CN203634445U - RGB (red, green and blue) flying spot sight enhancing instrument - Google Patents

Abstract

The utility model relates to medical equipment, in particular to an RGB (red, green and blue) flying spot sight enhancing instrument which comprises a shading cover, at least two groups of front-end RGB variable-frequency light sources, a plurality of peripheral RGB flying spot light sources and a circuit control system. The groups of front-end RGB variable-frequency light sources are bilaterally symmetrically arranged. The RGB flying spot sight enhancing instrument has the advantages that cone cells of a user can be stimulated by the aid of the front-end RGB variable-frequency light sources and the peripheral RGB flying spot light sources, so that weak sight of the user can be treated, and the problem of low weak sight treatment efficiency of an existing sight enhancing instrument can be solved.

Description

RGB flying spot vision enhancer

Technical field

This utility model relates to a kind of medical apparatus and instruments, especially relates to a kind of vision enhancer.

Background technology

Amblyopia is the common eye diseases in children of clinical ophthalmology, in infant period, because a variety of causes fails to accept the suitable stimulation of looking as reasons such as consciousness, motion, conduction and the visual center, the state that the visual performance that visual development is affected and occur goes down, main manifestations is visual disturbance and binocular vision obstacle.In China, amblyopia rate is about 2-4%, mostly is simple eye, also can eyes.Generally the amblyopia treatment method of application is more at present, as occlusion therapy, after image therapy, red filter treatment, medicine optics suppress therapy and looks irritation therapy etc.

Principle depending on irritation therapy is: animal and human's visual cell has good reaction to different spatial frequencys, and neuron can do sensitive adjustment to spatial vision, utilizes the light of different frequency to stimulate amblyopia eye to improve vision as stimulus.Though adopt and can treat amblyopia depending on the vision enhancer of irritation therapy on the market at present, therapeutic efficiency is comparatively low.

Utility model content

This utility model object is, a kind of vision enhancer that amblyopia efficiency is high for the treatment of is provided.

This utility model is achieved through the following technical solutions this object:

A kind of RGB flying spot vision enhancer, comprises shade, at least 2 group front end RGB frequency conversion light sources that are symmetrical set, some periphery RGB flying spot light sources, circuit control system; Described front end RGB frequency conversion light source, periphery RGB flying spot light source are all connected with circuit control system, and the light that front end RGB frequency conversion light source, periphery RGB flying spot light source send all can arrive in shade.

Patient wears after described RGB flying spot vision enhancer, and front end RGB frequency conversion light source is positioned at patient's eye front, and the RGB three primary colours frequency spectrum glory that it sends can activate (waking up) optical fundus central fovea of macula three kind cone cells the sharpest to vision, thereby improves vision.And periphery RGB flying spot light source is positioned at patient's eye surrounding, the cone cell that the rgb light line that it sends can reinforcing stimulus central fovea surrounding, looks thereby strengthening increases.

Further, described shade front side offers at least 2 light holes that are symmetrical set, and front side periphery offers some installing holes; The light that described front end RGB frequency conversion light source sends enters in shade by light hole; Described periphery RGB flying spot light source is installed in installing hole at least partly.

Further, the quantity of described light hole equates with the group number of front end RGB frequency conversion light source, and the quantity of described installing hole equates with the quantity of periphery RGB flying spot light source.

Further, totally 2 groups of described front end RGB frequency conversion light sources; Described light hole quantity is 2.

Further, the quantity of described periphery RGB flying spot light source and installing hole is 5, and these 5 installing holes are located at respectively the upper left corner, the lower left corner, the upper right corner, the lower right corner and the middle and upper part of shade front side.

Further, described RGB flying spot vision enhancer also comprises the backlight of being located between shade and front end RGB frequency conversion light source.

Further, described RGB flying spot vision enhancer also comprise by two groups of front end RGB frequency conversion light sources emit beam separate condenser frame, this condenser frame is positioned at the front of backlight.

Further, described RGB flying spot vision enhancer also comprises the sound prompting device being connected with circuit control system, the display lamp that shows RGB flying spot vision enhancer duty.

Further, described RGB flying spot vision enhancer also comprises the front shroud that is fixedly installed in shade front side, and described shade and front shroud form the space that holds front end RGB frequency conversion light source, circuit control system, backlight, condenser frame, sound prompting device; Described display lamp is installed on front shroud.

Further, described RGB flying spot vision enhancer also comprises the bandage being connected with two ends, shade left and right.

Prior art relatively, the beneficial effects of the utility model are:

(1), when this utility model treatment patient, not only can activate (waking up) optical fundus central fovea of macula three kind cone cells the sharpest to vision, cone cell that can also reinforcing stimulus central fovea surrounding, treatment amblyopia efficiency is high.

(2) this utility model is directly worn use, is applicable to the specific increasing of the uncooperative Children Refractory amblyopia of low age (as congenital cataract, eyeball chatter, stravismus etc.) and looks training.

