CN111308714A

CN111308714A - Eye-protecting and shading device for intelligent glasses integrating real environments

Info

Publication number: CN111308714A
Application number: CN202010179252.0A
Authority: CN
Inventors: 蔡清来
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-07-22
Filing date: 2016-07-22
Publication date: 2020-06-19
Anticipated expiration: 2036-07-22
Also published as: CN107643597A; WO2018014712A1; CN107643597B; CN111308714B

Abstract

The utility model provides a combined reality wisdom glasses eyeshield photochopper mainly includes: the two sides of the eye protection unit are provided with two light filtering shielding parts and are correspondingly arranged in front of the two semitransparent display screens at the two sides of the intelligent glasses with the integrated reality, so that the two semitransparent display screens are partially or completely transparent to the outside; meanwhile, a convex lens can be arranged in a certain area around the shielding part, and the size of the convex lens area is not limited so as not to influence the user to clearly see the surrounding environment; therefore, under any light source, when the integrated reality intelligent glasses are used together with the eye protection unit to read digital information, the characteristics that the eyeballs of two eyes and the yellow spots block light and the peripheral retina area is continuously contacted with the external light source can be achieved, and the user can clearly see the surrounding environment. When the eye-protection glasses are used for reading, the human reading mode can be changed, and meanwhile, the eye fatigue and the myopia deterioration are reduced.

Description

Eye-protecting and shading device for intelligent glasses integrating real environments

Technical Field

The invention relates to an eye protection and shading device of integrated reality intelligent glasses, in particular to an eye protection unit arranged in front of the integrated reality intelligent glasses, which can avoid eye fatigue, prevent myopia deterioration and change reading habits and modes of human beings when in use.

Background

The ophthalmology medical community generally considers that too much near work and too little outdoor time are the main factors of myopia and eye fatigue. The indoor long-time short-distance work is carried out, no matter when watching TV, computer, book or mobile phone: 1. contraction of ciliary muscle for long periods; 2. long-term cohesion of both eyes; 3. insufficient sunlight contact time; 4. the peripheral retinal area, the image of which falls behind the retina, is responsible for the deterioration of myopia and eye fatigue.

An uncorrected myopic eye, the image of an object from a distance with its focus in the central retinal region (the macula) is in front of the retina and in the peripheral retinal region behind the retina, is known as relative peripheral hyperopia. Conventional spectacles only correct the central retinal area so that the image focus moves backwards and falls on the macula, but do not correct the relative hyperopia of the peripheral retina. When light falls behind the retina, the eyeball tends to grow in length and size, allowing light to be focused on the retina, and thus myopia gets deeper.

When people read books, read mobile phones and watch television, the eyes of people actively search the picture, when the distance is less than six meters, ciliary muscles need to contract and adjust, the closer the people are, the stronger the contraction is, the tired the eyes are, and the myopia is deepened.

Human reading books, computers, mobile phones and televisions are all single-picture reading, two eyes need to be close to each other for cohesion, cohesion is a result of contraction of the internal rectus muscle, and the contraction of the internal rectus muscle can cause the rise of intraocular pressure; the increase of intraocular pressure causes the posterior pole of the eyeball to expand backward, and the anterior-posterior diameter of the eyeball increases to cause myopia.

The time of outdoor activity during the day is too short, the sun exposure time is insufficient, and the degree of myopia progression is accelerated, which has been shown by experiments in australia. The longer the outdoor activity, the more difficult the myopia, and the more the myopia is not increased.

As shown in fig. 10, for thousands of years, people are fixed and low on the head to read books, computers and mobile phones, which causes stiffness and aching pain of the neck and pain of cervical spondylosis.

Since the invention of paper, people are statically sitting and reading for thousands of years, and the problems of cardiovascular diseases and weakening of muscles, bones and joints caused by long-time sitting and immobility are frequently seen.

In thousands of years, people mostly read indoors, the distance is short, the picture is small, the visual field is narrow, the eyes are easy to fatigue and ache, and myopia is caused, and in some countries, the rate of myopia of students is even eight percent.

