CN106249432A - A kind of electronic color-changing intelligent glasses of adaptive optical sensing control - Google Patents
A kind of electronic color-changing intelligent glasses of adaptive optical sensing control Download PDFInfo
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- CN106249432A CN106249432A CN201610909217.3A CN201610909217A CN106249432A CN 106249432 A CN106249432 A CN 106249432A CN 201610909217 A CN201610909217 A CN 201610909217A CN 106249432 A CN106249432 A CN 106249432A
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- picture frame
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- optical sensing
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- G—PHYSICS
- G02—OPTICS
- G02C—SPECTACLES; SUNGLASSES OR GOGGLES INSOFAR AS THEY HAVE THE SAME FEATURES AS SPECTACLES; CONTACT LENSES
- G02C7/00—Optical parts
- G02C7/10—Filters, e.g. for facilitating adaptation of the eyes to the dark; Sunglasses
- G02C7/101—Filters, e.g. for facilitating adaptation of the eyes to the dark; Sunglasses having an electro-optical light valve
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- Ophthalmology & Optometry (AREA)
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- Optics & Photonics (AREA)
- Eyeglasses (AREA)
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Abstract
The present invention relates to the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control, including picture frame, temple and power module and microcontroller, picture frame is provided with groove, the inwall of groove is provided with the first electrode to, light sensor and switch;Color-changing lens be held in the first electrode between, the first basic unit that color-changing lens includes from top to bottom arranging, an ITO conductive film layer, polymerised liquid crystal layer, the 2nd ITO conductive film layer, the second basic unit;Described microcontroller be respectively with power module, light sensor, the first electrode to being electrically connected with each other.The microswitch arranged, by the folding point of rotation of temple by reaching the purpose of opening/closing system, reduces the power consumption when standby.The electronic color-changing intelligent glasses of adaptive optical sensing control of the present invention; it is rational in infrastructure; there is simple in construction, length in cruising time, highly sensitive, intelligence degree advantages of higher, effectively solve the existing glasses problem to eye protection poor effect under intense light irradiation.
Description
Technical field
The present invention relates to intelligent glasses field, especially relate to the electronic color-changing Brilliant Eyes of a kind of adaptive optical sensing control
Mirror.
Background technology
In known technology, glasses are the simple optics made for the purpose of correcting defects of vision or protecting eyes, one
As be made up of the component such as eyeglass, mirror holder.Glasses the most on the market typically use transparent glasses lens, when this transparent glasses lens runs into by force
Light time does not has the effect of protection eyes, and has and weaken the high light eyeglass to eye injury typically by adding silver halide etc.
Material to light sensitive changes the light transmittance of eyeglass, such as sunglasses etc., this eyeglass that with the addition of silver halide itself
Present relatively low transmittance, so being not suitable for wearing in the environment of illumination is more weak, and the speed of this kind of eyeglass change transmittance
Relatively slow, be not suitable for changing in intensity of illumination wearing under scene frequently.
Existing part glasses regulate light transmittance by the way of the making eyeglass using electric-control color-changeable glass, although reach
Change the effect of eyeglass transmittance, but the sensitivity of illumination variation detection is poor to external world, generally requires and manually carries out transmittance
Regulation, eyeglass is the most thick and heavy, the positions such as the bridge of the nose is caused compressing, and is limited to frame structure, and the installation of eyeglass changes ten
Divide trouble.It is therefore necessary to invention length in a kind of cruising time, can automatic and sensitive regulation eyeglass light transmittance, can conveniently install and more
Change various self-defined eyeglass and long-endurance glasses.
Summary of the invention
The technical problem to be solved in the present invention is: in order to overcome above-mentioned present in problem, it is provided that a kind of adaptive optical
The electronic color-changing intelligent glasses of sensing control, it is rational in infrastructure, has simple in construction, easy to use, length in cruising time, sensitivity
High, intelligence degree advantages of higher, effectively solves the existing glasses problem to eye protection poor effect under intense light irradiation.
