CN205924423U - Vision correction training system - Google Patents
Vision correction training system Download PDFInfo
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- CN205924423U CN205924423U CN201620547388.1U CN201620547388U CN205924423U CN 205924423 U CN205924423 U CN 205924423U CN 201620547388 U CN201620547388 U CN 201620547388U CN 205924423 U CN205924423 U CN 205924423U
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- pedestal
- disk
- training
- vision correction
- optical axis
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Abstract
The utility model discloses a vision correction training system, comprises a sea, install convex lens diopter adjustment ware, optical axis training ware and kopiopia segmental apparatus on the pedestal, convex lens diopter adjustment ware includes an eyeglass body, install convex lens on the eyeglass body, install a plurality of vision dishes on the pedestal, optical axis training ware includes the 2nd eyeglass body and box, the 2nd eyeglass body demountable installation has the 3D lens, be provided with the door that opens and shuts on the box, it is provided with the display screen on the door to open and shut, the image generator of the internal portion of display screen electricity connecting seat, multiple ring LED is installed to the box inboard, LED is connected to the inboard LED controller of pedestal, the kopiopia segmental apparatus includes the 3rd eyeglass body, the 3rd eyeglass body front end is provided with medicine storage chamber, medicine storage chamber rear end is provided with the ion chamber. The utility model discloses a vision correction training system, its whole correction effect is good, and the correction flow is controllable.
Description
Technical field
This utility model is related to a kind of eyesight correction device and in particular to a kind of training for vision correction system, belongs to vision
Correcting device technical field.
Background technology
Myopia, hypermetropia or the appearance more with the child of the stage of growth of amblyopia, and in the trend generally increasing,
Unfavorable action during study and amusement for some teenager or custom also lead to more myopia, amblyopia
Or the problem of hypermetropia;So fundamentally treating myopia or amblyopia, need to start with from the physiology of eyes, training eyes
Adjust and collective ability;Eyes are seen remote and are seen near it is necessary to having regulation and gathering;The regulation of eyes, such as the focusing of photographing unit, collects
Close such as the zoom of photographing unit;Best vision should all should be seen from cornea eye to infinity in theory, but thing
In reality, everyone sees object clearly closest approach and solstics, and we are referred to as near point and far point, when near point is nearer, far point this
When more remote, photopic vision power is better;The regulation of eyes connects crystalline lenses change convex-concave by ciliary muscle by Suspensory ligament and realizes, eye
The set of eyeball is completed with abduction by cohesion by six extraocular muscles.The distance of eye gaze is different, the adjusting force of use
Different;According to formula D=1/F, wherein D is adjusting force, and unit is Baidu, both 1D=100 degree;F is distance, and unit is rice;?
That is, 1 meter of object distance eyes, need 100 degree of adjusting force;Apart from 0.1 meter of eyes, need 1,000 degree of adjusting force;One
Baidu is acted on crystalline lenses with 1,000 degree, will appear as the change of lens thickness, for crystalline lenses itself, this thickness
Change is very big;Ciliary muscle only coordinates larger contraction and loosens the change that just can complete lens thickness in turn;With
Sample, eyes see 0.1 meter and 1 meter apart from when, six extraocular muscles also will shrink to complete to gather with loosening;In sum, want
Make the near point of eyes recently, far point is farthest, only strengthen the muscular strength of ciliary muscle and six extraocular muscles;For above-mentioned situation, eyes
Watch attentively by near to remote or mobile object from far near, crystalline lenses need constantly to be flattened or convex by flat change by convex, then connect
Lenticular ciliary muscle also constantly shrinks, loosens;Equally, six extraocular muscles, when changing set, are also constantly shunk, are put
Pine;So ciliary muscle and extraocular muscles are obtained for training, and muscular strength strengthens;In addition, the reason amblyopia is formed can have multiple, mainly
It is to be unable to normal development because eyes go wrong;Accordingly, it would be desirable to a kind of training for vision correction device, to solve prior art
Present in the problems referred to above;Chinese Patent Application No. 201410634620.0, a kind of training for vision correction system and method;Institute
State training for vision correction system to include:Dioptric system adjusting means, including convex lenss stimulating light source, for adjusting diopter, with
Activate corticocerebral optic cell;Optical axis training devicess, including flash source, for simulating far and near alternate flash of light, so that
The optical axis of trainee's eyes is achieved alternatively collection and neutralizes scattered action;Eyes release device, including eye relax patch, for using from
The mode that son imports is relaxed to paste by eye and is acted on described trainee's eyes by medicine, with eyestrain of releiving;Using the present invention
Training for vision correction method there is more obvious rectification effect to child and the embryotic adult of vision;But its rectification
Training devicess are multiple separation equipments, and its rectification effect is not easily controlled.
