CN116381943A - VR head-mounted device - Google Patents

Abstract

The invention belongs to the technical field of intelligent wearing, and particularly relates to VR (virtual reality) head-mounted equipment, which comprises a head-mounted main body, a battery compartment and a head-mounted supporting structure, wherein one end of the head-mounted supporting structure is connected with the top of the head-mounted main body, the other end of the head-mounted supporting structure is suspended, and the suspended end of the head-mounted supporting structure extends to the rear of the head; the top of the head-mounted main body is provided with a storage groove, and the suspension end of the head-mounted supporting structure is provided with a placement platform; the battery bin is at least provided with a first horizontal state horizontally placed in the storage groove and a second horizontal state horizontally placed on the placement platform after being turned 180 degrees; the overhead supporting structure is provided with an anti-drop slideway; the connecting structure on one side of the battery compartment is provided with a movement guide part, the movement guide part is limited in the anti-falling slide way and can slide or roll along the extending direction of the anti-falling slide way, and the movement guide part is matched with the anti-falling slide way to enable the battery compartment to be converted between a first horizontal state and a second horizontal state. The invention effectively reduces head fatigue and improves wearing experience of users.

Description

VR head-mounted device

Technical Field

The invention belongs to the technical field of wearing, and particularly relates to VR (virtual reality) head-mounted equipment.

Background

With the diversification of VR headsets, more and more VR headsets are gradually becoming integrated into people's daily lives. The prior VR headset mainly comprises a headset main body and a headband; the battery with larger weight is arranged in the head-wearing main body, so that the head-wearing main body is heavy, pressure can be caused to the head after long-term wearing, head fatigue is caused, and wearing experience of a user is affected.

Disclosure of Invention

Aiming at overcoming at least one of the defects in the prior art, the invention provides VR headset equipment; the battery compartment can be independently arranged from the head-wearing main body, so that the weight of the head-wearing main body during wearing is reduced, the head fatigue of a user is reduced, and the wearing experience of the user is improved.

In order to solve the problems in the prior art, an embodiment of the present invention provides a VR headset, including a headset main body, a battery compartment, and a top support structure, where one end of the top support structure along the length direction is connected to the headset main body, the other end is suspended, and the suspended end of the top support structure extends to the rear of the head;

the top of the head-mounted main body is provided with a storage groove, and the suspension end of the head-mounted supporting structure is provided with a placement platform; the battery bin is at least provided with a first horizontal state horizontally arranged in the storage groove and a second horizontal state horizontally arranged on the placing platform after being turned 180 degrees;

an anti-drop slideway is arranged on the overhead supporting structure; the battery compartment is characterized in that a movement guide piece is arranged on the connecting structure on one side of the battery compartment, the movement guide piece is limited in the anti-slip channel and can slide or roll along the extending direction of the anti-slip channel, and the movement guide piece is matched with the anti-slip channel to enable the battery compartment to be converted between the first horizontal state and the second horizontal state.

Further, the motion guide piece comprises a rotating shaft fixed on the connecting structure and a roller rotatably arranged on the rotating shaft; the roller is contacted with the bottom surface of the anti-falling slideway.

Further, a limiting groove matched with the roller is formed in the bottom surface of the anti-falling slideway at the suspension end of the overhead supporting structure.

Further, the overhead supporting structure comprises a supporting body with an opening at the top end, a sliding groove is arranged on the supporting body, limiting parts are respectively arranged at two ends of the supporting body along the length direction, and a first avoiding opening which is communicated with the sliding groove and used for avoiding the connecting structure is arranged on the limiting parts; two limiting cover plates for preventing the movement guide piece from being separated from the sliding groove are arranged at the top of the supporting body at intervals; a second avoiding opening for avoiding the connecting structure is formed between the two limiting cover plates; the sliding groove, the limiting part and the limiting cover plate enclose the anti-falling sliding way.

Further, the both sides of support body one end are equipped with fixed part respectively, fixed part with wear main part fixed connection.

Further, the head-wearing main body comprises a shell and a face foam structure; the top of the shell is provided with the storage groove, the shell on one side of the storage groove facing the face is provided with a mounting opening, one end of the supporting body is positioned in the mounting opening, and the fixing part is fixedly connected with the shell on the corresponding side of the mounting opening; the face foam structure is provided with an avoidance gap corresponding to the mounting opening.

Further, the overhead supporting structure comprises a first horizontal part, an arc supporting part and a second horizontal part which are sequentially connected, wherein the arc supporting part is matched with the overhead;

the first horizontal part, the second horizontal part and the arc-shaped supporting part are in arc transition connection; the first horizontal part is connected with the top of the head-wearing main body, and one end of the second horizontal part is provided with the placing platform.

