CN213780580U - Intelligent color-changing glasses - Google Patents

Abstract

The utility model provides an intelligence glasses that change colour, include: the glasses comprise a glasses body, an electrochromic film, a light sensor and a control assembly, wherein the glasses body comprises a glasses frame, lenses and glasses legs; the electrochromic film is fixedly covered on the outer surface of the lens and is used for changing the optical property of the electrochromic film under the control of the control component; the light sensor is arranged on the outer side of the spectacle frame or the spectacle legs; the control assembly is arranged on the glasses legs and used for automatically controlling the optical property of the electrochromic film according to the ambient light intensity detected by the light sensor in an automatic control mode; and after receiving a manual operation instruction of a user in a manual control mode, controlling the optical property of the electrochromic film according to a preset voltage parameter. The technical scheme that this application provided can be through the optical property of transform electrochromic membrane, and then makes the user can control this glasses fast switch over between sunglasses and myopia glasses at any time, satisfies the demand that myopia crowd is both controllable and convenient to sunglasses.

Description

Intelligent color-changing glasses

Technical Field

The utility model relates to an intelligence glasses technical field especially relates to an intelligence glasses that discolour.

Background

With the increasing living standard of people, the individual demand of people is also increasing. The sunglasses as a branch of the glasses can play the functions of sun shading, anti-dazzle, decoration and the like, and are popular with people.

However, for a person who needs to wear glasses for myopia, how to make the glasses compatible with sunglasses on the glasses for myopia is a concern. The existing solutions mainly have two kinds: first, the color-changing spectacles can be selected to automatically change colors into sunglasses in the environment of strong sunlight and to automatically change colors into spectacles in the environment of weak sunlight. However, the color changing process of the color changing myopia glasses is slow and uncontrollable; second, a user can mount the sunglass clip on the spectacles at any time by selecting the sunglass clip. However, the sunglass clip and the myopia glasses are two independent bodies, which is inconvenient for users to carry.

In conclusion, the existing solutions cannot meet the requirements of the myopia people on controllability and convenience in wearing the sunglasses.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an intelligence glasses that discolour can be at user's control down fast switch over between sunglasses and myopia glasses at any time, satisfies the demand that the myopia crowd is both controllable and convenient to sunglasses.

In order to achieve the above object, in a first aspect, an embodiment of the present application provides an intelligent color-changing glasses, including: the glasses comprise a glasses body, an electrochromic film, a light sensor and a control component;

the glasses main body comprises a glasses frame, lenses fixed in the glasses frame and glasses legs connected with the glasses frame;

the electrochromic film is fixedly covered on the outer surface of the lens, and is electrically connected with the control assembly and used for changing the optical property of the electrochromic film under the control of the control assembly;

the light sensor is arranged on the outer side of the glasses frame or the glasses legs, and is electrically connected with the control assembly and used for detecting the light intensity;

the control assembly is arranged on the glasses legs and used for automatically controlling the optical property of the electrochromic film according to the ambient light intensity detected by the light sensor in an automatic control mode; and after receiving a manual operation instruction of a user in a manual control mode, controlling the optical property of the electrochromic film according to a preset voltage parameter.

Optionally, the control component is further configured to switch from the current automatic control mode to the manual control mode or from the current manual control mode to the automatic control mode after receiving a manual switching instruction from the user.

Optionally, the control assembly includes a controller and a touch panel electrically connected to the controller, and the touch panel is configured to receive a manual operation instruction and/or a manual switching instruction of a user.

Optionally, the control assembly includes a controller and a mechanical button electrically connected to the controller, and the mechanical button is used for receiving a manual operation instruction or a manual switching instruction of a user.

Optionally, the intelligent color-changing glasses further comprise a solar assembly for supplying power to the intelligent color-changing glasses, wherein the solar assembly comprises a solar charging panel and a battery electrically connected with the solar charging panel.

Optionally, the glasses legs are further provided with a charging interface, and the charging interface is connected with an external power supply and used for charging the battery.

