CN115166972B - Head-mounted equipment - Google Patents

Abstract

The invention belongs to the technical field of head wear, and particularly relates to head wear equipment; the head-wearing equipment comprises a host machine, a lens cone assembly arranged in a cavity surrounded by a shell of the host machine, a left mask and a right mask, wherein the left mask and the right mask are arranged at the left side of the front side of the corresponding shell, the upper end part of the left mask is adjacent to the upper end part of the right mask, the lower end part of the left mask is arranged at intervals with the lower end part of the right mask, the left mask is connected with the right mask to form a mask, detachable connecting structures are respectively arranged among the left mask, the right mask and the host machine, and the left mask and the right mask can move along the direction close to/far away from the lens cone assembly. When switching between wearing scene and external scene, only need install left face guard, right face guard to shell front side department or dismantle from shell front side department, need not take off the head-mounted equipment just can accomplish the scene and switch, solved the current head-mounted equipment and the inconvenient problem of external scene interaction, be convenient for switch the use in different scenes.

Description

Head-mounted equipment

Technical Field

The invention belongs to the technical field of head wear, and particularly relates to head wear equipment convenient to switch and use in different scenes.

Background

Currently, the industries of head-mounted devices (AR-type head-mounted devices and VR-type head-mounted devices) develop rapidly, and corresponding application scenes are also increasing, such as office scenes, daily life scenes and the like. In general, to ensure an immersive experience, a mask made of foam or a foaming material is provided on a main body of the head-mounted device for shielding external light.

When wearing the head-mounted device, interaction with the outside is often required, for example, when people need to watch a keyboard for typing in an office scene, when people need to watch mobile phone information in a daily life scene, and the like, the head-mounted device needs to be taken off from the head of a user to interact with the outside, so that the head-mounted device is very inconvenient to use.

Disclosure of Invention

The invention aims to provide a head-mounted device, which aims to solve the problem that the existing head-mounted device is inconvenient to interact with external scenes, and can interact with the external world without taking the whole head-mounted device off the head of a user, so that the head-mounted device is convenient to switch and use in different scenes.

The invention discloses a head-mounted device, which comprises a host, wherein the host comprises a shell and a lens barrel assembly arranged in a cavity surrounded by the shell; the device comprises a shell, and is characterized by further comprising a left mask arranged at the left side corresponding to the front side of the shell and a right mask arranged at the right side corresponding to the front side of the shell, wherein the upper end part of the left mask is adjacent to the upper end part of the right mask, the lower end part of the left mask is arranged at intervals with the lower end part of the right mask, the left mask is connected with the right mask to form a mask, detachable connecting structures are respectively arranged between the left mask and the host, and the left mask and the right mask can move along the direction close to/far away from the lens cone assembly.

As an improvement, the housing comprises a housing rear part and a housing front part integrally connected with the housing rear part, a stepped structure is formed between the housing front part and the housing rear part, and the left mask and the right mask are respectively arranged at the periphery of the housing front part.

As an improvement, the left mask and the right mask are symmetrically arranged along the left-right direction; the left face guard right face guard includes respectively with the support of the left week side part of shell front portion/right week side part shape looks adaptation, fix have flexible side cover body on the support, the side that the side cover body of left side face guard is kept away from the shell front side with the side that the side cover body of right side face guard is kept away from the shell front side is connected and is formed the faying surface, detachable connection structure sets up between the support with the host computer.

As an improvement, the support includes the peripheral face laminating board of the outer peripheral face looks adaptation of the shell front portion of department that corresponds, the side laminating of peripheral face laminating board one side is in the shell rear portion is located on the face outside the shell front portion, the medial surface laminating of peripheral face laminating board is in on the outer peripheral face of shell front portion, still include connect the peripheral face laminating board keep away from the edge of the opposite side of shell rear portion cover board, the edge cover board lid is established the shell front portion is kept away from on the edge of the terminal surface of shell rear portion one side.