Further, the battery compartment in the first horizontal state is rotated backward, and the battery compartment is separated from the storage groove;

a rotary avoidance gap is arranged between the battery compartment in the first horizontal state and the front groove wall surface and the rear groove wall surface of the storage groove; or the front groove wall surface of the storage groove is an inward concave circular arc guide surface, and the rear groove wall surface is an outward convex circular arc guide surface; the front side surface and the rear side surface of the battery compartment are respectively matched with the concave circular arc guide surface and the convex circular arc guide surface.

Further, the helmet also comprises a head belt module, wherein the two sides of the helmet main body are respectively provided with a supporting arm; the two ends of the head band module are detachably connected with the corresponding supporting arms respectively, and the suspension end of the head top supporting structure is located above the head band module.

Further, the two ends of the headband module are respectively provided with a plug-in port extending forwards and backwards, and one end of the supporting arm is plugged with the corresponding plug-in port.

Due to the adoption of the technical scheme, the beneficial effects are as follows:

the VR head-mounted device comprises a head-mounted main body, a battery compartment and a head-mounted supporting structure, wherein one end of the head-mounted supporting structure in the length direction is connected with the top of the head-mounted main body, the other end of the head-mounted supporting structure is suspended, and the suspended end of the head-mounted supporting structure extends to the rear of the head; the top of the head-mounted main body is provided with a storage groove, and the suspension end of the head-mounted supporting structure is provided with a placement platform; the battery bin is at least provided with a first horizontal state horizontally placed in the storage groove and a second horizontal state horizontally placed on the placement platform after being turned 180 degrees; the overhead supporting structure is provided with an anti-drop slideway; the connecting structure on one side of the battery compartment is provided with a movement guide part, the movement guide part is limited in the anti-falling slide way and can slide or roll along the extending direction of the anti-falling slide way, and the movement guide part is matched with the anti-falling slide way to enable the battery compartment to be converted between a first horizontal state and a second horizontal state.

When the user wears the use, under the cooperation of motion guide and anticreep slide way, will accomodate the battery compartment in the inslot and change on place the platform, so not only alleviateed the weight of wear the main part, and the back that shifts is equivalent to having increased the counter weight for the overhead bearing structure at head rear, has effectively reduced VR head-mounted equipment and has worn the pressure that causes for the head for a long time, has reduced the head fatigue, has improved user's wearing experience.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic illustration of the structure of a VR headset of the present invention in an unused state;

FIG. 2 is an exploded view of the structure of FIG. 1;

FIG. 3 is an exploded view of the overhead support structure of FIG. 2;

FIG. 4 is an enlarged view of the structure at A in FIG. 2;

FIG. 5 is an enlarged view of the structure at B in FIG. 2;

FIG. 6 is an enlarged view of the structure at C in FIG. 2;

FIG. 7 is a state reference diagram of the battery compartment in a first horizontal state;

FIG. 8 is a reference view of the battery compartment before rolling along the anti-slip lane;

FIG. 9 is a reference view of the battery compartment rolled to the hanging end;

FIG. 10 is a state reference diagram of the battery compartment in a second horizontal state;

wherein: the head-wearing device comprises a 1-head-wearing main body, a 11-containing groove, a 12-shell, a 121-mounting port, a 13-face foam structure, a 131-avoiding notch, a 2-head top supporting structure, a 21-anti-falling slideway, a 22-limiting groove, a 23-supporting body, a 24-sliding groove, a 25-limiting part, a 26-first avoiding port, a 27-limiting cover plate, a 28-second avoiding port, a 29-fixing part, a 3-placing platform, a 4-battery compartment, a 41-connecting lug, a 5-movement guide piece, a 51-rotating shaft, 52-rollers, a 6-supporting arm, a 7-head band module, a 71-connecting arm, a 711-inserting port, a 72-left head band, a 73-right head band and a 74-head band length adjusting device.

