WO2018014712A1 - Eye protective light-shielding device for use with augmented reality smart eyewear - Google Patents

Abstract

An eye protective light-shielding device for use with augmented reality smart eyewear, mainly comprising: an eye protective unit (2), two shielding parts (21) which are capable of filtering light are provided on both sides of the eye protective unit (2), and are correspondingly disposed in front of two translucent display screens (10) arranged on both sides of an augmented reality smart eyewear (1), rendering the screens partially transparent or completely opaque to the outside. Meanwhile, a convex lens (3) may be provided in a certain area around the shielding parts (21), wherein the size of the convex lens (3) may be large or small, as long as the ability of a user to see a surrounding environment clearly is not affected. Therefore, under any light source, when using the augmented reality smart eyewear (1) with the eye protective unit (2) to read digital information, the following characteristics can be achieved: both eye balls and maculae are protected from light, while a peripheral retina area is in continuous contact with the external light source, and a user can see the surrounding environment clearly. When used for reading, the present invention may change the way people read, while at the same time prevent the eyes from being fatigued and myopia from worsening.

Description

Integrated reality smart glasses eye shield Technical field

The invention relates to an integrated real-life smart eye-protecting eye shutter, in particular to an integrated eye-protecting unit in front of the integrated reality smart glasses, which can avoid eye fatigue during use, prevent deterioration of myopia, and can change human reading habits and patterns.

Background technique

The ophthalmology industry generally believes that there are too many close-range workloads, and too little outdoor time is a major factor in myopia and eye fatigue. Long-term close-up work indoors, whether watching TV, watching a computer, reading a book or watching a mobile phone: 1. long-term contraction of the ciliary muscle, 2. long-term cohesion between the two eyes, 3. insufficient exposure time of the sun, 4. peripheral retina The image of the area falls behind the retina, which is the four main causes of myopia deterioration and eye fatigue.

An uncorrected myopic eye, the image of an object from a distant place, whose focus is in the central retina (the macula) is in front of the retina, but in the peripheral retinal area is behind the retina, which is called relative peripheral hyperopia. . Traditional myopia glasses only correct the central retinal area so that the image focus moves backwards on the macula, but there is no relative hyperopia to correct the peripheral retina. When the light falls behind the retina, the eyeball tends to grow longer and larger, so that the light can be focused on the retina, so the myopia becomes deeper and deeper.

When humans read books, watch mobile phones, and watch TV, the human eye actively searches for pictures. When the distance is less than six meters, the ciliary muscle needs to be contracted and adjusted. The closer the contraction is, the stronger the eye is, and the more tired the eye is, the deeper the myopia is.

Human reading, watching computers, watching mobile phones, watching TV, are single-screen reading, the two eyes need to be close together, cohesion is the result of contraction of the internal rectus muscle, the contraction of the internal rectus muscle will cause the increase of intraocular pressure; The increase in internal pressure causes the posterior pole of the eyeball to expand backward, and the anteroposterior diameter of the eyeball increases to produce myopia.

The amount of outdoor activities during the day is too small, the exposure time of the sun is insufficient, and the degree of deterioration of myopia will be accelerated. Experiments in Australia have proved this point. The longer the outdoor activities, the less likely it is to have nearsightedness, and those who are already nearsighted will not increase the degree.

As shown in Figure 10, for thousands of years, human beings have fixed their heads and read books, watching computers, watching mobile phones, causing stiff neck and soreness and pain in cervical lesions.

Since humans invented paper, for thousands of years, human beings have been sitting in static reading, and the problems of cardiovascular diseases and weakening of muscles, bones and joints caused by sedentary movements are not uncommon.

For thousands of years, most people have read indoors. The distance is short, the picture is small, the field of vision is narrow, the eyes are prone to fatigue and soreness, and myopia is produced. In some countries, the ratio of students' myopia is as high as 80%.

Whether reading indoors, reading mobile phones, or watching computers, it is easy to be surrounded by ambient light sources, regardless of the refraction or reflection of sunlight or artificial light sources, irritating the eyes and causing soreness and fatigue. Humans must read in the backlight, and when the light comes from the front, reading becomes difficult and painful.