As an improvement, the side cover body comprises a connecting part fixedly connected with the bracket and a main body part integrally connected with the connecting part.

As an improvement, the main body part is thin-walled, the side of the main body part far away from the connecting part is provided with an inward turned curled edge, and a cavity is formed between the curled edge and the main body part.

As an improvement, the side cover body is an injection molded integral structure, and the connecting portion is disposed on the inner side surface of the main body portion.

As an improvement, a seam is provided in the middle of the bead.

As an improvement, the detachable connection structure is a magnetic attraction structure, the magnetic attraction structure comprises a mask magnet fixed on the support and a host magnet correspondingly fixed on the host, and the magnetic polarities of the host magnet and the mask magnet are opposite.

As an improvement, the mask magnet comprises a first mask magnet and a second mask magnet which are arranged on the bracket at intervals, wherein the magnetic polarities of the first mask magnet and the second mask magnet are opposite; the host magnet comprises a first host magnet and a second host magnet which are correspondingly arranged on the host, the magnetic polarities of the first host magnet and the first mask magnet are opposite, and the magnetic polarities of the second host magnet and the second mask magnet are opposite.

As an improvement, the mask magnet further comprises a mask auxiliary magnet fixed on the support, the host magnet correspondingly further comprises a host auxiliary magnet arranged on the host, and the magnetic polarities of the mask auxiliary magnet and the host auxiliary magnet are opposite.

As an improvement, the magnetic attraction structure is arranged between the edge part cover plate and the host; the first mask magnet and the second mask magnet are arranged at the arc top of the edge cover plate along the vertical direction at intervals, the two mask auxiliary magnets are arranged and are respectively arranged at the upper end and the lower end of the edge cover plate, and the two host auxiliary magnets are correspondingly arranged.

As an improvement, the first mask magnet, the second mask magnet and the mask auxiliary magnet are respectively embedded into the edge part cover plate, and the faces of the first mask magnet, the second mask magnet and the mask auxiliary magnet are flush with the faces of the edge part cover plate; the first host magnet, the second host magnet and the host auxiliary magnet are arranged in a cavity surrounded by the shell, or the first host magnet, the second host magnet and the host auxiliary magnet are respectively embedded into the shell wall of the shell, and the surfaces of the first host magnet, the second host magnet and the host auxiliary magnet are flush with the surface of the shell.

As an improvement, a containing cavity is arranged at the upper part of the front side of the host, and an avoidance groove is arranged at the position, corresponding to the containing cavity, of the abutting part of the upper end part of the left mask and the upper end part of the right mask.

Due to the adoption of the technical scheme, the head-mounted equipment comprises a host, wherein the host comprises a shell and a lens barrel assembly arranged in a cavity surrounded by the shell; the device comprises a shell, and is characterized by further comprising a left mask arranged at the left side corresponding to the front side of the shell and a right mask arranged at the right side corresponding to the front side of the shell, wherein the upper end part of the left mask is adjacent to the upper end part of the right mask, the lower end part of the left mask is arranged at intervals with the lower end part of the right mask, the left mask is connected with the right mask to form a mask, detachable connecting structures are respectively arranged among the left mask, the right mask and a host, and the left mask and the right mask can move along the direction close to/far away from the lens cone assembly. When the helmet is worn, the whole helmet is fixed on the head of a user through the helmet, the helmet is positioned between the front side of the shell and the face of the user and used for shading and buffering, the helmet is formed by connecting a left helmet arranged at the left side of the front side of the shell and a right helmet arranged at the right side of the front side of the shell, the helmet is of a split structure, the left helmet and the right helmet can slide along the direction approaching/separating from the lens barrel assembly, and the detachable connecting structures are respectively arranged between the left helmet, the right helmet and the host, so that when the wearing scene of the helmet is required to be switched from the wearing scene (such as a working scene and a living scene) of the user, only the left helmet is required to be pulled to the left side and the right side of the helmet, and the detachable connecting structure between the left helmet, the right helmet and the host can be detached from the front side of the shell under the action of an external force, and when the user is required to switch to the wearing scene of the helmet from the wearing scene of the helmet again, the left helmet and the front side of the shell are required to be inserted into the front side of the helmet along the direction approaching the assembly, and the detachable connecting structure can be combined with the host; when the wearing scene is switched with the external scene, the left mask and the right mask are only required to be mounted on the front side of the shell or dismounted from the front side of the shell, and the scene switching can be completed without the need of dismounting the head-mounted equipment.

