CN111856778A - Glasses - Google Patents

Abstract

The invention discloses a pair of glasses, which comprises: the glasses frame, the control module, the first nose support and the second nose support; the first nose support and the second nose support are fixed on the glasses frame and are arranged oppositely; the first nose pad and the second nose pad can deform under the condition of electrification; the control module is fixedly arranged on the mirror frame, the control module is respectively electrically connected with the first nose support and the second nose support, and the control module is used for controlling the first nose support and the second nose support to output voltage to the first nose support and the second nose support so as to deform and adjust the distance between the first nose support and the second nose support. Therefore, the glasses of the embodiment can better meet the requirements of users so as to improve the comfort of the users wearing the glasses.

Description

Glasses

Technical Field

The invention belongs to the technical field of glasses manufacturing, and particularly relates to glasses.

Background

With the improvement of education level and the development of electronic products, the proportion of people wearing glasses is continuously increased, and the demand of people on glasses is also continuously increased.

At present, the nose pads of the glasses are designed in a fixed mode, and a user cannot adjust the distance between the two nose pads and the pressure of the nose pads on the nose according to the requirement of the user. If the distance between the two nose pads is larger, the user can easily slide down in the wearing process, which brings inconvenience to the user; if the distance between the two nose pads is smaller, the nose can be pressed after long-term wearing, and a user feels tired.

Therefore, the glasses in the prior art affect the wearing comfort of the user because the nose pads cannot be adjusted according to the requirements of the user.

Disclosure of Invention

The embodiment of the invention aims to provide glasses, which can solve the problem that the comfort level of wearing of a user is low because a nose pad of the glasses cannot be adjusted according to the requirement of the user.

In order to solve the technical problem, the invention is realized as follows:

an embodiment of the present invention provides a pair of glasses, including: the glasses frame, the control module, the first nose support and the second nose support;

the first nose support and the second nose support are fixed on the glasses frame and are arranged oppositely;

the first nose pad and the second nose pad are deformable when energized;

the control module is fixedly arranged on the mirror frame, the control module is respectively electrically connected with the first nose support and the second nose support, and the control module is used for controlling the deformation of the first nose support and the second nose support so as to adjust the distance between the first nose support and the second nose support.

In the embodiment of the invention, the two nose pads of the glasses can be deformed under the condition of being electrified; because be provided with control module on the picture frame of glasses, control module holds in the palm the electricity with two noses respectively and is connected, and control module can hold in the palm output voltage to two noses, and control two noses and hold in the palm and take place deformation to adjust the distance between two noses hold in the palm, and then adjust two noses and hold in the palm the pressure of applying for user's nose, consequently, the glasses of this embodiment can satisfy user's demand better, in order to improve the comfort level that the user wore glasses.

Drawings

FIG. 1 is a schematic view of the structure of eyewear in accordance with an embodiment of the present invention;

FIG. 2 is a circuit diagram of the nose pads and control module of the eyeglasses according to an embodiment of the present invention;

fig. 3 is a cross-sectional view taken along a-a of the first nose pad of fig. 2.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present 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 invention.

The terms first, second and the like in the description and in the claims of the present invention are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that embodiments of the invention may be practiced otherwise than as specifically illustrated and described herein. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The glasses provided by the embodiment of the invention are described in detail by specific embodiments and application scenarios thereof with reference to the accompanying drawings.

As for the eyeglasses according to the embodiment of the present invention, referring to fig. 1, fig. 1 shows a schematic structural diagram of the eyeglasses according to the embodiment of the present invention, and referring to fig. 2, fig. 2 shows a circuit connection diagram of the nose pads and the control module of the eyeglasses according to the embodiment of the present invention. The eyeglasses comprise: the spectacle frame 10, the control module 20, the first nose support 30 and the second nose support 40; the first nose pad 30 and the second nose pad 20 are fixed on the frame 10 and are arranged oppositely; the first nose piece 30 and the second nose piece 40 are deformable when energized; the control module 20 is fixedly disposed on the lens frame 10, the control module 20 is electrically connected to the first nose pad 30 and the second nose pad 40, and the control module 200 is configured to output a voltage to the first nose pad 30 and the second nose pad 40, and control the first nose pad 30 and the second nose pad 40 to deform, so as to adjust a distance between the first nose pad 300 and the second nose pad 40.