The technical solution adopted for the present invention to solve the technical problems is:
The electronic color-changing intelligent glasses of a kind of adaptive optical sensing control, including picture frame, has cavity and mutually cuts with scissors with picture frame
The temple connect and the power module being arranged on temple inner chamber and microcontroller, described picture frame is provided with and installs for clamping
The groove of color-changing lens and the through hole of communication groove, the inwall of described groove is provided with the first electrode to lead to the hole site
Corresponding light sensor and be connected to control the switch of glasses system with microcontroller;Hollow structure is conducive to alleviating this
The overall weight of invention.
The first basic unit that described color-changing lens includes from top to bottom arranging, an ITO conductive film layer, polymer liquid crystal
Layer, the 2nd ITO conductive film layer, the second basic unit;Described first basic unit is provided with and a described ITO conductive film layer electric connection
First transmission electrode, described second basic unit is provided with the second transmission electrode being electrically connected with described 2nd ITO conductive film layer;Institute
State the first transmission electrode, the second transmission electrode respectively with described first electrode to clamping;
Color-changing lens be held in the first electrode between, i.e. first electrode merit to having certain fixing color-changing lens
Can, color-changing lens and the first electrode can complete the connection of ITO conductive film layer and control circuit, beneficially eyeglass to direct clamping
Change, keep in repair, maintain.
Described microcontroller be respectively with power module, light sensor, the first electrode to being electrically connected with each other.
In one embodiment, the first described electrode to be by tool resilient metallic conducting media, radio frequency
Medium or a combination thereof are made, and every can reach have certain elasticity and can be clamped by color-changing lens, and by ITO conductive film layer and control
Circuit communication processed.
In one embodiment, described switch is to be provided separately within the junction of picture frame and a wherein temple at least
One, or it is separately positioned at least two of the junction of picture frame and two temples.
In one embodiment, described temple and picture frame junction are provided with for the point of rotation by the projection of switch, institute
The projection stated is suitable with number of switches.
Being rotated by the projection that rotarily drives of temple, projection is pressed in rotary course or toggle switch, is set by switch
The position put, the difference of quantity, coordinate the pressing of projection, stir order and produce different signal of telecommunication combinations, and microcontroller passes through
Order that this kind of combination producing is certain also performs.
In one embodiment, described temple inner chamber be additionally provided with integrated GPS module, baroceptor, gyroscope with
And the pcb board of accelerometer, described GPS module, baroceptor, gyroscope and accelerometer are the most electric with microcontroller
Property connect.Signal collected by each sensor, the most also can be by connecting as the foundation of each component working of microprocessor controls
External equipment works, and checks current gas pressure value etc. as connected mobile phone.
In one embodiment, described temple or picture frame are additionally provided with the brightness being electrically connected with described microcontroller
Regulating key.User is facilitated manually to regulate the light transmittance of color-changing lens.
In one embodiment, described color-changing lens is to be reinforced by the first bracing means or the second bracing means.
In one embodiment, the side that described picture frame is close with the bridge of the nose is also movably set with concave lens.This is near
Visor sheet is connected with the present invention by being connected in the support of picture frame, conveniently has this product of librarian use of myopia.Further, card
It is also provided with nose support on plate, uses more comfortable.
In one embodiment, the first described bracing means includes clamp, and is provided with semicircle draw-in groove on clamp,
Wherein one end of clamp is clamping mutual with eyeglass, and the other end of clamp is clamping mutual with picture frame, and picture frame is provided with first
Groove, and be provided with shell fragment in the first groove, the inwall of described semicircle draw-in groove be mutually abut with shell fragment fixing.
In one embodiment, the second described bracing means is the block pressur plate adapted with picture frame outer surface, pressing plate
One end be to be hinged with picture frame by hinge, the other end of pressing plate is by buckle and the mutual clamping of picture frame, and second reinforces
The lower end of device is provided with the draw-in groove of clamping mutual with color-changing lens lower end, and the upper end of the second bracing means is to abut with picture frame,
And pressing plate is provided with the second through hole in the position of corresponding through hole.
