CN212846146U - Lens hood component and VR glasses subassembly - Google Patents

Abstract

The application relates to electronic equipment technical field especially relates to a lens hood component, includes: the light shield comprises a first light shield with a first light shield part and a second light shield with a second light shield part, wherein the first light shield and the second light shield are detachably connected; the first light shield is connected with the second light shield, and the first light shield and the second light shield coat the periphery of the light shield component, so that the light shield component meets the experience requirement of an immersive scene. The first light shield is disconnected from the second light shield, and the first light shield shields part of the light shield components, so that the light shield components meet the experience requirements of environment perception scenes. Through the dismantlement and being connected of first lens hood and second lens hood, can satisfy the lens hood component and carry out the switching of immersive scene and environment perception scene, only need carry this lens hood component and can satisfy the demand of different use scenes through the assembled state of difference.

Description

Lens hood component and VR glasses subassembly

Technical Field

The application relates to VR glasses technical field especially relates to a lens hood component and VR glasses subassembly.

Background

Virtual reality head-mounted display equipment (VR glasses) is a product which utilizes a plurality of technologies such as simulation technology and computer graphics man-machine interface technology multimedia technology sensing technology network technology, and is a brand-new man-machine interaction means created by means of computers and latest sensor technology. VR glasses have the higher optical display module that requires, have led to whole VR glasses's volume and quality to be greater than ordinary glasses, and the bridge of the nose of ordinary glasses, the ear mode of bearing can't be suitable for, need the certain distance that eyes kept to the display module assembly of VR glasses for guaranteeing optical effect simultaneously, so present VR glasses all adopt the lens hood component to support and guarantee the eye distance. However, the lens hood members of these VR glasses are bulky and heavy, and have only one state, and cannot meet the requirements of immersion type and environmental perception.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a lens hood component and VR glasses subassembly, can satisfy the demand of two kinds of scenes of immersive and environmental perception.

The above and other objects are achieved by the features of the independent claims. Further implementations are presented in the dependent claims, the description and the drawings.

The present application provides in a first aspect a light shield member comprising: the light shield comprises a first light shield and a second light shield, wherein the first light shield is provided with a first side wall and a first body, the first side wall is arranged on the periphery of the first body, and a part of the first light shield is provided with a first light shielding piece;

the second light shield is provided with a second side wall and a second body, the second side wall is arranged on the periphery of the second body, and at least part of the second light shield is provided with a second light shielding piece;

the first light shield is detachably connected with the second light shield;

when the first light shield is connected with the second light shield, the first body and the second body are correspondingly arranged, and the first light shield and the second light shield cover the periphery of the light shield component, so that the light shield component has a first state;

when the first light shield is disconnected from the second light shield, the first light shield covers a part of the periphery of the light shield member, so that the light shield member has a second state.

In the light shield component that this application provided, when first light shield and second light shield are connected and constitute the light shield component, the light shield component has first state, can satisfy the experience requirement of immersive scene. When the first light shield and the second light shield are disconnected, the light shield component has a second state, and the experience requirement of an environment perception scene can be met. Through the dismantlement and being connected of first lens hood and second lens hood, can satisfy the lens hood component and carry out the switching of immersive scene and environment perception scene, only need carry this lens hood component and can satisfy the demand of different use scenes through the assembled state of difference, its accommodation space is little, and the portability is better.

In one possible implementation, when the shade member is in the first state, a projection of the first shade and a projection end of the second shade abut in a thickness direction of the shade member.

In the above scheme, the projection of the first shading part is in butt joint with the projection end part of the second shading part, so that the periphery of the shading cover component is light-tight.

In one possible implementation, when the shade member is in the first state, a projection of the first shade and a projection of the second shade overlap in a thickness direction of the shade member.

In the above scheme, the projection of first light-shielding piece overlaps with the projection part of second light-shielding piece, can further avoid light to get into through the gap between first light-shielding piece and the second light-shielding piece, has improved the shading effect.

In one possible implementation, the first side wall has a top portion along a height direction of the shade member, and the first shade is disposed on the top portion.

In the above scheme, first lens-shading piece sets up in the top, can play the effect of shading to the top of lens-shading cover component, when first lens-shading cover used alone, can satisfy the experience demand in environment perception scene.

In a possible implementation, the second side wall has an opening along a height direction of the shade member, the opening corresponding to the top when the shade member is in the first state; the first light shielding member covers the opening.

