CN115068285A - Eyesight healing system - Google Patents
Eyesight healing system Download PDFInfo
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- CN115068285A CN115068285A CN202210673554.2A CN202210673554A CN115068285A CN 115068285 A CN115068285 A CN 115068285A CN 202210673554 A CN202210673554 A CN 202210673554A CN 115068285 A CN115068285 A CN 115068285A
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
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- A61H2205/00—Devices for specific parts of the body
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Abstract
The invention belongs to the field of vision healing, in particular to a vision healing system, which aims at the problem of strong limitation in the prior art, and provides a scheme which comprises a test module, an input module, a processing module, a storage module, a playing module and a display module, wherein the test module is electrically connected with the input module, the input module is electrically connected with the processing module, the processing module is bidirectionally connected with the storage module, the storage module is electrically connected with the playing module, the playing module is electrically connected with the display module, the connecting unit comprises signal receiving and signal output, the input module comprises a character unit and a data unit, the character unit is electrically connected with the data unit, and the display module comprises a graph-text display unit and a time setting unit Eye diseases such as amblyopia and the like can self-heal different people, and the applicability is strong.
Description
Technical Field
The invention relates to the technical field of vision healing, in particular to a vision healing system.
Background
The vision is the ability of the retina to distinguish images, the quality of the vision is judged by the ability of the retina to distinguish images, the use of various electronic equipment and some bad habits of people lead to the poor vision of people, so that the people have eye diseases such as myopia, astigmatism, presbyopia, muscae volitantes, amblyopia, strabismus, glaucoma, cataract and the like, and the myopia is one of ametropia. When the eye is in a relaxed state of accommodation, parallel rays of light enter the eye, which focus in front of the retina, resulting in the inability to form a sharp image on the retina, known as a myopic eye; under the state that the eyes are adjusted and relaxed, external parallel light enters the eyes, and the focus of the parallel light just falls on the retina to form a clear image, which is called emmetropia; if the focus fails to fall on the retina, it is called non-emmetropia, i.e. ametropia; astigmatism is a refractive abnormal manifestation of the eye, related to the curvature of the cornea. After parallel rays enter the eye, the eyeball cannot focus on one point (focus) due to different refractive powers of the eyeball on different meridian lines, and a clear object image cannot be formed, and the condition is called astigmatism. The astigmatic eye cannot form a clear image by virtue of an adjusting function or the distance between a moving target and the eye, and the clear image can be formed on the retina only by wearing a proper cylindrical lens. According to the expression, the astigmatism can be divided into regular astigmatism and irregular astigmatism, the former can be corrected by the lens, the latter cannot be corrected by the lens, and the regular astigmatism is the regular astigmatism when the principal meridians of the regular astigmatism and the minimum power are perpendicular to each other. Regular astigmatism is further classified into normal astigmatism, reverse astigmatism and oblique astigmatism. Regular astigmatism is divided into simple myopia astigmatism, simple hyperopia astigmatism, composite myopia astigmatism, composite hyperopia astigmatism and mixed astigmatism according to the refractive states of all meridians, the refractive powers of all radial lines of the irregular astigmatism eyeball are different, the refractive powers of all parts on the same radial line are also different, no rule exists, two front and back focal lines cannot be formed, cylindrical lenses cannot be used for correction, and the irregular astigmatism is usually caused by irregular cornea or crystalline lens refractive surface caused by keratoconus, corneal cloudiness or crystalline lens diseases and the like; presbyopia, i.e. presbyopia, is a physiological phenomenon, is not a pathological state nor ametropia, and is a visual problem that people inevitably have after walking into the middle-aged and the elderly. Is one of the signs of the body's onset of aging. With age, the lens of the eye hardens and thickens, and the accommodative capacity of the eye muscles diminishes, resulting in a reduction in zoom capacity. Therefore, when looking at a near object, the object looking at the near distance becomes blurred because the image cannot be completely focused when projected on the retina. The occurrence and development of presbyopia are directly related to the age, most of which appears after the age of 45 years, and the occurrence time, the occurrence time and the severity of the presbyopia are also related to other factors, such as the original ametropia condition, the height, the reading habit, the lighting condition, the general health condition and the like; muscae volitantes (Floaters): the finger has a small floating black image in front of the eye, which is more obvious when seeing a white