CN116421895B - Biological photon eye protection instrument for promoting oxygen supply to eyes - Google Patents

Abstract

The invention relates to the field of eye health care equipment, in particular to a biological photon eye protection instrument for promoting oxygen supply to eyes. The invention provides a biological photon eye protection instrument for promoting the oxygen supply of eyes, which comprises a main shell, a forehead protection baffle and the like; the main shell is provided with a forehead protection baffle. The biological photon eye protection instrument for promoting the oxygen supply of eyes is characterized in that the biological photon intensity of the multi-band light rays emitted by an irradiation lamp group of a photon emitter is 400-410 nm purple light frequency band, 450-490 nm beneficial blue light frequency band, 580-600 nm orange light frequency band and 650-730 nm red light frequency band spectrum, the spectrum frequency band with the artificial light source missing or insufficient color abundance is optimally adjusted and configured, and uncomfortable eyes are wiped through an eye wiping unit. Solves the technical problems of poor effect of physiotherapy on the light rays irradiated by eyes caused by the lack of frequency bands or insufficient abundance of frequency bands of the artificial light source of the eye protection instrument.

Description

Biological photon eye protection instrument for promoting oxygen supply to eyes

Technical Field

The invention relates to the field of eye health care equipment, in particular to a biological photon eye protection instrument for promoting oxygen supply to eyes.

Background

The multi-band light biological photon is effectively used for activating porphyrin protein of red blood cells, enhancing oxygen supply capacity of the red blood cells, improving local oxygen supply through microcirculation of the red blood cells in eyeball capillaries, changing cell membrane potential, eliminating active oxidative stress free radicals formed by excessive eyes, reducing NLRP3 inflammatory body-mediated dry eye inflammatory reaction generated by oxidative stress, activating lacrimal gland, meibomian gland cells and ciliary epithelial cell mitochondria to generate ATP energy, secreting lipid, aqueous solution, mucin and aqueous humor, improving dry eye symptoms, and providing nutrition for cornea and sclera through tears and rooms.

The conventional eye protection instrument does not strengthen the specific light frequency band alone, has the frequency band deficiency or the frequency band abundance deficiency phenomenon of artificial light source, leads to the light physiotherapy effect to eye irradiation not good to the conventional eye protection instrument needs to wear at human head through the fixed band, carries out the biological photon of multi-band light to shine physiotherapy work for tens minutes, and needs the user to keep the eye focus of opening on multi-band light emission's irradiation banks as far as possible, easily causes multiple uncomfortable phenomenon such as eye fatigue, eye fever, eye tear secretion are too much to cause discomfort, and can not in time lift off the eye protection instrument and handle the eye, influence the use experience of eye protection instrument.

Disclosure of Invention

In order to overcome the defects that an artificial light source of the eye protection instrument has a poor frequency band or insufficient frequency band abundance, so that the effect of physiotherapy on light rays irradiating eyes is poor, and the use mode of the artificial light source influences the use experience of the eye protection instrument, the invention provides the biological photon eye protection instrument for promoting the oxygen supply of eyes.

A biophotonic eye-protecting device for promoting the supply of ocular oxygen is described herein, comprising a main housing, a forehead-protecting barrier, a jaw pad, an adjustment assembly, and a photon emitter; a forehead protection baffle is arranged on the upper side of the main shell; a fixed seat is fixedly connected to the lower side of the main shell; the fixed seat is provided with a jaw pad; an adjusting component is connected inside the main shell; the adjusting component is connected with a photon emitter; an irradiation lamp group is arranged at the front side of the photon emitter; the photon intensity emitted by the irradiation lamp group is 400nm-410nm purple light frequency band, 450nm-490nm beneficial blue light frequency band, 580nm-600nm orange light frequency band and 650nm-730nm red light frequency band spectrum; a light hole structure is formed in the middle of the main shell; the main shell is provided with a switch knob for controlling the photon emitter.

