CN219085226U - VR glasses accessory and VR glasses - Google Patents

Abstract

The utility model discloses a VR glasses accessory and VR glasses, which comprise a mask frame and a heat dissipation device, wherein the mask frame is provided with an air inlet channel, a first air outlet channel and a groove; the cooling device is provided with an air outlet hole, an air inlet hole and a buckling part matched with the groove, wherein the air outlet hole is communicated with the air inlet hole, the buckling part is positioned beside the air inlet hole, the air inlet hole is communicated with a first air outlet channel, the cooling device is arranged on a mask frame through the matching of the buckling part and the groove, the air inlet channel, the first air outlet channel, the groove, the cooling device, the air outlet hole and the corresponding matching of the air inlet hole can be used for controlling the air flowing direction in a chamber, so that the air flows in the chamber in a rotating way, and stronger air circulation is obtained, thereby preventing the inner mirror surfaces of VR glasses from fogging, and greatly improving the face comfort of a user.

Description

VR glasses accessory and VR glasses

Technical Field

The utility model relates to the technical field of VR (virtual reality) eyeglass accessories, in particular to a VR eyeglass accessory and VR eyeglasses.

Background

VR is virtual reality technology, utilizes computer technology to simulate and generate a three-dimensional virtual environment on the display screen, makes the user immerse in this environment, and main VR equipment on the existing market comprises VR glasses and VR control handle, and VR glasses are responsible for information calculation and image display function, and the VR handle then is the intermediary that the user interacted in virtual world.

Along with the popularization of VR equipment and the content of VR platform are constantly abundant, the time that the user used VR equipment also increases gradually, and current VR glasses on the market at present in the in-service use, because VR glasses are laminated with the face, form a sealed space environment, when the user uses for a long time or the user strenuous exercise, the lens fog situation of VR glasses appears easily, the user also can appear the feeling that the face was stuffy simultaneously, the condition of sweating can appear around making people's eyes, the actual VR of user experiences the effect very poor.

Later on, a heat dissipation device for VR glasses appears on the market, for example CN110376745a, which comprises an outer shell, an inner shell and a display, wherein the outer shell is covered on the periphery of the inner shell, the display is arranged at the front end of the inner shell, the outer shell is away from the display and is provided with a fixing device for wearing VR glasses, an air inlet pipeline and an air outlet pipeline are arranged between the outer shell and the inner shell, the top of the outer shell is provided with a placing groove, an air suction device is arranged in the placing groove, the air inlet pipeline is in a bending structure, one end of the air inlet pipeline is communicated with the bottom of the inner shell, the other end of the air inlet pipeline extends to the outer shell surface and is communicated with the outside, one end of the air outlet pipeline is communicated with the surface of the inner shell, the other end of the air outlet pipeline is communicated with the bottom of the placing groove, the air outlet pipeline is attached to the surface of the inner shell in a bending structure, and dissipates heat of VR glasses through the heat dissipation structure, and can not influence normal use of VR glasses, but the air inlet pipeline is made of copper or aluminum material, and the air inlet pipeline is in a bending structure and the air inlet pipeline is attached to the surface of the inner shell, and the air inlet pipeline is in a bending structure and is attached to the surface of the inner shell, so that the VR glasses is not convenient to wear by people; also, because the air-out pipeline and the air inlet pipeline are curved structures and are attached to the surface of the inner shell, in the process of assembling the air-out pipeline and the air inlet pipeline with the inner shell, one end of the air-out pipeline is required to be connected with the inner shell, and then the air-out pipeline and the air inlet pipeline are attached to the surface of the inner shell through the adhesive.

Therefore, a new technical solution is needed to solve the above problems.

