CN205515160U - Sight protection glasses - Google Patents

Abstract

The utility model relates to a sight protection glasses, its characterized in that: rechargeable battery, microcontroller, drive mechanism, liquid crystal display, start -up button, running direction lamp, interface and the jing gai of charging set up on the spectacle -frame, are equipped with portable lens holder on drive mechanism, and portable lens setting is on portable lens holder, and temperature sensor sets up on the mirror leg, microcontroller presses the key -type connection with motor -drive circuit, liquid crystal display, running direction lamp, start -up respectively, and the interface that charges is connected with rechargeable battery, and rechargeable battery and microcontroller are connected, and positional detection sensor, a temperature sensor left side and temperature sensor part on the right side and bie be connected with microcontroller. The utility model discloses the lens is prepared because of the people according to user's age and optical particular case, has that structural design is reasonable, little, small and exquisite portable pleasing to the eye a, convenient to use of miniaturization, light in weight, noise, characteristics such as longe -lived, is suitable for various crowds, especially students in middle and primary schools in the reading, study.

Description

A kind of eyesight-protecting glasses

Technical field

This utility model relates to a kind of eyesight-protecting glasses, a kind of according to ocular physiology structural principle design can effectively regulate eye motion, it is to avoid the glasses of eyestrain.

Background technology

The eyes are the windows of the mind, is people's vitals of accepting external information, and everyone wants to have the eyes that a pair of is healthy, but due to study, the various reasons that works and live, the especially extensively application of electronic product is the biggest on vision health impact.According to incompletely statistics, the tired patient of current China myopia, amblyopia and long-term vision reaches more than 300,000,000, and therefore, protection eyes are not only everyone eager desire, is related to growing up healthy and sound of our national each child especially.Eyes are realized visual accommodation by ciliary muscle and crystalline lens, and ciliary muscle is controlled to shrink and loosen by parasympathetic nervous, makes lenticular curvature change, completes visual accommodation.If in the children's vision stage of development, do not note being accustomed to eye, make ciliary muscle Imbalance, it is easy to cause the generation of the serious conditions such as stravismus, amblyopia.Additionally the crowd of long campaigns computer work and mobile phone also can cause regulatory function to lose efficacy or abnormal due to excess eye-using, makes visual deterioration or eye is dry, eye is puckery sheds tears, and even occurs eye congested or the phenomenon such as headache.Many preventions and the method corrected defects of vision occur in the market, (1) operation on cornea, (2) electric pulse stimulation acupuncture point, (3) magnetic stimulation acupuncture point, the local infiltration of (4) Chinese herbal medicine, (5) eyeball pressure, (6) upper and lower eyeglass, (7) Micropole glasses, (8) mist is had to regard treatment etc. technically, clinic application proves that, these methods all can not fundamentally alleviate asthenopia, inconspicuous to the long-term effect for the treatment of myopia, amblyopia, can only be short-term intervention behavior.Therefore studying and solving sight protectio problem needs the most deeply.

Summary of the invention

This utility model overcomes the defect of above-mentioned existence; purpose is to provide one and is suitable for primary and secondary students and at reading, study and long campaigns computer work or wears when seeing the close eye such as TV and mobile phone; fundamentally alleviate asthenopia, the eyesight-protecting glasses near-sighted to treatment, amblyopia has long-term effect.

This utility model eyesight-protecting glasses content Description:

This utility model eyesight-protecting glasses, it is characterized in that: be by rechargeable battery, spectacle-frame, drive mechanism, LCDs, run indicator, start button, charging inlet, microcontroller, temple, temperature sensor, moveable mirror horse, movable lenses and Jing Gai composition, rechargeable battery, microcontroller, drive mechanism, LCDs, start button, run indicator, charging inlet and Jing Gai are arranged on spectacle-frame, drive mechanism is provided with moveable mirror horse, movable lenses is arranged on moveable mirror horse, temperature sensor is arranged in temple；Microcontroller is pressed bonded with motor-drive circuit, LCDs, run indicator, startup respectively, charging inlet is connected with rechargeable battery, rechargeable battery is connected with microcontroller, and position-detection sensor, a temperature sensor left side and temperature sensor part on the right side and be not connected with microcontroller.

