CN107561709B

CN107561709B - VR head-mounted apparatus

Info

Publication number: CN107561709B
Application number: CN201710898198.3A
Authority: CN
Inventors: 尘帅; 李林森
Original assignee: Goertek Optical Technology Co Ltd
Current assignee: Goertek Techology Co Ltd
Priority date: 2017-09-28
Filing date: 2017-09-28
Publication date: 2020-11-20
Anticipated expiration: 2037-09-28
Also published as: CN107561709A

Abstract

The invention discloses VR (virtual reality) head-mounted equipment, which comprises a VR main body, a bracket and a bracket connecting mechanism, wherein the bracket is arranged on the VR main body; the bracket connecting mechanism comprises a key piece, a sliding limiting piece and a first connecting piece; the key piece comprises a force application part, a sliding part, a matching part and a first connecting piece connecting part; the first connecting piece is respectively connected with the first connecting piece connecting part and the bracket in a rotating manner. A bracket connection mechanism can connect the bracket and the VR body together. Bracket accessible bracket coupling mechanism realizes opening or closing, and the connection between bracket and the VR main part is reliable, is favorable to effectively avoiding bracket and VR main part separation, has strengthened the use reliability of bracket.

Description

VR head-mounted apparatus

Technical Field

The invention relates to the field of VR head wearing, in particular to VR head wearing equipment.

Background

VR (virtual reality) head mounted devices, also called VR headsets, refer to head mounted display devices for displaying virtual reality. VR headsets typically include a VR body and a cradle. The bracket is for securing the mobile device, and the bracket is mountable on the VR body. The mobile device may be a mobile phone, for example.

The bracket of the existing VR head-mounted equipment is mainly installed with a bracket fixed with a mobile device into a VR main body in a side-push mode. Specifically, be equipped with spring plunger in the VR main part, be equipped with the plunger constant head tank on the bracket. Push the bracket into from the side of VR main part for spring plunger cooperatees with the plunger positioning groove, thereby can install the bracket in the VR main part.

This kind of connected mode between bracket and the VR main part's joint strength is relatively weak, appears spring plunger easily and breaks away from in the plunger positioning groove, leads to the bracket from the problem of the interior roll-off of VR main part, is difficult to effectively guarantee the use reliability of bracket.

Disclosure of Invention

An object of the present invention is to provide a new solution that can effectively improve the reliability of the use of the bracket.

According to a first aspect of the invention, a VR headset is provided.

The VR headset comprises a VR body, a bracket and a bracket connecting mechanism; wherein,

a bracket closing part is arranged on the VR main body;

the bracket connecting mechanism comprises a key piece, a sliding limiting piece and a first connecting piece, the sliding limiting piece is fixedly connected with the VR main body, and a key piece sliding guide groove is formed in the sliding limiting piece;

the key piece comprises a force application part, a sliding part, a matching part and a first connecting piece connecting part;

the first connecting piece is respectively in rotating connection with the first connecting piece connecting part and the bracket;

the sliding part is in sliding fit with the key piece sliding guide groove, so that the key piece moves along the key piece sliding guide groove;

when the key member is moved to a position where the engaging portion engages with the tray closing portion, the tray is closed.

Optionally, the key element comprises a key element body, an elastic element and a sliding element, the force application part and the matching part are located on the key element body, and the sliding part and the first connecting element connecting part are located on the sliding element;

the key element main body is provided with a clamping part, and the sliding element is provided with a clamping groove in sliding fit with the clamping part;

the elastic piece is arranged between the key piece main body and the sliding piece.

Optionally, the resilient member is a compression spring.

Optionally, a convex rib is arranged on the surface of the key piece sliding guide groove facing the key piece;

the convex rib is in sliding fit with the sliding part.

Optionally, an operation hole is formed in the VR body;

the force application part is in sliding fit with the operation hole.

Optionally, at least part of the force application part protrudes from the operation hole, and a pattern is arranged on the force application part.

