CN219302800U - Posture adjustment and correction intelligent glasses - Google Patents

Abstract

The utility model provides posture adjustment and correction intelligent glasses, which comprise a glasses frame, a light-transmitting lens, a liquid crystal lens, a distance sensor, a control main board and a power supply, wherein the light-transmitting lens is arranged on the glasses frame; the mirror frame is provided with a hollowed-out groove for installing lenses, and the inner wall of the hollowed-out groove is provided with a lens groove and a dimming groove; the light-transmitting lens is arranged on the lens groove; the liquid crystal lens is arranged on the light changing groove; the distance sensor is arranged on the mirror frame and used for detecting the watching distance from the mirror frame to the watched object; the control main board is arranged in the mirror frame, is electrically connected with the distance sensor and used for acquiring the viewing distance, and is electrically connected with the liquid crystal lens and used for controlling the light transmission state of the liquid crystal lens; the power supply is arranged in the mirror frame and is used for supplying power to the distance sensor and the control main board. Through the intelligent control of distance sensor and control mainboard for the user can keep good viewing distance, and gesture adjustment corrects intelligent glasses and has the correction accuracy height, characteristics such as reaction rapidly.

Description

Posture adjustment and correction intelligent glasses

Technical Field

The utility model relates to the technical field of vision correction devices, in particular to intelligent posture adjustment and correction glasses.

Background

At present, education of children is very important to watch, teaching and self-learning in class are arranged in the school, family operation is arranged in the family, and extracurrant learning is even arranged on weekends, so that the children are always in a high-strength eye-using state, and vision degradation of the children is easily caused by the fact that the eye-using posture is not positive. In addition, children are in the level of hyperactivity, have poor self-control, relatively lack initiative, control, coordination and cognitive ability, and mainly need supervision and reminding of adults to adjust eye gestures. However, the adult spends a lot of time on work, and is forgotten to remind and adjust the eye gesture of the child, so that the child has difficulty in adjusting the eye gesture of the child.

Disclosure of Invention

In order to overcome the defects of the prior art, one of the purposes of the utility model is to provide an intelligent posture adjustment and correction glasses so as to solve the technical problem that the posture of eyes for children is difficult to adjust.

One of the purposes of the utility model is realized by adopting the following technical scheme:

a posture adjustment correction smart glasses, the posture adjustment correction smart glasses comprising:

the glasses frame is provided with a hollowed-out groove for installing lenses, and the inner wall of the hollowed-out groove is provided with a lens groove and a dimming groove

The light-transmitting lens is arranged on the lens groove;

the liquid crystal lens is arranged on the light changing groove;

the distance sensor is arranged on the mirror frame and used for detecting the watching distance from the mirror frame to the watched object;

the control main board is arranged in the mirror frame, is electrically connected with the distance sensor and used for obtaining the watching distance, and is electrically connected with the liquid crystal lens and used for controlling the light transmission state of the liquid crystal lens;

and the power supply is arranged in the mirror frame and is used for supplying power to the distance sensor and the control main board.

Optionally, the posture adjustment correcting intelligent glasses further comprise an inclination sensor, and the inclination sensor is electrically connected with the control main board.

Optionally, the picture frame include outer picture frame and with the interior picture frame that interior picture frame is connected, outer picture frame is equipped with become the light groove, interior picture frame is equipped with the lens groove, control mainboard, distance sensor and power set up in outer picture frame.

Optionally, the outer frame is detachably connected with the inner frame;

the posture adjustment correcting intelligent glasses further comprise glasses legs which are rotatably connected to the inner glasses frame.

At least two first magnetic attraction pieces are arranged on the surface, close to the outer lens frame, of the inner lens frame;

the surface of the outer mirror frame, which is close to the inner mirror frame, is provided with at least two second magnetic attraction pieces, and the second magnetic attraction pieces are in one-to-one magnetic attraction connection with the first magnetic attraction pieces.

Optionally, a vibrating element is arranged in the mirror frame, and the vibrating element is in electrical signal connection with the control main board.

Optionally, a sound generating unit is arranged on the mirror frame, and the sound generating unit is in electrical signal connection with the control main board.

