CN203773178U - Electronic eye protector - Google Patents

Abstract

The utility model provides an electronic eye protector. The electronic eye protector comprises an eyeglasses bracket (4), lenses (2) arranged in the eyeglasses bracket and eyeglasses legs (1) connected to the eyeglasses bracket (4) and has the technical characteristics that the lenses (2) are electrochromic lenses, a controller (7) for controlling the transparency of the electrochromic lenses is arranged on the eyeglasses bracket (4) or the eyeglasses legs (1), a power source is arranged in the controller, a switch (6) is arranged on the controller (7), and an infrared sensor (3) connected to an input end of the controller (7) is arranged on the eyeglasses bracket (4). The electronic eye protector is used for solving the problems of inconvenience in use, poor prevention effect of xerophthalmia and the like in the prior art, is ingenious in structure design and is formed by combination of the electrochromic effects of matters and other related parts. The electronic eye protector has the advantages of convenience in use, attractive appearance, multiple functions, wide angle of view, low driving power, no power dissipation memory and the like.

Description

Electronics safety goggles

Technical field

The utility model relates to a kind of glasses, is a kind of electronics safety goggles specifically.

Background technology

Along with the develop rapidly of modern science and technology, computer and multiple touch-control electronic product universal, the raising of office rate with no paper at all, human eye is inevitably exposed to before display screen for a long time.Wherein, computer monitor radiation is the most serious.Display screen can produce certain microwave, and the air in display screen the place ahead is ionized, and with bacterium and the dust of static, is easily adsorbed onto on the skin of people face.In addition, people's frequency of wink when watching screen significantly reduces, and easily causes the dry and astringent pain of eye.

In prior art, as patent CN 202892198U discloses a kind of xerophthalmia glasses, comprise leg of spectacles and spectacle-frame, on described spectacle-frame, stud with eyeglass; Wherein, on spectacle-frame, be provided with silicon rubber enclosing, described leg of spectacles, spectacle-frame, eyeglass, silicon rubber enclosing and eye surround enclosure space, the xerophthalmia glasses that the utility model provides, by leg of spectacles, spectacle-frame, eyeglass, silicon rubber enclosing and eye, surround enclosure space, particularly spectacle-frame surrounding frame is made invaginating fixed card slot, and that guarantees that silicon rubber enclosing is connected with picture frame interlocks completely and seal; This enclosure space can be windproof, dustproof, sand prevention, and can effectively slow down the volatilization of tear, effectively alleviating dry eye disease.These xerophthalmia glasses are as the aid of dry eye treatment, although have simple in structure, the advantage such as moisture retention is good.But because it adopts, cover the rubber seal of going up near the eyes, if wear for a long time, can affect the health of skin near the eyes; The oil substances of skin secretion can be attached on rubber, if do not clean not in time, also can cause bacteria breed, causes pathology, and result of use is not good.Therefore, need a kind of glasses series products that can effectively solve dry eye symptoms.

Utility model content

The purpose of this utility model is to provide a kind of electronics safety goggles, has solved in prior art problems such as using inconvenience, kind of prevention dry eyes weak effect.Its structural design is ingenious, utilizes the electrochromic effect of material, is aided with other associated components and assembles.There is easy to use, good looking appearance, the advantage such as multi-functional, visual angle is wide, driving voltage is low, idle memory.

The purpose of this utility model is achieved in that this electronics safety goggles comprises mirror holder, is arranged on the eyeglass in mirror holder, the mirror leg being connected with mirror holder, its technical essential is: described eyeglass is electrochromism eyeglass, mirror holder or mirror leg are provided with for controlling the controller of electrochromism eyeglass penetrability, in controller, be provided with power supply, controller is provided with switch, and mirror holder is provided with the infrared sensor being connected with the input end of controller; Described electrochromism eyeglass ecto-entad or be followed successively by from inside to outside glassy layer, transparency conducting layer, electrochromic layer, ion conductor layer, ion storage layer, transparency conducting layer, glassy layer; Described electrochromic layer is made by WO 3 film; Described controller comprises pulse module, infrared induction module, one-chip computer module, is arranged on the transparency conducting layer circuit on transparency conducting layer; The output terminal of pulse module is connected with the input end of one-chip computer module, and the output terminal of infrared induction module is connected with the input end of one-chip computer module, and the output terminal of one-chip computer module is connected with the input end of transparency conducting layer circuit.