and bright background and possibly accompanied with a glistening sense. Muscae volitantes is generally caused by the denaturation of the vitreous body, a natural aging phenomenon, i.e., the vitreous body "liquefies" with aging, producing some turbidity. Therefore, the formal name of the muscae volitantes is "vitreous chaos" or "vitreous plankton"; the optimal correction vision of single eye or double eyes caused by abnormal visual experiences such as strabismus, ametropia, high ametropia, form deprivation and the like in the visual development period is lower than that of normal children at corresponding ages, and the eye examination has no organic lesions, which is called amblyopia. Lower limit of normal value of vision for children of different ages: the lower limit of the normal vision of children aged 3-5 years is 0.5, and the lower limit of the normal vision of children aged 6 years and above is 0.7. Amblyopia is an eye disease seriously harming the visual function of children, and if the eye disease is not treated in time, the amblyopia can be aggravated and even be blind; strabismus (squint) refers to the condition that two eyes cannot watch the target at the same time, and belongs to extraocular muscle diseases, and can be divided into two categories, namely common strabismus and paralytic strabismus. The common strabismus is characterized in that the eyeball does not have dyskinesia, and the strabismus of the first eye position and the second eye position are equal as the main clinical characteristics; paralytic strabismus has restricted eyeball motion, and diplopia can be congenital, traumatic or systemic disease; glaucoma is a group of diseases characterized by atrophy and depression of optic papilla, visual field loss and visual deterioration, pathological increased intraocular pressure and insufficient blood supply of optic nerve are primary risk factors of the onset of the diseases, and the tolerance of optic nerve to pressure damage is also related to the occurrence and development of the glaucoma. Obstruction of any ring in the aqueous humor circulatory pathway can lead to pathological changes caused by elevated intraocular pressure, but some patients also present with normal tension glaucoma. Glaucoma is one of three major blind diseases causing human blindness, the incidence rate of the total population is 1%, the incidence rate of the total population is 2% after the age of 45 years, and the glaucoma is clinically divided into three major types, namely primary, secondary and congenital, according to the causes, the angle of the house, the tonography and the like; cataract refers to the condition where the lens in the eye is cloudy and turns from clear to opaque, thus blocking light from entering the eye and affecting vision. Early clouding was mild or less extensive and did not affect vision, but then gradually worsened to significantly affect vision and even blindness. The vision loss caused by cataracts is uncorrectable by wearing glasses. All the reasons such as aging, heredity, local nutrition disorder, immunity and metabolism abnormality, trauma, poisoning, radiation and the like can cause the metabolic disorder of crystalline lens, so that the protein of the crystalline lens is denatured to generate opacity, namely cataract, at the moment, light rays are blocked by the opacity crystalline lens and cannot be projected on retina, and objects cannot be seen clearly. The world health organization starts from group blindness prevention and treatment angles, denaturalizes and turbidness lens and turns opaque to influence vision, and people with corrected vision of 0.7 or below fall into the cataract diagnosis range; at present, the following non-operative and non-medicinal methods are available in the market for treating eye diseases such as myopia, astigmatism, strabismus, presbyopia, muscae volitantes, amblyopia and the like, and all have curative effects: a massage method, B moxibustion method, C earphone music therapy, D optical stimulation therapy, E acousto-optic potential self-healing therapy, the operation treatment myopia includes quasi-molecule laser operation and full femtosecond, the quasi-molecule laser is ultraviolet light which is generated by mixing fluorine and argon and is excited and invisible to human eyes, the wavelength of the ultraviolet light is only 193 nanometers, the ultraviolet light cannot penetrate into eyes, the ultraviolet light belongs to cold laser, the heat effect is avoided, the cornea tissue of the human eyes can be precisely gasified in an irradiation mode, the purpose of cutting and carving the cornea can be achieved without damaging surrounding tissues and other organs, and the unique property of the ultraviolet light is most suitable for the cornea refractive operation; the full femtosecond laser is characterized in that a femtosecond laser system is completely applied in the treatment process, an interface with a specific diameter and curvature is cut on a relatively deep layer of a cornea, an interface with a slightly larger diameter and a specific curvature is cut on a relatively shallow layer of the cornea after the cutting, the peripheries of the two interfaces are intersected, a corneal lamella tissue in a convex lens shape is formed in an interlayer, a specially-made interlayer tissue is taken out by a specially-made tool, and the principle of excimer laser cutting is applied; however, the treatment method has strong limitation and only can have curative effect on certain specific people, so that a vision healing system is provided.