Detailed Description

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

In the present invention, the directional indication means, for example, front and rear, up and down, left and right, and the like, and the relative positional relationship between the respective members in the normal wearing posture. If the gesture changes, the directional indication changes accordingly.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

As collectively shown in fig. 1 to 6, the basic embodiment of the present invention exhibiting the main concept discloses a VR headset comprising a headset body 1, a battery compartment 4, and a head support structure 2, one end of the head support structure 2 in the length direction is connected with the headset body 1, the other end is suspended, and the suspended end of the head support structure 2 extends to the rear of the head; the top of the head-wearing main body 1 is provided with a storage groove 11, and the suspension end of the head-supporting structure 2 is provided with a placement platform 3; the battery compartment 4 is at least provided with a first horizontal state horizontally placed in the storage groove 11 and a second horizontal state horizontally placed on the placement platform 3 after being turned 180 degrees; the overhead supporting structure 2 is provided with an anti-drop slideway 21; the connection structure on one side of the battery compartment 4 is provided with a movement guide piece 5, the movement guide piece 5 is limited in the anti-falling slide way 21 and can slide or roll along the extending direction of the anti-falling slide way 21, and the movement guide piece 5 and the anti-falling slide way 21 are matched to enable the battery compartment 4 to be switched between a first horizontal state and a second horizontal state.

When the user wears the use, under the cooperation of motion guide 5 and anticreep slide 21, will accomodate battery compartment 4 in the groove 11 and change place on platform 3 (see fig. 7 and 10), so not only alleviateed the weight of wear main part 1, and transferred the back and equivalent to having increased the counter weight for overhead bearing structure 2 at head rear, effectively reduced VR head-mounted equipment because of wearing the pressure that causes for the head for a long time, reduced the head fatigue, improved user's wearing experience. In addition, the overhead support structure 2 not only can realize the support of the overhead to the head-wearing body 1, but also can be used as a track for the movement of the battery compartment 4; a plurality of functions are realized to a structure, carries out the expansion of function based on current structure, is favorable to VR head-mounted device to light-weight miniaturized direction development.

The accommodating groove 11 penetrates the head-wearing body 1 from left to right, and the groove depth is equal to the thickness of the battery compartment 4, so that the battery compartment 4 is convenient to take and place, and the aesthetic property is ensured. The battery compartment 4 comprises an encapsulation shell and a battery arranged in the encapsulation shell; between the battery and the circuit board inside the head-mounted body 1, a conductive wire is provided, which is arranged in the anti-drop slide 21.

One of the ways of taking out the battery compartment 4 from the storage groove 11 is to take out the battery compartment by rotation; for example, in some embodiments (as shown in fig. 7), a rotary avoidance gap is arranged between the battery compartment 4 in the first horizontal state and the front and rear groove wall surfaces of the storage groove 11; the battery compartment 4 in the first horizontal state is rotated rearward, and the battery compartment 4 can be separated from the storage groove 11 and can slide or roll on the anti-falling slide rail 21 in an inclined state or in a vertical state (the vertical state is shown in fig. 8 and 9). In still other embodiments (not shown), the front groove wall surface of the receiving groove 11 is an inward concave arc guiding surface, and the rear groove wall surface is an outward convex arc guiding surface; the front side surface and the rear side surface of the battery compartment 4 are respectively in fit contact with the concave circular arc guide surface and the convex circular arc guide surface; therefore, the battery compartment 4 can be positioned in the storage groove 11, and interference when the battery compartment 4 is separated from the storage groove 11 can be avoided. In addition, the shapes of the storage groove 11 and the battery compartment 4 are not unique, and the battery compartment 4 can be separated from the storage groove 11 and does not interfere with the groove wall surface of the storage groove 11 as long as the battery compartment 4 in the first horizontal state can be rotated backward.

In one embodiment, the connecting structure comprises two connecting lugs 41 arranged at intervals; the movement guide 5 includes a rotation shaft 51 fixed to the two connection lugs 41 and a roller 52 rotatably installed on the rotation shaft 51 between the two connection lugs; the roller 52 is contacted with the bottom surface of the anti-falling slideway 21; compared with a sliding mode, the rolling mode has small friction force and smoother operation. In another embodiment (not shown), the connection structure comprises a connection lug, and the movement guide comprises a rotating shaft fixed on the connection lug and two rollers rotatably mounted on the rotating shafts on both sides of the connection lug.

In another embodiment (not shown in the figure), the connecting structure comprises a hinge lug and a connecting seat hinged on the hinge lug, the movement guide piece is arranged on the connecting seat, and the movement guide piece comprises a rotating shaft fixed on the connecting seat and a roller rotatably arranged on the rotating shaft; because of the hinge connection between the connecting seat and the hinge lug, the accommodating groove 11 and the battery compartment 4 can be prevented from rotating to avoid, the battery compartment 4 is taken out from the accommodating groove 11 vertically upwards (the battery compartment 4 can be taken out from the accommodating groove 11 vertically), and then the battery compartment slides or rolls on the anti-falling slideway 21 in an inclined state or a vertical state.