No matter indoors or outdoors, reading books, reading mobile phones and reading computers are easily interfered by ambient light sources, no matter sunlight or refraction and reflection of artificial light sources, eyes are stimulated, and ache and fatigue are caused. The human must read with a backlight, and when the light comes from the front, the reading becomes difficult and painful.

When a vehicle vibrates, the pictures are unstable and unclear because the pictures are asynchronous with the eye vibration when the vehicle reads books, mobile phones and computers, so that the reading is difficult, the eyes are tired, and the eyes are dizzy.

In recent decades, there have been many eye training methods and vision enhancing therapeutic instruments in the prior art, and some have been electronic imaging techniques to train the ciliary muscle of the eye of the trainee through the change of the image; some trainees can exercise ciliary muscles by watching objects with varying distance in a mechanical movement mode. For example, U.S. patent No. 6042231 provides a method for exercising eye muscles using images on a computer screen. Us 6533417 proposes another method for training the eyes to relieve eye muscle fatigue by changing the position and size of the movement of an image moving in a specific manner on a computer screen. There are of course also various glasses which are specifically manufactured for the prevention of myopia, such as us patent 20120236256 and the like. In addition, there are also a method for relieving eye fatigue provided by CN102499863A, an electronic eye vision enhancer provided by CN200939208Y, and an eye muscle training and correcting device provided by CN 103110502A. However, the conventional training methods or therapeutic apparatuses generally have the following disadvantages: complicated structure, poor effect, overlong operation time, boring treatment process and non-humanized application. This is the reason why it is difficult for active and active teenagers and modern people with busy lives to implement the method.

In view of the above, the present inventors have found that the above-mentioned deficiencies can be improved, and therefore, they have conducted intensive studies and applied the same with the theory, and finally, have proposed a method of the present invention which is reasonably designed and effectively improves the above-mentioned deficiencies.

Disclosure of Invention

The invention mainly aims to provide an eye-protecting and light-shielding device of intelligent glasses with integrated reality, which mainly comprises: the two shielding parts of the eye protection unit are selected from one material of partial transparency and complete opacity; therefore, when the integrated reality intelligent glasses are used together with the eye protection unit to read digital information, the eyes at two sides and the yellow spots can block light and protect eyes, and meanwhile, the peripheral retina is continuously contacted with an external light source.

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

Preferably, a flat mirror is provided in a certain area around the shielding part.

Preferably, the integrated reality smart glasses further comprise a host and a frame unit connected by data transmission, and the two sides of the frame unit are respectively provided with the aforementioned translucent display.

Preferably, the host computer is further configured with a teaching database reading system, the contents of which are at least one subject selected from the group consisting of hierarchical languages, natures, english, mathematics, geography, history, citizens, physics, chemistry, health education, art and music. But are not limited to, the foregoing disciplines and may also include other disciplines.

Preferably, the eye protection unit is arranged as an independent lens and movably combined with the front of the lens of the integrated reality intelligent glasses; the eye protecting unit further includes one light transmitting part set around the lens of the eye protecting unit in large area, and the filtering shielding part is set in the position corresponding to the translucent display screen in small area.

Preferably, the eye protection unit is selected from one of a non-discoloring lens, an automatic discoloring optical lens, and an electrochromic liquid crystal lens.

The invention mainly aims to provide an eye-protecting and light-shielding device of intelligent glasses with integrated reality, which mainly comprises: the smart glasses comprise a host and a smart mobile phone which are connected through information transmission, and a glasses frame unit, wherein two lenses are arranged on two sides of the glasses frame unit, and each lens is provided with a semi-transparent display screen; the eye protection unit is provided with a lens in front of the integrated reality intelligent glasses; the eye protection unit comprises a light-transmitting part, two shielding parts and a light-filtering part, wherein the light-transmitting part is arranged on the periphery of a lens of the eye protection unit in a large area so as to enable peripheral retina to be continuously contacted with sunlight, the two shielding parts are separated and provided with light filtering, the two shielding parts are arranged at the corresponding positions of the semitransparent display screen in a local small area, and the shielding parts of the eye protection unit are made of one material selected from a partially transparent material and a completely opaque material; a teaching database reading system, constructed on the host or the cloud end connected with the information transmission, the contents of which are at least selected from one subject of hierarchical Chinese, nature, English, mathematics, geography, history, citizen, physics, chemistry, health education, art and music. But are not limited to, the foregoing disciplines and may also include other disciplines.

