CN110780464A - Sound-light hypnosis glasses for treating insomnia - Google Patents

Abstract

The invention provides a pair of sound-light hypnotic glasses for treating insomnia, which comprises a glasses cover, a hinged seat, LED stroboscopic lamp beads with power ranging from 70 to 1000 milliwatts, a lens, a music earphone and a stroboscopic control circuit board, wherein the lenses are arranged on the glasses cover; the two mirror covers are respectively arranged at the left side and the right side of the hinge seat and are hinged with the hinge seat; the LED stroboscopic lamp beads are fixedly arranged on the inner side of the lens cover, and the lens cover is arranged on the LED stroboscopic lamp beads; a cavity is arranged on the inner side of the mirror cover, and a battery and a stroboscopic control circuit board are arranged in the cavity; and a control and adjustment panel is arranged on the outer side wall of the mirror cover. According to the invention, the sound interference of the outside to the brain is blocked by the music earphone, the light emitted by the LED lamp is opposite to the eyes of a user in the eye closing state, a set of light waves which can be rapidly in the same frequency with brain waves of the brain are released by the LED strong light, so that the brain is hypnotized in the same frequency state, the deep brain relaxing effect is further achieved, and after the brain is deeply relaxed, the user generally can sleep intensively after 1-8 hours, so that the deep sleep is obtained.

Description

Sound-light hypnosis glasses for treating insomnia

Technical Field

The invention belongs to the technical field of sleep-aiding equipment, and relates to a pair of acousto-optic hypnotic glasses for treating insomnia.

Background

Hypnosis is related to sleep, and is similar and different in nature.

The hypnotic state generally refers to the theta wave to α wave stage, which is the subconscious opening stage of the brain wave in the 4 to 13hz state.

The brain waves in the sleep state periodically float between 0.3 hz and 13hz, namely, the delta wave stage and the α wave stage.

Hypnosis, the subconscious mind is very active, the reaction is sensitive, and the patient is still in a semi-waking state.

Sleep, conscious activity is halted.

Hypnosis can release depression in the deep layer of the brain, while sleep can only recover brain fatigue.

Through a large amount of practical research, people find that all people who are puzzled to sleep can obtain good sleep, even if the people are subjected to light hypnosis, and better sleep quality can be obtained.

How to program the process of improving sleep and make it into a standard commodity, so that people can have self-hypnosis anytime and anywhere to obtain deep relief of the brain and then obtain good sleep is a subject worth deep research.

Soft low-frequency single-rhythm sound waves (mainly concentrated at 20 Hz-300 Hz) are adopted and are transmitted to a brain auditory system through a closed earphone to form resonance with the brain, so that nerve relaxation is achieved, and the potential mental stress resistance of the brain is reduced.

Meanwhile, the LED full-spectrum biological lamp conducts high-light stroboflash with periodic rhythm and frequency on the eyelid in the eye closing state within the frequency of 0.5-35 Hz, the light waves are fancified through the eyelid, the brain wave frequency is not automatically shared, the brain wave frequency is enabled to be the same in frequency, the brain obtains a passive hypnosis effect in the fancified light waves through the light wave stroboflash for 9-30 minutes, and further the effect of deep brain relaxation is achieved.

After the brain is deeply relaxed, the user can not fall asleep immediately, and thick sleepiness is generated after 1-8 hours generally, so that deep sleep is achieved. Similar to a dim living room, the brain receives the stimulation of switching a large picture of a movie, so that the brain becomes tired under the stimulation of light, and can fall asleep more easily. But is different from the photo stimulation of watching the film because the eyes are closed and the scene is without pictures, thus causing no psychological interference.

Based on the above principle, we developed the audio-optical sleep promoting glasses combining the basic hypnosis technology and the optical technology.

Disclosure of Invention

The invention aims to provide a pair of acousto-optic hypnotic glasses for treating insomnia, which enables the brain to obtain a passive hypnotic effect, so that the deep relaxation effect of the brain is further achieved, and after the brain is deeply relaxed, a user generally can generate thick sleepiness after 1-8 hours to obtain deep sleep; the structure design is simple and reasonable, the use is convenient, and the carrying is convenient.

In order to solve the technical problems, the invention adopts the technical scheme that:

a pair of sound-light hypnotic glasses for treating insomnia comprises a glasses cover, a hinged seat, LED stroboscopic lamp beads with power ranging from 70 to 1000 milliwatts, a lens, a music earphone and a stroboscopic control circuit board;

the two mirror covers are respectively arranged at the left side and the right side of the hinge seat and are hinged with the hinge seat; when the folding chair is convenient to be idle, the folding chair can be folded, stored and stored.

