwhile, the wire 500 is more flexible than the pins, so that the wire can be bent at a high frequency, and the safety and reliability of the intelligent glasses are further improved.

The temperature of the region where the temple portion 200 is attached to the face of the user is too high, which causes an uncomfortable feeling to the user and thus makes the user experience poor. In an alternative embodiment, temple portion 200 includes an outer shell 240 and an inner shell 250, where inner shell 250 conforms to the face of the user and outer shell 240 is spaced away from the face of the user. The outer housing 240 and the inner housing 250 are fastened to form the second accommodating cavity 230, and the second circuit board 400 is directly or indirectly attached to the outer housing 240. At this time, the heat generated on the second circuit board 400 is transferred to the outer case 240, so that the heat received by the inner case 250 is less, and thus the temperature of the inner case 250 is lower, and the user feels relatively comfortable when wearing the smart glasses, thereby improving the user experience. Specifically, a double-sided tape may be used to adhere the second circuit board 400 and the outer case 240. The outer housing 240 and the inner housing 250 may also be connected by bolts, snaps, or the like.

As can be seen from the above, the second circuit board 400 is disposed on the outer casing 240, and the heat generated by the second circuit board 400 is radiated out through the outer casing 240, however, a part of the heat on the second circuit board 400 is still transferred to the inner casing 250 through the air, so that the temperature of the inner casing 250 rises, and the user experience is reduced, and for this reason, in an optional embodiment, the smart glasses further include a heat insulation element attached to the inner casing 250. At this time, the area of the contact surface between the hot air in the second accommodating chamber 230 and the inner housing 250 is reduced, so that the amount of heat transferred to the inner housing 250 is reduced, and the temperature of the inner housing 250 is lower, thereby further improving the user experience. In particular, the insulating element may be glass fiber, asbestos, vacuum panels, etc., and the insulating element may also be made of other insulating materials, which is not limited herein.

Optionally, the shape of the insulating element matches the shape of the second circuit board 400, such that when the second circuit board 400 is attached to the insulating element, the edge of the insulating element is substantially flush with the edge of the second circuit board 400. Meanwhile, the second circuit board 400 does not have a suspended portion, so that the board surface of the second circuit board 400 is not easy to break.

In addition, the edge of the heat insulation member may extend to the edge of the inner case 250. At this time, the area of the inner case 250 that can be covered by the heat insulating member is increased, so that the area of the contact surface of the hot air with the inner case 250 can be further reduced, thereby making the heat insulating effect of the temple portion 200 better.

In order to improve the heat dissipation efficiency of the smart glasses, in an optional embodiment, the second circuit board 400 is indirectly attached to the second sidewall that holds the chamber 230, the utility model discloses a smart glasses further includes a heat conducting element 600, the heat conducting element 600 is disposed in the second holding chamber 230, the heat conducting element 600 is attached between the second sidewall that holds the chamber 230 and the second circuit board 400. At this time, the heat generated from the second circuit board 400 is uniformly dispersed to the temple portion 200 through the heat conductive member 600, and the heat dissipation area of the temple portion 200 is increased, thereby improving the heat dissipation performance of the smart glasses.

When the temple part 200 includes the outer case 240 and the inner case 250, if the heat conductive member 600 is in contact with the inner case 250 and the second circuit board 400, respectively, since the user's face is in contact with the inner case 250, the temperature of the user's face is transferred to the inner case 250, so that the heat dissipation performance of the smart glasses is lowered. For this reason, in an alternative embodiment, the heat conducting element 600 is attached between the outer casing 240 and the second circuit board 400. At this time, the heat conducting element 600 uniformly conducts the heat generated on the second circuit board 400 to the outer casing 240, and the temperature of the outer casing 240 is low, so that the heat dissipation efficiency is high, and the heat dissipation performance of the smart glasses is further improved. Meanwhile, the temperature of the inner side shell 250 is substantially the same as the temperature of the face of the user, so that the user feels relatively comfortable when wearing the smart glasses, and better user experience is achieved. Specifically, the heat conducting element 600 may be a copper foil, a heat conducting rubber, or the like, and the heat conducting element 600 may also be another heat conducting material, which is not limited herein.

Optionally, the shape of the heat conducting element 600 matches the shape of the second circuit board 400, and when the second circuit board 400 is attached to the heat conducting element 600, the edge of the heat conducting element 600 is substantially flush with the edge of the second circuit board 400, so that heat generated by the second circuit board 400 can be substantially transferred to the heat conducting element 600, and thus the heat transfer efficiency is good, and the heat dissipation efficiency is high. Meanwhile, the second circuit board 400 does not have a suspension area, so that the board surface of the second circuit board 400 is not easy to break.

In addition, an edge of the heat conductive member 600 may extend to an edge of the outer case 240. At this time, the area of the heat conducting element 600 is increased, so that the heat dissipation area inside the temple portion 200 is large, the heat dissipation effect of the temple portion 200 is better, and the heat dissipation performance of the smart glasses is higher.

