CN107589553B - Intelligent glasses and glasses box - Google Patents

Abstract

The invention provides intelligent glasses and a glasses box. Wherein intelligent glasses include: the glasses frame and the two glasses legs respectively hinged to two sides of the glasses frame, wherein the positions, which are mutually abutted under the open state of the side glasses legs, of the glasses frame and at least one side of the glasses legs are respectively provided with an adaptive electric connection terminal, so that the electric connection terminals are communicated under the open state of the side glasses legs to realize the electric connection of the glasses frame and the internal circuit of the side glasses legs, and the electric connection terminals are disconnected under the folding state of the side glasses legs. According to the scheme, an additional connecting wire is not required to be arranged between the glasses frame and the glasses legs, so that the integral structure of the intelligent glasses can be simplified, the comfort requirements of different users for wearing the heads can be met, and the working reliability of electric connection can be improved.

Description

Intelligent glasses and glasses box

Technical Field

The invention relates to wearable intelligent equipment, in particular to intelligent glasses and a glasses box.

Background

Along with the bright phase of google glasses, intelligent hardware manufacturers have introduced various different kinds of wearable equipment, and the wearable equipment is many in order to possess partial calculation function, connectable cell-phone and various terminal's portable accessory form existence, and mainstream product form includes intelligent wrist-watch, intelligent bracelet, intelligent glasses, intelligent helmet, intelligent dress etc.. Wherein smart glasses are hot spot products in wearable devices, in the near future, smart glasses users will even surpass smart mobile phone users, smart glasses will become the mainstream wearable devices.

Current smart glasses like products can take photos and videos, navigate or perform facial recognition. However, in the existing intelligent products, electronic components are generally installed in a glasses frame, for example, electronic components are installed on one side of the glasses frame or electronic components are respectively installed on two sides of the glasses frame and communicated with the two sides by using the glasses frame, and the electronic components are concentrated on one side, so that the structural asymmetry affects the comfort of a wearer; the latter requires the provision of a wider frame, which affects the visual effect of the wearer. In addition, due to the integrated design of the intelligent glasses, accessories are difficult to replace, upgrade is difficult to carry out, and personalized requirements of users are met.

Disclosure of Invention

It is an object of the present invention to simplify the construction of smart glasses.

A further object of the present invention is to increase the degree of universalization of smart glasses.

In particular, the present invention provides a smart glasses comprising: the glasses frame and the two glasses legs respectively hinged to two sides of the glasses frame, wherein the positions, which are mutually abutted under the open state of the side glasses legs, of the glasses frame and at least one side of the glasses legs are respectively provided with an adaptive electric connection terminal, so that the electric connection terminals are communicated under the open state of the side glasses legs to realize the electric connection of the glasses frame and the internal circuit of the side glasses legs, and the electric connection terminals are disconnected under the folding state of the side glasses legs.

Optionally, electric connection terminals are arranged at the positions where the two sides of the glasses frame and the two glasses legs are mutually abutted in the open state.

Optionally, a power supply and a power supply management unit are arranged in the side glasses leg; and the inside of the other side of the glasses leg is provided with a first functional circuit unit.

Optionally, the inside second functional circuit unit that is provided with of picture frame to realize the electricity with the electric connection terminal at picture frame both ends and be connected, and under the open state of both sides mirror leg, both sides mirror leg is realized the electricity through the inside second functional circuit unit that sets up of picture frame and is connected, so that the inside power that sets up of one side mirror leg, power management unit and the inside first functional circuit unit intercommunication that sets up of another side mirror leg.

Optionally, one side electric connection terminal in picture frame and the mirror leg is the elastic terminal, and the opposite side electric connection terminal is the fixed contact with the elastic terminal adaptation.

Optionally, the electric connection terminals arranged on the glasses frame are elastic terminals, and the electric connection terminals arranged on the glasses legs are fixed contacts.

Optionally, the telescopic travel of the elastic terminal is set to be 1-3 mm, so that the stretching angle of the glasses leg is adjusted by utilizing the elastic telescopic of the elastic terminal.

Optionally, a hinge connecting the frame and the temple, as a connection line for the ground signal; and is also provided with

The number of the electric connection terminals is one or more, and the electric connection terminals are used as a power supply connection end and/or a data transmission end.

Optionally, the electrical connection terminals include a ground connection terminal and a power connection terminal for connecting a ground wire and a power wire in the lens frame and the lens leg, respectively.

