CN210136374U

CN210136374U - Intelligent glasses

Info

Publication number: CN210136374U
Application number: CN201920960754.XU
Authority: CN
Inventors: 郭震; 王大鹏; 郑元景; 陈海靖; 姜滨; 迟小羽
Original assignee: Goertek Inc
Current assignee: Goertek Techology Co Ltd
Priority date: 2019-06-24
Filing date: 2019-06-24
Publication date: 2020-03-10
Anticipated expiration: 2029-06-24

Abstract

The utility model discloses an intelligent glasses belongs to electronic equipment technical field, including picture frame, mirror leg and heat radiation structure, be provided with the mirror leg heat pipe in the mirror leg, be provided with the picture frame heat pipe in the picture frame, the mirror leg heat pipe with the picture frame heat pipe is connected through the slewing mechanism that can conduct heat, mirror leg heat pipe and/or the picture frame heat pipe connection heat source, the picture frame heat pipe and/or the mirror leg heat pipe sets up inside the heat radiation structure, this design can use picture frame and mirror leg to dispel the heat jointly, has improved the whole radiating rate of glasses, and the radiating effect is good, effectively reduces product temperature, promotes user comfort in use.

Description

Intelligent glasses

Technical Field

The utility model belongs to the technical field of electronic equipment, concretely relates to intelligent glasses.

Background

Smart glasses are increasingly used in people's daily life. The folding storage of glasses is realized through the axis of rotation of connecting between picture frame and mirror leg to common intelligent glasses.

The main board and/or battery of the smart glasses are typically disposed in the temple portion of the smart glasses. During operation, the main board and/or the battery generate a large amount of heat, which is accumulated on the temples and is not easily dissipated.

The axis of rotation on the current intelligent glasses prevents the heat transfer of mirror leg to picture frame, can't dispel the heat through the picture frame, leads to intelligent glasses whole heat dispersion not high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides an intelligence glasses can make picture frame and mirror leg dispel the heat jointly to improve the whole radiating rate of glasses.

In order to solve the technical problem, the technical scheme of the utility model is that:

the utility model provides an intelligent glasses, includes picture frame, mirror leg and heat radiation structure, be provided with the mirror leg heat pipe in the mirror leg, be provided with the picture frame heat pipe in the picture frame, the mirror leg heat pipe with the picture frame heat pipe is connected through the slewing mechanism that can heat conduct, the mirror leg heat pipe and/or the heat source is connected to the picture frame heat pipe, the picture frame heat pipe and/or the mirror leg heat pipe sets up inside heat radiation structure.

Furthermore, slewing mechanism includes top flange piece and bottom flange piece, top flange piece with bottom flange piece can rotate around its axis relatively, top flange piece with mirror leg heat pipe or mirror frame heat pipe connects, bottom flange piece with mirror frame heat pipe or mirror leg heat pipe connects.

Furthermore, the end part of the mirror frame is connected with a mirror frame shaft arm, the end part of the mirror leg is connected with a mirror leg shaft arm, the mirror frame shaft arm is fixedly connected with a pin shaft, the mirror leg shaft arm is in clearance fit connection with the pin shaft, the top flange plate and the bottom flange plate are sleeved on the pin shaft, the top flange plate is fixedly connected with the pin shaft, and the bottom flange plate is in clearance fit connection with the pin shaft.

Furthermore, the pin shaft sleeve is provided with a spring which can enable the bottom flange plate to form extrusion force on the top flange plate, and the locking nut is fixedly connected to the pin shaft on one side of the top flange plate, which is far away from the bottom flange plate.

Further, heat radiation structure sets up the upper end of picture frame, the picture frame heat pipe sets up inside heat radiation structure, the picture frame includes preceding shell and protecgulum, heat radiation structure is for setting up preceding shell with the grid structure of protecgulum upper end.

Furthermore, the mirror leg includes inner shell and shell, the protecgulum with the shell is made by metal material, the protecgulum with the shell is made by plastic material, the protecgulum is close to one side of protecgulum with the inner shell is close to one side of shell all is pasted and is had the heat insulating mattress.

Further, the heat source is located the mainboard, the mainboard is connected with aluminum plate, the one end of mirror leg heat pipe is inlayed and is established aluminum plate, the mainboard with aluminum plate sets up one inside the mirror leg, another be provided with in the mirror leg with the battery that the mainboard electricity is connected.

Further, the gap between the heat source and the aluminum plate is filled with a thermally conductive gel.

Furthermore, a metal elastic sheet is connected between the end part of the mirror frame and the end part of the mirror leg, the metal elastic sheet is fixedly connected with the mirror frame, the mirror leg is provided with a threaded hole, the metal elastic sheet is provided with a runway hole, and a meson screw penetrates through the runway hole and then is in threaded connection with the threaded hole.