As an improvement of the scheme, the adjusting component comprises a height-adjusting sliding block and a shifting block; two height-adjusting sliding blocks are connected inside the main shell in a sliding manner; the two height-adjusting sliding blocks are connected with the photon emitter together; a shifting block is fixedly connected to the right side of the height-adjusting sliding block; the shifting block is connected with the main shell in a sliding way.

As an improvement of the scheme, the main shell is connected with the eye wiping unit, and the main shell is connected with the forehead protection partition board through the eye wiping unit; the wiping unit comprises a fixing frame, an arc plate, an exhaust component, a wiping pad, a spraying component, a forehead protection partition plate and a torsion spring;

the front side of the main shell is fixedly connected with two fixing frames; a fixed shaft is fixedly connected between the two fixed frames; an arc-shaped plate is fixedly connected to the front side of the fixed shaft; the left side and the right side of the arc plate are respectively connected with an exhaust component; a wiping pad is fixedly connected between the two exhaust assemblies; a spraying component is commonly connected between the main shell and the two exhaust components; the main shell is provided with a spraying component; the fixed shaft is rotationally connected with a forehead protection baffle; a torsion spring is fixedly connected between the forehead protection baffle plate and the two fixing frames respectively, and the torsion spring is sleeved on the outer surface of the fixing shaft.

As an improvement of the scheme, the air draft assembly comprises an air draft tube, an air draft disc and a micro fan;

the arc plate is fixedly connected with an air pumping cylinder; the front side of the air suction barrel is fixedly connected with a suction disc, and the central part of the suction disc is communicated with the air suction barrel; the front sides of the two sucking discs are fixedly connected with a wiping pad; the spraying component is connected with the sucking disc; the front side of the sucking disc is provided with an annular cavity structure.

As an improvement of the scheme, the inner wall of the annular cavity of the suction cup is provided with a plurality of ventilation groove structures communicated with the central part of the suction cylinder.

As an improvement of the scheme, the spraying component comprises a liquid storage tank, an atomization nozzle, a conveying pipe and an annular pipe;

a liquid storage tank is fixedly connected in the main shell; the bottom of the liquid storage tank is provided with an atomization nozzle; two suction cups are fixedly connected with an annular pipe respectively; a conveying pipe is communicated between the atomizing nozzle and the two annular pipes; the annular pipe is provided with a spray nozzle structure communicated with the annular cavity of the adjacent sucking disc.

As an improvement of the scheme, a linkage assembly is arranged among the forehead protection partition board, the jaw pad and the fixed seat; the linkage assembly comprises a pull block, a pull rope and a spring piece;

two pull blocks are fixedly connected to the lower side of the forehead protection partition board; the jaw pad is connected with the fixed seat in a sliding way; a spring piece is fixedly connected between the fixed seat and the jaw pad; a pull rope is fixedly connected between the two pull blocks; the lower end of the pull rope penetrates through the inside of the main shell and is fixedly connected with the jaw pad.

As an improvement of the scheme, the electric heating plate is arranged in the forehead protection partition plate.

As an improvement of the scheme, two annular bump structures are arranged at the bottom of the electric heating plate.

As an improvement of the scheme, a pressure-sensitive sensor is arranged between the wiping pad and the arc-shaped plate.

The biological photon eye protection instrument for promoting the oxygen supply of eyes is characterized in that a head is placed on a main shell, a forehead protection partition plate and a jaw pad are arranged on the main shell, the height of a photon emitter is regulated by a regulating component, the biological photon intensity of multi-band light rays emitted by an illumination lamp group of the photon emitter is 400nm-410nm purple light frequency band, 450nm-490nm beneficial blue light frequency band, 580nm-600nm orange light frequency band and 650nm-730nm red light frequency band spectrum, and according to the spectrum difference of environmental exposure of a regular artificial light source, the spectrum frequency band with the deficiency of the artificial light source or insufficient color abundance is optimally regulated and configured, so that the oxygen supply of eyes is promoted;

the biological photon eye protection instrument for promoting the oxygen supply of eyes is characterized in that the eye wiping unit is connected with the forehead protection partition board, uncomfortable eyes are wiped through the wiping unit, the wiping unit has a self-disinfection function, when the eyes do not need to be wiped, the forehead is abutted against the front of the wiping pad through the forehead protection partition board, sweat on the forehead is prevented from polluting the wiping pad, and the eye infection phenomenon caused by a large number of bacteria contained in the wiping pad is avoided;

the biological photon eye protection instrument for promoting the oxygen supply of eyes solves the technical problems that an artificial light source of the eye protection instrument has frequency range deficiency or insufficient frequency range abundance, so that the effect of light physiotherapy on eye irradiation is poor, and the use mode of the biological photon eye protection instrument influences the use experience of the eye protection instrument.

