Training apparatus for vision enhancement

A training instrument and visual technology, applied in light therapy, radiation therapy, treatment, etc., can solve the problems of inconvenient use, limited effect of glasses control, long use time, etc., to control the development of myopia, improve and treat myopia, and inhibit abnormal growth Effect

Pending Publication Date: 2020-07-14
李广志
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, the control methods for myopia usually include orthokeratology lenses, optical glasses, massage, and equipment, but the control effect of the glasses itself is limited. The key population of myopia is teenagers who have less time for heavy school work, and the design principles of such equipment are targeted. Weak, long-lasting or inconvenient to use, resulting in limited control and durability

Method used

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  • Training apparatus for vision enhancement
  • Training apparatus for vision enhancement
  • Training apparatus for vision enhancement

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033]Embodiment 1, when in use, first the green luminescent light sheet in one direction of the first light source 12 is lit for three seconds, and then a green light luminous light sheet in the middle is lit for three seconds after it is extinguished, and the second light source 13 and the weak laser light are generated after extinguishing The white light-emitting sheet 30 of the device 22 or the first light source 12, the second light source 13 and the weak laser generator 22 are lit for six seconds at the same time, and after the six-second stop, follow the first reversing cycle until the two twelve directions are repeated, and then The process of turning on and off will cause the light to produce strong light and dark changes, prompting the pupillary sphincter to achieve the purpose of exercise through regular contraction and expansion, and the user needs to stare at the lit green luminous light all the way;

Embodiment 2

[0034] Embodiment 2, when in use, the first light source 12 is not turned on, and only the second light source 13 and the weak laser generator 22 are turned on for three minutes;

Embodiment 3

[0035] Embodiment 3, when in use, first the green light-emitting light sheet in one direction of the first light source 12 is lit for three seconds, and then lights up the green light-emitting light sheet in the middle for three seconds after it is turned off, and then the white light-emitting light sheet of the first light source 12 is turned off 30 and the second light source 13 are turned on for six seconds, and cycle in turn until two twelve-direction cycles are completed repeatedly, and the user needs to stare at the lit green luminescent light sheet throughout the process.

[0036] The interpupillary distance adjustment device is also installed in the described nose 29, including two weak laser lens barrels 18, weak laser lens barrel fixing frame 19, threaded rod 20, pupillary distance wheel 9, weak laser generator 22 is installed in the weak laser At the rear of the laser lens barrel 18, the threads at both ends of the threaded rod 20 are reversely set. After the threade...

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Abstract

The invention relates to the technical field of vision enhancement, and discloses a training apparatus for vision enhancement. The training apparatus comprises a shell, a base, support arms, a liftingcolumn, a handpiece, a dynamic monitoring device, a controller and a light source, wherein the handpiece is fixed to the upper parts of the supporting arms; the supporitng arms are connected with thebase through the lifting column; a weak laser module, a dynamic probe, a light-emitting plate, a first controller and a light source are internally arranged in the handpiece; a dynamic monitoring display screen is mounted above the outside of the handpiece; the direction, facing the face, of the handpiece is a front view window, and an eye shade is mounted on the front view window; and a touch display screen is mounted aslant in the direction, facing the front view window, of the base. When the training apparatus for vision enhancement is used, light beams with specific wavelengths in solar rays can be simulated through irradiation, so that increase of amount of production of retinal dopamine is promoted, and the aims of inhibiting abnormal lengthening of optic axis and controlling myopiadevelopment are fulfilled; and in the process, multi-directional training, distance training and lightness training of eye muscles can be added, so that the abilities, including focusing, watching and the like, of the eyes can be enhanced, and therefore, the training apparatus is suitable for preventing, controlling, enhancing and treating myopia, astigmatism, amblyopia, anisometropia and asthenopia.

Description

technical field [0001] The invention relates to the technical field of vision improvement, in particular to a vision improvement training instrument. Background technique [0002] Due to changes in learning and working methods in modern society, the myopia population is increasing day by day, especially the incidence of myopia among teenagers is increasing year by year and remains high. The causes of the formation and development of myopia are diverse, but it is undeniable that if no intervention and improvement are performed when pseudomyopia occurs, it will gradually evolve into true myopia. At present, the control methods for myopia usually include orthokeratology lenses, optical glasses, massage, and equipment, but the control effect of the glasses themselves is limited. The key population of myopia is teenagers who have less time for heavy school work, and the design principles of such equipment are targeted. Weak, long-lasting or inconvenient to use, resulting in limi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61H5/00A61N5/067
CPCA61H5/00A61H2205/024A61N5/0613A61N2005/0664A61N5/067
Inventor 李广志
Owner 李广志
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