CN117148575A - Headset and virtual reality device - Google Patents

Abstract

The application discloses a head-mounted device and a virtual reality device, and belongs to the technical field of virtual reality devices. The strap assembly of the present application; the battery compartment is provided with at least part of the binding belt assembly which is positioned in the battery compartment and moves relative to the battery compartment; a battery is arranged in the battery compartment and is electrically connected with the binding belt component; and the limiting assembly is respectively connected with the battery and the binding belt assembly and used for limiting the moving position of the binding belt assembly. The virtual reality apparatus of the present application includes a head mounted device and a display assembly. The position of the binding belt component relative to the battery compartment can be adjusted by only one hand, and the tightness of the binding belt component is more convenient to adjust; and battery compartment and display module components of a whole that can function independently design for the whole weight of VR device is balanced, and the bandage subassembly adopts flexible material, makes user's wearing experience more comfortable.

Description

Headset and virtual reality device

Technical Field

The application relates to the technical field of virtual reality devices, in particular to a head-mounted device and a virtual reality device.

Background

With the rapid development of the Virtual Reality (VR) industry, the requirements of users on VR devices are also increasing. The current VR equipment has certain difference on fixed and the bandage of power is adjusted, leads to VR equipment to have overall structure complicacy, the inconvenient scheduling problem of bandage regulation, is difficult to satisfy user's experience requirement.

Disclosure of Invention

The application aims to: the embodiment of the application provides a head-mounted device for solving the problems of unfixed battery position and inconvenient regulation of binding bands in the existing VR device; another embodiment of the present application provides a virtual reality device.

The technical scheme is as follows: the embodiment of the application provides a head-mounted device, which comprises:

a strap assembly;

a battery compartment within which at least a portion of the strap assembly is located, the strap assembly being movable relative to the battery compartment; a battery is arranged in the battery compartment and is electrically connected with the binding belt assembly; and

and the limiting assembly is respectively connected with the battery and the binding belt assembly and used for limiting the moving position of the binding belt assembly.

In some embodiments, a portion of the strap assembly is located within the battery compartment, and a portion of the strap assembly located within the battery compartment is extendable from the battery compartment.

In some embodiments, the spacing assembly is movable relative to the battery to adjust the length of the portion of the strap assembly located within the battery compartment that extends beyond the battery compartment.

In some embodiments, the spacing assembly comprises:

the first limiting part is connected with the binding belt assembly;

the second limiting part is connected with the battery;

the first limiting part is in contact with the second limiting part to limit the binding band assembly.

In some embodiments, the first limiting portion is a strap securing assembly that includes a first strap bracket that limits the strap assembly by abutting the second limiting portion.

In some embodiments, the second limiting portion is a battery bracket, and the battery bracket is located in the battery compartment and fixedly connected with the battery; the battery support is provided with a cavity, and the cavity comprises a first limiting surface and a second limiting surface which are used for realizing the abutting.

In some embodiments, the strap assembly includes a first strap, a second strap, and a wire threaded within the second strap; the strap fixing assembly further comprises a second strap support, the first strap support and the second strap support are connected through a connection to form an integral structure with the first strap and the second strap, and the conducting wire is connected with the battery.

In some embodiments, the abutting process comprises: when the first bandage bracket is contacted with the first limiting surface, the part of the first bandage, which is positioned outside the battery compartment, reaches the longest length; when the first bandage support is contacted with the second limiting surface, the part of the second bandage, which is positioned outside the battery compartment, reaches the longest length.

In some embodiments, a terminal for connecting the wire is arranged on the battery, and the terminal is positioned in the cavity; the first bandage bracket is provided with an opening, and the lead passes through the opening to be connected with the terminal.

In some embodiments, the wire is connected to the terminal in a U-shape.