Disclosure of Invention

In view of the above, the present utility model aims at overcoming the drawbacks of the prior art, and its main objective is to provide a VR glasses fitting and VR glasses, which are configured by the VR glasses fitting, that is, by means of structural design and cooperation of a mask frame and a heat dissipating device, and by means of cooperation of an air inlet channel, a first air outlet channel, a groove, a heat dissipating device, an air outlet hole and an air inlet hole, the direction of air entering a chamber can be controlled, so that the air can flow in the chamber in a rotating way, and a stronger air circulation is obtained, thereby preventing the internal mirror surface of the VR glasses from fogging, and greatly improving the face comfort of a user.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the VR glasses fitting comprises a mask frame and a heat dissipation device, wherein the mask frame is used for being abutted against the face of a user, and the mask frame is provided with an air inlet channel, a first air outlet channel and a groove;

the heat abstractor has the apopore of intercommunication, fresh air inlet and with recess looks adaptation buckle portion, buckle position is located the side of fresh air inlet and is other, the fresh air inlet communicates in first air-out passageway, heat abstractor installs on the face guard frame through the cooperation of buckle portion and recess, and detachable design is convenient for change or clean in the user.

As a preferred scheme, still including the cushion that is used for with user's facial contact and the nose pad that is used for corresponding user's nose shading, cushion and face guard frame profile modeling design and detachable set up on the periphery of face guard frame, the cushion passes through the magic subsides and sets up on the periphery of face guard frame, nose pad detachable sets up on the face guard frame and is located the below of first air-out passageway, and the cushion acts on user's facial part, needs long-time laminating user's face, and the existence of nose pad reducible user's light leak phenomenon when wearing VR glasses promotes the immersion experience when using by a wide margin and feels.

As a preferred scheme, the below of face guard frame has first connecting portion towards one side of contact surface, correspondingly, the nose pad is last to be provided with the second connecting portion corresponding first connecting portion department, the nose pad is through the detachable setting of cooperation of first connecting portion and second connecting portion on the face guard frame, detachable design, is convenient for user's change or clean.

As a preferable scheme, the heat dissipating device comprises an upper cover, a baffle support frame and a lower cover, wherein the upper cover and the lower cover are respectively positioned on the upper side and the lower side of the baffle support frame and are connected into a whole; the lower extreme of upper cover has block groove, first spliced pole and second spliced pole, apopore, fresh air inlet all set up on the baffle support frame, correspond second spliced pole department on the baffle support frame and be provided with first spliced pole, correspondingly, lower cover top corresponds first spliced pole, first spliced pole and fresh air inlet department and is provided with second spliced pole, third spliced pole and dodges the hole respectively, first spliced pole adaptation is in the second spliced pole, the second spliced pole passes first spliced pole and third spliced pole in proper order, the fresh air inlet stretches into dodges the hole and exposes outside the lower cover.

As a preferred scheme, upper cover, baffle support frame and lower cover enclose to construct and become air-out subassembly installation position, be provided with the air-out subassembly in the air-out subassembly installation position, the apopore sets up on the air-out subassembly, the top of air-out subassembly corresponds clamping groove department and is provided with the block portion, the air-out subassembly sets up on the upper cover and exposes in the outside of upper cover and lower cover through the cooperation of block portion and block groove.

As a preferred scheme, the top of baffle support frame has the second air-out passageway, apopore, fresh air inlet all communicate in the second air-out passageway, promotes the efficiency of ventilation, lets the condition of ventilation can not be influenced by other subassemblies, and is more smooth and easy unobstructed, better exhaust inside sultry air.

As a preferred scheme, the heat dissipating device further comprises a light guiding member, a light emitting member, a fan assembly, a circuit board, a switch pressing member and a battery, wherein the circuit board is electrically connected to the light guiding member, the light emitting member, the fan assembly, the light emitting member and the battery respectively; the fan assembly, the circuit board and the battery are respectively installed in the fan assembly installation position, the circuit board installation position and the battery installation position, the circuit board is provided with a switch pressing piece and a Type-C port, the upper cover is provided with a switch hole, a Type-C hole and a light guide hole corresponding to the light guide piece, the switch pressing piece and the Type-C port, and the light guide piece, the switch pressing piece and the Type-C port are exposed out of the upper cover.