In the above scheme, the first light shading part can cover the opening, and the periphery of the light shading component is covered by the first light shading part and the second light shading part together, so that the periphery of the light shading component is light-tight.

In a possible implementation, the shape of the inner wall of the first side wall is adapted to the shape of the outer wall of the second side wall.

In the above scheme, after the first light shield and the second light shield are connected, the first side wall and the second side wall can be attached, and the thickness of the side wall of the light shield component is reduced.

In a possible implementation manner, the inner wall shape of the first side wall and the outer wall shape of the second side wall are both provided with arc shapes.

In the above scheme, the light shield component can be adapted to the face shape of the user, so that the user does not feel uncomfortable, and the user experience can be improved.

In one possible implementation, when the shade member is in the first state, a ventilation channel is formed between the first shade and the second shade.

In the above scheme, outside air can get into inside the lens hood through ventilation channel, can make the humiture of lens hood internal and external environment unanimous basically, when satisfying the shading effect, can also improve lens atomization phenomenon and the long-time uncomfortable problem of facial damp and hot of wearing of user.

In a possible implementation, when the shade members are in the first state, the first shade and the second shade are connected by a magnetic member that attracts each other.

In the above scheme, the light shield component has the advantage of convenient disassembly.

In a possible implementation manner, when the light shield is in the first state, the first light shield is clamped with the second light shield.

In the above scheme, the light shield component has the advantage of convenient disassembly.

A second aspect of the present application provides a VR glasses assembly comprising glasses and a light shield member as described in any of the above; the glasses are detachably connected with the first light shield.

In the VR glasses subassembly that this application provided, when first lens hood and second lens hood are connected and constitute the lens hood component, the lens hood component has first state, can satisfy the experience requirement of immersive scene. When the first light shield and the second light shield are disconnected, the light shield component has a second state, and the experience requirement of an environment perception scene can be met. Through the dismantlement and being connected of first lens hood and second lens hood, can satisfy the lens hood component and carry out the switching of immersive scene and environment perception scene, only need carry this lens hood component and can satisfy the demand of different use scenes through the assembled state of difference, its accommodation space is little, and the portability is better.

In addition, glasses and first lens hood detachably are connected, and glasses can also the exclusive use, have increased VR glasses subassembly's application scope.

In one possible implementation, the eyeglasses and the first light shield are connected by mutually attracting magnetic members.

In the above-mentioned scheme, VR glasses subassembly has the convenient advantage of dismantlement.

In one possible implementation, the glasses are snap-fitted with the first light shield.

In the above-mentioned scheme, VR glasses subassembly has the convenient advantage of dismantlement.

In one possible implementation, the glasses comprise a frame and a lens, wherein the frame is provided with a convex part; the first body comprises a hollow part, and the protruding part can extend into the hollow part to connect the glasses with the first light shield.

In the above scheme, when the protruding part extends into the hollow part, the protruding part can support the hollow part, and the first light shield is prevented from falling off.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

Fig. 1 is a schematic structural diagram of a VR glasses assembly provided by an embodiment of the present application;

fig. 2 is an exploded view of a VR glasses assembly provided by an embodiment of the present application;

fig. 3 is a state diagram of the first shade and the second shade of the shade member according to the embodiment of the present disclosure after being assembled;

fig. 4 is a schematic structural view of a first light shield of the light shield member according to the embodiment of the present application;

fig. 5 is a schematic structural view of a second light shield of the light shield member according to the embodiment of the present application;

fig. 6 is a state view of the first shade and the second shade of the shade member according to another embodiment of the present disclosure after assembly;

10-a light shield member;

11-a first light shield;

111-a first shade;

112-a first side wall;

112 a-top;

113-a first body;

113 a-hollow;

114-a first magnetic element;

12-a second light shield;

121-a second light-shielding member;

122-a second sidewall;

122 a-opening;

123-a second body;

124-a second magnetic element;

13-a ventilation channel;

20-glasses;

21-a frame;

211-a boss;

22-a lens;

23-third magnetically attracted piece.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

Detailed Description

For better understanding of the technical solutions of the present application, the following detailed descriptions of the embodiments of the present application are provided with reference to the accompanying drawings.

It should be clear that the described embodiments are only a few embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be noted that the terms "upper", "lower", "left", "right", and the like used in the embodiments of the present application are described in terms of the angles shown in the drawings, and should not be construed as limiting the embodiments of the present application. In addition, in this context, it will also be understood that when an element is referred to as being "on" or "under" another element, it can be directly on "or" under "the other element or be indirectly on" or "under" the other element via an intermediate element.