Optionally, an indicator light is further disposed on an outer surface of the temple, and the indicator light is electrically connected to the battery and used for indicating electric quantity of the battery.

Optionally, a wireless charging assembly is further arranged in the glasses leg, and the wireless charging assembly is electrically connected with the battery and used for charging the battery in an electromagnetic induction mode.

Optionally, the solar module and the control module are respectively arranged on two glasses legs of the intelligent color-changing glasses.

Optionally, a micro vibration motor is further disposed in the temple, and the micro vibration motor is electrically connected to the control assembly and is used for providing vibration feedback to a user when the optical property of the electrochromic film changes in the automatic control mode or the manual control mode.

The intelligence glasses that discolour that this application embodiment provided can include: the glasses comprise a glasses body, an electrochromic film, a light sensor and a control assembly, wherein the glasses body comprises a glasses frame, lenses fixed in the glasses frame and glasses legs connected with the glasses frame; the electrochromic film is fixedly covered on the outer surface of the lens, and is electrically connected with the control assembly and used for changing the optical property of the electrochromic film under the control of the control assembly; the light sensor is arranged on the outer side of the glasses frame or the glasses legs, and is electrically connected with the control assembly and used for detecting the light intensity; the control assembly is arranged on the glasses legs and used for automatically controlling the optical property of the electrochromic film according to the ambient light intensity detected by the light sensor in an automatic control mode; and after receiving a manual operation instruction of a user in a manual control mode, controlling the optical property of the electrochromic film according to a preset voltage parameter. The technical scheme that this application provided can be through the optical property of transform electrochromic membrane for the user can control this intelligence photochromic glasses fast switch over between sunglasses and myopia glasses at any time, satisfies myopia crowd and to sunglasses demand controllable and convenient again. Meanwhile, a user can start the light sensor, the light sensor automatically controls the electrochromic film to change color, and the control assembly can manually control the electrochromic film to change color, so that different requirements of the user are met.

Drawings

Fig. 1 is a schematic structural diagram of intelligent color-changing glasses provided in an embodiment of the present application;

fig. 2 is a schematic side structure view of intelligent color-changing glasses provided in the embodiments of the present application;

fig. 3 is a schematic view of intelligent color-changing glasses provided in the embodiment of the present application in a state of glasses for myopia;

fig. 4 is a schematic view of intelligent color-changing glasses provided in an embodiment of the present application in a sunglasses state.

Description of reference numerals:

1-a spectacle body; 2-electrochromic films;

3-a light sensor; 4-a solar module;

5-a control component; 6-indicator light;

7-a charging interface;

11-a spectacle frame; 12-a lens;

13-temple; 14-nose pad.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The technical solution of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

Fig. 1 is a schematic structural diagram of intelligent color-changing glasses provided by an embodiment of the present application, fig. 2 is a schematic structural diagram of a side surface of the intelligent color-changing glasses provided by the embodiment of the present application, fig. 3 is a schematic diagram of the intelligent color-changing glasses provided by the embodiment of the present application in a myopia glasses state, and fig. 4 is a schematic diagram of the intelligent color-changing glasses provided by the embodiment of the present application in a sunglasses state.

As shown in fig. 1-4, the smart color-changing glasses may include: the glasses comprise a glasses body 1, an electrochromic film 2, a light sensor 3 and a control component 5. The eyeglass body 1 may include a frame 11, lenses 12 fixed in the frame 11, and temples 13 connected to the frame 11. The electrochromic film 2 can be fixedly covered on the outer surface of the lens 12 and is electrically connected with the control component 5, and the optical property of the electrochromic film can be changed under the control of the control component 5. The light sensor 3 can be arranged on the outer side of the glasses frame 11 or the glasses legs 13, and the light sensor 3 is electrically connected with the control component 5 and can detect the light intensity. Solar energy component 4 can set up on mirror leg 13, can be for the power supply of intelligent color-changing glasses. The control assembly 5 may be provided on the temple 13, and may automatically control the optical properties of the electrochromic film 2 according to the intensity of ambient light detected by the light sensor 3 in the automatic control mode; and in the manual control mode, after receiving a manual operation instruction of a user, controlling the optical property of the electrochromic film 2 according to a preset voltage parameter.