In some embodiments, the battery compartment comprises a battery compartment outer shell and a battery compartment inner shell, the battery compartment inner shell being connected to the battery compartment outer shell by the battery bracket; the battery is fixedly arranged between the battery compartment inner shell and the battery support, and the binding belt assembly is arranged between the battery support and the battery compartment outer shell.

In some embodiments, the battery compartment housing and/or the battery support are provided with a track for receiving the strap assembly and the strap securing assembly, the strap assembly being located within the track and movable relative to the battery.

In some embodiments, the headset further comprises:

the brain support protection pad is fixedly connected with the inner shell of the battery compartment.

In some embodiments, the present application further provides a virtual reality device, including:

a headset; and

and the display assembly is connected with the binding band assembly.

In some embodiments, the strap assembly includes first and second straps connected; one end of the display component is connected with the first binding band, and the other end of the display component is connected with a wire penetrating through the second binding band.

In some embodiments, the first strap includes a first connection portion and a second connection portion; the first connecting portion is fixedly connected with the display assembly, the second connecting portion is connected with the second binding band, a first buckle is arranged between the first connecting portion and the second connecting portion, and the first connecting portion penetrates through the first buckle to adjust tightness of the binding band assembly.

In some embodiments, a second buckle is provided on the display assembly through which the first strap passes to adjust the tightness of the strap assembly.

The beneficial effects are that: compared with the prior art, the head-mounted device of the embodiment of the application comprises: a strap assembly; the battery compartment is provided with at least part of the binding belt assembly which is positioned in the battery compartment and moves relative to the battery compartment; a battery is arranged in the battery compartment and is electrically connected with the binding belt component; and the limiting assembly is respectively connected with the battery and the binding belt assembly and used for limiting the moving position of the binding belt assembly. According to the application, as the binding belt component can move relative to the battery compartment, the binding belt component has a certain movable stroke relative to the battery compartment, so that the adjustment and fixation of the battery relative to the whole structure position are realized; the strap assembly is directly limited through the limiting assembly, so that a simpler structure is provided for fixing a power supply of the head-mounted equipment and adjusting the tightness of the strap; in addition, the lead is arranged in the binding band assembly, so that the lead can be hidden, and the experience look and feel is not affected.

The virtual reality device comprises a head-mounted device and a display assembly, wherein the display assembly is connected with a binding belt assembly in the head-mounted device. Because the battery compartment can perform certain travel activities relative to the bandage component, a user can adjust the position of the bandage component relative to the battery compartment by only one hand when using the bandage component, so that the head circumference size of the user can be met, and the tightness of the bandage is more convenient to adjust; and battery compartment and display module components of a whole body design for the whole weight of VR device is balanced, and the bandage subassembly adopts flexible material, makes user's wearing experience more comfortable, satisfies the design requirement that the VR device is extremely frivolous, experience comfortable, convenient regulation.

Drawings

The technical solution and other advantageous effects of the present application will be made apparent by the following detailed description of the specific embodiments of the present application with reference to the accompanying drawings.

Fig. 1 is an exploded view of a headset according to an embodiment of the present application;

FIG. 2 is a schematic view of a strap-securing assembly provided in an embodiment of the present application;

FIG. 3 is a schematic diagram of a wire arrangement according to an embodiment of the present application;

FIG. 4 is a schematic cross-sectional view of a headset provided in an embodiment of the present application;

fig. 5 is a schematic view of a battery support structure according to an embodiment of the present application;

fig. 6 is a schematic view of a battery structure according to an embodiment of the present application;

fig. 7 is a schematic view of a battery compartment housing provided in an embodiment of the present application;

fig. 8 is a perspective view of a virtual reality device according to an embodiment of the present application;

fig. 9 is an exploded view of a virtual reality device according to an embodiment of the present application;

FIG. 10 is a schematic view of a strap assembly provided in an embodiment of the present application;

FIG. 11 is a schematic view of another strap assembly provided in an embodiment of the present application;