The lens cover is made of light-tight materials, LED stroboscopic lamp beads are fixedly arranged on the inner side of the lens cover, and the lens cover is arranged on the LED stroboscopic lamp beads;

a cavity is arranged on the inner side of the mirror cover, and a battery and a stroboscopic control circuit board are arranged in the cavity;

the stroboscopic control circuit board is provided with an electroencephalogram-like wave frequency flicker control circuit; the LED stroboscopic lamp bead is connected with the electroencephalogram-imitating frequency flicker control circuit. The LED stroboscopic lamp bead, the battery, the music earphone and the stroboscopic control circuit board are electrically connected;

the side ends of the two mirror covers are respectively connected with a binding band or respectively hinged with mirror legs;

the music earphone is fixedly arranged in the cavity of the mirror cover, and when the glasses are worn, the music earphone is over against the ears of a person.

The outer side wall of the mirror cover is provided with a control and adjustment panel, and the control and adjustment panel is provided with a display screen and a plurality of adjustment keys.

The mirror cover comprises an outer cover, a mounting plate, a lining and a soft package; the mounting plate is provided with a hole cavity for mounting the LED frequency flashing lamp beads and the lens; the lens is formed by compounding a blue light prevention lens and an ultraviolet ray filtering lens. The dustcoat sets firmly in the mounting panel outside, the inside lining sets firmly in the mounting panel inboard, the articulated seat of mounting panel edge hinge, the soft package sets firmly in the inside lining inboard. And light-emitting through holes are formed in the positions, corresponding to the LED stroboscopic lamp beads, of the inner liner and the soft package.

The earphone is arranged on the mounting plate, and the corresponding earphone position on the lining is provided with a sound outlet.

Preferably, the LED stroboscopic lamp beads are high-brightness LED biological lamp beads; the stroboscopic control circuit board is provided with an electroencephalogram-like wave frequency flicker control circuit; the LED stroboscopic lamp bead is connected with the electroencephalogram-imitating frequency flicker control circuit.

Preferably, a charging interface is further arranged on the hinge seat;

preferably, the binding band is provided with an elastic adjusting buckle.

The mobile phone further comprises Bluetooth audio power amplification software and a mobile phone APP.

Preferably, the middle part of the hinge seat is provided with a rotating shaft, and the edge of the mirror cover is sleeved on the rotating shaft.

The LED stroboscopic lamp beads flicker at a specific hypnotic frequency preset correspondingly by a 0.5-flicker control circuit through imitating brain wave frequency, brain waves and light wave frequency are combined, the brain waves gradually rise from ordered high light low frequency fluctuation to same frequency brain wave real-time fluctuation, and after resonance, the brain wave guide fluctuation is realized, so that the brain nerves are relieved, and the sleep is facilitated. The frequencies are as follows:

by comparing the two stroboscopic tests, the switching method can enable people to sleep more quickly; the stroboflash of the half-power method can lead people to sleep after a longer time; a more rapid sleep was obtained compared to the control group which had not been tested.

Soft low-frequency single-rhythm sound waves (mainly concentrated at 20 Hz-300 Hz) are transmitted to a brain auditory system through a closed music earphone to form resonance with the brain, so that nerve relaxation is achieved, and subconscious stress resistance of the brain is reduced.

The eyelid in the eye closing state is subjected to intense light stroboflash which is full of brain wave frequency range and has stage rhythm and frequency from low to high and from high to low through the LED biological lamp beads within the frequency of 0.5-35 Hz, the frequency light waves are projected to a brain nerve center through the eyelid, the brain wave frequency is not subjected to same frequency independently, after the same frequency is achieved, the brain waves are vibrated in the range of 25-35 Hz high-frequency brain waves, enter meditation and deep brain nerves soothing, frequency is reduced slowly and regularly, and finally the brain waves are brought to the sleep brain wave frequency below 4 Hz. The light wave stroboscopic effect of about 20 minutes makes the brain obtain hypnotic effect in the magic light wave, thereby achieving the effect of deep brain relaxation.

After the brain is deeply relaxed, part of users can fall asleep immediately, and part of users do not fall asleep immediately on site, but deep sleepiness is generated after 1-6 hours generally, so as to obtain deep sleep. Similar to in a dim playing hall, the brain receives the stimulation of switching a large picture of a movie, so that the brain becomes tired under the stimulation of light, and can fall asleep more easily. But is different from the photo stimulation of watching the film because the eyes are closed and the scene is without pictures, thus causing no psychological interference.