Drawings

Fig. 1 is a schematic perspective view illustrating the structure of the present invention according to an embodiment;

FIG. 2 is a schematic diagram illustrating a three-dimensional structure of a tuning assembly and photon emitter according to an embodiment of the present invention;

fig. 3 is a perspective view illustrating an opened state of a forehead shield according to an embodiment of the invention;

FIG. 4 is a cross-sectional view of a main housing depicting the present invention according to an embodiment;

FIG. 5 is a schematic view showing a partial perspective structure of a wiping unit and a main casing according to an embodiment of the invention;

fig. 6 is a schematic perspective view illustrating a wiping unit according to an embodiment of the present invention;

FIG. 7 is a schematic perspective view illustrating a forehead shield and a fixing shaft according to an embodiment of the invention;

FIG. 8 is a cross-sectional view of a suction barrel and suction disc depicting the present invention according to an embodiment;

fig. 9 is a schematic perspective view illustrating an electric heating sheet according to an embodiment of the present invention.

Meaning of reference numerals in the drawings: the device comprises a main shell, a 101-switch button, 102-light holes, 11-height adjusting sliding blocks, 12-shifting blocks, 2-photon emitters, 21-irradiation lamp groups, 31-fixing seats, 32-jaw pads, 33-spring pieces, 41-fixing frames, 42-fixing shafts, 43-arc plates, 51-air sucking cylinders, 52-sucking discs, 520-annular cavities, 521-ventilation grooves, 53-micro fans, 6-wiping pads, 61-pressure sensors, 71-liquid storage tanks, 711-atomizing spray heads, 72-conveying pipes, 73-annular pipes, 731-spraying nozzles, 8-forehead protection partition plates, 81-torsion springs, 82-pulling blocks, 83-pulling ropes, 9-electric heating plates and 91-annular convex blocks.

Detailed Description

The following describes in detail the preferred embodiments of the present invention with reference to the accompanying drawings.

Example 1

A biological photon eye protection instrument for promoting oxygen supply of eyes, as shown in fig. 1 and 2, comprises a main shell 1, a forehead protection baffle 8, a jaw pad 32, an adjusting component and a photon emitter 2; the upper side of the main shell 1 is provided with a forehead protection baffle 8; a fixed seat 31 is fixedly connected to the lower side of the main shell 1; the fixed seat 31 is provided with a jaw pad 32; an adjusting component is connected inside the main shell 1; the adjusting component is connected with a photon emitter 2; the photon emitter 2 emits multi-band light biological photons through the front side illumination lamp group 21; the photon intensity emitted by the irradiation lamp group 21 is 400nm-410nm purple light frequency band, 450nm-490nm beneficial blue light frequency band, 580nm-600nm orange light frequency band and 650nm-730nm red light frequency band spectrum, and according to the spectrum difference of the exposure of the environment of the frequent artificial light source, the spectrum frequency band with the artificial light source missing or insufficient color abundance is optimized, regulated and configured; the middle part of the main shell 1 is provided with a plurality of light holes 102, and the multi-band light biological photons emitted by the irradiation lamp group 21 are irradiated outwards on the eyeball through the light holes 102; the main housing 1 is provided with a switch knob 101 for controlling the photon emitter 2.