Two kinds of drive mechanisms it are provided with: drive mechanism I is made up of bearing, gear I, gear II, balance bracket, leading screw and motor in eyesight-protecting glasses; balance bracket and leading screw are fixed in spectacle-frame; the two ends of leading screw are provided with bearing, be provided with gear I in one end of leading screw and the gear II being arranged on motor output shaft is connected by meshing transmission；

Drive mechanism II is made up of bearing, balance bracket, leading screw, motor and belt, and balance bracket and leading screw are fixed in spectacle-frame, and the two ends of leading screw are provided with bearing, and motor is connected with lead screw transmission by belt.

In microcontroller circuit, microcontroller 1 foot drives T1 to be connected with motor, microcontroller 2 foot drives T2 to be connected with motor, microcontroller 3 foot is connected with indicator light circuit light emitting diode D14 negative terminal, indicator light circuit light emitting diode D14 anode is connected with resistance R32 one end, and the resistance R32 other end is connected with power supply VCC；Microcontroller 4 foot is connected with reset circuit, electric capacity C10, resistance R33 one end, electric capacity C10 another termination power VCC, resistance R33 other end ground connection；Microcontroller 5 foot is connected with communication interface RXD；Microcontroller 7 foot is connected with communication interface TXD；Microcontroller 8 foot is connected with 11 feet of microcontroller；Microcontroller 9 foot is connected with 12 feet of microcontroller；Microcontroller 12 foot is connected with LCDs 4 foot WR；Microcontroller 13 foot is connected with LCDs 5 foot RS；Microcontroller 14 foot is connected with 1 foot of crystal Y1 in crystal oscillating circuit, and 14 feet of microcontroller are connected with electric capacity C8 one end of crystal oscillating circuit, electric capacity C8 other end ground connection；Microcontroller 15 foot is connected with 2 feet of the crystal Y1 in crystal oscillating circuit, and microcontroller 15 foot is connected with crystal oscillating circuit, electric capacity C9 one end, the other end ground connection of C9；Microcontroller 16 foot ground connection；Microcontroller 20 foot connects key circuit parameter and sets K1；Microcontroller 21 foot connects key circuit parameter and sets K2；Microcontroller 22 foot connects key circuit and starts system work K3；Microcontroller 27 foot is connected with 1 foot of temperature sensor P11；Microcontroller 28 foot is connected with 1 foot of temperature sensor P1；Microcontroller 30 foot is connected with LCDs 14 foot；Microcontroller 31 foot is connected with LCDs 13 foot；Microcontroller 32 foot is connected with LCDs 12 foot；Microcontroller 33 foot is connected with LCDs 11 foot；Microcontroller 34 foot is connected with LCDs 10 foot；Microcontroller 35 foot is connected with LCDs 9 foot；Microcontroller 36 foot is connected with LCDs 8 foot；Microcontroller 37 foot is connected with LCDs 7 foot；Microcontroller 38 foot meets power supply VCC.

Motor-drive circuit diode D2 plus earth in motor-drive circuit, negative pole connects 4 feet of limit sensors 4S, limit sensors 5 foot ground connection, diode D2 negative pole connects audion T2 colelctor electrode, audion T2 base stage connects resistance R8 one end, the other end of resistance R8 receives 2 feet of microcontroller, the base stage of audion T2 is connected with resistance R7 one end, resistance R7 is connected with audion T2 emitter stage, it is connected with power supply VCC simultaneously, 3 feet of limit sensors JD2 are connected with 3 feet of limit sensors JD1, and connect power supply, 2 feet of limit sensors JD2 are connected with 2 feet of JD1, and ground connection；1 foot of limit sensors JD2 is connected with motor MO2,1 foot of limit sensors JD1 is connected with motor MO1,2 feet of limit sensors JD1 are connected to ground, 5 foot ground connection, and 4 feet connect the negative terminal of diode D1, diode positive ending grounding, 4 feet of limit sensors connect audion T1 colelctor electrode, base stage connecting resistance R6 one end of audion T1,1 foot of resistance R6 another termination microcontroller U1, the base stage of audion T1 is connected with resistance R5 one end, and the other end of R5 is connected with audion T1 emitter stage and connects power supply.