FIG. 12 is a schematic view of a display assembly corresponding to the strap assembly of FIG. 11;

reference numerals: 1-strap assembly, 2-battery compartment, 3-strap securing assembly, 4-display assembly, 101-wire, 102-first strap, 103-second strap, 201-battery, 202-battery support, 203-cavity, 204-battery compartment outer shell, 205-battery compartment inner shell, 206-track, 207-brain support pad, 301-first strap support, 302-second strap support, 401-second buckle, 1021-first connection, 1022-second connection, 1023-first buckle, 2011-terminal, 2031-first limit face, 2032-second limit face, 3011-opening.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. It will be apparent that the described embodiments are only some, but not all, embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to fall within the scope of the application.

In the description of the present application, it should be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Applicant has found that existing VR devices are mainly of the following three types: (1) The battery and the host are integrally designed, and the binding belt only bears the functions of fixing equipment and adjusting tightness, so that the weight of the whole machine is concentrated at one end due to the battery in the whole machine, and wearing experience is heavy; (2) The battery and the whole machine are designed in a split mode, the whole machine and the battery are connected through a power wire harness arranged on the top, the structure leads to the fact that the power wire harness and the binding belt are required to be adjusted, and the wearing process is complex; (3) The battery and the whole machine are designed in a split mode, but the binding belt for fixing is of a rigid structure, the tightness degree of the rigid binding belt needs to be adjusted through a knob in the battery bin, and accordingly the whole weight is heavy, and the wearing comfort is general.

Therefore, the embodiment of the application provides a head-mounted device and a virtual reality device to solve the problems.

Referring to fig. 1, the headgear includes a strap assembly 1, a battery compartment 2, and a strap securing assembly 3; the battery compartment 2 comprises a battery compartment outer shell 204 and a battery compartment inner shell 205, the battery compartment inner shell 205 is fixed on the battery compartment outer shell 204 through screws and buckles, a battery 201 and a battery support 202 are arranged in the battery compartment 2, the battery 201 is fixed on the battery support 201 through buckles and back glue, the battery support 202 is fixedly connected with the battery compartment inner shell 205, the battery 201 is located between the battery compartment inner shell 205 and the battery support 202, and the battery compartment inner shell 205 can protect the battery 201; the strap assembly 1 is arranged between the battery bracket 202 and the battery compartment shell 204, the battery 201 is connected with the lead 101 in the strap assembly 1, part of the strap assembly 1 is positioned in the battery compartment 2, and the part of the strap assembly 1 positioned in the battery compartment 2 can extend out of the battery compartment 2; the strap fixing assembly 3 is fixedly arranged on the strap assembly 1, the strap fixing assembly 3 can move relative to the battery 201, and the length of the strap assembly 1 extending out of the battery compartment 2 is adjusted through movement of the strap fixing assembly 3.

In some embodiments, since the battery 201 is disposed in the battery compartment 2, the battery compartment 2 is located at the rear side of the head of the user after being fixed, and the display assembly 4 is located at the eyes of the user after being fixed, that is, in front of the head of the user, so that the weight balance of the battery compartment 2 and the display assembly 4 can be achieved, the problem of fatigue cannot occur due to long-term use, and the experience of the product is improved.

In some embodiments, strap assembly 1 includes a first strap 102 and a second strap 103, with first strap 102 and second strap 103 connected by strap securement assembly 3; wherein, the first binding band 102 has a structure without wires, and the second binding band 103 has a structure with wires 101 penetrating inside; first strap 102 and second strap 103 are independent and are locked into a complete strap configuration by strap-securing assembly 3. In some embodiments, the strap assembly 1 may also be a unitary design structure.

In some embodiments, the strap assembly 1 may be of unitary construction, with the strap securement assembly 3 mounted on the strap assembly 1 for limiting purposes only; the strap component 1 can also be of a split structure, and the strap fixing component 3 plays roles of locking and fixing the split structure into the integral strap component 1 and limiting the locked strap component 1.