Optionally, the electrical connection terminal further includes: and the data connection terminal is used for transmitting and connecting data signal lines in the glasses frame and the glasses legs, wherein signals transmitted by the data signal lines comprise at least one of the following: audio signals, indicator light signals, key signals, data communication signals, and sensor signals.

Alternatively, the centers of the contact surfaces of the fixed contact and the elastic terminal are disposed opposite to each other, and the diameter of the fixed contact is larger than that of the elastic terminal.

According to another aspect of the present invention, there is also provided a lens box having a cavity therein for placing any of the above-mentioned smart glasses; and a mirror box connecting terminal is arranged on the inner wall of the cavity, and is configured to: when the glasses leg is in a folded state, the glasses case connecting terminal is communicated with the electric connecting terminal on the glasses leg, so that the glasses case is electrically connected with the internal circuit of the glasses leg.

The intelligent glasses of the invention comprise: the glasses frame and the two glasses legs hinged to two sides of the glasses frame respectively, wherein the positions, which are mutually abutted under the open state of the glasses legs, of the glasses frame and at least one side are respectively provided with an adaptive electric connection terminal, so that under the open state of the glasses legs of the side, the electric connection terminals are communicated to realize the electric connection of the glasses frame and the internal circuit of the glasses legs of the side, and under the folding state of the glasses legs of the side, the electric connection terminals are disconnected, the connection state of the glasses frame and the glasses legs is adjusted through the opening and folding of the glasses legs, and additional connecting wires are not required to be arranged between the glasses frame and the glasses legs, so that the integral structure of the intelligent glasses is simplified.

Furthermore, one side of the electric connection terminal in the glasses frame and the glasses legs is an elastic terminal, the other side of the electric connection terminal is a fixed contact matched with the elastic terminal, and the opening angle of the glasses legs can be adjusted by utilizing the elastic expansion of the elastic terminal so as to meet the comfort requirements of head wearing of different users. In addition, the hinge for connecting the glasses frame and the glasses legs can be used as a connecting line of ground wire signals; and the number of the electric connection terminals is one or more, and the electric connection terminals are used as power supply connection ends and/or data transmission ends, and the hinges for connecting the glasses frame and the glasses legs are used as connecting wires for ground wire signals, so that the glasses legs and the ground wires of the glasses frame can be ensured to be connected continuously better, and the working reliability is improved.

Furthermore, the mirror box is internally provided with a cavity for placing the intelligent glasses; and a mirror box connecting terminal is arranged on the inner wall of the cavity, and is configured to: when the glasses leg is in a folded state, the glasses box connecting terminal is communicated with the electric connecting terminal on the glasses leg, so that the electric connection between the glasses box and the internal circuit of the glasses leg is realized, and the intelligent glasses can be charged or other works can be completed.

The above, as well as additional objectives, advantages, and features of the present invention will become apparent to those skilled in the art from the following detailed description of a specific embodiment of the present invention when read in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter by way of example and not by way of limitation with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts or portions. It will be appreciated by those skilled in the art that the drawings are not necessarily drawn to scale. In the accompanying drawings:

FIG. 1 is a schematic diagram of a smart eyeglass with its temples folded in accordance with one embodiment of the present invention;

FIG. 2 is a schematic diagram of a smart eyeglass with its temples open according to one embodiment of the present invention;

FIG. 3 is a schematic diagram of a pogo pin in smart glasses according to one embodiment of the invention;

FIG. 4 is a schematic diagram of an electrode column in smart glasses according to one embodiment of the invention;

FIG. 5 is a schematic view of a mirror box according to one embodiment of the invention; and

Fig. 6 is a schematic diagram of smart glasses according to an embodiment of the present invention when they are placed in a case.

Detailed Description

The present invention firstly provides a pair of smart glasses 100, and fig. 1 is a schematic diagram of the smart glasses 100 according to an embodiment of the present invention when the glasses legs are folded; and FIG. 2 is a schematic diagram of the smart glasses 100 with the temples open according to one embodiment of the present invention. As shown in fig. 1 and 2, the smart glasses 100 may generally include: a mirror frame 10 and two legs 20 and 30 hinged to both sides of the mirror frame 10.