Furthermore, the end part of the mirror frame is provided with a limiting rib for limiting the bending angle of the metal elastic sheet.

After the technical scheme is adopted, the beneficial effects of the utility model are that:

because the utility model discloses an intelligent glasses includes the picture frame, mirror leg and heat radiation structure, be provided with mirror leg heat pipe in the mirror leg, be provided with the picture frame heat pipe in the picture frame, but mirror leg heat pipe is connected through the slewing mechanism of heat conduction with the picture frame heat pipe, mirror leg heat pipe and/or picture frame heat pipe connection heat source, picture frame heat pipe and/or mirror leg heat pipe set up inside heat radiation structure, can conduct heat between mirror leg heat pipe and the picture frame heat pipe, and can rotate and can not influence wearing of intelligent glasses and use, with heat transfer to picture frame and mirror leg on, make picture frame and mirror leg can dispel the heat jointly, thereby improve product radiating rate.

Because round pin axle box is equipped with the spring that can make bottom flange piece form the extrusion force to top flange piece, be located the epaxial fixedly connected with lock nut of round pin that bottom flange piece one side was kept away from to top flange piece, make top flange piece and bottom flange piece can abundant contact, reinforcing heat conduction effect to still can rotate relatively between top flange dish and the bottom flange dish.

Because be connected with metal shrapnel between picture frame tip and the mirror leg tip, metal shrapnel and picture frame fixed connection, the mirror leg is provided with the screw hole, and metal shrapnel is provided with the runway hole, and the meson screw passes behind the runway hole with screw hole threaded connection, and the picture frame tip is provided with the spacing muscle that is used for restricting metal shrapnel angle of buckling, and metal shrapnel can play clamping action, avoids the mirror leg to warp seriously and influences inside components and parts, and spacing muscle can make metal shrapnel can not excessively buckle, avoids damaging the product.

To sum up, the utility model discloses an intelligence glasses have solved the unable all parts heat dissipation of complete machine of intelligence glasses among the prior art and have leaded to the poor problem of radiating effect, the utility model discloses an intelligence glasses can use picture frame and mirror leg to dispel the heat jointly, have improved the radiating rate, and the radiating effect is good, effectively reduces product temperature, promotes user's use comfort level.

Drawings

Fig. 1 is a schematic structural view of the smart glasses of the present invention;

fig. 2 is an exploded schematic view of the structure of the smart glasses of the present invention;

fig. 3 is a schematic structural view of a rotating mechanism in the smart glasses of the present invention;

fig. 4 is a side view of the rotating mechanism in the smart glasses of the present invention;

fig. 5 is a top view of the rotating mechanism in the smart glasses of the present invention;

FIG. 6 is an enlarged schematic view of portion A of FIG. 2;

in the figure, 10-glasses frame, 11-front shell, 12-front cover, 13-heat dissipation structure, 14-glasses frame heat pipe, 15-glasses frame shaft arm, 16-limiting rib, 20-glasses leg, 21-outer shell, 22-inner shell, 23-main board, 24-aluminum plate, 25-glasses leg heat pipe, 26-battery, 27-glasses leg shaft arm, 28-heat insulation pad, 30-top flange piece, 31-bottom flange piece, 32-flange piece pin shaft, 33-spring, 34-locking nut, 35-gasket, 40-metal elastic sheet, 41-meson screw and 42-runway hole.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

All directions referred to in the present specification are based on the drawings, and represent relative positional relationships only, and do not represent absolute positional relationships.

As shown in fig. 1 and 2, the smart glasses comprise a frame 10, a temple 20 and a heat dissipation structure 13, wherein an optical engine (not shown) and a lens (not shown) are further mounted on the frame 10. A temple heat pipe 25 is arranged in the temple 20, a frame heat pipe 14 is arranged in the frame 10, the temple heat pipe 25 is connected with the frame heat pipe 14 through a heat-conducting rotating mechanism, the temple heat pipe 25 and/or the frame heat pipe 14 is connected with a heat source, and the frame heat pipe 14 and/or the temple heat pipe 25 is arranged inside the heat dissipation structure 13. Can conduct heat between mirror leg heat pipe 25 and the mirror frame heat pipe 14, and can rotate and can not influence wearing of intelligent glasses and use, with heat transfer to on picture frame 10 and the mirror leg 20 for picture frame 10 and mirror leg 20 can dispel the heat jointly, thereby improve the whole radiating rate of glasses. In the present embodiment, the temple heat pipe 25 is connected to a heat source, and the frame heat pipe 14 is provided inside the heat radiation structure 13.

