CN112540463B - Glasses and glasses system - Google Patents

Abstract

The application discloses glasses and a glasses system. The glasses include casing, installed part and nose support subassembly, and the casing includes left picture frame and right picture frame. The mounting is installed in the space between left picture frame and right picture frame. And the nose pad assembly is connected with the mounting piece and is movably arranged in the space so that the nose pad assembly can be adjusted. The glasses and the glasses system of the embodiment of the application are arranged in the space between the left glasses frame and the right glasses frame by using the mounting piece, the nose support component is connected with the mounting piece and the mounting piece is movably arranged in the space, so that the nose support component can be adjusted to adjust the position and the angle relation between the nose support component and the shell, thereby meeting the wearing comfort requirement of users.

Description

Glasses and glasses system

Technical Field

The application relates to the technical field of glasses, in particular to glasses and a glasses system.

Background

Nowadays, the augmented reality technology (Augmented Reality, AR) is widely applied in education, medical treatment, entertainment and other industries, and AR glasses are gradually popularized as a brand new intelligent terminal. However, in the actual use process of AR glasses, the nose pads of AR glasses are often fixedly connected with the glasses frame, so that the AR glasses cannot adapt to the wearing comfort requirements of different users.

Disclosure of Invention

The embodiment of the application provides glasses and a glasses system.

The glasses of the embodiments of the present application include a housing, a mount, and a nose pad assembly. The shell comprises a left mirror frame and a right mirror frame; the mounting piece is arranged in a space between the left mirror frame and the right mirror frame; the nose pad assembly is connected with the mounting member and the mounting member is movably disposed within the space such that the nose pad assembly is adjustable.

The glasses system of the embodiment of the application comprises the glasses and the terminal, wherein the terminal is in communication connection with the glasses. The eyeglass comprises a housing, a mount, and a nose pad assembly. The shell comprises a left mirror frame and a right mirror frame; the mounting piece is arranged in a space between the left mirror frame and the right mirror frame; the nose pad assembly is connected with the mounting member and is movably disposed within the space such that the nose pad assembly is adjustable.

The glasses and the glasses system of the embodiment of the application are arranged in the space between the left glasses frame and the right glasses frame by using the mounting piece, the nose support component is connected with the mounting piece and is movably arranged in the space, so that the nose support component can be adjusted to adjust the position and the angle relation between the nose support component and the shell, thereby meeting the wearing comfort requirement of users.

Additional aspects and advantages of embodiments of the application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of embodiments of the application.

Drawings

The foregoing and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic perspective view of glasses and a glasses system according to certain embodiments of the present application;

FIG. 2 is a schematic perspective assembly view of glasses according to certain embodiments of the present application;

FIG. 3 is a schematic perspective view of another side of glasses according to certain embodiments of the present application;

FIG. 4 is a schematic cross-sectional view of a housing of the eyeglass of certain embodiments of the present application taken in the direction A-A of FIG. 3;

FIG. 5 is a schematic cross-sectional view of a housing of the eyeglass of certain embodiments of the present application taken in a direction opposite the direction A-A of FIG. 3;

FIG. 6 is a schematic illustration of the attachment of a mount and nose pad assembly of eyeglasses in accordance with certain embodiments of the present application;

FIG. 7 is a schematic perspective assembly view of a nose pad assembly according to certain embodiments of the present application;

figure 8 is a schematic cross-sectional view of a nose pad assembly of certain embodiments of the present application taken along the direction A-A of figure 3.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present application and are not to be construed as limiting the present application.

The following disclosure provides many different embodiments, or examples, for implementing different features of the application. In order to simplify the present disclosure, components and arrangements of specific examples are described below. They are, of course, merely examples and are not intended to limit the application. Furthermore, the present application may repeat reference numerals and/or letters in the various examples, which are for the purpose of brevity and clarity, and which do not themselves indicate the relationship between the various embodiments and/or arrangements discussed. In addition, the present application provides examples of various specific processes and materials, but one of ordinary skill in the art will recognize the application of other processes and/or the use of other materials.