Wherein, the positions of the mirror frame 10 and at least one side of the mirror leg which are mutually abutted in the open state of the side mirror leg are respectively provided with an adaptive electric connection terminal, so that the electric connection terminals are communicated in the open state of the side mirror leg to realize the electric connection of the mirror frame 10 and the internal circuit of the side mirror leg, and the electric connection terminals are disconnected in the folded state of the side mirror leg.

As shown in fig. 1, the frame 10 and the temple 30 are respectively provided with the adapted electric connection terminals 11 and 31 at positions where they collide with each other in the open state of the temple 30, so that the electric connection terminals 31 and 11 are connected to each other in the open state of the temple 30 to electrically connect the frame 10 and the internal circuit of the temple 30, and the electric connection terminals 31 and 11 are disconnected in the folded state of the temple 30.

In other embodiments, the frame 10 and the temple 20 may be provided with mating electrical connection terminals at positions that are mutually abutted when the temple 20 is in the open state. So that the electrical connection terminals of the lens frame 10 and the electrical connection terminals of the lens legs 20 are communicated in the unfolded state of the lens legs 20 to achieve electrical connection of the lens frame 10 and the internal circuits of the lens legs 20, and the electrical connection terminals of the lens frame 10 and the electrical connection terminals of the lens legs 20 are disconnected in the folded state of the lens legs 20.

In the case where only one side of the temple is internally provided with a circuit, the frame 10 may be provided with an adapted electrical connection terminal respectively with the side of the temple in a mutually abutting position in the open state of the side of the temple. In a preferred embodiment, the two side temples 20 and 30 may be provided with an internal circuit, and the two sides of the frame 10 may be provided with an electrical connection terminal at a position where the two side temples 20 and 30 collide with each other in the open state. So that the state of electrical connection of the frame 10 to the internal circuits of the both side temples 20 and 30 can be adjusted by the opening and folding of the both side temples 20 and 30.

For example, a power supply and a power supply management unit are arranged in one side of the glasses leg; and the inside of the other side of the glasses leg is provided with a first functional circuit unit. The inside second functional circuit unit that is provided with of picture frame 10 to realize the electricity with the electric connection terminal at picture frame 10 both ends and be connected, and under the open state of both sides mirror leg 20 and 30, both sides mirror leg 20 and 30 are realized the electricity through the inside second functional circuit unit that sets up of picture frame 10 to make the inside power that sets up of one side mirror leg, power management unit and the inside first functional circuit unit intercommunication that sets up of another side mirror leg. That is, the power supply provided in one side temple and the power supply management unit may supply power to the first functional circuit unit provided in the other side temple. The first functional circuit unit and the second functional circuit unit may configure specific components according to the functions to be implemented by the smart glasses 100, and may include at least one of the following: the connecting wire, the sensor, the optical emitter, the optical sensor, the electric stimulation generator, the vibrator, the image sensor and the image projector can be selectively arranged in the first functional circuit unit or the second functional circuit unit, and can transmit signals through the electric connecting terminal.

The temples 20 and 30 may have symmetrical profiles to improve the comfort of the wearer. The temples 20 and 30 are integrally sealed to have a certain waterproof property, and cavities for accommodating the power source, the power management unit and the first functional circuit unit may be formed inside the temples 20 and 30, respectively. The first functional circuit unit, which is arranged inside the temple 20 or 30, may comprise a sensor set with a plurality of sensors for measuring the body signal of the wearer and the spatial pose of the temple 20 or 30. For example, the sensors may include one or more of the following: acceleration sensor, gyroscope, geomagnetic sensor, heart rate sensor, blood oxygen sensor, body temperature sensor, ambient temperature, biological micro-potential sensor, light sensor, microwave radiation sensor, chemical sensor or gas sensor, human body proximity sensor, position sensor. The above-described sensors may be flexibly configured and, in some alternative embodiments, other types of sensors may be selected based on the needs of the wearer. It should be noted that the second functional circuit unit disposed inside the lens frame 10 may be different from the first functional circuit unit disposed inside the temple 20 or 30, so that the lens frame 10 and the temple 20 or 30 perform different functions.

In other embodiments, a host interaction device may also be provided within the temple 20 or 30 of the smart glasses 100 to wirelessly communicate with an external host, providing the external host with measurement data of the sensor set. The host interaction device can communicate with an external host in Wi-Fi, bluetooth, zigbee, FSK (Frequency-shift keying) and other manners, and the external host can be an electronic device with a certain data processing capacity, for example, a smart phone or a tablet computer. The hosts can collect measurement data for storage analysis for convenient use by the wearer.