As shown in fig. 2, the adjusting assembly comprises a height adjusting slide 11 and a shifting block 12; two height-adjusting sliding blocks 11 are connected inside the main shell 1 in a sliding manner; the two height-adjusting sliding blocks 11 are connected with the photon emitter 2 together; the right side of the height-adjusting slide block 11 is fixedly connected with a shifting block 12 through a fastener; the shifting block 12 is connected with the main shell 1 in a sliding way; the photon emitter 2 connected with the height-adjusting slide block 11 can be driven to move up and down by manually pulling the shifting block 12.

The biophotonic physiotherapy work of the biophotonic eye protection instrument for promoting the oxygen supply of eyes:

firstly, a user places the head on the jaw pad 32, the forehead is propped against the forehead protection baffle plate 8, the dial block 12 is manually stirred to drive the height-adjusting slide block 11 to move up and down, the height of the photon emitter 2 is adjusted, the illuminating lamp group 21 of the photon emitter 2 is enabled to be flush with the height of eyes, biological photons are emitted to the eyes by the illuminating lamp group 21, the emitted photon intensities are 400nm-410nm purple light frequency band, 450nm-490nm beneficial blue light frequency band, 580nm-600nm orange light frequency band and 650nm-730nm red light frequency band spectrum, and biological photon physiotherapy work is carried out on the eyes.

The biological photon of the wave band effectively depends on opsin, especially the chromatophore protein, and improves transcription synthesis; the early growth response factors of the visual cells are effectively subjected to photon activation; the optic nerve protease is effectively subjected to photosensitive excitation; through the photobiological effect, the scleral collagen crosslinking is improved, the scleral elasticity is enhanced, and the eye axis lengthening is controlled; by stimulating the heat generating effect of the cell mitochondria UCP protein, the micro-circulation of the eyeball is improved, the local oxygen supply is increased, the hypoxia inducible factor HIF signal cascade reaction is controlled, the continuous cell differentiation is reduced, the vascular proliferation is controlled, the overgrowth of the eyeball is inhibited, and the inflammation is reduced.

In the biophotonic physiotherapy operation on the eyes, the pupil area of the eyes of the user aims at the irradiation lamp set 21 to keep for a minute, blink frequency is reduced as much as possible, when discomfort phenomena such as fever, more tear secretion and the like occur on the eyes are felt, the head is moved away from the jaw pad 32 and the forehead protection partition plate 8, the eyes are wiped by using extra prepared sterile paper, the eyes are cleaned and wiped at any time, and discomfort of the eyes is reduced in time.

Example 2

This embodiment is a further optimization made on the basis of embodiment 1, as shown in fig. 1-8, the upper side of the main housing 1 is connected with an eye wiping unit, and the main housing 1 is connected with a forehead protection partition 8 through the eye wiping unit; the wiping unit comprises a fixed frame 41, an arc-shaped plate 43, an air draft component, a wiping pad 6, a spraying component, a forehead protection baffle 8 and a torsion spring 81; the front side of the main shell 1 is fixedly connected with two fixing frames 41 through fasteners; a fixed shaft 42 is fixedly connected between the two fixing frames 41; the front side of the fixed shaft 42 is fixedly connected with an arc-shaped plate 43 through a fastener; an exhaust assembly is connected to the left side and the right side of the arc plate 43; a wiping pad 6 for wiping eyes is fixedly connected between the two exhaust assemblies; a spraying component for spraying atomized disinfectant to the two air draft components is arranged on the main shell 1, and after the atomized disinfectant is sprayed onto the wiping pad 6 by the air draft components, the evaporation and air drying of the residual liquid on the wiping pad 6 are accelerated by outward air draft; the fixed shaft 42 is rotatably connected with a forehead protection baffle 8; a torsion spring 81 is fixedly connected between the forehead protection baffle 8 and the two fixing frames 41 respectively, and the torsion spring 81 is sleeved on the outer surface of the fixing shaft 42; the forehead protection partition plate 8 is turned downwards, so that the forehead protection partition plate 8 can be covered on the front sides of the arc-shaped plate 43 and the wiping pad 6, the forehead is abutted against the front of the wiping pad 6 through the forehead protection partition plate 8, and sweat on the forehead is prevented from polluting the wiping pad 6; a pressure sensor 61 is installed between the wiper pad 6 and the arc plate 43, and whether the human eyes are pressed against the wiper pad 6 is monitored by the pressure sensor 61.