In another embodiment, the overhead supporting structure 2 includes a supporting body 23 with an open top, a chute 24 is disposed on the supporting body 23, two ends of the supporting body 23 along the length direction are respectively provided with a limiting portion 25, and a first avoiding opening 26 which is communicated with the chute 24 and is used for avoiding a connecting structure (such as a connecting lug 41) is disposed on the limiting portion 25; two limiting cover plates 27 for preventing the movement guide piece 5 from being separated from the chute 24 are arranged at intervals on the top of the supporting body 23; a second avoiding opening 28 of an avoiding connection structure is formed between the two limiting cover plates 27; the chute 24, the limit part 25 and the limit cover plate 27 enclose an anti-falling chute 21.

Wherein, both sides of one end of the supporting body 23 are respectively provided with a fixing part 29, and the fixing parts 29 are fixedly connected with the head-wearing main body 1. The head-wearing main body 1 comprises a shell 12 and a face foam structure 13; the top of the shell 12 is provided with a containing groove 11, the shell 12 of the containing groove 11 facing to one side of the face is provided with a mounting opening 121, one end of the supporting body 23 is positioned in the mounting opening 121, and the fixing part 29 is fixedly connected with the shell 12 of the corresponding side of the mounting opening 121 (the fixing part 29 is positioned at the inner side of the shell 12 and is shielded); the face foam structure 13 is provided with an avoiding gap 131 corresponding to the mounting opening 121 for avoiding the mounting of the supporting body 23.

The supporting body 23 comprises a first horizontal part, an arc-shaped supporting part and a second horizontal part which are sequentially connected, wherein the arc-shaped supporting part is matched with the top of the head; the first horizontal part, the second horizontal part and the arc-shaped supporting part are in arc transition connection; the both sides of first horizontal part are equipped with fixed part 29, and the one end of second horizontal part is equipped with place platform 3. Preferably, the supporting body 23, the fixing portion and the placement platform 3 are an integrally formed structure; so set up, can be convenient for install and improve the precision after the installation.

Preferably, the bottom surface of the anti-falling slideway 21 (i.e. the chute 24) at the suspension end of the overhead support structure 2 is provided with a limit groove 22 adapted to the roller 52; after the roller 52 rolls into the limit groove 22, the battery compartment 4 is rotated backward to a second horizontal state; thus, the accuracy of the placement position of the battery compartment 4 on the placement platform 3 can be ensured, and the stability and reliability of the battery compartment 4 in the second horizontal state can be ensured.

In still other embodiments, the VR headset further includes a headband module 7, and two sides of the headset body 1 are respectively provided with a support arm 6; the two ends of the headband module 7 are detachably connected with the corresponding supporting arms 6 respectively, and the suspension end of the overhead supporting structure 2 is located above the headband module 7. In a specific embodiment, the two ends of the headband module 7 are respectively provided with a first magnetic attraction piece, and the supporting arm 6 is provided with a second magnetic attraction piece matched with the first magnetic attraction piece. In still other embodiments, two ends of the headband module 7 are respectively provided with a plug-in port 711 extending back and forth, and one end of the supporting arm 6 is plugged into the corresponding plug-in port 711. So can realize the quick installation and the dismantlement of bandeau module 7, and peg graft or such connected mode that the magnetism inhale needs to accomplish with the help of external force, consequently can ensure stability and reliability after bandeau module 7 installs, the dismantlement when still being convenient for the bandeau module 7 accomodate.

In one embodiment, the headgear module 7 includes a left headgear 72, a right headgear 73, and a headgear length adjustment device 74; one end of each of the left headband 72 and the right headband 73 is provided with a connecting arm 71; the connecting arm 71 is provided with an inserting port 711; the headband length adjusting device 74 comprises a housing, a gear rotatably installed in the housing, a first rack structure arranged on the left headband 72, a second rack structure arranged on the right headband 73, and an adjusting knob arranged on the housing and fixedly connected with the gear; the first rack structure and the second rack structure extend into the housing, are positioned on the upper side and the lower side of the gear and are meshed with the gear. The left 72 and right 73 headband can be tightened or loosened by turning the adjustment knob to fit the head of different users.