Referring to fig. 1 and 2, an embodiment of the application provides glasses 100. The glasses 100 comprise a housing 10, a mounting member 20 and a nose pad assembly 30, wherein the mounting member 20 is mounted in a space 40 between the left and right frames 11 and 12, the nose pad assembly 30 is mounted in the space 40 by being connected with the mounting member 20, and the mounting member 20 moves in the space 40 to drive the nose pad assembly 30 to move, so that the position and the angular relationship between the nose pad assembly 30 and the housing 10 can be adjusted.

The glasses 100 may be glasses with nose pad structures such as sunglasses, corrective glasses, polarizers, AR (augmented reality) glasses, and VR (virtual reality) glasses, and the embodiments of the present application take the glasses 100 as AR glasses as an example, and it is understood that the glasses 100 are not limited to one type of AR glasses.

In the glasses 100 according to the embodiment of the present application, the mount 20 is installed in the space 40 between the left and right frames 11 and 12, the nose pad assembly 30 is connected with the mount 20 and the nose pad assembly 30 is movably disposed in the space 40, so that the nose pad assembly 30 is adjustable to adjust the positional and angular relationship between the nose pad assembly 30 and the housing 10, thereby satisfying the wearing comfort requirement of the user.

With continued reference to fig. 1, the embodiment of the present application further provides an eyeglass system 1000, where the eyeglass system 1000 includes an eyeglass 100 and a terminal 200, and the terminal 200 is configured to be communicatively connected to the eyeglass 100. The terminal 200 may be a mobile phone, a tablet computer, a notebook computer, a smart watch, etc. and other terminals 200 with communication connection functions. The present application is described with respect to the terminal 200 being a mobile phone, and it should be understood that the specific form of the terminal 200 is not limited to a mobile phone.

In one embodiment, the housing 10 is provided with a switch 101, the switch 101 being used to control the state of the glasses 100. For example, when the switch 101 is not pressed, the glasses 100 are in a closed state, and when the switch 101 is pressed, the glasses 100 are turned on. In another embodiment, the housing 10 is provided with a communication module 102, and the terminal 200 can be communicatively connected to the communication module 102 by bluetooth, WIFI, NFC, liFi, etc. to send instructions to the glasses 100. For example, when the terminal 200 transmits an open command, the communication module 102 controls the glasses 100 to be turned on, and when the terminal 200 transmits a close command, the communication module 102 controls the glasses 100 to be turned off. In another embodiment, the terminal 200 includes a processor 201, the processor 201 being configured to alter the state of the glasses 100. For example, the processor 201 may send instructions through the terminal 200 to control the direction of the current inside the glasses 100.

Specifically, referring to fig. 2, the glasses 100 include a housing 10, a mounting member 20, a nose pad assembly 30, a power source 50, a first magnetic member 60 and a second magnetic member 70. The mounting member 20, the nose pad assembly 30, the power source 50, the first magnetic member 60 and the second magnetic member 70 are disposed on the housing 10.

The housing 10 includes a left frame 11 and a right frame 12. The material of the housing 10 may be alloy, plastic, etc. In one embodiment, the surface of the contact surface between the housing 10 and the mounting member 20 may be provided with a material such as silica gel, rubber, etc. to increase the friction between the housing 10 and the mounting member 20, and to improve the stability of the housing 10 and the mounting member 20, thereby increasing the stability of the glasses 100. In another embodiment, when the material of the case 10 is an alloy, on one hand, the case 10 can secure sufficient strength to prevent the glasses 100 from being damaged by falling down, and on the other hand, the case 10 has good corrosion resistance to prevent loss of gloss due to corrosion of metal by sweat in long-term wear, thereby improving the service life of the glasses 100. In another embodiment, when the material of the housing 10 is plastic, on one hand, the lighter weight of the housing 10 improves the comfort of wearing the glasses 100 for a long time, and on the other hand, the housing 10 has good anti-falling capability to improve the service life of the glasses 100.

