CN205814623U - What a kind of prevention and control were near-sighted closely uses intelligent glasses - Google Patents

Abstract

The nearly intelligent glasses of a kind of prevention and control of this utility model myopia, relate to myopia prevention and control Special glasses and make applied technical field, by picture frame (1), eyeglass (2), temple (3), photographic head (4), optical presentation system (5), optical communication system (6), intelligent mobile terminal system (7), functional circuit plate (8), Function Extension controller (9) etc. is formed, this utility model, it is to use double set optics executor, internal layer optics executor uses special optical glass, with the method for optics improve people near soon time visual environment；Outer layer optics executor is that intelligent training treats system, use optical display to play internal memory vision-training system image, word guides ocular movement, spectrum stimulus to combine with musical therapy function, stimulated by training, brain wave, reach the high unity of brain, sound, light, eye, improve visual performance, play prevention, delay or even control the purpose of adolescent myopia, it may also be used for remotely give guidance in study, exchange etc..

Description

A kind of near-use smart glasses for preventing and controlling myopia

technical field

The utility model relates to the technical field of production and application of special glasses for myopia prevention and control, in particular to smart glasses for myopia prevention and control.

Background technique

With the progress of society and the development of science, the load of short-distance eye use continues to increase, and the incidence of myopia and the deepening of myopia in adolescents and children are becoming more and more serious. Primary school students account for 1/2 year-on-year; middle school students account for 1/2 year-on-year; High school students account for 2/3 of visual problems year-on-year, and there are 10 million new myopia people in the country every year. Visual problems pose a serious threat to the study, life and physical and mental health of young people and children; working with eyes at close range for a long time, such as reading , Writing, carving, drawing, playing the piano, maintaining precision instruments, video games, computer operations, etc. can cause excessive adjustment and concentration, prompting the inner and outer muscles of the eye to compress the eyeball and prolong the eye axis, which is an important source of the occurrence and development of myopia; There is no really ideal treatment for the true myopia of teenagers and children. If the myopia of students develops naturally, the secondary symptoms and complications of myopia may follow, especially for those with high myopia who use their eyes to see near for a long time. Causes intraocular pressure to increase, prompting myopia complications such as: concurrent cataract, secondary glaucoma, vitreous opacity, retinal degeneration, macular degeneration, retinal detachment and so on. The incidence of high myopia in my country has reached 10 times the international average, which indicates that tens of thousands of people will become blind due to high myopia in a few years, which will become a serious social problem and even threaten national defense construction and national security. Myopia control is particularly important. The convenient and intelligent products invented and developed by using the interdisciplinary technology of light, machine and electricity combined with the advanced scientific diagnosis and treatment plan of myopia prevention and control can be connected to the cloud computing platform and big data wisdom through the Internet through smart glasses to achieve precise prevention and treatment of myopia.

Contents of the invention

According to the current situation of prevention and control of myopia, the purpose of this utility model is to provide smart glasses for prevention and control of myopia including an intelligent training and treatment system.

The technical scheme of the utility model is: a myopia prevention and control smart glasses for myopia: composed of a frame, lenses, temples, cameras, optical display systems, optical communication systems, intelligent mobile terminal systems, functional circuit boards, and function expansion controllers , lithium battery, loudspeaker, earphone jack, charging data jack, power switch, earphone and charger. The optical display system is composed of a projection display and its supporting display control circuit. The projection display is installed on the front end of the frame and installed The display control circuit on the functional circuit board on the right side of the mirror leg is connected, and the camera is installed on the front right side of the mirror frame and connected with the functional circuit board. It is characterized in that: the optical communication system, the intelligent mobile terminal system integrated chip unit circuit, The headphone socket and the power switch are installed on the functional circuit board and electrically connected. The functional circuit board and the speaker are placed in the right temple of the frame; the lithium battery and the charging data socket are installed in the left temple of the frame. The flexible circuit leads are connected with the functional circuit board to make a complete pair of near-sighted smart glasses for preventing and controlling myopia.

The optical communication system, intelligent mobile terminal system, earphone jack and power switch are installed on the functional circuit board and placed in the right mirror leg of the mirror frame.

The mirror frame is made of sheet material, ABS plastic, or TR90 and TR100 material by injection molding.

The lens is made of resin and PC material. On the basis of the distance diopter, a convex lens combined with a base inward triangular prism is added. According to the specific diopter requirements, the anti-blue light resin is made of personalized customization, workshop processing, dyeing and hard coating. lens.

The camera mentioned above is a miniature camera with a pixel resolution not lower than 5 million pixels.

The optical display system is composed of EPSON Movierio BT-200AV projection display or Samsung AMOLEG1080*1920 projection display and its supporting display control circuit. The display control circuit of the optical display system includes a memory integrated chip in the CPU and is installed in the On the functional circuit board, images of the eye training system, text-guided eyeball movement, spectral stimulation and music therapy video text explanation and music playback content are stored for intelligent eye training and treatment.