On the running vehicle, reading books, watching mobile phones, watching computers, when the vehicle vibrates, because the picture is not synchronized with the eye vibration, the picture is unstable and unclear, making reading difficult, eye fatigue, and dizziness.

In recent decades, there have been many eye training methods and enhanced vision treatment instruments in the prior art. Some use electronic imaging technology to make the trainee's eye ciliary muscles exercise through image changes; some are mechanically moved to train the trainees. The purpose of exercising the ciliary muscle is achieved by looking at objects that vary in distance. For example, U.S. Patent No. 6,402,231 provides a method of exercising eye muscles using images on a computer screen. U.S. Patent 6,533,417 teaches another method of training an eye to relieve eye muscle fatigue by changing the position and size of the image by moving it in a particular manner on a computer screen. Of course, there are also various types of glasses specially manufactured for preventing myopia, such as U.S. Patent No. 20,120,236,256. In addition, there is a method for reducing eye fatigue provided by CN102499863A of China, an electronic eye vision enhancer provided by CN200939208Y, an eye muscle training correction device provided by CN103110502A, and the like. However, these conventional training methods or therapeutic instruments generally have the disadvantages of complicated structure, ineffective effect, long operation time, boring treatment process, and application non-humanity. For the lively and active young people and the busy modern people, it is really difficult to implement them as the main cause of their failure.

In view of this, the present inventors have felt that the above-mentioned deficiency can be improved, and it is a research and cooperation with the application of the theory, and finally proposes a present invention which is rational in design and effective in improving the above-mentioned deficiency.

Summary of the invention

The main object of the present invention is to provide an integrated vision smart eyewear eye shield, which mainly comprises: an eye protection unit disposed in front of a unified reality smart glasses, wherein two shielding portions are provided on both sides of the filter, corresponding to And two transparent display screens on both sides of the integrated reality smart glasses, wherein the two shielding portions of the eye protection unit are selected from a material including partially transparent and completely opaque; thereby, using the integrated reality smart glasses When the digital information is read with the eye protection unit, the eyeballs on both sides and the yellow spot are blocked, and the peripheral retina is continuously in contact with the external light source.

Preferably, a certain area around the shielding portion is provided with a convex lens to convert the relative peripheral hyperopia into peripheral myopia, and the peripheral light is focused on the front of the retina while the light of the translucent display is focused on the macula.

Preferably, a certain area around the shielding portion is provided with a flat mirror.

Preferably, the integrated reality smart glasses further comprises a host and a frame unit connected by the information transmission, and each of the frame units is provided with a semi-transparent display screen.

Preferably, the host further constructs a teaching database reading system, the content is at least selected from the group consisting of hierarchical advanced Chinese, natural, English, mathematics, geography, history, citizenship, physics, chemistry, health education, art and music, etc. a discipline.

Preferably, the eye protection unit is configured as a separate lens, and is movably combined with the front surface of the integrated smart lens; the eye protection unit further includes a light transmitting portion, and the large area is disposed on the periphery of the eye unit lens. The filter shielding portion is locally provided in a small area at a position corresponding to the translucent display screen.

Preferably, the eye protection unit is selected from the group consisting of a non-refractive lens, an optical lens that automatically changes color, and a liquid crystal lens that is electrically discolored.

The main purpose of the present invention is to provide a unified virtual eyewear eye shield, which mainly comprises: a unified reality smart glasses, one of a host and a smart phone connected with information transmission, and a frame. a unit, the frame unit is provided with two lenses on both sides, each lens is provided with a half transparent display screen; an eye protection unit is provided in front of the integrated reality smart glasses for a lens; the eye protection unit comprises a translucent portion is disposed on a periphery of the lens of the eye protection unit in a large area, so that the peripheral retina is continuously in contact with the sunlight, and two shielding portions are provided separately from each other, and the translucent display screen is partially smallly disposed. Corresponding position, the shielding portion of the eye protection unit is selected from one of a material including partial transparency and complete opacity, and a teaching database reading system is constructed in the cloud connected to the host or the information transmission, and the content is selected at least Self-contained level of advanced Chinese, natural, English, mathematics, geography, history, citizenship, physics, chemistry, health education, fine arts and music, etc.