Drawings

FIG. 1 is a schematic side view of a headset of an embodiment of the present invention;

FIG. 2 is a schematic diagram of a front view of a headset according to an embodiment of the present invention;

FIG. 3 is a schematic exploded view of a headset of an embodiment of the present invention;

FIG. 4 is a schematic rear view of the structure of a mask of a headgear of an embodiment of the present invention;

FIG. 5 is a schematic perspective view of a host of a headset according to an embodiment of the present invention;

FIG. 6 is a schematic illustration of an exploded construction of a left mask of a headgear of an embodiment of the present invention;

FIG. 7 is a schematic perspective view of a nose pad of a headgear of an embodiment of the present invention;

FIG. 8 is a schematic view of the left and right masks of the headgear of the present invention;

wherein, 11, the outer casing; 111. a housing rear portion; 112. a housing front; 12. a lens barrel assembly; 13. an inner concave portion; 14. a plug hole; 20. a headband; 30a, left mask; 30b, right mask; 31. a bracket; 311. a peripheral surface bonding plate; 312. an edge cover plate; 32. a side mask body; 321. a connection part; 322. a main body portion; 323. hemming; 324. a slit; 41a, a first host magnet; 41b, a first mask magnet; 42a, a second host magnet; 42b, a second mask magnet; 43a, a main machine auxiliary magnet; 43b, mask auxiliary magnet; 44a, a third host magnet; 44b, upper mask magnet; 50. a nose pad; 51. a plug; 60. avoiding the groove.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Fig. 1 to 8 are schematic structural views of a head-mounted device according to an embodiment of the present invention, in which fig. 1 shows a schematic side structural view of the head-mounted device according to an embodiment of the present invention, fig. 2 shows a schematic front view of the head-mounted device according to an embodiment of the present invention, fig. 3 shows a schematic exploded structural view of the head-mounted device according to an embodiment of the present invention, fig. 4 shows a schematic rear view of a mask of the head-mounted device according to an embodiment of the present invention, fig. 5 shows a schematic perspective structural view of a host of the head-mounted device according to an embodiment of the present invention, fig. 6 shows a schematic exploded structural view of a left mask of the head-mounted device according to an embodiment of the present invention, fig. 7 shows a schematic perspective structural view of a nose pad of the head-mounted device according to an embodiment of the present invention, and fig. 8 shows a schematic assembly/disassembly structure of the left mask and the right mask of the head-mounted device according to an embodiment of the present invention. For convenience of description, only the parts related to the present invention are shown in the drawings.

It should be noted that, if directional indications (e.g., up, down, front, rear, etc.) are referred to in the present invention, the directional indications are merely used to explain the relative positional relationship between the components in a certain specific posture, and if the specific posture is changed, the directional indications are changed accordingly; if the description of "first", "second", etc. is referred to in this disclosure, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated.