As a preferred scheme, the side of the groove is provided with a clamping convex part which is used for being matched with the clamping groove.

The utility model provides a VR glasses, including the VR glasses body, the VR glasses body has the contact surface towards user's face, detachable be provided with above-mentioned VR glasses accessory on the VR glasses body, VR glasses accessory detachable sets up in the periphery of contact surface.

As a preferred scheme, VR glasses body and VR glasses accessory enclose the configuration and form the cavity, air inlet channel, first air-out passageway communicate in the cavity, the contact surface periphery of VR glasses body has the draw-in groove, the face guard frame is through the cooperation detachable setting of draw-in groove with the draw-in groove on the VR glasses body.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, in particular, the technical proposal shows that the utility model mainly adopts the arrangement of VR glasses fittings, namely the structural design and the matching of a mask frame and a heat dissipating device, wherein the mask frame is provided with an air inlet channel, a first air outlet channel and a groove, and the air inlet channel and the first air outlet channel are communicated in a cavity; the cooling device is provided with an air outlet hole, an air inlet hole and a clamping part matched with the groove, wherein the air outlet hole is communicated with the air inlet channel, the cooling device is arranged on the mask frame through the matching of the clamping part and the groove, and the air inlet channel, the first air outlet channel, the groove, the cooling device, the air outlet hole and the corresponding matching of the air inlet hole can control the air flowing direction in the cavity, so that the air can flow in the cavity in a rotating way to obtain stronger air circulation, thereby preventing the inner mirror surfaces of the VR glasses from fogging and greatly improving the face comfort of a user.

In addition, the design of the air outlet-free pipeline and the air inlet pipeline is adopted, so that the overall weight is reduced, and the problems that the overall weight of VR glasses is increased due to the fact that the air outlet pipeline and the air inlet pipeline are relied on in the prior art, the wearing and the assembling are inconvenient are solved.

Meanwhile, the design scheme of the air outlet-free pipeline and the air inlet pipeline is beneficial to controlling the production cost and further improving the market promotion competitiveness of the product.

In order to more clearly illustrate the structural features and efficacy of the present utility model, the present utility model will be described in detail below with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a perspective view of an embodiment of the present utility model;

FIG. 2 is another perspective view of an embodiment of the present utility model;

FIG. 3 is an exploded view of an embodiment of the present utility model;

FIG. 4 is another exploded view of an embodiment of the present utility model;

FIG. 5 is a schematic view of a VR glasses fitting of an embodiment of the present utility model;

FIG. 6 is an exploded view of an embodiment VR glasses accessory of the present utility model;

FIG. 7 is a structural view of an upper cover according to an embodiment of the present utility model;

FIG. 8 is a cross-sectional view of a heat sink according to an embodiment of the present utility model.

The attached drawings are used for identifying and describing:

10. VR glasses body 11, contact surface

12. Chamber 13, clamping groove

20. Mask frame

201. Air inlet channel 202 and first air outlet channel

203. Groove 204, first connecting portion

205. Clamping convex part

22. Cushion 23, nose pad

231. Second connecting portion 30 and heat dissipating device

31. Air outlet 32 and air inlet

33. Fastening part 34, upper cover

35. Baffle support 36, lower cover

341. Engagement groove 342, first connecting column

343. Second connecting post 344, switch hole

345. Type-C hole 346, light guide hole

351. First connecting hole 352 and fan assembly mounting position

353. Circuit board mounting location 354 and battery mounting location

355. Second air outlet channel

361. Second and third connection holes 362 and 362

363. Avoidance hole

37. Air-out subassembly installation position 371, air-out subassembly

372. Engaging portion 38, light guide

39. Luminous element 39A and fan assembly

39B, circuit board 39C, switch pressing member

39D, battery.

Detailed Description

Referring to fig. 1 to 8, specific structures of embodiments of the present utility model are shown.