Therefore, under any light source, when the integrated reality intelligent glasses are used together with the eye protection unit to read digital information, the characteristics that two eyes, eyeballs and a central retina area (yellow spot) are mainly used for light blocking protection, and peripheral retina areas are continuously contacted with an external light source can be achieved, and a user can clearly see the surrounding environment. When the cervical vertebra rehabilitation device is used for reading, the head and the neck can rotate freely, and cervical vertebra degeneration and stiff and aching shoulder and neck can be prevented; and can read while walking, prevent cardiovascular disease and limb degeneration; eye fatigue can be avoided, and deterioration of myopia can be reduced; the reading habit and mode of human can be changed.

That is, when wearing the integrated reality smart glasses (AR glasses, also called "augmented reality smart glasses") with the eye-shielding shutters of the present invention for outdoor reading, if only the eye-shielding unit with the flat glasses is used, three major causes of myopia can be overcome basically: 1. contraction of ciliary muscle for long periods; 2. long-term cohesion of both eyes; 3. the sunlight contact time is insufficient. And if the eye protection unit with the convex lens is adopted, the fourth main cause of myopia deterioration can be overcome at the same time: the image of the peripheral retinal region falls behind the retina.

The invention has the advantages in application: under the sunshine or the environment of strong artificial light source, when the integrated reality wisdom glasses that use this eyeshield photochopper to match and have two display screens read digital information:

1. the intelligent glasses frame is actively projected into retina, the human eyes passively watch the screen, the human eyes do not need to actively search the frame, the frame can be displayed in a distance of ten meters or twenty meters, the large frame is far away, and ciliary muscles are in a relaxed state. The relaxed ciliary muscle is a big thing for human beings during reading, and is a revolutionary evolution of human beings, which means that the human beings probably do not have myopia and are not suffering from eyestrain.

2. Each eyeball is provided with a display screen in front of the eyeball, the eyeball is not cohesive, and the internal rectus muscle is not contracted. The intraocular pressure is no longer elevated by contraction of the internal rectus muscle and the likelihood of progression of myopia is greatly reduced. This is also a revolutionary evolution and advancement for mankind.

3. When reading, the head and neck can freely rotate up, down, left and right, which indicates that the neck of the human body is no longer rigid and aching, and the cervical vertebra is no longer diseased. The human does not need to fix the lower head to read the book.

4. Dynamic ambulatory reading is possible: the intelligent glasses and the eyes vibrate synchronously, the picture is stable and clear, and the intelligent glasses are not influenced by walking. In the long term, from teenagers to the elderly, the muscles, bones and joints of the human beings can be kept strong for decades, the aging is delayed, the cardiovascular diseases are relatively reduced, and the health of the human beings is greatly benefited.

5. Can be used outdoors: because the eyeballs and the macula lutea are protected by light blocking, reading is not interfered by refraction and reflection of sunlight and other light sources. As long as weather permits, outdoor reading becomes easy and pleasant, the visual field can reach 180 degrees, and the defects that the indoor visual field is narrow and the eyes are easy to fatigue are overcome. The human can raise head to read books and films in the sky without limitation.

6. There may be a large screen: no matter how far the visual angle is, the effect of a long-distance and large screen can be generated, and the screen is larger as the distance is farther, so that the reading becomes pleasant and relaxed; for example, the screen 160 is ten meters away (1 inch 2.54 cm), and the screen 320 is twenty meters away, from a viewing angle of 23 degrees. The large screen replaces small pictures of books, computers and mobile phones; long-distance reading replaces short-distance reading; the double-screen replaces the single-screen, because of the parallax between two eyes, the image shows the stereoscopic impression, and the eyes are more comfortable.

7. Is not influenced by vibration: the vehicle vibration-proof device is not influenced by vehicle vibration in running vehicles such as automobiles, trains, airplanes and express transports. The intelligent glasses and the eyes vibrate synchronously, the picture is kept clear and stable, the eyes are not tired, and the head is not dizzy.

