Intelligent glasses with heat-dissipating function

A technology of smart glasses and functions, which is applied in the directions of glasses/goggles, optics, instruments, etc. It can solve the problems that the mirror legs cannot be stopped, affect the rotation effect, and the screws are loose, so as to achieve the appropriate temperature of the body and realize the cooling effect. The effect of preventing loosening

Pending Publication Date: 2019-02-15
北京阿法龙科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] Additionally, if figure 1 As shown, the mirror legs are flexibly connected to the lens frame through the rotating shaft, and one end of the rotating shaft is provided with a locking screw, and a rotating sleeve is sleeved outside the rotating shaft, and the rotating sleeve is connected to the mirror legs; since the rotating sleeve does not contact the mounting seat of the lens frame, the mirror The legs cannot stop at any angle; when the mirror legs are turned, the friction caused by the rotating sleeve on the locking screw will cause the screw to loosen and affect the rotation effect

Method used

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  • Intelligent glasses with heat-dissipating function
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  • Intelligent glasses with heat-dissipating function

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025] Embodiment 1: see attached figure 2 , a kind of smart glasses with heat dissipation function, which includes: a lens frame 1, temples 2, a host 3, a broadcaster 4, a camera 5 and a display screen 6;

[0026] See attached image 3 , the broadcaster 4 includes: an aluminum alloy upper cover 41, a speaker 42 and a plastic lower cover 43; the speaker 42 is installed in the plastic lower cover 43 through a mylar sheet 44; Afterwards, tighten and fix by screw 46;

[0027] See attached Figure 4 , 5 , the host 3 includes: a main housing made up of a left housing 31 and a right housing 32, and a left cooling fin 33, a right cooling fin 34, a copper-aluminum cooling fin 35, a main board 36, and a second cooling fin arranged in the main housing. A heat-conducting silica gel 37, a second heat-conducting silica gel 38, and a heat sink connecting plate 39; wherein, the left heat sink 33 is attached to the inner wall of the left housing 31, and the right heat sink 34 is attached...

Embodiment 2

[0029] Embodiment 2: see attached Figure 7 , on the basis of Embodiment 1, in order to realize the stop of the rotation of the mirror legs at any angle, the mirror legs 2 are connected to the lens frame 1 through the rotating shaft 7, the rotating sleeve 8, the locking screw 9 and the damping gasket 10; wherein, the rotating shaft 7 One end is plugged into the mounting seat of the lens frame 1, and the other end is provided with a locking screw 9; the rotating sleeve 8 is sleeved on the rotating shaft 7, and the two ends of the rotating sleeve 8 pass through the damping gasket 10 and the mounting seat of the lens frame 1 respectively. , The locking screw 9 is in contact; the mirror leg 2 is connected with the rotating sleeve 8 . When the locking screw 9 is locked, the swivel sleeve 8 generates friction with the lens frame 1 through the damping washer 10 to form resistance, so that the rotation of the mirror legs can be stopped at any angle.

Embodiment 3

[0030] Embodiment 3: see attached Figure 8 , 9 , on the basis of Embodiment 1, in order to prevent the locking screw 9 from loosening, the mirror leg 2 is connected to the lens frame 1 through the rotating shaft 7, the rotating sleeve 8, the locking screw 9 and the locking washer 11; wherein, One end of the rotating shaft 7 is plugged into the mounting seat of the lens frame 1, and the other end is provided with a polygonal protrusion 71; the locking washer 11 is provided with a polygonal hole matching the polygonal protrusion 71; the locking washer 11 is sleeved on the polygonal On the protrusion 71; the lower end surface of the locking screw 9 is in conflict with the locking washer 11, and is threadedly connected with the rotating shaft 7; the rotating sleeve 8 is sleeved on the rotating shaft 7; When the mirror leg 2 rotates, the rotating sleeve 8 will only contact the locking washer 11 and will not contact the locking screw 9, so as to avoid the loosening of the screw. ...

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Abstract

The invention relates to intelligent wearable equipment, in particular to a pair of intelligent glasses. The technical scheme of the pair of intelligent glasses with a heat-dissipating function is asfollows: a horn in a broadcaster is mounted in a closed space formed by an upper aluminum alloy cover and a lower plastic-rubber cover through a mylar; a heat-dissipating sheet is arranged on the inner wall of a main shell of a main machine, and the broadcaster is arranged in the main shell and is electrically connected to a main board; a copper-aluminum heat-dissipating sheet is attached to the main board through a heat-conducting silica gel; a light supplementing LED in a camera device is mounted on one side of a camera, and the light emitting end surface of the light supplementing LED is attached to a copper foil through the heat-conducting silica gel; heat-dissipating graphite is arranged on the outer side of the light supplementing LED; and the camera device is mounted at the front end of the main machine. According to the intelligent glasses, the heat conductivity coefficient of the main shell is changed, and the heat transfer gradient difference in the shell matched with the main machine is increased; the peripheral space of the light supplementing LED is filled through the heat-conducting silica gel, the copper foil increases the heat-dissipating area, and the heat-dissipating graphite is arranged between the light supplementing LED and the shell of the main machine to achieve a cooling effect.

Description

technical field [0001] The invention relates to a smart wearable device, in particular to smart glasses. Background technique [0002] Smart glasses refer to wearable glasses devices that have an independent operating system like a smartphone and can realize various functions through software installation. Smart glasses are proposed in recent years and are one of the most promising wearable smart devices, which are easy to use and small in size. [0003] The structure of smart glasses generally includes: a lens frame that can be placed horizontally above the bridge of the nose, a mirror leg that is rotatably connected to the lens frame, a wide strip-shaped host located outside the mirror leg, a display screen located at the front of the lens, and a broadcasting speaker inside the host housing. device and the camera on the outside of the lens frame. [0004] During the use of smart glasses, the main unit, the broadcaster, and the fill light of the camera will generate heat....

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G02C11/00G02C5/14
CPCG02C11/10G02C5/14
Inventor 张成皓徐培培许兵兵赖梓畅
Owner 北京阿法龙科技有限公司
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