CN107144966A - A kind of VR glasses - Google Patents

Abstract

The invention provides a kind of VR glasses, including：Frame structure, frame structure is provided with the first spacing pilot hole and the second spacing pilot hole；Two the first lens structures, each first lens structure is arranged in frame structure, the positioning and guiding of two the first lens structures is raised to coordinate assembling with the first spacing pilot hole, the second spacing pilot hole respectively, and one of them has the first rack, and another has the second rack；Rotate gear, rotate gear is connected in frame structure, and rotate gear is engaged simultaneously with the first rack, the second rack；Two the second lens structures, each second lens structure is assemblied on the first lens structure；Slide component, slide component is connected in frame structure, and slide component and the second lens structure drive connection, to drive the second lens structure to be moved along visual direction.Using the technical program can solve the problem that in the prior art VR glasses focus operations it is time-consuming and be difficult precisely adjustment the problem of.

Description

A kind of VR glasses

Technical field

The present invention relates to picture reproducer technical field, in particular it relates to a kind of VR glasses.

Background technology

Existing VR products are all to use simple eye single eyeglass, and can only be focused by mobile screen, due to being single And independent control, it is difficult to which precisely adjustment, causes Consumer's Experience sense and bad using degree of immersing, and be directed in the prior art The process of focusing is very time-consuming.

The content of the invention

It is an object of the invention to provide a kind of VR glasses, it is intended to solve in the prior art VR glasses focus operations it is time-consuming and It is difficult to the problem of precisely adjusting.

In order to solve the above technical problems, the technical scheme is that：A kind of VR glasses are provided, including：Frame structure, frame Frame structure is provided with the first spacing pilot hole and the second spacing pilot hole；Two the first lens structures, each first lens structure peace In frame structure, the positioning and guidings of two the first lens structures is raised spacing to lead with the first spacing pilot hole, second respectively Coordinate to hole and assemble, one of them first lens structure has the first horizontal-extending rack, another first lens structure With the second rack extended towards with the first rack；Rotate gear, rotate gear is connected in frame structure, rotate gear with First rack, the second rack are engaged simultaneously, and the first rack and the second rack are located at the both sides of rotate gear；Two the second eyeglasses Structure, each second lens structure is assemblied on the first lens structure；Slide component, slide component is connected to framework In structure, and slide component and the second lens structure drive connection, to drive the second lens structure to be moved along visual direction.

Alternatively, frame structure includes：First cage, the first spacing pilot hole and the second spacing pilot hole are opened in Two through holes are also provided with one cage, in the first cage, two through holes are oppositely arranged one by one with two the first lens structures respectively； Two imaging chambers, two imaging chambers are provided with second cage, the second cage and the first cage formation installing space, the second cage It is oppositely arranged one by one with two the second lens structures respectively.

Alternatively, VR glasses also include being oriented to transverse slat, are oriented on transverse slat on along its length and are provided with hierarchic structure, lead It is connected to transverse slat in the first cage, hierarchic structure is oriented to translot, the respective edges of the first lens structure with the formation of the first cage It is absorbed in guiding translot.

Alternatively, each first lens structure includes：Eyeglass mounting hole, the first tooth are provided with mounting frame, mounting frame Bar is disposed therein in the mounting frame of first lens structure, and the second rack is arranged on the peace of another the first lens structure Frame up on body, and the opening end shield of two mounting frame is covered on the observation end in imaging chamber；First eyeglass, the first eyeglass is installed In eyeglass mounting hole.

Alternatively, it is provided with guiding pod along visual direction in mounting frame；Every one second lens structure includes：It is slidably installed Extension ear is provided with frame, the frame that is slidably installed, extension ear passes through corresponding guiding pod, and extension ear connects with slide component Connect；Second eyeglass, the second eyeglass is arranged on and is slidably installed on frame.

Alternatively, it is provided with slip through hole on extension ear；Slide component includes：Connecting rod is operated, operation connecting rod End is along its axis direction slippingly through slip through hole；Slide bar, slide bar is rotatably arranged at the second cage On, slide bar operates connecting rod to be slided along visual direction with operation connecting rod drive connection to drive.