Utility model content
For solving the above problems, the utility model proposes a kind of training for vision correction system, by correcting device integration
Setting, rectification effect is good, corrects flow process controlled.
Training for vision correction system of the present utility model, including pedestal, described pedestal is provided with convex lenss Diopter accommodation
Device, optical axis training aidss and eyestrain's segmental apparatus;Described convex lenss Diopter accommodation device includes the first lens bodies;Described first lens bodies
On convex lenss are installed;Multiple optic discs are provided with described pedestal;Diopter can be adjusted by optic disc, to activate brain
The optic cell of cortex;Described optical axis training aidss include secondary glasses body and casing;Described secondary glasses body is detachably installed
There is 3D eyeglass;It is provided with switching door on described casing;It is provided with display screen on described switching door;Described display screen electrically connects pedestal
Internal image generator;Described box inside is provided with multi-ring LED;Described LED is connected to the LED controller inside pedestal;
Multi-ring LED is controlled by LED controller, realizes the far and near alternate flash of light of simulation, so that the optical axis of trainee's eyes is alternately real
Now collection neutralizes scattered action, produces image to display screen by image generator, and by 3D is installed on secondary glasses body
Eyeglass;Collection is achieved alternatively using the optical axis that virtual 3D rendering can preferably adjust trainee's eyes and neutralizes scattered action;
So that the optical axis of trainee's eyes is achieved alternatively collection and neutralizes scattered action, ciliary muscle, extraocular muscles ossify and adjust optical axis training;
Described eyestrain's segmental apparatus includes the 3rd lens bodies, and described 3rd lens bodies front end is provided with medicament storage chamber;Described medicine is deposited
Storage chamber rear end is provided with ion chamber;Example is produced by ion chamber, by the middle medicine of some sharp eyes by the way of iontophoresis
Act on described trainee's eyes, with eyestrain of releiving.
Further, described optic disc includes disk pedestal;Inside described disk pedestal, motor is installed;Circle on described disk pedestal
Disk;Described disk is installed with its rotating shaft of motor;Black and white bar grid are provided with described disk;It is printed on pattern on described black and white bar grid;
Black and white bar grid are driven by motor, it can form the visual stimulus source of irregular black and white bar grid.
As preferred embodiment, described disk is provided with six, and each described disk diameter is different;Described black and white
Bar grid are spaced apart 1mm, 3mm, 5mm, 7mm, 9mm and 11mm.
This utility model compared with prior art, training for vision correction system of the present utility model, its by Diopter accommodation,
Optical axis training and eyestrain's link three flow process integrated setting;Its integral correction effect is good, corrects flow process controlled.
Brief description
Fig. 1 is overall structure diagram of the present utility model.
