CN213252615U - High-red light structure capable of relieving myopia fatigue and eye physical therapy device - Google Patents
High-red light structure capable of relieving myopia fatigue and eye physical therapy device Download PDFInfo
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- CN213252615U CN213252615U CN202021337384.3U CN202021337384U CN213252615U CN 213252615 U CN213252615 U CN 213252615U CN 202021337384 U CN202021337384 U CN 202021337384U CN 213252615 U CN213252615 U CN 213252615U
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Abstract
The utility model relates to the technical field of eye vision, in particular to a high red light structure and an eye physical therapy device with the function of relieving myopia fatigue. A high-red light structure capable of relieving myopia fatigue comprises a mounting plate, wherein a plurality of semiconductor lasers are arranged on the mounting plate, are all arranged on the same surface of the mounting plate, each semiconductor laser is a semiconductor laser capable of outputting visible high-red light, and the wavelength of the visible high-red light output by each semiconductor laser is 635-645 nm; the power of each semiconductor laser is 0.285mW-0.6 mW. The utility model discloses the visual high ruddiness that can produce is in order to alleviate myopia fatigue, also can realize low output's effect to reach further amazing eye ground retina and choroid isotructure, increase eye ground choroid blood circulation, promote dopamine secretion, realize the effect that the effective control eye axis increases, realize then alleviating myopia fatigue's effect.
Description
Technical Field
The utility model relates to the technical field of eye vision, in particular to a high red light structure and an eye physical therapy device with the function of relieving myopia fatigue.
Background
At present, electronic products such as mobile phones and computers become indispensable components in life, work and study of people, but along with the overlong use time of the electronic products, various eye problems such as dry eyes, visual fatigue and increase of myopia degrees of users are accompanied, and the problem of myopia with visual fatigue and high morbidity is the most prominent.
On one hand, the eye fatigue is mainly manifested by symptoms that the life, the study and the work are seriously affected by the visual objects such as the inability to persist, the blur, the double image, the dry eyes, the eye puckery, the eye distension, the headache and the like, and the incidence of the visual fatigue is gradually increased and is in a low-age trend due to the change of social environment, the increase of the work and the study pressure, the gradual increase of close-range fine eye use work or the untimely correction of ametropia and the like.
Another aspect is the high incidence of myopia, which is considered a significant threat to eye health. The research shows that the incidence rate of myopia of teenagers in China exceeds 70 percent and is on the trend of increasing year by year, the incidence rate is higher than the first in the world, the total number of myopia is as high as 7 hundred million, and the incidence rate is also higher than the first in the world. Meanwhile, the damage of high-degree myopia is more obvious, the probability of obtaining eye diseases such as poor eyesight, choroidal atrophy and thinning, retinal degeneration and detachment, cataract, glaucoma and the like can be greatly improved, and even the condition of blindness is caused. If the high incidence of myopia is not intervened timely and effectively, the method not only influences the aspects of personal health, life, work, learning and the like, but also threatens the sustainable development of economy and the national security.
In order to better relieve asthenopia and prevent and control myopia, a plurality of eye massage instruments, eye masks, eye patches, eye physical therapy instruments and the like can be selected on the market. For example, eye massagers massage the periphery of eyes by adopting modes such as vibration, air bag inflation and the like to relieve visual fatigue, but have the defects of single function, curing mode and poor effect; for example, the eyeshade has good effects on eliminating fatigue and blocking light, but the tightness can influence the blood circulation of the eye, and the eye discomfort can be caused by the cleaning and sanitation problems; for example, the eye patch has obvious effects of moistening eyes and relieving eye dryness, but the eye patch contains medicinal components which often cause eye problems such as allergy, infection, inflammation and the like; even the eye physical therapy device has various effects of mainly relaxing eye muscles, improving blood circulation around eyes, relieving fatigue and the like. However, in summary, there is no clear myopia prevention and control effect in many of the products.
Meanwhile, the visual stimulation light sources of various physical therapy devices on the market are mainly red-green divergent light sources and common colorless or colored light sources, but the wavelength ranges are large, and the wavelengths with good effects on fundus cells are few; He-Ne laser is also often used as a stimulation light source, the effect is good, but the high-power unstable laser output of the He-Ne laser often has a certain damage risk to the refractive interstitium of the eye; the other method uses the flashing red light as a treatment light source, and related research data show that the treatment light can promote the increase of the axis of the eyes and treat hyperopic amblyopia, but cannot prevent and control myopia but can induce the increase of myopia degrees.