The optical communication system adopts ZG-003 LED optical communication transceiver chip and supporting circuit components or K-01A LED optical communication transceiver supporting chip and circuit components, including: optical transceiver probe, optical signal transceiver processor integrated circuit chip As well as the peripheral components of the circuit, the optical transceiver probe is installed on the middle upper part of the spectacle frame, and the integrated circuit chip of the optical communication system is installed on the functional circuit board.

The smart mobile terminal system uses micro WiFi receiving and transmitting devices, including MTK7601 type chip or CF-WU810N type chip, the built-in printed antenna of the chip is etched on the back of the functional circuit board, and the circuit components are installed on the functional circuit board. Wireless mode ITIR , support 2.4G frequency band, working channel 1-14, 2.4-2.4835GHz, follow the wireless protocol standard 802.11n-g-b, the wireless transmission rate is up to 150Mbqs, and realize remote interconnection with the Internet through the indoor wireless router.

A function expansion circuit board is installed in the described function expansion controller, and the circuit board is equipped with a RAM memory of 1G or 4G storage space, a ROM memory of 8G or 16G storage space and a microSD card slot for storing medical program function expansion pictures, Video or text files, support HDMI input and output, and can be connected to computers, TVs, and network players. The panel is equipped with a function operation selection switch button. It is connected to the charging data socket of the smart glasses through the power data cable to realize myopia medical treatment The function selection switches the service item and the medical plan function to expand the operation.

The functional circuit board is made of cloth-based epoxy resin copper foil board, on which optical display system, optical communication system, integrated chip electronic components of intelligent mobile terminal system, earphone socket and power switch are installed on the board.

Beneficial effects produced by the utility model: the utility model provides a kind of myopia smart glasses for preventing and controlling myopia. Improve the visual environment when the human eye sees near; the outer optical actuator is an intelligent training and treatment system, which uses an optical display to play images of the memory visual training system, text to guide eyeball movement, spectrum stimulation and music therapy functions. Through training, brain wave stimulation , to achieve a high degree of unity of the brain, sound, light, and eyes, improve and enhance visual function, prevent, delay or even control juvenile myopia, and treat accommodative myopia. Use intelligent sitting posture reminders to better protect eye hygiene and improve vision. Nervous system-related eye diseases such as amblyopia and optic atrophy can also improve vision; after being connected to the Internet, it can also be used for remote eye monitoring, remote tutoring and communication between teachers and students.

Embodiments of the utility model can be described in detail with reference to the accompanying drawings

Description of drawings

Fig. 1 is a schematic diagram of the appearance structure of the utility model product.

Fig. 2 is a schematic block diagram of the working principle of the utility model.

In the figure 1. Mirror frame, 2. Lens, 3. Temple, 4. Camera, 5. Optical display system, 6. Optical communication system, 7. Intelligent mobile terminal system, 8. Functional circuit board, 9. Function expansion controller , 10, lithium battery, 11, speaker, 12, earphone socket, 13, charging data socket, 14, power switch, 15, earphone, 16, charger.

detailed description

Known from Fig. 1, the utility model is a kind of myopia prevention and control myopia intelligent glasses, by frame 1, lens 2, mirror leg 3, camera 4, optical display system 5, optical communication system 6, intelligent mobile terminal system 7, Functional circuit board 8, function expansion controller 9, lithium battery 10, speaker 11, earphone jack 12, charging data jack 13, power switch 14, earphone 15 and charger 16, referring to Figure 2, its specific production and assembly method The process flow is as follows:

1. Injection molding processing to make the frame 1: Install the processed frame mold on the injection molding machine and fix it firmly. Use TR90 or ABS plastic granules to dry at 100 degrees for 12 hours, then add it to the injection molding machine, and inject according to the conventional operation process. Process the mirror frame 1 of the product of the present invention.

2. Making resin lenses 2: a. According to the manufacturing process of resin lenses, perform mold pouring, curing forming, demoulding procedures and stabilization treatment to obtain optical resin lens blanks, and then perform rough milling, fine milling, polishing, etc. according to specific diopter requirements The room is processed into a substrate;

b. Use yellow lens special dye to dye the substrate according to the dyeing degree requirements;

c. According to the technical requirements, hard coating and vacuum evaporation anti-reflection film are applied to the dyed optical resin lens substrate to obtain the anti-blue light resin lens 2 .

3. Install the optical projection display 5 and its supporting display control circuit, and the transceiver probe of the miniature short-distance optical communication system 6 of the camera 4 in sequence on the frame.

4. Install the integrated chips and electronic components of the optical display system 5 , the optical communication system 6 , the intelligent mobile terminal system 7 , the earphone socket 12 and the power switch 14 on the functional circuit board 8 .

5. Install a lithium battery 10 and a charging data socket 13 in the left temple.

6. Use flexible circuit leads to electrically connect the unit circuits installed on various parts of the frame 1 with the functional circuit board 8, and assemble into a pair of complete myopia prevention and control smart glasses for myopia.

7. After power-on test and performance inspection, all the indicators of the glasses are qualified and correct, and then packed into the warehouse.