Specifically, the frame 11 may be a full-frame or a half-frame, which is not limited in the present application. The frame 11 can be further provided with a nose pad 14, the nose pad 14 can be a water drop type nose pad or an integrated nose pad, and a user can select a corresponding style of the nose pad 14 according to own preference.

In this embodiment, can also set up collapsible ear hook on the mirror leg 13, collapsible ear hook can help the better fixed intelligence of user to change the color glasses to prevent that intelligence from changing color glasses from user's head landing.

The electrochromic film 2 is a thin film capable of realizing an electrochromic phenomenon, which is a phenomenon that optical properties (including reflectivity, transmittance, absorptivity and the like) of a material are subjected to stable and reversible color change under the action of an external electric field, and the material shows reversible change in color and transparency in appearance. Referring to fig. 3, when the control assembly 5 does not apply an electric field, the electrochromic film 2 is in a transparent state, and at this time, the intelligent color-changing glasses are myopia glasses; referring to fig. 4, when the control unit 5 applies an electric field, the electrochromic film 2 is in a non-transparent state, and at this time, the smart color-changing glasses are sunglasses. Therefore, by changing the optical properties of the electrochromic film 2, the intelligent color-changing glasses in the embodiment of the application can be used as both the myopia glasses and the sunglasses.

The intelligent color-changing glasses in the embodiment of the application can provide two control modes for a user, wherein one control mode is an automatic control mode, and the other control mode is a manual control mode. The user can set up the control mode of intelligent color-changing glasses through control assembly 5, and control assembly 5 includes controller and the operating means who is connected with the controller electricity, and the operating means can be mechanical button, also can be the touch pad, and the controller is used for acquireing the signal of each part to make corresponding feedback. In one embodiment of the present application, the control member 5 is a touch pad disposed outside the temple 13 to facilitate user operation. The control component 5 may switch from the current automatic control mode to the manual control mode or from the current manual control mode to the automatic control mode after receiving a manual switching instruction from the user.

As an optional implementation manner, the manual switching instruction may be a long-press operation, and the user may press the touch panel for 3 seconds, and switch the control mode to the automatic control mode or the manual control mode; the manual operation instruction may be a tap operation, and the user may quickly touch the touch panel twice to change the optical property of the electrochromic film 2. It is understood that the manual switching command may also be other operation modes, such as a sliding operation, and the manual switching command may also be other operation modes, such as a simultaneous touch of two fingers. The embodiment of the present application does not limit the specific implementation manner of the manual switching instruction and the manual operation instruction.

In an automatic control mode, the light sensor 3 arranged on the mirror frame 11 can detect the light intensity of the surrounding environment, the control component can acquire the light intensity acquired by the light sensor 3, and when the light intensity exceeds a preset light intensity threshold value, the control component 5 applies an electric field to the electrochromic film to change the color; when the intensity of the light is below the threshold value, the application of the electric field to the electrochromic film is stopped by the control unit 5.

Among them, for better detecting the light intensity, the light sensor 3 may be disposed at the outer side of the frame 11 for detecting the light on the front of the user. Meanwhile, the control component 5 may further set a plurality of light intensity thresholds, and correspondingly adjust the light transmittance of the electrochromic film according to the intensity of the light, for example, when the intensity of the light is between 2000 lux and 5000 lux, the light transmittance of the electrochromic film is adjusted to be 20%, and when the intensity of the light is greater than 5000 lux, the light transmittance of the electrochromic film is adjusted to be 12%.

Through setting up above-mentioned light sensor 3, intelligence photochromic glasses can the automatically regulated send the optical property of electrochromic membrane, and automatic switch-over is to sunglasses state when light becomes strong, and convenience of customers uses. For example, when the user came out from the tunnel driving, light can change suddenly dazzling, and at this moment, intelligence color-changing glasses can be when examining light intensity too high, and fast switch over glasses state protects user's glasses and does not receive the highlight to influence.

