CN112130349A - Variable multi-color Bluetooth headset glasses - Google Patents

Abstract

The application discloses changeable multicolour's bluetooth headset glasses, including mirror holder, the lens of can adjusting luminance, control circuit board and bluetooth headset, the lens of can adjusting luminance set up in on the picture frame of mirror holder, bluetooth headset with control circuit board electricity wireless connection. The variable multi-color Bluetooth headset glasses can be blackened by the blue, green and red transparent glasses, can adapt to the current light intensity by adjusting the brightness state of the adjustable light lenses of the blue tooth headset when the blue tooth headset is used for listening to music, navigating and voice communication and changing environments with different light intensities, and can bring good experience to users in the aspects of hearing and vision by matching with the functions of the Bluetooth headset, and can also be suitable for more scenes.

Description

Variable multi-color Bluetooth headset glasses

Technical Field

The utility model relates to a membrane technical field that adjusts luminance, in particular to bluetooth headset glasses of variable many colourings.

Background

Along with the development of intelligent wearing equipment and the continuous improvement of people's standard of living, the use of various intelligent wearing equipment is more and more popularized. Such as glasses with bluetooth headset functionality. The glasses are loved and used by more and more people due to the function of the Bluetooth headset, and the user can also realize the functions of listening to music, navigation, voice communication and the like while playing the role of modifying the appearance by wearing the glasses with the function of the Bluetooth headset, thereby providing convenience for the daily life of people.

However, in real life, people may change the environment at any time when using the function of the bluetooth headset of the glasses. For example, if the indoor signal is not good, the conversation is carried out when the indoor signal is switched to the outdoor with strong light; driving or walking to dim light or strong light areas during navigation; and also for example, from indoor to outdoor places such as beach, etc. to play music. When people wear the glasses with the function of the Bluetooth headset and experience various scenes including the above-mentioned scenes, the glasses cannot adapt to environments with different light intensities and cannot obtain good use experience.

The electrochromic EC device is a phenomenon that the optical properties of the material, such as reflectivity, transmittance and absorptivity, generate stable and reversible color change under the action of an external electric field, and the electrochromic EC device is represented by reversible changes of color and transparency in appearance. The defects and limitations are shown in the change of transparency, namely shading, but the light does not really block the sight, and meanwhile, the low molecular liquid crystal has no color; the polymer dispersed liquid crystal PDLC basic structure is a composite material with liquid crystal microdroplets uniformly dispersed in a polymer matrix, and the material can show two states of transparency and scattering under the switching action of an electric field; its disadvantage and limitation are two states of transparency and scattering, blocking the sight, fogging, single color, no other colors can be selected.

Therefore, it is necessary to develop a bluetooth headset glasses capable of changing multiple colors.

Technical problem

The main objective of this application is to provide a variable multicolour bluetooth headset glasses, when aiming at solving and using the bluetooth headset function, the liquid crystal membrane of adjusting luminance of adaptable different light intensity to adjust the single problem of colour.

Technical solution

The technical scheme adopted by the application for solving the technical problems is as follows:

the utility model provides a variable multicolour bluetooth headset glasses, includes the mirror holder, can adjust luminance lens, control circuit board and bluetooth headset, can adjust luminance the lens set up in on the picture frame of mirror holder, bluetooth headset with the electric wireless connection of control circuit board, its control circuit board electric set up in on the mirror leg of mirror holder, in the fixture of mirror leg is gone into to bluetooth headset card, can adjust luminance the lens be with the liquid crystal film that the control circuit board electricity is connected.

Furthermore, the control circuit board is provided with a three-color soldering driving circuit, a single-color driving circuit, a solar chip, a battery, a switching circuit, a touch circuit and a battery, the output end of the solar chip is electrically connected with the battery, the battery and the solar chip are connected with the switching circuit, the touch circuit is connected with the battery and used for changing the capacitance value of the battery, and the output end of the switching circuit is connected with the three-color driving circuit or the single-color driving circuit.

Furthermore, the dimmable lens comprises three color-changeable liquid crystal dimming films, one liquid crystal dimming film and one light sensing lens, the three color-changeable liquid crystal dimming films are superposed with the light sensing lens or superposed with the light sensing lens, and the three color-changeable liquid crystal dimming films are respectively a red liquid crystal film, a blue liquid crystal film and a green liquid crystal film.