When the head-mounted device is worn, one side, close to the face of the user, of a host computer of the head-mounted device is defined as a front side, and the other side, far away from the face of the user, is defined as a rear side. As can be seen from fig. 1 to 8, the headset comprises a main body, a headband 20 fixedly connected with the main body, wherein the main body comprises a housing 11 and a lens barrel assembly 12 arranged in a cavity enclosed by the housing 11; the device further comprises a left mask 30a arranged at the left side corresponding to the front side of the shell 11 and a right mask 30b arranged at the right side corresponding to the front side of the shell 11, wherein the upper end part of the left mask 30a is adjacent to the upper end part of the right mask 30b, the lower end part of the left mask 30a is arranged at intervals with the lower end part of the right mask 30b, the left mask 30a is connected with the right mask 30b to form a mask matched with the face of a user, detachable connection structures are respectively arranged between the left mask 30a, the right mask 30b and a host, and the left mask 30a and the right mask 30b can move along the direction approaching/separating from the lens cone assembly 12; the head-mounted device further includes a nose pad 50 fixedly connected to the housing 11 between the lower end of the left mask 30a and the lower end of the right mask 30 b.

When the helmet is worn, the whole helmet is fixed on the head of a user through the helmet 20, the helmet is positioned between the front side of the shell 11 and the face of the user and used for shading and buffering, the helmet is formed by connecting a left helmet 30a arranged at the left side of the front side of the shell 11 and a right helmet 30b arranged at the right side of the front side of the shell 11, the helmet is of a split type structure, the left helmet 30a and the right helmet 30b can slide along the direction approaching/separating from the lens barrel assembly 12, and a detachable connecting structure is respectively arranged between the left helmet 30a and the right helmet 30b and a host, so that when the wearing scene of the helmet is switched from an external scene (such as a working scene and a living scene), only the left helmet 30a is required to be pulled to the left side, the right helmet 30b is required to be pulled to the right side, under the action of the external force, the left helmet 30a and the right helmet 30b can be detached from the front side of the shell 11, the user can watch the space between the front side of the shell 11 and the face, and when the wearing scene is required to be switched from the wearing scene of the helmet again, and the helmet 30b is required to be connected with the left helmet 30b and the host along the external scene, namely the detachable connecting structure between the front side of the helmet and the shell 11 and the host; when the wearing scene is switched with the external scene, the left mask 30a and the right mask 30b are only required to be installed on the front side of the shell 11 or the left mask 30a and the right mask 30b are required to be detached from the front side of the shell, and the scene switching can be completed without taking off the head-mounted equipment.

In the embodiment of the invention, in order to facilitate understanding, wearing scenes and external scenes are described as follows:

the wearing scene is that after the user wears the head-mounted equipment, the split cover body is all installed on the host computer, and the user views the state of the image of the host computer, and when the user is in the wearing scene, only light rays from the host computer enter eyes of the user.

When the external scene is in the state that the user wears the head-mounted device and then removes the sub-cover body positioned at the side part or the lower part from the host, the user can watch the image of the host and watch the external environment and correspondingly process matters in the external environment (such as watching a keyboard for typing, watching mobile phone information and the like), when the external scene is in the external scene, a first visual angle is formed between eyes of the user and the host, a second visual angle is formed between eyes of the user and the external environment, and light rays of the first visual angle and/or the second visual angle enter eyes of the user.

In the embodiment of the present invention, the housing 11 includes a housing rear portion 111, a housing front portion 112 integrally connected to the housing rear portion 111, a stepped structure is formed between the housing front portion 112 and the housing rear portion 111, and the left and right face masks 30a, 30b are provided at the peripheral sides of the housing front portion 112 at the corresponding positions, respectively.

Specifically, the left mask 30a and the right mask 30b are symmetrically arranged in the left-right direction; the left mask 30a and the right mask 30b respectively comprise a bracket 31 which is matched with the shape of the left peripheral side part/the right peripheral side part of the front part 112 of the shell, and a flexible side mask body 32 which is fixed on the bracket 31, wherein one side of the side mask body 32 of the left mask 30a, which is far away from the front side of the shell 11, is connected with one side of the side mask body 32 of the right mask 30b, which is far away from the front side of the shell 11, so as to form an attaching surface matched with the face of a user, and a detachable connecting structure is arranged between the bracket 31 and a host machine.