Both the above bracing means is further to color-changing lens on the basis of the first electrode is to clamping color-changing lens
Fixing, it is to avoid in high vibration, eyeglass comes off, shifts and damages, and the design of all employings " readily removable ", facilitate user to this
Invent each parts carry out maintaining, safeguard, the work such as replacing.
The invention has the beneficial effects as follows: the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control, including picture frame, temple
And color-changing lens, picture frame therein and temple have hollow structure, and hollow structure alleviates the overall weight of glasses, in addition temple
Inside it is provided with pcb board, brightness regulation button and power module, pcb board is integrated with microcontroller and Control of Voltage submodule
Block, picture frame is provided with the light sensor for detecting external light intensity, and the testing result of light sensor is as system
The foundation of the transmittance of regulation eyeglass, strengthens the sensitivity of transmittance regulation;Color-changing lens uses acrylic material encapsulation polymerization
Thing liquid crystal and ITO conducting film are made, and alleviate eyeglass weight, and the ITO conducting film in eyeglass is drawn by transmission electrode and and picture frame
The first electrode clamping in groove, the first electrode is connected with the Control of Voltage submodule on pcb board, and voltage control circuit is by electricity
Pressure control break polymer liquid crystal molecule towards with reach change eyeglass transmittance purpose;In picture frame and temple hinged place
It is provided with microswitch, is reached the purpose of opening/closing system by the folding point of rotation of temple by microswitch, reduce glasses not
Power consumption during use, improves cruising time;Concave lens also it is movably set with on the side that picture frame is close with the bridge of the nose.These near-sighted glasses
Sheet is connected with the present invention by being connected in the support of picture frame, conveniently has this product of librarian use of myopia.It is rational in infrastructure, has
Simple in construction, easy to use, length in cruising time, highly sensitive, intelligence degree advantages of higher, effectively solve existing glasses by force
Problem to eye protection poor effect under illumination.
Accompanying drawing explanation
The present invention is further described with embodiment below in conjunction with the accompanying drawings.
Fig. 1 is the overall structure schematic diagram of the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control of the present invention;
Fig. 2 is the picture frame A portion part section of the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control of the present invention
Structural representation;
Fig. 3 is the eyeglass cross-section structure signal of the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control of the present invention
Figure;
Fig. 4 is that the picture frame of the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control of the present invention is connected knot with temple
Structure schematic diagram;
Fig. 5 is that the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control of the present invention uses the first bracing means
Overall structure schematic diagram;
Fig. 6 is that the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control of the present invention uses the first bracing means
Frame structure schematic diagram;
Fig. 7 is that the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control of the present invention uses the first bracing means
Eyeglass and picture frame attachment structure generalized section;
Fig. 8 is that the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control of the present invention uses the first bracing means
Frame structure generalized section;
Fig. 9 is the first bracing means section of the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control of the present invention
Schematic diagram;
Figure 10 is that the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control of the present invention uses the second bracing means
Overall structure schematic diagram;
Figure 11 is the second bracing means knot of the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control of the present invention
Structure schematic diagram.
Accompanying drawing acceptance of the bid note is described below: 1, picture frame, and 11, through hole, 12, light sensor, 13, switch, 14, groove, 15, the
One electrode pair, the 16, first groove, 17, shell fragment, 2, temple, 23, pcb board, 24, brightness regulation button, 25, power module, 26,
Projection, 3, color-changing lens, the 311, first transmission electrode, the 312, second transmission electrode, the 321, first basic unit, the 322, second basic unit,
331, an ITO conductive film layer, the 332, the 2nd ITO conductive film layer, 34, polymerised liquid crystal layer, the 4, first bracing means, 41, card
Plate, 42, nose support, 43, semicircle draw-in groove, the 5, second bracing means, 50, hinge, the 51, second through hole, 52, buckle, 53, draw-in groove.