In this way, under any light source, when using the integrated reality smart glasses and the eye-protection unit to read the digital information, the eye protection of the eye and the central retina (the macula) can be achieved, and the peripheral retinal area is continuously in contact with the external light source. The characteristics of the user, and the user can see the surrounding environment. For reading, the head and neck can rotate freely to prevent cervical spine degeneration and shoulder and neck stiffness and sore; and can read while walking to prevent cardiovascular disease and limb deterioration; avoid eye fatigue, reduce myopia deterioration; can change human reading habits And mode.

That is, when wearing the AR smart glasses with the eye shield of the present invention for reading outdoors, if only the eye protection unit with the flat mirror is used, the three causes the myopia can basically be overcome. The main cause: 1. Ciliary muscle contraction for a long time, 2. Long-term cohesion between the two eyes, 3. Insufficient time for contact with sunlight, and if the eye protection unit with convex lens is used, it can also overcome the fourth major cause of myopia deterioration. The image of the peripheral retinal area falls behind the retina.

Advantages of the application of the invention: in the environment under sunlight or a strong artificial light source, when using the eye shield with integrated visual wisdom glasses with dual display screens to read digital information:

1. The smart glasses screen actively projects into the retina, the human eye passively looks at the screen, the human eye does not have to actively search for the picture, and the picture can be displayed at 10 meters, 20 meters away, the long distance large picture, the ciliary muscle is relaxed. . The relaxation of the ciliary muscle during reading is a major event for human beings. It is a revolutionary evolution of human beings, indicating that humans may no longer have the production of myopia and no longer suffer from eye fatigue.

2. There is a display screen in front of each eyeball, the eyeball is not cohesive, and the inner rectus muscle does not contract. Intraocular pressure is no longer elevated by contraction of the medial rectus muscle, and the likelihood of deterioration of myopia is greatly reduced. For humans, this is also a revolutionary evolution and progress.

3. When reading, the head and neck can be freely rotated up and down, indicating that the human neck is no longer stiff and sore, and the cervical vertebra is no longer affected. Humans don't have to stop looking down.

4. It can be dynamic walking reading: smart glasses and eyes synchronized vibration, the picture is stable and clear, not affected by walking. In the long run, from childhood to old age, for decades, human muscles, bones, joints can remain strong, delay aging, and cardiovascular vascular disease is relatively reduced, which will be of great benefit to human health.

5. Can be used outdoors: Because the eyeball and the macula are protected by light, reading is not reflected by sunlight and other light sources. As long as the weather permits, outdoor reading will become a lighthearted thing, and the field of view can reach 180 degrees, improving the indoor view is narrow, and the eyes are prone to fatigue. Human beings will be able to look up and read the film in the sky, and there is no limit to the sky.

6. There can be a big screen: no matter the angle of view, it will produce long-distance, large-screen effects. The farther away the screen is, the bigger the screen is, the reading becomes pleasing and enjoyable; taking the 23° angle of view as an example, the screen is 10 meters away from the screen. 20 meters away from the screen. The big screen replaces books and small screens of computers and mobile phones; long-distance reading replaces close-range reading; double-screen replaces single-screen, because of the parallax of the two eyes, the image is three-dimensional and the eyes are more comfortable.

7. Not affected by vibration: On the running vehicles, such as cars, trains, airplanes, and MRT, they are not affected by vehicle vibration. The smart glasses are synchronized with the eyes, the picture remains clear and stable, the eyes are not tired, and the mind is not dizzy.

8. Can be used outdoors, with a wide field of vision, contact with nature, happy mind and body, humanity back to the embrace of nature. Outdoor reading, the field of view can reach 180 degrees; improve the indoor viewing field to shrink, the closer to the eye, the smaller the field of vision, resulting in eye fatigue and so on. Humans will be able to look up and read the film in the sky, and there is no limit to the sky.

9. Can promote the normal operation of the physiological clock: outdoor use during the day, the retina receives sunlight can promote the normal operation of the physiological clock, reducing the tendency of insomnia and depression.

