CN210835483U - Teenagers' eye health benefit intelligence development glasses based on optical frequency technique - Google Patents

Abstract

The utility model provides a pair of teenager eye health care intelligence developmental glasses based on optical frequency technology, which comprises a glasses frame, lenses, glasses legs, LED lamp beads and a controller; the mirror frame comprises two mirror rings, and lenses are fixedly arranged in the mirror rings; a hemispherical cavity is arranged on the lens, and an LED lamp bead is arranged in the hemispherical cavity; the glasses legs are hinged with the edges of the left side and the right side of the glasses frame; a cavity is formed in each glasses leg, and a battery and a light frequency control main board are arranged in each cavity; the battery, the LED lamp beads and the light frequency control main board are electrically connected; the glasses legs are provided with switch keys of LED lamp beads; the light frequency control main board comprises a lamp bead stroboscopic circuit. The utility model provides a teenagers' eye care intelligence developmental spectacles based on light frequency technique, its illumination through certain frequency dark and bright light replacement is switched, can let the regular shrink of pupil enlarge, and then reaches the effect of motion eyeball, and supplementary lens recovers and corrects the focus, and strong eye muscle promotes eye blood circulation, reduces eye disease.

Description

Teenagers' eye health benefit intelligence development glasses based on optical frequency technique

Technical Field

The utility model belongs to the technical field of glasses, a teenagers' eye health benefit intelligence development glasses based on light frequency technique is related to.

Background

According to statistics of education department, 1.752 million people exist in primary and secondary school students in China, wherein half of the students have amblyopia; the cause of improper use is the main reason. Eye health care of teenagers becomes a very important thing for the nation.

How to effectively protect the eyes of teenagers and reduce amblyopia groups is a problem that researchers must go straight.

The eye problem needs to be solved by eyes, and the problem is solved from the root. The eye has a strong self-repairing function, enhances the movement of the eyes and can help amblyopia well. How to effectively move eyes, the country puts forward eye exercises.

Eye exercises, while helpful in eye care, do not address the underlying problem. The physical massage therapy does not play a great role in recovering asthenopia.

To move the eyeballs and obtain sufficient movement without dead angles is a very important thing for treating amblyopia and correcting eyesight.

Through research, when the pupil encounters strong light, the contraction of the sphincter pupillae drives the natural contraction of the pupil. Under the dark environment, the opening muscle of the pupil relaxes, and then drives the pupil to expand, adopts this principle, and the illumination that replaces through certain frequency dark and bright light just can let the pupil regularly contract and enlarge, and then reaches the effect of motion eyeball, and the purpose of supplementary crystalline lens correction focus of recovering.

We further design the glasses according to the above, and stimulate the eyeballs to perform spontaneous contraction movement by switching the light with a certain frequency between dark and bright, so as to strengthen the eye muscles, promote the blood circulation of the eyes and reduce the eye diseases.

The glasses can not only strengthen eye muscles and strengthen eyesight by stimulating pupil contraction, but also enable the attention of a user to be highly concentrated, relax the brain, accelerate learning speed and obtain long-time brain awakening.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a teenagers 'eye health benefit intelligence development glasses based on optical frequency technique, it can be through amazing pupil's contraction strengthening eye muscle, reinforcing eyesight.

In order to solve the technical problem, the utility model discloses a technical scheme is:

a teenagers eye health care intelligence-benefiting glasses based on optical frequency technology comprises a glasses frame, lenses, glasses legs, LED lamp beads, a controller and a signal control line (lead);

the mirror frame comprises two mirror rings, and lenses are fixedly arranged in the mirror rings; a hemispherical cavity is arranged on the lens, and an LED lamp bead is arranged in the hemispherical cavity; preferably, the opening of the hemispherical concave cavity is covered with a blue light filtering lens.

The glasses legs are hinged with the edges of the left side and the right side of the glasses frame;

the controller is connected with the mirror frame through a signal control line;

a cavity is arranged in the controller, and a battery and a light frequency control main board are arranged in the cavity; the battery, the LED lamp beads and the light frequency control main board are electrically connected;

the controller is provided with a switch key of the LED lamp bead;

the light frequency control main board comprises a lamp bead stroboscopic circuit.

Preferably, the lens is provided with a wire passing groove, the LED lamp bead is electrically connected with the light frequency control main board through a signal control wire, and the signal control wire is embedded in the wire passing groove.

Preferably, the earphone further comprises a sound insulation earplug, wherein the sound insulation earplug is tied to the glasses legs through a thin wire, so that the sound insulation earplug is convenient to use and is prevented from being lost.

Preferably, the lens is made of an opaque material.

Preferably, when the spectacle frame is subjected to injection molding, negative ion powder is implanted into the injection molding and plastic, so that the spectacle frame can release more than 5000 negative ions with concentration per cubic centimeter in 24 hours, and the eye health of children is assisted; i.e. the frame comprises a negative ion powder.

