CN104730729A - Smart spectacles capable of automatically adjusting transparency of lenses according to ambient light intensity - Google Patents

Abstract

The invention discloses a pair of smart spectacles capable of automatically adjusting the transparency of lenses according to the ambient light intensity. The smart spectacles comprise a spectacle rack, left lens, a right lens, a control switch, a left film solar cell and energy storage device, a right film solar cell and energy storage device, an ambient light sensor an a control chip, wherein the left lens and the right lens are respectively embedded into two spectacle frame parts, and are divided into three layers, namely a first lens layer, a liquid crystal molecule interlayer and a second lens layer from outside to inside. The smart spectacles are capable of automatically adjusting the transparency of the lenses according to the intensity of ambient light to adapt with the illumination comfort level of human eyes; the ambient light sensor is used for converting the ambient light around the eyes into electric signals in a working state, treating by virtue of the control chip, and then outputting control voltage to the liquid crystal molecule layer of each lens interlayer. The light transmittance of each liquid crystal molecule layer is changed by changing the polarization state of liquid crystal molecules and combining a specific ambient light polarization state, so that continuous and automatic adjustment of the light transmittance of the lens adapting with the ambient light intensity is realized.

Description

A kind of environmentally light intensity regulates the intelligent glasses of eyeglass transparency automatically

Technical field

The present invention relates to intelligent glasses.These glasses can light intensity change around perception wearer, and after process chip calculates, automatically adjust the transparency of eyeglass, the light intensity that wearer's eyes are received is in comfortable intensity level always thereupon, strengthens and wears experience.This invention has user group widely: be both applicable to the crowd that myopia, long sight etc. wear vision correction mirror, also can be used as common sunglasses, be suitable for the crowd without the need to vision correction.Meanwhile, can be applicable to the various complex illumination environment such as indoor, outdoor, strong sunlight environment or cloudy environment.

Background technology

Sunglasses are the daily necessities under the high light conditions such as summer.But the transmittance of common sunglasses is normally fixing, cannot realize the automatic adjustment of transparency according to different environmental lighting conditions.In addition, for needing to wear the crowd of the eyesight correcting glasses such as myopia or long sight, need to carry two width glasses could meet indoor or outdoors photoenvironment respectively under user demand.For this reason, present invention incorporates can the liquid crystal technology of light regulating transmitance continuously, and the technology such as ambient light sensor and single-chip microcomputer, to realizing the automatic adjustment of eyeglass transparency along with environmental light intensity.

Summary of the invention

The object of the invention is to provide a kind of new-type intelligent glasses, and the transparency of its eyeglass can the power of environmentally light adjust automatically, thus conveniently wears vision correction lens or wear the crowd of fixing transmittance sunglasses.This device has small volume and less weight, does not increase added burden relative to common spectacles; Without the need to charging, automatically provide required electric energy by thin-film solar cells, without the need to manual intervention, the power of environmentally light can automatically regulate the feature of eyeglass transparency.The life be expected to for people is brought convenience.

Major integration of the present invention and have employed following three types of technology:

1. liquid crystal technology

One large feature of liquid crystal molecule is exactly under the effect of extra electric field, can change the polarised direction of self, thus the light intensity of the special polarization state through liquid crystal molecule is changed, show as the adjustment to light penetration.Current, layer of liquid crystal molecule is widely used in kinds of displays, by regulating the photon number by each pixel different colours filter disc place, realizes the colour display of image.

2. ambient light sensor technology

Ambient light sensor converts ambient light intensity to electric signal, and for different ambient light intensities, the signal that ambient light sensor exports changes thereupon.

3. singlechip technology

Single-chip microcomputer simply can process input signal and determine output signal.Can the voltage signal of environmentally optical sensor input, regulate and be applied to the magnitude of voltage at liquid crystal molecule interlayer place.

By the combination of above three class major techniques, and be aided with corresponding assembling, expection can realize the function that described environmentally light intensity regulates eyeglass transparency automatically.