10. It can be used with full-frequency light source: sunlight is a full-frequency light source, and proper exposure to sunlight, an average of two to three hours a day, has many benefits for the body and eyes; improving the indoor light bulb only contains part of the light wave frequency, which is easy to cause eye fatigue. problem.

11. Can save a lot of energy: home, classroom, office As long as enough sunshine comes in, everyone can wear the integrated wisdom glasses to face the window to read and work, during the day, you can work, class, and read without turning on the lights.

12. Can change the way of human education and learning: the dual-display virtual reality glasses can present 2D and 3D effects, and replace the text descriptions with 2D and 3D pictures and videos. The era of e-books is coming, the big screens are replacing small books, and reading is easier and more fun. 3D stereoscopic images and videos will be widely used and become mainstream textbooks. Learning becomes interesting and understanding becomes easy.

13. More privacy: The content of the reading is directly projected to the retina by the display screen. Only the user can see it, other people can't peek from the side, the information is not leaked, and the reading is safer. Regardless of computers, mobile phones, books, others can peek from the side, lack of privacy and security.

For a better understanding of the features and technical aspects of the present invention, reference should be made to the accompanying drawings range.

DRAWINGS

Figure 1 is a perspective exploded view of the present invention.

2 is a perspective assembled view of a connection host of the present invention.

3 is a perspective assembled view of the eye protection unit of the present invention with a convex lens.

4 is a perspective assembled view of a convex lens having the present invention.

Fig. 5 is a schematic view showing the conditions of both eyes of the human body of the present invention.

Figure 6 is a schematic view of the application of the present invention.

Figure 7 is a schematic view showing the focus of the present invention using a convex lens eyeball.

Figure 8 is a diagram showing an application example of the present invention as an outdoor teaching.

Fig. 9 is a view showing an application example of a normal posture of the present invention.

Figure 10 is a diagram showing an example of a human being used to looking down at a mobile phone.

detailed description

The embodiments of the present invention are disclosed in detail below by way of specific examples, and those skilled in the art can readily understand the advantages and advantages of the present invention from the disclosure herein. Referring to FIG. 1 to FIG. 5, the integrated vision smart eyewear eye shutter of the present invention mainly comprises: an eye protection unit 2 disposed in front of a unified reality smart glasses 1 and having filters on both sides thereof. The two shielding portions 21 of the light correspond to the two semi-transparent display screens 10 on both sides of the integrated reality smart glasses 1. When implemented, the shielding portion 21 of the eye protection unit 2 can be made of different materials according to the difference between the indoor and outdoor light intensity of day and night, so that the translucent display screen 10 on both sides of the integrated reality smart glasses 1 becomes partially transparent or It is completely opaque; at the same time, a convex lens 3 is disposed in a certain area around the shielding portion 21, and the light around the translucent display screen 10 is focused on the front of the retina while the light of the translucent display screen 10 is focused on the macula. The size of the area is not limited, so as not to affect the user's ability to see the surrounding environment, the convex lens 3 can be any degree, so that the relative peripheral hyperopia can be converted into a peripheral near, and the convex lens 3 can be omitted for a person with normal vision. Flat mirror.

If you only use the eye protection unit 2 of the flat mirror, basically three eye protection functions can be achieved: 1. The ciliary muscle is in a relaxed state, 2. The two eyeballs remain in situ and not cohesive, 3. The peripheral retina continues to Sunlight contact, and if the eye unit 2 of the convex lens 3 is used, the fourth eye protection function can be simultaneously achieved. 4. The focal length of the peripheral retinal image changes from the back of the retina to the front of the retina.

Therefore, when using the integrated reality smart glasses 1 with the eye protection unit 2 to read the digital information, the eyeball and the central retinal area (the macular part) can be protected from the light, and the surrounding retinal area is continuously in contact with the external light source. And the user can see the surrounding environment. In this way, the translucent display screen 10 focuses on the macula while the peripheral light is focused on the front of the retina, but does not change while maintaining the flat state, naturally relaxes the muscles of the eyeball, effectively preventing eye fatigue and deterioration of myopia. .