Referring to fig. 2, 3 and 4, the left lens frame 11 is mirror-symmetrical to the right lens frame 12, the first region 111 of the left lens frame 11 is for accommodating the first lens 13, and the second region 112 of the left lens frame 11 is for accommodating the second lens 14. Wherein, the shape of the first area 111 is consistent with the shape of the first lens 13, as shown in fig. 2, when the shape of the first area 111 is a semi-ellipse, the shape of the first lens 13 is also a semi-ellipse, and the shape of the second area 112 is consistent with the shape of the second lens 14, as shown in fig. 3, when the shape of the second area 112 is a circle, the shape of the second lens 14 is also a circle. As shown in fig. 4 and 5, a space 40 is formed between the left frame 11 and the right frame 12, and a first notch 41 and a second notch 42 are formed in the space 40, wherein the first notch 41 is used for accommodating the first magnetic member 60, and the second notch 42 is used for accommodating the second magnetic member 70. Specifically, the first notch 41 may accommodate the first magnetic member 60 by means of fastening, gluing, etc., the second notch 42 may accommodate the second magnetic member 70 by means of fastening, gluing, etc., in one embodiment, a fastening hole may be provided inside the first notch 41, a fastening post may be provided on a surface of the first magnetic member 60, and the first notch 41 and the first magnetic member 60 may be fastened, so as to accommodate the first magnetic member 60 detachably in the first notch 41, so as to facilitate maintenance, cleaning, or replacement of the first magnetic member 60 in a later stage, thereby improving the service life of the glasses 100. In another embodiment, the interface between the first notch 41 and the first magnetic member 60 may be coated with an adhesive such as a metal adhesive, a high-temperature adhesive, etc. to realize the first notch 41 to house the first magnetic member 60 in a non-detachable manner, so as to improve the stability of the connection between the first notch 41 and the first magnetic member 60, and further improve the stability of the glasses 100. The second slot 42 accommodates the second magnetic member 70 in a manner similar to that of the first slot 41 for accommodating the first magnetic member 60, and will not be described in detail herein.

Wherein the first notch 41 and the second notch 42 are mirror symmetrical and located in the space 40 such that the first magnetic member 60 is mirror symmetrical to the second magnetic member 70 and located in the space 40, thereby allowing the mounting member 20 to be mounted within the magnetic field of the first magnetic member 60 and the second magnetic member 70.

Referring to fig. 2, 3 and 5, the right frame 12 is mirror-symmetrical to the left frame 12, the third area 121 of the right frame 12 is for accommodating the third lens 15, and the fourth area 122 of the right frame 12 is for accommodating the fourth lens 16. Wherein, the shape of the third area 121 is consistent with the shape of the third lens 15, as shown in fig. 2, when the shape of the third area 121 is a semi-ellipse, the shape of the third lens 15 is also a semi-ellipse, and the shape of the fourth area 122 is consistent with the shape of the fourth lens 16, as shown in fig. 3, when the shape of the fourth area 122 is a circle, the shape of the fourth lens 16 is also a circle. The materials of the first lens 13, the second lens 14, the third lens 15 and the fourth lens 16 may be glass, resin, plastic, etc. In one embodiment, when the materials of the first lens 13, the second lens 14, the third lens 15 and the fourth lens 16 are resins, the first lens 13, the second lens 14, the third lens 15 and the fourth lens 16 have better impact resistance, so as to improve the service life of the glasses 100. In another embodiment, when the materials of the first lens 13, the second lens 14, the third lens 15 and the fourth lens 16 are plastic, the first lens 13, the second lens 14, the third lens 15 and the fourth lens 16 are lighter in weight, thereby improving the comfort of wearing the glasses 100 for a long time. When the glasses 100 are AR glasses 100, the first lens 13, the second lens 14, the third lens 15 and the fourth lens 16 may be coated with a coating film, so as to better realize various functions of the AR glasses 100.