SUMMERY OF THE UTILITY MODEL
The invention of the utility model aims to: in order to solve the problems of insufficient function and poor effect of the physical therapy instrument in the prior art, the utility model provides a high red light structure and an eye physical therapy instrument with the function of relieving the fatigue of myopia.
In order to solve the problems existing in the prior art, the utility model adopts the following technical scheme:
a high-red light structure capable of relieving myopia fatigue comprises a mounting plate, wherein a plurality of semiconductor lasers are arranged on the mounting plate, the semiconductor lasers are all arranged on the same surface of the mounting plate, each semiconductor laser is a semiconductor laser capable of outputting visible high-red light, and the wavelength of the visible high-red light output by each semiconductor laser is 635-645 nm; the power of each semiconductor laser is 0.285mW-0.6 mW.
As the utility model discloses have an improve of the technical scheme of alleviating near-sighted tired high ruddiness structure, be provided with 6 on the mounting panel semiconductor laser, every semiconductor laser's external diameter is 0.5mm-0.8mm, every semiconductor laser corresponds the facula diameter that forms and is 2mm-4mm, and the voltage is DC3V, DC4.5V or DC5V, and total output is 2.0mW-3.0 mW.
As the utility model discloses have an improvement of the technical scheme of the high ruddiness structure of alleviating myopia fatigue, the mounting panel is the circuit board, just the circuit board is circular or oval-shaped circuit board, the thickness of circuit board is 1mm, 2mm or 4mm, the annular is provided with 6 mounting holes, every on the same face of circuit board semiconductor laser arranges in correspondingly respectively in the mounting hole.
As the utility model discloses have an improvement of the technical scheme of the high ruddiness structure of alleviating myopia fatigue, the mounting panel still is connected with switch, switch respectively with a plurality of semiconductor laser are connected, just be provided with time control module on the switch, switch is used for control semiconductor laser's start-up or stop, time control module is used for calculating semiconductor laser live time.
As an improvement of the technical scheme of the utility model having the high red light structure for relieving the fatigue of the myopia, 6 semiconductor lasers respectively with switch is parallelly connected.
As an improvement of the technical proposal of the high red light structure with the function of relieving the fatigue of the myopia, the circuit board is a circular circuit board with the diameter of 20mm-30 mm.
As the utility model discloses have an improvement of the technical scheme of the high ruddiness structure of alleviating myopia fatigue, be provided with the pin on semiconductor laser's the lower part, semiconductor laser passes through the pin is connected on the mounting panel.
An eye physical therapy device comprises a physical therapy device main body and further comprises a high red light structure with the function of relieving the fatigue of myopia, wherein the high red light structure with the function of relieving the fatigue of myopia is arranged in the eye physical therapy device.
As an improvement of the technical scheme of the utility model discloses eye physiotherapy equipment, eye physiotherapy equipment is eye-shade or eyes training ware, be provided with two in eye-shade or the eyes training ware have and alleviate the tired high ruddiness structure of myopia, and every the position that has the tired high ruddiness structure of myopia of alleviating corresponds with the position of eyes.
As an improvement of the technical proposal of the eye physical therapy device, two the high red light structure with the function of relieving the fatigue of the myopia is connected in series.
The utility model has the advantages that:
1. the semiconductor lasers are connected with the mounting plate, the semiconductor lasers can output visible high-red light with the wavelength of 635-645 nm, and the power of each semiconductor laser is 0.285-0.6 mW, the utility model discloses visible high-red light that can be generated can also realize the effect of low output power in order to alleviate myopia fatigue, so as to further stimulate structures such as fundus retina and choroid, increase fundus choroid blood circulation, promote dopamine secretion, realize the effect of effectively controlling the increase of the axis of the eye, and then realize the effect of alleviating myopia fatigue;
2. the light spots are correspondingly formed by the plurality of semiconductor lasers, and the stimulation degree of a single cursor to eyes is effectively reduced by the uniformly dispersed light spots;
3. the service time of the utility model is controlled through the mutual matching of the power switch and the time control module, so as to ensure the safety controllability of each component and the safety of users;
4. the utility model has the advantages that the high red light structure for relieving the myopia fatigue has small volume and high safety, can be more compatibly applied to various existing eye massage, physical therapy and visual training instruments, can be arranged in other eye physical therapy instrument products, supplements and enhances the functions of the original equipment, promotes each other, and can achieve the effects of relieving the myopia visual fatigue and controlling the myopia growth better;
5. the utility model discloses among the eye physiotherapy equipment, can be applicable to the condition of the different interpupillary distances of different users, but application range is wider, and on the other hand more can guarantee the security and the validity of high ruddiness, provides better treatment for the user of different interpupillary distances.