Accompanying drawing explanation

Fig. 1 is the decomposing schematic representation of this utility model one embodiment.

In Fig. 2 Fig. 1, RGB flying spot vision enhancer is removed the rearview of bandage.

Fig. 3 is the structural representation of front end RGB frequency conversion light source in Fig. 1, periphery RGB flying spot light source, circuit control system.

Description of symbols: 1-shade, 2-front end RGB frequency conversion light source, 3-periphery RGB flying spot light source, 4-circuit control system, 5-PCB panel, 6-light hole, 7-installing hole, 8-backlight, 9-condenser frame, 10-sound prompting device, 11-function button, 12-front shroud, 13-bandage, 14-front shroud upper body, 15-front shroud lower body, 16-shade main body, 17-eye pad.

The specific embodiment

For the ease of it will be appreciated by those skilled in the art that below in conjunction with accompanying drawing and embodiment, this utility model is described further.

Figure 1 shows that one of them embodiment of this utility model RGB flying spot vision enhancer.

Referring to Fig. 1,2,5 periphery RGB flying spot light sources 3 of 2 groups of front end RGB frequency conversion light sources, circuit control system 4 that described RGB flying spot vision enhancer comprises shade 1, is symmetrical set.Described front end RGB frequency conversion light source 2, periphery RGB flying spot light source 3 are all connected with circuit control system 4.Concrete, described shade 1 comprises shade main body 16 and is pasted on the eye pad 17 of shade 1 rear side; The PCB panel 5 of described circuit control system 4 for comprising single-chip microcomputer, described Single-chip Controlling front end RGB frequency conversion light source 2, periphery RGB flying spot light source 3 are worked in setting-up time.Referring to Fig. 3, described 2 groups of front end RGB frequency conversion light sources 2 are symmetrically arranged on PCB panel 5.

Referring to Fig. 1 and Fig. 2, described shade 1 front side offers 2 light holes 6 that are symmetrical set, and front side periphery offers 5 installing holes 7.Described front end RGB frequency conversion light source 2 is positioned at the dead ahead of light hole 6, and the light that front end RGB frequency conversion light source 2 sends enters in shade 1 by this light hole 6.Described 5 installing holes 7 are located at respectively the upper left corner, the lower left corner, the upper right corner, the lower right corner and the middle and upper part of shade 1 front side; Described periphery RGB flying spot light source 3 rear portions are installed in installing hole 7, and its front end is positioned at shade 1 inner side, and the light that periphery RGB flying spot light source 3 sends directly enters in shade 1.

Patient wears after described RGB flying spot vision enhancer, and front end RGB frequency conversion light source 2 is positioned at patient's eye dead ahead, and the RGB three primary colours frequency spectrum glory that it sends can activate (waking up) optical fundus central fovea of macula three kind cone cells the sharpest to vision, thereby improves vision.And periphery RGB flying spot light source 3 is positioned at patient's eye surrounding, the cone cell that the rgb light line that it sends can reinforcing stimulus central fovea surrounding and strengthen to increase and look.

Referring to Fig. 1, described RGB flying spot vision enhancer also comprises the backlight 8 of being located between shade 1 and front end RGB frequency conversion light source 2, by two groups of front end RGB frequency conversion light sources 2 emit beam separate condenser frame 9; This condenser frame 9 is positioned at the front of backlight 8.On described condenser frame 9, offer two windows, the frame of two windows surrounds respectively two groups of front end RGB frequency conversion light sources 2, thereby by the separation that emits beam of two groups of front end RGB frequency conversion light sources 2.

Referring to Fig. 1, described RGB flying spot vision enhancer also comprises the function button 11 of the sound prompting device 10 being connected with circuit control system 4, the display lamp (not shown in FIG.) that shows RGB flying spot vision enhancer duty, conversion RGB flying spot vision enhancer mode of operation.In described single-chip microcomputer, can store multiple training modes, when patient used after the stage of RGB flying spot vision enhancer, described sound prompting device 10 can be sounded, to remind patient or family numbers of patients to operate accordingly RGB flying spot vision enhancer.

Referring to Fig. 1, described RGB flying spot vision enhancer also comprises the front shroud 12 that is fixedly installed in shade 1 front side, the bandage 13 being connected with shade 1 two ends, left and right.Described front shroud 12 comprises front shroud upper body 14, front shroud lower body 15, and both can be bolted connected.Described shade 1 forms with front shroud 12 space that holds front end RGB frequency conversion light source 2, circuit control system 4, backlight 8, condenser frame 9, sound prompting device 10, can prevent the electric elements of RGB flying spot vision enhancer described in dust pollution, also make RGB flying spot vision enhancer more attractive in appearance simultaneously.Described display lamp is installed on front shroud 12.