Referring to fig. 2 and 6, the mounting member 20 is installed inside the space 40, and the magnetic field ranges of the first magnetic member 60 and the second magnetic member 70 cover the mounting member 20. The mounting member 20 includes a third magnetic member 21 and a mounting groove 22, the third magnetic member 21 being mounted inside the mounting groove 22, the magnetic field range of the first magnetic member 60 and the second magnetic member 70 covering the third magnetic member 21. For example, when the third magnetic member 21 is an electromagnet and the first magnetic member 60 and the second magnetic member 70 are permanent magnets, after the third magnetic member 21 is energized, the magnetic poles of the end of the first magnetic member 60 near the third magnetic member 21 and the end of the second magnetic member 70 near the third magnetic member 21 are opposite, so that there is a mutual attraction between the first magnetic member 60, the second magnetic member 70, and the third magnetic member 21 to clamp the mount 20. For another example, when the first magnetic member 60 and the second magnetic member 70 are electromagnets and the third magnetic member 21 is a permanent magnet, after the first magnetic member 60 and the second magnetic member 70 are energized, the magnetic poles of the end of the first magnetic member 60 near the third magnetic member 21 and the end of the second magnetic member 70 near the third magnetic member 21 are opposite, so that there is a mutual attraction between the first magnetic member 60, the second magnetic member 70 and the third magnetic member 21 to clamp the mount 20.

Referring to fig. 7, the third magnetic member 21 includes an iron core 211, a coil 212 and a sleeve 213, the coil 212 is sleeved on the iron core 211, the coil 212 includes a first connecting end 2121 and a second connecting end 2122 opposite to each other, the iron core 211 and the coil 212 are disposed inside the sleeve 213, and the sleeve 213 is disposed inside the mounting groove 22. In one embodiment, when the third magnetic member 21 is energized, the iron core 211 and the coil 212 interact to form a magnetic field, as shown in fig. 6, the magnetic pole at the first end 214 of the third magnetic member 21 is N-pole, the magnetic pole at the second end 215 is S-pole, the magnetic pole at the end of the first magnetic member 60 near the first end 214 is S-pole, the magnetic pole at the end of the second magnetic member 70 near the second end 215 is N-pole, the first end 214 attracts the first magnetic member 60, the second end 215 attracts the second magnetic member 70, i.e. the third magnetic member 21 attracts both the first magnetic member 60 and the second magnetic member 70, so that the first magnetic member 60 and the second magnetic member 70 clamp the mounting member 20, and when the third magnetic member 21 is de-energized, the magnetic field of the magnetic field formed by the iron core 213 and the coil 212 disappears, and the third magnetic member 21 cannot attract the first magnetic member 60 and the second magnetic member 70, at this time, the mounting member 20 can move in the space 40, thereby driving the nose support assembly 30 to move in the space 40, so as to adjust the nose support assembly 30 and the housing 10 to satisfy the position and the comfort requirements of the user.

With continued reference to fig. 6, the first magnetic member 60, the second magnetic member 70, and the third magnetic member 21 include, but are not limited to, electromagnets or permanent magnets. For example, the first magnetic member 60 and the second magnetic member 70 are permanent magnets, and the third magnetic member 21 is an electromagnet; or the first magnetic element 60 and the second magnetic element 70 are electromagnets, and the third magnetic element 21 is a permanent magnet; or the first magnetic member 60, the second magnetic member 70, and the third magnetic member 21 are electromagnets or the like.

In one embodiment, when the third magnetic element 21 is an electromagnet and the first magnetic element 60 and the second magnetic element 70 are permanent magnets, the first magnetic element 60 and the second magnetic element 70 are located on two sides of the third magnetic element 21, and after the third magnetic element 21 is energized, the first end 214 of the third magnetic element 21 and the end of the first magnetic element 60 near the first end 214 are opposite in magnetism, and the second end 215 of the third magnetic element 21 and the end of the second magnetic element 70 near the second end 215 are opposite in magnetism, so that the third magnetic element 21 attracts the first magnetic element 60 and the second magnetic element 70 at the same time, thereby achieving the fixation of the mounting element 20 by the magnetic attraction force between the first magnetic element 60, the second magnetic element 70 and the third magnetic element 21. When the third magnetic element 21 is powered off, the third magnetic element 21 loses magnetic force, and the third magnetic element 21 no longer attracts the first magnetic element 60 and the second magnetic element 70, at this time, the mounting element 20 can move in the space 40, so as to drive the nose pad assembly 30 to move in the space 40, so as to adjust the position and the angular relationship between the nose pad assembly 30 and the housing 10, thereby meeting the wearing comfort requirement of the user.