Drawings
FIG. 1 is a schematic view of the whole structure of the high red light structure for relieving fatigue due to myopia;
FIG. 2 is a schematic view of the structure of the utility model with a high red light structure for relieving fatigue due to myopia;
FIG. 3 is a left side view structural diagram of the high red light structure for relieving fatigue due to myopia;
FIG. 4 is a schematic structural view of the mounting frame in the high-red light structure for relieving fatigue due to myopia according to the present invention;
FIG. 5 is a schematic circuit diagram of the mounting bracket of the high-red light structure with fatigue relieving function of the present invention;
fig. 6 is a schematic structural view of the eye physiotherapy apparatus of the present invention.
Description of reference numerals:
1-high red light structure for relieving myopia fatigue; 2-mounting a plate; 3-a semiconductor laser; 4-mounting holes; 5-a power switch; 6-pin.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments.
As shown in fig. 1 to 5, a high-red light structure with a function of relieving myopia fatigue for relieving visual fatigue and preventing and controlling myopia comprises a mounting plate 2, wherein a plurality of semiconductor lasers 3 are arranged on the mounting plate 2, the plurality of semiconductor lasers 3 are all arranged on the same surface of the mounting plate 2, each semiconductor laser 3 is a semiconductor laser 3 capable of outputting visible high-red light, the wavelength of the visible high-red light output by each semiconductor laser 3 is 635nm to 645nm, and the power of each semiconductor laser 3 is 0.285mW to 0.6 mW. Preferably, a pin 6 is provided on a lower portion of the semiconductor laser 3, and the semiconductor laser 3 is connected to the mounting board 2 through the pin 6.
Visible high red light with wavelength of 635nm-645nm can pass through refractive interstitium of the eye, the absorption of energy is little, more light acts on retina and choroid at the posterior stage of the eyeground, the power of each semiconductor laser 3 is 0.285-0.6 mW, and the stable and low power output is safe for eye protection.
Meanwhile, clinical research shows that in the development process of myopia, the change of the length of the eye axis is one of the main factors and is also one direction for the prevention, control, exploration and breakthrough of myopia, once the increase of the eye axis is controlled, the increase of the myopic diopter can be inhibited, the diopter of glasses can be reduced, and the effect of relieving the myopia fatigue is realized. Moreover, the visible high-red light with the wavelength of 635nm to 645nm has a warming effect, when the visible high-red light with the wavelength of 635nm to 645nm is projected on the retina of the eye fundus, the visible high-red light can simultaneously act on the choroid, on one hand, the blood and oxygen circulation of the choroid of the eye fundus is promoted to reach the nutrition structure of the eye fundus, and the function of relieving visual fatigue is achieved, on the other hand, the visible high-red light with the wavelength of 635nm to 645nm can stimulate retinal pigment epithelial cells to increase and secrete dopamine, and the increase of dopamine secretion can effectively inhibit the increase of the axis of the eye.
In this application, a plurality of semiconductor laser 3 are connected with mounting panel 2, and a plurality of semiconductor laser 3 homoenergetic output wavelength is 635nm-645 nm's visible high ruddiness, and every semiconductor laser 3's power is 0.285mW-0.6mW, the utility model discloses the visible high ruddiness that can produce is in order to alleviate myopia fatigue, also can realize low output's effect to reach further amazing eye ground retina and choroid isotructure, increase eye ground choroid blood circulation, promote dopamine secretion, realize the effect that effective control eye axis increases, solved that the physical therapy equipment function that exists is not enough among the prior art, the not good problem of effect.
Further, 6 semiconductor lasers 3 are arranged on the mounting board 2, the outer diameter of each semiconductor laser 3 is 0.5-0.8mm, the diameter of a light spot formed by each semiconductor laser 3 correspondingly is 2-4 mm, the voltage is DC3V, DC4.5V or DC5V, and the total output power is 2.0-3.0 mW.
As an embodiment of the utility model, because be provided with 6 semiconductor laser 3 on the mounting panel 2, the voltage is DC3V, DC4.5V or DC5V, makes stable power output be 2.0mW-3.0mW, guarantees its stable power output who lasts. Meanwhile, the diameter of a light spot correspondingly formed by each semiconductor laser 3 is 2mm-4mm, and the range of the light spot is small. Preferably, the 6 semiconductor lasers 3 are uniformly arranged on the mounting plate 2, so that the light spots are uniformly dispersed, the stimulation intensity of a single cursor to eyes is effectively reduced, and the whole illumination is controlled at 527 Lux.