As shown in fig. 6-8, the air draft assembly comprises an air draft tube 51, an air draft disc 52 and a micro fan 53; an exhaust cylinder 51 is fixedly connected to the arc plate 43; a suction disc 52 is welded on the front side of the suction drum 51, and the central part of the suction disc 52 is communicated with the suction drum 51; the front sides of the two suction discs 52 are fixedly connected with the wiping pad 6 together; the front side of the sucking disc 52 is provided with an annular cavity 520 structure, and the disinfection water mist is sprayed on the wiping pad 6 through the annular cavity 520 of the spraying component; the inner walls of the annular cavities 520 of the two suction discs 52 are provided with a plurality of ventilation grooves 521 communicated with the central parts of the suction drums 51, and residual liquid in the area of the wiping pad 6 aligned with the annular cavities 520 is directly sucked away by the suction drums 51 along the central parts of the suction discs 52 through the ventilation grooves 521 after being evaporated, so that the evaporation efficiency of the residual liquid in the wiping pad 6 is improved.

As shown in fig. 5-8, the spray assembly includes a reservoir 71, an atomizer 711, a delivery tube 72, and an annular tube 73; a liquid storage tank 71 for storing disinfectant is fixedly connected in the main shell 1; an atomization nozzle 711 for spraying the disinfectant after atomization is installed at the bottom of the liquid storage tank 71; two suction cups 52 are fixedly connected with an annular pipe 73 respectively; the atomizing nozzle 711 respectively conveys the atomized disinfectant to the two annular pipes 73 through the conveying pipe 72; the two annular pipes 73 are each provided with a plurality of spray nozzles 731 which are communicated with the annular cavities 520 of the adjacent suction cups 52.

As shown in fig. 4 and 5, a linkage assembly is further arranged between the forehead protection partition 8, the jaw pad 32 and the fixed seat 31; the linkage assembly comprises a pull block 82, a pull rope 83 and a spring element 33; two pull blocks 82 are fixedly connected to the lower side of the forehead protection partition plate 8; jaw pad 32 is slidably connected to holder 31; four spring members 33 are fixedly connected between the fixed seat 31 and the jaw pad 32; a pull rope 83 is fixedly connected between the two pull blocks 82; the lower end of the pull rope 83 penetrates through the inside of the main shell 1 and is fixedly connected with the jaw pad 32; pressing down on jaw pad 32 pulls pull cord 83 to turn forehead support membrane 8 down to cover the front sides of arcuate plate 43 and wiper pad 6.

The eye wiping work of the biophotonic eye protection instrument for promoting the oxygen supply of the eyes:

in the initial state, the forehead protection partition 8 is turned up, before the eye biophotonic physiotherapy is performed, a user presses down the jaw pad 32 by hand to drive the spring member 33 to compress downwards, the jaw pad 32 drives the stay rope 83 to drive the forehead protection partition 8 to turn down, the forehead protection partition 8 drives the torsion spring 81 to twist, the forehead protection partition 8 covers the arc plate 43 and the wiping pad 6, then the user places the head on the jaw pad 32, the forehead abuts against the forehead protection partition 8, the jaw pad 32 is pressed down instead of the hand, the hand can be taken away from the jaw pad 32, and the biophotonic physiotherapy is performed on the eyes through the irradiation lamp set 21 in the manner.

Meanwhile, the atomizing nozzle 711 sprays the disinfectant in the liquid storage tank 71 to the conveying pipe 72 in an atomized state, the atomized disinfectant flows into the two annular pipes 73 through the conveying pipe 72 and is sprayed into the annular cavities 520 of the two suction discs 52 through the atomizing nozzles 731 respectively, the atomized disinfectant is adhered to the left side and the right side of the wiping pad 6, the wiping pad 6 is soaked by the atomized disinfectant, the wiping pad 6 is disinfected, after the spraying of the disinfectant by the atomizing nozzle 711 is stopped, the micro fan 53 pumps the gas backwards in the suction drum 51 to form airflow flowing backwards along the suction discs 52 and the suction drum 51, and residual liquid on the wiping pad 6 is quickly evaporated along with the airflow in the suction disc 52.