The working principle thereof is explained based on the above embodiments:

as shown in fig. 7 to 10, when the VR headset is worn by the user, the battery pack 4 in the first horizontal state is rotated backward, the battery pack 4 is separated from the storage groove 11, and then the battery pack rolls on the anti-falling slide way 21 in the vertical state (or in the inclined state) by means of the roller 52; when the roller 52 rolls into the limit groove 22, the battery compartment 4 is placed in a second horizontal state (at this time, the battery compartment 4 is supported by the placement platform 3) after the battery compartment 4 is rotated. Conversely, when the VR headset is not in use, the battery compartment 4 can be converted into the receiving slot 11 by means of the movement guide 5 and the anti-drop slide 21; and removes the headband module 7 from the head-wearing body 1 in the front-rear direction.

In this specification, each embodiment is described in a progressive or parallel manner, and each embodiment is mainly described by a difference from other embodiments, and identical and similar parts between the embodiments are mutually referred.

In conclusion, the pressure of VR head-mounted equipment on the head for a long time is effectively reduced, head fatigue is reduced, and wearing experience of a user is improved; and can be adapted to wear and use by different users.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (10)

1. The VR headset comprises a headset body and a battery compartment, and is characterized by further comprising a head supporting structure, wherein one end of the head supporting structure in the length direction is connected with the headset body, the other end of the head supporting structure is suspended, and the suspended end of the head supporting structure extends to the rear of the head;

the top of the head-mounted main body is provided with a storage groove, and the suspension end of the head-mounted supporting structure is provided with a placement platform; the battery bin is at least provided with a first horizontal state horizontally arranged in the storage groove and a second horizontal state horizontally arranged on the placing platform after being turned 180 degrees;

an anti-drop slideway is arranged on the overhead supporting structure; the battery compartment is characterized in that a movement guide piece is arranged on the connecting structure on one side of the battery compartment, the movement guide piece is limited in the anti-slip channel and can slide or roll along the extending direction of the anti-slip channel, and the movement guide piece is matched with the anti-slip channel to enable the battery compartment to be converted between the first horizontal state and the second horizontal state.

2. The VR headset of claim 1, wherein the motion guide includes a spindle fixed to the connection structure and a roller rotatably mounted on the spindle; the roller is contacted with the bottom surface of the anti-falling slideway.

3. The VR headset of claim 2, wherein the anti-slip slideway at the suspended end of the overhead support structure has a limit groove on its bottom surface that mates with the roller.

4. The VR headset of claim 1, wherein the overhead support structure includes a top-open support body, the support body is provided with a chute, two ends of the support body along a length direction are respectively provided with a limit part, and the limit part is provided with a first avoidance opening communicated with the chute and used for avoiding the connection structure; two limiting cover plates for preventing the movement guide piece from being separated from the sliding groove are arranged at the top of the supporting body at intervals; a second avoiding opening for avoiding the connecting structure is formed between the two limiting cover plates; the sliding groove, the limiting part and the limiting cover plate enclose the anti-falling sliding way.

5. The VR headset of claim 4, wherein the two sides of one end of the support body are respectively provided with a fixing part, and the fixing parts are fixedly connected with the headset body.

6. The VR headset of claim 5, wherein the headset body includes a housing and a face foam structure; the top of the shell is provided with the storage groove, the shell on one side of the storage groove facing the face is provided with a mounting opening, one end of the supporting body is positioned in the mounting opening, and the fixing part is fixedly connected with the shell on the corresponding side of the mounting opening; the face foam structure is provided with an avoidance gap corresponding to the mounting opening.

7. The VR headset of claim 1, wherein the overhead support structure includes a first horizontal portion, an arc support portion adapted to the overhead, and a second horizontal portion connected in sequence;

the first horizontal part, the second horizontal part and the arc-shaped supporting part are in arc transition connection; the first horizontal part is connected with the top of the head-wearing main body, and one end of the second horizontal part is provided with the placing platform.

8. The VR headset of claim 1, wherein the battery compartment in the first horizontal state is rotated rearward, the battery compartment disengaged from the receiving slot;

a rotary avoidance gap is arranged between the battery compartment in the first horizontal state and the front groove wall surface and the rear groove wall surface of the storage groove; or the front groove wall surface of the storage groove is an inward concave circular arc guide surface, and the rear groove wall surface is an outward convex circular arc guide surface; the front side surface and the rear side surface of the battery compartment are respectively matched with the concave circular arc guide surface and the convex circular arc guide surface.

9. The VR headset of claim 1, further comprising a headband module having support arms on each side of the headset body; the two ends of the head band module are detachably connected with the corresponding supporting arms respectively, and the suspension end of the head top supporting structure is located above the head band module.

10. The VR headset of claim 9, wherein the headband module has front and rear extending sockets at both ends thereof, and one end of the support arm is plugged with the corresponding socket.

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