The mounting plate 2 is a circuit board, the circuit board is a circular or oval circuit board, the thickness of the circuit board is 1mm, 2mm or 4mm, 6 mounting holes 4 are annularly formed in the same surface of the circuit board, and each semiconductor laser 3 is respectively and correspondingly and replaceably arranged in the mounting hole 4. Because semiconductor laser 3 arranges the mounting hole 4 in, can make the utility model discloses do not adopt the scintillation mode when being in operating condition. Preferably, the circuit board is the circular circuit board that the diameter is 20mm-30mm, makes a plurality of semiconductor laser 3 can set up on the circuit board uniformly, can make facula ground disperse, guarantees the utility model discloses a result of use, makes its space minimizing that occupies. When in use, a user can select circuit boards with different thicknesses to be installed in the eye physiotherapy device according to the requirement.
The mounting plate 2 is further connected with a power switch 5, the power switch 5 is respectively connected with the plurality of semiconductor lasers 3, a time control module is arranged on the power switch 5, the power switch 5 is used for controlling the starting or stopping of the semiconductor lasers 3, and the time control module is used for calculating the service time of the semiconductor lasers 3. The power switch 5 is also provided with a power plug-in interface, which is convenient for ensuring power supply when in use.
In detail, the power switch 5 is respectively connected with the plurality of semiconductor lasers 3, the service time of the semiconductor lasers 3 is calculated through the time control module, and the working time of the semiconductor lasers 3 is controlled through the mutual matching of the power switch 5 and the time control module, so that the working time of the semiconductor lasers is not overlong, and the use safety is also ensured. As an embodiment of the utility model, the optimum operating time of laser is 2-3 minutes each time, carries out the second again in interval 6 hours and arouses semiconductor laser 3, arouses semiconductor laser 3 twice every day, ensures the utility model discloses have the security and the controllability of the high ruddiness structure to eyes of alleviating myopia fatigue.
Furthermore, 6 semiconductor laser 3 are parallelly connected with switch 5 respectively, and when single semiconductor laser 3 the condition of damaging appears, can change alone, can not cause big influence to overall structure.
The utility model has the advantages that each semiconductor laser 3 in the high red light structure for relieving the fatigue of myopia strictly conforms to the safety part 1 of the GB 7247.1-2001 laser product; classification of equipment, requirements and user guide, continuous visible high red light with output wavelength of 635-645 nm, total output power of 2.0-3.0 mW and illuminance of 527 Lux. And each semiconductor laser 3 is used as a stimulating light source, is detected by the national light radiation safety detection center, belongs to 1 type of light, has the safety level equal to that of natural light, strictly complies with the use specifications of the laser at low power, low frequency, more than 6 hours of interval, short time and the like through circuit design, namely the output power is between 2.0mW and 3.0mW, the frequency is not more than 2 times a day, and the laser works under the condition that the frequency is not more than 3 minutes each time, thereby ensuring the application safety of the laser.
The utility model provides a have and alleviate tired high ruddiness structure 1 of myopia, it has clinical research to show the visible high ruddiness of a certain amount of specific wavelength and shines, can the myopia progress of effective control children teenagers, the utility model discloses in the semiconductor laser 3 who adopts, the specific wavelength of excitation is the visible high ruddiness of 635nm-645nm, control power is in the safety range of 2.0mW-3.0mW, illuminance is 527Lux steady light source, short time low frequency uses, and this ruddiness is thrown into the retina choroid and is promoted choroid blood circulation, is increased choroid thickness, reinforcing oxygen exchange in order to alleviate near-sighted fatigue. Meanwhile, the stable red light with high wavelength can promote dopamine secretion, and the effect of inhibiting the increase of the axis of the eye is achieved, so that the myopia increasing effect is controlled.
The utility model discloses have the high ruddiness structure of alleviating myopia fatigue and can also regard as built-in structure, can place in the multiple eye physiotherapy equipment of current in. As shown in fig. 6, the utility model also provides an eye physical therapy device, including the physical therapy device main part, still including foretell have the tired high ruddiness structure 1 of alleviating myopia, have the tired high ruddiness structure 1 of alleviating myopia and arrange the eye physical therapy device in. The high red light structure 1 with the function of relieving the fatigue of the myopia can be arranged in the eye physical therapy device, so that the eye physical therapy device also has the effect of relieving the fatigue of the myopia. Two high red light structures 1 with the fatigue of alleviating myopia are arranged in the eye physiotherapy device, and the position of each high red light structure 1 with the fatigue of alleviating myopia corresponds to the position of eyes, so that the use of a user is convenient, and the effects of eye nursing and myopia prevention and control are also convenient to improve. Furthermore, the two high-red light structures 1 capable of relieving the fatigue of the myopia are connected in series, so that the controllability of the eye physical therapy device is ensured.