Specifically, the temple portion 200 has a first end connected to the main body portion 100 and a second end, which is a free end, at which the second circuit board 400 is located. At this moment, second circuit board 400 and first circuit board 300 are far away from each other, and consequently the heat that first circuit board 300 and second circuit board 400 produced can not influence each other to make the radiating effect of intelligent glasses better, simultaneously, the second end is located user's ear back, and consequently the influence that the heat that second circuit board 400 produced led to the fact to the user is less, has further optimized user experience.

In a preferred embodiment, the temple portion 200 includes an outer case 240 and an inner case 250, the heat conducting element 600 is attached between the outer case 240 and the second circuit board 400, and the heat insulating element is attached to the inner case 250. At this moment, the heat conducting element 600 uniformly transfers the heat generated on the second circuit board 400 to the outer shell 240, the heat is radiated out through the outer shell 240, and meanwhile, the heat insulating element is attached to the inner shell 250 to block the transfer path of the heat transferred to the inner shell 250, so that the scheme can realize high-efficiency heat dissipation of the intelligent glasses, further reduce the temperature of the inner shell 250, and further improve the use performance of the intelligent glasses.

In an alternative embodiment, the height of the first end is less than the height of the second end, and the height is in a direction parallel to the second circuit board 400 and perpendicular to the extending direction of the temple portion 200. At this time, the space in the second end is larger than the space in the first end, and thus the size of the second circuit board 400 may be set relatively large, so that the number of components mounted on the second circuit board 400 is increased, thereby improving the integration of the second circuit board 400. Simultaneously, the partly of second end is outstanding for first end, and when the user wore intelligent glasses, the ear of user can be blocked to the outstanding part of second end for intelligent glasses is difficult to drop from user's ear, thereby has improved the reliability when wearing intelligent glasses.

The utility model discloses what the key description in the above embodiment is different between each embodiment, and different optimization characteristics are as long as not contradictory between each embodiment, all can make up and form more preferred embodiment, consider that the literary composition is succinct, then no longer describe here.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. A smart eyewear, comprising:

a main body part (100), the main body part (100) being provided with a first accommodation cavity (110);

the mirror leg part (200), the mirror leg part (200) is connected with the main body part (100), and the mirror leg part (200) is provided with a second accommodating cavity (230);

a first circuit board (300), wherein the first circuit board (300) is arranged in the first accommodating cavity (110);

the second circuit board (400) is arranged in the second accommodating cavity (230) and is directly or indirectly attached to the side wall of the second accommodating cavity (230), and the second circuit board (400) is electrically connected with the first circuit board (300).

2. The smart eyewear of claim 1, wherein the temple portion (200) comprises a first temple portion (210) and a second temple portion (220), at least one of the first temple portion (210) and the second temple portion (220) being provided with the second receiving cavity (230).

3. The smart eyewear of claim 2, wherein the first temple portion (210) and the second temple portion (220) each provide the second receiving cavity (230) and, at the same time, the second circuit board (400) being symmetrically arranged.

4. The smart glasses according to claim 2, wherein the first temple portion (210) and the second temple portion (220) are each provided with the second receiving cavity (230), wherein the second circuit board (400) is provided in one of the second receiving cavities (230), and at least one of an electronic component and a weight is provided in the other second receiving cavity (230).

5. The smart glasses according to claim 1, wherein the second circuit board (400) is indirectly attached to a sidewall of the second receiving cavity (230), the smart glasses further comprising a heat conducting element (600), the heat conducting element (600) is disposed in the second receiving cavity (230), and the heat conducting element (600) is attached between the sidewall of the second receiving cavity (230) and the second circuit board (400).

6. The smart glasses according to claim 5, wherein the temple portion (200) comprises an outer shell (240) and an inner shell (250), the outer shell (240) and the inner shell (250) are fixed in a snap fit manner to form the second accommodating cavity (230), and the heat conducting element (600) is attached between the outer shell (240) and the second circuit board (400).

7. The smart eyewear of claim 6 wherein an edge of the thermally conductive element (600) extends to an edge of the outer shell (240); or the shape of the heat conducting element (600) matches the shape of the second circuit board (400).

8. The smart glasses according to claim 1, wherein the temple portion (200) comprises an outer shell (240) and an inner shell (250), the outer shell (240) and the inner shell (250) are fixed in a snap fit manner to form the second accommodating cavity (230), and the second circuit board (400) is directly or indirectly attached to the outer shell (240).

9. The smart eyewear of claim 8 further comprising a thermal insulating element affixed to the inner shell (250).

10. The smart eyewear of claim 9 wherein an edge of the insulating element extends to an edge of the inner shell (250); or the shape of the thermally insulating element matches the shape of the second circuit board (400).

11. The smart eyewear of claim 8 wherein the temple portion (200) has a first end connected to the body portion (100) and a second end, the second end being a free end, the second circuit board (400) being located at the second end.