One side of the electric connection terminals in the glasses frame 10 and the glasses legs are elastic terminals, and the other side of the electric connection terminals are fixed contacts matched with the elastic terminals. The number and the positions of the elastic terminals and the fixed contacts are matched. The telescopic travel of the elastic terminal is set to be 1-3 mm so as to utilize the elasticity of the elastic terminal to stretch and adjust the opening angle of the glasses legs, thereby meeting the comfort requirements of different users for wearing the heads. In addition, the centers of the contact surfaces of the fixed contact and the elastic terminal are oppositely arranged, and the diameter of the fixed contact is larger than that of the elastic terminal, so that dislocation caused by the precision of the elastic connection structure can be avoided, and the reliability of electric connection is improved.

In a specific embodiment, the spring terminals may be spring pins and the fixed contacts may be electrode posts 311. FIG. 3 is a schematic diagram of a pogo pin in smart glasses according to one embodiment of the invention; fig. 4 is a schematic diagram of the electrode post 311 in the smart glasses according to one embodiment of the present invention. The pogo pin is a pogo pin formed by riveting several basic components such as a needle 111, a needle tube 112, a spring (which is provided inside the needle tube 112 and is not shown in the drawings), and a needle holder 113 by a precision instrument. Wherein the bottom of needle 111 is generally beveled to ensure that the spring needle maintains needle 111 in contact with the interior wall of needle cannula 112 during operation, allowing current to flow primarily through gold plated needle 111 and needle cannula 112 to ensure stability and low impedance of the spring needle. Since the pogo pins are very fine probes, the volume can be made very small, so that the application of the pogo pins to the smart glasses 100 of the present embodiment can reduce the overall weight, save space, and beautify the appearance of the product. The electrode post 311 is typically a metal part with gold plated surface, and makes electrical signal connection when in contact with the pogo pin. In a preferred embodiment, specific parameters of the spring needle parts may be as follows: the diameter of the needle 111 is 0.9mm, the diameter of the needle tube 112 is 1.5mm, the diameter of the needle seat 113 is 2.0mm, the distribution distance between the needles is 2.54mm, and the elastic range of the needle 111 is 2mm at maximum. While the electrode columns 311 are preferably made of cylindrical gold-plated copper metal with a diameter of 2.0mm, the spacing between the two electrode columns 311 is also 2.54mm. That is, the diameter of the electrode post 311 is slightly larger than that of the needle 111, and the distribution relative positions are the same, so that the alignment tolerance and the electrical connection reliability are ensured. The range of the needle elasticity of 2mm can also ensure the tolerance range of the opening angle (when the glasses are opened) of the glasses legs 20 and 30, meet the head size requirements of different wearers, and cannot cause the separation of the needle 111 and the electrode column 311 due to the large head and the large opening angle.

In a preferred embodiment, as shown in fig. 1, the electrical connection terminals 11 provided on the frame 10 are elastic terminals, and the electrical connection terminals provided on the temples 20 and/or 30 are fixed contacts, such as the electrical connection terminals 31 provided on the temples 30. In other embodiments, the electrical connection terminals provided on the frame 10 may also be fixed contact terminals, and the electrical connection terminals provided on the temple 20 and/or 30 may be spring terminals.

As shown in fig. 1, the smart glasses 100 may further include: a hinge 40 for connecting the frame 10 and the temples 20 and 30. In a specific embodiment, the hinge 40 may act as a connection for a ground signal; and the number of the electric connection terminals is one or more, and the electric connection terminals are used as a power supply connection end and/or a data transmission end. By using the hinge 40 connecting the lens frame 10 and the lens legs 20 and 30 as a connection line for ground signals, it is possible to ensure a better continuous connection of the lens legs 20 and/or 30 to the ground of the lens frame 10, improving operational reliability. In other embodiments, however, the hinge 40 may also have only a hinging action, without having to act as a connection for a ground signal, thereby avoiding process complications.

When the number of the electric connection terminals is two, the electric connection terminals may include a ground connection terminal and a power connection terminal for connecting the ground and power lines in the frame 10 and the temple 20 or 30, respectively.

