CN217689617U - Glasses, power supply device of glasses and glasses assembly - Google Patents

Abstract

Glasses, a power supply device of the glasses and a glasses assembly. The glasses comprise: glasses body and first mirror leg. The first glasses leg comprises a first glasses leg main body and a first connecting structure, the first glasses leg main body is provided with a first end connected with the glasses body and a second end opposite to the first end, and the first connecting structure is connected with the second end of the first glasses leg main body and is configured to be detachably connected with a power supply device; the first connection structure includes a switch mechanism configured to control detachment and connection of the first connection structure to the power supply device.

Description

Glasses, power supply device of glasses and glasses assembly

Technical Field

The embodiment of the disclosure relates to glasses, a power supply device of the glasses and a glasses assembly.

Background

The Augmented Reality (Augmented Reality) technology is a technology that skillfully fuses virtual information and a real world, for example, the Augmented Reality technology widely applies various technical means such as multimedia, three-dimensional modeling, real-time tracking and registration, intelligent interaction, sensing and the like, and applies virtual information such as characters, images, three-dimensional models, music, videos and the like generated by a computer to the real world after analog simulation, so that the two kinds of information complement each other, thereby realizing the 'augmentation' of the real world.

The AR glasses adopt AR technology, virtual information such as characters, images, videos (including three-dimensional figures and three-dimensional videos) and the like generated by a computer can be overlaid to a real environment seen by a user through the AR glasses, and audio can be output. The AR glasses are used for application scenes such as remote cooperation, practical training, intelligent inspection, exhibition and display, leisure and entertainment and the like.

SUMMERY OF THE UTILITY MODEL

At least one embodiment of the present disclosure provides a pair of glasses, including: glasses body and first mirror leg. The first glasses leg comprises a first glasses leg main body and a first connecting structure, the first glasses leg main body is provided with a first end connected with the glasses body and a second end opposite to the first end, and the first connecting structure is connected with the second end of the first glasses leg main body and is configured to be detachably connected with a power supply device; the first connection structure includes a switch mechanism configured to control detachment and connection of the first connection structure to the power supply device. The glasses provided by the embodiment of the disclosure can realize that the power supply device can be conveniently detached and installed at the end part of the first glasses leg of the glasses, so that a user can replace the power supply device at any time, and the cruising ability of the glasses is improved; the power supply device can be controlled to be detached and connected through the switch mechanism, so that the power supply device is not prone to falling off from the first glasses leg in the state that the first glasses leg of the glasses is connected with the power supply device, and the power supply device is controlled to be detached from the first glasses leg through the switch mechanism.

For example, an embodiment of the present disclosure provides glasses, wherein the first connection structure includes a first connector; the switch mechanism has a first state in which the switch mechanism is spaced from the first link and the switch mechanism is configured to be movable into contact with the first link to place the switch mechanism in a second state.

For example, an embodiment of the present disclosure provides glasses, wherein an extending direction of the first temple body is a first direction; when the switch mechanism is in the first state, the first connecting piece and the switch mechanism are arranged at intervals along the first direction, and the switch mechanism is configured to be capable of moving close to the first connecting piece and moving away from the first connecting piece along the first direction.

For example, in the glasses provided by an embodiment of the present disclosure, when the switch mechanism is in the first state, the first connector is located on a side of the switch mechanism away from the first temple main body, or the first connector is located on a side of the switch mechanism close to the first temple main body.

For example, an embodiment of the present disclosure provides glasses, wherein the switch mechanism includes: an operating key, a release member and a transmission member. An operation key exposed to an outer surface of the first temple and configured to be movable; a separation member connected with the operation key and configured to be driven to move toward the first connector to contact with the first connector and to move away from the first connector to be separated from the first connector as the operation key is moved; the transmission component is connected with the operation key and the separation component.

For example, an embodiment of the present disclosure provides glasses in which the separating member protrudes from the driving member in the first direction in a direction toward the first connecting member.

For example, an embodiment of the present disclosure provides eyewear wherein the first connecting structure includes a connecting bottom wall having inner and outer bottom surfaces opposite each other; in a second direction perpendicular to the inner bottom surface, the first temple body has a first edge and a second edge opposite to each other, the inner bottom surface is located on a side of the outer bottom surface close to the first edge, and a distance of the inner bottom surface from the first edge in the second direction is greater than a distance of the outer bottom surface from the second edge in the second direction; the first connecting piece and the separating component are arranged on the inner bottom surface; the separating member comprises an upper surface far away from the outer bottom surface and a lower surface close to the outer bottom surface, and the first connecting piece comprises an upper surface far away from the outer bottom surface and a lower surface close to the outer bottom surface; the lower surface of the separating member is flush with the upper surface of the first connecting member.

For example, an embodiment of the present disclosure provides glasses, wherein a first groove is disposed on an inner bottom surface of the connecting bottom wall, and the first connecting element is at least partially embedded in the first groove; the upper surface of the first connecting piece is flush with the inner bottom surface of the connecting bottom wall, or the upper surface of the first connecting piece protrudes out of the inner bottom surface of the connecting bottom wall; or the whole first connecting piece is positioned on the inner surface of the connecting bottom wall, and the lower surface of the first connecting piece is attached to the inner surface of the connecting bottom wall.

For example, in the glasses provided by an embodiment of the present disclosure, the first connecting structure includes a connecting groove, the connecting bottom wall is used as a bottom wall of the connecting groove, the connecting groove further includes a first side wall and a second side wall intersecting with the connecting bottom wall, the first side wall, and the second side wall enclose a groove space, an inner bottom surface of the connecting bottom wall faces the groove space, and an outer bottom surface of the connecting bottom wall faces away from the groove space; the connecting groove has an opening opposite to the connecting bottom wall.

For example, an embodiment of the present disclosure provides glasses in which a lower surface of the separating member is substantially parallel to an upper surface of the first link, an end of the upper surface of the separating member near the first link is an inclined surface intersecting with the lower surface of the separating member, and a thickness of the separating member in a direction perpendicular to the lower surface of the separating member gradually decreases in a direction from one end of the inclined surface away from the first link to one end of the inclined surface near the first link.

For example, in the glasses provided by an embodiment of the present disclosure, the glasses body further includes a second temple, where the second temple and the first temple are respectively located at a first end of the glasses body and a second end of the glasses body opposite to the first end thereof; the first side wall of the first side wall is located on one side, far away from the second side wall, of the second side wall, and the operation key is exposed on the outer surface, far away from the second side wall, of the first side wall.

For example, an embodiment of the present disclosure provides glasses, wherein the first connecting element is a magnetic element capable of applying a magnetic force or includes a magnetic material; alternatively, the first connector is a first suction cup.

For example, in the glasses provided by an embodiment of the present disclosure, the connection structure of the first temple includes a first power supply pin, and the first power supply pin is electrically connected to the control circuit; the extending direction of the first glasses leg main body is a first direction, and the first power supply pins are located on the end face, in the first direction, of the second end of the first glasses leg main body.

For example, an embodiment of the present disclosure provides glasses, wherein a direction from a first end of the glasses body to a second end of the glasses body opposite to the first end thereof is a third direction, the glasses body has a midpoint in the third direction, the second temple has a structure symmetrical to the first temple with respect to the glasses body with respect to the midpoint, so that the second temple also has a charging function, and the second temple and the first temple operate independently from each other.

At least one embodiment of the present disclosure further provides a power supply device for glasses, including: a power supply body and a second connection structure. The power supply body is configured to supply electric energy; the second connecting structure is connected with the power supply main body and is configured to be detachably connected with the first connecting structure of any one of the glasses provided by the embodiment of the disclosure in a matching manner, so that the power supply device supplies power to the glasses.