In limit sensors connects circuit, power supply connects one end of limit sensors S1, one end of the other end connecting resistance R25 of S1, the other end ground connection of resistance R25, power supply connects one end of limit sensors S2, one end of the other end connecting resistance R28 of S2, the other end ground connection of resistance R28.

Power supply VCC connecting resistance R4 one end in key circuit, another termination parameter of resistance R4 sets key K1 and is simultaneously connected with one end of button K1, the other end ground connection of button K1；One end of power supply VCC connecting resistance R3, another termination parameter setup key K2 of resistance R3 is simultaneously connected with one end of button K2, the other end ground connection of button K2；One end of power supply VCC connecting resistance R30, one end of another termination on & off switch K3 of resistance R30, resistance R30 connects one end of button K3, the other end ground connection of button K3.

In the charging circuit of charging inlet, charging inlet 1 foot connects 1 foot of electric capacity C5, C6 and P6, charger interface 4 foot connects electric capacity C5, C6 other end and connects 2 feet of electric capacity P6 simultaneously, and charger interface 4 connects electric capacity C7 one end ground connection, and 3 feet of electric capacity another termination capacitor P6 of C7 meet power supply VCC.

This utility model eyesight-protecting glasses, eyeglass is that the concrete condition of the age according to user and vision varies with each individual preparation, the special mirror of special messenger to can be only achieved optimal prevention, rectification, protected effect；Have reasonable in design, miniaturization, lightweight, noise is little, small and exquisite, portable, be attractive and be convenient to use, the feature such as life-span length, it is suitable for various crowd, especially students in middle and primary schools reading a book, learn, wear when operating microcomputer or see the close eyes such as TV, visual fatigue can be alleviated, will be converted into, by eye process, effect that eye function is taken exercise, reached raising eye vision, prevents and correct defects of vision simultaneously.

Accompanying drawing explanation

Fig. 1 is eyesight-protecting glasses structural representation；

Fig. 2 is drive mechanism I structural representation；

Fig. 3 is drive mechanism II structural representation；

Fig. 4 is controller architecture block diagram；

Fig. 5 is microcontroller circuit figure；

Fig. 6 is motor-drive circuit figure；

Fig. 7 is that limit sensors connects circuit diagram；

Fig. 8 is key circuit figure；

Fig. 9 is charging inlet and charging circuit figure；

In figure: 1 be rechargeable battery, 2 be spectacle-frame, 3 be drive mechanism, 4 be LCDs, 5 be run indicator, 6 be start button, 7 be charging inlet, 8 be microcontroller, 9 be temple, 10 be temperature sensor, 11 be moveable mirror horse, 12 be movable lenses, 13 be Jing Gai, 14 be bearing, 15 be gear I, 16 be that gear II, 17 is balance bracket, 18 is leading screw, 19 is motor, 20 is belt.

Detailed description of the invention

This utility model eyesight-protecting glasses is achieved in that and illustrates below in conjunction with the accompanying drawings.

nullSee Fig. 1、This utility model eyesight-protecting glasses，It is by rechargeable battery 1、Spectacle-frame 2、Drive mechanism 3、LCDs 4、Run indicator 5、Start button 6、Charging inlet 7、Microcontroller 8、Temple 9、Temperature sensor 10、Moveable mirror horse 11、Movable lenses 12 and mirror lid 13 form，Rechargeable battery 1 is miniature rechargeable battery，Rechargeable battery 1、Microcontroller 8、Drive mechanism 3、LCDs 4、Start button 6、Run indicator 5、Charging inlet 7 and mirror lid 13 are arranged on spectacle-frame 2，Drive mechanism 3 is provided with moveable mirror horse 11，Movable lenses 12 is arranged on moveable mirror horse 11，Temperature sensor 10 is arranged in temple 9，Ear's temperature of wearer can be detected by temperature sensor 10 when making to wear glasses，Record wear-time and wear number of times.