In the manual control mode, if the intelligent color-changing glasses are in the myopia glasses state currently, the intelligent color-changing glasses can be switched to the sunglasses state after being knocked by a user; if the intelligent color-changing glasses are in the sunglasses state at present, the intelligent color-changing glasses can be switched to the myopia glasses state after the user knocks. Through the manual control mode, the optical property of the electrochromic film can be actively adjusted by a user, the state of the glasses can be rapidly switched under the condition that any user needs to use the sunglasses, and the user requirements are met.

Due to the fact that the sizes of the glass legs 13 are small, in order to provide a larger operation area and a larger solar charging area, the solar assembly 4 and the control assembly 5 in the embodiment of the application can be respectively arranged on the two glass legs 13 of the intelligent color-changing glasses, and the surfaces of the glass legs 13 are utilized to the maximum extent.

Specifically, intelligence glasses that change colour still includes solar energy component 4 for the power supply of intelligence glasses that change colour, and solar energy component 4 can include solar charging panel and the battery of being connected with solar charging panel electricity, and solar charging panel is used for turning into the electric energy with light energy. Under the environment of long-term low light, solar energy component 4 is not enough to support the electric quantity demand of intelligent color-changing glasses, in order to satisfy the electric quantity demand of intelligent color-changing glasses fast, as an optional implementation mode, can set up interface 7 that charges on mirror leg 13, interface 7 that charges can be connected with external power source, charges for the battery.

For the current intelligence of audio-visual suggestion user the electric quantity of the glasses that change colour, can also set up pilot lamp 6 on the surface of mirror leg 13, pilot lamp 6 is connected with the battery electricity, can instruct the electric quantity of the glasses that change colour of intelligence. The indicator lights 6 may include one or more, for example, referring to fig. 1, three indicator lights are exemplarily illustrated in fig. 1, one indicator light 6 is lit for a low power indication, two indicator lights 6 are lit for a medium power indication, and three indicator lights 6 are lit for a high power indication.

Further, for the beauty of the intelligent color-changing glasses and the reduction of the number of parts on the glasses legs 13, the charging interface 7 can be located on the inner side of the glasses legs 13, and the charging interface 7 cannot be seen by other people when a user wears the intelligent color-changing glasses at ordinary times.

The charging interface 7 may be a Universal Serial Bus (USB) interface or a pogo pin interface. Considering that the intelligent color-changing glasses need to contact with the skin of the user for a long time, in order to improve the corrosion resistance and the durability of the charging interface 7, in an embodiment of the present application, the charging interface 7 adopts a pogo pin interface.

As another alternative, a wireless charging assembly may be disposed in the temple 13, and the wireless charging assembly is electrically connected to a battery, and the battery may be charged by electromagnetic induction. Wireless charging can avoid the problem of the 7 durability of interface that charges, simultaneously, under the condition that adopts the wireless subassembly that charges, intelligence color-changing glasses can also design for waterproof glasses in the embodiment of this application, further convenience of customers' use in daily life.

Specifically, a micro vibration motor can be further arranged in the glasses leg 13, the micro vibration motor is electrically connected with the control component 5, and under an automatic control mode or a manual control mode, when the optical property of the electrochromic film 2 changes, a vibration feedback is provided for a user, so that the user can know that the optical property of the electrochromic film 2 is about to change.