Furthermore, the red liquid crystal film, the blue liquid crystal film and the green liquid crystal film are respectively composed of a first substrate layer, a first conducting layer, a color liquid crystal dimming film, a second conducting layer and a second substrate layer, the first conducting layer, the second conducting layer and the second substrate layer are connected to form an empty box, corresponding dye liquid crystals are filled into the three different empty boxes to form the color liquid crystal dimming film, the upper surface and the lower surface of the color liquid crystal dimming film are respectively connected with the two surfaces of the first conducting layer and the second conducting layer, and the other surfaces of the first conducting layer and the second conducting layer are correspondingly covered with the first substrate layer and the second substrate layer.

Furthermore, a switching key and a touch screen which are connected with the switching switch circuit and the touch circuit are respectively arranged on the edge of the outer side of the glasses leg, the switching key is used for controlling the circuit change of the switching switch circuit, and the touch screen is used for controlling the on-off of the touch circuit.

Further, processing the draw-in groove that holds bluetooth headset on the port of mirror leg, fixture sets up at the draw-in groove, and fixture includes spring, preforming and pivot, and the one end and the pivot of preforming are connected, and are rotatory around the draw-in groove inner wall through the pivot to the other end of preforming and the spring coupling of fixing on the draw-in groove inner wall, bluetooth headset inserts in the draw-in groove, and the spring action is in preforming centre gripping bluetooth headset.

Furthermore, the three-color driving circuit is respectively connected with a first conducting layer and a second conducting layer of the red liquid crystal film, the blue liquid crystal film and the green liquid crystal film, and the first conducting layer and the second conducting layer apply driving voltage to drive the dye liquid crystal molecules of the color liquid crystal dimming film to deflect.

Further, the red liquid crystal film, the blue liquid crystal film and the green liquid crystal film are electrochromic dye liquid crystals made of one of TN, GH or EC, liquid crystal molecules are matched with dyes with different colors, dye liquid crystals with three different colors of red, green and blue are prepared, and the first substrate layer and the second substrate layer are made of hard glass or flexible PET, PC, Cop and COC.

Further, the light sensing lens comprises a transparent base layer and a light sensing material layer covering the transparent base layer.

Advantageous effects

This variable multicolour bluetooth headset glasses have GH guest host computer type dyestuff liquid crystal clamp between transparent electrode, when in addition getting rid of the pressure, the dyestuff molecule is joined in marriage along with liquid, the directional arrangement of molecule forms orderly arrangement, the dyestuff of the different colours of liquid crystal molecule ratio, thereby the allotment is red, green, the dyestuff liquid crystal of three kinds of different colours of blue, red, green, when blue is transparent, also can become black by self limit, with listen to the music through bluetooth headset, navigation, voice conversation, and when changing the environment of different light intensity, the bright and dark state of its adjustable light lens is adjusted in order to adapt to light intensity at present to the accessible, cooperate with the bluetooth headset function, bring good experience for the user in sense of hearing and vision, also can be applicable to more scenes.

Drawings

Fig. 1 is a schematic structural diagram of a variable multi-color bluetooth headset according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a pair of variable multi-color Bluetooth headset eyeglasses according to another embodiment of the present invention;

fig. 3 is a structural diagram of a light adjustable lens of the variable multi-color bluetooth headset glasses in fig. 2.

FIG. 4 is a circuit diagram of a tri-color driving circuit of the variable multi-color Bluetooth headset eyeglasses in FIG. 2;

FIG. 5 is a circuit diagram of a monochrome driver circuit for the variable multi-color Bluetooth headset eyeglasses in FIG. 2;

FIG. 6 is a schematic diagram of a normal state diagram of the holding mechanism of the variable multi-color Bluetooth headset eyeglasses in FIG. 2;

fig. 7 is a schematic structural diagram of a clamping state diagram of a clamping mechanism of the variable multi-color bluetooth headset glasses in fig. 2.