For example, in the power supply device for glasses provided by an embodiment of the present disclosure, the second connection structure includes a bottom surface, a top surface opposite to the bottom surface, and a first side surface and a second side surface intersecting the bottom surface of the second connection structure and the top surface of the second connection structure and opposite to each other; the second connecting structure comprises a second connecting piece, and the second connecting piece is arranged on the bottom surface of the second connecting structure and is provided with a lower surface far away from the top surface and an upper surface opposite to the lower surface; a second groove is formed in the bottom surface of the second connecting structure, and at least part of the second connecting piece is embedded into the second groove; the lower surface of the second connecting piece is flush with the bottom surface of the second connecting structure, or the lower surface of the second connecting piece protrudes out of the bottom surface of the second connecting structure; or, the whole second connecting piece is positioned on the bottom surface of the second connecting structure, and the upper surface of the second connecting piece is attached to the bottom surface of the second connecting structure.

For example, in the power supply device for glasses provided by an embodiment of the present disclosure, an accommodating groove is disposed on a first side surface of the second connection structure, and the accommodating groove penetrates through a bottom surface of the second connection structure; the second connecting structure is provided with a first end connected with the power supply main body and a second end opposite to the first end of the power supply main body, and the accommodating grooves and the second connecting pieces are arranged along the direction from the first end of the second connecting structure to the second end of the second connecting structure; the second connecting structure is located on one side of the accommodating groove close to the power supply main body, or the second connecting structure is located on one side of the accommodating groove far away from the power supply main body.

For example, in the power supply device for glasses provided by an embodiment of the present disclosure, the receiving groove has a receiving groove bottom substantially parallel to the first side of the second connecting structure, and a first side and a second side intersecting with the receiving groove bottom, and the first side of the receiving groove is located on one side of the second side of the receiving groove close to the second connector; the first side face of the accommodating groove comprises a vertical portion perpendicular to the bottom face of the second connecting structure and an inclined portion connected with the vertical portion, and the inclined portion is located at the end, close to the second connecting piece, of the vertical portion and has a non-zero included angle with the vertical portion.

For example, in the power supply device for eyeglasses provided by an embodiment of the present disclosure, an edge of the lower surface of the second connector, which is close to the inclined portion, has a chamfer, and a working surface of the chamfer is connected with the inclined portion and is substantially located in the same plane.

For example, in the power supply device for eyeglasses provided by an embodiment of the present disclosure, the second connector is a magnetic member capable of applying a magnetic force or includes a magnetic material; alternatively, the second connector is a second suction cup.

For example, in the power supply device for glasses provided by an embodiment of the present disclosure, the second connecting structure and the power supply main body have a non-zero included angle, and a contact portion of the second connecting structure and the power supply main body is in a smooth arc shape.

For example, in the power supply device for glasses provided by an embodiment of the present disclosure, the second connection structure includes a second power supply pin, and the second power supply pin is located on an end surface of the second connection structure opposite to the first end of the second connection structure at the second end of the second connection structure.

At least one embodiment of the present disclosure further provides an eyeglass assembly, which includes any one of the eyeglasses provided by the embodiments of the present disclosure and the power supply device provided by the embodiments of the present disclosure and capable of being matched and connected with the eyeglasses, wherein the first connecting structure is detachably connected with the second connecting structure in a matching manner; the switch mechanism is configured to control detachment of the first connection structure from the second connection structure. The glasses and the glasses assembly provided by the embodiment of the disclosure can conveniently detach and install the power supply device at the end part of the first glasses leg of the glasses, and can control detachment and connection of the power supply device through the switch mechanism, so that the first glasses leg and the power supply device are locked in a state that the first glasses leg of the glasses is connected with the power supply device, the power supply device is enabled not to easily fall off from the first glasses leg, and the power supply device and the first glasses leg are controlled to detach through the switch mechanism. Therefore, the battery of the glasses can be replaced, the cruising ability of the glasses is improved, and meanwhile, the stability of the connection state of the power supply device and the glasses and the controllability of the detachment between the power supply device and the glasses are improved.

For example, in the glasses assembly provided by an embodiment of the present disclosure, the first connecting piece and the second connecting piece are detachably connected; in a first state of the switch mechanism, the switch mechanism is spaced apart from the first and second connecting pieces connected to each other; and the switch mechanism is configured to be movable to separate the first and second links to place the switch mechanism in the second state.

For example, in the glasses assembly provided by an embodiment of the present disclosure, the upper surface of the first connector and the lower surface of the second connector are attached to each other and exert a magnetic force to connect the first connector and the second connector; or, in a case where the first connector is a first suction cup and the second connector is a second suction cup, an upper surface of the first connector and a lower surface of the second connector contact each other and exert a physical adsorption force on each other.

For example, an embodiment of the present disclosure provides the eyeglass assembly, wherein the separation member is configured to be driven to move and inserted between an upper surface of the first connector and a lower surface of the second connector as the operation key is moved to separate the first connector from the first connector, and to displace the second connection structure relative to the first connection structure.

For example, an embodiment of the present disclosure provides a spectacle assembly in which at least a part of the operation key, at least a part of the separating member, and at least a part of the transmission member are located in the accommodation groove; at least a part of the operation key, at least a part of the separation member, and at least a part of the transmission member move in the accommodation groove in a process of shifting the separation member between the first state and the second state.

For example, an embodiment of the present disclosure provides an eyeglass assembly, wherein a gap is formed between the inclined portion and an inner bottom surface of the connecting bottom wall, and the end portion of the first connecting member is inserted between an upper surface of the first connecting member and a lower surface of the second connecting member after passing through the gap.

For example, in the glasses component provided by an embodiment of the present disclosure, the inclined portion and the inner bottom surface of the connecting bottom wall of the first connecting structure have a non-zero first included angle, the inclined portion and the inner bottom surface of the connecting bottom wall of the first connecting structure have a non-zero second included angle, and the first included angle is greater than or equal to the second included angle.

For example, in the eyeglass assembly provided by an embodiment of the present disclosure, the lower surface of the second connecting structure is attached to the inner bottom surface of the connecting bottom wall; alternatively, the lower surface of the second connecting structure is spaced from the inner bottom surface of the connecting bottom wall.

Drawings

In order to illustrate the technical solutions of the embodiments of the present invention more clearly, the drawings of the embodiments will be briefly described below, and it is obvious that the drawings in the following description only relate to some embodiments of the present invention, and are not intended to limit the present invention.

Fig. 1 is a schematic structural view of a pair of glasses according to an embodiment of the present disclosure;

FIG. 2 is a schematic view of an eyeglass assembly formed by connecting the eyeglasses shown in FIG. 1 with a power supply;

FIG. 3 is an enlarged, fragmentary schematic view of a first attachment structure of the eyewear shown in FIG. 1;

FIG. 4 is a schematic view of a switch mechanism of eyeglasses according to an embodiment of the present disclosure;

fig. 5 is a schematic view of a portion of a first connecting structure of eyeglasses and a second connecting structure of a power supply device of an eyeglasses assembly provided by an embodiment of the present disclosure;

FIG. 6A is an enlarged partial schematic view of FIG. 5 including a first connection structure and a second connection structure connected to each other;

fig. 6B is a partial schematic view of a first connection structure of eyeglasses and a second connection structure of a power supply device of another eyeglasses assembly according to an embodiment of the disclosure;

fig. 6C is a schematic view of a portion of a first connecting structure of eyeglasses and a second connecting structure of a power supply device of another eyeglass assembly according to an embodiment of the present disclosure;

fig. 7 is a schematic diagram of a power supply device according to an embodiment of the disclosure;

8A-8B are schematic diagrams illustrating a process of separating a first temple of eyeglasses of an eyeglass assembly provided by an embodiment of the present disclosure from a power supply connected thereto;

fig. 9A-9B are schematic views illustrating a process of separating a second temple of glasses of the glasses assembly provided by an embodiment of the present disclosure from a power supply device connected thereto.