The intelligence glasses that discolour that this application embodiment provided can include: the glasses comprise a glasses body, an electrochromic film, a light sensor and a control assembly, wherein the glasses body comprises a glasses frame, lenses fixed in the glasses frame and glasses legs connected with the glasses frame; the electrochromic film is fixedly covered on the outer surface of the lens, and is electrically connected with the control assembly and used for changing the optical property of the electrochromic film under the control of the control assembly; the light sensor is arranged on the outer side of the glasses frame or the glasses legs, and is electrically connected with the control assembly and used for detecting the light intensity; the control assembly is arranged on the glasses legs and used for automatically controlling the optical property of the electrochromic film according to the ambient light intensity detected by the light sensor in an automatic control mode; and after receiving a manual operation instruction of a user in a manual control mode, controlling the optical property of the electrochromic film according to a preset voltage parameter. The technical scheme that this application provided can be through the optical property of transform electrochromic membrane for the user can control this intelligence photochromic glasses fast switch over between sunglasses and myopia glasses at any time, satisfies myopia crowd and to sunglasses demand controllable and convenient again. Meanwhile, a user can start the light sensor, the light sensor automatically controls the electrochromic film to change color, and the control assembly can manually control the electrochromic film to change color, so that different requirements of the user are further met.

In the description of the present invention, it is to be understood that the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

In addition, in the description of the present invention, it should be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In addition, in the present invention, unless otherwise explicitly specified or limited, the terms "connected", and the like are to be construed broadly, and may be, for example, a mechanical connection or an electrical connection; the term "connected" refers to a direct connection or an indirect connection through an intermediate medium, and refers to a connection between two elements or an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the terms in the present invention is understood by those skilled in the art according to specific situations.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. An intelligent color-changing glasses, comprising: the glasses comprise a glasses body, an electrochromic film, a light sensor and a control component;

the glasses main body comprises a glasses frame, lenses fixed in the glasses frame and glasses legs connected with the glasses frame;

the electrochromic film is fixedly covered on the outer surface of the lens, is electrically connected with the control component and is used for changing the optical property of the electrochromic film under the control of the control component;

the light sensor is arranged on the outer side of the glasses frame or the glasses legs, and the light sensor is electrically connected with the control assembly and used for detecting the light intensity;

the control assembly is arranged on the glasses legs and used for automatically controlling the optical property of the electrochromic film according to the ambient light intensity detected by the light sensor in an automatic control mode; and after receiving a manual operation instruction of a user in a manual control mode, controlling the optical property of the electrochromic film according to a preset voltage parameter.

2. The intelligent color-changing glasses according to claim 1, wherein the control component is further configured to switch from the current automatic control mode to the manual control mode or from the current manual control mode to the automatic control mode after receiving a manual switching instruction of the user.

3. The intelligent color-changing glasses according to claim 2, wherein the control component comprises a controller and a touch panel electrically connected with the controller, and the touch panel is used for receiving a manual operation instruction and/or a manual switching instruction of the user.

4. The intelligent color-changing glasses according to claim 2, wherein the control assembly comprises a controller and a mechanical button electrically connected with the controller, and the mechanical button is used for receiving a manual operation instruction or a manual switching instruction of the user.

5. The intelligent color-changing glasses according to claim 1, further comprising a solar module for supplying power to the intelligent color-changing glasses, wherein the solar module comprises a solar charging panel and a battery electrically connected to the solar charging panel.

6. The intelligent color-changing glasses according to claim 5, wherein the glasses legs are further provided with a charging interface, and the charging interface is connected with an external power supply and used for charging the battery.

7. The intelligent color-changing glasses according to claim 5, wherein an indicator light is further arranged on the outer surface of each of the glasses legs, and the indicator light is electrically connected with the battery and used for indicating the electric quantity of the battery.

8. The intelligent color-changing glasses according to claim 5, wherein wireless charging assemblies are further arranged in the glasses legs, and the wireless charging assemblies are electrically connected with the batteries and used for charging the batteries in an electromagnetic induction mode.

9. The intelligent color-changing glasses according to claim 5, wherein the solar component and the control component are respectively arranged on two side arms of the intelligent color-changing glasses.

10. The intelligent color-changing glasses according to any one of claims 1 to 9, wherein a micro vibration motor is further disposed in the glasses legs, and the micro vibration motor is electrically connected to the control component and is used for providing vibration feedback to the user when the optical properties of the electrochromic film are changed in the automatic control mode or the manual control mode.

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