In another embodiment, when the third magnetic member 21 is a permanent magnet and the first magnetic member 60 and the second magnetic member 70 are electromagnets, the first magnetic member 60 and the second magnetic member 70 are located on two sides of the third magnetic member 21, and after the first magnetic member 60 and the second magnetic member 70 are energized, the first end 214 of the third magnetic member 21 and the end of the first magnetic member 60 near the first end 211 are opposite in magnetism, and the second end 215 of the third magnetic member 21 and the end of the second magnetic member 70 near the second end 215 are opposite in magnetism, so that the third magnetic member 21 attracts the first magnetic member 60 and the second magnetic member 70 at the same time, thereby achieving the fixation of the mounting member 20 by the magnetic attraction force between the first magnetic member 60, the second magnetic member 70 and the third magnetic member 21. After the first magnetic element 60 and the second magnetic element 70 are powered off, the first magnetic element 60 and the second magnetic element 70 lose magnetic force, and the third magnetic element 21 does not attract the first magnetic element 60 and the second magnetic element 70 any more, at this time, the mounting element 20 can move in the space 40, so as to drive the nose pad assembly 30 to move in the space 40, so as to adjust the position and the angular relationship between the nose pad assembly 30 and the housing 10, thereby meeting the wearing comfort requirement of the user.

In yet another embodiment, when the first magnetic member 60, the second magnetic member 70, and the third magnetic member 21 are electromagnets, the first magnetic member 60 and the second magnetic member 70 are located at two sides of the third magnetic member 21, and after the first magnetic member 60, the second magnetic member 70, and the third magnetic member 21 are simultaneously energized, the first end 214 of the third magnetic member 21 and the end of the first magnetic member 60 near the first end 214 are opposite in magnetism, and the second end 215 of the third magnetic member 21 and the end of the second magnetic member 70 near the second end 215 are opposite in magnetism, and the third magnetic member 21 simultaneously attracts the first magnetic member 60 and the second magnetic member 70, so as to fix the mounting member 20 by the magnetic attraction force between the first magnetic member 60, the second magnetic member 70, and the third magnetic member 21. After the first magnetic element 60, the second magnetic element 70 and the third magnetic element 21 are simultaneously powered off, the first magnetic element 60, the second magnetic element 70 and the third electromagnet 21 lose magnetic force, and the third magnetic element 2 can not attract the first magnetic element 60 and the second magnetic element 70 any more, at this time, the mounting element 20 can move in the space 40, so as to drive the nose pad assembly 30 to move in the space 40, so as to adjust the position and the angle relation between the nose pad assembly 30 and the shell 10, and thereby satisfy the wearing comfort requirement of a user.

In the embodiment of the present application, the third magnetic element 21 is merely an electromagnet, and the first magnetic element 60 and the second magnetic element 70 are permanent magnets, which are described as examples, and it is understood that the specific forms of the first magnetic element 60, the second magnetic element 70 and the third magnetic element 21 may be various.

Referring to fig. 7 and 8, the shape of the mounting groove 22 may be a cube, a table, a cylinder, etc., and the mounting groove 22 is used for accommodating the third magnetic member 21. The mounting groove 22 and the cover 23 may be connected by means of snap fit, glue or welding. In one embodiment, the surface of the cover 23, which is connected to the mounting groove 22, may be provided with a boss, and the size of the boss is tightly matched with the size of the notch of the mounting groove 22, so as to complete the snap connection between the cover 23 and the mounting groove 22, thereby realizing the detachable connection between the cover 23 and the mounting groove 22, so as to facilitate maintenance, cleaning or replacement of the third magnetic element 21 inside the mounting groove 22, and improve the service life of the glasses 100. In another embodiment, an adhesive such as a metal adhesive, a high-temperature adhesive, etc. may be coated between the interface between the mounting groove 22 and the cover 23 to complete the glued connection between the cover 23 and the mounting groove 22, so as to realize the non-detachable connection between the cover 23 and the mounting groove 22, and improve the stability between the cover 23 and the mounting groove 22, so as to improve the stability of the glasses 100.

Referring to fig. 7, the nose pad assembly 30 includes an elastic member 31 and a sleeve member 32, the nose pad assembly 30 is connected with the mounting member 20 through the elastic member 31, and when the mounting member 20 moves in the space 40, the nose pad assembly 30 can be driven to move in the space 40, so that the position and the angular relationship between the nose pad assembly 30 and the housing 10 can be adjusted, thereby meeting the wearing comfort requirement of the user.