For a more detailed description, the integrated reality smart glasses 1 may further include: a host 11 or an existing smart phone connected by wired or wireless information transmission, a user's original prescription glasses 14, and a mirror. The frame unit 12 is provided with a lens 13 on both sides of the frame unit 12, and each side lens 13 is provided with a half transparent display screen 10; the integrated reality wisdom glasses 1 can reach four eye protection conditions when used: 1. The two eyeballs maintain the original The position is not cohesive, 2. The ciliary muscle is in a relaxed state, 3. The visual field is not reduced to 180°, 4. The focal length of the peripheral retinal image changes from the back of the retina to the front of the retina.

The eye protection unit 2 can be a lens disposed in front of the lens 13 of the integrated reality smart glasses 1; the eye protection unit 2 further includes: a light transmitting portion 22 disposed on a periphery of the lens of the eye protection unit 2 in a large area to make the periphery The retina continues to come into contact with the sun. The two filter shielding portions 21 provided separately from each other correspond to the two-sided translucent display screen 10 of the lens 13 of the integrated reality smart glasses 1 in a small area, so as to become partially transparent or completely opaque.

At the same time, a convex lens 3 can be disposed in a certain area around the shielding portion 21, and the light around the translucent display screen 10 can be focused on the front of the retina while the light of the translucent display screen 10 is focused on the macula. Irrespectively, it does not affect the user's ability to see the surrounding environment; for people with normal vision, the convex lens 3 may not be provided, and the flat mirror, that is, the symbol 3 of Fig. 1 may also be a flat mirror. A person with a nearsightedness and already nearsightedness can use the eye unit 2 having the convex lens 3 to alleviate the tendency of myopia to deteriorate. A person with a presbyopic eye can use the eye unit 2 having the convex lens 3 to reduce eye fatigue and see a close-up physical object. The convex lens 3 can be of any degree to be able to convert the relative peripheral hyperopia into a peripheral near. Others may choose a flat mirror or a convex lens 3.

Preferably, the eye protection unit 2 can be integrally formed on the integrated reality smart glasses 1 (not shown), or set as a separate piece to be reactively combined on the integrated reality smart glasses 1 (eg As shown in the figure, wherein the eye protection unit 2 can also be made of a non-refractive lens, an auto-discoloring optical lens or a liquid-chromic liquid crystal lens (but not limited thereto).

A specific method of adding an eye protection unit 2 to the integrated reality smart glasses 1 is as follows:

1. In the manufacturing process, the translucent display screen 10 can be directly turned into a completely opaque display screen, thereby simultaneously forming a shielding portion to constitute the aforementioned eye protection unit 2. At the same time, a convex lens 3 is disposed in a certain area around the shielding portion 21, and the light around the translucent display screen 10 is focused on the front of the retina while the light of the translucent display screen 10 is focused on the macula. The size of the convex lens 3 is not limited. In order to prevent the user from seeing the surrounding environment, the person with normal vision may not use the convex lens 3 and use a flat mirror.

2. A light shielding sheet can be added to the translucent display screen 10 of the existing AR glasses as the eye protection unit 2. At the same time, a convex lens 3 is disposed in a certain area around the shielding portion 21, and the light around the translucent display screen 10 is focused on the front of the retina while the light of the translucent display screen 10 is focused on the macula. The size of the convex lens 3 is not limited. A flat mirror is used to prevent the user from seeing the surrounding environment; or if the convex lens 3 is not provided. Without the tendency of myopia, people without myopia or presbyopia can choose a mask with or without the convex lens 3 (see Figure 2).

3. Referring to Figure 4, the convex lens 3 can be used for people who are already nearsighted or presbyopia. The convex lens 3 can be combined with the eye protection unit 2 or added to the front of the eye protection unit 2 (the size of the shape is not limited to the illustration), so that the vision of the near vision is not easy to increase the degree, and the presbyopic person does not have to Wearing reading glasses can also see the image of the actual object at a close distance.

Referring to Figure 6, the present invention is used to read that the ciliary muscle does not need to be contracted, and the eye is in a relaxed state. Because the integrated reality smart glasses 1 is about two centimeters of translucent display screen 10 in front of the eyes, the picture generated by the liquid crystal panel is projected through the projector and reflected into the retina to generate a virtual screen at a distance. This virtual screen, Taking a 23° viewing angle as an example, a large screen of 160 吋, 320 吋, or even 480 形成 can be formed at a distance of 10 meters, 20 meters, or even 30 meters. This makes the ciliary muscles do not have to shrink when reading, reducing eye fatigue and alleviating the deterioration of myopia.