Detailed description of the invention
In conjunction with the accompanying drawings, the present invention is further detailed explanation.These accompanying drawings are the schematic diagram of simplification, only with
The basic structure of the illustration explanation present invention, therefore it only shows the composition relevant with the present invention.
As it is shown in figure 1, the invention provides the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control, including having
The picture frame 1 of hollow structure, the temple 2 with hollow structure and color-changing lens 3.Fig. 2 is the generalized section of the part A of Fig. 1,
As in figure 2 it is shown, be provided with the through hole 11 of groove 14 and communication groove 14 on picture frame 1, the inwall of groove 14 is provided with first
Electrode is to 15;Not shown in eyeglass 3 figure, clamping is arranged in groove 14;Picture frame 1 is provided with light at the inner chamber of through hole 11 correspondence
Sensor 12.
Picture frame 1 and temple 2 have hollow structure, and hollow structure is except alleviating the overall weight of glasses, it is also possible to the most square
Just the components and parts of the present invention are put into its hollow cavity.
As it is shown on figure 3, the cross-sectional view of a kind of color-changing lens 3 provided for the invention.Color-changing lens 3 wraps
Include the first basic unit the 321, the oneth ITO conductive film layer 331, polymerised liquid crystal layer the 34, the 2nd ITO conductive film layer from top to bottom arranged
332, the second basic unit 322;First basic unit 321 is provided with and is electrically connected with the first transmission electrode 311 with an ITO conductive film layer 331,
Second basic unit 322 is provided with and is electrically connected with the second transmission electrode 312 with the 2nd ITO conductive film layer 332.In the invention,
First transmission electrode the 311, second transmission electrode 312 respectively with the first electrode to 15 clampings.
As shown in Figure 4, the hollow cavity that temple 2 hollow structure is formed is additionally provided with not shown in microcontroller figure, electricity
Source module 25, pcb board 23, pcb board 23 is integrated with not shown in microcontroller and Control of Voltage submodule figure, GPS module
Not shown in figure, not shown in baroceptor figure, not shown in gyroscope figure and not shown in accelerometer figure, microcontroller
Device is electrically connected with 15 with power module 25, light sensor the 12, first electrode respectively.Control of Voltage submodule is used for controlling to become
The electric field intensity applied on color eyeglass 3, GPS module, baroceptor, gyroscope and accelerometer the data obtained are then as micro-
The control foundation of controller, can be connected use simultaneously with external equipment.
The light sensor 12 for detecting external light intensity it is provided with, according to the detection of light sensor on picture frame 1
As a result, the transmittance of color-changing lens 3 is regulated.Therefore, the glasses that the invention provides, illumination variation is the cleverest to external world
Quick, there is the sensitivity of the highest detection.
Described picture frame and described temple are hinged, and are provided with use on the described picture frame groove inner wall with temple junction
In the switch 13 controlling glasses system.
In a kind of possible embodiment, light sensor 12 detects that intensity of illumination changes, and such as, user is worn
The present invention is forwarded to bright light environments by dim environment, and testing result is sent to microcontroller by light sensor 12, and microcontroller is sent out
Go out corresponding regulating command to Control of Voltage submodule, the polymer liquid crystal molecule in regulation polymerised liquid crystal layer 34 towards,
Thus change color-changing lens 3 transmittance, reach to protect the effect of eyes.
In a kind of possible embodiment, multiple through hole 11 can be set on picture frame 1, thus at multiple through holes 11
Correspondence position installs multiple light sensors 12, to tackle different environment or user's needs.For example, it is possible to shown in Fig. 1
Symmetrical through hole 11 being set and installs light sensor 12 of the opposite side of picture frame 1.
The shape of through hole 11 can be circle, ellipse, polygon etc., as long as not affecting the normal fortune of light sensor 12
Row.
In a kind of possible embodiment, first the 321, second basic unit 322 of basic unit is made of clear material.Such as, may be used
Think clear glass or transparent resin or transparent acrylic material.