The bracket 31 includes a peripheral surface engaging plate 311 fitted to the outer peripheral surface of the case front 112 at the corresponding position, a side edge of the peripheral surface engaging plate 311 being engaged with a surface of the case rear 111 other than the case front 112, an inner side surface of the peripheral surface engaging plate 311 being engaged with the outer peripheral surface of the case front 112, and an edge portion cover plate 312 connected to the other side edge of the peripheral surface engaging plate 311 away from the case rear 111, the edge portion cover plate 312 being provided to an edge portion of the end surface of the case front 112 on the side away from the case rear 111. The bracket 31 is of the structure, so that the connection area between the side mask body 32 and the bracket 31 can be increased, the fixed connection is facilitated, the side mask body 32 can be supported, and deformation is not easy to occur; specifically, the detachable connection structure is disposed between the edge cover 312 and the host. When the left mask 30a and the right mask 30b are assembled and disassembled, a user can pinch the upper and lower sides of the peripheral surface bonding plates 311 of the left mask 30a by a left hand and pinch the upper and lower sides of the peripheral surface bonding plates 311 of the right mask 30b by a right hand, and the assembly and disassembly are realized by drawing and pulling at the positions indicated by arrows in fig. 8, so that the operation is very convenient. Since the side edge of the peripheral surface bonding plate 311 is bonded to the surface of the case rear portion 111 outside the case front portion 112, the peripheral surface bonding plate 311 is generally an arc plate, and the upper and lower width of the opening side is larger than the upper and lower width of the arc top, so that a sliding guide structure can be formed between the left mask 30a and the left peripheral portion of the case front portion 112, and between the right mask 30b and the right peripheral portion of the case front portion 112, so that the left mask 30a and the right mask 30b can be easily mounted on a host.

The side mask body 32 comprises a connecting part 321 fixedly connected with the bracket 31 and a main body part 322 integrally connected with the connecting part 321, the main body part 322 is thin-walled, a turned-over hemming 323 is arranged at the side edge of the main body part 322 far away from the connecting part 321, a cavity is formed between the hemming 323 and the main body part 322, and when the side mask is worn, the lower mask hemming 323 is contacted with the face of a user, so that the softness and the deformation degree can be enhanced, and the side mask is convenient to attach to the face of the user; specifically, the side cover 32 is an injection-molded integrated structure, the connecting portion 321 is provided on the inner side surface of the main body 322, and the connecting portion 321 and the edge cover 312 are engaged with each other, or may be fixed by adhesion, hot pressing, or the like.

In order to facilitate the use of the myopic users, slits 324 are provided at the middle portions of the curled edges 323 of the left and right face masks 30a, 30b, respectively, and the legs of the myopic glasses may be caught at the slits 324.

Generally, an inner recess 13 is provided at a lower middle portion of the outer peripheral surface of the housing front 112, and the nose pad 50 is correspondingly provided at the inner recess 13; specifically, at least two plug connectors 51 are arranged on the nose pad 50 at intervals, plug holes 14 are respectively arranged on the surface of the inner concave part 13 corresponding to each plug connector 51, and the nose pad 50 is fixedly connected with the plug holes 14 through the plug connectors 51.

In the embodiment of the present invention, the detachable connection structure is preferably a magnetic attraction structure, and the magnetic attraction structure includes a mask magnet fixed on the support 31 and a corresponding host magnet fixed on the host, where the magnetic polarities of the host magnet and the mask magnet are opposite.

Specifically, the mask magnet includes a first mask magnet 41b and a second mask magnet 42b disposed on the bracket 31 at intervals, and the magnetic polarities of the first mask magnet 41b and the second mask magnet 42b are opposite; the host magnet includes a first host magnet 41a and a second host magnet 42a disposed on the host, the first host magnet 41a and the first mask magnet 41b have opposite magnetic polarities, and the second host magnet 42a and the second mask magnet 42b have opposite magnetic polarities.