Detailed Description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined below to clearly and completely describe the technical solution of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be obtained by a person skilled in the art without inventive labour based on the described embodiments of the invention, belong to the protection scope of the invention.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the description and in the claims does not indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. "inner", "outer", "upper", "lower", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

The drawings in this disclosure are not necessarily to scale, the specific dimensions of the various features may be determined according to actual requirements. The drawings described in this disclosure are merely schematic structural illustrations.

The existing design scheme of the AR glasses product is limited by the development bottleneck of the battery technology, and under the large trend of portability, the use experience of providing longer endurance time for a user needs to be met, so that under the condition of no power supply, the endurance time of the AR glasses is increased, more use limitations can be broken through, the user can use the AR glasses in more scenes, and the requirement of the user on the endurance time is met. And, when improving the time of endurance of AR glasses, improve wearing experience that AR glasses brought for the user, for example improve the stability that battery and AR glasses are connected, under the circumstances that the electric quantity is not enough, the process of changing the battery makes the electric quantity supply incessant to can make the user need not break off the use of AR glasses, experience the use that has the significance to promoting the user.

At least one embodiment of the present disclosure provides a pair of glasses, including: glasses body and first mirror leg. The first glasses leg comprises a first glasses leg main body and a first connecting structure, the first glasses leg main body is provided with a first end connected with the glasses body and a second end opposite to the first end, and the first connecting structure is connected with the second end of the first glasses leg main body and is configured to be detachably connected with a power supply device; the first connection structure includes a switch mechanism configured to control detachment and connection of the first connection structure to the power supply device.

At least one embodiment of the present disclosure further provides a power supply device for glasses, including: a power supply body and a second connection structure. The power supply body is configured to supply electric energy; the second connecting structure is connected with the power supply main body and is configured to be detachably connected with the first connecting structure of any one of the glasses provided by the embodiment of the disclosure in a matching manner, so that the power supply device supplies power to the glasses.

The glasses and the glasses assembly provided by the embodiment of the disclosure can conveniently detach and install the power supply device at the end part of the first glasses leg of the glasses, and can control detachment and connection of the power supply device through the switch mechanism, so that the first glasses leg and the power supply device are locked in a state that the first glasses leg of the glasses is connected with the power supply device, the power supply device is enabled not to easily fall off from the first glasses leg, and the power supply device and the first glasses leg are controlled to detach through the switch mechanism. Therefore, the battery of the glasses can be replaced, the cruising ability of the glasses is improved, and meanwhile, the stability of the connection state of the power supply device and the glasses and the controllability of the detachment between the power supply device and the glasses are improved.

The following describes the eyeglasses, the power supply device and the eyeglasses assembly provided by the embodiments of the present disclosure with reference to the accompanying drawings.

Exemplarily, fig. 1 is a schematic structural diagram of a pair of glasses according to an embodiment of the present disclosure; fig. 2 is a schematic view of an eyeglass assembly formed by connecting the eyeglasses shown in fig. 1 with a power supply device. With reference to fig. 1 and 2, glasses 10 provided for the embodiment of the present disclosure include a glasses body 1 and a first temple 2a. The first temple 2a includes a temple main body 21 and a first connection structure 22, the temple main body 21 having a first end 201 connected to the eyeglass body 1 and a second end 202 opposite to the first end 201, the first connection structure 22 being connected to the second end 202 of the temple main body 21 and configured to be detachably connected to the power supply device 100; the first connection structure 22 includes a switch mechanism 220, and the switch mechanism 220 is configured to control detachment and connection of the first connection structure 22 and the power supply device 40. In a state where the first temple 2a of the eyeglasses 10 is connected to the power supply device, the switch mechanism 220 is configured to lock the first temple 2a and the power supply device 41 connected thereto so that the power supply device does not fall off from the first temple 2a; when it is necessary to remove the power supply device, for example, to replace a battery or the like, the user can remove the power supply device from the first temple 2a by operating the switch mechanism 220 to drive the power supply device to move relative to the first temple 2a. Therefore, the glasses 10 provided by the embodiment of the disclosure can realize that the power supply device can be conveniently detached and installed at the end part of the first temple 2a of the glasses 10, and a user can replace the power supply device at any time, so that the cruising ability of the glasses is improved; the switch mechanism 220 can control the detachment and connection of the power supply device, so that the power supply device is not easy to fall off from the first temple 2a in the state that the first temple 2a of the glasses 10 is connected with the power supply device, and the power supply device is controlled by the switch mechanism 220 when the power supply device is detached from the first temple 2a. In this way, the battery of the eyeglasses 10 can be replaced, the cruising ability of the eyeglasses 10 can be improved, and the stability of the connection state between the power supply device and the eyeglasses 10 and the controllability of the detachment between the power supply device and the eyeglasses 10 can be improved.

For example, embodiments of the present disclosure provide that eyewear 10 is AR eyewear. Of course, other types of eyewear may be used that require a power supply.

FIG. 3 is an enlarged, fragmentary schematic view of a first attachment structure of the eyewear shown in FIG. 1; fig. 4 is a schematic view of a switch mechanism of glasses according to an embodiment of the present disclosure. Fig. 5 is a schematic view of a portion of a first connecting structure of eyeglasses and a second connecting structure of a power supply device of an eyeglasses assembly provided by an embodiment of the present disclosure; fig. 6A is a partially enlarged schematic view of fig. 5 including a first connection structure and a second connection structure connected to each other.

Referring to fig. 4, 5, and 6A, for example, the first connection structure 22 includes a first connection member 221. The switching mechanism 220 has a first state in which the switching mechanism 220 is spaced apart from the first connector 221, and at this time, for example, the first temple 2a is connected to the power supply apparatus 40, as shown in fig. 5, if the user does not move the switching mechanism 220, the switching mechanism 220 is maintained in the first state, the first temple 2a is maintained connected to the power supply apparatus 40, and the power supply apparatus 40 cannot be detached from the first temple 2a. Also, when the switch mechanism 220 is in the first state, the switch mechanism 220 is configured to be movable to reach a position where the first connector 221 is located, for example, to contact the first connector 221 or/and the power supply device 40. For example, the first connector 221 is connected to the power supply unit 40, such that the switching mechanism 220 is switched from the first state to the second state by contacting the switching mechanism 220 with the first connector 221 to apply a contact force to the first connector 221 or/and the power supply unit 40, such that the power supply unit 40 is moved relative to the first connector 221 to separate the power supply unit 40 from the first connector 221, and the power supply unit 40 is detached from the first temple 2a. That is, when the switch mechanism 220 is in the second state, the first connector 221 and the power supply device 40 are in an abnormal connection state; when it is necessary to mount the power supply device 40 to the first temple 2a, the switching mechanism 220 may be moved again, and then the power supply device 40 is connected to the first connecting structure 22, thereby shifting the switching mechanism 220 from the second state to the first state, for example, in a process in which the switching mechanism 220 is moved in a direction opposite to that in a process in which the switching mechanism 220 is shifted from the first state to the second state.