Light and handy, the totally-enclosed eye of described RGB flying spot vision enhancer hood configuration, coordinates automatic operation mode, child is lain down and open one's eyes can be subject to increasing to look stimulation, and can prevent that environmental disturbances or the young factor such as uncooperative from affecting the treatment.Therefore being particularly suitable for young or uncooperative children's myopia using (as congenital cataract, eyeball chatter, stravismus etc.) increases and looks training.

The operational approach of described RGB flying spot vision enhancer is:

(1), before training, RGB flying spot vision enhancer is worn at the moment and adjusts elastic cord to suitable (as for glasses wearer, must take off one's spectacles).

1, automatic training mode (routine is selected pattern)

(1) by 1 subfunction button 11, to there is following variation in 5 minutes in RGB flying spot vision enhancer: the single R of front end RGB frequency conversion light source 2 or the light emitting diode of G or B frequency conversion flicker in turn successively, glimmer at random with rear perimeter edge RGB flying spot light source 3, the light emitting diode of last periphery RGB flying spot light source 3 the right and lefts glimmers respectively.

(2) patient can watch front end RGB frequency conversion light source 2 attentively, and chases after and look periphery RGB flying spot light source 3; Or watch dead ahead attentively, and experience periphery RGB flying spot light source 3 by remaining light.

2, manual training mode (selecting by the state of an illness, training custom or doctor's requirement)

(1) only have periphery RGB flying spot light source 3 to work by 2 subfunction button 11(): chase after to look after 3,5 minutes music of periphery RGB flying spot light source are rung and finish.Chase after the sensitivity that can improve eye-brain coordinate operation depending on periphery RGB flying spot light source 3, thereby improve the eye-brain response speed when reading a book, write, remember and calculating.

(2) only have front end RGB frequency conversion light source 2 by 3 subfunction button 11(): watch attentively after 2,5 minutes music of front end RGB frequency conversion light source are rung and finish.Watch front end RGB frequency conversion light source 2 attentively and can activate (waking up) optical fundus central fovea of macula three kind cone cells the sharpest to vision.

(3) only have periphery RGB flying spot light source 3 to work by 4 subfunction button 11(): after ringing by 3,5 minutes music of left and right sides periphery RGB flying spot light source, finish.Left and right sides periphery RGB flying spot light source 3 can activate the neural circuit of right brain iconic memory and improve memory.

(2) longly press function button 11 and shut down.

The above embodiment has only expressed a kind of embodiment of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to this utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of this utility model patent should be as the criterion with claims.

Claims (10)

1. a RGB flying spot vision enhancer, is characterized in that: comprise shade, at least 2 group front end RGB frequency conversion light sources that are symmetrical set, some periphery RGB flying spot light sources, circuit control system; Described front end RGB frequency conversion light source, periphery RGB flying spot light source are all connected with circuit control system, and the light that front end RGB frequency conversion light source, periphery RGB flying spot light source send all can arrive in shade.

2. RGB flying spot vision enhancer according to claim 1, is characterized in that: described shade front side offers at least 2 light holes that are symmetrical set, front side periphery offers some installing holes; The light that described front end RGB frequency conversion light source sends enters in shade by light hole; Described periphery RGB flying spot light source is installed in installing hole at least partly.

3. RGB flying spot vision enhancer according to claim 2, is characterized in that: the quantity of described light hole equates with the group number of front end RGB frequency conversion light source, and the quantity of described installing hole equates with the quantity of periphery RGB flying spot light source.

4. RGB flying spot vision enhancer according to claim 3, is characterized in that: totally 2 groups of described front end RGB frequency conversion light sources; Described light hole quantity is 2.

5. RGB flying spot vision enhancer according to claim 3, it is characterized in that: the quantity of described periphery RGB flying spot light source and installing hole is 5, and these 5 installing holes are located at respectively the upper left corner, the lower left corner, the upper right corner, the lower right corner and the middle and upper part of shade front side.

6. RGB flying spot vision enhancer according to claim 2, is characterized in that: also comprise the backlight of being located between shade and front end RGB frequency conversion light source.

7. RGB flying spot vision enhancer according to claim 6, is characterized in that: also comprise by two groups of front end RGB frequency conversion light sources emit beam separate condenser frame, this condenser frame is positioned at the front of backlight.

8. RGB flying spot vision enhancer according to claim 1, is characterized in that: also comprise the sound prompting device being connected with circuit control system, the display lamp that shows RGB flying spot vision enhancer duty.

9. RGB flying spot vision enhancer according to claim 8, it is characterized in that: also comprise the front shroud that is fixedly installed in shade front side, described shade and front shroud form the space that holds front end RGB frequency conversion light source, circuit control system, backlight, condenser frame, sound prompting device; Described display lamp is installed on front shroud.

10. RGB flying spot vision enhancer according to claim 1, is characterized in that: also comprise the bandage being connected with two ends, shade left and right.

Images