In order to enhance the fixing connection performance between the left mask 30a, the right mask 30b and the host, the mask magnet further comprises a mask auxiliary magnet 43b fixed on the bracket 31, and the host magnet correspondingly further comprises a host auxiliary magnet 43a arranged on the host, wherein the magnetic polarities of the mask auxiliary magnet 43b and the host auxiliary magnet 43a are opposite.

Specifically, the magnetic attraction structure is disposed between the edge cover 312 and the host; the first mask magnet 41b and the second mask magnet 42b are arranged at the arc top of the edge cover plate 312 at intervals along the vertical direction, the two mask auxiliary magnets 43b are arranged at the upper end and the lower end of the bracket 31 respectively, and the two host auxiliary magnets 43a are correspondingly arranged, so that the fixed connection performance can be further enhanced.

In order to facilitate the installation between the left mask 30a and the right mask 30b and the host machine more smoothly, the first mask magnet 41b, the second mask magnet 42b and the mask auxiliary magnet 43b are respectively embedded into the edge cover plate 312, and the surfaces of the first mask magnet 41b, the second mask magnet 42b and the mask auxiliary magnet 43b are flush with the surface of the edge cover plate 312; the first main magnet 41a, the second main magnet 42a, and the main auxiliary magnet 43a are disposed in a cavity surrounded by the housing 11, or the first main magnet 41a, the second main magnet 42a, and the main auxiliary magnet 43a are respectively embedded in a wall of the housing 11, and a surface of the first main magnet 41a, a surface of the second main magnet 42a, and a surface of the main auxiliary magnet 43a are flush with a surface of the housing 11.

In other embodiments, the detachable connection structure may also be a plug-in structure, a snap-in structure, or the like.

In the embodiment of the invention, the head band 20 comprises a jointing part, a left band body and a right band body which are respectively connected at two sides of the jointing part, an tightness adjusting mechanism is arranged between one end part of the left band body far away from the jointing part and one end part of the right band body far away from the jointing part, and a connecting frame which is fixedly connected with a host machine is arranged on the jointing part. The structure of the headband is a well-known technology and will not be described in detail herein.

In general, a receiving cavity is provided at an upper portion of a front side of the main body, in order to facilitate the fixed connection between the connection frame and the housing 11, a receiving groove 60 is provided at a position corresponding to the receiving cavity at an adjacent position of an upper end portion of the left mask 30a and an upper end portion of the right mask 30b, concretely speaking, notches are provided at an upper end portion of the left mask 30a and an upper end portion of the right mask 30b, respectively, the notches at the upper end portion of the left mask 30a and the notches at the upper end portion of the right mask 30b are butted to form a receiving groove 60, and the connection frame is clamped at the receiving groove 60 and the main body.

The foregoing description of the embodiments of the invention is not intended to limit the invention to the particular embodiments disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Claims (12)

1. The head-mounted equipment comprises a host, wherein the host comprises a shell and a lens barrel assembly arranged in a cavity surrounded by the shell; the head-mounted equipment is characterized by further comprising a left mask arranged at the left side corresponding to the front side of the shell and a right mask arranged at the right side corresponding to the front side of the shell, wherein the upper end part of the left mask is adjacent to the upper end part of the right mask, the lower end part of the left mask is arranged at intervals with the lower end part of the right mask, the left mask is connected with the right mask to form a mask, detachable connecting structures are respectively arranged among the left mask, the right mask and the host, the left mask and the right mask can move along the direction approaching/separating from the lens barrel assembly, the detachable connecting structures among the left mask, the right mask and the host are separated under the action of external force, the left mask is detached from the left side along the direction separating from the lens barrel assembly, the right mask is detached from the right side along the direction separating from the lens barrel assembly, and the head-mounted equipment is switched from a wearing scene to an external scene;