For example, referring to fig. 1, 5 and 6A, the extending direction of the temple main body 21 is the first direction D1. As shown in fig. 6A, the switch mechanism 220 is in the first state, in which the first connecting member 221 and the switch mechanism 220 are spaced from each other along the first direction D1, and the switch mechanism 220 is configured to be movable along the first direction D1 close to the first connecting member 221 to reach the position of the first connecting member 221, such as to contact with the first connecting member 221. When the switch mechanism 220 is in the second state, the switch mechanism 220 is configured to be movable away from the first connector 221 along the first direction D1 to move away from the first connector 221, so as to connect the power supply device 40 with the first connection structure 22.

For example, as shown in fig. 6A, when the switch mechanism 220 is in the first state, the first connector 221 is located on a side of the switch mechanism 220 away from the temple main body 21, which further facilitates connection of the first connector 221 with the second connector 421 of the power supply device 40 for connection with the first connector 221 at an end of the connection mechanism 22 away from the temple main body 21.

Alternatively, in other embodiments, the first connector 221 may be located on a side of the switch mechanism 220 close to the temple main body 21, and the above-mentioned control of the detachment and connection of the first connecting mechanism 22 and the power supply device 40 by the switch mechanism 220 may also be implemented.

For example, in conjunction with fig. 3-5 and 6A, the switch mechanism 220 includes an operating key 22a, a disengaging member 22b, and a transmitting member 22c, for example. An operation key 22a exposed to an outer surface of the first temple 2a and configured to be movable; for example, the outer wall of the first temple 2a has an opening G through which the operation key 22a is exposed to the outer surface of the first temple 2a, and the operation key 22a is configured to be movable along the opening G; for example, the opening G extends in a first direction. The separation member 22b is connected to the operation key 22 a; in the process of the switching mechanism 220 being shifted from the first state to the second state, the separation member 22b is configured to be driven to move toward the first link 221 as the operation key 22a is moved to reach the position where the first link 221 is located, for example, in contact with the first link 221 or/and the power supply device 40 in contact with the first link 221; also, in the process of the switching mechanism 220 being shifted from the second state to the first state, the separation member 22b is configured to move away from the first link 221 to be separated from the first link 221. The transmission member 22c connects the operation key 22a and the separation member 22b. When it is necessary to attach or detach the power supply device 40 to or from the first temple 2a, this can be achieved by the user manually moving the operation key 22 a.

For example, the operation key 22a is moved from a first end of the opening G in fig. 6A close to the temple main body 21 to a second end of the opening G away from the temple main body 21 to switch the switch mechanism 220 from the first state to the second state; the operation key 22a is moved from the second end of the opening G in fig. 6A, which is away from the temple main body 21, to the first end of the opening G, which is close to the temple main body 21, to switch the switch mechanism 220 from the second state to the first state.

For example, as shown in fig. 4 and 6A, the separating member 22b protrudes from the separating member 22b and the driving member 22c in the first direction D1 in a direction toward the first connecting member 221 so that the separating member 22b moves to a position where the first connecting member 221 is located.

For example, in conjunction with fig. 3 and 6A, the first connecting structure 22 includes a connecting bottom wall 01, the connecting bottom wall 01 having an inner bottom surface 01a and an outer bottom surface 01b opposite to each other; for example, the inner bottom surface 01a is substantially parallel to the first direction D1. In a second direction D2 perpendicular to inner bottom surface 01a, temple body 21 has first edge 211 and second edge 212 opposed to each other, inner bottom surface 01a is located on the side of outer bottom surface 01b close to first edge 211, and the distance between inner bottom surface 01a and first edge 211 in second direction D2 is greater than the distance between outer bottom surface 01b and second edge 212 in second direction D2; the first connecting member 221 and the separating member 22b are both provided on the inner bottom surface 01 a; the separation member 22b includes an upper surface 22b-1 distant from the outer bottom surface 01b and a lower surface 22b-2 near the outer bottom surface 01b, and the first connection member 221 includes an upper surface 221a distant from the outer bottom surface 01b and a lower surface 221b near the outer bottom surface 01b; the lower surface 22b-2 of the separating member 22b is flush with the upper surface 221a of the first connecting member 221.

Fig. 8A-8B are schematic views illustrating a process of separating a first temple of glasses of the glasses assembly provided by an embodiment of the present disclosure from a power supply device connected thereto. For example, as shown in fig. 6A, the power supply device 40 includes a second connection member 421, and the second connection member 421 is used for connecting with the first connection member 221, so as to increase the connection strength between the power supply device 40 and the first connection structure 22. For example, the second connecting member 421 is attached to the upper surface 221a of the first connecting member 221 so as to face the lower surface 421a of the second connecting member 421, and is connected to the upper surface 221a of the first connecting member 221, in this case, the separating member 22B moves to be inserted between the lower surface 421a of the second connecting member 421 and the upper surface 221a of the first connecting member 221, and the distance between the lower surface 421a of the second connecting member 421 and the upper surface 221a of the first connecting member 221 is increased, and the mutual acting force, such as a mutual attractive force, such as a magnetic force, between the two is reduced, or the physical attractive force, similar to that between the lower surface 421a of the second connecting member 421 and the upper surface 221a of the first connecting member 221 is broken, so that the two are separated, so as to move the power supply device 40 relative to the first connecting structure 22 and detach the power supply device 40 from the first temple 2a, that is detached from the first temple 2a, that the separating member 22B is configured to be driven to move and inserted between the upper surface 221a of the first connecting member 221a and the lower surface 421a of the first connecting member 221 and the second connecting member 221B, so as to be detached from the first connecting member 22B, and to be detached from the first connecting member 8, as shown in fig. 8. Therefore, the lower surface 22b-2 of the separating member 22b is flush with the upper surface 221a of the first connecting member 221, which facilitates the smooth insertion of the separating member 22b between the lower surface 421a of the second connecting member 421 and the upper surface 221a of the first connecting member 221, reduces the difficulty of manufacturing the product, and ensures the reliability of the disassembling operation.

For example, as shown in fig. 3 and 6A, the inner bottom surface 01a of the connecting bottom wall 01 is provided with a first groove 021, and the first connecting member 221 is at least partially embedded in the first groove 021; the upper surface 221a of the first connection member 221 is flush with the inner bottom surface 01a of the connection bottom wall 01, so that the upper surface 221a of the first connection member 221 can be flush with both the lower surface 421a of the second connection member 421 and the lower surface 22b-2 of the separation member 22b.

Alternatively, in some other embodiments, for example, as shown in fig. 6C, the upper surface 221a of the first connecting member 221 protrudes from the inner bottom surface 01a of the connecting bottom wall 01, or it may be implemented that it is both attached to the lower surface 421a of the second connecting member 421 and flush with the lower surface 22b-2 of the separating member 22b, and at this time, the height of the lower surface 22b-2 of the separating member 22b is suitably designed to be flush with the upper surface 221a of the first connecting member 221.

Alternatively, in some other embodiments, the entire first connecting member 221 is located on the inner surface 01a of the connecting bottom wall 01, and the lower surface 221b of the first connecting member 221 is attached to the inner surface 01a of the connecting bottom wall 01, or it may be implemented that it is attached to both the lower surface 421a of the second connecting member 421 and is flush with the lower surface 22b-2 of the separating member 22b, and at this time, the height of the lower surface 22b-2 of the separating member 22b is suitably designed to be flush with the upper surface 221a of the first connecting member 221.

Alternatively, in some other embodiments, the upper surface 221a of the first connecting element 221 is located in the first recess 021 and recessed in the inner bottom surface 01a of the connecting bottom wall 01, so that the first connecting element 221 can be attached to the lower surface 421a of the second connecting element 421. At this time, the separating member 22b contacts the inclined portion 04 along the inclined portion 04 to apply a force to the inclined portion 04, thereby separating the first connecting member 221 from the second connecting member 421.