In some embodiments, referring to fig. 2, the strap securement assembly 3 includes a first strap mount 301 and a second strap mount 302; the ends of the first strap 102 and the second strap 103 are perforated, and the corresponding positions of the first strap bracket 301 and the second strap bracket 302 are perforated at the same time, and finally the first strap 102, the second strap 103, the first strap bracket 301 and the second strap bracket 302 are fixed by screws to form a complete strap structure. The position of the openings in the second strap 103 needs to avoid the wires 101 provided therein, the number of openings is not limited, and a structure in which two openings are provided is shown in fig. 2.

In some embodiments, the first strap holder 301 and the second strap holder 302 are sheet-shaped, and by making openings in corresponding positions of the first strap holder 301 and the second strap holder 302 and fixing the openings after aligning the openings, when the first strap holder 301 and the second strap holder 302 are fixed, one ends of the first strap 102 and the second strap 103 are attached and the openings are also provided for alignment and fixing, thereby achieving the locking of the strap fixing assembly 3, the first strap 102 and the second strap 103, and the first strap 102 and the second strap 103 after locking form a unitary structure and do not move relative to each other, and simultaneously when the strap assembly 1 moves relative to the battery compartment 2, the first strap holder 301 and the second strap holder 302 can also move.

In some embodiments, to facilitate connection of the wire 101 to the battery 201, an opening 3011 may be provided in the first strap holder 301, and the wire 101 may be connected to the battery 201 after passing through the opening 3011.

In some embodiments, the structure of the opening 3011 is not limited to a through hole, a through slot, or a gap, as long as the wire 101 can pass through.

In some embodiments, referring to fig. 3, the wire 101 is disposed in the second strap 103, the wire 101 may extend from two sides of the second strap 103, one end of the wire 101 is connected to the main board of the display assembly 4, and the other end is connected to the battery 201; the lead 101 may be connected to the main board or the battery 201 through a terminal 2011, or may be connected to the main board or the battery 201 through soldering. In some embodiments, the number of wires 101 is not limited, and eight wires may be arranged, or ten or more wires may be arranged, as shown in fig. 3. In some embodiments, two of the eight wires are a signal detection wire and a ground wire, respectively, and the other six wires are positive and negative wires, respectively.

In some embodiments, the wires 101 may be woven in during the braiding process or may be threaded in groups after pre-positioning; the group of wires are covered with a layer of flexible material, including cotton, cloth, PU and the like, which is the same as or similar to the material of the binding belt; the material of the wire 101 may be enameled wire or covered wire. The arrangement of the wires 101 in the second strap 103 is not limited.

In some embodiments, the wire 101 performs the power supply function of the battery 201, and since the wire 101 is threaded into the second strap 103, the wire 101 can be hidden in the overall structure, avoiding the influence of the external wires on the head.

In some embodiments, the strap fixing component 3 and the battery bracket 202 together form a limiting component for limiting the strap component 1, so that in order to adjust the length of the strap component 1 extending out of the battery compartment, the strap component 1 needs to be limited in the process that the strap component 1 extends out of the battery compartment 2, and the limiting mode is realized by mutually abutting the strap fixing component 3 and the battery bracket 202.

In some embodiments, referring further to fig. 4 and 5, a cavity 203 is provided in the battery holder 202, and the first strap holder 301 of the strap fixing assembly 3 is located in the cavity 203, and the cavity 203 may be used to form a travel space for the movement of the first strap holder 301 when the strap assembly 1 moves relative to the battery 201. The cavity 203 may also serve as a limit position for limiting movement of the first strap mount 301, and the cavity 203 may include a first limit surface 2031 and a second limit surface 2032, such that when the strap assembly 1 is moved under the influence of an external force, the first strap mount 301 may be moved into contact with the first limit surface 2031 and the second limit surface 2032, respectively, to effect an abutting action.