8. The multifunctional chair can be used outdoors, has wide visual field, is in contact with the nature, is pleasant in body and mind, and is held by the human body. The visual field can reach 180 degrees when the user reads the product outdoors; the defect that the visual field is reduced when the user is indoors to read, and the visual field is smaller when the user is closer to eyes, so that the eyes are tired and sore is overcome. The human can raise head to read books and films in the sky without limitation.

9. The physiological clock can be promoted to normally run: when the utility model is used outdoors in the daytime, the retina can be irradiated by sunlight to promote the normal operation of the physiological clock, and the insomnia and the melancholy tendency can be reduced.

10. A full frequency light source can be contacted: the sunlight is a full-frequency light source, is properly contacted with the sunlight, is averagely two to three hours per day, and has a plurality of benefits to the body and eyes; the problem that the indoor bulb only contains partial light wave frequency and easily causes eye fatigue is solved.

11. A large amount of energy can be saved: in the house, classroom, office as long as enough sunshine comes in, everybody just can wear the wisdom glasses of integrated reality and face reading, official working outside the window, can not need the light of switching on in daytime can official working, on class, read.

12. Human education and learning can be varied: the integrated reality intelligent glasses with the double display screens can present 2D and 3D effects, and 2D and 3D pictures and films are used for replacing character description in a large quantity. The era of electronic books will come, and the big screen replaces the small book, so that the reading is easier and more interesting. 3D pictures and films can be widely used and become mainstream teaching materials, so that the learning becomes interesting and the understanding becomes easy.

13. And the privacy is better: the reading content is directly projected to the retina through the display screen, and only when a user sees the content, other people cannot peep the content from the side, so that the data is not leaked, and the reading is safer. No matter a computer, a mobile phone or a book, other people can peep from the side, and the confidentiality and the safety are lacked.

For a better understanding of the features and technical content of the present invention, reference should be made to the following detailed description of the invention and the accompanying drawings, which are included to illustrate and not limit the scope of the invention.

Drawings

Fig. 1 is an exploded perspective view of the present invention.

FIG. 2 is a perspective view of the host computer.

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

Fig. 4 is a perspective view of the present invention with convex lenses.

FIG. 5 is a schematic representation of a human eye condition according to the present invention.

Fig. 6 is a schematic diagram of the application of the present invention.

FIG. 7 is a schematic view of the focusing of an eyeball using a convex lens according to the present invention.

FIG. 8 is an illustration of the present invention as applied to outdoor teaching.

FIG. 9 is an illustration of the application of the normal posture of the present invention.

Fig. 10 is an application illustration of a mobile phone with low habit of looking at the mobile phone.

Detailed Description

The embodiments of the present invention are disclosed in detail below with reference to specific embodiments, and those skilled in the art can easily understand the advantages and effects of the present invention from the disclosure of the present specification.

Referring to fig. 1 to 5, the present invention provides an integrated intelligent glasses eye-protecting and light-shielding device, which mainly comprises: an eye protection unit 2 is installed in front of a unified reality smart glasses 1, and two shielding parts 21 with filtering light are installed on two sides of the eye protection unit corresponding to the two transparent display screens 10 on two sides of the unified reality smart glasses 1. In practice, the shielding part 21 of the eye protection unit 2 can be made of different materials according to the different indoor and outdoor light intensity at day and night, so that the semitransparent display screens 10 at the two sides of the intelligent glasses 1 in the integrated reality become partially transparent or completely opaque outwards; meanwhile, a convex lens 3 is arranged in a certain area around the shielding part 21, so that light rays around the semitransparent display screen 10 can be focused in front of the retina while the light rays of the semitransparent display screen 10 are focused on the yellow spot, the size of the area of the convex lens 3 is not limited, the surrounding environment is not influenced to be clearly seen by a user, the convex lens 3 can have any degree, the relative peripheral hyperopia can be converted into the peripheral nearness, and the convex lens 3 can be used for normal people without being arranged and adopting a plano-lens.

If the eye protection unit 2 only uses a flat mirror, three eye protection functions can be achieved basically: 1. the ciliary muscle is in a relaxed state, 2, two eyeballs are kept in place and are not cohesive, 3, the peripheral retina is continuously contacted with the sunlight, and if the eye protection unit 2 of the convex lens 3 is adopted, the fourth eye protection function 4 can be achieved simultaneously, and the focal distance of the peripheral retina image is changed from the back of the retina to the front of the retina.