As shown in FIG. 6 and FIG. 7 , when the digital information is read by using the integrated vision smart glasses 1 with the eye protection unit 2 and the convex lens 3, the focus protection of the eyeball and the central retina (macular area) can be achieved. The peripheral retinal area continues to be in contact with external light sources, and the user can see the surrounding environment. In this way, the light around the translucent display screen 10 is focused on the front of the retina while the light of the translucent display screen 10 is focused on the macula. When the convex lens 3 is used, the original peripheral light can be focused on the broken line portion behind the retina (Fig. 7), corrected to the solid line portion as shown in Fig. 7, and falls to the front of the retina.

The invention is applied for reading, because there is a translucent display screen 10 in front of the left and right eyes, the eyeball does not need to be close to the inside, and the eye does not cause an increase in intraocular pressure due to contraction of the internal rectus muscle, which can alleviate the deterioration of myopia.

By using the present invention to read, the field of view does not have to be reduced, and the wider the field of view, the more comfortable the eye. The invention can be used outdoors, and can be read in the sky or in an open place, and the field of view can reach 180 degrees. This is the widest field of view of the human eye in its natural state, in which case the human eye will feel very comfortable.

Applying the invention to read, can go out of the room, a large amount of contact with sunlight, and the field of view can be used up to 180 degrees outdoors. At this time, the eyeball and the central field of view are protected, and the reading is hardly affected by the surrounding light refraction; unlike reading books outdoors, Computers, when watching mobile phones, are susceptible to interference from ambient light and sunlight scattering or refraction, causing eye irritation and fatigue. By using the present invention for reading outdoors, the retina continues to be in contact with sunlight, which has an inhibitory effect on the increase of myopia.

The overall design of the invention is quite simple, and it is easy to match the application of the integrated smart glasses 1 , just like the usual use of mobile phones and tablets, it is convenient to carry in daily life, and indoor and outdoor can be used at any time.

Since the integrated reality smart glasses 1 are worn on the head and vibrate in sync with the eyes, when traveling by airplane, train, MRT, car, etc., the screen is not affected by vibration, maintaining clear and stable eyes, and the eyes will not fatigue. This is especially important for modern people who often take transportation.

Referring to FIG. 9, the invention can effectively reduce eye fatigue and alleviate the deterioration of myopia, and the head and neck can also be rotated up and down and left and right. From then on, the human body can no longer read the book, and the neck body is no longer sore or stiff. Lesion. Moreover, the viewing screen moves in sync with the eyes and is not affected by body movements, so it is possible to read and watch the body to make the body healthier. This can completely change the habit of mankind reading and reading static reading for thousands of years. Improve the problem of soreness and fatigue caused by posture rigidity and easy to cause cervical and cardiovascular diseases. These are revolutionary changes for human beings, indicating that human life and reading methods have taken a big step forward. They can read while the body is free to move freely. Humans will be freed from the sloppy reading situation. Turning to a free-flowing reading and blending with nature will have a positive impact on the human body and mind.

And whether it is at home or outdoors, in the school or office, people can use the invention to use the bright sky outside the window, and no longer need to turn on the light to look at the sturdy blackboard or the computer on the desk. It is not necessary to turn on the lights in the room to save a lot of energy, and it can effectively improve the indoor lighting only contains part of the light wave frequency, which is easy to cause eye fatigue. Enjoy the sun outdoors without being disturbed by other sources. The retina receives sunlight and promotes the normal operation of the physiological clock. A full-frequency source that is close to nature's exposure to sunlight has many benefits for both the body and the eye.

Referring to FIG. 2, FIG. 4 and FIG. 8 , for a more specific application, the present invention can further construct a teaching database reading system 40 in the host 11 or the cloud of the integrated reality smart glasses 1 , and the content thereof can include various different levels. Advanced educational disciplines, such as Chinese, natural, English, mathematics, geography, history, citizenship, physics, chemistry, health education, fine arts and music, but not limited to the aforementioned disciplines, can also include other disciplines. Teachers and students can teach outdoors in the corridors and trees. As long as there are shadows, they are good places for classes, closer to nature, and less likely to be nearsighted. The outdoor ventilation is good, the air is fresh, the vision is wide, the light is sufficient, and the atmosphere is unrestrained, returning to the life and reading under the human's original best natural environment.