Using method and working principle of the present utility model are described as follows:

1. Wear smart glasses for myopia prevention and control for reading and writing, and use the inner optical actuator to customize the anti-blue resin lens made of dyeing and hard coating according to the specific diopter requirements. Adjust the intensity of light quantum light, relax eye adjustment and concentration, achieve clear vision and protect eyesight;

2. Use the function expander 9 to select and switch service items: the wearer can read and write for 50 minutes, and the optical display system will automatically prompt for a 10-minute break to avoid eye fatigue caused by long-term close-range use; when the optical display system prompts for a 10-minute break, the operating function The extender 9 is used to play the alternate long-distance and short-distance images in the integrated chip of the functional circuit board 8 through the projection display, including flipping fog vision, binocular image, guiding eyeball rotation images, 3D stereoscopic training icons, Video, eye chart, etc.; through the above training methods, to relax eye adjustment and concentration, reduce visual fatigue, improve visual function, prevent, delay or even control myopia, and treat accommodative myopia; the eye chart is used to detect and grasp vision conditions, In the process of learning with the eyes, operate the function extender 9 to set the sitting posture reminder function to adjust the sitting posture in real time and play a role in correcting wrong learning postures, ensuring eye hygiene during learning;

3. Music therapy: use the function expander 9 to play the famous Austrian composer Mozart’s Sonata in D major, which is stored in the memory of the CPU of the display control circuit, by using the horn or earphones. The wearer can relax the nerves by listening to the music, triggering Mental power, improved visual function;

4. Remote interconnection: the operating function expander 9 is connected to the mobile Internet network by using the optical communication system 6 or the intelligent mobile terminal system 7, and transmits the near-sighted situation of the person concerned to another monitoring person, so as to strengthen the sitting posture, etc. more effectively. Use as an eye hygiene reminder or for remote tutoring learning, communication, and more.

When the lithium battery 10 installed in the mirror leg 3 is exhausted, use the charger 16 to charge the lithium battery 10 through the charging data socket 13 .

In addition to the above, the utility model can also have other implementation modes, which will not be repeated here. All technical solutions formed by equivalent replacement or equivalent transformation, that is, any similar smart glasses that use glasses to prevent and control myopia, and technical solutions for connecting diagnosis and treatment or distance learning and communication, all belong to the scope of protection required by the utility model.

Claims (8)

1. A myopic smart glasses for preventing and controlling myopia, which consists of a frame (1), lenses (2), temples (3), camera (4), optical display system (5), optical communication system (6), intelligent Mobile terminal system (7), functional circuit board (8), function expansion controller (9), lithium battery (10), speaker (11), earphone jack (12), charging data jack (13), power switch (14 ), earphones (15) and chargers (16), the optical display system (5) is made up of a projection display and its supporting display control circuit, the projection display is installed on the front end of the mirror frame (1) and installed on the mirror The display control circuit above the functional circuit board (8) on the right side of the leg (3) is connected, and the camera (4) is installed on the front right side of the picture frame to be connected with the functional circuit board (8). It is characterized in that: the optical communication system (6), intelligent mobile terminal system (7) integrated chip unit circuit, earphone jack (12) and power switch (14) are installed on the functional circuit board (8) and electrically connected, functional circuit board (8) and loudspeaker (11 ) are placed together in the right temple of the mirror frame; the lithium battery (10) and the charging data socket (13) are installed in the left mirror leg (3) of the mirror frame, using flexible circuit leads and functional circuit boards (8) connected. 2. A kind of smart glasses for preventing and controlling myopia according to claim 1, characterized in that: the optical communication system (6), the intelligent mobile terminal system (7), the earphone jack (12) and the power switch (14) be installed on the functional circuit board (8), be placed in the right mirror leg (3) of the mirror frame. 3. A kind of smart glasses for preventing and controlling myopia according to claim 1, characterized in that: said lens (2) is a triangular prism lens. 4. a kind of myopic smart glasses for preventing and controlling myopia according to claim 1, is characterized in that: described camera head (4) is miniature camera head. 5. A kind of smart glasses for preventing and controlling myopia according to claim 1, characterized in that: the optical display system (5) is composed of EPSON Movierio BT-200AV type projection display or Samsung AMOLEG1080*1920 type projection Type display and its supporting display control circuit. 6. A kind of smart glasses for preventing and controlling myopia according to claim 1, characterized in that: said optical communication system (6) adopts a ZG-003 type LED optical communication transceiver dedicated chip and supporting circuit components or K -01A type LED optical communication transceiver supporting chip and circuit components, including: optical transceiver probe, optical signal transceiver processor integrated circuit chip and circuit peripheral components, optical transceiver probe installed in the middle and upper part of the glasses frame, integrated circuit chip of optical communication system Installed on the functional circuit board (8). 7. A kind of smart glasses for preventing and controlling myopia according to claim 1, characterized in that: the intelligent mobile terminal system (7) adopts a micro WiFi receiving and transmitting device, including a MTK7601 model chip or a CF-WU810N model The chip has a built-in plate printed antenna etched on the back of the functional circuit board, and the circuit elements are installed on the functional circuit board (8). 8. A kind of smart glasses for preventing and controlling myopia according to claim 1, characterized in that: a function expansion circuit board is installed in the function expansion controller (9), and a 1G or 4G storage space is placed on the circuit board RAM memory, 8G or 16G storage space ROM memory and microSD card slot.