Optionally, the bracket connection mechanism further comprises a second connector;

an arc-shaped sliding groove is formed in the VR main body;

one end of the second connecting piece is in sliding fit with the arc-shaped sliding groove, and the other end of the second connecting piece is rotatably connected with the bracket.

Optionally, the bracket is pivotally connected to the VR body.

Optionally, the VR body is further provided with at least one bracket opening positioning portion;

when the key member is moved to a position where the fitting portion is fitted with the bracket opening positioning portion, the bracket is opened.

Optionally, the bracket closing portion, the fitting portion and the bracket opening positioning portion are all racks.

According to one embodiment of the disclosure, the bracket connection mechanism may connect the bracket and the VR body together, and the key member of the bracket connection mechanism may be slidably engaged with the slide stopper and may be rotatably connected with the first connection member. Bracket accessible bracket coupling mechanism realizes opening or closing, and the connection between bracket and the VR main part is reliable, is favorable to effectively avoiding bracket and VR main part separation, has strengthened the use reliability of bracket.

When the bracket is opened, a user applies force to the key element, and the matching part is removed from the matching part of the bracket closing part, so that the key element can be pushed to move along the sliding limiting part. The first connecting piece is driven to move by the movement of the key piece, and the bracket can be driven to move by the first connecting piece, so that the bracket is moved to the opening position. The user may place the mobile device on the opened cradle.

When the bracket is closed, a user applies force to the key piece to push the key piece to move along the sliding limiting piece. The first connecting piece is driven by the movement of the key piece to move, the bracket can be driven by the first connecting piece to move, and when the key piece moves to the position where the matching part is matched with the bracket closing part, the bracket is closed.

Other features of the present invention and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

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

Fig. 1 is an exploded schematic view of a VR headset of the present disclosure.

Fig. 2 is a schematic structural diagram of a bracket connection mechanism of a VR headset of the present disclosure.

Fig. 3 is an exploded view of fig. 2.

Fig. 4 is a schematic structural diagram of a viewing angle when a bracket of a VR headset of the present disclosure is opened.

Fig. 5 is a schematic structural diagram of another view angle when a bracket of a VR headset of the present disclosure is opened.

Fig. 6 is a cross-sectional view of a VR headset of the present disclosure with a cradle open.

The figures are labeled as follows:

VR main body-1, bracket closing part-11, operation hole-12, arc sliding groove-13, bracket opening positioning part-14, bracket-2, bracket connecting mechanism-3, button-31, button main body-311, force application part-3111, matching part-3112, clamping part-3113, elastic part-312, sliding part-313, sliding part-3131, first connecting piece connecting part-3132, clamping groove-3133, sliding limiting part-32, button sliding guide groove-321, convex rib-322, first connecting piece-33 and second connecting piece-34.

Detailed Description

Various exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, the numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless specifically stated otherwise.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate.

In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

In order to solve the problem of low reliability of use of a bracket, the invention provides VR headset. As shown in fig. 1 to 6, the VR headset of the present disclosure includes a VR body 1, a bracket 2, and a bracket connection mechanism 3. The carriage 2 may be provided with a hook or a catch plate for positioning the mobile device. The mobile device may be, for example, a cell phone or the like.

The VR body 1 is provided with a bracket closing portion 11. The carrier closing portion 11 may be, for example, a latch or a groove or a protrusion, etc. The carriage 2 can be opened or closed. The opening of the bracket 2 means that the bracket 2 is open with respect to the VR body 1. The mobile device may be placed on the carriage 2 or removed from the carriage 2 when the carriage 2 is in the open position. The closing of the carriage 2 means that the carriage 2 is closed with respect to the VR body 2. When the carriage 2 is in the closed position, the moving means on the carriage 2 cannot be taken out.