For example, as shown in fig. 3, the first connecting structure 22 includes a connecting groove 222, the connecting bottom wall 01 serves as a bottom wall of the connecting groove 222, the connecting groove 222 further includes a first side wall 222a and a second side wall 222b intersecting with the connecting bottom wall 01, the first side wall 222a and the second side wall 222b enclose a tank space, an inner bottom surface 01a of the connecting bottom wall 01 faces the tank space, and an outer bottom surface 01b of the connecting bottom wall 01 faces away from the tank space. The coupling groove 222 has an opening opposite to the coupling bottom wall 01.

For example, the power supply device 40 comprises a second connecting structure 42, the second connecting structure 42 being adapted to connect with the first connecting structure 22 to enable the power supply device 40 to be connected with the first temple 2a. In one aspect, the connecting slot 222 can be configured to be matingly engaged with the second connecting structure 42, and the second connecting structure 42 can enter the slot space through the opening of the connecting slot 222, so that the first connecting member 221 and the second connecting member 421 can be connected as described above, for example, the structure shown in fig. 6A is formed; thus, the second connecting structure 42 can further enhance the connecting strength of the power supply device 40 and the first temple 2a, protect the first connecting piece 221, the second connecting piece 421, the separating member 22b and other components in the space of the slot body, and facilitate the detachment of the power supply device 40 from the first temple 2a; on the other hand, the opening G can be provided by using the first sidewall 222a of the connection groove 222, for example, when the user normally wears the glasses 10, the first sidewall 222a is located at the outer side, i.e., the outer side not contacting with the skin of the head for use, and the operation key 22a is exposed at the outer side of the first sidewall 222a, so that the user can replace the power supply device during use, and the user can detach and install the power supply device 40 while wearing the glasses rim, i.e., replace the power supply device, without interrupting the use of the glasses 10 by the user, thereby improving the user experience.

For example, the operation key 22a is exposed to an outer surface of the first side wall 222a away from the second side wall 222 b. For example, the connection structure includes a through hole penetrating the first sidewall 222a, through which the operation key is exposed to an outer surface of the second sidewall 222 b.

For example, as shown in fig. 1, the glasses body 1 further includes a second temple 2b, and the second temple 2b and the first temple 2a are respectively located at a first end 101 of the glasses body 1 and a second end 102 of the glasses body 1 opposite to the first end 101 thereof; first side wall 222a of first temple 2a is located on a side of second side wall 222b distal from second temple 2b. For example, the first and second temples 2a and 2b each include the above-described first connecting structure 22, the power supply device 40 may be independently connected, and the power supply devices 40 connected to the first and second temples 2a and 2b, respectively, may be independently operated. In this way, the power supply device on one of the temples is detached without affecting the power supply device on the other temple to power the glasses 10, so that the power supply device 40 can be detached and installed while the user wears the glasses, that is, the power supply device is replaced, the use of the glasses 10 by the user is not interrupted, and the use experience of the user is improved.

For example, a direction from the first end 101 of the eyeglass body 1 to the second end 102 of the eyeglass body 1 opposite to the first end 101 thereof is a third direction D3, the eyeglass body 1 has a midpoint O in the third direction D3, and the second temple 2b has a structure symmetrical to the first temple 2a with respect to the eyeglass body 1 with respect to the midpoint O.

Fig. 9A-9B are schematic views illustrating a process of separating a second temple of glasses of the glasses assembly provided by an embodiment of the present disclosure from a power supply device connected thereto. The disassembly process performed from fig. 2 to fig. 9A to fig. 9B is the same as the disassembly process performed from fig. 2 to fig. 8A to fig. 8B, and reference is made to the previous description and will not be repeated here.

For example, main boards are provided in temple bodies of the first temple 2a and the second temple 2b, respectively, and the power supply devices 40 independently charge the corresponding circuit boards, respectively. For example, the motherboard includes functional modules such as a controller and a processor, which may be used to implement the AR function.

For example, as shown in fig. 4 and 6A, the lower surface 22b-2 of the separating member 22b is substantially parallel to the upper surface 221a of the first link 221, the end of the upper surface 22b-1 of the separating member 22b near the first link 221 is an inclined surface 200 intersecting the lower surface 22b-2 of the separating member 22b, and the thickness of the separating member 22b in the direction perpendicular to the lower surface 22b-2 of the separating member 22b is gradually reduced in the direction from the end of the inclined surface 200 away from the first link 221 to the end of the inclined surface 200 near the first link 221. Such a separation member 22b is more easily moved between the lower surface 421a of the second link 421 and the upper surface 221a of the first link 221 to separate them, further ensuring the reliability of the detaching operation.

For example, the first connection member 221 is a magnetic member capable of applying a magnetic force, such as a magnet, and the second connection member 421 includes a magnetic material capable of being attracted by the magnetic member through the magnetic force, such as a magnet or other magnetic materials; alternatively, the second connector 421 is a magnetic member capable of applying a magnetic force, and the first connector 221 includes a magnetic material capable of being attracted by the magnetic member through the magnetic force. In a word, the lower surface 421a of the second connecting part 421 and the upper surface 221a of the first connecting part 221 can be attached to each other through the magnetic force between the first connecting part 221 and the second connecting part 421, so that the first connecting part 221 and the second connecting part 421 are connected, when the first connecting part 221 and the second connecting part 421 are close to each other, the first connecting part 22 and the second connecting part 42 are automatically aligned and assembled in place by means of the mutual attraction force between the two parts, the first connecting part 22 and the second connecting part 42 are conveniently and rapidly and smoothly connected, the convenience and smoothness of installing and detaching the power supply device by a user are improved, and particularly, in the process of replacing the power supply device while using the glasses 10, the use experience of the user on the glasses 10 is effectively improved. For example, magnetic materials such as Fe, co, ni elements and alloys thereof, rare earth elements and alloys thereof, and some Mn compounds. Of course, the type of the magnetic material is not limited to the above listed types, and the embodiment of the present disclosure does not limit this. In this case, the separation member 22b moves to be inserted between the lower surface 421a of the second link 421 and the upper surface 221a of the first link 221, and the distance between the lower surface 421a of the second link 421 and the upper surface 221a of the first link 221 is increased to reduce the magnetic force therebetween, thereby separating the two.

Alternatively, in some other embodiments, the first connecting member 221 is a first suction cup, the second connecting member 421 is a second suction cup, and the first connecting member 221 and the second connecting member 421 exert a physical absorption force therebetween to connect the two members. In this case, the separation member 22b moves to be inserted between the lower surface 421a of the second connector 421 and the upper surface 221a of the first connector 221, or to break the physical adsorption force between the first and second suction cups, thereby separating the two. Of course, the connection manner of the first connection member 221 and the second connection member 421 is not limited to the above connection manner through the mutual attraction force therebetween, for example, in some embodiments, the first connection member 221 may also be engaged with the second connection member 421.

For example, as shown in fig. 3, the first connection structure 22 of the first temple 2a includes a first power supply pin 31, the first power supply pin 31 being electrically connected with the control circuit; for example, the control circuit is located on a main board provided inside the temple main body 21. The extending direction of the temple body 21 is the first direction D1, and the first current-feeding pin 31 is located on the end face 202a of the second end 202 of the temple body 21 in the first direction D1. The positioning of the first power supply pin 31 at this position facilitates the leading out of the first power supply pin 31 and the connection of the first power supply pin 31 with the second power supply pin on the second connection structure 42 of the power supply device 40, and facilitates the protection of the first power supply pin 31.