Based on the above principle, we developed the audio-optical sleep promoting glasses combining the basic hypnosis technology and the optical technology.

The eye-closing and relaxing. On the contrary, through user experience feedback and physiological data analysis, as the brain is brought into deep meditation, after the audio-optical hypnosis is finished, the user generally obtains stronger memory power; meanwhile, the frequent contraction of the pupil moves the muscular nerves of the pupil, so that the general sense and the specific attention are improved immediately, and the eye-protecting pillow has a certain auxiliary treatment effect on the presbyopia of the old. Especially, the utility model can help sleep with universal sleep assistance. The sleep problem of the population who sleeps insomnia and sleeps late can be effectively solved, the health state and the working state are improved, and the market prospect space is huge.

The invention has the beneficial effects that:

the brain can obtain a passive hypnotic effect, so that the deep brain relaxing effect is achieved, and after the brain is deeply relaxed, a user can generally generate thick sleepiness after 1-8 hours to obtain deep sleep; the structure design is simple and reasonable, the manufacturing cost is low, and the use and the carrying are convenient.

Drawings

FIG. 1 is a schematic structural view of the acoustic-optical hypnotic glasses for treating insomnia according to the present invention;

FIG. 2 is a rear view of the acoustic-optical hypnotic glasses for treating insomnia according to the present invention (with the strap omitted);

FIG. 3 is an exploded view of the glasses for hypnosis and music for treating insomnia according to the present invention;

FIG. 4 is a schematic view showing a folded state of the acoustic-optical hypnotic glasses for treating insomnia according to the present invention;

fig. 5 is a second schematic view showing a folded state of the acoustic-optical hypnotic glasses for treating insomnia according to the present invention.

Detailed Description

The following further describes embodiments of the present invention with reference to the 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 involved in 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. 1-5, a pair of audio-optical hypnotic glasses for treating insomnia comprises a glasses cover 1, a hinged seat 2, a 1000 mw LED strobe light bead 3, a lens 4, a music earphone 5 and a strobe control circuit board;

the two mirror covers 1 are respectively arranged at the left side and the right side of the hinge base 2 and are hinged with the hinge base 2; when the folding chair is convenient to be idle, the folding chair can be folded, stored and stored.

The lens cover 1 is made of light-tight materials, the LED stroboscopic lamp beads 3 are fixedly arranged on the inner side of the lens cover 1, and the lens 4 covers the lens 1 and is arranged on the LED stroboscopic lamp beads 3;

a cavity is arranged on the inner side of the mirror cover 1, and a battery and a stroboscopic control circuit board are arranged in the cavity;

the stroboscopic control circuit board is a control circuit imitating brain wave frequency flicker;

the LED stroboscopic lamp bead 3, the battery and the music earphone 5 are electrically connected with the stroboscopic control circuit board;

the edge ends of the two mirror covers 1 are respectively connected with a binding band or respectively hinged with mirror legs;

the music earphone 5 is fixedly arranged in the cavity of the mirror cover 1, and when the glasses are worn, the music earphone 5 is over against the ears of a person.

The outer side wall of the mirror cover 1 is provided with a control and adjustment panel 6, and the control and adjustment panel 6 is provided with a display screen and a plurality of adjustment keys.

The mirror cover 1 comprises an outer cover 11, an installation plate 12, an inner liner 13 and a soft package 14; a hole cavity 121 for installing the LED stroboscopic lamp bead 3 and the lens 4 is formed in the installing plate 12; the lens 4 is formed by compounding a blue light prevention lens and an ultraviolet filtering lens. The dustcoat 11 sets firmly in the mounting panel 12 outside, inside lining 13 is fixed in the mounting panel 12 inboard, 12 articulated seats 2 in edge of mounting panel, soft package 14 sets firmly in 13 inboards of inside lining. Light-emitting through holes 141 are formed in the positions, corresponding to the LED stroboscopic lamp beads 3, of the inner lining 13 and the soft package 14.

The mounting plate 12 is provided with a music earphone 5, and the corresponding music earphone 5 on the lining 13 is provided with a sound outlet 131.

Preferably, the LED stroboscopic lamp bead 3 is a high-brightness LED biological lamp bead; the stroboscopic control circuit board is provided with an electroencephalogram wave imitating frequency flicker control circuit; the LED stroboscopic lamp bead 3 is connected with an electroencephalogram-imitating frequency flicker control circuit.

Preferably, a charging interface 21 is further arranged on the hinge base 2;

preferably, the binding band is provided with an elastic adjusting buckle.