The LED lamp beads are adopted, so that blue light and ultraviolet rays are avoided, and the LED lamp beads are safer;

during operation, light wave stroboscopic is carried out for 4-9 minutes, and the stroboscopic frequency range is 0.5-35 HZ. Teenagers use the 4-minute light wave stroboscopic mode, and young adults use the 9-minute light wave stroboscopic mode.

The function and technical basic description of the application:

1. description of the function

Improving eyesight, preventing amblyopia, improving attention, relieving brain fatigue, and improving brain reaction ability.

2. Basic theory of technology

Through an optical frequency technology, LED light switching is realized for 1-30 times within 1 second, and when the LED light is switched on each time, the eye pupil penetrates through eyelid to feel strong light, the pupil contracts and the sphincter contracts; when the LED lamp is turned off every time, the eye pupils penetrate through the eyelid to feel darkness, the pupil is enlarged, and the opening major muscles are relaxed; through LED light switch 1 ~ 30 times per second, every pupil enlargies at the speed of 1 ~ 30 times per second, contracts, drives the contraction of eye sphincter and division major muscle, and then drives whole eyeball neuromuscular contraction motion, strengthens eyeball neuromuscular, prevents that eye neuromuscular from pressing the deformation and forming amblyopia because of the spasm that long-time sight arouses.

Through the optical frequency technology, the strong light flickers in the eye closing state of a user, the strong light flickers through eyelids and is projected to optic net nerves through eye pupils, the strong light flickers are carried out by the frequency of brain waves, the brain waves are relaxed at the same frequency according to a certain rhythm, the sleepiness and the confused state of thinking are relieved, and finally the brain waves are in the state of peaceful and peaceful brain waves, so that the brain waves are more beneficial to clear judgment, study, reading and work in the state of brain relaxation.

The using method comprises the following steps:

1. the user can sit comfortably, the eye cover is worn on the glasses, and the LED lamp beads are opposite to the eye pupils;

2. inserting the earplug into the ear hole;

3. and starting a controller switch until the spectrum program is finished and is extinguished.

Example of optical frequency program of the present application:

we selected 40 primary and secondary school students in the guangzhou river, 20 of which were male and 20 of which were female, and made the corresponding tests, and the results were as follows:

example first and second program effect comparison table

By contrast, the sequential frequency-increasing and speed-decreasing method can relieve the tiredness of primary and secondary school students in class at a higher proportion, and the effect of improving the vision is relatively close.

Through research, the sequential frequency-increasing and speed-decreasing method is determined to be more suitable for being popularized to primary and secondary school students for eye and brain health care. Through the rapid reduction of the frequency, the brain frequency of the student cannot easily enter a sleep band. Although the gentle frequency raising and lowering method stops at the frequency of 5HZ, the brain frequency fluctuation still falls down through inertia, and the students are sleepy.

The utility model has the advantages that:

the pupil can be regularly contracted and enlarged by switching the illumination with dark and bright light at a certain frequency, so that the effect of moving the eyeball is achieved, and the purpose of restoring and correcting the focal length by the crystalline lens is assisted.

The motor sphincter and the opening muscle were stimulated by pupillary photopic contraction, with 14000 more movements per 20 minutes.

The light with a certain frequency is switched between dark and bright to stimulate the eyeballs to do spontaneous contraction movement, so as to strengthen the eye muscles, promote the blood circulation of the eyes and reduce eye diseases.

The glasses can not only strengthen eye muscles and strengthen eyesight by stimulating pupil contraction, but also enable the attention of a user to be highly concentrated, relax the brain, accelerate learning speed and obtain long-time brain awakening.

Drawings

Fig. 1 is a schematic structural view of the juvenile eye-care intelligence-improving glasses based on the optical frequency technology of the present invention.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1, a pair of teenager eye health care intelligence developmental glasses based on optical frequency technology comprises a frame 1, lenses 2, glasses legs 3, LED lamp beads 4, a controller 7 and a signal control line 8 (wire);

the spectacle frame 1 comprises two spectacle rings, and lenses 2 are fixedly arranged in the spectacle rings; a hemispherical concave cavity is arranged on the lens 2, and an LED lamp bead 4 is arranged in the hemispherical concave cavity; preferably, the opening of the hemispherical concave cavity is covered with a blue light filtering lens.

The glasses legs 3 are hinged with the edges of the left side and the right side of the glasses frame 1;

the controller 7 is connected with the spectacle frame 1 through a signal control line 8;

a cavity is arranged in the controller 7, and a battery and a light frequency control main board are arranged in the cavity; the battery and the LED lamp beads 4 are electrically connected with the light frequency control main board;

the controller 7 is provided with a switch key 6 of the LED lamp bead 4;

the light frequency control main board comprises a lamp bead stroboscopic circuit.

The optical frequency control mainboard is internally provided with an optical wave transmitting code;

the code transmitting sequence is as follows: in the adaptation period of the 1 st stage, the brain rapidly has the same frequency with the optical frequency and adapts to the optical frequency flicker by increasing the frequency from 0.5, 1, 2 and 3 to 13HZ at the speed of increasing the frequency every 2 seconds; in the active period of the 2 nd stage, the frequency is increased in three small stages of 14-18 HZ, 19-24 HZ and 25' 30HZ, each small stage is long-lighted through light, so that the brain is allowed to rest for 3 seconds, 1 frequency per liter is maintained for 10 seconds, and the brain is in an active state through medium-frequency simulation light waves of brain waves; in the 3 rd stage, the frequency is gradually reduced from 13 to 1HZ at a settling period, so that the brain is calmed; and finally, closing the optical frequency emission system.