In the embodiment of the present invention, the first nose pad 30 and the second nose pad 40 are fixed on the frame 10 and are oppositely disposed, specifically, as shown in fig. 1, the first nose pad 30 and the second nose pad 40 can be fixed by a bracket, and the bracket is fixedly connected with the frame 10, the glasses shown in fig. 1 are only one type of glasses, and the fixing manner of the nose pads relative to the frame 10 is different, for example, two nose pads can also be directly fixed on the frame 10, and the embodiment does not limit the type of the glasses, so that the specific fixing manner of the nose pads on the frame can be flexibly set according to the type of the glasses.

In the embodiment of the invention, the two nose pads of the glasses can be deformed under the condition of being electrified; because be provided with control module on the picture frame of glasses, control module holds in the palm the electricity with two noses respectively and is connected, and control module can hold in the palm output voltage to two noses, and control two noses and hold in the palm and take place deformation to adjust the distance between two noses hold in the palm, and then adjust two noses and hold in the palm the pressure of applying for user's nose, consequently, the glasses of this embodiment can satisfy user's demand better, in order to improve the comfort level that the user wore glasses.

In an embodiment of the present invention, as shown in fig. 1 to 3, referring to fig. 3, fig. 3 is a cross-sectional view of the first nose pad of fig. 2 taken along a-a, the first nose pad 30 and the second nose pad 20 are made of piezoelectric material, and the first nose pad 30 and the second nose pad 40 form an electric field under pressure; the control module 200 is configured to output a voltage to the first nose pad 30 and the second nose pad 40 under the action of the electric field.

In particular, piezoelectric materials are crystalline materials that develop a voltage across their two end faces when subjected to a compressive force. The piezoelectric material may generate an electric field due to mechanical deformation, or may generate mechanical deformation due to the action of an electric field.

In practical application, when a user does not wear the glasses, the two nose pads made of the piezoelectric material are in a non-pressure state, the electric dipoles in the two nose pads are arranged in a disordered manner, the two nose pads are in an uncharged state, and the glasses are in a standby state; when a user wears the glasses for use, the two nose supports are pressed by the nose, the electric dipoles are arranged according to a certain rule to generate an electric field, and the electric field of the capacity is transmitted to the control module of the glasses to wake up the glasses to enter a working mode. After control module got into operating mode, control module can hold in the palm output voltage to two noses, control two noses and hold in the palm the emergence deformation, in order to adjust the distance between two noses hold in the palm, like this, just realized adjusting two noses and held in the palm the pressure to user's nose, therefore, the glasses of this embodiment can satisfy user's demand better, in order to improve the comfort level that the user wore glasses, and, after the user wore glasses, the nose of glasses holds in the palm and just enables control module entering operating mode because of the pressure that receives the nose, when the user did not wear glasses, glasses were in standby state always, like this, can reduce the consumption of electric quantity.

In an embodiment of the invention, the first nose pad comprises a first inner side face and a first outer side face which are opposite, and the second nose pad comprises a second inner side face and a second outer side face which are opposite; the first inner side face and the second inner side face are arranged far away from the mirror frame, and the first outer side face and the second outer side face are arranged close to the mirror frame; one end of the control module, the first inner side surface and the second inner side surface are electrically connected in sequence; the other end of the control module is electrically connected with the first outer side face and the second outer side face respectively; under the condition that the first nose support and the second nose support are pressed to form an electric field, the electrodes on the first inner side face and the first outer side face are opposite, and the electrodes on the second inner side face and the second outer side face are opposite.

Specifically, as shown in fig. 1 and 2, two first nose pads 30 and two second nose pads 40 are disposed opposite to each other, the first nose pad 30 includes a first inner side surface 31 and a first outer side surface 32 opposite to each other, the second nose pad 40 includes a second inner side surface 41 and a second outer side surface 42 opposite to each other, in practical applications, when a user wears glasses, the first inner side surface 31 and the second inner side surface 41 are side surfaces contacting with the nose of the user, the first inner side surface 31 and the second inner side surface 41 are disposed away from the frame 10, and the first outer side surface 32 and the second outer side surface 42 are disposed close to the frame 10.