More importantly, when the school generally adopts the invention to drop out of school, most of the textbooks will be presented in e-books. The lively and interesting 2D, 3D pictures or video multimedia will largely replace the blunt text narrative. Increasing the fun and effect of learning, and completely changing the traditional education and learning methods of human beings, in addition to the potential huge opportunities for comprehensive reform of teaching materials, the deforestation of trees will be greatly reduced, which will have a positive impact on global ecology and air quality.

In summary, the present invention has obvious and revolutionary progress compared with the conventional ones, and also has industrial availability, fully conforms to patent requirements, and proposes invention patent applications.

However, the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Therefore, equivalent technical changes made by using the present specification and the contents of the drawings are included in the scope of protection of the present invention. Inside.

Claims (10)

An integrated vision smart eyewear eye shield, comprising: an eye protection unit disposed in front of a unified reality smart glasses, wherein two shielding portions are provided on both sides of the filter, corresponding to the integrated Two transparent display screens on both sides of the smart glasses, the two shielding portions of the eye protection unit are selected from one of a material including partially transparent and completely opaque; thereby, the integrated vision smart glasses are used to match the eye protection When the unit reads the digital information, it can reach the eyeballs on both sides and the yellow spot to block the eye protection, while the peripheral retina continues to contact the external light source. The integrated vision smart eyeglass shutter according to claim 1, wherein a certain area around the shielding portion is provided with a convex lens. The integrated vision smart eyeglass shutter according to claim 1, wherein a certain area around the shielding portion is provided with a flat mirror. The integrated vision smart eyewear shutter according to claim 2, wherein the integrated reality smart glasses further comprises a host and a frame unit connected by information transmission, wherein the frame unit is provided on both sides. The two semi-transparent display screens. The integrated vision smart eyeglass shutter according to claim 4, wherein the host further constructs a teaching database reading system, the content of which is at least selected from the group consisting of Chinese, natural, English, and mathematics including hierarchical advanced. , geography, history, citizenship, physics, chemistry, health education, fine arts and music, etc., one of the disciplines. The integrated vision smart eyewear eye shield of claim 4, wherein the eye protection unit is configured as a separate lens that is movably coupled to the front of the lens of the integrated reality smart glasses; The eye protection unit further includes a light transmitting portion disposed at a peripheral position of the eye unit lens in a large area, and the two shielding portions are locally disposed in a small area corresponding to the positions of the two semi-transparent display screens. . The integrated vision smart eyeglass shutter according to claim 6, wherein the eye protection unit is selected from the group consisting of a non-refractive lens, an optical lens that automatically changes color, and a liquid crystal lens that is electrically discolored. one. A unified reality smart eyewear eye shield, characterized in that it comprises: a unified virtual reality glasses, one of a host and a smart phone connected with information transmission, and a frame unit, the frame unit is provided with two lenses on both sides, and each lens is provided with a half transparent display screen; An eye protection unit is disposed in front of the integrated reality smart glasses; the eye protection unit includes a light transmitting portion, and is disposed on a periphery of the lens of the eye protection unit in a large area to keep the peripheral retina continuous with sunlight The two shielding portions that are in contact with and separated by the filtering are locally disposed in a small area corresponding to the positions of the two semi-transparent display screens, and the shielding portion of the eye protection unit is selected from the group consisting of partially transparent and completely opaque. as well as; A teaching database reading system is constructed in the cloud connected to the host or the information transmission, and the content is at least selected from the group consisting of national, natural, English, mathematics, geography, history, citizenship, physics, chemistry, health education, art And music, etc., one of the disciplines. The integrated vision smart eyeglass shutter according to claim 8, wherein a certain area around the shielding portion is provided with a convex lens. The integrated vision smart eyeglass shutter according to claim 8, wherein a certain area around the shielding portion is provided with a flat mirror.

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