the shell comprises a shell rear part and a shell front part connected with the shell rear part into a whole, a step-shaped structure is formed between the shell front part and the shell rear part, and the left mask and the right mask are respectively arranged at the periphery of the shell front part; the left mask and the right mask are symmetrically arranged along the left-right direction; the left face guard right face guard respectively include with the support of the left week side part of shell front portion/right week side part shape looks adaptation, fix have flexible side cover body on the support, the side that the side cover body of left side face guard is kept away from the shell front side with the side that the side cover body of right side face guard is kept away from the shell front side is connected and is formed the faying face with the facial looks adaptation of user, detachable connection structure sets up between the support with the host computer.

2. The head set according to claim 1, wherein the holder includes a peripheral surface attaching plate fitted to an outer peripheral surface of the housing front portion at a corresponding position, a side edge of one side of the peripheral surface attaching plate attached to a surface of the housing rear portion located outside the housing front portion, an inner side surface of the peripheral surface attaching plate attached to an outer peripheral surface of the housing front portion, and an edge portion cover plate attached to an other side edge of the peripheral surface attaching plate away from the housing rear portion, the edge portion cover plate being provided on an edge portion of an end surface of the housing front portion away from the housing rear portion.

3. The headgear of claim 2, wherein the side cover includes a connection portion fixedly connected to the bracket, and a main body portion integrally connected to the connection portion.

4. A headset according to claim 3, characterized in that the body part is provided in a thin-walled form, that an inwardly turned bead is provided at the side of the body part remote from the connection part, and that a cavity is formed between the bead and the body part.

5. The headgear of claim 4, wherein the side cover is an injection molded unitary structure, and the connection portion is disposed on an inner side of the main body portion.

6. The headgear of claim 4, wherein a slit is provided at a middle portion of the bead.

7. The headset of any one of claims 2 to 6, wherein the detachable connection structure is a magnetic attraction structure comprising a mask magnet secured to the bracket, a corresponding host magnet secured to the host, the host magnet being of opposite magnetic polarity to the mask magnet.

8. The headgear of claim 7, wherein the mask magnet comprises a first mask magnet and a second mask magnet spaced apart from the support, the first mask magnet being of opposite magnetic polarity to the second mask magnet; the host magnet comprises a first host magnet and a second host magnet which are correspondingly arranged on the host, the magnetic polarities of the first host magnet and the first mask magnet are opposite, and the magnetic polarities of the second host magnet and the second mask magnet are opposite.

9. The headgear of claim 8, wherein the mask magnet further comprises a mask auxiliary magnet secured to the support, the host magnet further comprising a host auxiliary magnet disposed on the host, the mask auxiliary magnet being opposite in magnetic polarity to the host auxiliary magnet.

10. The headset of claim 9, wherein the magnetic structure is disposed between the rim cover plate and the host; the first mask magnet and the second mask magnet are arranged at the arc top of the edge cover plate along the vertical direction at intervals, the two mask auxiliary magnets are arranged and are respectively arranged at the upper end and the lower end of the edge cover plate, and the two host auxiliary magnets are correspondingly arranged.

11. The headgear of claim 9, wherein the first, second, and auxiliary mask magnets are each embedded within the rim portion cover plate, and wherein faces of the first, second, and auxiliary mask magnets are flush with faces of the rim portion cover plate; the first host magnet, the second host magnet and the host auxiliary magnet are arranged in a cavity surrounded by the shell, or the first host magnet, the second host magnet and the host auxiliary magnet are respectively embedded into the shell wall of the shell, and the surfaces of the first host magnet, the second host magnet and the host auxiliary magnet are flush with the surface of the shell.

12. The head-mounted device according to claim 1, wherein a receiving chamber is provided at an upper portion of a front side of the main body, and a relief groove is provided at a position where an upper end portion of the left mask and an upper end portion of the right mask adjoin to correspond to the receiving chamber.