In one embodiment, the present application is described in further detail below with reference to specific embodiments and accompanying drawings.

The existing VR glasses generally comprise lenses and light shields, the VR glasses have two scenes of immersion type and environment perception, the existing light shields are too bulky and heavy, and are only suitable for the scene, so that the requirements of the two scenes cannot be met. When two kinds of scenes of needs perception, then need carry two kinds of lens shields or two kinds of VR glasses, this greatly increased the required space of accomodating of lens shield or VR glasses, the portability is relatively poor.

In order to solve the technical problem, as shown in fig. 1, an embodiment of the present application provides a VR glasses assembly, which includes glasses 20 and a shade member 10, wherein the glasses 20 and the shade member 10 are detachably connected together, the glasses 20 can be worn separately when a user does not need to shade light, and the glasses 20 and the shade member 10 can be worn after being assembled when the user needs to shade light.

As shown in fig. 2, in the VR glasses assembly provided by the embodiment of the present application, the lens hood member 10 includes the first lens hood 11 and the second lens hood 12 connected to each other, and when light shielding is needed, a user may choose to wear only the first lens hood 11 and the glasses 20, or only the second lens hood 12 and the glasses 20, or wear the first lens hood 11 and the second lens hood 12 and then connect them to the glasses 20.

The eyeglasses 20 may include a frame 21 and lenses 22 or may include only the lenses 22. When the eyewear 20 includes only the lenses 22, the lenses 22 are mounted to the shade member 10, and the VR glasses assembly formed thereby can be mounted on a VR device. When the eyeglasses 20 include a frame 21 and lenses 22, a user can wear the VR glasses assembly on the face.

Optionally, the glasses 20 are detachably connected with the first light shield 11 to achieve various use states of the VR glasses assembly.

In a specific embodiment, the eyeglasses 20 are coupled to the first light shield 11 by means of attractive magnetic elements. Specifically, the first light shield 11 can be provided with a first magnetic attraction piece 114, the glasses 20 can be provided with a third magnetic attraction piece 23, and the third magnetic attraction piece 23 can be provided on the glasses frame 21. The first magnetic member 114 and the third magnetic member 23 can be attracted to connect the first light shield 11 and the eyeglasses 20.

First magnetism is inhaled piece 114 and third magnetism and is inhaled piece 23 and can be magnet, and the inter attraction through magnet adsorbs first lens hood 11 and glasses 20, and first magnetism is inhaled piece 114 and third magnetism and is inhaled piece 23 and all be two to improve the fastness after first lens hood 11 is connected with glasses 20, still have the convenient advantage of dismantlement simultaneously.

In another embodiment, the eyeglasses 20 may also snap into engagement with the first lens hood 11. First lens hood 11 can be provided with the buckle, can be provided with the draw-in groove on glasses 20's the mirror holder 21, after buckle and draw-in groove joint, can be connected first lens hood 11 and glasses 20, has the convenient advantage of dismantlement.

In a specific embodiment, the frame 21 is provided with a protrusion 211 arranged side by side along the width direction (X) of the frame 21 for receiving and mounting the lens 22, and the lens 22 is arranged corresponding to the eyes of the user when the user wears the glasses 20.

In a specific embodiment, the first light shield 11 and the second light shield 12 may also be connected by mutually attracting magnetic members. Specifically, the first light shielding cover 11 may be provided with a first magnetic attraction piece 114, the second light shielding cover 12 may be provided with a second magnetic attraction piece 124, and the first magnetic attraction piece 114 and the second magnetic attraction piece 124 can connect the first light shielding cover 11 and the second light shielding cover 12 after being attracted.

As shown in fig. 3, the light shield member 10 is shown after the first light shield 11 is connected to the second light shield 12.

As shown in fig. 4, the first light shield 11 includes a first sidewall 112 and a first body 113, the first sidewall 112 is disposed at an outer periphery of the first body 113, a portion of the first sidewall 112 is provided with a first light shielding member 111, and the first light shielding member 111 may be a light shielding cloth.

In a specific embodiment, along the height direction (H) of the light shielding cover member 10, the first sidewall 112 has a top 112a, and the first light shielding member 111 is disposed on the top 112a, so as to shield the top 112a of the light shielding cover member 10, and when the first light shielding cover 11 is used alone, the experience requirement of the environmental perception scene can be satisfied.

The first light shielding member 111 can also shield a small portion of the first sidewall 112, so that the first light shielding cover 11 is mostly transparent.