When the discomfort phenomena such as fever and more lacrimal secretion occur on eyes of a user, the head is moved away from the jaw pad 32 and the forehead protection partition plate 8, meanwhile, the jaw pad 32 is pushed to rise upwards by the compressed spring piece 33, the forehead protection partition plate 8 is driven to turn upwards by the torsion spring 81, the wiping pad 6 is not shielded by the forehead protection partition plate 8, then the eyes of the user are directly wiped by leaning on the wiping pad 6, various uncomfortable feelings of the eyes are relieved, the wiping work of the eyes can be completed without preparing extra sterile paper, and the use experience of the biophotonic eye protection instrument for promoting the oxygen supply of the eyes is improved.

When the atomizing nozzle 711 is spraying atomized disinfectant outwards, eyes of a user are abutted against the wiping pad 6, at the moment, the pressure-sensitive sensor 61 at the rear side of the wiping pad 6 is triggered, so that the atomizing nozzle 711 stops working timely, meanwhile, the micro fan 53 rapidly pumps gas backwards in the exhaust cylinder 51, and timely pumps the atomized disinfectant sprayed into the annular cavity 520 out through the ventilation groove 521, so that the phenomenon of irritation to eyes caused by excessive disinfectant content on the wiping pad 6 is avoided.

Example 3

This embodiment is further optimized based on embodiment 2, as shown in fig. 1-9, an electric heating plate 9 is installed inside the forehead protection partition 8, the wiping pad 6 is sterilized at high temperature by the electric heating plate 9 which is electrically heated to a high temperature state, and the evaporation rate of the residual liquid in the wiping pad 6 is accelerated by the electric heating plate 9 at high temperature.

As shown in fig. 9, the bottom of the electric heating plate 9 is provided with two annular protruding blocks 91, and the downward turned electric heating plate 9 extrudes the area with higher humidity of the wiping pad 6 into the annular cavity 520 of the suction cup 52 through the annular protruding blocks 91, so that the liquid drying efficiency of the wiping pad 6 is improved.

The wiping pad 6 of the biophotonic eye protection device for promoting the oxygen supply of eyes rapidly dries:

in the biophotonic physiotherapy operation, the head of the user is pressed against the jaw pad 32, the forehead-protecting partition 8 is arranged in front of the arc-shaped plate 43 and the wiping pad 6 and abuts against the forehead of the user, and the annular projection 91 presses the wiping pad 6 into the annular cavity 520 of the suction cup 52 in the region of higher humidity.

The atomizer 711 sprays the atomized disinfectant to the pad 6, after the pad 6 is disinfected, when the atomizer 711 stops working, the electric heating plate 9 is electrically heated to a high temperature state, the pad 6 is disinfected at a high temperature, meanwhile, the high temperature electric heating plate 9 effectively accelerates the evaporation rate of residual liquid in the pad 6, and meanwhile, the micro fan 53 pumps gas back in the exhaust cylinder 51 rapidly, and timely blows the evaporated disinfectant back.

While the disclosure has been described with respect to only a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (7)

1. A biophotonic eye-protecting device for promoting the supply of oxygen to an eye, comprising: a main housing (1);

a forehead protection baffle (8) is arranged on the upper side of the main shell (1); a fixed seat (31) is fixedly connected to the lower side of the main shell (1); the fixed seat (31) is provided with a jaw pad (32);

the method is characterized in that: the device also comprises an adjusting component and a photon emitter (2); an adjusting component is connected inside the main shell (1); the adjusting component is connected with a photon emitter (2); the front side of the photon emitter (2) is provided with an illumination lamp group (21); the intensity of photons emitted by the illuminating lamp group (21) is a spectrum of 400-410 nm purple light frequency band, 450-490 nm beneficial blue light frequency band, 580-600 nm orange light frequency band and 650-730 nm red light frequency band; a light hole (102) structure is arranged in the middle of the main shell (1); a switch knob (101) for controlling the photon emitter (2) is arranged on the main shell (1);