In a kind of possible embodiment, first the 321, second basic unit 322 of basic unit is made up of colored materials.Such as, may be used
Think coloured glass or colouring resin or coloured acrylic material.Color-changing lens 3 uses acrylic material to encapsulate polymer liquid
Brilliant and ITO conducting film is made, and can alleviate eyeglass weight, and acrylic material has the preferable transparency, chemical stability in addition
With the advantage such as weatherability, easy dyeing, easy processing, attractive appearance.
In a kind of possible embodiment, first the 321, second basic unit 322 of basic unit can be template, plate with radian
Material, concave mirror type, convex lens type, or other shapes, as long as this lens shape can be arranged in groove 14 with clamping, or this eyeglass shape
The edge of shape can be arranged in groove 14 with clamping.
In a kind of possible embodiment, the first electrode is by having resilient metallic conducting media, nonmetal to 15
Conducting medium or a combination thereof are made.First electrode, to 15, is used for fixing color-changing lens 3, simultaneously as conducting medium, connects ITO
Conducting film, it is therefore desirable to there is certain elasticity.Such as make the having damascene copper sheet alloy on resilient plastic base
One electrode is to 15, and plastic base is fixed on picture frame, and copper alloy plate is then mutual with the transmission electrode of extraction on ITO conducting film
Abutting, on the one hand plastic base and copper alloy plate have certain elasticity, can be well by fixing for color-changing lens 3 and picture frame 1
On, on the other hand as good insulator, plastics are avoided that copper alloy plate leaks electricity to picture frame 1 direction, and copper alloy is as good
Good conductor, the beneficially conduction of electric energy.
In a kind of possible embodiment, as shown in Figure 4, be additionally provided with in the hollow cavity of light-sensitive sunglasses micro-with described
The brightness regulation button 24 that controller is electrically connected with, by pressing, stirring, the mode such as touch to brightness regulation button 24, permissible
User is allowed to regulate the transmittance of eyeglass voluntarily.So, user is in addition to can be by being automatically adjusted transmittance, it is also possible to carry out hands
Dynamic regulation.
In a kind of possible embodiment, brightness regulation button 24, power module 25 can be separately provided wherein one
The hollow cavity of bar temple 2, it is also possible to scattering device is at the hollow cavity of two temples 2.
Microcontroller, according to the testing result of light sensor 12 or the regulating command of brightness regulation button, sends corresponding
Control instruction, adjust voltage by Control of Voltage submodule, thus by the control break polymerised liquid crystal layer 34 of voltage
Polymer liquid crystal molecule towards with reach change eyeglass transmittance purpose.
Control of Voltage submodule, can be voltage control circuit, it is also possible to for other Control of Voltage components and parts, if permissible
Reach voltage-controlled purpose.
In a kind of possible embodiment, color-changing lens 3 can be reinforced by the first bracing means 4.As it is shown in figure 5,
Light-sensitive sunglasses for the invention offer use the overall structure schematic diagram of the first bracing means.As shown in Figure 6, for the present invention
The light-sensitive sunglasses that creating provides use the frame structure schematic diagram of the first bracing means.
If Fig. 7 is that the light-sensitive sunglasses that the invention provides use the eyeglass of the first bracing means to cut open with picture frame attachment structure
Face schematic diagram, Fig. 8 are that the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control of the present invention uses the first bracing means
Frame structure generalized section, Fig. 9 be a kind of adaptive optical sensing control of the present invention electronic color-changing intelligent glasses
One bracing means generalized section.Specifically, the first bracing means 4 includes clamp 41 and is arranged on the semicircle on clamp 41
Draw-in groove 43, wherein one end of clamp 41 is clamping mutual with color-changing lens 3, and the other end of clamp 41 is clamping mutual with picture frame 1,
Being provided with the first groove 16 on picture frame 1, and be provided with shell fragment 17 in the first groove 16, the inwall of described semicircle draw-in groove 43 is
Mutually abut fixing with shell fragment 17.