Therefore, when the integrated reality intelligent glasses 1 are used together with the eye protection unit 2 to read digital information, the characteristics that the eyes and the central retina area (macula lutea) focus on light blocking protection, the peripheral retina area continuously contacts with an external light source can be achieved, and a user can clearly see the surrounding environment. Thus, the light of the semi-transparent display screen 10 can be focused on the macula part, meanwhile, the peripheral light can be focused on the front of the retina, but the peripheral light is not converted under the condition of keeping the flat light state, the muscles of the eyeball are naturally relaxed and adjusted, and the eye fatigue and the myopia deterioration are effectively prevented.

More detailed, the integrated reality smart glasses 1 may further include: a host 11 or a current intelligent mobile phone connected by wire or wireless information transmission, original prescription glasses 14 of a user, and a frame unit 12, wherein the frame unit 12 is provided with lenses 13 at two sides, and each lens 13 is provided with a translucent display screen 10; integrate reality wisdom glasses 1, can reach four eyeshield conditions during the use: 1. the two eyeballs are kept in situ and are not cohesive; 2. the ciliary muscle is in a relaxed state; 3. the visual field can not be reduced by 180 degrees; 4. the focal length of the peripheral retinal image changes from behind the retina to in front of the retina.

The eye protection unit 2 can be a lens arranged in front of the lens 13 of the integrated reality intelligent glasses 1; the eye protection unit 2 further includes: a light-transmitting part 22, which is disposed on the periphery of the lens of the eye protection unit 2 in a large area, so that the peripheral retina is continuously contacted with the sunlight. The two separated filtering and shielding parts 21 are partially and small-area corresponding to the two semi-transparent screens 10 of the lenses 13 of the integrated reality intelligent glasses 1, so that they become partially transparent or completely opaque.

Meanwhile, a convex lens 3 can be arranged in a certain area around the shielding part 21, so that the light rays around the semitransparent display screen 10 can be focused in front of the retina while the light rays of the semitransparent display screen 10 are focused on the macula lutea part, and the size of the area of the convex lens 3 is not limited, so that the user can not be influenced to clearly see the surrounding environment; for persons with normal vision, the convex lens 3 may not be provided, but a flat mirror is used, that is, the symbol 3 in fig. 1 may also be a flat mirror. People who are prone to myopia and who are already myopic may use an eye-protecting unit 2 with a convex lens 3 to reduce the tendency of myopia to worsen. The eye protection unit 2 with the convex lens 3 can be used by a person with presbyopia to relieve eye fatigue and see a clear and close object. The convex lens 3 may be of any power to convert relative peripheral hyperopia to peripheral myopia as best seen. Others may choose a plano-optic or convex lens 3.

The preferred implementation is as follows: the eye protection unit 2 may be integrally formed on the integrated reality smart glasses 1 (not shown), or may be formed as an independent piece and movably combined with the integrated reality smart glasses 1 (as shown), wherein the eye protection unit 2 may also be made of a non-discoloring lens, an automatically discoloring optical lens, or an electrically discoloring liquid crystal lens (but not limited thereto).

The specific method for adding the eye protection unit 2 on the integrated reality intelligent glasses 1 comprises the following steps:

①, the translucent display screen 10 can be directly changed into a completely opaque display screen during the manufacturing process, thereby forming a shielding part to form the eye protection unit 2. meanwhile, a convex lens 3 is arranged in a certain area around the shielding part 21, so that the light around the translucent display screen 10 can be focused in front of the retina while the light of the translucent display screen 10 is focused in the macula lutea, the size of the convex lens 3 area is not limited, so as not to influence the user to see the surrounding environment clearly, and the person with normal vision can use a flat mirror without the convex lens 3.

②, a light shading sheet is added in front of the translucent display screen 10 of the existing AR glasses as the eye protection unit 2. meanwhile, a convex lens 3 is arranged in a certain area around the shielding part 21, the light of the translucent display screen 10 can be focused on the macula part, and the light around the translucent display screen 10 can be focused on the front of the retina, the size of the area of the convex lens 3 is not limited, which does not affect the user to see the surrounding environment clearly, or a plano lens is adopted without the convex lens 3. people without myopia tendency and without myopia or presbyopia can select the light shading sheet with or without the convex lens 3 (as shown in figure 2).