In practical application, since the piezoelectric material is subjected to a pressure, a voltage appears between two end faces, for the first nose pad 30, the first inner side face 31 and the first outer side face 32 are two end faces of the piezoelectric material respectively; for the second nose pad 40, the second inner side surface 41 and the second outer side surface 42 are two end surfaces of the piezoelectric material, so that in order to make the two nose pads generate mechanical stress due to voltage and deform, as shown in fig. 2, one end of the control module 20, the first inner side surface 31, and the second inner side surface 41 are electrically connected in sequence through a wire 90; the other end of the control module 20 is electrically connected to the first outer side 32 and the second outer side 42 through wires 90; thus, when the user wears the glasses, that is, when the first nose pad 30 and the second nose pad 40 are pressed to form an electric field, the circuit between the control module 20 and the two nose pads can be conducted, and the control module 200 can enter a working mode, so as to control the two nose pads to deform, thereby adjusting the distance between the first nose pad 30 and the second nose pad 40.

As shown in fig. 3, when the two nose pads are pressed to generate an electric field, the electrode 311 on the first inner side surface 31 is opposite to the electrode 321 on the first outer side surface 32, and similarly, the electrode 411 (not shown) on the second inner side surface 41 is opposite to the electrode 421 (not shown) on the second outer side surface 42, for example, if the electrode on the first inner side surface is a positive electrode, the electrode on the first outer side surface is a negative electrode.

In the embodiment of the invention, the control module comprises a control key, a signal controller and a controlled voltage source which are electrically connected in sequence, wherein one end of the control module is the control key, and the other end of the control module is the controlled voltage source; the control key, the first inner side surface and the second inner side surface are electrically connected in sequence; the controlled voltage source is electrically connected with the first outer side face and the second outer side face respectively; the control key is used for receiving touch operation and forming a touch signal according to the touch operation; the signal controller is used for controlling the controlled voltage source to output voltage to the first nose pad and the second nose pad according to the touch signal.

Specifically, as shown in fig. 2, the control module 20 includes a control key 50, a signal controller 60, and a controlled voltage source 70, which are electrically connected in sequence, the control module 20, the signal controller 60, and the controlled voltage source 70 are electrically connected in sequence through a conducting wire 90 from one end to the other end of the control module 20, the control key 50, the first inner side surface 31, and the second inner side surface 41 are electrically connected in sequence through a conducting wire 90 at one end of the control module 20, and the controlled voltage source 70 is electrically connected with the first outer side surface 32 and the second outer side surface 42 through a conducting wire 90 at the other end of the control module 20.

In practical application, after the control module enters a working mode, a user can touch the control key, and after the control key receives touch operation, a touch signal can be formed according to the touch operation and sent to the signal processor; after signal processor received touch signal, can turn into control signal with touch signal to according to the voltage that control signal control controlled voltage source output corresponds, controlled voltage source is giving two nose pads with this voltage output, like this, two nose pads can produce mechanical stress because of the voltage, thereby take place deformation, and then the distance between two nose pads changes thereupon, consequently, the glasses of this embodiment, can adjust the distance between two nose pads, thereby make two nose pads also obtain adjusting the pressure of nose, improve the comfort level that the user wore glasses.

In practical applications, the touch operation in this embodiment may be a pressing operation of a user, a touch operation of the user, or other operations, which is not limited in this embodiment, so that the control key in this embodiment may be a pressing sensor, a touch sensor, or other sensors, and specifically which sensor embodiment is selected is not limited in this respect.

In practical applications, for a controlled voltage source, the controlled branch is a voltage source, and its output voltage (referred to as controlled quantity) is controlled by the voltage or current (referred to as controlled quantity) of another branch. In this embodiment, the output voltage of the controlled voltage source is changed under the control of the signal controller.

In the embodiment of the invention, the control key comprises a first control key and a second control key which are connected in parallel, and the control module further comprises an inverter; one end of the first control key and one end of the second control key are respectively and electrically connected with the first inner side surface, the other end of the first control key, the phase inverter and the signal controller are sequentially and electrically connected, and the other end of the second control key is electrically connected with the signal controller; the first control key is used for receiving a first touch operation and forming a first touch signal according to the first touch operation; the phase inverter is used for inverting the first touch signal; the second control key is used for receiving a second touch operation and forming a second touch signal according to the second touch operation; the signal controller is used for controlling the controlled voltage source to output a first voltage to the first nose pad and the second nose pad according to the inverted first touch signal; or controlling the controlled voltage source to output a second voltage to the first nose pad and the second nose pad according to the second touch signal; the first voltage is opposite to the second voltage.