The bracket connection mechanism 3 includes a key member 31, a slide stopper 32, and a first connection member 33. The slide limit part 32 is fixedly connected to the VR body 1, and a key member slide guide slot 321 is provided on the slide limit part 32. The fixed connection between the sliding limiting part 32 and the VR body 1 can be realized by welding or bolt connection. The key member sliding guide groove 321 may be a through groove penetrating the slide stopper 32.

The key member 31 includes a force application portion 31111, a fitting portion 3112, a sliding portion 3131, and a first connector connection portion 3132. The key member 31 may be a separate integral structure, or the key member 31 may be an assembly composed of a plurality of parts. The sliding portion 3131 is slidably fitted with the key sliding guide 321 such that the key 31 is movable along the key sliding guide 321.

The fitting portion 3112 may be fitted with the tray closing portion 11 to cause the tray 2 to be closed. The specific structure of the fitting portion 3112 may be designed according to the structure of the tray closing portion 11. For example, when the bracket closing portion 11 is a latch, the fitting portion 3112 may be a slot fitting to the bracket closing portion 11. For another example, when the tray closing portion 11 is a groove, the fitting portion 3112 may be a protrusion that fits with the tray closing portion 11. For another example, when the tray closing portion 11 is convex, the fitting portion 3112 may be a groove that fits with the tray closing portion 11. The key 31 moves along the key slide guide 321 until the fitting portion 3112 is fitted to the tray closing portion 11, the tray 2 is closed, and the tray 2 is reliably held at the closed position.

The urging portion 3111 may be used for a user to urge the key member 31 to disengage the engaging portion 3112 from the bracket closing portion 11 and to push the key member 31 to move along the key member sliding guide groove 321. The force application portion 3111 may protrude from an edge of the VR body 1 or a hole structure on the VR body 1 to facilitate a user to apply force to the key member 31 through the force application portion 3111. The user can release the engagement between the engaging portion 3112 and the tray closing portion 11 by applying force to the urging portion 3111. The user can also push the key member 31 to move along the key member sliding guide groove 321 by applying force to the force applying portion 3111, thereby causing the tray 2 to be switched from closed to open, or causing the tray 2 to be switched from open to closed.

When in use, the engagement between the engaging portion 3112 and the bracket closing portion 11 can be released by biasing the biasing portion 3111. When the engaging portion 3112 and the tray closing portion 11 are disengaged, the urging portion 3111 is urged to freely move the key member 31 along the key member slide guide groove 321, thereby switching the tray 2 from closing to opening. When the tray 2 is in the open position, the button member 31 is moved along the button-sliding guide groove 321 to the position where the fitting portion 3112 fits into the tray closing portion 11 by the urging force of the urging portion 3111, and the tray 2 is switched from the open position to the closed position.

One end of the first link 33 is rotatably connected to the first link connecting part 3132, and the other end of the first link 33 is rotatably connected to the bracket 2. The first connecting member 33 may be, for example, a link or the like. The rotational connection between the first connector 33 and the first connector coupling 3132 and the bracket 2 may be a hinge or the like, according to practical requirements.

According to one embodiment of the present disclosure, the bracket connection mechanism 3 may connect the bracket 2 and the VR body 1 together. The key member 31 of the bracket connecting mechanism 3 can be slidably engaged with the slide limiting member 32 and can be rotatably connected with the first connecting member 33. Bracket 2 accessible bracket coupling mechanism 3 realizes opening or closing, and the connection between bracket 2 and the VR main part 1 is reliable, is favorable to effectively avoiding bracket 2 and VR main part 1 separation, has strengthened bracket 2's use reliability.

When the bracket 2 is opened, the user applies force to the key member 31 to disengage the engaging portion 3112 from the bracket closing portion 11, so that the key member 31 is pushed to move along the sliding stopper 32. The movement of the key member 31 moves the first connecting member 33, and the first connecting member 33 moves the bracket 2, so that the bracket 2 is opened. The user may place the mobile device on the opened cradle 2.

