CN201316383Y - Dynamic rectified spectacle - Google Patents

Abstract

The utility model relates to a dynamic rectified spectacle which is characterized by comprising a control device, side supporting legs, a fixed spectacle frame, a moving spectacle frame, a pull wire and a spectacle cover, wherein the moving spectacle frame is arranged on the fixed spectacle frame, the spectacle cover is arranged on the external, the control device is arranged on the top of the fixing spectacle frame, and is fixedly connected with the side supporting legs on both sides, the control device comprises a cover, a battery, a base, a circuit board, a limit switch, a motor and a rotating disk, wherein the circuit board, the motor and the rotating disk are fixedly connected in the base, the rotating disk is connected with the motor, the circuit board is connected with the motor, the battery is fixed on the cover, the moving spectacle frame is connected with the rotating disk in the control device through the pull wire, and the limit switch is arranged. The spectacle is convenient to carry, can eliminate visual fatigue and tension, improves the refractive function of eyes, and resides vision protection and short sight prevention in reading, learning, operating computers or watching televisions during adjusting the vision functional state, thereby improving the vision level step by step.

Description

Dynamic correcting spectacle lens

Technical field

This utility model belongs to a kind of suitable students in middle and primary schools and prevents myopia, the glasses of correcting defects of vision, particularly a kind of dynamic correcting spectacle lens.

Background technology

At present, myopia has been the common a kind of healthy defectives of students in middle and primary schools, has brought many inconvenience for their life, study, also influences it and enters a higher school and obtain employment.Students in middle and primary schools take place myopia be since look for a long time cause closely that visual fatigue, ciliary muscle contraction, crystal Suspensory ligament tension force weaken, crystalline lens convexity thickening, refractive power increase, two visual axes converge, contracted pupil, remote vision function is degenerated has formed myopia.In technique known, can prevent and treat bathomorphic therapeutic equipments at present, apparatus has been pushed market to, though these products can have the function of control and pre-myopia prevention on certain degree, all exists restriction student study, life with an active defective in use.

Summary of the invention

This utility model has overcome the defective of above-mentioned existence, purpose provides a kind of students in middle and primary schools of being suitable for and wears when reading a book, learning, operate microcomputer or see close eyes such as TV, can alleviate visual fatigue, will be converted into eye function with the eye process simultaneously and temper, reach the dynamic correcting spectacle lens that improves eye vision, prevents and correct defects of vision.

The dynamic correcting spectacle lens content Description of this utility model:

The dynamic correcting spectacle lens of this utility model is characterized in that: by: control device, side leg, fixedly mirror holder, mobile mirror holder, draught line and Jing Gai form, and fixedly on the mirror holder mobile mirror holder are being set, and the outside is provided with Jing Gai; Control device is arranged on the fixedly top of mirror holder, fixedlys connected with the side leg of both sides;

Control device by: lid, battery, pedestal, circuit board, limit switch, motor and rolling disc are formed, circuit board, motor and rolling disc are fixedly connected in the pedestal, rolling disc is connected with motor, circuit board is connected with motor, battery is fixed on and covers, mobile mirror holder is connected with rolling disc in the control device by draught line, is provided with limit switch on control device.

The dynamic correcting spectacle lens of this utility model is easy to carry; can eliminate visual fatigue, anxiety; improve and improve the dioptric function of eyes; in visual performance status adjustment process; vision protection, prevent bathomorphicly to reside in reading, learn, operate microcomputer or see in the TV, improve the vision level by easy stages.

Description of drawings

Fig. 1 is dynamic correcting spectacle lens structural representation

Fig. 2 is dynamic correcting spectacle lens side view

Fig. 3 is dynamic correcting spectacle lens circuit diagram

The specific embodiment

This utility model dynamic glasses is achieved in that to do below in conjunction with accompanying drawing and specifies.See Fig. 1, the dynamic correcting spectacle lens of this utility model by: control device 1, side leg 2, fixedly mirror holder 3, mobile mirror holder 4, draught line 5 and mirror lid 6 are formed, fixedly on the mirror holder 3 mobile mirror holder 4 are being set, the outside is provided with mirror and covers 6; Control device 1 is arranged on the fixedly top of mirror holder 3, fixedlys connected with the side leg 2 of both sides;

See Fig. 2, control device by: lid 7, battery 8, pedestal 9, circuit board 10, limit switch 11, motor 12 and rolling disc 13 are formed, circuit board 10, motor 12 and rolling disc 13 are fixedly connected in the pedestal 9, rolling disc 13 is connected with motor 12, circuit board 10 is connected with motor 12, battery 8 is fixed on and covers on 7, and mobile mirror holder 4 is connected by draught line 5 and control device 1 interior rolling disc 13, is provided with limit switch 11 on control device 1.