The eye physical therapy device can also be combined with other functions to carry out eye care, for example, visible high-red light with the wavelength of 635nm-645nm is firstly used for irradiating for 2-3 minutes, and then corresponding massage chair physical massage, eye patch or eye patch hot compress or training device relaxation exercise is carried out, so that the eye care and myopia prevention and control effects are better.
The utility model discloses eye physical therapy equipment can promote physiotherapy effect, reinforcing instrument performance and do not enlarge its volume, the operation is succinct convenient for massage appearance, visual training appearance, amblyopia therapeutic instrument etc. has wide application prospect and market space.
The utility model discloses eye physiotherapy equipment is when using, the user wears the massager, the eye-shade, the lens etc. of eye subsides or contact vision training appearance, both eyes are opened, then open switch 5, it arouses to form a plurality of faculas to start semiconductor laser 3, user's eyes emmetropia facula, under time control module's control, after 2-3 minutes, eye physiotherapy equipment stop work, the user takes off the massager, the eye-shade, the eye subsides or the camera lens of contact vision training appearance, carry out corresponding massage armchair physics massage again, eye-shade or eye subsides hot compress or carry out the training ware and relax the exercise, accomplish the procedure that eye nursing myopia prevention and control.
Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.
Claims (10)
1. A high-red light structure capable of relieving myopia fatigue is characterized by comprising a mounting plate, wherein a plurality of semiconductor lasers are arranged on the mounting plate, the semiconductor lasers are all arranged on the same surface of the mounting plate, each semiconductor laser is a semiconductor laser capable of outputting visible high-red light, and the wavelength of the visible high-red light output by each semiconductor laser is 635-645 nm; the power of each semiconductor laser is 0.285mW-0.6 mW.
2. The structure of claim 1, wherein the mounting board is provided with 6 semiconductor lasers, each semiconductor laser has an outer diameter of 0.5mm to 0.8mm, each semiconductor laser correspondingly forms a spot with a diameter of 2mm to 4mm, a voltage of DC3V, DC4.5V or DC5V, and a total output power of 2.0mW to 3.0 mW.
3. The structure of claim 2, wherein the mounting plate is a circuit board, the circuit board is a circular or oval circuit board, the thickness of the circuit board is 1mm, 2mm or 4mm, the same surface of the circuit board is annularly provided with 6 mounting holes, and each semiconductor laser is replaceably disposed in the mounting hole correspondingly.
4. The structure of claim 3, wherein the mounting board is further connected to a power switch, the power switch is respectively connected to the plurality of semiconductor lasers, and a time control module is disposed on the power switch, the power switch is used for controlling the semiconductor lasers to start or stop, and the time control module is used for calculating the usage time of the semiconductor lasers.
5. The high-red light structure with myopia fatigue alleviating function of claim 4, wherein the 6 semiconductor lasers are respectively connected with the power switches in parallel.
6. The high red light structure with the function of relieving the fatigue caused by the myopia according to claim 3, wherein the circuit board is a circular circuit board with the diameter of 20mm-30 mm.
7. The high red light structure with myopia fatigue alleviating function of claim 1, wherein pins are arranged on the lower portion of the semiconductor laser, and the semiconductor laser is connected to the mounting board through the pins.
8. An eye physical therapy instrument, which comprises a physical therapy instrument main body and is characterized by further comprising the high red light structure with the function of relieving the fatigue of myopia according to any one of claims 1 to 7, wherein the high red light structure with the function of relieving the fatigue of myopia is arranged in the eye physical therapy instrument.
9. The eye physiotherapy apparatus of claim 8, wherein two high-red light structures with fatigue relieving function are arranged in the eye physiotherapy apparatus, and the position of each high-red light structure with fatigue relieving function corresponds to the position of eyes.
10. The eye physiotherapy apparatus of claim 9, wherein the two high red light structures with fatigue relieving function are connected in series.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114681812A (en) * | 2022-04-20 | 2022-07-01 | 北京思蒂尔科技发展有限责任公司 | Eye laser physiotherapy instrument and control method |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114681812A (en) * | 2022-04-20 | 2022-07-01 | 北京思蒂尔科技发展有限责任公司 | Eye laser physiotherapy instrument and control method |
CN114681812B (en) * | 2022-04-20 | 2022-12-23 | 北京思蒂尔科技发展有限责任公司 | Eye laser physiotherapy instrument and control method |
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