Two kinds of drive mechanisms can be provided with in this utility model eyesight-protecting glasses:

See Fig. 2, drive mechanism I is made up of bearing 14, gear I 15, gear II 16, balance bracket 17, leading screw 18 and motor 19, balance bracket 17 and leading screw 18 are fixed in spectacle-frame 2, the two ends of leading screw 18 are provided with bearing 14, be provided with gear I 15 in one end of leading screw 18 and the gear II 16 on 19 output shafts that are arranged on motor is connected by meshing transmission.Being rotated by gear II 16 rotation driven gear I 15 on motor 19 output shaft and leading screw 18, rotated by leading screw 18 and make movable lenses 12 move up and down, the bearing 14 that leading screw 18 two ends are arranged reduces friction, and balance bracket 17 makes mobile mirror holder steadily move up and down.

See Fig. 3, drive mechanism II, it is made up of bearing 14, balance bracket 17, leading screw 18, motor 19 and belt 20, balance bracket 17 and leading screw 18 are fixed in spectacle-frame 2, the two ends of leading screw 18 are provided with bearing 14, and motor 19 is in transmission connection with leading screw 18 by belt 20, drives belt 20 to make leading screw 18 rotate by motor 19, the bearing 14 that leading screw 18 two ends are arranged reduces friction, and balance bracket 17 makes mobile mirror holder steadily move up and down.

See Fig. 4, it it is microcontroller architecture block diagram, microcontroller by: microcontroller, LCDs, run indicator, startup button, charging inlet, rechargeable battery, motor-drive circuit, position-detection sensor, temperature sensor is left and temperature sensor is right forms, microcontroller is pressed bonded with motor-drive circuit, LCDs, run indicator and startup respectively, charging inlet is connected with battery, rechargeable battery is connected with microcontroller, and position-detection sensor, a temperature sensor left side and temperature sensor part on the right side and be not connected with microcontroller.

Depresses button makes microcontroller work, display lamp is bright, LCDs shows, motor-drive circuit work, make motor work, position-detection sensor divide upper and lower two control movement mirror holder move up and down scope, by temperature sensor is left and the temperature sensor right side detects wearer ear temperature, and record wear-time, wear number of times, the kinetic energy of battery supplied machine, charge port is timely electric energy supplement.

See Fig. 5, it it is microcontroller circuit figure, by microcontroller, indicator light circuit, reset circuit, crystal oscillating circuit, temperature sensor is right, temperature sensor is left and LCDs forms, microcontroller 1 foot drives T1 to be connected with motor, microcontroller 2 foot drives T2 to be connected with motor, microcontroller 3 foot is connected with indicator light circuit light emitting diode D14 negative terminal, and indicator light circuit light emitting diode D14 anode is connected with resistance R32 one end, and the resistance R32 other end is connected with power supply VCC；Microcontroller 4 foot is connected with reset circuit, electric capacity C10, resistance R33 one end, electric capacity C10 another termination power VCC, resistance R33 other end ground connection；Microcontroller 5 foot is connected with communication interface RXD；Microcontroller 7 foot is connected with communication interface TXD；Microcontroller 8 foot is connected with 11 feet of microcontroller；Microcontroller 9 foot is connected with 12 feet of microcontroller；Microcontroller 12 foot is connected with liquid crystal display screen 4 foot WR；Microcontroller 13 foot is connected with liquid crystal display screen 5 foot RS；Microcontroller 14 foot is connected with 1 foot of crystal Y1 in crystal oscillating circuit, and 14 feet of microcontroller are connected with electric capacity C8 one end of crystal oscillating circuit, electric capacity C8 other end ground connection；Microcontroller 15 foot is connected with 2 feet of the crystal Y1 in crystal oscillating circuit, and microcontroller 15 foot is connected with crystal oscillating circuit, electric capacity C9 one end, the other end ground connection of C9；Microcontroller 16 foot ground connection；Microcontroller 20 foot connects key circuit parameter and sets K1；Microcontroller 21 foot connects key circuit parameter and sets K2；Microcontroller 22 foot connects key circuit and starts system work K3；Microcontroller 27 foot is connected with 1 foot of temperature sensor P11；Microcontroller 28 foot is connected with 1 foot of temperature sensor P1；Microcontroller 30 foot is connected with LCDs 14 foot；Microcontroller 31 foot is connected with LCDs 13 foot；Microcontroller 32 foot is connected with LCDs 12 foot；Microcontroller 33 foot is connected with LCDs 11 foot；Microcontroller 34 foot is connected with LCDs 10 foot；Microcontroller 35 foot is connected with LCDs 9 foot；Microcontroller 36 foot is connected with LCDs 8 foot；Microcontroller 37 foot is connected with LCDs 7 foot；Microcontroller 38 foot meets power supply VCC.