In a kind of possible embodiment, the first described bracing means 4 also includes the nose support being arranged on clamp 41
42.It addition, can also be actually needed according to user on the side that described picture frame 1 is close with the bridge of the nose, it is movably set with myopia
Eyeglass, can use the application of many scenes.
In this case, color-changing lens 3 except top by the first electrode in groove 14 to 15 chucking power in addition to,
Eyeglass can also be therefore made more to be firmly installed in picture frame in side by supporting force and the chucking power of the first bracing means 4
On.
In a kind of possible embodiment, color-changing lens 3 can be reinforced by the second bracing means 5.As shown in Figure 10,
Light-sensitive sunglasses for the invention offer use the overall structure schematic diagram of the second bracing means.
As shown in figure 11, the light-sensitive sunglasses provided for the invention use the frame structure of the second bracing means to illustrate
Figure.Specifically, the second described bracing means 5 is the block pressur plate adapted with picture frame 1 outer surface, and one end of pressing plate is to pass through
Hinge 50 is hinged with picture frame 1, and the other end of pressing plate is by buckle 52 and the mutual clamping of picture frame 1, the second bracing means 5
Lower end is provided with and the draw-in groove 53 of the mutual clamping in color-changing lens 3 lower end, and the upper end of the second bracing means 5 is to abut with picture frame 1, and
Pressing plate is provided with the second through hole 51 in the position of corresponding through hole 11.
In this case, color-changing lens 3 except top by the first electrode in groove 14 to 15 chucking power in addition to,
Eyeglass can also be therefore made more firmly to install in side and bottom by supporting force and the chucking power of the second bracing means 5
On picture frame.
In a kind of possible embodiment, described picture frame 1 is hinged with described temple 2, and in described picture frame 1 and temple
The switch 13 for controlling glasses system switch it is provided with on groove 14 inwall of 2 junctions.Described switch 13 is that fine motion is opened
Close, rocker switch or other can send certain signal of telecommunication by pressing or change the opening of circuit working state by stirring
Close, and be provided with projection 26 on temple 2 one end hinged with picture frame 1, by temple 2 rotarily drive projection 26 press or group
Dynamic switch 13, described projection 26 is suitable with switch 13 quantity, and i.e. the quantity that arranges of projection 26 should be with the quantity phase of switch 13
Deng or the quantity of quantity slightly more than switch 13 of projection 26.
In a kind of possible embodiment, described switch 13 is the company being provided separately within picture frame 1 with a wherein temple 2
Connect at least one of place, or be separately positioned at least two of the junction of picture frame 1 and two temples 2, corresponding convex
Block 26 quantity should equal with the quantity of switch 13 or slightly more than switch 13 quantity.
Microcontroller is pressed number of times by read switch 13 and is sequentially generated certain system command and according to instruction
Perform, the most in one embodiment, be respectively arranged at two switches 13 of about two temples and picture frame junction, respectively by a left side
Projection 26 in right temple is responsible for pressing, it is assumed that the invention original state is that left and right temple 2 is packed up, then when in a period of time
The switch 13 that rotation left and right temple 2 presses correspondence successively then generates start-up command and starts shooting;The most such as the invention is in out
During machine state, individually pack up right side temple 2 and then generate system dormancy instruction dormancy.This control mode is simple and convenient, saves
The trouble that the external equipments such as extra connection mobile phone are controlled.
In a kind of possible embodiment, picture frame 1 is hinged with described temple 2, each electronic component and mirror in temple inner chamber
On frame, the interconnective cable of each electronic component is to pass from temple one end, and is provided with the line of fixed cable in picture frame groove
Groove, or directly by Shooting Technique, cable is packaged in groove 14.