Specifically, as shown in fig. 2, after the first control key 51 is connected in series with the inverter 81, and then connected in parallel with the second control key 52, one end of the first control key 51 and one end of the second control key 52 are respectively electrically connected with the first inner side surface 31 through a conducting wire 90, the other end of the first control key 52, the inverter 80 and the signal controller 60 are sequentially electrically connected through a conducting wire 90, and the other end of the second control key 52 is electrically connected with the signal controller 60 through a conducting wire 90, so that, after a user touches or presses the first control key 51, the first control key 51 receives a first touch operation and forms a first touch signal according to the first touch operation; the inverter 80 inverts the first touch signal and transmits the inverted first touch signal to the signal controller 60; the signal controller 60 receives the inverted first touch signal, converts the inverted first touch signal into a first control signal, and controls the controlled voltage source 70 to output a first voltage according to the first control signal; the controlled voltage source 70 outputs the first voltage to the two nose pads, and the two nose pads deform correspondingly, so that the distance between the two nose pads changes; or, after the user touches or presses the second control key 52, the second control key 52 receives a second touch operation, and forms a second touch signal according to the second touch operation, and sends the second touch signal to the signal processor 60, and after the second touch signal received by the signal controller 60, the second touch signal is converted into a second control signal, and the controlled voltage source 70 is controlled to output a second voltage according to the second control signal; the controlled voltage source 70 outputs the second voltage to the two nose pads, and the two nose pads deform accordingly, so that the distance between the two nose pads changes.

In the embodiment of the present invention, since the first touch signal sent by the first control key is inverted by the inverter, the first voltage is a reverse voltage, and since the first voltage is opposite to the second voltage, the second voltage is a forward voltage. When the voltages applied to the two nose pads are opposite, the deformation of the two nose pads is also opposite.

In the embodiment of the invention, two opposite temples are arranged on the spectacle frame, and the control module is arranged in the temples.

In practical applications, in order to ensure the aesthetic appearance of the glasses without affecting the wearing of the glasses by the user, as shown in fig. 1, the control module 20 is disposed in the temple 100, and may be disposed in one of the two temples 100.

In an embodiment of the present invention, the first control key and the second control key are provided on a side of the temple away from the first nose pad or the second nose pad.

Specifically, as shown in fig. 1, in order to facilitate the user to touch the first control key 51 and the second control key 52 of the control module 20, the two control keys are disposed on the outer side of the temple 100, which is the side far away from the nose pad.

In an embodiment of the present invention, the deformation of the first nose pad is a thickness variation between the first inner side surface and the first outer side surface; the deformation of the second nose pad is a change in thickness between the second inner side and the second outer side.

Specifically, as shown in fig. 2, the deformation of the first nose pad 30 is a thickness change between the first inner side surface 31 and the first outer side surface 32, and the deformation of the second nose pad 40 is a thickness change between the second inner side surface 41 and the second outer side surface 42, in practical applications, the first inner side surface 31 and the second inner side surface 32 are deformed to be elongated or shortened by the pressure of the nose of the user, so that the thickness change between the first inner side surface 31 and the first outer side surface 32, and the thickness change between the second inner side surface 41 and the second outer side surface 42 are caused. If the first inner side surface 31 and the second inner side surface 41 are extended, the thicknesses of the first nose pad 30 and the second nose pad 40 become thicker, otherwise, if the first inner side surface 31 and the second inner side surface 41 are shortened, the thicknesses of the first nose pad 30 and the second nose pad 40 become thinner, then the thicker thicknesses of the two nose pads will reduce the distance between the two nose pads, and otherwise, the thinner thicknesses of the two nose pads will increase the distance between the two nose pads.