Optionally, a charging interface is arranged on the mirror frame, and the charging interface is connected with the control main board through an electric signal.

Optionally, an indicator light is arranged on the surface, close to the eyes, of the mirror frame.

Optionally, two soft rubber nose pads are arranged on the inner mirror frame.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, after a user wears glasses, the liquid crystal lens is in a transparent state, the distance sensor detects the viewing distance of a viewing object in front of eyes, meanwhile, the distance sensor sends the viewing distance to the control main board, when the viewing distance is smaller than a preset distance, the chip of the main board is controlled, the control main board changes the voltage applied to the liquid crystal lens, so that the light-transmitting state of the liquid crystal lens is changed, the liquid crystal lens is changed into an atomized state, and the eyes cannot see the object in front; when the user changes the watching distance and exceeds the preset distance, eyes are protected, the main board is controlled to control the liquid crystal lens to recover the transparent state, and the eyes can normally watch objects. Through the intelligent control to watching the distance for the user can keep good watching the distance, and gesture adjustment corrects intelligent glasses and has the characteristics such as correction accuracy height, response are rapid.

Drawings

FIG. 1 is a schematic partial cutaway view of a posture adjustment corrective smart eyewear of one embodiment of the utility model;

FIG. 2 is a schematic view of an inner frame of a posture-adjusting corrective smart eyeglass according to one embodiment of the utility model;

fig. 3 is a schematic diagram of an internal structure of an outer frame of the posture adjustment correcting smart glasses according to one embodiment of the present utility model.

In the figure:

1. a frame; 11. an inner mirror frame; 111. a lens slot; 12. an outer mirror frame; 121. a light-changing groove; 13. a first magnetic attraction member; 14. an indicator light; 15. a second magnetic attraction member; 2. a light transmitting lens; 3. a liquid crystal lens; 4. a distance sensor; 5. a control main board; 6. a power supply; 7. an inclination sensor; 8. a mirror foot; 9. a charging interface; 10. soft rubber nose pad.

Detailed Description

The present utility model will be further described with reference to fig. 1 to 3 and the detailed description, wherein, on the premise of no conflict, new embodiments can be formed by any combination of the embodiments or technical features described below.

The embodiment of the utility model provides posture-adjusting and correcting intelligent glasses, which are shown in fig. 1 and 3, and comprise a glasses frame 1, a light-transmitting lens 2, a liquid crystal lens 3, a distance sensor 4, a control main board 5 and a power supply 6. The mirror frame 1 is provided with a hollowed-out groove for installing lenses, and the inner wall of the hollowed-out groove is provided with a lens groove 111 and a dimming groove 121. The light-transmitting lens 2 is disposed on the lens groove 111. The liquid crystal lens 3 is disposed on the light-changing groove 121. The distance sensor 4 is disposed on the lens frame 1 for detecting a viewing distance from the lens frame 1 to a viewing object. The control main board 5 is arranged in the mirror frame 1, the control main board 5 is electrically connected with the distance sensor 4 to obtain the viewing distance, and the control main board 5 is electrically connected with the liquid crystal lens 3 to control the light transmission state of the liquid crystal lens 3. A power supply 6 is provided in the frame 1 for supplying power to the distance sensor 4 and the control motherboard 5.

After a user wears glasses, the liquid crystal lens 3 is in a transparent state, the distance sensor 4 detects the viewing distance of a viewing object in front of eyes, meanwhile, the distance sensor 4 sends the viewing distance to the control main board 5, when the viewing distance is smaller than a preset distance, the chip of the main board 5 is controlled, the control main board 5 changes the voltage applied to the liquid crystal lens 3, so that the light transmission state of the liquid crystal lens 3 is changed, the liquid crystal lens 3 is changed into an atomized state, and the eyes cannot see the object in front; when the user changes the watching distance and exceeds the preset distance, eyes are protected, and the control main board 5 controls the liquid crystal lens 3 to restore the transparent state, so that the eyes can watch objects normally. Through the intelligent control to watching the distance for the user can keep good watching the distance, and gesture adjustment corrects intelligent glasses and has the characteristics such as correction accuracy height, response are rapid.