Technical solution of the present invention is as follows:

A kind of environmentally light intensity regulates the intelligent glasses of eyeglass transparency automatically, its feature is, comprise the mirror holder that is made up of two picture frame portions and temple portion and the left eyeglass embedded respectively in two picture frame portions and right eyeglass, meanwhile, also comprise: gauge tap, left thin-film solar cells and energy storage device and right thin-film solar cells and energy storage device, ambient light sensor and control chip;

Described left eyeglass and right eyeglass are divided into three layers, are followed successively by the first mirror plate layers, liquid crystal molecule interlayer and the second mirror plate layers from outside to inside;

Described gauge tap is embedded in the temple portion of mirror holder;

Described left thin-film solar cells and energy storage device and right thin-film solar cells and energy storage device are embedded in the upper surface in picture frame portion respectively;

Described ambient light sensor is embedded in mirror holder, and is positioned at Centromedian position above nose support, along direction, the visual field, eyeglass wearer dead ahead.

Described ambient light sensor, control chip, liquid crystal molecule interlayer are interlocks, ambient light intensity around described ambient light sensor perception eyeglass wearer, and export specific electric signal according to the power of light, described control chip receives the electric signal about light intensity from ambient light sensor, and after it is decoded, according to the relation of the intensity of illumination be recorded in chip and output voltage, control the magnitude of voltage being applied to sandwiching liquid crystal place, and then control the transmittance of this sandwiching liquid crystal.

The first described mirror plate layers and its transmittance of the second mirror plate layers can reach more than 95%.

The first described mirror plate layers and the second mirror plate layers can be post lens, concavees lens, convex lens or level crossing, to be applicable to vision correction function and the situations without the need to vision correction such as myopia, long sight or astigmatism simultaneously.

The first described mirror plate layers and the second mirror plate layers scribble the conductive film of nanometer scale in the one side near liquid crystal molecule interlayer, are used as and execute alive electrode to liquid crystal molecular-clips layer.

The first described mirror plate layers, liquid crystal molecule interlayer, the second mirror plate layers, three's tight formation glued together entirety.That is, two gummed surface of contact of three are respectively the front and rear surfaces of liquid crystal molecule interlayer, without air in surface of contact.

Described liquid crystal molecule interlayer, under different impressed voltages, presents different polarize states, thus regulates the light intensity through this interlayer.

Described gauge tap is a kind of push switch; Press a closed circuit, press twice disconnecting circuit.

Compared with prior art, the invention has the beneficial effects as follows:

1. convert surround lighting energy to electric energy by thin-film solar cells, package unit carries out charging without the need to external power source can provide the whole energy met needed for day-to-day operation.

2. by ambient light sensor perception ambient light intensity, and this light intensity signal is inputed to control chip, regulated the voltage be applied on sandwiching liquid crystal by control chip, thus realize the adjustment to liquid crystal layer transparency, and then realize the penetrability regulatory function of eyeglass.

3., under more weak indoor light environment, the penetrability of eyeglass can reach more than 90%.

4., under stronger light environment, as the open-air conditions in summer, the transparency of eyeglass can be low to moderate less than 20%, thus effectively weakens the sense of discomfort brought to human eye compared with high light line.

5. glasses transparency be adjusted to full-automatic process, without the need to artificial interference.And complete transparency adjustment process in the millisecond magnitude that can change in ambient light intensity.

Accompanying drawing explanation

Fig. 1 is the structural representation that a kind of environmentally light intensity of the present invention regulates the intelligent glasses of eyeglass transparency automatically;

Fig. 2 is the structural representation with the eyeglass of sandwiching liquid crystal that a kind of environmentally light intensity of the present invention regulates the intelligent glasses of eyeglass transparency automatically.

Embodiment

Below in conjunction with embodiment and accompanying drawing, the invention will be further described, but should not limit the scope of the invention with this.

First refer to Fig. 1, Fig. 1 is the structural representation that a kind of environmentally light intensity of the present invention regulates the intelligent glasses of eyeglass transparency automatically.As seen from the figure, a kind of environmentally light intensity of the present invention regulates the intelligent glasses of eyeglass transparency automatically, comprising: gauge tap 101, left thin-film solar cells and energy storage device 102a and right thin-film solar cells and energy storage device 102b, with the left eyeglass 103a of sandwiching liquid crystal and right eyeglass 103b, ambient light sensor 104, control chip 105, mirror holder 106.