In a specific embodiment, the first body 113 includes a hollow portion 113a, and referring to fig. 2, the protrusion 211 can extend into the hollow portion 113a to connect the glasses 20 with the first light shield 11, and when the protrusion 211 extends into the hollow portion 113a, the protrusion 211 can support the hollow portion 113a to prevent the first light shield 11 from falling off.

As shown in fig. 5, the second light-shielding cover 12 includes a second sidewall 122 and a second body 123, the second sidewall 122 is disposed on the periphery of the second body 123, at least a portion of the second sidewall 122 is disposed with a second light-shielding member 121, and the second light-shielding member 121 can shield a majority of the second light-shielding cover 12, so that the second light-shielding cover 12 is in a state of transmitting a small portion of light.

Referring to fig. 3 to 5, when the first light-shielding cover 11 and the second light-shielding cover 12 are connected to form the light-shielding cover member 10, the first light-shielding member 111 and the second light-shielding member 121 cover the periphery of the light-shielding cover member 10, and the periphery of the light-shielding cover member 10 is not transparent, so that the light-shielding cover member 10 has a first state, and meets the experience requirement of the immersive scene.

When the first light shield 11 and the second light shield 12 are disconnected, the first light shield 111 can shield part of light, most of the periphery of the light shield member 10 can transmit light, and the light shield member 10 has the second state, so that the experience requirement of an environment perception scene (non-immersive scene) can be met.

Through the dismantlement and being connected of first lens hood 11 and second lens hood 12, can satisfy lens hood component 10 and carry out the switching of immersive scene and environmental perception scene, consequently, through setting up first lens hood 11 and second lens hood 12, through the installation and the combination of difference, satisfy different application scenes, its storage space has been saved, has promoted the portability.

In addition, the second light shield 12 can be directly attached to the face of the user, and the specific shape of the second light shield 12 is not limited, and can be set into various forms so as to meet the requirements of wearing of users with different face shapes and head shapes and improve the comfort.

In one embodiment, when the light shielding member 10 is in the first state, the projection of the first light shielding member 111 and the projection end of the second light shielding member 121 are abutted along the thickness direction (Y) of the light shielding member 10, so that the light shielding member 10 is opaque around.

Alternatively, when the light shielding member 10 is in the first state, along the thickness direction (Y) of the light shielding member 10, the projection of the first light shielding member 111 overlaps with the projection of the second light shielding member 121, so as to further prevent light from entering through the gap between the first light shielding member 111 and the second light shielding member 121, thereby improving the light shielding effect.

In one embodiment, as shown in fig. 5, the second sidewall 122 has an opening 122a along the height direction (H) of the second light shielding member 12, and referring to fig. 4 and 5, when the light shielding member 10 is in the first state, the opening 122a corresponds to the top 112a, so as to provide a receiving space for the first light shielding member 111, and the first light shielding member 111 covers the opening 122 a.

In a specific embodiment, the inner wall shape of the first sidewall 112 is adapted to the outer wall shape of the second sidewall 122. After the first light shield 11 and the second light shield 12 are connected, the first sidewall 112 and the second sidewall 122 can be attached to each other, so that the thickness of the sidewall of the light shield member 10 is reduced, and the light shield member 10 is thinner.

The inner wall shape of the first side wall 112 and the outer wall shape of the second side wall 122 may both be set to be arc-shaped to fit the face shape of the user, so that the user does not feel uncomfortable, and the user experience can be improved.

As shown in fig. 6, when the shade member 10 is in the first state, a ventilation channel 13 is formed between the first shade 11 and the second shade 12.

Because VR glasses among the prior art are when immersive experiencing, in order to realize the shading effect, airtight between user's eye and the display module (lens) of VR glasses, in such airtight space for a long time, the user perspires easily, and VR glasses also can generate heat after long-time the use in addition, and airtight space leads to the heat can't release to the external world, and the easy fog on the lens, and user's eye can be more and more hot, and user experience feels relatively poor.

The ventilation channel 13 is arranged, so that outside air can enter the interior of the light shield member 10 through the ventilation channel 13, and at the moment, the temperature and humidity of the inner environment and the outer environment of the light shield member 10 are basically consistent, so that the light shielding effect is met, and the atomization phenomenon of the lens 22 and the discomfort of the face of a user due to damp and hot after wearing the lens for a long time can be improved.