③ referring to fig. 4, the convex lens 3 can be used for people with myopia or presbyopia, the convex lens 3 can be integrated with the eye protection unit 2, or be added in front of the eye protection unit 2 (the shape and size are not shown as limitation), thus the eyesight of the myopia is not easy to increase, and the presbyopia can see the image of the real object at a short distance without wearing presbyopia glasses.

Referring to fig. 6, when the present invention is applied to reading, the ciliary muscle is not required to contract and the eye is in a relaxed state. Because the integrated reality smart glasses 1 are a semi-transparent display 10 about two centimeters in front of the eyes, the images generated by the liquid crystal panel are projected by the projector and then reflected into the retina, so as to generate a virtual screen at a remote place. The virtual screen, for example, at a viewing angle of 23 degrees, can form a large screen at 160, 320, or 480 meters, which is far beyond ten meters, twenty meters, or even thirty meters. This makes the ciliary muscle unnecessary to contract when reading, reduces eye fatigue, and alleviates the deterioration of myopia.

As shown in fig. 6 and 7, when the present invention is used to read digital information by using the integrated reality smart glasses 1 in combination with the eye protection unit 2 and the convex lens 3, the present invention can achieve the features of two eyes, eyeball and central retina area (macula portion) for important light blocking protection, and the peripheral retina area continuously contacting with the external light source, and the user can clearly see the surrounding environment. This allows light from the periphery of the translucent display 10 to be focused in front of the retina while light from the translucent display 10 is focused in the macula. With the convex lens 3, the original peripheral light is focused on the dotted line portion behind the retina (see fig. 7) and corrected to fall in front of the retina as shown by the solid line portion in fig. 7.

When the invention is used for reading, because the semitransparent display screens 10 are respectively arranged in front of the left eye and the right eye, the eyeballs do not need to be drawn inwards, the eyes can not cause the increase of intraocular pressure due to the contraction of the internal rectus muscle, and the deterioration of myopia can be alleviated.

When the invention is used for reading, the visual field does not need to be reduced, and the wider the visual field, the more comfortable the eyes. The invention can be used outdoors, and can be used for reading in the sky or in an open place, and the visual field can reach 180 degrees. This is the widest field of view of the human eyes in their natural state, in which case the human eyes will feel comfortable.

The invention can be used for reading, can be taken out of the room, can be in contact with a large amount of sunlight, can reach 180 degrees when being used outdoors, protects the eyeballs and the central visual field, and is hardly influenced by the refraction of ambient light when being used for reading; unlike reading books and computers outdoors, the mobile phone is easily interfered by the scattering or refraction of ambient light and sunlight when the user reads the mobile phone, which causes the eyes to prick and feel tired. When the invention is used for reading outdoors, the retina is continuously contacted with the sunlight, and the invention has the function of inhibiting the increase of myopia.

The invention has simple integral design, is easy to be matched with the integrated reality intelligent glasses 1 for application, is the same as a common mobile phone and a tablet personal computer, is convenient to carry in daily life, and can be used indoors and outdoors at any time.

Because the integrated reality intelligent glasses 1 are worn on the head and vibrate with eyes synchronously, when a vehicle such as a plane, a train, a rapid transit, an automobile and the like runs, the picture is not influenced by vibration, the definition and the stability are maintained, and the eyes are not tired, which is particularly important for modern people who often take the vehicle.

Referring to fig. 9, the head and neck can rotate freely up and down and left and right by using the invention, so that people do not need to lower the head to read, and the neck body does not feel sore, stiff or diseased. Moreover, the reading picture moves synchronously with the eyes and is not influenced by the body movement, so that the user can read the picture while walking, and the body is healthier. Therefore, the habit of fixing reading at low head and reading in a static way while sitting can be completely changed for thousands of years. Improving the problems of ache and fatigue caused by the rigidity of the posture and easy causing the pathological changes of the cervical vertebra and the cardiovascular system. These changes are revolutionary changes for human beings, which means that the life and reading mode of human beings are greatly advanced, and the human beings can read while freely moving, so that the human beings are instantly released from the beneficial reading situation, are freely moved to read, and are integrated with the nature, thus having great positive influence on the mind and body of the human beings.