For improving the radiation-proof effect of eyeglass, extend the serviceable life of glasses, described electrochromism eyeglass skin is provided with manganese dioxide layer.

For ease of assembling, described mirror holder is connected by articulated section with mirror leg.

For convenience of the use of glasses, be convenient to charging, described power supply is internal battery, controller is provided with charging socket.

In the time cannot charging, for improving the scope of application of glasses, described power supply is No. five or No. seven batteries.

For convenience of controlling of controller, described switch is dialing switch or push-button switch.

The advantage the utlity model has and positive technique effect are: eyeglass is electrochromism eyeglass, and mirror holder or mirror leg are provided with for controlling the controller of electrochromism eyeglass penetrability, and mirror holder is provided with the infrared sensor being connected with the input end of controller.Directly controller is incorporated on mirror holder or mirror leg, makes one-piece construction more succinct, use more convenient.Infrared sensor is positioned on mirror holder, in the time of can blinking to people immediately, send infrared response fluctuation, and feed back to controller.In controller, be provided with power supply, controller is provided with switch, for being suitable for the use of different situations, power supply is arranged to external or built-in.The utility model be take electrochromic layer as basis, under the low-voltage of sending at controller, and electrochromic layer color burn, and can, according to using the circuit structure that needs freely to arrange transparency conducting layer, be convenient to regulate intensification point and intensification degree.Thereby optionally reflect extraneous radiation.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is further described.

Fig. 1 is surface structure schematic diagram of the present utility model;

Fig. 2 is sectional structure schematic diagram of the present utility model;

Fig. 3 is eyeglass stratiform structural representation;

Fig. 4 is principle of work block diagram of the present utility model;

Fig. 5 is electrical block diagram of the present utility model.

Description of reference numerals: 1 mirror leg, 2 eyeglasses, 3 infrared sensors, 4 mirror holders, 5 articulated sections, 6 switches, 7 controllers, 8 charging sockets, M1 pulse module, M2 infrared induction module, M3 one-chip computer module, D1 switch indication light, Q0～Q3 triode, W0～W3 transparency conducting layer circuit.

Embodiment

Embodiment 1

According to Fig. 1～5, describe concrete structure of the present utility model in detail.This electronics safety goggles comprises mirror holder 4, is arranged on the eyeglass 2 in mirror holder 4, the parts such as mirror leg 1 that are connected with mirror holder 4, and mirror holder 4 is connected by articulated section 5 with mirror leg 1.Wherein, eyeglass 2 is electrochromism eyeglass 2, and electrochromism eyeglass ecto-entad is followed successively by manganese dioxide layer, glassy layer, transparency conducting layer, electrochromic layer, ion conductor layer, ion storage layer, transparency conducting layer, glassy layer.The material of electrochromic layer can be selected organic or inorganic material, and wherein inorganic material is preferably tungstic acid.Organic material can have been selected polythiophene class and derivant thereof, purple sieve essence class, tetrathiafulvalene, metallo phthalocyanine etc.Preferably tungstic acid is made transparent membrane.Transparency conducting layer can be selected ITO(nano indium tin metal oxide) glass, ito thin film or ITO coating; Ion conductor layer consists of liquid or solid electrolytes such as lithium perchlorate, sodium perchlorates.Mirror holder 4 is provided with for controlling the controller 7 of electrochromism eyeglass penetrability, in controller 7, is provided with power supply, and controller 7 is provided with the charging socket 8 that is used to built-in power charging.Controller 7 is provided with push-button switch 6, and mirror holder 4 is provided with the infrared sensor 3 being connected with the input end of controller 7.

Control circuit partly comprises pulse module M1, infrared induction module M2, one-chip computer module M3, transparency conducting layer circuit W0～W3.The output terminal of pulse module M1 is connected with the input end of one-chip computer module M3, and the output terminal of infrared induction module M2 is connected with the input end of one-chip computer module M3, and the output terminal of one-chip computer module M3 is connected with the input end of transparency conducting layer circuit W0～W3.Observe for convenience the open and-shut mode of controller, pilot lamp D1 is set on one-chip computer module.

For further improving the filter effect of eyeglass, also can on eyeglass, apply certain thickness manganese dioxide layer, because manganese dioxide is different from the refractive index of glass for lenses, harmful light after manganese dioxide layer reflects by lens reflecting.If individual layer eyeglass, manganese dioxide layer also can be protected lens surface wear prevention, increases the service life.Preferably, the thickness of manganese dioxide layer is set as to 1/2 long just filtering noxious light more effectively of harmful wave-wave.