The mobile phone further comprises Bluetooth audio power amplification software and a mobile phone APP.

Preferably, the middle part of the hinge base 2 is provided with a rotating shaft 22, and the edge of the mirror cover 1 is sleeved on the rotating shaft 22.

The LED stroboscopic lamp bead 3 simulates brain wave frequency flicker and flickers within the frequency of 0.5-35 Hz.

The flicker frequency of the LED stroboscopic lamp bead 3 is gradually increased to the highest within 35Hz from 0.5Hz, and then is gradually decreased to below 5Hz from the highest frequency.

Preferably, the soft bag 14 is made of foam or latex soft material.

Preferably, a nose pad is arranged between the two lens covers 1.

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 these embodiments without departing from the principles and spirit of the invention, and the scope of protection is still within the scope of the invention.

Claims (10)

1. The utility model provides a sound light hypnosis glasses of treatment insomnia which characterized in that: the multifunctional glasses comprise a glass cover, a hinged seat, LED stroboscopic lamp beads, a lens, a music earphone and a stroboscopic control circuit board;

the two mirror covers are respectively arranged at the left side and the right side of the hinge seat and are hinged with the hinge seat;

the LED stroboscopic lamp beads are fixedly arranged on the inner side of the lens cover, and the lens cover is arranged on the LED stroboscopic lamp beads;

a cavity is arranged on the inner side of the mirror cover, and a battery and a stroboscopic control circuit board are arranged in the cavity;

the LED stroboscopic lamp bead, the battery, the music earphone and the stroboscopic control circuit board are electrically connected;

the edge ends of the two mirror covers are respectively connected

The binding bands or the legs are respectively hinged;

the music earphone is fixedly arranged in the cavity of the mirror cover, and when the glasses are worn, the music earphone is over against the ears of a person;

the outer side wall of the mirror cover is provided with a control and adjustment panel, and the control and adjustment panel is provided with a display screen and a plurality of adjustment keys.

2. The acousto-optic hypnotic glasses for treating insomnia according to claim 1, wherein: the mirror cover comprises an outer cover, a mounting plate, a lining and a soft package;

the mounting plate is provided with a hole cavity for mounting the LED stroboscopic lamp beads and the lens; the outer cover is fixedly arranged on the outer side of the mounting plate, the inner liner is fixedly arranged on the inner side of the mounting plate, the edge of the mounting plate is hinged with the hinge seat, and the soft package is fixedly arranged on the inner side of the inner liner;

the LED stroboscopic lamp bead is characterized in that light-emitting through holes are formed in the inner lining and the soft package corresponding to the positions of the LED stroboscopic lamp beads.

3. The acousto-optic hypnotic glasses for treating insomnia according to claim 2, wherein: the LED stroboscopic lamp beads are high-brightness LED biological lamp beads; the stroboscopic control circuit board is provided with an electroencephalogram-like wave frequency flicker control circuit; the LED stroboscopic lamp bead is connected with the electroencephalogram-imitating frequency flicker control circuit.

4. The acousto-optic hypnotic glasses for treating insomnia according to any one of claims 1 to 3, wherein: the lens is formed by compounding a blue light prevention lens and an ultraviolet ray filtering lens.

5. The acousto-optic hypnotic glasses for treating insomnia according to claim 3, wherein:

the mounting plate is provided with a music earphone, and the corresponding position of the music earphone on the lining is provided with a sound outlet;

the binding band is provided with an elastic adjusting buckle.

6. The acousto-optic hypnotic glasses for treating insomnia according to claim 5, wherein: the mobile phone further comprises Bluetooth audio power amplification software and a mobile phone APP.

7. The acousto-optic hypnotic glasses for treating insomnia according to claim 6, wherein: still be equipped with the interface that charges on the articulated seat.

8. The acousto-optic hypnotic glasses for treating insomnia according to claim 6, wherein: the LED biological lamp beads flicker in the brain wave imitating frequency range of 0.5-35 Hz, and the power of the LED biological lamp beads is 70-1000 milliwatts.

9. The acousto-optic hypnotic glasses for treating insomnia according to claim 8, wherein: the flicker frequency of the LED biological lamp beads is gradually increased to within the highest 35Hz from 0.5Hz according to a preset program, and then is gradually decreased to below 5Hz from the highest frequency.

10. The acousto-optic hypnotic glasses for treating insomnia according to claim 8, wherein: the middle part of the hinge seat is provided with a rotating shaft, and the edge of the mirror cover is sleeved on the rotating shaft.

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