Embodiments of the present application

The embodiments of the present application will be described in detail and fully with reference to the accompanying drawings, wherein the description is for illustrative purposes only and is not intended to limit the scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The application provides a variable multi-color Bluetooth headset glasses, as shown in fig. 1-2, comprising a frame 1, a light adjustable lens 2, a control circuit board 3 and a Bluetooth headset 4, wherein the light adjustable lens 2 is arranged on a frame 11 of the frame 1, the Bluetooth headset 3 is wirelessly connected with the control circuit board 3, the control circuit board 3 is arranged on a leg 13 of the frame 1, a three-color driving circuit 31 and a monochrome driving circuit 32 which are arranged on the control circuit board 3 are respectively used for driving dye liquid crystal deflection in a liquid crystal layer in a color liquid crystal dimming film 21 and liquid crystal deflection in a liquid crystal layer of a liquid crystal dimming film 22, the light adjustable lens 2 is a liquid crystal leg sheet which is electrically connected with the control circuit board 3, the Bluetooth headset 4 is clamped into a clamping mechanism 5 of the clamping mechanism 13, the unused Bluetooth headset 4 is collected by the clamping mechanism 5 and clamped on the Bluetooth headset 4 to keep a stable state, bluetooth headset 4 and 3 wireless connection of control circuit board, extract Bluetooth headset 4 from mirror leg 13 draw-in grooves when needing to use, this Bluetooth headset 4 adopts the bluetooth 5.0 version, can compatible bluetooth 4.2 and following version, promote transmission speed and transmission distance, realize remote transmission with the ultra-low power consumption, the time delay nature of greatly reduced high-quality sound, strengthen sound transmission's stability simultaneously, all functions on this Bluetooth headset 4 integration market, can connect the cell-phone, equipment such as car, also have GPS location and SOS emergency call function in addition, in addition can supporting APP software support, can independently define many people's functions such as voice conversation chatting, especially outdoor donkey friend uses, intelligent high-tech equipment.

In this embodiment, the pair of dimming glasses with bluetooth earphone function has bluetooth earphone function, specifically, the control circuit board 3 is soldered with the three-color driving circuit 31, the single-color driving circuit 32, the solar chip 33, the battery 34, the switch circuit 35 and the touch circuit 36, the output end of the solar chip 33 is electrically connected with the battery 34, the battery 34 and the solar chip 33 are connected with the switch circuit 35, the touch circuit 36 is connected with the battery 34 for changing the capacitance value thereof, the output end of the switch circuit 35 is connected with the three-color driving circuit 31 or the single-color driving circuit 32, wherein the solar chip 33 does not use the battery 34, the lens brightness is automatically adjusted according to the environment light, the glasses leg 13 is provided with the battery 34, manual touch or key is used for controlling the lens brightness, as the above two driving modes are added with the switch circuit 3, the switch circuit 35 is used for switching two working states, one of the states is that the battery 34 built in the temple 13 is directly used, the battery 34 supplies power to the three-color driving circuit 31 or the monochrome driving circuit 32, if the battery 35 is not powered, the mode can be switched to the solar chip 33, the solar chip 33 generates electric energy after being illuminated, the capacitor C1 is charged, and after a certain time, the capacitor C1 discharges power to the three-color driving circuit 31 or the monochrome driving circuit 32, so that the driving lens changes color.

And is connected with the control circuit board through a lead, the lead is hidden in the glasses leg 13, and the setting of the rechargeable battery is selected according to the actual situation. The rechargeable battery can be repeatedly charged, and is suitable for the condition that the glasses are frequently used and the power consumption is large

The battery 34 is electrically connected with the three-color drive circuit 31, the monochrome drive circuit 32, the changeover switch circuit 35 and the touch circuit 36 for power supply, the output end of the changeover switch circuit 35 is connected with the touch circuit 36, and the touch circuit 36 is respectively electrically connected with the three-color drive circuit 31 and the monochrome drive circuit 32.

In addition, the bluetooth headset 4 is provided with a battery 34 for supplying power, the three-color driving circuit 31 and the single-color driving circuit 32 can share the battery 34 with the bluetooth headset 4, wherein the battery 34 can be a rechargeable battery, the battery 34 is supplied with power by the solar chip 33, the solar panel connected with the solar chip 33 is arranged on the upper surface of the spectacle frame 11, the solar panel is a photoelectric semiconductor sheet, when the Bluetooth headset is irradiated by light under a certain illumination condition, voltage can be output instantly and current can be generated under the condition of a loop, and the battery 34 can be charged by a device for directly converting light energy into electric energy through a photoelectric effect or a photochemical effect.