Alternatively, it is slidably installed on frame and is symmetrically provided with relative to its center axis in two extension ears, mounting frame Two guiding pods are correspondingly provided with, operation connecting rod is correspondingly set passes through connecting bridge between two, two operation connecting rods Tapped through hole is offered in connection, connecting bridge, the shaft of slide bar sets external screw thread, the shaft and screw thread of slide bar Through hole is connected.

Alternatively, connecting bridge is in opening up tapped through hole on the end close to one of operation connecting rod, connecting bridge in by The guiding that guide through hole is provided through in guide through hole, the second cage is opened up on the end of another nearly operation connecting rod Post.

Alternatively, it is cased with sealing ring on the first eyeglass.

Alternatively, VR glasses include two screens, and two screens are separately mounted to the openend of the imaging chamber of the second cage On.

The VR glasses of the embodiment of the present invention are on the premise of keeping shown image position not change, root in use Operation focusing is carried out the need for according to use, the uniformity of the definition of shown image has both been maintained, and can be according to tool The vision situation of body user carries out actual corresponding focus operations, allows user to enjoy high-quality vision grand banquet.

Brief description of the drawings

Fig. 1 is the decomposition texture schematic diagram of the VR glasses of the embodiment of the present invention；

Fig. 2 is the first assembling structure schematic diagram of the VR glasses of the embodiment of the present invention；

Fig. 3 is the second assembling structure schematic diagram of the VR glasses of the embodiment of the present invention；

Fig. 4 is the 3rd assembling structure schematic diagram of the VR glasses of the embodiment of the present invention；

Fig. 5 is the broken section structural representation of the VR glasses of the embodiment of the present invention.

In the accompanying drawings：

12nd, the first cage；11st, the second cage；111st, chamber is imaged；112nd, lead；120th, through hole；13rd, screen；21st, turn Moving gear；222nd, sealing ring；223rd, the first eyeglass；221st, mounting frame；2211st, the first rack；2311st, the second rack； 2212nd, eyeglass mounting hole；33rd, connecting bridge；224th, the second lens structure；2242nd, be slidably installed frame；2241st, the second eyeglass；32、 Slide bar；31st, connecting rod is operated；225th, it is oriented to transverse slat.

Embodiment

In order to make the purpose , technical scheme and advantage of the present invention be clearer, it is right below in conjunction with drawings and Examples The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

It should be noted that when element is referred to as " being fixed on " or " being arranged at " another element, it can be directly another On one element or it is connected on another element.When an element is referred to as " being connected to " another element, it can be with It is directly to another element or is indirectly connected on another element.

It should also be noted that, the orientation term such as left and right, upper and lower in the present embodiment, be only each other relative concept or Using the normal operating condition of product as reference, and it should not be regarded as restrictive.

As shown in figure 1, the VR glasses of the present embodiment include frame structure, two the first lens structures, rotate gears 21, two Individual second lens structure 224 and slide component, frame structure are provided with the first spacing pilot hole and the second spacing pilot hole, Each first lens structure is arranged in frame structure, and the positioning and guiding of two the first lens structures is raised spacing with first respectively Pilot hole, the second spacing pilot hole coordinate assembling, and one of them first lens structure has the first horizontal-extending rack 2211, Another first lens structure has the second rack 2311 extended towards with the first rack 2211, and rotate gear 21 is connected to In frame structure, rotate gear 21 is engaged simultaneously with the first rack 2211, the second rack 2311, and the first rack 2211 and second Rack 2311 is located at the both sides of rotate gear 21, and each second lens structure 224 is assemblied on the first lens structure, slide Component is connected in frame structure, and slide component and the drive connection of the second lens structure 224, to drive the second eyeglass knot Structure 224 is moved along visual direction.