the main shell (1) is connected with an eye wiping unit, and the main shell (1) is connected with a forehead protection partition board (8) through the eye wiping unit; the wiping unit comprises a fixing frame (41);

the front side of the main shell (1) is fixedly connected with two fixing frames (41); a fixed shaft (42) is fixedly connected between the two fixing frames (41); an arc-shaped plate (43) is fixedly connected to the front side of the fixed shaft (42); the left side and the right side of the arc plate (43) are respectively connected with an air draft assembly; a wiping pad (6) is fixedly connected between the two exhaust assemblies; a spraying component is commonly connected between the main shell (1) and the two air draft components; a spraying component is arranged on the main shell (1); the fixed shaft (42) is rotationally connected with a forehead protection baffle plate (8); a torsion spring (81) is fixedly connected between the forehead protection partition plate (8) and the two fixing frames (41), and the torsion spring (81) is sleeved on the outer surface of the fixing shaft (42);

the exhaust assembly comprises an exhaust cylinder (51);

an exhaust cylinder (51) is fixedly connected on the arc-shaped plate (43); a suction disc (52) is fixedly connected to the front side of the suction drum (51), and the central part of the suction disc (52) is communicated with the suction drum (51); the front sides of the two suction discs (52) are fixedly connected with a wiping pad (6) together; the spraying component is connected with a sucking disc (52); the front side of the sucking disc (52) is provided with an annular cavity (520) structure;

the spraying assembly comprises a liquid storage tank (71);

a liquid storage tank (71) is fixedly connected in the main shell (1); an atomization nozzle (711) is arranged at the bottom of the liquid storage tank (71); two suction discs (52) are fixedly connected with an annular pipe (73) respectively; a conveying pipe (72) is connected between the atomizing nozzle (711) and the two annular pipes (73); the annular pipe (73) is provided with a spray nozzle (731) structure communicated with the annular cavity (520) of the adjacent sucking disc (52).

2. A biophotonic eye shield according to claim 1, wherein the adjustment assembly comprises a height adjustment slider (11);

two height-adjusting sliding blocks (11) are connected inside the main shell (1) in a sliding manner; the two height-adjusting sliding blocks (11) are connected with the photon emitter (2) together; a shifting block (12) is fixedly connected to the right side of the heightening slide block (11); the shifting block (12) is connected with the main shell (1) in a sliding way.

3. A biophotonic eye protection device for promoting the supply of oxygen to the eye according to claim 1, wherein the inner wall of the annular chamber (520) of the suction disc (52) is provided with a plurality of ventilation slots (521) which are connected to the central part of the suction drum (51).

4. The biophotonic eye protection device for promoting the supply of oxygen to the eye of claim 1, wherein a linkage assembly is further provided between the forehead support barrier (8), the jaw pad (32) and the holder (31); the linkage assembly comprises a pull block (82);

two pull blocks (82) are fixedly connected to the lower side of the forehead protection partition plate (8); the jaw pad (32) is connected with the fixed seat (31) in a sliding way; a spring piece (33) is fixedly connected between the fixed seat (31) and the jaw pad (32); a pull rope (83) is fixedly connected between the two pull blocks (82); the lower end of the stay cord (83) penetrates through the inside of the main shell (1) and is fixedly connected with the jaw pad (32).

5. A biophotonic eye-protecting device for promoting the supply of oxygen to the eye as claimed in claim 4, wherein the forehead support (8) has an electrical heating plate (9) mounted therein.

6. A biophotonic eye-protection device for facilitating the supply of oxygen to the eye as claimed in claim 5, wherein the bottom of the electrical heating plate (9) is provided with two annular bump (91) structures.

7. A biophotonic eye protection device for promoting the supply of oxygen to the eye according to any one of claims 1 to 6, wherein a pressure sensitive sensor (61) is arranged between the wiper pad (6) and the arcuate plate (43).