In a preferred embodiment of the present application, as shown in fig. 3, the tunable optical lens 2 includes three color-changeable color liquid crystal dimming films 21, one liquid crystal dimming film 22 and one photo lens 23, the three color-changeable color liquid crystal dimming films 21 are stacked on the photo lens 23 or the color-changeable color liquid crystal dimming films 22 are stacked on the photo lens 23, the three color-changeable color liquid crystal dimming films are a red liquid crystal film, a blue liquid crystal film and a green liquid crystal film, and the three color-changeable color liquid crystal dimming films 21 are a red liquid crystal film 211, a blue liquid crystal film 212 and a green liquid crystal film 213.

In this application, the light modulation function of glasses can all be realized to the colored liquid crystal membrane of adjusting luminance 21 and a liquid crystal membrane of adjusting luminance 22 of three changeable colours, and the light sense chip on the light sense lens 23 can direct response sunlight's intensity to the implementation changes the diaphragm transmissivity as light sense lens 23 with sunlight's intensity, and the adjustment of the colored liquid crystal membrane of adjusting colour 21 and a liquid crystal membrane of adjusting luminance 22 of three changeable colours is then through the manual button of battery or touch two kinds of regulation forms.

People wear this glasses and use bluetooth headset function, when changing the environment of different light intensity, for starting, the accessible is adjusted its light and shade state of adjusting light lens 21 and in order to adapt to light intensity at present, cooperate with bluetooth headset 4 function and form good service environment, when the outdoor of highlight illumination talks, the lens is dimmed in order to keep out shining of strong light, maintain normal conversation environment, get back to indoor back and can be brightened into initial condition with the adaptation indoor light again with the lens, alleviate the stimulation of highlight to eyes, combine the music that bluetooth headset 4 broadcast, form a good rest environment in order to help sleeping.

In this embodiment, the pair of light-adjusting glasses with the bluetooth headset function has a lens color-changing function, each of the red liquid crystal film 211, the blue liquid crystal film 212, and the green liquid crystal film 213 is formed by a first substrate layer 5, a first conductive layer 6, a color liquid crystal light-adjusting film 7, a second conductive layer 8, and a second substrate layer 9, the first substrate layer 5, the first conductive layer 6, the second conductive layer 8, and the second substrate layer 9 are connected to form an empty box, and corresponding dye liquid crystals are filled into the three different empty boxes to form the color liquid crystal light-adjusting film 7, upper and lower surfaces of the color liquid crystal light-adjusting film 7 are respectively connected to two surfaces of the first conductive layer 6 and the second conductive layer 8, and the other surfaces of the first conductive layer 6 and the second conductive layer 8 are correspondingly covered with the first substrate layer 5 and the second substrate layer 9.

In a preferred embodiment of the present application, the red liquid crystal film 211, the blue liquid crystal film 212, and the green liquid crystal film 213 are GH guest-host dye liquid crystals sandwiched between transparent electrodes, and when a voltage is applied, the dye molecules are aligned with the liquid, and the molecules are aligned to form an ordered arrangement, and the liquid crystal molecules are matched with dyes of different colors, so as to prepare dye liquid crystals of three different colors, namely red, green, and blue, and then the dye liquid crystals of different colors are poured into the three red liquid crystal films 211, the blue liquid crystal film 212, and the green liquid crystal film 213, so as to form a red dye liquid crystal film, a green dye liquid crystal film, and a blue dye liquid crystal film, and after the three films are vertically stacked, the color shades of the three films can be controlled by inputting three different voltages, and thus the films can realize random adjustment of all natural colors.

Wherein red + green ═ yellow

Green + blue to cyan

Red + blue ═ magenta

Red + green + blue ═ white

By utilizing the three-color principle, the other two liquid crystal films 211, 212 and 213 can be applied with voltages, so that the two liquid crystal molecules are regularly arranged to form a transparent effect and individually display red, blue and green, or voltages can be applied to the red liquid crystal film 211, the blue liquid crystal film 212 and the green liquid crystal film 213 individually to complete the colors after superposition, namely yellow, cyan and magenta, or no voltage is applied to form white, so that the corresponding on-off of the red liquid crystal film 211, the blue liquid crystal film 212 and the green liquid crystal film 213 are realized, and the conversion of multiple colors is realized.

The application provides a bluetooth headset glasses of changeable multicolour, as shown in fig. 4, tricolor drive circuit 31 connects respectively at red liquid crystal membrane 211, blue liquid crystal membrane 212 and the first conducting layer 6 of green liquid crystal membrane 213 and second conducting layer 8, and drive voltage is applyed to first conducting layer 6 and second conducting layer 8 to the drive circuit that the dye liquid crystal molecule of drive colored liquid crystal membrane of adjusting luminance 7 deflected.