In the description of the present utility model, it should be noted that, for the azimuth words, terms such as "upper", "lower", "front", "rear", "left", "right", etc., indicate azimuth and positional relationships as shown based on the drawings or when worn normally, only for convenience of describing the present utility model and simplifying the description, but do not indicate or imply that the device or element to be referred must have a specific azimuth, be configured and operated in a specific azimuth, and should not be construed as limiting the specific protection scope of the present utility model.

A VR glasses fitting comprises a mask frame 20 and a heat sink 30.

The mask frame 20 is used for abutting against the face of a user; the heat dissipating device 30 is detachably disposed on the mask frame 20.

The surface frame 20 is provided with an air inlet channel 201, a first air outlet channel 202 and a groove 203, and the air inlet channel 201 and the first air outlet channel 202 are communicated in the chamber 12; the side of the lower part of the mask frame 20 facing the contact surface 11 is provided with a first connecting part 204, and the side of the groove 203 is provided with a clamping convex part 205 for adapting to the clamping groove 13.

The face guard frame 20 is still including being used for with the cushion 22 of user's facial contact and being used for corresponding the position of user's nose in order to carry out the nose pad 23 of shading in user's nose department, cushion 22 and face guard frame 20 profile modeling design and detachable set up on the periphery of face guard frame 20 contact surface 11, cushion 22 sets up on the periphery of face guard frame 20 contact surface 11 through the magic subsides, nose pad 23 detachable sets up on face guard frame 20 and is located the below of first air-out passageway 202, and cushion 22 acts on user's facial part, needs long-time laminating user's face, and the existence of nose pad 23 reducible user's light leak phenomenon when wearing VR glasses promotes the experience sense of immersing when using by a wide margin. Preferably, the cushion 22 is made of PU or cotton. Can greatly improve the skin-friendly comfort and wearing comfort. The cushion 22 is not limited to PU or cotton, but may be made of other materials, and is only required to be set according to actual production requirements, which is not described herein. Correspondingly, the nose pad 23 is provided with a second connecting portion 231 corresponding to the first connecting portion 204, and the nose pad 23 is detachably disposed on the mask frame 20 through the cooperation of the first connecting portion 204 and the second connecting portion 231, so that the user can conveniently replace or clean the mask frame.

The heat dissipating device 30 has an air outlet 31, an air inlet 32 and a fastening portion 33 adapted to the groove 203, the fastening portion 33 is located beside the air inlet 32, the air inlet 31 is connected to the air inlet 201, and the heat dissipating device 30 is mounted on the mask frame 20 through the cooperation of the fastening portion 33 and the groove 203.

The heat dissipating device 30 comprises an upper cover 34, a partition board supporting frame 35 and a lower cover 36, wherein the upper cover 34 and the lower cover 36 are respectively positioned on the upper side and the lower side of the partition board supporting frame 35 and are connected into a whole; the lower end of the upper cover 34 has a clamping groove 341, a first connection post 342 and a second connection post 343, the upper cover 34 is provided with a switch hole 344, a Type-C hole 345 and a light guide hole 346 corresponding to the light guide piece, the switch pressing piece 39C and the Type-C port, the air inlet channel 201 is disposed on the partition support 35, the partition support 35 is provided with a first connection hole 351 corresponding to the second connection post 343, the partition support 35 is provided with a fan assembly mounting position 352, a circuit board mounting position 353 and a battery mounting position 354, correspondingly, the upper side of the lower cover 36 is provided with a second connection hole 361, a third connection hole 362 and a avoidance hole 363 corresponding to the first connection post 342, the first connection post 342 is adapted to the first connection post 342, the second connection post 343 sequentially passes through the first connection hole 351 and the third connection hole 362, the air inlet hole 32 extends into the avoidance hole 362 to the lower cover 36, and the first connection post 342, the third connection post 363 and the heat dissipation device 30 are formed by screws respectively.

The top of baffle support frame 35 has the second air-out passageway 355, air-out hole 31, fresh air inlet 32 all communicate in second air-out passageway 355, promote the efficiency of ventilation, let the condition of ventilation can not be influenced by other subassemblies, more smooth and easy unobstructed, the inside sultry air of better discharging.