Principle of work: press after switch, pilot lamp D1 is communicated with, and the pulse module M1 in controller, one-chip computer module M3, infrared induction module M2(can select DYP-ME003).When the infrared fluctuation no signal of infrared induction module M2 is imported into, pulse module M1 is to the R00 end transmitted signal of one-chip computer module M3, the one-chip computer module M3 first backward port P00 of return pulse signal transmits control signal, wherein between a part of transparency conducting layer, the voltage of (transparency conducting layer circuit W0) increases, there is redox reaction in electrochromic layer, make level of color burn under voltage effect.When R00 end receives pulse signal again, one-chip computer module M3 transmits control signal to port P01, between another part transparency conducting layer, voltage increases, color is further deepened, until all transparency conducting layer circuit W0～W3(can increase and decrease circuit quantity according to actual process demand), place in circuit, i.e. the complete variable color of electrochromic layer.The circuit point-like of transparency conducting layer is distributed on eyeglass, therefore can realize colour of lens and progressively deepen.If during color burn, human body is made eye blink response, around eyes can produce certain infrared fluctuation (there is some difference for human eye spherical surface temperature and eyelid temperature), after infrared fluctuation is caught by infrared induction module M2, signal is sent to the port R03 of one-chip computer module M3, receive after signal, single-chip microcomputer resets port P00～P03 signal, and it is transparent that eyeglass recovers.Therefore can change and stimulate eye by the light and shade of eyeglass, and then improve frequency of wink.

Ion storage layer plays and stores corresponding gegenion when electrochromic layer generation redox reaction, keeps whole system charge balance.Ion storage layer material selection is contrary with electrochromic layer material property, plays color addition or complementary effect.

The pattern of flashing of eyeglass adopts multiple spot successively dimmed, and while paying close attention to computer screen due to wearer's eyeball, the fuzzy of eyeglass can not discovered by human eye, thereby wearer is produced, is the illusion that eyes oneself fog, and then stimulates wearer's nictation.While importing into without infrared variable signal for a long time on infrared sensor, controller cuts out automatically, thereby reaches the object of economize on electricity, in the time of need to reusing, only need again press switch.

Embodiment 2

Gauge tap is toggle switch, and controller is controlled and often opened or often close by toggle switch, and adopting No. seven external batteries is whole glasses power supply, and other structures are identical with embodiment 1.

Claims (7)

1. an electronics safety goggles, comprise mirror holder (4), be arranged on the eyeglass (2) in mirror holder, the mirror leg (1) being connected with mirror holder (4), it is characterized in that: described eyeglass (2) is electrochromism eyeglass, mirror holder (4) or mirror leg (1) are provided with the controller (7) for controlling electrochromism eyeglass penetrability, controller is provided with power supply in (7), controller (7) is provided with switch (6), and mirror holder (4) is provided with the infrared sensor (3) being connected with the input end of controller (7); Electrochromism eyeglass ecto-entad or be followed successively by from inside to outside glassy layer, transparency conducting layer, electrochromic layer, ion conductor layer, ion storage layer, transparency conducting layer, glassy layer; Controller comprises pulse module, infrared induction module, one-chip computer module, is arranged on the transparency conducting layer circuit on transparency conducting layer; The output terminal of pulse module is connected with the input end of one-chip computer module, and the output terminal of infrared induction module is connected with the input end of one-chip computer module, and the output terminal of one-chip computer module is connected with the input end of transparency conducting layer circuit.

2. electronics safety goggles according to claim 1, is characterized in that: described electrochromism eyeglass skin is provided with manganese dioxide layer.

3. electronics safety goggles according to claim 1, is characterized in that: described electrochromic layer is made by WO 3 film.

4. electronics safety goggles according to claim 1, is characterized in that: described mirror holder (4) is connected by articulated section (5) with mirror leg (1).

5. electronics safety goggles according to claim 1, is characterized in that: described power supply is internal battery, and controller (7) is provided with charging socket (8).

6. electronics safety goggles according to claim 1, is characterized in that: described power supply is No. five or No. seven batteries.

7. electronics safety goggles according to claim 1, is characterized in that: described switch (6) is dialing switch or push-button switch.