In this embodiment, the three color liquid crystal dimming films 21 and 22 are driven by the three-color driving circuit 31 and the monochrome driving circuit 32 to deflect the dye liquid crystal molecules therein and the liquid crystal molecules, the liquid crystal molecules are rod-shaped molecules whose major axes are substantially parallel, the dye liquid crystals of the upper and lower groups are processed to form a groove plane, the rod-shaped liquid crystal molecules are arranged along the grooves, the grooves of the two groups of dye liquid crystals are perpendicular to each other, the molecules between the two planes are forced to enter a 90-degree twisted state, since the light is transmitted along the arrangement direction of the molecules, the light is also twisted by 90 degrees when passing through the liquid crystal, when a voltage is applied to the liquid crystal, the liquid crystal molecules are rotated, the three-color driving circuit 31 applies a driving voltage to the first conductive layer 6 and the second conductive layer 8 to form an electric field, and the anisotropy and the molecular arrangement of the liquid crystal molecules are easily influenced by the applied electric field, The control of the magnetic field, realize the light is modulated by the electric signal, under applying different electric current electric fields, the liquid crystal molecule in the membrane 21 of adjusting luminance of colored liquid crystal will be rotated 90 degrees regularly and arranged, thus cause different light transmittance, apply first conducting layer 6 and second conducting layer 8 and switch on when the three-colour drive circuit 31, the membrane 21 of adjusting luminance of colored liquid crystal switches on, the arrangement of the liquid crystal molecule becomes in order, let the light pass easily, become transparent; the dye liquid crystal molecules have the functions of direct color change of red, green and blue due to the color thereof,

the application provides a pair of variable multi-color Bluetooth headset glasses, as shown in fig. 5, a single-layer GH guest host type dye liquid crystal film can be used for realizing color changes such as red-light red-transparent, black-gray-transparent, blue-light blue-transparent, green-light green-transparent and the like, and the transmittance color can be changed while the color changes, so that the glasses can be protected from being damaged by strong light while dazzling color changes; when the power is not supplied, the arrangement is disordered, light is prevented from passing through, and the liquid crystal dimming film 22 is blackened.

In this embodiment, the liquid crystal light adjusting film 1 can change multiple colors depending on the dye liquid crystal and the light itself, the dye liquid crystal is not driven by voltage, the irregular arrangement is generated, the light of all wave bands is blocked, by being arranged on the upper and lower surfaces of the color liquid crystal light adjusting film 21, the dye liquid crystals are regularly arranged under the electric control, light can penetrate through the dye liquid crystals, whether molecules between two corresponding planes of each film enter a 90-degree twisted state or not is controlled by controlling the on/off of the red liquid crystal film 211, the blue liquid crystal film 212 and the green liquid crystal film 213, the light is controlled to propagate along the arrangement direction of the molecules, the light is also twisted by 90 degrees when passing through the liquid crystals, therefore, after light passes through the first dye liquid crystal, the light is twisted by the liquid crystal molecules by 90 degrees and finally passes through the second dye liquid crystal, and simultaneously, each dye liquid crystal can be subjected to stepless color adjustment from transparency to color.

The color liquid crystal dimming film 21 is composed of three dimming films with the thickness of 0.2mm, the red liquid crystal film 211, the blue liquid crystal film 212 and the green liquid crystal film 213 are controlled to be powered on or powered off, most colors can be generated by combining the red liquid crystal film 211, the blue liquid crystal film 212 and the green liquid crystal film 213 according to different proportions by utilizing the principle of three primary colors, and different colors can be displayed by different combinations of the red liquid crystal film 211, the blue liquid crystal film 212 and the green liquid crystal film 213, so that the purpose of color changing is fulfilled.