As shown in fig. 2, 3 and 4 together, the rotating mechanism includes a top flange piece 30 and a bottom flange piece 31, the top flange piece 30 and the bottom flange piece 31 are relatively rotatable around their axes, the top flange piece 30 is connected with the temple heat pipe 25 or the frame heat pipe 14, and the bottom flange piece 31 is connected with the frame heat pipe 14 or the temple heat pipe 25. In the present embodiment, the top flange piece 30 is fixedly connected to the frame heat pipe 14, and the bottom flange piece 31 is fixedly connected to the temple heat pipe 25. The end portion of the glasses frame 10 is connected with a glasses frame axle arm 15, the end portion of the glasses leg 20 is connected with a glasses leg axle arm 27, the glasses frame axle arm 15 is fixedly connected with a pin shaft, the glasses leg axle arm 27 is in clearance fit connection with the pin shaft, the pin shaft is sleeved with a top flange piece 30 and a bottom flange piece 31, the top flange piece 30 is fixedly connected with the pin shaft, and the bottom flange piece 31 is in clearance fit connection with the pin shaft. As the temple 20 rotates relative to the frame 10, the temple shaft arm 27 and the bottom flange piece 31 rotate about the pin.

As shown in fig. 2, fig. 3 and fig. 4, the pin shaft sleeve is provided with a spring 33 which can make the bottom flange plate 31 form extrusion force to the top flange plate 30, and the pin shaft positioned on one side of the top flange plate 30 far away from the bottom flange plate 31 is fixedly connected with a locking nut 34 which can make the top flange plate 30 and the bottom flange plate 31 fully contact, so that the heat conduction effect is enhanced, and the top flange plate 30 and the bottom flange plate 31 can still rotate relatively. Wherein, the contact surface between the top flange piece 30 and the bottom flange piece 31 is coated with lubricating oil, which can improve the heat conductivity and reduce the friction. The two locking nuts 34 are respectively arranged on one side of the top flange piece 30 far away from the bottom flange piece 31 and between the bottom flange piece 31 and the glasses leg shaft arm 27, two ends of the spring 33 respectively abut against one side of the bottom flange piece 31 far away from the top flange piece 30 and the locking nut 34 located on the lower side, and a gasket 35 is sleeved on the flange piece pin shaft 32 located between the spring 33 and the locking nut 34.

As shown in fig. 3 and 4, the pin shaft is composed of a top pin shaft and a flange pin shaft 32, the top pin shaft is connected with the upper side frame shaft arm 15 and the lower side arm shaft 27, the flange pin shaft 32 is provided with threads, the lock nut 34, the top flange plate 30 and the lower side frame shaft arm 15 are in threaded connection with the flange pin shaft 32, and the bottom flange plate 31 and the lower side arm shaft arm 27 are in clearance fit connection.

As shown in fig. 1, 2 and 6, the heat dissipation structure 13 is disposed at the upper end of the frame 10, the heat pipe 14 is disposed inside the heat dissipation structure 13, the frame 10 includes a front shell 11 and a front cover 12, the heat dissipation structure 13 is a grid structure disposed at the upper ends of the front shell 11 and the front cover 12, and when the frame is worn, a user walks forward to form air convection to take away heat. The frame heat pipe 14 is welded on the front case 11, the frame shaft arm 15 is connected on the front case 11, and the front case 11 and the front cover 12 are fixed by dispensing. The temples 20 include an inner case 22 and an outer case 21, the front case 11 and the outer case 21 are made of a metal material having good heat dissipation, and the front cover 12 and the outer case 21 are made of a plastic material. The temple arm 27 is attached to the outer casing 21 and the inner casing 22 are fixed by dispensing. The preferred preceding shell 11 and the shell 21 use the magnalium to make in this embodiment, and heat dispersion is good, and strong structure, density is little, makes the product lighter, and protecgulum 12 and shell 21 use TR90 plastic material to make, and the heat insulating mattress 28 has all been pasted to one side that protecgulum 12 is close to preceding shell 11 and one side that the inner shell 22 is close to the shell 21, can avoid on heat transfer to protecgulum 12 and inner shell 22, influences user experience effect.

As shown in fig. 2, the heat source is located on the main plate 23, the main plate 23 is connected with the aluminum plate 24, one end of the temple heat pipe 25 is embedded on the aluminum plate 24, and the main plate 23 and the aluminum plate 24 are arranged inside one temple 20; the other temple 20 is provided with a battery 26 electrically connected to the main board 23, and the main board 23 is electrically and mechanically connected to the optical circuit. The gap between the heat source and the aluminum plate 24 was filled with a thermally conductive gel.