See Fig. 6, it it is motor-drive circuit figure, motor-drive circuit diode D2 plus earth, negative pole connects limit sensors, 4 feet of 4S, limit sensors 5 foot ground connection, diode D2 negative pole connects audion T2 colelctor electrode, audion T2 base stage connects resistance R8 one end, the other end of resistance R8 receives microcontrolled 2 feet, the base stage of audion T2 is connected with resistance R7 one end, resistance R7 is connected with audion T2 emitter stage, it is connected with power supply VCC simultaneously, 3 feet of limit sensors JD2 are connected with 3 feet of limit sensors JD1, and connect power supply, 2 feet of limit sensors JD2 are connected with 2 feet of JD1, and ground connection.1 foot of limit sensors JD2 is connected with motor MO2,1 foot of limit sensors JD1 is connected with motor MO1,2 feet of limit sensors JD1 are connected to ground, 5 foot ground connection, and 4 feet connect the negative terminal of diode D1, diode positive ending grounding, 4 feet of limit sensors connect audion T1 colelctor electrode, base stage connecting resistance R6 one end of audion T1,1 foot of another termination micro controller U1 of resistance R6, the base stage of audion T1 is connected with resistance R5 one end, and the other end of R5 is connected with audion T1 emitter stage and connects power supply.

Seeing Fig. 7, be that limit sensors connects circuit diagram, power supply connects one end of limit sensors S1, one end of the other end connecting resistance R25 of S1, the other end ground connection of resistance R25, power supply connects one end of limit sensors S2, one end of the other end connecting resistance R28 of S2, the other end ground connection of resistance R28.

Seeing Fig. 8, be key circuit figure, power supply VCC connecting resistance R4 one end, another termination parameter of resistance R4 sets key K1 and is simultaneously connected with one end of button K1, the other end ground connection of button K1；One end of power supply VCC connecting resistance R3, another termination parameter setup key K2 of resistance R3 is simultaneously connected with one end of button K2, the other end ground connection of button K2；One end of power supply VCC connecting resistance R30, one end of another termination on & off switch K3 of resistance R30, resistance R30 connects one end of button K3, the other end ground connection of button K3.

See Fig. 9, being charging inlet and charging circuit figure, charging inlet 1 foot connects 1 foot of electric capacity C5, C6 and P6, and charger interface 4 foot connects electric capacity C5, C6 other end and connects 2 feet of electric capacity P6 simultaneously, charger interface 4 connects electric capacity C7 one end ground connection, and 3 feet of electric capacity another termination capacitor P6 of C7 meet power supply VCC.

The work process of this utility model eyesight-protecting glasses, by the K1 on controller, K2 setup parameter, press K3 and start working state of system, whether system detection temperature sensor has elevation process, without being put into dormancy low power consumpting state, if there being temperature elevation process, system starts to drive motor to rotate forward, drive and move on mobile mirror holder, when just forwarding restraining position to, upper limit sensor has signal to be sent to microcontroller, microcontroller stops driving motor to rotate forward, time delay is to after the parameter setting time, microcontroller drives motor reversal, mobile mirror holder is driven to move down, after lower limit sensor sends the signal that puts in place, microprocessor controls motor stops, and writing task time and number of times, repeat above work, realize to eyes ciliary muscle and lenticular by rule regulate, reach to alleviate asthenopic effect.

The method that this utility model eyesight-protecting glasses is corrected defects of vision:

1, this utility model is a kind of employing microelectric technique, automatic control technology and microprocessor technology, it is automatically adjusted ciliary muscle, lenticular glasses, in reading, study, operating computer is worn with when seeing the close eyes such as Digital Video Broadcasting Handheld, by adjusting the regular up and down motion of movable lenses, stretched and relaxed of ciliary muscle continuous regulation conversion dioptric condition is made to see remote and see near, reduce when expanding during pupil, assemble when scattering during the optical axis, the systolic and diastolic function being converted into ciliary muscle with eye active procedure is taken exercise, alleviate asthenopia, improve the diopter improving eyes, reach prevention and control and the purpose corrected defects of vision；

2, this utility model eyesight-protecting glasses is converted into the functional exercise of ophthalmic ciliary muscle by close eye process, prevents, corrects, protects vision, wears when close eye, and user of correcting defects of vision at least wears more than two hours in one day.