In addition, no matter at home or outdoors, in schools or office places, people can use the window-mounted LED lamp towards bright sky as long as wearing the LED lamp, and then do not need to turn on the lamp to look at a hard blackboard or a computer on an office table. The indoor lamp does not need to be turned on, so that a large amount of energy can be saved, and the problem that the indoor illumination only contains partial light wave frequency and is easy to cause eye fatigue can be effectively solved. The sunlight is enjoyed outdoors without being refracted and reflected by other light sources. The retina receives sunlight to promote the physiological clock to run normally. A full frequency light source, approaching that of natural sunlight exposure, has many benefits to both the body and the eyes.

Referring to fig. 2, 4 and 8, more specifically, the present invention can even further construct a teaching database reading system 40 on the host 11 or cloud of the integrated reality smart glasses 1, the contents of which can include various education subjects with different levels, such as, but not limited to, languages, nature, english, mathematics, geography, history, citizens, physics, chemistry, health education, art and music, and other subjects. The teacher and the students can carry out outdoor teaching in the corridor and under the tree, and the shadow places are good points for class, are closer to nature and are less prone to myopia. The outdoor ventilation is good, the air is fresh, the visual field is wide, the light is sufficient and limitless, and the life and reading under the original best natural environment of human beings can be returned.

More importantly, when schools generally adopt the teaching method to give lessons, most teaching materials are presented in an electronic book mode, vivid and interesting 2D and 3D pictures or film multimedia greatly replace vivid and hard character narration, the learning fun and effect can be greatly increased, the traditional human education and learning modes are thoroughly changed, besides the fact that the teaching materials are comprehensively renovated and have potential huge commercial opportunities, the felling of trees is greatly reduced, and the teaching method has great positive influence on the global ecology and the air quality.

In summary, the present invention is novel and practical, has obvious and revolutionary progress compared with the conventional art, and has industrial applicability, which completely meets the conditions of patent right, so that the invention patent application is provided.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, therefore, all equivalent technical changes and modifications made by the present invention as described in the specification and drawings are included in the present invention.

Claims

1. An eye-shielding shutter disposed on integrated reality smart glasses, comprising:

an eye-protecting unit;

the shielding part is arranged in an area on the eye protection unit, the shielding part is made of a material with a part of transparent or non-transparent material, and a convex lens is arranged in a certain area around the shielding part.

2. A unified reality smart glasses, comprising:

a frame unit comprising a lens, the lens comprising a translucent display; and

the eye-shielding shutter of claim 1, wherein the eye-shielding unit is integrally formed or removably coupled to the integrated reality smart glasses, and the shielding portion of the eye-shielding unit corresponds to the translucent display.

3. The integrated reality smart glasses of claim 2, further comprising a host, a smart phone or a cloud connected to the information transmission, and a teaching database reading system, wherein the teaching database reading system is configured on the host, the smart phone or the cloud, and the contents of the teaching database reading system are at least selected from one of the subjects of language, nature, English, mathematics, geography, history, citizen, physics, chemistry, health education, art and music with advanced levels.

4. An eye-shielding shutter disposed on integrated reality smart glasses, comprising:

the eye protection unit is an automatic color changing lens;

a shielding part is arranged in an area on the eye protection unit, and the shielding part is made of a material with a part of transparent or non-transparent.

5. A unified reality smart glasses, comprising:

a frame unit comprising a lens, the lens comprising a translucent display; and

the eye-shielding shutter of claim 4, wherein the eye-shielding unit is integrally formed or removably coupled to the integrated reality smart glasses, and the shielding portion of the eye-shielding unit corresponds to the translucent display.

6. The integrated reality smart glasses of claim 5, further comprising a host, a smart phone or a cloud connected to the information transmission, and a teaching database reading system, wherein the teaching database reading system is configured on the host, the smart phone or the cloud, and the contents of the teaching database reading system are at least selected from one of the subjects of language, nature, English, mathematics, geography, history, citizen, physics, chemistry, health education, art and music with hierarchical levels.