Disclosure of Invention
The invention aims to solve the defect of strong limitation in the prior art and provides a vision healing system.
In order to achieve the purpose, the invention adopts the following technical scheme:
the vision healing system comprises a testing module, an input module, a processing module, a storage module, a playing module and a display module, wherein the testing module is electrically connected with the input module, the input module is electrically connected with the processing module, the processing module is bidirectionally connected with the storage module, the storage module is electrically connected with the playing module, and the playing module is electrically connected with the display module.
Preferably, the connection unit comprises a signal receiving and a signal output.
Preferably, the input module comprises a text unit and a data unit, and the text unit is electrically connected with the data unit.
Preferably, the display module comprises an image-text display unit and a time setting unit.
Preferably, the playing module comprises an input unit, an audio unit, a video unit and an output unit, wherein the input unit is electrically connected with the audio unit, the audio unit is electrically connected with the video unit, and the video unit is electrically connected with the output unit.
Preferably, the test unit comprises a myopia test, an astigmatism test, an presbyopia test, a muscae volitantes test, a amblyopia test, a strabismus test, a glaucoma test, a cataract test.
Preferably, the test module comprises a test unit and a connection unit, and the test unit is electrically connected with the connection unit.
Preferably, the processing module comprises a data receiving unit, a data identifying unit, a data sorting unit and a data outputting unit, the data receiving unit is electrically connected with the data identifying unit, the data identifying unit is electrically connected with the data sorting unit, and the data sorting unit is electrically connected with the data outputting unit.
In the invention, the beneficial effects of the vision healing system are as follows: by applying the organic combination of the principles of optics, acoustics, medicine, energetics and psychology, the application of computer technology science and the comprehensive application rule of science and technology, the self-healing capability of human eye diseases (myopia, astigmatism, strabismus, presbyopia, muscae volitantes, amblyopia and the like) is achieved, and the method is a supernormal non-operative, non-medicinal and non-fusion physical eye disease therapy. The whole system can achieve the self-healing of eye diseases by the training of about 3 hours of system training +30 days (1 hour of listening to music and training each day).
The invention can self-heal myopia, astigmatism, strabismus, presbyopia, mosquito, amblyopia and other eye diseases through training, can self-heal different people, and has strong applicability.
Drawings
FIG. 1 is a schematic block diagram of a vision healing system according to the present invention;
FIG. 2 is a schematic block diagram of an input module of the vision healing system according to the present invention;
FIG. 3 is a schematic block diagram of a playing module of the vision healing system according to the present invention;
FIG. 4 is a schematic block diagram of a testing module of the vision healing system according to the present invention;
fig. 5 is a schematic block diagram of a processing module of a vision healing system according to the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.
Referring to fig. 1, the vision healing system comprises a testing module, an input module, a processing module, a storage module, a playing module and a display module, wherein the testing module is electrically connected with the input module, the input module is electrically connected with the processing module, the processing module is bidirectionally connected with the storage module, the storage module is electrically connected with the playing module, and the playing module is electrically connected with the display module.