Preferably, the lens 2 is provided with a wire passing groove, the LED lamp beads 4 are electrically connected with the light frequency control main board through signal control wires, and the signal control wires are embedded in the wire passing groove.

Preferably, it further comprises a sound-insulating earplug 5, the sound-insulating earplug 5 being attached to the temple 3 by a thin wire, the sound-insulating earplug 5 being convenient to use and being prevented from being lost.

Preferably, the lens 2 is an opaque material.

Preferably, when the spectacle frame 1 is subjected to injection molding, negative ion powder is implanted into injection molding plastic, so that the spectacle frame 1 can release more than 5000 negative ions with concentration per cubic centimeter in 24 hours, and the eye health of children is assisted; namely, the lens frame 1 includes negative ion powder.

Preferably, the LED lamp beads 4 are red light or non-blue light lamp beads;

the LED lamp beads 4 are adopted, so that no blue light or ultraviolet rays exist, and the LED lamp beads are safer;

the blue light filtering lens blocks the LED lamp beads 4, has high transparency, can block blue light and ultraviolet light, can diffuse LED light, does not focus into point-like light spots, and has better light coverage.

During operation, light wave stroboscopic is carried out for 4-9 minutes, and the stroboscopic frequency range is 0.5-35 HZ. Teenagers use the 4-minute light wave stroboscopic mode, and young adults use the 9-minute light wave stroboscopic mode.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in the embodiments without departing from the principles and spirit of the invention, and the scope of the invention is to be accorded the full scope of the claims.

Claims (9)

1. A teenagers' eye health benefit intelligence development glasses based on optical frequency technique which characterized in that: the glasses comprise a glasses frame, lenses, glasses legs, LED lamp beads, a controller and a signal control line;

the mirror frame comprises two mirror rings, and lenses are fixedly arranged in the mirror rings; a hemispherical cavity is arranged on the lens, and an LED lamp bead is arranged in the hemispherical cavity;

the glasses legs are hinged with the edges of the left side and the right side of the glasses frame;

the controller is connected with the mirror frame through a signal control line;

a cavity is arranged in the controller, and a battery and a light frequency control main board are arranged in the cavity; the battery, the LED lamp beads and the light frequency control main board are electrically connected;

the controller is provided with a switch key of the LED lamp bead;

the light frequency control main board comprises a lamp bead stroboscopic circuit.

2. The juvenile eye care intelligence developmental eyeglasses based on optical frequency technology as claimed in claim 1, wherein: a light wave stroboscopic code is arranged in the light frequency control main board;

the code strobe sequence is: in the adaptation period of the 1 st stage, the brain rapidly has the same frequency with the optical frequency and adapts to the optical frequency flicker by increasing the frequency from 0.5, 1, 2 and 3 to 13HZ at the speed of increasing the frequency every 2 seconds; in the active period of the 2 nd stage, the frequency is increased in three small stages of 14-18 HZ, 19-24 HZ and 25' 30HZ, each small stage is long-lighted through light, so that the brain is allowed to rest for 3 seconds, 1 frequency per liter is maintained for 10 seconds, and the brain is in an active state through medium-frequency simulation light waves of brain waves; in the 3 rd stage, the frequency is gradually reduced from 13 to 1HZ at a settling period, so that the brain is calmed; and finally, closing the optical frequency emission system.

3. The juvenile eye care intelligence developmental eyeglasses based on optical frequency technology as claimed in claim 1, wherein: it also includes sound insulating earplugs tied to the temple by thin wires.

4. The juvenile eye care intelligence developmental eyeglasses based on optical frequency technology as claimed in claim 3, wherein: the lens is provided with a wire passing groove, the LED lamp beads are electrically connected with the light frequency control main board through signal control wires, and the signal control wires are buried in the wire passing groove.

5. The juvenile eye-care intelligence-improving glasses based on optical frequency technology as claimed in any one of claims 1-3, wherein: and a blue light filtering lens is covered at the opening of the hemispherical concave cavity.

6. The juvenile eye care intelligence developmental eyeglasses based on optical frequency technology as claimed in claim 5, wherein: the lens is made of opaque materials.

7. The juvenile eye care intelligence developmental eyeglasses based on optical frequency technology as claimed in claim 5, wherein: the mirror frame comprises negative ion powder.

8. The juvenile eye care intelligence developmental eyeglasses based on optical frequency technology as claimed in claim 5, wherein: the stroboscopic frequency range of the LED lamp beads is 0.5-35 HZ.

9. The juvenile eye care intelligence developmental eyeglasses based on optical frequency technology as claimed in claim 5, wherein: the LED lamp beads are red light or non-blue light lamp beads.

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