When the present disclosure closes the bracket 2, the user applies a force to the key member 31 to push the key member 31 to move along the sliding limiting member 32. The movement of the button member 31 drives the first connecting member 33 to move, the first connecting member 33 can drive the bracket 2 to move, and when the button member 31 moves to a position where the matching portion 3112 matches with the bracket closing portion 11, the bracket 2 is closed.

Alternatively, the key member 31 includes a key member body 311, an elastic member 312, and a slider 313. The urging portion 3111 and the fitting portion 3112 are located on the key body 311, and the sliding portion 3131 and the first connector connecting portion 3132 are located on the slider 313. Here, the key member 31 is a component type structure member.

The key body 311 is provided with a latch portion 3113, and the slider 313 is provided with a latch groove 3133 slidably engaged with the latch portion 3113. The fastening portion 3113 can be, for example, a hook on the key body 311, and the fastening groove 3133 can be, for example, a through groove on the sliding member 313 penetrating through the sliding member 313. The key body 311 and the slider 313 are coupled together by the sliding engagement between the trim portion 3113 and the snap groove 3133, and the two can move toward each other. By sliding the trim portion 3113 and the snap groove 3133 fitted together, the key body 311 can be moved widely toward the slider 313, so that the fitting portion 3112 is more easily disengaged from the bracket closing portion 11.

The elastic member 312 is disposed between the key member body 311 and the slider 313 so that the elastic member 312 can provide an opposite elastic force to the key member body 311 and the slider 313. The elastic member 312 may be a spring or a leaf spring, for example. The key main body 311 and the slider 313 receive elastic force from the elastic member 312, and the directions of the elastic force received by the key main body 311 and the slider 313 are different. The elastic member 312 may provide an elastic force to the fitting portion 3112 toward away from the slider 313, so that the fitting portion 3112 is more reliably fitted with the tray closing portion 11.

The elastic member 312 may be positioned between the key member body 311 and the slider 313 in various ways. For example, a side of the key body 311 facing the slider 313 is provided with a cavity for positioning the elastic member 312, the elastic member 312 is positioned in the cavity, and one end of the elastic member 312 is in contact with a surface of the slider 313. For another example, the surfaces of the key main body 311 and the sliding member 313 facing each other are provided with elastic member positioning posts, and both ends of the elastic member 312 are respectively connected or matched with the elastic member positioning posts on the key main body 311 and the sliding member 313, so that the elastic member 312 is positioned between the key main body 311 and the sliding member 313.

Further, the elastic member 312 is a compression spring.

Alternatively, the key member sliding guide groove 321 is provided with a rib 322 on the surface facing the key member 31. The rib 322 is slidably engaged with the sliding portion 3131. The arrangement of the rib 322 is beneficial to increase the contact area between the key member 31 and the sliding limiting member 32, so as to better position the key member 31 and prevent the key member 31 from shaking. Generally, the rib 322 may be provided along the edge of the key member sliding guide 321.

Optionally, the VR body 1 is provided with an operation hole 12. The urging portion 3111 is slidably fitted in the operation hole 12. The user can conveniently contact the force applying portion 3111 at the position of the operation hole 12 to more conveniently apply force to the key member 31.

Further, at least a part of the urging portion 3111 protrudes from the operation hole 12, and a pattern is provided on the urging portion 3111. The partial biasing portion 3111 protruding from the operation hole 12 means that the partial biasing portion is located outside the VR body 1. The pattern on the force application portion 3111 is advantageous for the convenience of the user in applying force to the force application portion 3111.

Optionally, the bracket connection mechanism 3 further comprises a second connector 34. The second connector 34 may be, for example, a link or the like. An arc-shaped sliding groove 13 is formed in the VR body 1. One end of the second connecting piece 34 is in sliding fit with the arc-shaped sliding groove 13, and the other end of the second connecting piece 34 is rotatably connected with the bracket 2. The rotational connection between the second link 34 and the bracket 2 may be achieved by means of a hinge or the like. When the carriage 2 is opened or closed, the second link 34 moves along with the movement of the carriage 2.

