CN117045979A - Optical and electrical stimulation device and method for increasing dopamine secretion - Google Patents

Abstract

The application provides a light and electricity stimulation device and method for increasing dopamine secretion, comprising a main body component, wherein the main body component comprises a mounting ring, foam, gel negative films, electric needles, limiting plates, a positioning sleeve, springs, a fixed lens barrel, two limiting blocks, two sliding grooves, a collimating lens, a sliding lens barrel, a light source seat and an adjusting ring; the locating sleeves are embedded in the front surface of the mounting ring at equal intervals. According to the application, the gel negative film is attached to the eyes of the user, the electric needle is attached to the orbit of the user, the electric stimulation is carried out on the eyes of the user after the electric needle is electrified, the blood flow of the brain and retina can be regulated through the electric stimulation, so that the treatment effect on the user is improved, and the distance between the light source and the eyes of the user can be regulated through rotating the regulating ring.

Description

Optical and electrical stimulation device and method for increasing dopamine secretion

Technical Field

The application relates to a device and a method, in particular to a light and electricity stimulation device and a method for increasing dopamine secretion, belonging to the technical field of eye treatment devices.

Background

Dopamine is a nerve-conducting substance that is used to aid cells in the delivery of impulses. A large amount of data can be used to support that dopamine is one of the retinal neurotransmitters involved in the signaling cascade. The mechanism of light irradiation to stimulate retina to inhibit myopia progression is that the light-supplying bipolar cells irradiated with light of a specific wavelength on retina release glutamate substances to stimulate non-long process cells to release dopamine. Whereas the released dopamine will act on dopamine D1 and D2 receptors distributed widely on the retina, and on dopamine D2 and D4 receptors distributed in the Retinal Pigment Epithelium (RPE). Dopamine acts on the above receptors to flatten the cornea curvature, deeper front, thinner crystalline lens and proliferate scleral chondrocytes, which results in the development of far-reaching eye axis to inhibit myopia, whereas in animal experiments involving electro-orbital stimulation, the response of repeated electro-orbital stimulation in the visual pathway is initiated by retinal activation rather than other brain areas and is independent of the placement of the reference electrode, thus the placement of the stimulating electrode around the lens can achieve therapeutic effects.

Known chinese publication (publication No. CN108309559 a) discloses a method of inducing retina to produce and release dopamine and activating dopamine receptor D1 and an ophthalmologic therapeutic apparatus, which emits light of a wavelength in a specific wavelength range through a light source generating unit on a light source base and emits through a lens barrel of an eyepiece, thereby stimulating dopamine secretion of retina;

the light with specific wavelength is irradiated on retina to stimulate the amacrine cells to release dopamine, and the effect of stimulating the secretion of the dopamine can be achieved, but the function is single, and the functions of light stimulation and electric stimulation cannot be simultaneously realized.

Disclosure of Invention

In view of the foregoing, the present application provides an optical and electrical stimulation device and method for increasing dopamine secretion, which solves or alleviates the technical problems of the prior art, and at least provides a beneficial choice.

The technical scheme of the embodiment of the application is realized as follows: the optical and electrical stimulation device for increasing dopamine secretion comprises a main body assembly, wherein the main body assembly comprises a mounting ring, foam, a gel negative film, an electric needle, a limiting plate, a positioning sleeve, a spring, a fixed lens barrel, two limiting blocks, two sliding grooves, a collimating lens, a sliding lens barrel, a light source seat and an adjusting ring;

the locating sleeve is embedded in the front surface of the mounting ring at equal intervals, the foam is adhered to the front surface of the mounting ring, the gel negative film is adhered to the front surface of the foam, the limiting plate is fixedly connected to the outer side wall of the electric needle, the spring is sleeved on the outer side wall of the electric needle, the two limiting blocks are symmetrically and fixedly connected to the outer side wall of the sliding lens barrel, the adjusting ring is rotationally connected to the outer side wall of the fixed lens barrel, the collimating lens is mounted on the inner side wall of the sliding lens barrel, the light source seat is mounted at the rear end of the sliding lens barrel, the sliding lens barrel is slidably connected to the inner side wall of the fixed lens barrel, and the two sliding grooves are symmetrically formed in the outer side wall of the fixed lens barrel.

Further preferably, the limiting block is slidably connected to an inner side wall of the chute, a side, away from the sliding lens barrel, of the limiting block is in threaded connection with an inner side wall of the adjusting ring, and the light emitting unit on the surface of the light source seat is located inside the sliding lens barrel.