Seeing Fig. 3, is dynamic correcting spectacle lens circuit diagram, and among the figure: the upper end of potentiometer R1 is connected with the left end of switch S 1, and the lower end of potentiometer R1 is connected with the upper end of resistance R 2, and the lower end of resistance R 2 is connected with the 7th foot of diode D1, D2 and integrated circuit U1; The negative pole of diode D1 is connected with the lower end of resistance R 2, the positive pole of diode D2 and the 7th foot of integrated circuit U1, and the positive pole of diode D1 links to each other with the left end of potentiometer R3; The positive pole of diode D2 is connected with the negative pole of diode D1, the lower end of resistance R 2 and the 7th foot of integrated circuit U1, and the negative pole of diode D2 is connected with 6 feet, 2 feet and the resistance R 4 of integrated circuit U1, the positive pole of capacitor C 1; The left end of potentiometer R3 is connected with the positive pole of diode D1, and the right-hand member of potentiometer R3 is connected with resistance R 4 left ends, and the positive pole of the negative pole of the right-hand member of resistance R 4 and diode D2, the 6th foot, 2 feet and the capacitor C 1 of integrated circuit U1 is connected; The positive pole of capacitor C 1 is connected with the right-hand member of resistance R 4, the negative pole of diode D2 and 6 feet, 2 feet of integrated circuit U1, the positive pole of capacitor C 2 is connected with the left end of switch S 1, the minus earth line of capacitor C 2, the upper end of capacitor C 3 is connected with 5 feet of integrated circuit U1, the lower end earth lead of capacitor C 3; The 1 foot ground connection of integrated circuit U1,3 feet meet audion V1, audion V6 base stage, 4 feet are connected with the left end of S1,8 feet are connected with the left end of 4 feet and switch S 1, the colelctor electrode of audion V1 is connected with audion V4 base stage, emitter stage is connected with the upper end of resistance R 5, the base stage of audion V2 is connected with the upper end of resistance R 6, colelctor electrode is connected with three core sockets, 1 foot, emitter stage is connected with the left end of switch S 1, and the base stage of audion V3 is connected with the lower end of resistance R 5, and colelctor electrode is connected with colelctor electrode and three core sockets, 1 foot of audion V2, the grounded emitter line, the base stage of audion V4 is connected with 3 feet of audion V1 base stage and integrated circuit U1, and colelctor electrode is connected with three core sockets, 2 feet, and emitter stage is connected with the left end of switch S 1, the base stage of audion V5 is connected with the colelctor electrode of audion V6, colelctor electrode is connected with three core sockets, 3 feet, the grounded emitter line, and the base stage of audion V6 is connected with the colelctor electrode of audion V1, colelctor electrode is connected with the base stage of audion V5, and emitter stage is connected with the lower end of resistance R 6; The upper end of resistance R 7 is connected with the left end of switch S 1, and the lower end of resistance R 7 is connected with the upper end of diode D3, the lower end earth lead of diode D3.

In the reading learning process, pass through fixedly mirror holder 3 during use; mobile mirror holder 4 is combined in the dioptric condition that forms on the same optical axis; by a continuous conversion dioptric condition of regulating; produce corresponding different dioptric vision and regulate action; promptly see " far " and see " closely "; during pupil and when enlarging and dwindle; during the optical axis and when scattering and assemble; and will transform with the eye active procedure; dissolve to systolic and diastolic function such as the ophthalmic ciliary muscle; eliminate visual fatigue; regulate nervous; improve the dioptric that improves eyes; the process of visual accommodation functional status level; vision protection; prevent the bathomorphic reading of residing in; study; operation microcomputer or see in the TV improves the vision level by easy stages.