When the number of the electric connection terminals is greater than 2, the electric connection terminals may include, in addition to the above ground connection terminal and the power connection terminal, the following: a data connection terminal for connecting the frame 10 and the data signal line in the temple 20 or 30, wherein the signal transmitted by the data signal line includes at least one of: audio signals, indicator light signals, key signals, data communication signals, and sensor signals. As shown in fig. 1, the number of the electrical connection terminals is 3, the number of the electrical connection terminals 31 on the temple 30 and the number of the electrical connection terminals 11 on the frame 10 are 3, and the centers of the contact surfaces are disposed opposite to each other. The signals transmitted by the data signal lines may be emitted from a first functional circuit unit provided inside the temple 20 or 30 and/or a second functional circuit unit provided inside the frame 10, and specifically, the sensor signals may be emitted from sensors in the first functional circuit unit and/or the second functional circuit unit. It should be noted that the number of the electrical connection terminals provided on the two side temples 20 and 30 may be the same or different. Specifically, the setting can be performed according to the number of signals that the circuits provided in the side temples need to transmit. The number of the electric connection terminals refers to the number of the electric connection terminals provided on one side or one side of the lens frame 10.

The smart glasses 100 of the present embodiment include: the glasses frame 10 and the two glasses legs 20 and 30 hinged to two sides of the glasses frame 10 respectively, wherein the positions where the glasses frame 10 and the glasses legs on at least one side are mutually abutted in the open state of the glasses legs on the side are respectively provided with an adaptive electric connection terminal, so that in the open state of the glasses legs on the side, the electric connection terminals are communicated to realize the electric connection of the glasses frame 10 and the internal circuit of the glasses legs on the side, and in the folded state of the glasses legs on the side, the electric connection terminals are disconnected, the connection state of the glasses frame 10 and the glasses legs 20 and/or 30 is adjusted through the opening and the folding of the glasses legs 20 and/or 30, and no additional connection wires are required to be arranged between the glasses frame 10 and the glasses legs 20 and/or 30, so that the integral structure of the intelligent glasses 100 is simplified.

Further, in the intelligent glasses 100 of the present embodiment, one side of the electric connection terminal of the glasses frame 10 and the glasses legs 20 and/or 30 is an elastic terminal, the other side of the electric connection terminal is a fixed contact adapted to the elastic terminal, and the opening angle of the glasses legs 20 and/or 30 can be adjusted by utilizing the elastic expansion and contraction of the elastic terminal, so as to meet the comfort requirements of different users for wearing the head. In addition, the hinge 40 connecting the frame 10 and the temples 20 and/or 30 may serve as a connection line for ground signals; and the number of the electric connection terminals is one or more, and the electric connection terminals are used as power supply connection terminals and/or data transmission terminals, and the hinges 40 for connecting the glasses frame 10 and the glasses legs 20 and/or 30 are used as connecting wires for ground wire signals, so that the better continuous connection between the glasses legs 20 and/or 30 and the ground wire of the glasses frame 10 can be ensured, and the working reliability is improved.

The present embodiment also provides a lens case 200, fig. 5 is a schematic diagram of the lens case 200 according to an embodiment of the present invention, and fig. 6 is a schematic diagram of the smart glasses 100 according to an embodiment of the present invention when placed in the lens case 200. The inside of the lens box 200 is provided with a cavity 201 for placing any one of the intelligent glasses 100; and a mirror box connection terminal 202 is provided on an inner wall of the cavity 201, and the mirror box connection terminal 202 is configured to: when the smart glasses 100 with the temples 20 and 30 in the folded state are placed in the cavity 201, the glasses case connection terminal 202 communicates with the electrical connection terminal on the temples 20 to achieve the electrical connection of the glasses case 200 and the internal circuit of the temples 20. In fig. 5, only a case where the mirror box connection terminal 202 is provided on one side of the inner wall of the cavity 201 is shown, and in other embodiments, when the electrical connection terminal is provided on the temple 30, the mirror box connection terminal may be provided on the other side of the inner wall of the cavity 201; when the electric connection terminals are provided on both the temples 20 and 30, both sides of the inner wall of the cavity 201 may be provided with the mirror box connection terminals. Specifically, the number and positions of the mirror box connection terminals may be set according to the electrical connection terminals provided on the mirror legs 20 and 30.