Further preferably, the front end of the fixed lens barrel is fixedly connected to the rear surface of the mounting ring, the electric needle and the limiting plate are both slidably connected to the inner side wall of the positioning sleeve, one end of the spring is fixedly connected to the inner rear wall of the positioning sleeve, and the other end of the spring is fixedly connected to the rear surface of the limiting plate.

Further preferably, the positioning sleeve is embedded in the foam and the gel bottom sheet, and the front end of the electric needle is positioned at the front part of the gel bottom sheet.

Further preferably, a fixing component is mounted on the outer side wall of the fixing lens barrel, and the fixing component comprises two elastic binding bands, a shell, an ocular, a buckle and a light shield;

the outer shell is fixedly connected to the outer side wall of the fixed lens cone.

Further preferably, one ends of the two elastic straps are symmetrically and fixedly connected to two sides of the outer wall of the shell, and the other ends of the two elastic straps are clamped through the buckle.

Further preferably, the rear part of the outer side wall of the eyepiece is fixedly connected to the front end of the fixed lens barrel, and the front part of the outer side wall of the eyepiece is fixedly connected to the inner side wall of the mounting ring.

Further preferably, the light shield is fixedly connected to the outer side wall of the mounting ring.

In addition, the application also provides a use method of the optical and electrical stimulation device for increasing dopamine secretion, which comprises the following steps:

step one: attaching the sunshade to eyes of a user, pulling the two elastic binding bands, and clamping the two ends of the two elastic binding bands through the buckle;

step two: at the moment, the position of the fixed lens barrel is fixed, meanwhile, the electric needle is attached to the orbit position of the user, the electric needle slides in the positioning sleeve and extrudes the spring, and the electric needle is kept attached to the orbit part of the user under the pushing of the spring;

step three: the electric needle is connected to a power supply, and at the moment, electric stimulation is carried out on the orbit part of the user through the electric needle;

step four: the adjusting ring is rotated, the adjusting ring drives the limiting block to slide in the chute through threads, and the limiting block drives the sliding lens barrel when moving;

step five: the sliding lens barrel drives the collimating lens and the light source seat to move, and the distance between the light source seat and the ocular lens is adjusted at the moment;

step six: the light source seat is connected with a power supply, at the moment, the light emitting unit in the light source seat emits light rays in a specific wavelength range, and the light rays pass through the collimating lens and become collimated laser beams;

step seven: the laser beam irradiates on the surface of the eyeball after being scattered by the ocular lens, irradiates on the retina after being refracted by the eyeball, and stimulates the retina to release dopamine.

Further preferably, in the sixth step, the light emitting unit of the light source holder is a laser light source generator.

By adopting the technical scheme, the embodiment of the application has the following advantages: according to the application, the gel negative film is attached to the eyes of a user, the electric needle is attached to the orbit of the user under the pushing of the spring, the electric stimulation is carried out on the eyes of the user after the electric needle is electrified, the blood flow of the brain and retina can be regulated through the electric stimulation, so that the treatment effect on the user is improved, the regulating ring is rotated, the regulating ring drives the limiting block, the limiting block drives the sliding lens barrel, the distance between the light source and the eyes of the user can be regulated, and the device is suitable for different requirements of different users.

The foregoing summary is for the purpose of the specification only and is not intended to be limiting in any way. In addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features of the present application will become apparent by reference to the drawings and the following detailed description.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a block diagram of the present application;

FIG. 2 is a block diagram of a body assembly of the present application;

FIG. 3 is a schematic view of the mounting position of the electric needle of the present application;

FIG. 4 is a diagram of a mounting ring configuration of the present application;

FIG. 5 is a schematic diagram of a positioning sleeve according to the present application;

fig. 6 is a schematic diagram illustrating connection between a fixed barrel and a sliding barrel according to the present application.

Reference numerals: 101. a body assembly; 11. a mounting ring; 12. soaking cotton; 13. a gel backsheet; 14. an electric needle; 15. a limiting plate; 16. a positioning sleeve; 17. a spring; 18. fixing the lens barrel; 19. a limiting block; 20. a chute; 21. a collimating lens; 22. sliding lens barrel; 24. a light source base; 25. an adjusting ring; 301. a fixing assembly; 31. an elastic strap; 32. a housing; 33. an eyepiece; 34. a buckle; 35. a light shield.

Detailed Description

Hereinafter, only certain exemplary embodiments are briefly described. As will be recognized by those of skill in the pertinent art, the described embodiments may be modified in various different ways without departing from the spirit or scope of the present application. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive.