In the embodiment of the present invention, in order to enable the control module 20 to adjust the distance between the two nose pads more accurately, the embodiment sets a reset function, specifically, after the user wears the glasses, the user touches the first control key 51 for the first time, and after the first control key 51 receives the first touch operation, the first touch signal may be formed according to the touch operation, and the first touch signal is sent to the inverter 80; the inverter 80 inverts the first touch signal and transmits the inverted first touch signal to the signal processor 60; after receiving the inverted first touch signal, the signal processor 60 may convert the first touch signal into a first control signal, and control the voltage output by the controlled voltage source 60 to return to 0V according to the first control signal; or after the user touches the second control key for the second time, the second control key 52 may form a second touch signal according to the touch operation after receiving the second touch operation, and send the second touch signal to the signal processor 60; when the signal processor 60 receives the second touch signal, the second touch signal may be converted into a second control signal, and the voltage output by the controlled voltage source 60 is controlled to be restored to 0V according to the second control signal.

Then, if the user continues to touch the first control key 51, after receiving the first touch operation, the first control key 51 may form a first touch signal according to the touch operation, and send the first touch signal to the inverter 80; the inverter 80 inverts the first touch signal and transmits the inverted first touch signal to the signal processor 60; after receiving the inverted first touch signal, the signal processor 60 may convert the first touch signal into a first control signal, and control the controlled voltage source 70 to output a reverse voltage according to the first control signal, so that the thickness of the two nose pads becomes thinner, the distance between the two nose pads increases, and the user may continuously touch the first control key until the distance between the two nose pads meets the own requirement. Or, the user continues to touch the second control key 52, and after receiving the second touch operation, the second control key may form a second touch signal according to the touch operation and send the second touch signal to the signal processor 60; after the signal processor 60 receives the second touch signal, the second touch signal may be converted into a second control signal, and the controlled voltage source 70 is controlled to output a forward voltage according to the second control signal, so that the thickness of the two nose pads becomes thinner, the distance between the two nose pads increases, and the user may continuously touch the second control key until the distance between the two nose pads meets the needs of the user. Of course, the adjustment of the distance between the two nose pads by a user is fine adjustment, and the adjustment of the distance between the two nose pads of the embodiment is adjusted within the deformation range of the piezoelectric material.

In the embodiment of the invention, the first nose pad and the second nose pad are made of materials with positive piezoelectric effect and inverse piezoelectric effect.

In practical application, the principle of the piezoelectric effect is as follows: if a piezoelectric material is subjected to a pressure, it generates a potential difference (called a positive piezoelectric effect), whereas if a voltage is applied, a mechanical stress (called a reverse piezoelectric effect) is generated. The two nose pads of this embodiment generate a potential difference after receiving the nose pressure, thereby forming an electric field, so that the process of circuit conduction of the control module 20 is a positive piezoelectric effect, and after the control module 20 outputs a voltage to the two nose pads, the two nose pads generate a mechanical stress and the process of deformation is an inverse piezoelectric effect.

Specifically, since the piezoelectric ceramic has a positive piezoelectric effect and a negative piezoelectric effect, and the piezoelectric ceramic has a sensitive characteristic, and can convert extremely weak mechanical vibration into an electrical signal, the piezoelectric ceramic is preferred as the material of the two nose pads in this embodiment, and of course, other piezoelectric materials having the positive piezoelectric effect and the negative piezoelectric effect may be selected, which is not limited in this embodiment.

In the embodiment of the invention, the first nose pad and the second nose pad are provided with insulating coatings; the insulating coating is at least one of a rubber coating, a polyvinyl chloride coating, a polycarbonate coating and a ceramic coating.

Specifically, as shown in fig. 3, in order to prevent the connection circuit between the two nose pads and the control module 20 from causing leakage current due to external causes, which may cause a safety hazard to a user, the present embodiment provides an insulating coating 110 on all outer surfaces of the two nose pads. Since the rubber coating, the polyvinyl chloride coating, the polycarbonate coating and the ceramic coating all have good insulating effects, the insulating coatings on the two nose pads of the present embodiment may be any one of these coatings, and of course, other insulating coatings may also be selected in the present embodiment, which is not limited in this embodiment.