It should be noted that, the electrical connection terminals 11 provided on the frame 10 of the smart glasses 100 of the present embodiment are elastic terminals, the electrical connection terminals provided on the glasses legs 20 and/or 30 are fixed contacts, and the glasses case connection terminals 202 provided on the inner wall of the cavity 201 of the glasses case 200 are elastic terminals. In other embodiments, when the electrical connection terminals provided on the frame 10 of the smart glasses 100 are fixed contact terminals and the electrical connection terminals provided on the temples 20 and/or 30 are elastic terminals, the case connection terminals 202 provided on the inner wall of the cavity 201 of the case 200 are fixed contacts.

The lens box 200 of this embodiment can realize that the lens box 200 is connected with the electrical connection of the internal circuit of the glasses leg 20 and/or 30 to can charge or accomplish other work to intelligent glasses 100, make the charging process of intelligent glasses 100 more simple and convenient, improve user's use experience.

By now it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described herein in detail, many other variations or modifications of the invention consistent with the principles of the invention may be directly ascertained or inferred from the present disclosure without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and deemed to cover all such other variations or modifications.

Claims (10)

1. An intelligent eyeglass, comprising:

the glasses frame and two glasses legs respectively hinged to two sides of the glasses frame, wherein

The matched electric connection terminals are respectively arranged at the positions of the mirror frame and at least one side of the mirror leg which are mutually abutted in the open state of the side mirror leg, so that the electric connection terminals are communicated in the open state of the side mirror leg to realize the electric connection of the mirror frame and the internal circuit of the side mirror leg, and the electric connection terminals are disconnected in the folded state of the side mirror leg,

A power supply and a power supply management unit are arranged in the glasses leg at one side; and is also provided with

A first functional circuit unit is arranged in the glasses leg at the other side;

the inside of the mirror frame is provided with a second functional circuit unit which is electrically connected with the electric connection terminals at the two ends of the mirror frame, and

In the open state of the two side mirror legs, the two side mirror legs are electrically connected through the second functional circuit unit arranged in the mirror frame, so that the power supply arranged in the mirror leg on one side and the power supply management unit are communicated with the first functional circuit unit arranged in the mirror leg on the other side,

And a hinge for connecting the mirror frame and the mirror legs and serving as a connecting line for ground wire signals.

2. The pair of smart glasses according to claim 1, wherein,

The electric connection terminals are arranged at the positions where the two sides of the glasses frame and the two glasses legs are mutually abutted under the open state.

3. The pair of smart glasses according to claim 1, wherein,

One side of the glasses frame and one side of the glasses legs are elastic terminals, and the other side of the glasses frame and the other side of the glasses legs are fixed contacts matched with the elastic terminals.

4. The pair of smart glasses according to claim 3, wherein,

The electric connection terminals arranged on the glasses frame are elastic terminals, and the electric connection terminals arranged on the glasses legs are fixed contacts.

5. The pair of smart glasses according to claim 4, wherein,

The telescopic travel of the elastic terminal is set to be 1-3 mm, so that the stretching angle of the glasses leg can be adjusted by utilizing the elastic telescopic of the elastic terminal.

6. The pair of smart glasses according to claim 1, wherein,

The number of the electric connection terminals is one or more, and the electric connection terminals are used as a power supply connection end and/or a data transmission end.

7. The pair of smart glasses according to claim 1, wherein,

The electric connection terminal comprises a ground wire connection terminal and a power supply connection terminal which are respectively used for connecting the ground wire and the power supply wire in the glasses frame and the glasses legs.

8. The pair of smart glasses according to claim 7, wherein,

The electrical connection terminal further includes: and the data connection terminal is used for connecting the frame with the data signal line in the glasses leg, wherein the signal transmitted by the data signal line comprises at least one of the following: audio signals, indicator light signals, key signals, data communication signals, and sensor signals.

9. The pair of smart glasses according to claim 3, wherein,

The fixed contact is arranged opposite to the center of the contact surface of the elastic terminal, and the diameter of the fixed contact is larger than that of the elastic terminal.

10. A mirror box is characterized in that,

Having a cavity inside for placing the smart glasses of any one of claims 1 to 9; and

The inner wall of the cavity is provided with a mirror box connecting terminal, and the mirror box connecting terminal is configured to: when the glasses legs are in a folded state and the intelligent glasses are placed in the cavity, the glasses box connecting terminals are communicated with the electric connecting terminals on the glasses legs, so that electric connection between the glasses box and an internal circuit of the glasses legs is achieved.