The position relationship of above-mentioned component is as follows: described gauge tap 101 is embedded in the temple part of mirror holder 106; Described left thin-film solar cells and energy storage device 102a and right thin-film solar cells and energy storage device 102b are embedded in the top of two spectacle-frame installation sites of mirror holder respectively; The described left eyeglass 103a with sandwiching liquid crystal and right eyeglass 103b is embedded in two spectacle-frame installation sites of spectacle frame respectively; Described ambient light sensor 104 is embedded in spectacle frame, and is positioned at Centromedian position above nose support, along direction, the visual field, eyeglass wearer dead ahead.

Refer to Fig. 2 again, Fig. 2 is the structural representation with the eyeglass of sandwiching liquid crystal that a kind of environmentally light intensity of the present invention regulates the intelligent glasses of eyeglass transparency automatically.Lens 103a, 103b with sandwiching liquid crystal have three-decker, wherein, comprise the first mirror plate layers 201, liquid crystal molecule interlayer 202, second mirror plate layers 203 from front to back; These described three layer structures are closely glued together.

Described gauge tap 101 is a kind of push switch; Press a closed circuit, press twice disconnecting circuit.

Described thin-film solar cells and energy storage device 102a, 102b comprise a kind of thin-film solar cells, have when there being illumination, luminous energy are converted to the function of electric energy.

Described thin-film solar cells and energy storage device 102a, 102b include electric energy storage elements, the electric energy that thin-film solar cells conversion is got can be carried out storing and outwards exporting the electric energy stored.

Described thin-film solar cells and energy storage device 102a, 102b have two covers, are embedded in the top of spectacle frame 106 left eye and right eye eyeglass installing frame respectively, and these two parts are with the form of parallel connection composition general supply, jointly export electric energy.

Described eyeglass 103a, 103b with sandwiching liquid crystal has two panels, in the left eye laying respectively at spectacle frame 106 and right eye eyeglass installing frame.

Described eyeglass 103a, 103b with sandwiching liquid crystal has three-decker, this three-decker is divided into the first mirror plate layers 201, liquid crystal molecule interlayer 202, second mirror plate layers 203 from front to back, and three moieties into close that three-decker comprises are glued together, form unified entirety.

The first mirror plate layers 201 in the three-decker of described eyeglass 103a, 103b with sandwiching liquid crystal and the second mirror plate layers 203 can be concavees lens, convex lens, post lens or level crossing, to be applicable to vision correction function and the situations without the need to vision correction such as myopia, long sight or astigmatism simultaneously.

The first mirror plate layers 201 in the three-decker of described eyeglass 103a, 103b with sandwiching liquid crystal and the second mirror plate layers 203 are coated with the electrode of nanometer scale thickness in the one side being close to liquid crystal molecule interlayer 202, for realizing the bias voltage being added on layer of liquid crystal molecule.

The first mirror plate layers 201 in the three-decker of described eyeglass 103a, 103b with sandwiching liquid crystal and the second mirror plate layers 203 have the eyeglass being better than 95% light penetration.

Described ambient light sensor 104 can ambient light intensity around perception eyeglass wearer, and exports specific electric signal according to the power of light.

Described process chip 105 is a kind of signal transacting and control chip, receives the light intensity signal coming from ambient light sensor 104 and provide, and controls the magnitude of voltage being applied to sandwiching liquid crystal 202 place, and then controls the transmittance of this sandwiching liquid crystal 202.

Described thin-film solar cells and energy storage device, convert the luminous energy of surround lighting to electric energy and carry out storing and exporting, providing the power consumption needed for described contrive equipment.

Described ambient light sensor converts experienced ambient light intensity to electric signal, and this electric signal is corresponding with certain ambient light intensity.

Described control chip receives the electric signal coming from described ambient light sensor, and determines based on this electric signal the magnitude of voltage being applied to liquid crystal molecule interlayer two ends.

Described liquid crystal molecule interlayer can change transmittance according to the voltage be applied on the two poles of the earth.

The described eyeglass with sandwiching liquid crystal first and three mirror plate layers there is the light transmission efficiency being better than 95%, any modulation is not produced to the light transmission efficiency of eyeglass.

The described eyeglass with sandwiching liquid crystal first and three mirror plate layers can be post lens, concavees lens, convex lens or level crossing, be applicable to astigmatism, myopia, long sight or the multiple application conditions without the need to vision correction.