When carrying out viewing image using the VR glasses, with reference to shown in referring to Fig. 2 and Fig. 3, using the first lens structure with turning Compounding practice between moving gear 21 makes the first lens structure realize left and right adjusting function relative to frame structure to realize, and together Compounding practice between the second lens structures of Shi Liyong 224 and slide component makes the second lens structure 224 relative to realize The mobile regulatory function on visual direction is realized in frame structure.So, in terms of existing technologies, the VR of the present embodiment Glasses carry out operation tune according to the need for use in use on the premise of keeping shown image position not change Jiao, had both maintained the uniformity of the definition of shown image, and can be according to the vision situation of specifically used person (due to not It is different with the vision condition of user, the possible normal visual acuity of user, it is also possible to which user is myopia, it is also possible to which user's regards Power situation is farsighted person, or user has strabismus behavior to a certain extent, or the vision condition of user is present Astigmatism, etc.) actual corresponding focus operations are carried out, allow user to enjoy high-quality vision grand banquet.

When the first lens structure in VR glasses realizes the left and right adjusting function relative to frame structure, the first eyeglass Structure and the second lens structure 224 are realized simultaneously to be moved left and right, so as to adapt to the Visual Observations Observations direction of user, and passes through the One spacing pilot hole and the second spacing pilot hole are oriented to moving left and right for the first lens structure, so that it is determined that regulation movement Displacement situation about will not shift.And the second lens structure 224 in VR glasses is realized and existed relative to frame structure During mobile regulation on visual direction, now, the first lens structure is remained stationary, but the second lens structure 224 is relative Relative displacement change is produced in the first lens structure, so as to adjust Jiao between the first lens structure and the second lens structure 224 Away from situation so that observed display image becomes more fully apparent.

With reference to shown in referring to Fig. 1 to Fig. 5, frame structure includes the first cage 12 and the second cage 11, the first spacing guiding Hole and the second spacing pilot hole are opened in the first cage 12, and two through holes 120, two through holes are also provided with the first cage 12 120 are oppositely arranged one by one with two the first lens structures respectively, in fact, user is exactly to be carried out by the two through holes 120 Watch image.Second cage 11 and the first cage 12 formation installing space, rotate gear 21 are arranged on first shell using screw On frame 12, and rotate gear 21 can be rotated using the central axis of screw as rotating shaft, so as to drive the first rack 2211 Realize that left and right horizontal is moved with the second rack 2311.Specifically, VR glasses also include being oriented to transverse slat 225, are oriented to edge on transverse slat 225 Hierarchic structure is provided with its length direction, transverse slat 225 is oriented to and is fixedly connected on by trip bolt in the first cage 12, ladder Structure is oriented to translot with the formation of the first cage 12, and the respective edges of the first lens structure are absorbed in guiding translot.So, first During lens structure is moved left and right relative to the first cage 12, not only pass through corresponding positioning and guiding projection and first Spacing pilot hole, the second spacing pilot hole carry out spacing guiding, are slided while realizing that left and right is oriented in the presence of translot is oriented to Move.Be provided with second cage 11 two imaging chambers 111, two imaging chambers 111 respectively with two the second lens structures 224 one by one It is oppositely arranged, also, VR glasses include two screens 13, and two screens 13 are separately mounted to the imaging chamber 111 of the second cage 11 Openend on.When projection shows image on two screens 13, user passes through first cage 12 corresponding with eyes On two through holes 120, the first lens structure and the second lens structure 224 the display image on screen 13 is watched.

As shown in figure 1, specifically, each first lens structure of the present embodiment includes the eyeglass of mounting frame 221 and first 223, it is provided with eyeglass mounting hole 2212 in mounting frame 221, the first rack 2211 is disposed therein first lens structure In mounting frame 221, the second rack 2311 is arranged in the mounting frame 221 of another the first lens structure, and two installations The opening end shield of framework 221 is covered on the observation end in imaging chamber 111, and the first eyeglass 223 is arranged in eyeglass mounting hole 2212, Sealing ring 222 is cased with first eyeglass 223, when user wears the VR glasses, sealing ring 222 can prevent light from letting out Dew, allow user watch image during from external disturbance light influence.Also, along vision side in mounting frame 221 To guiding pod is provided with, each second lens structure 224 includes the eyeglass 2241 of frame 2242 and second that is slidably installed, and is slidably installed Extension ear is provided with frame 2242, extension ear passes through corresponding guiding pod, and extension ear is connected with slide component, the second mirror Piece 2241 is arranged on and is slidably installed on frame 2242.Further, slip through hole is provided with extension ear, slide component includes behaviour Make connecting rod 31 and slide bar 32, operate the end of connecting rod 31 can be slippingly logical through sliding along its axis direction Hole, slide bar 32 can be rotatably arranged in the second cage 11, and slide bar 32 connects with the operation driving of connecting rod 31 Connect to drive operation connecting rod 31 to slide along visual direction.