In particular implementations, the first connector 33 and the second connector 34 can be located on both sides of the cradle 2 along the length of the VR headset, respectively. This arrangement contributes to further improving the reliability of use of the carriage 2.

Optionally, the bracket 2 is pivotally connected to the VR body 1. This arrangement contributes to further improving the reliability of use of the carriage 2.

Optionally, at least one bracket opening positioning portion 14 is also provided on the VR body 1. When the key 31 is moved to a position where the fitting portion 3112 is fitted with the bracket opening positioning portion 14, the bracket 2 is opened. The fitting portion 3112 may be used to fit with different tray-opening positioning portions 14 to position the tray 2 at different opening positions. The engaging portion 3112 is disengaged from the bracket opening positioning portion 14 by the urging force of the urging portion 3111. This arrangement is advantageous to ensure that the carrier 2 is reliably positioned in all of the different open positions.

The user can release the engagement of the engagement portion 3112 with a certain bracket opening positioning portion 14 by applying force to the key member 31, and then can push the key member 31 to move along the slide stopper 32, so that the bracket 2 is closed or opened.

The specific structure of the bracket opening positioning portion 14 may be designed according to the structure of the fitting portion 3112. For example, when the fitting portion 3112 is caught, the bracket-opening positioning portion 14 may be a catch that fits with the fitting portion 3112. For another example, when the fitting portion 3112 is a groove, the bracket-opening positioning portion 14 may be a protrusion that fits with the fitting portion 3112. For another example, when the fitting portion 3112 is convex, the bracket opening positioning portion 14 may be a groove that fits with the fitting portion 3112.

Further, the carriage closing portion 11, the fitting portion 3112, and the carriage opening positioning portion 14 are all racks. The tray closing portion 11 and the tray opening positioning portion 14 may be part of a continuous rack. Alternatively, the carrier closing portion 11 and the carrier opening positioning portion 14 may be rack segments independent of each other, and each carrier opening positioning portion 14 may also be rack segments independent of each other.

In the following, the VR headset of the present invention is described by taking the embodiment disclosed in the drawings as an example:

as shown in fig. 1, the VR headset includes a VR body 1, a bracket 2, and a bracket connection mechanism 3. The VR body 1 is provided with a carriage closing portion 11, an operation hole 12, an arc-shaped slide groove 13, and a carriage opening positioning portion 14. The carriage closing portion 11 and the carriage opening positioning portion 14 have a rack structure.

The bracket connection mechanism 3 includes a key member 31, a slide stopper 32, a first connection member 33, and a second connection member 34.

The key member 31 includes a key member body 311, an elastic member 312, and a slider 313. The key body 311 is provided with a biasing portion 3111, a fitting portion 3112 and a locking portion 3113, and the slider 313 is provided with a sliding portion 3131, a first connector connecting portion 3132 and a locking groove 3133. The sliding limiting part 32 is fixedly connected with the VR body 1, a key sliding guide groove 321 is formed in the sliding limiting part 32, and a convex rib 322 is formed on the surface of the key sliding guide groove 321 facing the key 31.

The urging portion 3111 is slidably fitted into the operation hole 12, a part of the urging portion 3111 protrudes from the operation hole 12, and a pattern facilitating the urging is provided on the urging portion 3111. The user can apply a force to the key member 31 through the force applying portion 3111. The fitting portion 3112 has a rack structure, and the fitting portion 3112 can be fitted with the tray closing portion 11 and the tray opening positioning portion 14. The sliding portion 3131 is slidably engaged with the key sliding guide 321 and the rib 322, so that the key 31 can move along the key sliding guide 321. The trim portion 3113 is slidably fitted in the snap groove 3133. The key body 311 and the slider 313 are coupled together by the sliding engagement between the trim portion 3113 and the snap groove 3133, and the two can move toward each other. The elastic member 312 is a compression spring, which is provided between the key member 31 and the slider 313 to provide an opposite elastic force to the key member body 311 and the slider 313.