The upper cover 34, the partition plate support frame 35 and the lower cover 36 enclose to form an air outlet component mounting position 37, an air outlet component 371 is arranged in the air outlet component mounting position 37, an air outlet hole is formed in the air outlet component 371, a clamping portion 372 is arranged at a position, corresponding to the clamping groove 341, above the air outlet component 371, of the air outlet component 371, and the air outlet component 371 is arranged on the upper cover 34 and exposed outside the upper cover 34 and the lower cover 36 through the matching of the clamping portion 372 and the clamping groove 341.

The heat dissipating device 30 further includes a light guiding member 38, a light emitting member 39, a fan assembly 39A, a circuit board 39B, a switch pressing member 39C, and a battery 39D, wherein the circuit board 39B is electrically connected to the light guiding member 38, the light emitting member 39, the fan assembly 39A, the light emitting member 39, and the battery 39D, respectively; the fan assembly 39A, the circuit board 39B and the battery 39D are respectively mounted in the fan assembly mounting position 352, the circuit board mounting position 353 and the battery mounting position 354, the circuit board 39B is provided with a switch pressing piece 39C and a Type-C port, and the light guide 38, the switch pressing piece 39C and the Type-C port are exposed outside the upper cover 34.

The utility model provides a VR glasses, including VR glasses body 10, VR glasses body 10 has the contact surface 11 towards the user's face, VR glasses body 10 and face guard frame 20 enclose the configuration and form cavity 12, the contact surface 11 periphery of VR glasses body 10 has draw-in groove 13, face guard frame 20 detachable sets up in the periphery of contact surface 11, face guard frame 20 sets up on VR glasses body 10 through the cooperation detachable of draw-in groove 13 of card convex part 205, detachable design, and the convenience is changed or is cleaned in the user. So, in outside air gets into the cavity through the air inlet passageway, blows to the user's face, plays the effect of heat dissipation sweat-removing, and reuse heat abstractor discharges the air in the cavity through first air-out passageway, fresh air inlet and fresh air outlet, realizes the circulation of air in the cavity, and it utilizes the air that flows to dispel the heat in to the cavity, avoids VR glasses to fog, promotes user's face travelling comfort.

The utility model mainly adopts the arrangement of VR glasses accessories, namely the structural design and the cooperation of a mask frame and a heat dissipation device, wherein the mask frame is provided with an air inlet channel, a first air outlet channel and a groove, and the air inlet channel and the first air outlet channel are communicated in a cavity; the cooling device is provided with an air outlet hole, an air inlet hole and a clamping part matched with the groove, wherein the air outlet hole is communicated with the air inlet channel, the cooling device is arranged on the mask frame through the matching of the clamping part and the groove, and the air inlet channel, the first air outlet channel, the groove, the cooling device, the air outlet hole and the corresponding matching of the air inlet hole can control the air flowing direction in the cavity, so that the air can flow in the cavity in a rotating way to obtain stronger air circulation, thereby preventing the inner mirror surfaces of the VR glasses from fogging and greatly improving the face comfort of a user.

In addition, the design of the air outlet-free pipeline and the air inlet pipeline is adopted, so that the overall weight is reduced, and the problems that the overall weight of VR glasses is increased due to the fact that the air outlet pipeline and the air inlet pipeline are relied on in the prior art, the wearing and the assembling are inconvenient are solved.

Meanwhile, the design scheme of the air outlet-free pipeline and the air inlet pipeline is beneficial to controlling the production cost and further improving the market promotion competitiveness of the product.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model are still within the scope of the technical solutions of the present utility model.

Claims (10)

1. VR glasses accessory, including being used for with face mask frame and the heat abstractor of user's face butt, its characterized in that: the mask frame is provided with an air inlet channel, a first air outlet channel and a groove;

the heat abstractor has the air outlet, the fresh air inlet of intercommunication and the buckle portion with recess looks adaptation each other, buckle position is located the side of fresh air inlet, the fresh air inlet communicates in first air-out passageway, heat abstractor installs on the face guard frame through the cooperation of buckle portion and recess.