The elastic piece 31 includes first elastic piece 311 and second elastic piece 312, and the elastic piece 31 is including not limited to the metal shrapnel, and the elastic piece 31 sets up in the cover establishes piece 32, and the one end of elastic piece 31 stretches out from the cover and establishes piece 32 and be connected with the installed part 20, and when elastic piece 31 takes place deformation, elastic piece 31 can drive the cover and establish piece 32 and take place deformation to change the distance between two nose pads of nose pad subassembly 30, thereby adjust nose pad interval and angle on the nose pad subassembly 30 horizontal direction, thereby satisfy user's wearing comfort degree demand.

The first elastic member 311 includes first and second opposite ends 3111 and 3112, and the second elastic member 312 includes third and fourth opposite ends 3121 and 3122. As shown in fig. 6, the first elastic member 311 and the second elastic member 312 are fixedly connected through the first end 3111 and the third end 3121, and the second end 3112 and the fourth end 3122 are splayed apart to form a nose pad shape. In one embodiment, the elastic member 31 is a metal elastic sheet and is connected to the mounting member 20, the first elastic member 311 and the second elastic member 312 are connected in a nose pad shape, when the first elastic member 311 and the second elastic member 312 are close, the second end 3112 and the fourth end 3122 are close, when the first elastic member 311 and the second elastic member 312 are far away, the second end 3112 and the fourth end 3122 are close, so as to achieve a distance between two nose pads of the nose pad assembly 30, and thus adjust a nose pad distance and an angle of the nose pad assembly 30 in a horizontal direction, so as to meet wearing comfort requirements of users.

The elastic member 31 is further provided with mounting holes 313, as shown in fig. 6, the first elastic member 311 and the second elastic member 312 are provided with mounting holes 313, the number of the mounting holes 313 can be 2, 3, 4 or more, and the sleeved member 32 is fixed on the elastic member 31 through the plurality of mounting holes 313, so as to ensure stability between the elastic member 31 and the sleeved member 32, thereby ensuring stability of the glasses 100.

The sleeving member 32 includes, but is not limited to, silica gel, the fixing columns 322 are disposed on the inner wall 321 of the sleeving member 32, the positions of the fixing columns 322 correspond to the positions of the mounting holes 313, the number of the fixing columns 322 corresponds to the number of the mounting holes 313, for example, when the number of the mounting holes 313 is 2, the number of the fixing columns 322 corresponds to 2, and the fixing columns 322 on the inner wall 321 of the sleeving member 32 penetrate through the mounting holes 313 to fix the sleeving member 32 on the elastic member 31. In one embodiment, the sleeve 32 may be formed by placing the elastic member 31 into a mold and then injection molding with liquid silicone, thereby completing the sleeve 32 on the elastic member 31 and ensuring the integrity of the sleeve 32, thereby ensuring the stability of the glasses 100. In another embodiment, the inner wall of the sleeving part 32 may be provided with a mounting hole 313, the elastic part 31 may be provided with a fixing column 322, and the sleeving part 32 is sleeved on the fixing column 322 through the mounting hole 313, so as to complete the sleeving of the sleeving part 32 on the elastic part 31.

Referring to fig. 2, a power source 50 is disposed inside the housing 10, the power source 50 is connected to a coil 212, and the power source 50 passes through the coil 212 to generate magnetic force to the third electromagnet 21.