In the liquid crystal lens 3, specifically, the liquid crystal lens 3 has a lens structure having a liquid crystal panel, and is transparent in a non-energized state, and is transparent in a energized state, and the liquid crystal lens 3 is atomized by changing the arrangement of the liquid crystal in the energized state. The liquid crystal lens 3 is suitable for wearing in various scenes such as life, study and the like, and is suitable for users with myopia.

Of course, the liquid crystal lens 3 may be in a fog state in a non-energized state, and the liquid crystal lens 3 may be in a fog state, and the liquid crystal arrangement may be changed in an energized state so that the liquid crystal lens 3 is transparent. The liquid crystal lens 3 is suitable for wearing in a learning state and for taking off glasses in a living state, and is suitable for non-myopia users.

Further, as shown in fig. 3, the posture adjustment correcting smart glasses further comprise an inclination sensor 7, and the inclination sensor 7 is electrically connected with the control main board 5.

When the user wears the glasses, the tilt sensor 7 detects the tilt angle of the glasses in real time and transmits an angle signal to the control main board 5. When the wearing angle is normal, the inclination sensor 7 detects that the glasses face to a preset angle, for example, when the glasses are inclined downwards, the glasses work normally, and the control main board 5 controls the liquid crystal lenses 3 to be in a transparent state, so that objects can be seen normally. When the inclination sensor 7 detects that the glasses deviate from the preset angles upwards, downwards, leftwards and rightwards, the chip of the control main board 5 controls the liquid crystal lens 3 to atomize, the eyes can not see the front object, the eyes are protected, and when the head angle of the wearer returns to normal, the lenses are clear, and the eyes can look at objects normally. In turn, the head of the user is adjusted to keep a good viewing angle, and the intelligent control is realized by adopting the inclination sensor 7, so that the intelligent control device has the characteristics of high accuracy, rapid response and the like.

In some embodiments of the lens frame 1, as shown in fig. 1 and 3, the lens frame 1 includes an outer lens frame 12 and an inner lens frame 11 connected to the inner lens frame 11, the outer lens frame 12 is provided with a light-changing groove 121, the inner lens frame 11 is provided with a lens groove 111, and the control main board 5, the distance sensor 4, and the power supply 6 are provided on the outer lens frame 12.

Further, as shown in fig. 1, the outer frame 12 is detachably connected with the inner frame 11; the posture adjustment correcting intelligent glasses further comprise glasses legs 8, and the glasses legs 8 are rotatably connected to the inner glasses frame 11. Through the dismantlement separation with interior picture frame 11 and outer mirror frame 12, can reduce the weight of glasses under some special scenes, for example when outdoor activities, dismantle outer mirror frame 12 after for the glasses are lighter, wear more comfortablely.

More specifically, as shown in fig. 1, the surface of the inner frame 11, which is close to the outer frame 12, is provided with at least two first magnetic attraction pieces 13; at least two second magnetic attraction pieces 15 are arranged on the surface of the outer mirror frame 12, which is close to the inner mirror frame 11, and the second magnetic attraction pieces 15 are in one-to-one magnetic attraction connection with the first magnetic attraction pieces 13. The inner mirror frame 11 and the outer mirror frame 12 are in magnetic attraction connection through the first magnetic attraction piece 13 and the second magnetic attraction piece 15, and good disassembly and assembly convenience is achieved.

Of course, the detachable connection of the inner lens frame 11 and the outer lens frame 12 can also be detachable connection through a buckle.

In some embodiments, a vibrating element is arranged in the mirror frame 1, and the vibrating element is electrically connected with the control main board 5. The user is reminded of adjusting the gesture in a vibrating mode through the vibrating element. The vibrating element is in particular a vibrating motor.

In some embodiments, the mirror frame 1 is provided with a sound generating unit, and the sound generating unit is electrically connected with the control main board 5. The sounding unit sounds the prompt tone so as to remind the user of adjusting the eye gesture.

In some embodiments, the charging interface 9 is provided on the lens frame 1, and the charging interface 9 is electrically connected with the control main board 5.