The electronic color-changing intelligent glasses of a kind of adaptive optical sensing control of the present invention, including picture frame, temple and change
Color eyeglass, picture frame therein and temple have hollow structure, and hollow structure alleviates the overall weight of glasses, arranges in addition in temple
There are pcb board, brightness regulation button and power module, pcb board is integrated with microcontroller and Control of Voltage submodule, picture frame
On be provided with the light sensor for detecting external light intensity, the testing result of light sensor is as system fading margin eyeglass
The foundation of transmittance, strengthen the sensitivity of transmittance regulation;Color-changing lens use acrylic material encapsulation polymer liquid crystal and
ITO conducting film is made, and alleviates eyeglass weight, the ITO conducting film in eyeglass drawn by transmission electrode and with in picture frame groove
First electrode clamping, the first electrode is connected with the Control of Voltage submodule on pcb board, the voltage control circuit control by voltage
Change polymer liquid crystal molecule towards with reach change eyeglass transmittance purpose;It is provided with micro-at picture frame with temple hinged place
Dynamic switch, reached the purpose of opening/closing system by the folding point of rotation of temple by microswitch, reduces glasses when not in use
Power consumption, improves cruising time;Concave lens also it is movably set with on the side that picture frame is close with the bridge of the nose.This concave lens is by card
The support being connected to picture frame is connected with the present invention, conveniently has this product of librarian use of myopia.It is rational in infrastructure, has structure letter
Single, easy to use, length in cruising time, highly sensitive, intelligence degree advantages of higher, effectively solve existing glasses under intense light irradiation
Problem to eye protection poor effect.
With the above-mentioned desirable embodiment according to the present invention for enlightenment, by above-mentioned description, relevant staff is complete
Entirely can carry out various change and amendment in the range of without departing from this invention technological thought.The technology of this invention
The content that property scope is not limited in description, it is necessary to determine its technical scope according to right.
Claims (10)
1. an electronic color-changing intelligent glasses for adaptive optical sensing control, including picture frame (1), have cavity and with picture frame (1) phase
The most hinged temple (2) and be arranged on power module (25) and the microcontroller of temple (2) inner chamber, is characterized in that: described
Groove (14) and the through hole (11) of communication groove (14), the institute installing color-changing lens (3) for clamping it is provided with on picture frame (1)
State be provided with on the inwall of groove (14) the first electrode to (15) light sensor (12) corresponding with through hole (11) position and
It is connected to control the switch (13) of glasses system with microcontroller;
Described color-changing lens (3) includes the first basic unit (321) from top to bottom arranged, an ITO conductive film layer (331), gathers
Compound liquid crystal layer (34), the 2nd ITO conductive film layer (332), the second basic unit (322);
Described first basic unit (321) is provided with the first transmission electrode being electrically connected with a described ITO conductive film layer (331)
(311), described second basic unit (322) is provided with the second transmission electrode being electrically connected with described 2nd ITO conductive film layer (332)
(312);Described first transmission electrode (311), the second transmission electrode (312) respectively with described first electrode to (15) clamping;
Described microcontroller is mutually electrically to connect (15) with power module (25), light sensor (12), the first electrode respectively
Connect.
The electronic color-changing intelligent glasses of a kind of adaptive optical sensing control the most according to claim 1, is characterized in that: described
(15) are made by the first electrode by having resilient metallic conducting media, radio frequency medium or a combination thereof.
The electronic color-changing intelligent glasses of a kind of adaptive optical sensing control the most according to claim 1, is characterized in that: described
Switch (13) is at least one being provided separately within picture frame (1) and the wherein junction of a temple (2), or is separately positioned on
At least two of the junction of picture frame (1) and two temples (2).
The electronic color-changing intelligent glasses of a kind of adaptive optical sensing control the most according to claim 1, is characterized in that: described
Temple (2) and picture frame (1) junction are provided with for the point of rotation by the projection (26) of switch (13), described projection (26) with open
Close (13) quantity suitable.
The electronic color-changing intelligent glasses of a kind of adaptive optical sensing control the most according to claim 4, is characterized in that: described
Temple (2) inner chamber is additionally provided with the pcb board (23) of integrated GPS module, baroceptor, gyroscope and accelerometer, described
GPS module, baroceptor, gyroscope and accelerometer be electrically connected with each other with microcontroller.