Referring to fig. 6 and 7, the power supply 50 includes a current device 51, wherein a positive electrode 52 of the current device 51 is connected to a first connection 2121 of the coil 212, and a negative electrode 53 of the current device 51 is connected to a second connection 2122 of the coil 212, so that the current device 51 controls a current direction to affect magnetic poles of the first end 214 and the second end 215 of the third magnetic member 21. In one embodiment, as shown in fig. 6, after the third magnetic element 21 is energized, the first end 214 of the third magnetic element 21 is N-pole, the second end 215 of the third magnetic element 21 is S-pole, the magnetic pole of the end of the first magnetic element 60 near the first end 214 is S-pole, the magnetic pole of the end of the second magnetic element 70 near the second end 215 is N-pole, and the third electromagnet 21 attracts both the first magnetic element 60 and the second magnetic element 70 to realize that the first magnetic element 60 and the second magnetic element 70 clamp the mounting element 20. At this time, the current direction may be changed by the current device 51 to change the magnetic poles of the first end 214 and the second end 215 of the third electromagnet 21, for example, when the current direction of the current device 51 is changed, the positions of the positive pole 52 and the negative pole 53 of the current device 51 are correspondingly changed, when the third magnetic element 21 is electrified, the first end 214 of the third magnetic element 21 is S-pole, the second end 215 of the third magnetic element 21 is N-pole, the magnetic pole of the end of the first magnetic element 60 near the first end 214 is S-pole, the magnetic pole of the end of the second magnetic element 70 near the second end 215 is N-pole, and the third magnetic element 21 simultaneously repels the first magnetic element 60 and the second magnetic element 70, so that the mounting element 20 can move in the space 40, thereby driving the nose pad assembly 30 to move in the space 40, so as to adjust the position and the angular relationship between the nose pad assembly 30 and the housing 10, thereby meeting the wearing comfort requirement of the user.

Referring to fig. 2 and 7, in one embodiment, a surface of the mounting member 20 contacting the first magnetic member 60 or the second magnetic member 70 may be provided with a first pad 24, the coil 212 is electrically connected with the first pad 24, a surface of the first magnetic member 60 or the second magnetic member 70 contacting the mounting member 20 is provided with a second pad 61, and the first pad 24 is electrically connected with the second pad 61. When the mounting member 20 is mounted in the space 40, the power supply 50 powers on the third magnetic member 21 through the first bonding pad 24 and the second bonding pad 61, so that the iron core 211 and the coil 212 are completed to act simultaneously to form a magnetic field, so that the first magnetic member 60 and the second magnetic member 70 are realized to clamp the mounting member 20, and the nose pad assembly 30 is driven to move in the space 40, so that the position and the angle relation between the nose pad assembly 30 and the shell 10 are adjusted, and the wearing comfort requirement of a user is met.

Referring to fig. 4, 5 and 6, the first magnetic member 60 is installed in the first slot 41, and the second magnetic member 70 is installed in the second slot 42. In one embodiment, the surface of the first magnetic member 60 contacting the bottom surface 410 of the first slot 41 may be provided with balls, the surface of the second magnetic member 70 contacting the bottom surface 420 of the second slot 42 may be provided with balls, the bottom surface 410 of the first slot 41 may be provided with sliding rails contacting the balls, and the bottom surface 420 of the second slot 42 may be provided with sliding rails contacting the balls. At this time, the first magnetic member 60 is movably installed inside the first slot 41 by being engaged with the slide rail through the balls. The second magnetic piece 70 is matched with the sliding rail through the balls, and is movably arranged in the second notch 42, when the first magnetic piece 60 and the second magnetic piece 70 are electrified, as the magnetic poles of the end part of the first magnetic piece 60, which is close to the mounting piece 20, and the magnetic pole of the end part of the second magnetic piece 70, which is close to the mounting piece 20, are opposite, the first magnetic piece 60 and the second magnetic piece 70 are mutually attracted, the first magnetic piece 60 and the second magnetic piece 70 are matched with the sliding rail through the balls and move under the attraction force to clamp the mounting piece 20, after the first magnetic piece 60 and the second magnetic piece 70 are powered off, the magnetic force of the first magnetic piece 60 and the second magnetic piece 70 is lost, the mounting piece 20 can drive the nose support assembly 30 to move in the space 40 enclosed by the first magnetic piece 60 and the second magnetic piece 70, so that the position and the angle relation between the nose support assembly 30 and the shell 10 are adjusted, and the wearing comfort requirement of a user is met.