In some embodiments, when first strap holder 301 is in contact with first limit surface 2031, the portion of first strap 102 that is outside of battery compartment 2 reaches a maximum length, and when first strap holder 301 is in contact with second limit surface 2032, the portion of second strap 103 that is outside of battery compartment 2 reaches a maximum length; the strap assembly 1 is primarily in direct contact with the user's head, so that adjustment of the tightness of the strap assembly 1 in the user's head can be achieved by the adjustment described above.

In some embodiments, when the user's head circumference is large, the strap assembly 1 may be moved by an external force to move the first strap mount 301 in the direction of the second stop surface 2032; when the head circumference of the user is small, the strap assembly 1 can be moved by an external force to move the first strap holder 301 in the direction of the first stopper surface 2031.

In some embodiments, referring to fig. 5 and 6, a terminal 2011 for electrically connecting with the wire 101 is disposed on the battery 201, and the terminal 2011 is disposed in the cavity 203; the wire 101 is connected with the terminal 2011 in a U-shaped manner, the cavity 203 is further used as an accommodating space of the wire 101, sufficient space can be provided for the movement of the wire 101 when the strap fixing assembly 3 moves, and the U-shaped connection mode is further convenient for the wire 101 to stretch or twist in the cavity 203, so that the head circumference size of different users is adapted, and the situations of poor contact of the wire 101 or insufficient movement stroke of the wire 101, which are easily generated in the movement process of the strap assembly 1, are avoided.

In some embodiments, movement of strap assembly 1 is such that it does not interfere with the connection of wire 101, i.e., wire 101 remains connected to terminal 2011 when first strap mount 301 is abutted against first and second stop surfaces 2031 and 2032, respectively. The cavity 203 serves on the one hand as a space for the first strap holder 301 to move, and on the other hand also as a receiving space for the wire 101.

In some embodiments, the movement of the strap assembly 1 can be directly regulated by the strap fixing assembly 3 and the battery bracket 202, and the user can complete the left-right movement regulation of the strap assembly 1 by only one hand under the cooperation of the cavity 203 and the first strap bracket 301 without complicated regulation modes and regulation structures; and the arrangement of the cavity 203 and the first bandage bracket 301 further simplifies the structure in the battery compartment 2, so that the weight of the battery compartment 2 is greatly reduced, and the extremely light and thin design requirement of the virtual reality device is realized.

In some embodiments, referring to fig. 7, a rail 206 is disposed in the middle of the battery compartment housing 204, the rail 206 is used to accommodate the strap assembly 1 and the strap fixing assembly 3, the battery compartment housing 204 and the battery bracket 202 limit the strap assembly 1 in the rail 206 through screw and snap fit, and the strap assembly 1 and the strap fixing assembly 3 can move along the rail 206, which is beneficial to preventing the strap assembly 1 from shifting during movement.

In some embodiments, the track 206 may also be disposed on the battery support 202 at a location corresponding to the strap assembly 1, or the track 206 may be disposed on both the battery support 202 and the battery compartment housing 204, and the track 206 may act as a guide structure to improve the stability of movement of the strap assembly 1.

In some embodiments, referring to fig. 1, a brain support pad 207 is further disposed on one side of the battery compartment inner shell 205, the brain support pad 207 is fixedly connected with the battery compartment inner shell 205, the battery compartment inner shell 205 is used for providing mounting support for the brain support pad 207, the brain support pad 207 is directly contacted with the head of a user, the outer surface of the brain support pad 207 is coated with a soft material, mainly including cloth, PU or dermis, and the like, and a soft filler such as foam or sponge is disposed under the soft material, and a plastic structural member is disposed at the bottom. The brain support pad 207 can be fixed with the battery compartment inner shell 205 by a plastic piece buckle or a magic tape attached on the brain support pad 207, or can be matched and fixed by a magnet respectively arranged in the battery compartment inner shell 205 and a magnetic attraction material of the brain support pad 207.