The specific use flow of VR glasses subassembly that this application embodiment provided is as follows:

when the immersion scene experience is needed, the first light shield 11 and the second light shield 12 are firstly combined into the light shield member 10, and then the light shield member 10 is assembled with the glasses 20 to obtain the VR glasses assembly. The user wears VR glasses subassembly and carries out the experience of immersive scene, experiences the back that finishes, puts into the receiver with whole VR glasses subassembly, experiences the process and accomplishes.

When the environment perception experience is needed, the second light shield 12 can be detached from the light shield member 10, the second light shield 12 is placed in the storage box, and then the first light shield 11 and the glasses 20 are assembled to obtain the VR glasses assembly. The user wears VR glasses subassembly and carries out the experience of environment perception scene, experiences the back that finishes, installs second lens hood 12 on first lens hood 11 again, then puts into the receiver with whole VR glasses subassembly, experiences the process and accomplishes.

It is understood that the illustrated structure of the embodiments of the present application does not constitute a specific limitation to the VR glasses assembly. In other embodiments of the present application, the VR glasses assembly may include more or fewer components than shown, or combine certain components, or split certain components, or a different arrangement of components.

It is noted that a portion of this patent application contains material which is subject to copyright protection. The copyright owner reserves the copyright rights whatsoever, except for making copies of the patent files or recorded patent document contents of the patent office.

Claims (13)

1. A light shield member (10), comprising:

a first light shield (11), wherein the first light shield (11) comprises a first side wall (112) and a first body (113), the first side wall (112) is arranged at the periphery of the first body (113), and a part of the first side wall (112) is provided with a first light shielding piece (111);

a second light shield (12), wherein the second light shield (12) comprises a second side wall (122) and a second body (123), the second side wall (122) is arranged at the periphery of the second body (123), and at least part of the second side wall (122) is provided with a second light shield (121);

the first light shield (11) is detachably connected with the second light shield (12);

when the first light shield (11) is connected with the second light shield (12), the first body (113) and the second body (123) are correspondingly arranged, and the first light shield (111) and the second light shield (121) cover the periphery of the light shield component (10), so that the light shield component (10) has a first state;

when the first shade (11) and the second shade (12) are disconnected, the first shade (111) covers a part of the periphery of the shade member, so that the shade member (10) has a second state.

2. A light shield member (10) according to claim 1, wherein a projection of the first light shield member (111) and a projection end of the second light shield member (121) abut in a thickness direction (Y) of the light shield member (10) when the light shield member (10) is in the first state.

3. A light shield member (10) according to claim 1, characterized in that, when the light shield member (10) is in the first state, a projection of the first light shield (111) and a projection of the second light shield (121) partially overlap in a thickness direction (Y) of the light shield member (10).

4. A light shield member (10) according to claim 1, wherein the first side wall (112) has a top portion (112a) in a height direction (H) of the light shield member (10), the first light shield (111) being provided to the top portion (112 a).

5. A light shield member (10) according to claim 4, characterized in that, in a height direction (H) of the light shield member (10), the second side wall (122) has an opening (122a), the opening (122a) corresponding to the top portion (112a) when the light shield member (10) is in the first state;

the first light shielding member (111) covers the opening (122 a).

6. A light shield member (10) according to any one of claims 2-5, wherein the inner wall shape of the first side wall (112) is adapted to the outer wall shape of the second side wall (122).

7. A light shield member (10) according to any one of claims 1-5, characterized in that a ventilation channel (3) is formed between the first light shield (11) and the second light shield (12) when the light shield member (10) is in the first state.

8. A light shield member (10) according to any one of claims 1 to 5, wherein the first light shield (11) and the second light shield (12) are connected by mutually attractive magnetic members when the light shield member (10) is in the first state.

9. A light shield member (10) according to any one of claims 1-5, wherein the first light shield (11) is in engagement with the second light shield (12) when the light shield is in the first state.

10. A VR glasses assembly, comprising glasses (20) and a light shield member (10) of any one of claims 1-9;

the spectacles (20) are detachably connected to the shade member (10).

11. The VR glasses assembly of claim 10, wherein the glasses (20) and the first light shield (11) are connected by mutually attractive magnetic pieces.

12. The VR glasses assembly of claim 10, wherein the glasses (20) snap-fit to the first light shield (11).

13. The VR glasses assembly of claim 10, wherein the glasses (20) include a frame (21) and a lens (22), the frame (21) being provided with a boss (211);

the first body (113) comprises a hollow part (113a), and the convex part (211) can extend into the hollow part (113a) to connect the glasses (20) with the first light shield (11).

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