Embodiments of the present application will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 to 6, the embodiment of the present application provides a light and electricity stimulation device for increasing dopamine secretion, comprising a main body assembly 101, wherein the main body assembly 101 comprises a mounting ring 11, foam 12, gel negative 13, electric needle 14, limiting plate 15, positioning sleeve 16, spring 17, fixed lens barrel 18, two limiting blocks 19, two sliding grooves 20, collimating lens 21, sliding lens barrel 22, light source seat 24 and adjusting ring 25;

the locating sleeve 16 is embedded in the front surface of the mounting ring 11 at equal intervals, the foam 12 is adhered to the front surface of the mounting ring 11, the gel negative film 13 is adhered to the front surface of the foam 12, the limiting plate 15 is fixedly connected to the outer side wall of the electric needle 14, the spring 17 is sleeved on the outer side wall of the electric needle 14, the two limiting blocks 19 are symmetrically and fixedly connected to the outer side wall of the sliding lens barrel 22, the adjusting ring 25 is rotationally connected to the outer side wall of the fixed lens barrel 18, the collimating lens 21 is arranged on the inner side wall of the sliding lens barrel 22, the light source seat 24 is arranged at the rear end of the sliding lens barrel 22, the sliding lens barrel 22 is slidingly connected to the inner side wall of the fixed lens barrel 18, and the two sliding grooves 20 are symmetrically arranged on the outer side wall of the fixed lens barrel 18.

In one embodiment, the limiting block 19 is slidably connected to the inner side wall of the sliding chute 20, one side of the limiting block 19 far away from the sliding lens barrel 22 is in threaded connection with the inner side wall of the adjusting ring 25, the light emitting unit on the surface of the light source seat 24 is located inside the sliding lens barrel 22, and when the adjusting ring 25 is rotated, the adjusting ring 25 drives the limiting block 19 to slide in the sliding chute 20, and meanwhile, the limiting block 19 drives the sliding lens barrel 22, so that the distance between the light source and the eyes of the user can be adjusted.

In one embodiment, the front end of the fixed lens barrel 18 is fixedly connected to the rear surface of the mounting ring 11, the electric needle 14 and the limiting plate 15 are both in sliding connection with the inner side wall of the positioning sleeve 16, one end of the spring 17 is fixedly connected to the inner rear wall of the positioning sleeve 16, the other end of the spring 17 is fixedly connected to the rear surface of the limiting plate 15, the positioning sleeve 16 is embedded in the foam 12 and the gel negative 13, the front end of the electric needle 14 is positioned at the front part of the gel negative 13, the limiting plate 15 is pushed by the spring 17, the electric needle 14 is pushed by the limiting plate 15, the electric needle 14 can be kept in contact with the eye socket of a user, the electric needle 14 is connected with an external control terminal, stimulating current is generated by the electric needle 14, and different parameters such as different frequencies, current sizes, serial pulses and the like of the electric needle 14 are controlled by the external control terminal, according to the actual condition of the patient, the electric stimulation parameters matched with the patient are selected, the starting current under the tolerating condition of the patient stimulates scleral tissues at the posterior pole of the eyeball through the electric needle 14 to perform noninvasive electric stimulation and shrink, meanwhile, matrix metalloproteinase and basic fibroblast growth factor drugs are led into the posterior pole of the eyeball along with current to realize blocking and treatment of myopia, after single treatment is finished, the change of data of shortening of the eye axis is measured and observed through the biological measuring instrument, when the treatment parameters are effective, the parameters of the treatment scheme can be written into the IC, and an instrument suitable for home use in a household scene is manufactured for the user to return home.

In one embodiment, the outer side wall of the fixed barrel 18 is mounted with a fixing assembly 301, the fixing assembly 301 comprising two elastic bands 31, a housing 32, an eyepiece 33, a buckle 34 and a light shield 35;

the shell 32 fixed connection is in the lateral wall of fixed lens cone 18, the one end symmetry fixed connection of two elastic bandage 31 is in the outer wall both sides of shell 32, the other end of two elastic bandage 31 passes through buckle 34 joint, and then can be with whole fixing at user's head through elastic bandage 31, so that carry out sustainable treatment, in the treatment, the accurate stimulation position that positions eyes of electric needle 14, through the miniaturized design of electric needle 14 and the gel film 13 that sets up at electric needle 14 tip, the security when can guarantee the use, reduce the side effect that probably brings, can paint cataplasm on gel film 13 according to patient's actual conditions simultaneously, the effect of treatment to the patient is strengthened.