One end of the first link 33 is rotatably connected to the first link connecting part 3132, and the other end of the first link 33 is rotatably connected to the bracket 2. One end of the second connecting piece 34 is in sliding fit with the arc-shaped sliding groove 13, and the other end of the second connecting piece 34 is rotatably connected with the bracket 2. The first and second connectors 33 and 34 are located on both sides of the cradle 2 along the length direction of the VR headset, respectively.

In this embodiment, when the bracket 2 is opened, the user applies a force to the key member 31 to disengage the engaging portion 3112 from the bracket closing portion 11, so that the key member 31 is pushed to move along the slide stopper 32. The movement of the key member 31 drives the first connecting member 33 to move, the first connecting member 33 can drive the bracket 2 to move, and the second connecting member 34 moves along with the movement of the bracket 2. When the bracket 2 is moved until the engaging portion 3112 engages with a certain bracket opening positioning portion 14, the bracket 2 is positioned at an opening position corresponding to the bracket opening positioning portion 14. The user can release the engagement of the engaging portion 3112 with the bracket opening positioning portion 14 by applying force to the key member 31, and then can push the key member 31 to move continuously along the slide stopper 32. The user may place the mobile device on the opened cradle 2.

When the bracket 2 is closed in this embodiment, the user applies a force to the key member 31, the engagement portion 3112 and the bracket opening positioning portion 14 are disengaged, and then the key member 31 is pushed to move along the slide stopper 32. The movement of the key member 31 drives the first connecting member 33 to move, the first connecting member 33 can drive the bracket 2 to move, and the second connecting member 34 moves along with the movement of the bracket 2. When the key member 31 is moved to a position where the fitting portion 3112 is fitted with the tray closing portion 11, the tray 2 is closed.

Although some specific embodiments of the present invention have been described in detail by way of examples, it should be understood by those skilled in the art that the above examples are for illustrative purposes only and are not intended to limit the scope of the present invention. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the invention. The scope of the invention is defined by the appended claims.

Claims

1. A VR headset comprising a VR body, a cradle and a cradle connection mechanism; wherein,

a bracket closing part is arranged on the VR main body;

the key piece comprises a key piece main body, an elastic piece and a sliding piece, wherein the elastic piece is arranged between the key piece main body and the sliding piece;

the elastic member is configured to provide an elastic force to the engaging portion toward away from the slider so that the engaging portion is reliably engaged with the tray closing portion;

the key piece main body comprises a force application part and a matching part which is integrally formed with the force application part; the sliding piece comprises a sliding part and a first connecting piece connecting part;

when the key member is moved to a position where the engaging portion engages with the tray closing portion, the tray is closed;

the key piece main body and the sliding piece are connected together through the sliding fit between the clamping part and the clamping groove, and the key piece main body and the sliding piece can move in opposite directions.

2. The VR headset of claim 1, wherein the force application portion and the engagement portion are located on the key body, and the sliding portion and the first connector connection portion are located on the slider.

3. The VR headset of claim 2, wherein the resilient member is a compression spring.

4. The VR headset of claim 1, wherein a surface of the key member sliding guide channel facing the key member is provided with a rib;

the convex rib is in sliding fit with the sliding part.

5. The VR headset of claim 1, wherein the VR body has an access hole;

the force application part is in sliding fit with the operation hole.

6. The VR headset of claim 5 wherein at least a portion of the force applying portion protrudes from the access hole and the force applying portion is patterned.

7. The VR headset of claim 1, wherein the cradle connection mechanism further includes a second connector;

an arc-shaped sliding groove is formed in the VR main body;

8. The VR headset of claim 1, wherein the cradle is pivotally connected to the VR body.

9. The VR headset of any of claims 1 to 8, wherein the VR body further includes at least one cradle opening locator;

10. The VR headset of claim 9, wherein the carriage closing portion, the engagement portion, and the carriage opening positioning portion are all racks.