Claims (3)

1, a kind of dynamic correcting spectacle lens, it is characterized in that: by: control device (1), side leg (2), fixedly mirror holder (3), mobile mirror holder (4), draught line (5) and Jing Gai (6) form, fixedly on the mirror holder (3) mobile mirror holder (4) is being set, the outside is provided with Jing Gai (6); Control device (1) is arranged on the fixedly top of mirror holder (3), fixedlys connected with the side leg (2) of both sides.

2, dynamic correcting spectacle lens according to claim 1, it is characterized in that: described control device (1) be by: the lid (7), battery (8), pedestal (9), circuit board (10), limit switch (11), motor (12) and rolling disc (13) are formed, circuit board (10), motor (12) and rolling disc (13) are fixedly connected in the pedestal (9), rolling disc (13) is connected with motor (12), circuit board (10) is connected with motor (12), battery (8) is fixed on the lid (7), mobile mirror holder (4) is connected by the interior rolling disc (13) of draught line (5) and control device (1), and limit switch (11) is arranged on control device (1).

3, dynamic correcting spectacle lens according to claim 2, it is characterized in that: the circuit in the described circuit board (10) is: the upper end of potentiometer R1 is connected with the left end of switch S 1, the lower end of potentiometer R1 is connected with the upper end of resistance R 2, and the lower end of resistance R 2 is connected with the 7th foot of diode D1, D2 and integrated circuit U1; The negative pole of diode D1 is connected with the lower end of resistance R 2, the positive pole of diode D2 and the 7th foot of integrated circuit U1, and the positive pole of diode D1 links to each other with the left end of potentiometer R3; The positive pole of diode D2 is connected with the negative pole of diode D1, the lower end of resistance R 2 and the 7th foot of integrated circuit U1, and the negative pole of diode D2 is connected with 6 feet, 2 feet and the resistance R 4 of integrated circuit U1, the positive pole of capacitor C 1; The left end of potentiometer R3 is connected with the positive pole of diode D1, and the right-hand member of potentiometer R3 is connected with resistance R 4 left ends, and the positive pole of the negative pole of the right-hand member of resistance R 4 and diode D2, the 6th foot, 2 feet and the capacitor C 1 of integrated circuit U1 is connected; The positive pole of capacitor C 1 is connected with the right-hand member of resistance R 4, the negative pole of diode D2 and 6 feet, 2 feet of integrated circuit U1, the positive pole of capacitor C 2 is connected with the left end of switch S 1, the minus earth line of capacitor C 2, the upper end of capacitor C 3 is connected with 5 feet of integrated circuit U1, the lower end earth lead of capacitor C 3; The 1 foot ground connection of integrated circuit U1,3 feet meet audion V1, audion V6 base stage, 4 feet are connected with the left end of S1,8 feet are connected with the left end of 4 feet and switch S 1, the colelctor electrode of audion V1 is connected with audion V4 base stage, emitter stage is connected with the upper end of resistance R 5, the base stage of audion V2 is connected with the upper end of resistance R 6, colelctor electrode is connected with three core sockets, 1 foot, emitter stage is connected with the left end of switch S 1, and the base stage of audion V3 is connected with the lower end of resistance R 5, and colelctor electrode is connected with colelctor electrode and three core sockets, 1 foot of audion V2, the grounded emitter line, the base stage of audion V4 is connected with 3 feet of audion V1 base stage and integrated circuit U1, and colelctor electrode is connected with three core sockets, 2 feet, and emitter stage is connected with the left end of switch S 1, the base stage of audion V5 is connected with the colelctor electrode of audion V6, colelctor electrode is connected with three core sockets, 3 feet, the grounded emitter line, and the base stage of audion V6 is connected with the colelctor electrode of audion V1, colelctor electrode is connected with the base stage of audion V5, and emitter stage is connected with the lower end of resistance R 6; The upper end of resistance R 7 is connected with the left end of switch S 1, and the lower end of resistance R 7 is connected with the upper end of diode D3, the lower end earth lead of diode D3.

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