In the application, the red liquid crystal film 211, the blue liquid crystal film 212 and the green liquid crystal film 213 are electrochromic dye liquid crystals made of one of TN, GH or EC, liquid crystal molecules are matched with dyes with different colors, so that dye liquid crystals with three different colors of red, green and blue are prepared, the first substrate layer 5 and the second substrate layer 9 are made of hard glass or flexible PET, PC, Cop and COC, the two pieces of PC are manufactured according to the polarization principle of light, the light is prevented from directly passing through, an angle parallel to a light transmission axis can be effectively eliminated, the seen visual field is clear and natural, the light is adjusted to enter the visual field with the same-direction light, the visual field looks soft and not dazzling, the flexible PET or PC substrate can be cut in a special shape, the curved surface is attached to be attractive, the weight is light, the inside or the surface of the flexible PET or PC substrate material cannot have a cloudy or cloudy appearance caused by light scattering, the haze of the flexible PET or PC substrate material is close to 0, the transparency is high, the colors of the objects seen from the outside through the film are not distorted, the colors are real, the joint of the two pieces of PC and the two pieces of ITO are in a refraction state of optical standard, the refraction state of the PC is that light passes through the medium of the ITO and the color liquid crystal dimming film 21 in sequence, the refraction state of the PC is different from the refraction rates of the ITO and the color liquid crystal dimming film 21, wherein the refraction states of the PC entering the color liquid crystal dimming film 21 and leaving the color liquid crystal dimming film 21 meet the optical standard, the polarization effect is not influenced, the transparency and the image definition of the PC are not influenced, the image is real, the reaction time of the whole circuit is greatly improved, the general reaction time is less than 0.1, the quick response is realized, the bright and dark colors are steplessly and quickly switched within 0.1 second, the flexible PET or PC substrate is, the special-shaped cutting can be realized, the curved surface is attached to be attractive, and the weight is light; the haze is free, the haze is close to 0, and the high transparency is realized; the power consumption is low, microampere current and voltage are also 10V to 1.5V, a light source penetrates through the front and back directions of the color liquid crystal dimming film, and a plurality of application scenes are not limited to a plurality of application scenes such as glasses, goggles, snow glasses, helmets, automobile glass, building glass, furniture screen partitions, bathroom glass and the like.

In the application, a single-layer GH guest-host dye liquid crystal film can be used for realizing color changes such as red-light red-transparent, black-gray-transparent, blue-light blue-transparent, green-light green-transparent and the like, the transmittance color can also be changed when the color is changed, and the glasses can be protected from being damaged by strong light when the color is changed.

In this application, still including the light sense lens 23 that sets up including transparent basic unit and the light sensing material layer of cover on transparent basic unit, the light sensing material layer can be according to illumination for the photo resistor, adjusts the resistance of photo resistor, according to illumination intensity automatically regulated glass's transparency, see through the illumination reinforcing, the photo resistor resistance diminishes, apply the voltage reduction at glass both ends, the glass transparency descends, otherwise then the glass transparency rises, perhaps manual regulation photo resistor diminishes, apply the voltage reduction at glass both ends, the glass transparency descends, otherwise then the glass transparency rises.

The application provides a variable multi-color Bluetooth headset glasses, as shown in fig. 6-7, a switch button 131 connected with a switch circuit 35 and a touch circuit 36 is respectively arranged on the outer side edge of a glasses leg 13, the switch button 131 is used for controlling the on-off of the switch circuit 35, a touch screen 132 is used for controlling the on-off of the touch circuit 36, the switch of the switch button 131 and the touch circuit 36 is manually controlled, the color of a lens can be changed by manual touch in a mode of combining manual operation and automatic operation, an IC chip with a changeable capacitance value received on a film on the touch screen 132 in the driving process in a battery 35 mode can drive the light and shade to change, and the capacitance change on the film can be sensed to realize the touch switch function, a clamping groove for accommodating a Bluetooth headset 3 is processed on a port of the glasses leg 13, a clamping mechanism 5 is arranged on the clamping groove, the clamping mechanism 5 comprises a spring 51, a spring, preforming 52 and pivot 53, the one end and the pivot 53 of preforming 52 are connected, it is rotatory around the draw-in groove inner wall through pivot 53, and the other end of preforming 52 is connected with the spring 51 who fixes on the draw-in groove inner wall, bluetooth headset 3 inserts in the draw-in groove, spring 51 acts on preforming 52 centre gripping bluetooth headset 3, spring 51 self elasticity can support on preforming 52, preforming 52 revolutes the rotation of axle 53, when bluetooth headset 4 inserts the draw-in groove, bluetooth headset 4 can support on preforming 52, preforming 52 utilizes the elasticity that spring 51 produced can be used in bluetooth headset 4, produce pressure to bluetooth headset 4's upper and lower both ends, make it can not drop, and when needs use, directly extract, can use.