At least one embodiment of the present disclosure further provides a power supply device for glasses. Exemplarily, fig. 7 is a schematic diagram of a power supply device according to an embodiment of the present disclosure. As shown in fig. 7, the power supply device includes: a power supply body 41 and a second connecting structure 42. The power supply body 41 is configured to supply electric power; the second connecting structure 42 is connected to the power supply body 41 and configured to be detachably connected to the first connecting structure 22 of any one of the eyeglasses 10 provided in the embodiments of the present disclosure so that the power supply device 100 supplies power to the eyeglasses 10.

For example, as shown in fig. 7, second attachment structure 42 includes a bottom surface 42a, a top surface 42b opposite bottom surface 42a, and first and second side surfaces 42c, 42d intersecting bottom surface 42a of second attachment structure 42 and top surface 42b of second attachment structure 42 and opposite each other; the second connecting structure 42 includes a second connecting member 421, the second connecting member 421 is disposed on the bottom surface 42a of the second connecting structure 42, and has a lower surface 421a far away from the top surface 42b of the second connecting structure 42 and an upper surface 421b opposite to the lower surface 421 a; the bottom surface 42a of the second connecting structure 42 is provided with a second groove 022, and the second connecting member 421 is at least partially embedded in the second groove 022. For example, as shown in fig. 6A, the lower surface 421a of the second connection member 421 is flush with the bottom surface 42a of the second connection structure 42, so that the lower surface 421a of the second connection member 421 can be attached to the lower surface 421a of the second connection member 421, and the separation member 22b can be moved to be inserted between the lower surface 421a of the second connection member 421 and the upper surface 221a of the first connection member 221, so as to separate the two.

Alternatively, in some other embodiments, such as shown in fig. 6C, the lower surface 421a of the second connection member 421 protrudes from the bottom surface 42a of the second connection structure 42; in this way, the lower surface 421a of the second connection member 421 may be attached to the lower surface 421a of the second connection member 421, and the separation member 22b may be moved to be inserted between the lower surface 421a of the second connection member 421 and the upper surface 221a of the first connection member 221 so as to be separated from each other.

Alternatively, in some other embodiments, the entire second connection member 421 is located on the bottom surface 42a of the second connection structure 42, and the upper surface of the second connection member 421 is attached to the bottom surface 42a of the second connection structure 42; in this manner, the lower surface 421a of the second connection member 421 may be attached to the lower surface 421a of the second connection member 421, and the separation member 22b may be moved to be inserted between the lower surface 421a of the second connection member 421 and the upper surface 221a of the first connection member 221, so as to be separated therefrom.

For example, as shown in fig. 6A, when the upper surface 221a of the first connector 221 is flush with the inner bottom surface 01a of the connection bottom wall 01 and the lower surface 421a of the second connector 421 is flush with the bottom surface 42a of the second connection structure 42, the lower surface of the second connection structure 42 is flush with the inner bottom surface 01a of the connection bottom wall 01. Alternatively, as shown in fig. 6C, when the upper surface 221a of the first connection member 221 protrudes from the inner bottom surface 01a of the connection bottom wall 01 or the lower surface 421a of the second connection member 421 protrudes from the bottom surface 42a of the second connection structure 42, the lower surface of the second connection structure 42 is spaced apart from the inner bottom surface 01a of the connection bottom wall 01.

For example, as shown in fig. 7, the first side surface 42c of the second connecting structure 42 is provided with a receiving groove 42e, and the receiving groove 42e penetrates through the bottom surface 42a of the second connecting structure 42; the second connection structure 42 has a first end 42-1 connected to the power supply body 41 and a second end 42-2 opposite to the first end 42-1 thereof, and the receiving grooves 42e and the second connection member 421 are arranged in a direction from the first end 42-1 of the second connection structure 42 to the second end 42-2 of the second connection structure 42; the second connecting structure 42 is located on one side of the accommodating recess 42e close to the power supply body 41, or the second connecting structure 42 is located on one side of the accommodating recess 42e far from the power supply body 41. With reference to fig. 6A, the accommodation recess 42e is configured such that at least part of the operation key 22a, at least part of the separation member 22b and at least part of the transmission member 22c are located in the accommodation recess 42e after the power supply device 40 is connected with the temple of the eyeglasses 10, for example, the first temple 2a; in the process of shifting the separating member 22b between the first state to the second state, at least part of the operation key 22a, at least part of the separating member 22b, and at least part of the transmission member 22c move in the accommodation groove 42 e.

For example, as shown in fig. 7 and 6A, the receiving groove 42e has a bottom surface 42e-1 of the receiving groove 42e substantially parallel to the first side surface 42c of the second connecting structure 42, and a first side surface 42e-2 and a second side surface 42e-3 intersecting the bottom surface 42e-1 of the receiving groove 42e, and the first side surface 42e-2 of the receiving groove 42e is located on a side of the second side surface 42e-3 of the receiving groove 42e close to the second connecting member 421; the first side surface 42e-2 of the accommodating groove 42e comprises a vertical portion 03 perpendicular to the bottom surface 42a of the second connecting structure 42 and an inclined portion 04 connected to the vertical portion 03, and the inclined portion 04 is located at an end of the vertical portion 03 close to the second connecting member 421 and has a non-zero included angle with the vertical portion 03. The inclined portion 04 facilitates guiding the separating member 22b to move to be inserted between the lower surface 421a of the second connecting member 421 and the upper surface 221a of the first connecting member 221. For example, there is a gap between the inclined portion 04 and the inner bottom surface 01a of the connecting bottom wall 01, and the end of the first connecting member 221 is inserted between the upper surface 221a of the first connecting member 221 and the lower surface 421a of the second connecting member 421 after passing through the gap.

For example, the inclined portion 04 and the inner bottom surface 01a of the connecting bottom wall 01 of the first connecting structure 22 have a non-zero first included angle, the inclined surface 200 and the inner bottom surface 01a of the connecting bottom wall 01 of the first connecting structure 22 have a non-zero second included angle, and the first included angle is greater than or equal to the second included angle.

For example, as shown in fig. 6B, the edge of the lower surface 421a of the second connecting member 421 near the inclined portion 04 has a chamfer 05, and the working surface of the chamfer 05 meets the inclined portion 04 and is substantially in the same plane. The chamfer 05 facilitates guiding the separating member 22b to move to be inserted between the lower surface 421a of the second connecting member 421 and the upper surface 221a of the first connecting member 221.

It should be noted that "substantially on the same plane" does not mean that the working surface of the chamfer 05 and the inclined portion 04 are absolutely on the same plane within an angle of 5 ° with respect to the inner bottom surface 01a of the connecting bottom wall 01.

For example, the first connection member 221 is a magnetic member capable of applying a magnetic force, such as a magnet, and the second connection member 421 includes a magnetic material capable of being attracted by the magnetic member through the magnetic force, such as a magnet or other magnetic materials; alternatively, the second connector 421 is a magnetic member capable of applying a magnetic force, and the first connector 221 includes a magnetic material capable of being attracted by the magnetic member through the magnetic force. In a word, the lower surface 421a of the second connecting part 421 and the upper surface 221a of the first connecting part 221 can be attached to each other through the magnetic force between the first connecting part 221 and the second connecting part 421, so that the first connecting part 221 and the second connecting part 421 are connected, when the first connecting part 221 and the second connecting part 421 are close to each other, the first connecting part 22 and the second connecting part 42 are automatically aligned and assembled in place by means of the mutual attraction force between the two parts, the first connecting part 22 and the second connecting part 42 are conveniently and rapidly and smoothly connected, the convenience and smoothness of installing and detaching the power supply device by a user are improved, and particularly, in the process of replacing the power supply device while using the glasses 10, the use experience of the user on the glasses 10 is effectively improved. For example, magnetic materials such as Fe, co, ni elements and alloys thereof, rare earth elements and alloys thereof, and some Mn compounds. Of course, the type of the magnetic material is not limited to the above listed types, and the embodiment of the present disclosure does not limit this. In this case, the separation member 22b moves to be inserted between the lower surface 421a of the second link 421 and the upper surface 221a of the first link 221, and the distance between the lower surface 421a of the second link 421 and the upper surface 221a of the first link 221 is increased to reduce the magnetic force therebetween, thereby separating the two.