Referring to fig. 8 and 9, a virtual reality device provided by the present application includes a strap assembly 1, a battery compartment 2, and a display assembly 4; the display assembly 4 is connected with the strap assembly 1, a part of the strap assembly 1 is positioned in the battery compartment 2, and a part of the strap assembly 1 positioned in the battery compartment 2 can extend out of the battery compartment. The wires 101 in the strap assembly 1 can be completely hidden, and the battery compartment 2 can move with a certain stroke relative to the strap assembly 1 so as to adjust the position of the battery compartment 2 relative to the whole virtual reality device.

In some embodiments, referring further to fig. 10, strap assembly 1 includes a first strap 102 and a second strap 103, with a wire 101 disposed within second strap 103, wire 101 being connected to a main board in display assembly 4; the first binding band 102 is not provided with a wire, the whole first binding band 102 is of a two-section structure and comprises a first connecting part 1021 and a second connecting part 1022, wherein one end of the first connecting part 1021 is fixedly connected with the display component 4, one end of the second connecting part 1022 is connected with the second binding band 103, the other end of the second connecting part 1022 is provided with a first binding band 1023, the other end of the first connecting part 1021 penetrates through the first binding band 1023 to be fixed, the fixing mode can be magic tape or snap fastener and the like, and because the binding band component 1 can move relative to the battery compartment 2, the length of the second connecting part 1022 outside the battery compartment 2 can be adjusted by moving the binding band component 1, a user can adjust according to the head circumference of the user in real time, and the binding band component 1 is fixed on the head of the user through the first connecting part 1021 and the first binding band 1023.

In some embodiments, please further refer to fig. 11 and 12, the strap assembly 1 includes a first strap 102 and a second strap 103, a wire 101 is disposed in the second strap 103, the wire 101 is connected with a main board in the display assembly 4, no wire is disposed in the first strap 102, the first strap 102 is integrally formed as a section of structure, a second buckle 401 is disposed at one end of the display assembly 4, at this time, the first strap 102 may pass through the second buckle 401 and be fixed in a manner of a magic tape or a snap fastener, etc., since the strap assembly 1 can move relative to the battery compartment 2, the length of the first strap 102 located outside the battery compartment 2 can be adjusted by moving the strap assembly 1, the user can adjust in real time according to his head circumference, and the strap assembly 1 is fixed on his head through the first strap 102 and the second buckle 401.

In some embodiments, hiding of the wire 101 is achieved by the second strap 103 using the virtual reality device described above; the split design of the battery 201 and the display component 4 is realized through the battery compartment 2, and the weight of the display component 4 and the weight of the battery 201 can be reasonably shared; movement and tightness adjustment of strap assembly 1 is achieved by strap securement assembly 3 and cavity 203 within battery bracket 202; the stability of movement of the strap assembly 1 is improved by the track 206; the virtual reality device can adjust the position of the binding band assembly 1 relative to the battery compartment 2 by only one hand so as to meet the head circumference size of a user, and the tightness adjustment of the binding band assembly 1 is more convenient; and battery compartment 2 and display module 4 components of a whole that can function independently design for virtual reality device's whole weight is balanced, and user's wearing experience is more comfortable.

In some embodiments, the virtual reality device may include VR glasses, VR headset, VR all-in-one, or the like.

In the foregoing embodiments, the descriptions of the embodiments are emphasized, and for parts of one embodiment that are not described in detail, reference may be made to related descriptions of other embodiments.

The above describes in detail a head-mounted device and a virtual reality device provided by the embodiments of the present application, and applies specific examples to illustrate the principles and embodiments of the present application, where the descriptions of the above embodiments are only used to help understand the technical solution and core ideas of the present application; those of ordinary skill in the art will appreciate that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the application.