The present embodiment preferred embodiment in, as shown in Figures 1 to 5, be slidably installed on frame 2242 relative to wherein It is provided with two extension ears, mounting frame 221 heart axisymmetrical and is correspondingly provided with two guiding pods, operates connecting rod 31 Correspondingly set and connected between two, two operation connecting rods 31 by connecting bridge 33, tapped through hole is offered in connecting bridge 33, The shaft of slide bar 32 sets external screw thread, and shaft and the tapped through hole of slide bar 32 are connected, also, connecting bridge 33 in opening up tapped through hole on the end close to one of operation connecting rod 31, connecting bridge 33 connects in close to another operation The lead 112 that guide through hole is provided through in guide through hole, the second cage 11 is opened up on the end of extension bar 31.

It is assembled to form by the combination of each parts during the VR glasses, screen 13 is first fixedly mounted on by staff In second cage 11, and screen 13 is located at the opening end position of imaging chamber 111.Then, staff is to the first eyeglass knot Structure and the second lens structure 224 carry out assembling assembling, and the first eyeglass 223 is arranged on to the eyeglass mounting hole of mounting frame 221 In 2212, and the second eyeglass 2241 is arranged on it is slidably installed in frame 2242 and forms the second lens structure 224, then by the second eyeglass Structure 224 is received in mounting frame 221, and extension ear is cooperated with being oriented to pod, will then operate connecting rod Intert into the slip through hole of extension ear, then the threaded shank portion of slide bar 32 is screwed into connecting bridge 33 in 31 end In screwed hole.The first lens structure and the second lens structure 224 assembling complete after, staff be directed to transverse slat 225 with First cage 12 is attached, so that guiding translot is formed, then by the positioning and guiding projection in mounting frame 221 just to first Spacing pilot hole and the second spacing pilot hole, and the respective edges insertion of mounting frame 221 is oriented in translot, and work good Rotate gear 21 is connected to the first cage 12 using screw after the rack 2211 of rotate gear 21 and first, the second rack 2311 On.Then, staff will assemble the first lens structure, the second lens structure 224, the slide component and first worked good Cage 12 is integrally assembled in the second cage 11 so that slide bar 32 is just right with mounting post, and connecting bridge 33 is led It is just right with lead 112 to through hole, then respectively for the connecting pole between the first cage 12 of connection and the second cage 11, you can Complete the assembly work of the VR glasses.

During application VR glasses progress viewing image, if the image that user watches is not apparent from, The He of the first rack 2211 can be driven by rotary motion gear 21 by adjusting the first lens structure, the second lens structure 224 Second rack 2311 engages movement simultaneously, so as to adjust the first lens structure and the second lens structure 224 relative to frame structure Right position, and by rotational slide action bars 32, rotational motion is converted into the linear motion of operation connecting rod 31, from And drive the second lens structure 224 to be moved along guiding pod on visual direction and focus.So, user can be according to certainly Oneself actual viewing needs to carry out from main regulation, so as to obtain the optimum viewing focal length corresponding to oneself.

These are only presently preferred embodiments of the present invention, be not intended to limit the invention, it is all the present invention spirit and Any modifications, equivalent substitutions and improvements made within principle etc., should be included in the scope of the protection.