As shown in fig. 4 and 5, a metal spring 40 is connected between the end of the frame 10 and the end of the temple 20, the metal spring 40 is fixedly connected with the frame 10 through a screw, the temple 20 is provided with a threaded hole, the metal spring 40 is provided with a runway hole 42, and a meson screw 41 passes through the runway hole 42 and then is in threaded connection with the threaded hole. Wherein, the end of the temple 20 is provided with a screw post, the screw hole is arranged on the screw post, and the meson screw 41 is installed after the screw post passes through the runway hole 42. The metal elastic sheet 40 can play a role in clamping, the phenomenon that the deformation of the glasses legs 20 seriously affects internal components is avoided, the runway holes 42 are arranged to facilitate the rotation of the glasses legs 20, meanwhile, because the rotation axis of the metal elastic sheet 40 is not coincident with the rotation axis of the glasses legs 20, the metal elastic sheet 40 can provide inward clamping force and also can provide inward component force to enable the metal elastic sheet 40 to move when rotating, the meson screw 41 can limit the movement in the height direction, and the screw posts can move back and forth in the runway holes 42 but cannot be separated. The end of the frame 10 is provided with a limiting rib 16 for limiting the bending angle of the metal spring piece 40, so that the metal spring piece 40 can not be bent excessively when the frame is rotated to the maximum position, and the product is prevented from being damaged.

The utility model discloses an intelligent glasses is through setting up the picture frame heat pipe on the picture frame, sets up mirror leg heat pipe on the mirror leg to connect picture frame heat pipe and mirror leg heat pipe through the slewing mechanism that can conduct heat, make can the heat conduction between mirror leg heat pipe and the picture frame heat pipe, and can rotate and can not influence wearing of intelligent glasses and use, picture frame and mirror leg can dispel the heat jointly, thereby improve product radiating rate, promote use comfort.

Although specific embodiments of the present invention have been described above, it should be understood by those skilled in the art that the described embodiments are only some of the embodiments of the present invention, rather than all embodiments, which are given by way of illustration only, and the scope of the present invention is defined by the appended claims. Without any inventive step, those skilled in the art can make various changes or modifications to the embodiments without departing from the spirit and scope of the present invention.

Claims

1. The utility model provides an intelligent glasses, includes picture frame, mirror leg and heat radiation structure, its characterized in that, be provided with the mirror leg heat pipe in the mirror leg, be provided with the picture frame heat pipe in the picture frame, the mirror leg heat pipe with the picture frame heat pipe is connected through slewing mechanism that can heat conduct, the mirror leg heat pipe and/or the heat source is connected to the picture frame heat pipe, the picture frame heat pipe and/or the mirror leg heat pipe sets up inside heat radiation structure.

2. The smart eyewear of claim 1, wherein the rotation mechanism comprises a top flange piece and a bottom flange piece, the top flange piece and the bottom flange piece being relatively rotatable about their axes;

the top flange plate is connected with the glasses leg heat pipe or the glasses frame heat pipe, and the bottom flange plate is connected with the glasses frame heat pipe or the glasses leg heat pipe.

3. The pair of smart glasses according to claim 2, wherein a frame shaft arm is connected to the end of the frame, a temple shaft arm is connected to the end of the temple, a pin shaft is fixedly connected to the frame shaft arm, the temple shaft arm is in clearance fit connection with the pin shaft, the top flange plate and the bottom flange plate are sleeved on the pin shaft, the top flange plate is fixedly connected with the pin shaft, and the bottom flange plate is in clearance fit connection with the pin shaft.

4. The pair of smart glasses according to claim 3, wherein the pin sleeves are provided with springs capable of enabling the bottom flange pieces to form extrusion force on the top flange pieces, and locking nuts are fixedly connected to the pin shafts on the side, away from the bottom flange pieces, of the top flange pieces.

5. The smart eyewear of claim 1, wherein the heat dissipation structure is disposed at an upper end of the frame, the frame comprising a front shell and a front cover, the heat dissipation structure being a grid structure disposed at an upper end of the front shell and the front cover.

6. The smart glasses according to claim 5, wherein the glasses legs comprise an inner shell and an outer shell, the front shell and the outer shell are made of metal materials, the front cover and the outer shell are made of plastic materials, and heat insulation pads are adhered to both one side of the front cover close to the front shell and one side of the inner shell close to the outer shell.

7. The pair of smart glasses according to claim 1, wherein the heat source is located on a main board, the main board is connected with an aluminum plate, one end of the temple heat pipe is embedded on the aluminum plate, the main board and the aluminum plate are arranged inside one of the temples, and a battery electrically connected with the main board is arranged inside the other temple.

8. The smart eyewear of claim 7, wherein a gap between the heat source and the aluminum plate is filled with a thermally conductive gel.

9. The pair of smart glasses according to any one of claims 1-8, wherein a metal spring is connected between the end of the glasses frame and the end of the glasses leg, the metal spring is fixedly connected with the glasses frame, the glasses leg is provided with a threaded hole, the metal spring is provided with a runway hole, and a meson screw passes through the runway hole and then is in threaded connection with the threaded hole.

10. The pair of smart glasses according to claim 9, wherein a limiting rib for limiting the bending angle of the metal elastic sheet is disposed at an end of the glasses frame.