Claims (14)

1. A headset, comprising:

a strap assembly (1);

a battery compartment (2), at least a portion of the strap assembly (1) being located within the battery compartment (2), the strap assembly (1) being movable relative to the battery compartment (2); a battery (201) is arranged in the battery compartment (2), and the battery (201) is electrically connected with the binding belt assembly (1); and

and the limiting assembly is respectively connected with the battery (201) and the binding band assembly (1) and is used for limiting the moving position of the binding band assembly (1).

2. The headset of claim 1, wherein the limit assembly comprises:

the first limiting part is connected with the binding band assembly (1);

a second limit portion connected to the battery (201);

the first limiting part is in contact with the second limiting part to limit the binding band assembly (1).

3. The headgear according to claim 2, wherein the first limiting portion is a strap fixing assembly (3), the strap fixing assembly (3) comprising a first strap holder (301), the first strap holder (301) limiting the strap assembly (1) by abutting the second limiting portion.

4. A head-mounted device according to claim 3, wherein the second limiting part is a battery bracket (202), the battery bracket (202) being located in the battery compartment (2) and fixedly connected with the battery (201); a cavity (203) is arranged on the battery support (202), and the cavity (203) comprises a first limiting surface (2031) and a second limiting surface (2032) for realizing the abutting.

5. The headgear according to claim 4, wherein the strap assembly (1) comprises a first strap (102), a second strap (103) and a wire (101) threaded into the second strap (103); the strap fixing assembly (3) further comprises a second strap support (302), the first strap support (301) and the second strap support (302) are connected to form a whole structure by locking the first strap (102) and the second strap (103), and the conducting wire (101) is connected with the battery (201).

6. The head set according to claim 5, wherein the battery (201) is provided with terminals (2011) for connecting the wires (101), the terminals (2011) being located within the cavity (203); an opening (3011) is formed in the first strap support (301), and the lead (101) passes through the opening (3011) and is connected with the terminal (2011).

7. The head set according to claim 6, characterized in that the wire (101) is connected in a U-shape with the terminal (2011).

8. The head set according to claim 4, wherein the battery compartment (2) comprises a battery compartment outer housing (204) and a battery compartment inner housing (205), the battery compartment inner housing (205) being connected to the battery compartment outer housing (204) by the battery bracket (202); the battery (201) is fixedly arranged between the battery compartment inner shell (205) and the battery support (202), and the binding band assembly (1) is arranged between the battery support (202) and the battery compartment outer shell (204).

9. The head set according to claim 8, wherein the battery compartment housing (204) and/or the battery holder (202) are provided with a track (206) for accommodating the strap assembly (1) and the strap fixing assembly (3), the strap assembly (1) being located within the track (206) and being movable relative to the battery (201).

10. The headset of claim 8, wherein the headset further comprises:

and the brain support protection pad (207), and the brain support protection pad (207) is fixedly connected with the battery compartment inner shell (205).

11. A virtual reality device, comprising:

the headset of any one of claims 1-10; and

and the display assembly (4) is connected with the binding band assembly (1).

12. The virtual reality device of claim 11, characterized in that the strap assembly (1) includes a first strap (102) and a second strap (103) connected; one end of the display component (4) is connected with the first binding band (102), and the other end of the display component (4) is connected with a wire (101) penetrating through the second binding band (103).

13. The virtual reality device of claim 12, wherein the first strap (102) includes a first connection portion (1021) and a second connection portion (1022); the first connecting part (1021) is fixedly connected with the display assembly (4), the second connecting part (1022) is connected with the second binding band (103), a first buckle (1023) is arranged between the first connecting part (1021) and the second connecting part (1022), and the first connecting part (1021) penetrates through the first buckle (1023) to adjust tightness of the binding band assembly (1).

14. The virtual reality device according to claim 12, characterized in that a second buckle (401) is provided on the display assembly 4, the first strap (102) passing through the second buckle (401) to adjust the tightness of the strap assembly (1).