7. An eye-shielding shutter disposed on integrated reality smart glasses, comprising:

the eye protection unit is a liquid crystal lens which is electrified and discolored;

8. A unified reality smart glasses, comprising:

a frame unit comprising a lens, the lens comprising a translucent display; and

the eye-shielding shutter of claim 7, wherein the eye-shielding unit is integrally formed or removably coupled to the integrated reality smart glasses, and the shielding portion of the eye-shielding unit corresponds to the translucent display.

9. The integrated reality smart glasses of claim 8, further comprising a host, a smart phone or a cloud connected to the information transmission, and a teaching database reading system, wherein the teaching database reading system is configured on the host, the smart phone or the cloud, and the contents of the teaching database reading system are at least selected from one of the subjects of language, nature, English, mathematics, geography, history, citizen, physics, chemistry, health education, art and music with advanced levels.

10. An eye-shielding shutter disposed on integrated reality smart glasses, comprising:

the eye protection unit is a flat lens and comprises a light transmission part arranged at the periphery of the eye protection unit;

a shielding part is arranged in an area on the eye protection unit, and the shielding part is made of opaque material.

11. A unified reality smart glasses, comprising:

a frame unit comprising a lens, the lens comprising a translucent display; and

the eye-shielding shutter of claim 10, wherein the eye-shielding unit is integrally formed with or removably coupled to the integrated reality smart glasses, and the shielding portion of the eye-shielding unit corresponds to the translucent display of the lens of the frame unit.

12. The integrated reality smart glasses of claim 11 further comprising a host, a smart phone or cloud, and a teaching database reading system, wherein the teaching database reading system is configured on the host, the smart phone or cloud, and the teaching database reading system is at least one of the subjects of language, nature, english, mathematics, geography, history, citizen, physics, chemistry, health education, art and music.

13. A unified reality smart glasses, comprising:

the spectacle frame unit comprises a lens, the lens comprises an opaque display screen, and the opaque display screen is a shielding part.

14. The integrated reality smart glasses of claim 13, wherein a convex lens is disposed at a certain area around the opaque display.

15. The integrated reality smart eyewear of claim 13, wherein the opaque display is an eye-protection unit comprising a light-transmissive portion.

16. The integrated reality smart glasses of claim 13, further comprising a host, a smart phone or a cloud connected to the information transmission, and a teaching database reading system, wherein the teaching database reading system is configured on the host, the smart phone or the cloud, and the contents of the teaching database reading system are at least selected from one of the subjects of language, nature, english, mathematics, geography, history, citizen, physics, chemistry, health education, art and music with advanced levels.

17. A unified reality smart glasses, comprising:

a translucent display screen;

the eye protection unit comprises a shielding part which is made of an opaque material.

18. The integrated reality smart glasses of claim 17, wherein a convex lens is disposed in a certain area around the eye protection unit.

19. The integrated reality smart glasses of claim 17, further comprising a host, a smart phone or a cloud connected to the information transmission, and a teaching database reading system, wherein the teaching database reading system is configured on the host, the smart phone or the cloud, and the contents of the teaching database reading system are at least selected from one of the subjects of language, nature, english, mathematics, geography, history, citizen, physics, chemistry, health education, art and music with advanced levels.

20. An eye-shielding shutter disposed on integrated reality smart glasses, comprising:

the eye protection unit is a lens and comprises a light transmission part arranged at the periphery of the eye protection unit;

21. A unified reality smart glasses, comprising:

a frame unit including another lens, the lens of the frame unit including a translucent display screen; and

the eye-shielding shutter of claim 20, wherein the eye-shielding unit is integrally formed or removably coupled to the integrated reality smart glasses, and the shielding portion of the eye-shielding unit corresponds to the translucent display of the lenses of the frame unit.

22. The integrated reality smart glasses of claim 21, further comprising a host, a smart phone or a cloud connected to the information transmission, and a teaching database reading system, wherein the teaching database reading system is configured on the host, the smart phone or the cloud, and the contents of the teaching database reading system are at least selected from one of the subjects of hierarchical languages, nature, english, mathematics, geography, history, citizen, physics, chemistry, health education, art and music.