Specific embodiment
As shown in figure 1, training for vision correction system of the present utility model, including pedestal 1, described pedestal 1 is provided with convex
Lens Diopter accommodation device 2, optical axis training aidss 3 and eyestrain's segmental apparatus 4;Described convex lenss Diopter accommodation device 2 includes the first glasses
Body 5;In described first lens bodies 5, convex lenss 6 are installed;Multiple optic discs 7 are provided with described pedestal 1;By optic disc 7 energy
Enough adjust diopter, to activate corticocerebral optic cell;Described optical axis training aidss 3 include secondary glasses body 8 and casing
9;Described secondary glasses body 8 is detachably provided with 3D eyeglass 10;It is provided with switching door 11 on described casing 9;Described switching door 11
On be provided with display screen 12;Described display screen 12 electrically connects the image generator (not shown) within pedestal 1;In described casing 1
Side is provided with multi-ring LED13;Described LED13 is connected to the LED controller (not shown) of pedestal 1 inner side;By LED controller
The multi-ring LED13 of control (not shown), realizes the far and near alternate flash of light of simulation, so that the optical axis of trainee's eyes is achieved alternatively collecting
Neutralize scattered action, image is produced to display screen 12 by image generator, and by 3D mirror is installed on secondary glasses body 8
Piece 10;Collection is achieved alternatively using the optical axis that virtual 3D rendering can preferably adjust trainee's eyes and neutralizes scattered action;
So that the optical axis of trainee's eyes is achieved alternatively collection and neutralizes scattered action, ciliary muscle, extraocular muscles ossify and adjust optical axis training;
Described eyestrain's segmental apparatus 4 includes the 3rd lens bodies 14, and described 3rd lens bodies 14 front end is provided with medicament storage chamber 15;Described
Medicament storage chamber 15 rear end is provided with ion chamber 16;Example is produced by ion chamber, by some profits by the way of iontophoresis
The middle medicine of eye acts on described trainee's eyes, with eyestrain of releiving.
Described optic disc 7 includes disk pedestal 17;Motor (not shown) is installed inside described disk pedestal 17;Described disk pedestal
Disk 18 on 17;Described disk 18 and its rotating shaft of motor are installed;Black and white bar grid are provided with described disk 18;Described black and white bar grid
On be printed on pattern;Black and white bar grid are driven by motor, it can form the visual stimulus source of irregular black and white bar grid.
Described disk 18 is provided with six, and each described disk diameter is different;Described black and white bar grid be spaced apart 1mm,
3mm, 5mm, 7mm, 9mm and 11mm.
With above-mentioned according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, related work people
Member can carry out various change and modification completely in the range of without departing from this utility model technological thought.This reality
The content being not limited in description with new technical scope it is necessary to determine its technology according to right
Property scope.
Claims (3)
1. a kind of training for vision correction system it is characterised in that:Including pedestal, described pedestal is provided with convex lenss Diopter accommodation
Device, optical axis training aidss and eyestrain's segmental apparatus;Described convex lenss Diopter accommodation device includes the first lens bodies;Described first lens bodies
On convex lenss are installed;Multiple optic discs are provided with described pedestal;Described optical axis training aidss include secondary glasses body and casing;
Described secondary glasses body is detachably provided with 3D eyeglass;It is provided with switching door on described casing;It is provided with aobvious on described switching door
Display screen;The image generator in portion in described display screen electric connection socket body;Described box inside is provided with multi-ring LED;Described LED is even
It is connected to the LED controller inside pedestal;Described eyestrain's segmental apparatus includes the 3rd lens bodies, described 3rd lens bodies front end setting
There is medicament storage chamber;Described medicament storage cavity rear end is provided with ion chamber.
2. training for vision correction system according to claim 1 it is characterised in that:Described optic disc includes disk pedestal;Institute
State, inside disk pedestal, motor is installed;Disk on described disk pedestal;Described disk is installed with its rotating shaft of motor;Set on described disk
It is equipped with black and white bar grid;It is printed on pattern on described black and white bar grid.
3. training for vision correction system according to claim 2 it is characterised in that:Described disk is provided with six, and often
Individual described disk diameter is different;Described black and white bar grid are spaced apart 1mm, 3mm, 5mm, 7mm, 9mm and 11mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620547388.1U CN205924423U (en) | 2016-06-07 | 2016-06-07 | Vision correction training system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620547388.1U CN205924423U (en) | 2016-06-07 | 2016-06-07 | Vision correction training system |
Publications (1)
Publication Number | Publication Date |
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CN205924423U true CN205924423U (en) | 2017-02-08 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201620547388.1U Active CN205924423U (en) | 2016-06-07 | 2016-06-07 | Vision correction training system |
Country Status (1)
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CN (1) | CN205924423U (en) |
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2016
- 2016-06-07 CN CN201620547388.1U patent/CN205924423U/en active Active
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