Referring to fig. 2, the input module includes a text unit and a data unit, and the text unit is electrically connected to the data unit, so that information can be input or copied to enter the system, and the system data can be conveniently received.
Referring to fig. 3, the playing module includes an input unit, an audio unit, a video unit and an output unit, the input unit is electrically connected to the audio unit, the audio unit is electrically connected to the video unit, and the video unit is electrically connected to the output unit, so that audio can be played conveniently, and training can be performed in an auxiliary manner.
Referring to fig. 4, the test module includes a test unit and a connection unit, the test unit is electrically connected to the connection unit, and can test eye diseases of a patient, input data into the system, and store the data, so as to facilitate understanding of treatment effects.
Referring to fig. 5, the processing module comprises a data receiving unit, a data identifying unit, a data sorting unit and a data output unit, the data receiving unit is electrically connected with the data identifying unit, the data identifying unit is electrically connected with the data sorting unit, and the data sorting unit is electrically connected with the data output unit, so that the patient data and the training data can be sorted and sorted, and the system is convenient to use.
Referring to fig. 4, the test unit includes a myopia test, an astigmatism test, an presbyopia test, a muscae volitantes test, an amblyopia test, a strabismus test, a glaucoma test, a cataract test.
Referring to fig. 4, the connection unit includes signal receiving and signal outputting, and can automatically receive patient test data and input the signal to the processing module, thereby facilitating data recording.
Referring to fig. 1, the display module includes a graphic display unit and a time setting unit, the display unit is arranged to facilitate data viewing, and the time setting unit can remind training time.
In the embodiment, when the device is used, the eye disease of a patient is tested by the test unit in the test module, the data is transmitted to the input module by the connecting unit, the input module can transmit the received data or the input data to the processing module, the data receiving unit in the processing module receives the data and transmits the data to the data identification unit, the data identification unit identifies different types of data and transmits the data to the data sorting unit, the data sorting unit sorts the different types of data and transmits the data to the storage module for storage, if the patient data is required to be watched or training content is required to be played, the content in the storage module is called by the processing module and transmitted to the playing module, the data is played by the audio unit and the video unit in the playing module and is displayed by the display module, the training is convenient, and the device can pass through the time setting unit in the display module, the training time is set, so that the training time is more reasonable, and the training effect is improved.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.
Claims (8)
1. The vision healing system is characterized in that the testing module is electrically connected with the input module, the input module is electrically connected with the processing module, the processing module is bidirectionally connected with the storage module, the storage module is electrically connected with the playing module, and the playing module is electrically connected with the display module.
2. The vision healing system of claim 1, wherein the input module comprises a text unit and a data unit, the text unit and the data unit being electrically connected.
3. The vision healing system of claim 1, wherein the playing module comprises an input unit, an audio unit, a video unit and an output unit, the input unit is electrically connected to the audio unit, the audio unit is electrically connected to the video unit, and the video unit is electrically connected to the output unit.
4. The vision healing system of claim 1, wherein the testing module comprises a testing unit and a connecting unit, and the testing unit is electrically connected to the connecting unit.
5. The vision healing system of claim 1, wherein the processing module comprises a data receiving unit, a data recognition unit, a data sorting unit and a data output unit, the data receiving unit is electrically connected to the data recognition unit, the data recognition unit is electrically connected to the data sorting unit, and the data sorting unit is electrically connected to the data output unit.
6. The vision healing system of claim 4, wherein the test unit includes a myopia test, an astigmatism test, a presbyopia test, a muscae volitantes test, an amblyopia test, a strabismus test, a glaucoma test, a cataract test.
7. The vision healing system of claim 4, wherein the connection unit comprises a signal receiving and a signal output.
8. The vision healing system of claim 1, wherein the display module comprises a graphic display unit and a time setting unit.
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CN202210673554.2A CN115068285A (en) | 2022-06-13 | 2022-06-13 | Eyesight healing system |
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CN202210673554.2A CN115068285A (en) | 2022-06-13 | 2022-06-13 | Eyesight healing system |
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