In one embodiment, the rear part of the outer side wall of the eyepiece 33 is fixedly connected to the front end of the fixed lens barrel 18, the front part of the outer side wall of the eyepiece 33 is fixedly connected to the inner side wall of the mounting ring 11, and the light shielding cover 35 is fixedly connected to the outer side wall of the mounting ring 11, so that the light shielding effect can be achieved through the light shielding cover 35, and external light is prevented from being irradiated to eyes of a user.

In addition, the application also provides a use method of the optical and electrical stimulation device for increasing dopamine secretion, which comprises the following steps:

step one: attaching the light shield 35 to eyes of a user, pulling the two elastic straps 31, and clamping the two ends of the two elastic straps 31 through the buckles 34;

step two: at this time, the position of the fixed lens barrel 18 is fixed, meanwhile, the electric needle 14 is attached to the orbital position of the user, the electric needle 14 slides in the positioning sleeve 16 and presses the spring 17, and the electric needle 14 is kept attached to the orbital part of the user under the pushing of the spring 17;

step three: the electric needle 14 is connected with a power supply, and at the moment, the electric stimulation is carried out on the orbit part of the user through the electric needle 14;

step four: the adjusting ring 25 is rotated, the adjusting ring 25 drives the limiting block 19 to slide in the chute 20 through threads, and the limiting block 19 drives the sliding lens barrel 22 when moving;

step five: the sliding lens barrel 22 drives the collimating lens 21 and the light source seat 24 to move, and at the moment, the distance between the light source seat 24 and the ocular lens 33 is adjusted;

step six: the light source seat 24 is connected with a power supply, at the moment, the light emitting unit in the light source seat 24 emits light rays in a specific wavelength range, and the light rays pass through the collimating lens 21 and become collimated laser beams;

step seven: the laser beam is irradiated onto the surface of the eyeball after being scattered by the eyepiece 33, and then irradiated onto the retina after being refracted by the eyeball, thereby stimulating the retina to release dopamine.

In one embodiment, in the sixth step, the light emitting unit of the light source seat 24 is a laser light source generator, and the laser light source generator can emit light within a specific wavelength range.

The application works when in work: attaching the light shield 35 to eyes of a user, then pulling the two elastic binding belts 31, clamping two ends of the two elastic binding belts 31 through the buckles 34, fixing the position of the lens cone 18 at the moment, attaching the electric needle 14 to the eye socket of the user, sliding the electric needle 14 in the positioning sleeve 16 and extruding the spring 17, keeping the electric needle 14 attached to the eye socket of the user under the pushing of the spring 17, rotating the adjusting ring 25, driving the limiting block 19 to slide in the sliding groove 20 through threads by the adjusting ring 25, driving the sliding lens cone 22 when the limiting block 19 moves, driving the collimating lens 21 and the light source seat 24 to move by the sliding lens cone 22, at this time, the distance between the light source seat 24 and the ocular 33 can be adjusted, the light source seat 24 is connected to a power supply, the light emitting unit in the light source seat 24 emits light rays in a specific wavelength range, the light rays are changed into collimated laser beams after passing through the collimating lens 21, the laser beams irradiate on the surface of the eyeball after being scattered by the ocular 33, then irradiate on the retina after being refracted by the eyeball, so that the retina can be stimulated to release dopamine, meanwhile, the electric needle 14 is connected to the power supply, the electric stimulation is carried out on the orbital part of a user through the electric needle 14, and the blood flow of the brain and the retina can be adjusted through the electric stimulation, so that the treatment effect on the user is improved.

The foregoing is merely illustrative of the present application, and the present application is not limited thereto, and any person skilled in the art will readily recognize that various changes and substitutions are possible within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A light and electricity stimulation device for increasing dopamine secretion, comprising a body assembly (101), characterized in that: the main body assembly (101) comprises a mounting ring (11), foam (12), a gel negative film (13), an electric needle (14), a limiting plate (15), a positioning sleeve (16), a spring (17), a fixed lens barrel (18), two limiting blocks (19), two sliding grooves (20), a collimating lens (21), a sliding lens barrel (22), a light source seat (24) and an adjusting ring (25);

the utility model provides a fixing device for a liquid crystal display, including installation ring (11), locating sleeve (16), foam (12), gel film (13), limiting plate (15), spring (17) cup joint in the front surface of installation ring (11), foam (12) bond in the front surface of installation ring (11), gel film (13) bond in the front surface of foam (12), limiting plate (15) fixed connection in the lateral wall of electric needle (14), spring (17) cup joint in the lateral wall of electric needle (14), two stopper (19) symmetry fixed connection in the lateral wall of sliding lens cone (22), adjusting ring (25) rotate connect in the lateral wall of fixed lens cone (18), collimating lens (21) install in the inside wall of sliding lens cone (22), light source seat (24) install in the rear end of sliding lens cone (22), sliding lens cone (22) sliding connection in the inside wall of fixed lens cone (18), two spout (20) symmetry are seted up in the lateral wall of fixed lens cone (18).