The electronic color-changing intelligent glasses of a kind of adaptive optical sensing control the most according to claim 1, is characterized in that: described
The brightness regulation button (24) being electrically connected with described microcontroller it is additionally provided with in temple (2) or picture frame (1).
The electronic color-changing intelligent glasses of a kind of adaptive optical sensing control the most according to claim 1, is characterized in that: described
Color-changing lens (3) is to be reinforced by the first bracing means (4) or the second bracing means (5).
The electronic color-changing intelligent glasses of a kind of adaptive optical sensing control the most according to claim 7, is characterized in that: described
First bracing means (4) includes clamp (41), and be provided with semicircle draw-in groove (43) on clamp (41), wherein clamp (41)
One end is and color-changing lens (3) mutually clamping, and the other end of clamp (41) is and picture frame (1) mutually clamping, and picture frame (1) is upper to be arranged
Have the first groove (16), and in the first groove (16), be provided with shell fragment (17), the inwall of described semicircle draw-in groove (43) be with
Shell fragment (17) mutually abuts fixing.
The electronic color-changing intelligent glasses of a kind of adaptive optical sensing control the most according to claim 1, is characterized in that: described
Concave lens also it is movably set with on the side that picture frame (1) is close with the bridge of the nose.
10., according to the electronic color-changing intelligent glasses of a kind of adaptive optical sensing control described in claim 7 or 9, it is characterized in that: institute
The second bracing means (5) stated is the block pressur plate adapted with picture frame (1) outer surface, and one end of pressing plate is by hinge (50)
Being hinged with picture frame (1), the other end of pressing plate is by buckle (52) and picture frame (1) mutually clamping, the second bracing means (5)
Lower end be provided with and the draw-in groove (53) of the mutual clamping in color-changing lens (3) lower end, the upper end of the second bracing means (5) is and picture frame
(1) abut, and pressing plate is provided with the second through hole (51) in the position of corresponding through hole (11).
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CN106773126A (en) * | 2017-03-08 | 2017-05-31 | 黄世杰 | A kind of Electrocontrolled color change glasses |
CN107908065A (en) * | 2017-12-21 | 2018-04-13 | 苏州视由谱光电科技有限公司 | Adaptive light sensation optical projection system and its method for displaying projection |
CN108897143A (en) * | 2018-08-24 | 2018-11-27 | 深圳市韶音科技有限公司 | A kind of glasses |
CN110221436A (en) * | 2019-05-31 | 2019-09-10 | 华为技术有限公司 | A kind of head-mounted display apparatus and head-mounted display apparatus component |
CN112130347A (en) * | 2020-09-21 | 2020-12-25 | 珠海市绮光科技有限公司 | Normally black super-power-saving liquid crystal color-changing glasses and using method thereof |
US11022822B2 (en) | 2018-11-23 | 2021-06-01 | International Business Machines Corporation | Context aware dynamic color changing lenses |
US11080527B2 (en) | 2018-11-23 | 2021-08-03 | International Business Machines Corporation | Cognition enabled dynamic color changing lenses |
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CN106773126A (en) * | 2017-03-08 | 2017-05-31 | 黄世杰 | A kind of Electrocontrolled color change glasses |
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CN112130347A (en) * | 2020-09-21 | 2020-12-25 | 珠海市绮光科技有限公司 | Normally black super-power-saving liquid crystal color-changing glasses and using method thereof |
WO2022227794A1 (en) * | 2021-04-30 | 2022-11-03 | 捷开通讯(深圳)有限公司 | Brightness adjusting glasses |
CN113917705A (en) * | 2021-09-09 | 2022-01-11 | 江西台德智慧科技有限公司 | Intelligent visual interaction system for different light and shade environments and control method thereof |
CN114137741A (en) * | 2021-12-03 | 2022-03-04 | 盐城吉研智能科技有限公司 | Multifunctional glasses |
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Application publication date: 20161221 |