This utility model eyesight-protecting glasses is only preferred content of the present utility model, is not limited to this utility model, all within spirit of the present utility model and principle, and any amendment of being made, improvement etc., within should be included in protection domain of the present utility model.

This utility model eyesight-protecting glasses, eyeglass is that the concrete condition of the age according to user and vision varies with each individual preparation, the special mirror of special messenger to can be only achieved optimal prevention, rectification, protected effect；Have reasonable in design, miniaturization, lightweight, noise is little, small and exquisite, portable, be attractive and be convenient to use, the feature such as life-span length, it is suitable for various crowd, especially students in middle and primary schools reading a book, learn, wear when operating microcomputer or see the close eyes such as TV, visual fatigue can be alleviated, will be converted into, by eye process, effect that eye function is taken exercise, reached raising eye vision, prevents and correct defects of vision simultaneously.

Claims (7)

1. null1. an eyesight-protecting glasses，It is characterized in that: be by rechargeable battery (1)、Spectacle-frame (2)、Drive mechanism (3)、LCDs (4)、Run indicator (5)、Start button (6)、Charging inlet (7)、Microcontroller (8)、Temple (9)、Temperature sensor (10)、Moveable mirror horse (11)、Movable lenses (12) and Jing Gai (13) composition，Rechargeable battery (1)、Microcontroller (8)、Drive mechanism (3)、LCDs (4)、Start button (6)、Run indicator (5)、Charging inlet (7) and Jing Gai (13) are arranged on spectacle-frame (2)，Drive mechanism (3) is provided with moveable mirror horse (11)，Movable lenses (12) is arranged on moveable mirror horse (11)，Temperature sensor (10) is arranged in temple (9)；Microcontroller (8) is connected with motor-drive circuit, LCDs (4), run indicator (5), startup button (6) respectively, charging inlet (7) is connected with rechargeable battery (1), rechargeable battery (1) is connected with microcontroller (8), and position-detection sensor, a temperature sensor left side and temperature sensor part on the right side and be not connected with microcontroller (8).
2. Eyesight-protecting glasses the most according to claim 1; it is characterized in that: in eyesight-protecting glasses, be provided with two kinds of drive mechanisms: drive mechanism I is made up of bearing (14), gear I (15), gear II (16), balance bracket (17), leading screw (18) and motor (19); balance bracket (17) and leading screw (18) are fixed in spectacle-frame (2); the two ends of leading screw (18) are provided with bearing (14), be provided with gear I (15) in one end of leading screw (18) and the gear II (16) being arranged on motor (19) output shaft is connected by meshing transmission；