2. A light and electricity stimulation device for increasing dopamine secretion according to claim 1, wherein: the limiting block (19) is slidably connected to the inner side wall of the sliding groove (20), one side, away from the sliding lens barrel (22), of the limiting block (19) is in threaded connection with the inner side wall of the adjusting ring (25), and the light-emitting unit on the surface of the light source seat (24) is located in the sliding lens barrel (22).

3. A light and electricity stimulation device for increasing dopamine secretion according to claim 1, wherein: the front end of the fixed lens cone (18) is fixedly connected to the rear surface of the mounting ring (11), the electric needle (14) and the limiting plate (15) are both in sliding connection with the inner side wall of the positioning sleeve (16), one end of the spring (17) is fixedly connected to the inner rear wall of the positioning sleeve (16), and the other end of the spring (17) is fixedly connected to the rear surface of the limiting plate (15).

4. A light and electricity stimulation device for increasing dopamine secretion according to claim 3, wherein: the positioning sleeve (16) is embedded in the foam (12) and the gel bottom sheet (13), and the front end of the electric needle (14) is positioned at the front part of the gel bottom sheet (13).

5. A light and electricity stimulation device for increasing dopamine secretion according to claim 3, wherein: a fixing component (301) is arranged on the outer side wall of the fixing lens barrel (18), and the fixing component (301) comprises two elastic binding bands (31), a shell (32), an ocular (33), a buckle (34) and a light shield (35);

the outer shell (32) is fixedly connected to the outer side wall of the fixed lens barrel (18).

6. The optical and electrical stimulation device for increasing dopamine secretion as claimed in claim 5, wherein: one end of each elastic bandage (31) is symmetrically and fixedly connected to two sides of the outer wall of the shell (32), and the other ends of the two elastic bandages (31) are clamped through the corresponding buckles (34).

7. The optical and electrical stimulation device for increasing dopamine secretion as claimed in claim 5, wherein: the rear part of the outer side wall of the ocular (33) is fixedly connected to the front end of the fixed lens cone (18), and the front part of the outer side wall of the ocular (33) is fixedly connected to the inner side wall of the mounting ring (11).

8. The optical and electrical stimulation device for increasing dopamine secretion as claimed in claim 5, wherein: the light shield (35) is fixedly connected to the outer side wall of the mounting ring (11).

9. A method of using a light and electricity stimulation device for increasing dopamine secretion according to any of the claims 1-8, comprising the steps of:

step one: attaching a light shield (35) to eyes of a user, then pulling the two elastic binding bands (31), and clamping two ends of the two elastic binding bands (31) through a buckle (34);

step two: at the moment, the position of the fixed lens barrel (18) is fixed, meanwhile, the electric needle (14) is attached to the orbital position of the user, the electric needle (14) slides in the positioning sleeve (16) and presses the spring (17), and the electric needle (14) is kept attached to the orbital part of the user under the pushing of the spring (17);

step three: the electric needle (14) is connected to a power supply, and at the moment, the electric stimulation is carried out on the orbit part of the user through the electric needle (14);

step four: the adjusting ring (25) is rotated, the adjusting ring (25) drives the limiting block (19) to slide in the chute (20) through threads, and the limiting block (19) drives the sliding lens barrel (22) when moving;

step five: the sliding lens barrel (22) drives the collimating lens (21) and the light source seat (24) to move, and the distance between the light source seat (24) and the ocular lens (33) is adjusted at the moment;

step six: the light source seat (24) is connected with a power supply, at the moment, the light emitting unit in the light source seat (24) emits light rays in a specific wavelength range, and the light rays pass through the collimating lens (21) and become collimated laser beams;

step seven: the laser beam irradiates the surface of the eyeball after being scattered by the ocular lens (33), and irradiates the retina after being refracted by the eyeball, so as to stimulate the retina to release dopamine.

10. The method of using a light and electricity stimulation device for increasing dopamine secretion according to claim 9, wherein: in the sixth step, the light emitting unit of the light source base (24) is a laser light source generator.