Claims (10)

1. a kind of VR glasses, it is characterised in that including：

Frame structure, the frame structure is provided with the first spacing pilot hole and the second spacing pilot hole；

Two the first lens structures, each first lens structure is arranged in the frame structure, two first mirrors The positioning and guiding of chip architecture is raised to coordinate assembling with the described first spacing pilot hole, the second spacing pilot hole respectively, wherein One first lens structure has horizontal-extending the first rack (2211), and another described first lens structure has The second rack (2311) extended towards with first rack (2211)；

Rotate gear (21), the rotate gear (21) is connected in the frame structure, the rotate gear (21) with it is described First rack (2211), second rack (2311) are engaged simultaneously, and first rack (2211) and second rack (2311) it is located at the both sides of the rotate gear (21)；

Two the second lens structures (224), each second lens structure (224) is assemblied on first lens structure；

Slide component, the slide component is connected in frame structure, and the slide component and described the Two lens structures (224) drive connection, to drive second lens structure (224) to be moved along visual direction.

2. VR glasses as claimed in claim 1, it is characterised in that the frame structure includes：

First cage (12), the first spacing pilot hole and the second spacing pilot hole are opened in first cage (12) two through holes (120) are also provided with, on first cage (12), two through holes (120) respectively with described in two First lens structure is oppositely arranged one by one；

Second cage (11), second cage (11) forms installing space, second cage with first cage (12) (11) be provided with two imaging chambers (111), two it is described imaging chambers (111) respectively with two second lens structures (224) it is oppositely arranged one by one.

3. VR glasses as claimed in claim 2, it is characterised in that the VR glasses also include being oriented to transverse slat (225), described to lead On to transverse slat (225) along its length on be provided with hierarchic structure, the guiding transverse slat (225) is connected to first cage (12) on, the hierarchic structure forms with first cage (12) and is oriented to translot, the respective edges of first lens structure It is absorbed in the guiding translot.

4. VR glasses as claimed in claim 2, it is characterised in that each first lens structure includes：

Eyeglass mounting hole (2212), first rack (2211) are provided with mounting frame (221), the mounting frame (221) In the mounting frame (221) for being disposed therein first lens structure, second rack (2311) is arranged on another In the mounting frame (221) of individual first lens structure, and the opening end shield of two mounting frame (221) is covered described On the observation end for imaging chamber (111)；

First eyeglass (223), first eyeglass (223) is arranged in the eyeglass mounting hole (2212).

5. VR glasses as claimed in claim 4, it is characterised in that

On the mounting frame (221) guiding pod is provided with along visual direction；

Each second lens structure (224) includes：

Be slidably installed frame (2242), and extension ear is provided with the frame that is slidably installed (2242), and the extension ear passes through corresponding The guiding pod, the extension ear is connected with the slide component；

Second eyeglass (2241), second eyeglass (2241) is arranged on described be slidably installed on frame (2242).

6. VR glasses as claimed in claim 5, it is characterised in that

Slip through hole is provided with the extension ear；

The slide component includes：

Connecting rod (31) is operated, the end of the operation connecting rod (31) slippingly leads to along its axis direction through described slide Hole；

Slide bar (32), the slide bar (32) is rotatably arranged on second cage (11), described to slide Action bars (32) with it is described operation connecting rod (31) drive connection with drive it is described operation connecting rod (31) slided along visual direction.

7. VR glasses as claimed in claim 6, it is characterised in that relative to central shaft on the frame that is slidably installed (2242) Line, which is symmetrically provided with two extension ears, the mounting frame (221), is correspondingly provided with two guiding pods, the behaviour Make connecting rod (31) correspondingly to set between two, two operation connecting rods (31) by connecting bridge (33) connection, it is described Tapped through hole is offered in connecting bridge (33), the shaft of the slide bar (32) sets external screw thread, the slide bar (32) shaft is connected with the tapped through hole.

8. VR glasses as claimed in claim 7, it is characterised in that the connecting bridge (33) is in close to one of them described operation The tapped through hole is opened up on the end of connecting rod (31), the connecting bridge (33) is in close to another described operation connecting rod (31) lead that the guide through hole is provided through on guide through hole, second cage (11) is opened up on end (112)。

9. the VR glasses as any one of claim 4 to 8, it is characterised in that be cased with first eyeglass (223) close Big envelope ring (222).

10. VR glasses as claimed in claim 9, it is characterised in that the VR glasses include two screens (13), described in two Screen (13) is separately mounted on the openend of two imaging chambers (111) of second cage (11).