Alternatively, in some other embodiments, the first connector 221 is a first suction cup, the second connector 421 is a second suction cup, and the first connector 221 and the second connector 421 exert a physical absorption force between each other to connect the two. That is, the upper surface 221a of the first connection member 221 and the lower surface 421a of the second connection member 421 contact each other and apply a physical adsorption force to each other.

Alternatively, in some other embodiments, the first connector 221 is a first suction cup, the second connector 421 is a second suction cup, and the first connector 221 and the second connector 421 exert a physical absorption force between each other to connect the two. In this case, the separation member 22b moves to be inserted between the lower surface 421a of the second connector 421 and the upper surface 221a of the first connector 221, or breaks the physical adsorption force between the first suction cup and the second suction cup, thereby separating the two. Of course, the connection manner of the first connection member 221 and the second connection member 421 is not limited to the above connection manner through the mutual attraction force therebetween, for example, in some embodiments, the first connection member 221 may also be engaged with the second connection member 421.

Other features and technical effects of the embodiment shown in fig. 6B and 6C are the same as those of the embodiment shown in fig. 6A, and reference may be made to the description of the embodiment shown in fig. 6A.

For example, as shown in fig. 7 and fig. 2, the second connecting structure 42 has a non-zero included angle with the power supply main body, and the connecting portion of the second connecting structure 42 and the power supply main body 41 is in a smooth arc shape, so that the power supply function is realized, and the comfort and the stability of wearing glasses by a user are improved.

For example, as shown in fig. 7, the second connection structure 42 includes a second power supply pin 32, and the second power supply pin 32 is located on an end surface of the second connection structure 42 opposite to the first end of the second connection structure 42 at the second end of the second connection structure 42.

At least one embodiment of the present disclosure also provides an eyeglass assembly. Exemplarily, referring to fig. 2 and fig. 6A, the glasses assembly 100 includes any one of the glasses provided by the embodiment of the present disclosure and the power supply device 40 matched with the glasses, and the first connecting structure 22 is detachably connected with the second connecting structure 42 in a matching manner; the switch mechanism 220 is configured to control the detachment of the first connection structure 22 from the second connection structure 42. The glasses assembly can conveniently detach and install the power supply device at the end of the first glasses leg of the glasses, and can control detachment and connection of the power supply device through the switch mechanism, so that the first glasses leg and the power supply device are locked in a state that the first glasses leg of the glasses is connected with the power supply device, the power supply device is enabled not to easily fall off from the first glasses leg, and the power supply device and the first glasses leg are controlled to be detached through the switch mechanism to achieve the purpose. Therefore, the battery of the glasses can be replaced, the cruising ability of the glasses is improved, and meanwhile, the stability of the connection state of the power supply device and the glasses and the controllability of the detachment between the power supply device and the glasses are improved.

For example, the eyeglass assembly 100 includes at least two power supply devices 40 that can be respectively connected with the first and second temples to independently supply power to the eyeglasses 10 through the first and second temples. For example, the eyeglass assembly 100 includes more than two power supplies 40, e.g., 3, 4, etc., as a backup power source.

For example, the first connection member 221 is detachably connected to the second connection member 421; for example, in the first state of the switch mechanism 220, the switch mechanism 220 is spaced apart from the first and second links 221 and 421 connected to each other; also, the switch mechanism 220 is configured to be movable to separate the first link 221 and the second link 421 to place the switch mechanism 220 in the second state. The types of the first and second connecting members 221 and 421, the specific connecting manner therebetween, the disassembling process, and the switching process of each structural switch mechanism 220 of the eyeglass assembly 100 between the first state and the second state can refer to the description of the previous embodiment, and will not be repeated here.

The above description is intended to be exemplary of the present invention, and not to limit the scope of the present invention, which is defined by the claims appended hereto.

Claims (20)

1. An eyeglass, comprising:

a spectacle body; and

a first temple comprising a first temple main body and a first connection structure, wherein the first temple main body has a first end connected to the eyeglass body and a second end opposite the first end, and the first connection structure is connected to the second end of the first temple main body and is configured to be detachably connected to a power supply;

the first connection structure includes a switch mechanism configured to control detachment and connection of the first connection structure to the power supply device.

2. The eyewear of claim 1, wherein the first connection structure comprises a first connector; the switch mechanism has a first state in which the switch mechanism is spaced from the first link and the switch mechanism is configured to be movable into contact with the first link to place the switch mechanism in a second state.

3. The eyewear of claim 2, wherein the direction of extension of the first temple body is a first direction;

when the switch mechanism is in the first state, the first connecting piece and the switch mechanism are arranged at intervals along the first direction, and the switch mechanism is configured to be capable of moving close to the first connecting piece and moving away from the first connecting piece along the first direction.

4. The eyewear of claim 3, wherein the first connector is located on a side of the switch mechanism distal from the first temple body or on a side of the switch mechanism proximal to the first temple body when the switch mechanism is in the first state.

5. The eyeglasses according to claim 2, wherein said switch mechanism comprises:

an operation key exposed to an outer surface of the first temple and configured to be movable;

a separation member connected with the operation key and configured to be driven to move toward the first connector to contact with the first connector and to move away from the first connector to be separated from the first connector as the operation key is moved; and

and a transmission member connecting the operation key and the separation member.

6. The eyeglasses according to claim 5,

the disconnecting member protrudes in the first direction from the disconnecting member and the transmission member in a direction towards the first connection.

7. The eyewear of claim 6, wherein the first attachment structure comprises an attachment base wall having inner and outer bottom surfaces opposite one another; in a second direction perpendicular to the inner bottom surface, the first temple body has a first edge and a second edge opposite to each other, the inner bottom surface is located on a side of the outer bottom surface close to the first edge, and a distance of the inner bottom surface from the first edge in the second direction is greater than a distance of the outer bottom surface from the second edge in the second direction;

the first connecting piece and the separating component are arranged on the inner bottom surface; the separation member includes an upper surface remote from the outer bottom surface and a lower surface close to the outer bottom surface, and the first connecting member includes an upper surface remote from the outer bottom surface and a lower surface close to the outer bottom surface;

the lower surface of the separating member is flush with the upper surface of the first connecting member.

8. The eyeglasses according to claim 7, wherein the lower surface of the separating member is substantially parallel to the upper surface of the first connector, the end of the upper surface of the separating member adjacent to the first connector is an inclined surface intersecting the lower surface of the separating member, and the thickness of the separating member in a direction perpendicular to the lower surface of the separating member gradually decreases in a direction from one end of the inclined surface remote from the first connector to one end of the inclined surface adjacent to the first connector.

9. The eyeglasses according to claim 7,

the glasses body further comprises a second glasses leg, and the second glasses leg and the first glasses leg are respectively positioned at the first end of the glasses body and the second end of the glasses body opposite to the first end of the glasses body;

the first side wall of the first side wall is positioned on one side of the second side wall far away from the second side wall, and the operating key is exposed on the outer surface of the first side wall far away from the second side wall;

the direction from the first end of the glasses body to the second end of the glasses body opposite to the first end of the glasses body is a third direction, the glasses body is provided with a midpoint in the third direction, the second glasses leg is provided with a structure which is symmetrical to the first glasses leg relative to the glasses body relative to the midpoint, so that the second glasses leg is also provided with a charging function, and the second glasses leg and the first glasses leg work independently respectively.