2. The VR glasses accessory of claim 1, wherein: the face mask is characterized by further comprising a soft cushion in contact with the face of the user and a nose pad for shading the nose of the user, wherein the soft cushion and the mask frame are designed in a copying mode and are detachably arranged on the periphery of the mask frame, the soft cushion is arranged on the periphery of the mask frame through a magic tape, and the nose pad is detachably arranged on the mask frame and is located below the first air outlet channel.

3. The VR glasses accessory of claim 2, wherein: the face mask comprises a mask frame, and is characterized in that a first connecting part is arranged on one side, facing to a contact surface, of the lower side of the mask frame, and correspondingly, a second connecting part is arranged on the nose pad corresponding to the first connecting part, and the nose pad is detachably arranged on the mask frame through the matching of the first connecting part and the second connecting part.

4. The VR glasses accessory of claim 1, wherein: the heat dissipation device comprises an upper cover, a baffle support frame and a lower cover, wherein the upper cover and the lower cover are respectively positioned on the upper side and the lower side of the baffle support frame and are connected into a whole; the lower extreme of upper cover has block groove, first spliced pole and second spliced pole, apopore, fresh air inlet all set up on the baffle support frame, correspond second spliced pole department on the baffle support frame and be provided with first spliced pole, correspondingly, lower cover top corresponds first spliced pole, first spliced pole and fresh air inlet department and is provided with second spliced pole, third spliced pole and dodges the hole respectively, first spliced pole adaptation is in the second spliced pole, the second spliced pole passes first spliced pole and third spliced pole in proper order, the fresh air inlet stretches into dodges the hole and exposes outside the lower cover.

5. The VR glasses accessory of claim 4, wherein: the upper cover, the baffle support frame and the lower cover enclose to construct an air outlet assembly installation position, an air outlet assembly is arranged in the air outlet assembly installation position, an air outlet hole is formed in the air outlet assembly, a clamping part is arranged above the air outlet assembly corresponding to the clamping groove, and the air outlet assembly is arranged on the upper cover and exposed outside the upper cover and the lower cover through the matching of the clamping part and the clamping groove.

6. The VR glasses accessory of claim 4, wherein: the top of baffle support frame has the second air-out passageway, apopore, fresh air inlet all communicate in the second air-out passageway.

7. The VR glasses accessory of claim 4, wherein: the heat dissipation device further comprises a light guide piece, a light emitting piece, a fan assembly, a circuit board, a switch pressing piece and a battery, wherein the circuit board is electrically connected with the light guide piece, the light emitting piece, the fan assembly, the light emitting piece and the battery respectively; the fan assembly, the circuit board and the battery are respectively installed in the fan assembly installation position, the circuit board installation position and the battery installation position, the circuit board is provided with a switch pressing piece and a Type-C port, the upper cover is provided with a switch hole, a Type-C hole and a light guide hole corresponding to the light guide piece, the switch pressing piece and the Type-C port, and the light guide piece, the switch pressing piece and the Type-C port are exposed outside the upper cover.

8. The VR glasses accessory of claim 1, wherein: the side of the groove is provided with a clamping convex part which is used for being matched with the clamping groove.

9. VR glasses, including the VR glasses body, the VR glasses body has the contact surface towards user's face, its characterized in that: VR glasses accessory detachably is provided with the VR glasses accessory of any one of claims 1 to 8 on the VR glasses body, VR glasses accessory detachably sets up in the periphery of contact surface.

10. The VR glasses of claim 9 wherein: the utility model discloses a pair of VR glasses, including VR glasses body, face guard frame, air inlet passageway, first air-out passageway, VR glasses body and VR glasses accessory enclose the formation cavity, air inlet passageway, first air-out passageway communicate in the cavity, the contact surface periphery of VR glasses body has the draw-in groove, the face guard frame is through the cooperation detachable setting of draw-in groove with the draw-in groove on the VR glasses body.

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