In some embodiments, as shown in fig. 2, the surface of the frame 1 near the eyes is provided with an indicator light 14. The indicator lamp 14 emits light to remind the user to adjust the posture of the eyes. Specifically, the indicator lamp 14 is provided on the surface of the inner frame 11 close to the face. And the surface of the inner mirror frame 11, which is close to the outer mirror frame 12, is provided with a first conductive contact, the first conductive contact is electrically connected with the indicator lamp 14, the surface of the outer mirror frame 12, which is close to the inner mirror frame 11, is provided with a second conductive contact, the second conductive contact is electrically connected with the control main board 5, and meanwhile, the first conductive contact is connected with the second conductive contact, so that the indicator lamp 14 is controlled to emit light and supply power through the control main board 5.

More specifically, the first magnetic attraction member 13 and the second magnetic attraction member 15 are metal magnetic attraction members, and the first magnetic attraction member 13 and the second magnetic attraction member 15 can be used as a first conductive contact and a second conductive contact, respectively.

As shown in fig. 1, two soft rubber nose pads 10 are mounted on the inner frame 11. Specifically, the soft rubber nose pad 10 is provided on the face-side surface of the inner frame 11.

The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes made by those skilled in the art based on the present utility model are within the scope of the present utility model as claimed.

Claims (10)

1. Posture adjustment corrects intelligent glasses, a serial communication port, posture adjustment corrects intelligent glasses includes:

the glasses frame is provided with a hollowed-out groove for installing lenses, and the inner wall of the hollowed-out groove is provided with a lens groove and a dimming groove

The light-transmitting lens is arranged on the lens groove;

the liquid crystal lens is arranged on the light changing groove;

the distance sensor is arranged on the mirror frame and used for detecting the watching distance from the mirror frame to the watched object;

the control main board is arranged in the mirror frame, is electrically connected with the distance sensor and used for obtaining the watching distance, and is electrically connected with the liquid crystal lens and used for controlling the light transmission state of the liquid crystal lens;

and the power supply is arranged in the mirror frame and is used for supplying power to the distance sensor and the control main board.

2. The posture adjustment corrective smart glasses according to claim 1, characterized in that: the posture adjustment and correction intelligent glasses further comprise an inclination sensor, and the inclination sensor is in electrical signal connection with the control main board.

3. The posture adjustment and correction intelligent glasses according to claim 1 or 2, wherein the glasses frame comprises an outer glasses frame and an inner glasses frame connected with the outer glasses frame, the outer glasses frame is provided with the light changing groove, the inner glasses frame is provided with the lens groove, and the control main board, the distance sensor and the power supply are arranged on the outer glasses frame.

4. The posture adjustment correcting smart glasses according to claim 3, wherein the outer frame is detachably connected to the inner frame;

the posture adjustment correcting intelligent glasses further comprise glasses legs which are rotatably connected to the inner glasses frame.

5. The posture adjustment correcting intelligent glasses according to claim 4, wherein at least two first magnetic attraction pieces are arranged on the surface, close to the outer frame, of the inner frame;

the surface of the outer mirror frame, which is close to the inner mirror frame, is provided with at least two second magnetic attraction pieces, and the second magnetic attraction pieces are in one-to-one magnetic attraction connection with the first magnetic attraction pieces.

6. The posture adjustment corrective smart glasses according to claim 1, characterized in that: the inside of the mirror frame is provided with a vibrating element which is connected with the control main board through an electric signal.

7. The posture adjustment corrective smart glasses according to claim 1, characterized in that: the glasses frame is provided with a sounding unit, and the sounding unit is connected with the control main board through an electric signal.

8. The posture adjustment corrective smart glasses according to claim 1, characterized in that: the glasses frame is provided with a charging interface, and the charging interface is connected with the control main board through an electric signal.

9. The posture adjustment corrective smart glasses according to claim 1, characterized in that: the surface of the mirror frame, which is close to the eyes, is provided with an indicator lamp.

10. The posture adjustment correcting smart glasses according to claim 3, wherein: two soft rubber nose pads are arranged on the inner mirror frame.

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