10. The eyeglasses according to any of claims 2 to 9, characterized in that said first connector is a magnetic element capable of exerting a magnetic force or comprises a magnetic material; alternatively, the first and second electrodes may be,

the first connector is a first suction cup.

11. A power supply device for eyeglasses, comprising:

a power supply body configured to supply power; and

a second connecting structure connected with the power supply main body and configured to be detachably connected with the first connecting structure of the eyeglasses according to any one of claims 1-10 in a matching manner so that the power supply device supplies power to the eyeglasses.

12. The power supply device for eyeglasses according to claim 11, wherein said second connecting structure comprises a bottom surface, a top surface opposite to said bottom surface, and a first side surface and a second side surface intersecting with and opposite to said bottom surface of said second connecting structure and said top surface of said second connecting structure;

the second connecting structure comprises a second connecting piece, and the second connecting piece is arranged on the bottom surface of the second connecting structure and is provided with a lower surface far away from the top surface and an upper surface opposite to the lower surface;

a second groove is formed in the bottom surface of the second connecting structure, and at least part of the second connecting piece is embedded into the second groove; the lower surface of the second connecting piece is flush with the bottom surface of the second connecting structure, or the lower surface of the second connecting piece protrudes out of the bottom surface of the second connecting structure; alternatively, the first and second electrodes may be,

the whole second connecting piece is located on the bottom surface of the second connecting structure, and the upper surface of the second connecting piece is attached to the bottom surface of the second connecting structure.

13. The power supply device for eyeglasses according to claim 12, wherein a receiving groove is formed on the first side surface of the second connecting structure, and the receiving groove penetrates through the bottom surface of the second connecting structure;

the second connecting structure is provided with a first end connected with the power supply main body and a second end opposite to the first end of the power supply main body, and the accommodating grooves and the second connecting pieces are arranged along the direction from the first end of the second connecting structure to the second end of the second connecting structure;

the second connecting structure is located on one side of the accommodating groove close to the power supply main body, or the second connecting structure is located on one side of the accommodating groove far away from the power supply main body.

14. The power supply device for eyeglasses according to claim 12, wherein said receiving recess has a receiving recess bottom surface substantially parallel to the first side surface of said second connecting structure and first and second side surfaces intersecting said receiving recess bottom surface, said first side surface of said receiving recess being located on a side of said second side surface of said receiving recess adjacent to said second connecting member;

the first side face of the accommodating groove comprises a vertical portion perpendicular to the bottom face of the second connecting structure and an inclined portion connected with the vertical portion, and the inclined portion is located at the end, close to the second connecting piece, of the vertical portion and has a non-zero included angle with the vertical portion.

15. The power supply device for eyeglasses according to any one of claims 11 to 14, wherein said second connector is a magnetic member capable of applying a magnetic force or comprises a magnetic material; alternatively, the first and second electrodes may be,

the second connector is a second suction cup.

16. An eyeglass assembly comprising an eyeglass according to any of claims 1-10 and power supply means for an eyeglass according to any of claims 11-15, wherein the first connection is matingly removably attachable to the second connection; the switch mechanism is configured to control detachment of the first connection structure from the second connection structure.

17. The eyeglass assembly of claim 16, wherein, in the event that the first attachment structure comprises a first attachment member and the second attachment structure comprises a second attachment member, the first attachment member is removably attached to the second attachment member;

in a first state of the switch mechanism, the switch mechanism is spaced apart from the first and second connecting pieces connected to each other; and the number of the first and second electrodes,

the switch mechanism is configured to be movable to separate the first and second links to place the switch mechanism in a second state;

in the case where the second connection structure includes a bottom surface, a top surface opposite to the bottom surface, and a first side surface and a second side surface intersecting the bottom surface of the second connection structure and the top surface of the second connection structure and opposite to each other, the second connection member is disposed on the bottom surface of the second connection structure and has a lower surface remote from the top surface, the first connection member is a magnetic member or includes a magnetic material capable of applying a magnetic force, and the second connection member is a magnetic member or includes a magnetic material capable of applying a magnetic force,

the upper surface of the first connecting piece and the lower surface of the second connecting piece are attached to each other and exert magnetic force to connect the first connecting piece and the second connecting piece;

alternatively, the first and second electrodes may be,

in a case where the first connector is a first suction pad and the second connector is a second suction pad, an upper surface of the first connector and a lower surface of the second connector contact each other and apply a physical adsorption force to each other.

18. The eyeglass assembly of claim 16 wherein said switch mechanism comprises an operating key, a disengagement member and a transmission member, said disengagement member being keyed to said operating key and configured to be driven as said operating key is moved to move toward said first connector to contact said first connector and away from said first connector to disengage said first connector, said transmission member connecting said operating key to said disengagement member, and

the first connecting structure comprises a connecting bottom wall, and the connecting bottom wall is provided with an inner bottom surface and an outer bottom surface which are opposite to each other; in a second direction perpendicular to the inner bottom surface, the first temple body has a first edge and a second edge opposite to each other, the inner bottom surface is located on a side of the outer bottom surface close to the first edge, and a distance of the inner bottom surface from the first edge in the second direction is greater than a distance of the outer bottom surface from the second edge in the second direction; the first connecting piece and the separating component are arranged on the inner bottom surface; the separation member includes an upper surface remote from the outer bottom surface and a lower surface close to the outer bottom surface, and the first connecting member includes an upper surface remote from the outer bottom surface and a lower surface close to the outer bottom surface; in the case where the lower surface of the separating member is flush with the upper surface of the first connecting member,

the separation member is configured to be driven to move and inserted between an upper surface of the first connector and a lower surface of the second connector as the operation key is moved to separate the first connector from the first connector and to displace the second connection structure relative to the first connection structure.

19. The eyeglass assembly of claim 18, wherein a receiving recess is provided on a first side of said second connecting structure, said receiving recess extending through a bottom surface of said second connecting structure,

at least part of the operation key, at least part of the separation member and at least part of the transmission member are positioned in the accommodating groove; at least a part of the operation key, at least a part of the separation member, and at least a part of the transmission member move in the accommodation groove in a process of shifting the separation member between the first state and the second state.

20. The eyeglass assembly of claim 19, wherein, in a case where a lower surface of the separating member is substantially parallel to an upper surface of the first link, an end of the upper surface of the separating member adjacent to the first link is an inclined surface intersecting with the lower surface of the separating member, and a thickness of the separating member in a direction perpendicular to the lower surface of the separating member is gradually reduced in a direction from an end of the inclined surface distant from the first link to an end of the inclined surface adjacent to the first link,

the accommodating groove is provided with an accommodating groove bottom surface which is basically parallel to the first side surface of the second connecting structure, and a first side surface and a second side surface which are intersected with the accommodating groove bottom surface, and the first side surface of the accommodating groove is positioned on one side, close to the second connecting piece, of the second side surface of the accommodating groove; the first side surface of the accommodating groove comprises a vertical part vertical to the bottom surface of the second connecting structure and an inclined part connected with the vertical part, the inclined part is positioned at the end part of the first side surface close to the second connecting piece and has a non-zero included angle with the vertical part,

a gap is formed between the inclined part and the inner bottom surface of the connecting bottom wall, and the end part of the first connecting piece is inserted between the upper surface of the first connecting piece and the lower surface of the second connecting piece after passing through the gap.

Images