In summary, the glasses according to the embodiments of the present invention have at least the following advantages:

in the embodiment of the invention, as the two nose pads of the glasses can be deformed under the condition of electrifying, the two nose pads can be made of piezoelectric materials, so that the two nose pads can form an electric field under the condition of being pressed; because be provided with control module on the picture frame of glasses, control module holds in the palm the electricity with two noses respectively and is connected, under the effect of electric field, control module can hold in the palm output voltage to two noses, and two noses of control hold in the palm and take place deformation to adjust the distance between two noses hold in the palm, and then adjust two noses and hold in the palm the pressure of applying for user's nose, consequently, the glasses of this embodiment can satisfy user's demand better, in order to improve the comfort level that the user wore glasses.

And after the user wears the glasses, the nose pads of the glasses can enable the control module to enter the working mode due to the pressure of the nose, and when the user does not wear the glasses, the glasses are always in the standby state, so that the consumption of electric quantity can be reduced.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or terminal. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or terminal that comprises the element.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. An eyeglass, comprising: the glasses frame, the control module, the first nose support and the second nose support;

the first nose support and the second nose support are fixed on the glasses frame and are arranged oppositely;

the first nose pad and the second nose pad are deformable when energized;

the control module is fixedly arranged on the mirror frame, the control module is respectively electrically connected with the first nose support and the second nose support, and the control module is used for controlling the deformation of the first nose support and the second nose support so as to adjust the distance between the first nose support and the second nose support.

2. The eyeglasses according to claim 1, wherein the first nose pads and the second nose pads are made of a piezoelectric material, the first nose pads and the second nose pads forming an electric field when pressed;

the control module is used for outputting voltage to the first nose pad and the second nose pad under the action of the electric field.

3. The eyewear of claim 2, wherein the first nose pad includes first and second opposing inner and outer sides, and the second nose pad includes second and second opposing inner and outer sides;

the first inner side face and the second inner side face are arranged far away from the mirror frame, and the first outer side face and the second outer side face are arranged close to the mirror frame;

one end of the control module, the first inner side surface and the second inner side surface are electrically connected in sequence; the other end of the control module is electrically connected with the first outer side face and the second outer side face respectively;

under the condition that the first nose support and the second nose support are pressed to form an electric field, the electrodes on the first inner side face and the first outer side face are opposite, and the electrodes on the second inner side face and the second outer side face are opposite.

4. The eyeglasses according to claim 3, wherein the control module comprises a control key, a signal controller and a controlled voltage source which are electrically connected in sequence, one end of the control module is the control key, and the other end of the control module is the controlled voltage source;

the control key, the first inner side surface and the second inner side surface are electrically connected in sequence;

the controlled voltage source is electrically connected with the first outer side face and the second outer side face respectively;

the control key is used for receiving touch operation and forming a touch signal according to the touch operation;

the signal controller is used for controlling the controlled voltage source to output voltage to the first nose pad and the second nose pad according to the touch signal.

5. The eyewear of claim 4, wherein the control comprises a first control and a second control in parallel, the control module further comprising an inverter;

one end of the first control key and one end of the second control key are respectively and electrically connected with the first inner side surface, the other end of the first control key, the phase inverter and the signal controller are sequentially and electrically connected, and the other end of the second control key is electrically connected with the signal controller;

the first control key is used for receiving a first touch operation and forming a first touch signal according to the first touch operation; the phase inverter is used for inverting the first touch signal;

the second control key is used for receiving a second touch operation and forming a second touch signal according to the second touch operation;

the signal controller is used for controlling the controlled voltage source to output a first voltage to the first nose pad and the second nose pad according to the inverted first touch signal; or controlling the controlled voltage source to output a second voltage to the first nose pad and the second nose pad according to the second touch signal;

the first voltage is opposite to the second voltage.

6. The eyeglasses according to claim 5, wherein said frame is provided with two opposite temples, and said control module is arranged in said temples.

7. The eyewear of claim 6, wherein the first control key and the second control key are disposed on a side of the temple away from the first nose pad or the second nose pad.

8. The eyewear of claim 3, wherein the deformation of the first nose pad is a change in thickness between the first inner side and the first outer side;

the deformation of the second nose pad is a change in thickness between the second inner side and the second outer side.

9. The eyewear of claim 1, wherein the first and second nose pads have a positive piezoelectric effect and an inverse piezoelectric effect.

10. The eyewear of claim 1, wherein the first and second nose pads have an insulating coating disposed thereon, the insulating coating being selected from at least one of a rubber coating, a polyvinyl chloride coating, a polycarbonate coating, and a ceramic coating.

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