   Drive mechanism II is made up of bearing (14), balance bracket (17), leading screw (18), motor (19) and belt (20), balance bracket (17) and leading screw (18) are fixed in spectacle-frame (2), the two ends of leading screw (18) are provided with bearing (14), and motor (19) is in transmission connection with leading screw (18) by belt (20).
3. Eyesight-protecting glasses the most according to claim 1; it is characterized in that: in microcontroller (8) circuit, microcontroller 1 foot drives T1 to be connected with motor; microcontroller 2 foot drives T2 to be connected with motor; microcontroller 3 foot is connected with indicator light circuit light emitting diode D14 negative terminal; indicator light circuit light emitting diode D14 anode is connected with resistance R32 one end, and the resistance R32 other end is connected with power supply VCC；Microcontroller 4 foot is connected with reset circuit, electric capacity C10, resistance R33 one end, electric capacity C10 another termination power VCC, resistance R33 other end ground connection；Microcontroller 5 foot is connected with communication interface RXD；Microcontroller 7 foot is connected with communication interface TXD；Microcontroller 8 foot is connected with 11 feet of microcontroller；Microcontroller 9 foot is connected with 12 feet of microcontroller；Microcontroller 12 foot is connected with LCDs 4 foot WR；Microcontroller 13 foot is connected with LCDs 5 foot RS；Microcontroller 14 foot is connected with 1 foot of crystal Y1 in crystal oscillating circuit, and 14 feet of microcontroller are connected with electric capacity C8 one end of crystal oscillating circuit, electric capacity C8 other end ground connection；Microcontroller 15 foot is connected with 2 feet of the crystal Y1 in crystal oscillating circuit, and microcontroller 15 foot is connected with crystal oscillating circuit, electric capacity C9 one end, the other end ground connection of C9；Microcontroller 16 foot ground connection；Microcontroller 20 foot connects key circuit parameter and sets K1；Microcontroller 21 foot connects key circuit parameter and sets K2；Microcontroller 22 foot connects key circuit and starts system work K3；Microcontroller 27 foot is connected with 1 foot of temperature sensor P11；Microcontroller 28 foot is connected with 1 foot of temperature sensor P1；Microcontroller 30 foot is connected with LCDs 14 foot；Microcontroller 31 foot is connected with LCDs 13 foot；Microcontroller 32 foot is connected with LCDs 12 foot；Microcontroller 33 foot is connected with LCDs 11 foot；Microcontroller 34 foot is connected with LCDs 10 foot；Microcontroller 35 foot is connected with LCDs 9 foot；Microcontroller 36 foot is connected with LCDs 8 foot；Microcontroller 37 foot is connected with LCDs 7 foot；Microcontroller 38 foot meets power supply VCC.
4. Eyesight-protecting glasses the most according to claim 3, it is characterized in that: motor-drive circuit diode D2 plus earth in motor-drive circuit, negative pole connects 4 feet of limit sensors 4S, limit sensors 5 foot ground connection, diode D2 negative pole connects audion T2 colelctor electrode, audion T2 base stage connects resistance R8 one end, the other end of resistance R8 receives 2 feet of microcontroller, the base stage of audion T2 is connected with resistance R7 one end, resistance R7 is connected with audion T2 emitter stage, it is connected with power supply VCC simultaneously, 3 feet of limit sensors JD2 are connected with 3 feet of limit sensors JD1, and connect power supply, 2 feet of limit sensors JD2 are connected with 2 feet of JD1, and ground connection；1 foot of limit sensors JD2 is connected with motor MO2,1 foot of limit sensors JD1 is connected with motor MO1,2 feet of limit sensors JD1 are connected to ground, 5 foot ground connection, and 4 feet connect the negative terminal of diode D1, diode positive ending grounding, 4 feet of limit sensors connect audion T1 colelctor electrode, base stage connecting resistance R6 one end of audion T1,1 foot of resistance R6 another termination microcontroller U1, the base stage of audion T1 is connected with resistance R5 one end, and the other end of R5 is connected with audion T1 emitter stage and connects power supply.
5. Eyesight-protecting glasses the most according to claim 4; it is characterized in that: in limit sensors connects circuit, power supply connects one end of limit sensors S1; one end of the other end connecting resistance R25 of S1; the other end ground connection of resistance R25; power supply connects one end of limit sensors S2; one end of the other end connecting resistance R28 of S2, the other end ground connection of resistance R28.
6. Eyesight-protecting glasses the most according to claim 3, it is characterised in that: power supply VCC connecting resistance R4 one end in key circuit, another termination parameter of resistance R4 sets key K1 and is simultaneously connected with one end of button K1, the other end ground connection of button K1；One end of power supply VCC connecting resistance R3, another termination parameter setup key K2 of resistance R3 is simultaneously connected with one end of button K2, the other end ground connection of button K2；One end of power supply VCC connecting resistance R30, one end of another termination on & off switch K3 of resistance R30, resistance R30 connects one end of button K3, the other end ground connection of button K3.
7. Eyesight-protecting glasses the most according to claim 1; it is characterized in that: in the charging circuit of charging inlet; charging inlet 1 foot connects 1 foot of electric capacity C5, C6 and P6; charger interface 4 foot connects electric capacity C5, C6 other end and connects 2 feet of electric capacity P6 simultaneously; charger interface 4 connects electric capacity C7 one end ground connection, and 3 feet of electric capacity another termination capacitor P6 of C7 meet power supply VCC.