The above description is only a part of the present application or a preferred embodiment, and neither the text nor the drawings should be construed as limiting the scope of the present application, and all the equivalent structural changes made by the contents of the present specification and the drawings or the related technical fields directly/indirectly by the concepts of the present application are included in the scope of the present application.

Claims (9)

1. The utility model provides a variable multicolour bluetooth headset glasses, its characterized in that, including mirror holder, the lens of can adjusting luminance, control circuit board and bluetooth headset, the lens of can adjusting luminance set up in on the picture frame of mirror holder, bluetooth headset with the electric wireless connection of control circuit board, its control circuit board electricity set up in on the mirror leg of mirror holder, in the fixture of mirror leg was gone into to the bluetooth headset card, the lens of can adjusting luminance be with the liquid crystal film that the control circuit board electricity is connected.

2. The variable multi-color bluetooth headset glasses according to claim 1, wherein the control circuit board is soldered with a three-color driving circuit, a single-color driving circuit, a solar chip, a battery, a switch circuit, a touch circuit, and a battery, wherein the output terminal of the solar chip is electrically connected to the battery, the battery and the solar chip are connected to the switch circuit, the touch circuit is connected to the battery for changing the capacitance thereof, and the output terminal of the switch circuit is connected to the three-color driving circuit or the single-color driving circuit.

3. The variable multi-color Bluetooth headset eyeglasses according to claim 1, wherein the adjustable light lenses are three color-variable color liquid crystal light adjusting films, one liquid crystal light adjusting film and one light sensing lens, the three color-variable color liquid crystal light adjusting films are overlapped with the light sensing lens or the three color-variable color liquid crystal light adjusting films are overlapped with the light sensing lens, and the three color-variable color liquid crystal light adjusting films are a red liquid crystal film, a blue liquid crystal film and a green liquid crystal film respectively.

4. The variable multi-color bluetooth headset glasses according to claim 3, wherein the red, blue and green liquid crystal films are respectively formed by a first substrate layer, a first conductive layer, a color liquid crystal dimming film, a second conductive layer and a second substrate layer, the first conductive layer, the second conductive layer and the second substrate layer are connected to form a blank box, and corresponding dye liquid crystals are filled into three different blank boxes to form the color liquid crystal dimming film, the upper and lower surfaces of the color liquid crystal dimming film are respectively connected with the two surfaces of the first conductive layer and the second conductive layer, and the other surfaces of the first conductive layer and the second conductive layer are correspondingly covered with the first substrate layer and the second substrate layer.

5. The variable multi-color Bluetooth headset eyeglasses according to claim 1, wherein the outer edges of the eyeglasses legs are respectively provided with a switch button and a touch screen which are connected with a switch circuit and a touch circuit, the switch button is used for controlling the circuit change of the switch circuit, and the touch screen is used for controlling the on-off of the touch circuit.

6. The changeable multi-color bluetooth headset glasses according to claim 1, wherein a slot for receiving the bluetooth headset is formed at the end of the glasses leg, the clamping mechanism is disposed at the slot, the clamping mechanism comprises a spring, a pressing piece and a rotating shaft, one end of the pressing piece is connected with the rotating shaft and rotates around the inner wall of the slot through the rotating shaft, the other end of the pressing piece is connected with the spring fixed on the inner wall of the slot, the bluetooth headset is inserted into the slot, and the spring acts on the pressing piece to clamp the bluetooth headset.

7. The variable multi-color bluetooth headset eyeglasses according to claim 3, wherein the three-color driving circuit is respectively connected to the first conductive layer and the second conductive layer of the red liquid crystal film, the blue liquid crystal film and the green liquid crystal film, and the first conductive layer and the second conductive layer apply driving voltages to drive the dye liquid crystal molecules of the color liquid crystal dimming film to deflect.

8. The variable multi-color bluetooth headset glasses according to claim 3, wherein the red, blue and green liquid crystal films are electrochromic dye liquid crystals made of one of TN, GH or EC, liquid crystal molecules are matched with dyes of different colors, so as to blend dye liquid crystals of three different colors of red, green and blue, and the first and second substrate layers are made of hard glass or flexible PET, PC, Cop or COC.

9. The variable multi-color bluetooth headset eyeglasses according to claim 3, further comprising light sensitive lenses comprising a transparent substrate and a light sensitive material layer overlying the transparent substrate.

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