In another embodiment, the first magnetic member 60 and the second magnetic member 70 may be elastic magnetic bodies, the first magnetic member 60 and the second magnetic member 70 may include an elastic housing having one end of the elastic housing of the first magnetic member 60 fixed in the first slot 41 and a magnetic core having magnetism fixed in the second slot 42, and one end of the elastic housing of the second magnetic member 70 disposed in the elastic housing. When the first magnetic member 60 and the second magnetic member 70 are energized, since the magnetic poles of the end of the first magnetic member 60 near the mount 20 and the end of the second magnetic member 70 near the mount 20 are opposite, the first magnetic member 60 and the second magnetic member 70 attract each other, and the elastic housing of the first magnetic member 60 and the elastic housing of the second magnetic member 70 are deformed by the attraction force, so that the end of the first magnetic member 60 not connected to the first notch 41 and the end of the second magnetic member 70 not connected to the second notch 42 are close to each other, thereby clamping the mount 20. When the first magnetic element 60 and the second magnetic element 70 are powered off, the first magnetic element 60 and the second magnetic element 70 lose magnetic force, so that the elastic shell of the first magnetic element 60 and the elastic shell of the second magnetic element 70 are restored, the first magnetic element 60 and the second magnetic element 70 do not clamp the mounting element 20 any more, and the mounting element 20 can drive the nose pad assembly 30 to move in the space 40 so as to adjust the position and the angle relation between the nose pad assembly 30 and the shell 10, thereby meeting the wearing comfort requirement of a user.

Although embodiments of the present application have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the application, and that variations, modifications, alternatives and variations may be made to the above embodiments by those skilled in the art within the scope of the application, which is defined by the claims and their equivalents.

Claims (8)

1. An eyeglass, comprising:

the shell comprises a left mirror frame and a right mirror frame;

a mounting member mounted in a space between the left and right frames; a kind of electronic device with high-pressure air-conditioning system

A nose pad assembly connected to the mounting member and movably disposed within the space such that the nose pad assembly is adjustable;

the glasses further comprise a first magnetic piece and a second magnetic piece, wherein the first magnetic piece is arranged on the left glasses frame, the second magnetic piece is arranged on the right glasses frame, the mounting piece comprises a third magnetic piece, and after the third magnetic piece is electrified and/or after the first magnetic piece and the second magnetic piece are electrified, the magnetic poles of the third magnetic piece and the first magnetic piece are opposite to each other, and the third magnetic piece and the second magnetic piece are opposite to each other so as to fix the mounting piece;

when the third magnetic part is powered off, and/or the first magnetic part and the second magnetic part are powered off, the mounting part moves in the space and drives the nose support assembly to move in the space so as to adjust the position and the angle relation between the nose support assembly and the shell.

2. The eyewear of claim 1, wherein the mounting member defines a mounting slot, and wherein the third magnetic member is disposed within the mounting slot.

3. The eyewear of claim 1, wherein the nose pad assembly comprises an elastic member coupled to the mounting member, the elastic member comprising a first elastic member and a second elastic member, the first elastic member comprising opposed first and second ends, the second elastic member comprising opposed third and fourth ends, the first and third ends being coupled, and a spacing of the second and fourth ends being within a predetermined range.

4. The pair of glasses according to claim 3, wherein the nose pad assembly further comprises a sleeve member, the elastic member is provided with a mounting hole, the inner wall of the sleeve member is provided with a fixing post, and the fixing post penetrates through the mounting hole, so that the elastic member is fixedly connected with the sleeve member.

5. The eyewear of claim 1, further comprising a power source, the third magnetic element comprising:

an iron core;

and the coil surrounds the iron core, and the power supply is electrically connected with the coil.

6. The eyewear of claim 5 wherein said power supply comprises a current means for controlling the direction of current flow, said coil comprising a third end and a fourth end, said third end of said coil being electrically connected to the positive pole of said current means, said fourth end of said coil being electrically connected to the negative pole of said current means.

7. The eyewear of claim 5, wherein a surface of said mounting member in contact with said first magnetic member or said second magnetic member is provided with a first bonding pad, said coil is electrically connected to said first bonding pad, a surface of said first magnetic member or said second magnetic member in contact with said mounting member is provided with a second bonding pad, said first bonding pad and said second bonding pad are electrically connected when said mounting member moves within said space, and said power source is electrically connected to said second bonding pad.

8. An eyewear system comprising a terminal and the eyewear of any one of claims 1-7, the terminal being communicatively coupled to the eyewear.