Principle of work of the present invention:

The transmittance of liquid crystal molecule interlayer changes by the effect of extra electric field.Gather extraneous light intensity signal by ambient light sensor, by its input control chip, by the voltage that liquid crystal molecule interlayer under control chip decision certain light intensity condition applies, thus realize the adjustment to eyeglass transparency.Whole feedback and adjustment process are full automatic, can complete whole feedback and adjustment process, without the need to manual intervention in the millisecond magnitude after surround lighting changes.In addition, the luminous energy that the electric energy needed for whole system is changed by thin-film solar cells obtains, without the need to external voltage or external charge device.

Claims (9)

1. one kind environmentally light intensity automatically regulate the intelligent glasses of eyeglass transparency, it is characterized in that, comprise the mirror holder (106) that is made up of two picture frame portions and temple portion and the left eyeglass (103a) embedded respectively in two picture frame portions and right eyeglass (103b), also comprise: gauge tap (101), left thin-film solar cells and energy storage device (102a) and right thin-film solar cells and energy storage device (102b), ambient light sensor (104) and control chip (105);

Described left eyeglass (103a) and right eyeglass (103b) are divided into three layers, are followed successively by the first mirror plate layers (201), liquid crystal molecule interlayer (202) and the second mirror plate layers (203) from outside to inside;

Described gauge tap (101) is embedded in the temple portion of mirror holder (106);

Described left thin-film solar cells and energy storage device (102a) and right thin-film solar cells and energy storage device (102b) are embedded in the upper surface in picture frame portion respectively;

Described ambient light sensor (104) is embedded in mirror holder (106), and is positioned at Centromedian position above nose support, along direction, the visual field, eyeglass wearer dead ahead.

2. a kind of environmentally light intensity according to claim 1 regulates the intelligent glasses of eyeglass transparency automatically, it is characterized in that: described ambient light sensor (104), control chip (105), liquid crystal molecule interlayer (202) is interlock, ambient light intensity around described ambient light sensor (104) perception eyeglass wearer, and export specific electric signal according to the power of light, described control chip receives the electric signal about light intensity from ambient light sensor, and after it is decoded, according to the relation of the intensity of illumination be recorded in chip and output voltage, control is applied to the magnitude of voltage at sandwiching liquid crystal (202) place, and then control the transmittance of this sandwiching liquid crystal (202).

3. a kind of environmentally light intensity according to claim 1 regulates the intelligent glasses of eyeglass transparency automatically, it is characterized in that: described gauge tap (101) is a kind of push switch; Press a closed circuit, press twice disconnecting circuit.

4. a kind of environmentally light intensity according to claim 1 regulates the intelligent glasses of eyeglass transparency automatically, it is characterized in that: described thin-film solar cells and energy storage device (102a, 102b) comprise thin-film solar cells, having when there being illumination, luminous energy being converted to the function of electric energy.

5. a kind of environmentally light intensity according to claim 1 regulates the intelligent glasses of eyeglass transparency automatically, it is characterized in that: described thin-film solar cells and energy storage device (102a, 102b) include electric energy storage elements, the electric energy that thin-film solar cells conversion is got is carried out store and outwards export the electric energy stored.

6. a kind of environmentally light intensity according to claim 1 regulates the intelligent glasses of eyeglass transparency automatically, it is characterized in that: described left thin-film solar cells and energy storage device (102a) and right thin-film solar cells and energy storage device (102b), with the form of parallel connection composition general supply, export electric energy jointly.

7. a kind of environmentally light intensity according to claim 1 regulates the intelligent glasses of eyeglass transparency automatically, it is characterized in that: described the first mirror plate layers (201) and the second mirror plate layers (203) are concavees lens, convex lens, post lens or level crossing.

8. a kind of environmentally light intensity according to claim 1 regulates the intelligent glasses of eyeglass transparency automatically, it is characterized in that: described the first mirror plate layers (201) and the second mirror plate layers (203) are all coated with the conductive film of nanometer scale in the one side being close to liquid crystal molecule interlayer (202), be used as and execute alive electrode to liquid crystal molecular-clips layer.

9. a kind of environmentally light intensity according to claim 1 regulates the intelligent glasses of eyeglass transparency automatically, it is characterized in that: the first mirror plate layers (201) in the three-decker of the described eyeglass with sandwiching liquid crystal (103a, 103b) and the second mirror plate layers (203) are the common spectacles eyeglasses with more than 95% transmittance.