CN205920275U - Virtual reality video glasses - Google Patents
Virtual reality video glasses Download PDFInfo
- Publication number
- CN205920275U CN205920275U CN201620947978.3U CN201620947978U CN205920275U CN 205920275 U CN205920275 U CN 205920275U CN 201620947978 U CN201620947978 U CN 201620947978U CN 205920275 U CN205920275 U CN 205920275U
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- CN
- China
- Prior art keywords
- diopter
- virtual reality
- regulating system
- reality video
- interpupillary distance
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
The utility model discloses a virtual reality video glasses, including a mirror holder, it includes a slide, two stands and two supplementary tracks, two stands are connected respectively the both ends of slide, two supplementary tracks are connected to respectively the slide middle part, two pupil distance adjusting systems assemble respectively and are lieing in the same one side of mirror holder the stand with between the supplementary track, two diopter governing system assemble respectively and are corresponding in the pupil distance adjusting system, two pupil distance adjusting systems two diopter governing system with two lens cones have the structure of symmetry. Use the foundation the utility model provides a during virtual reality video glasses, because the left and right sides disposes diopter governing system and interpupillary distance the governing system independent and symmetry respectively, the user uses the same regulation method according to the definition of controlling the eye, adjusts diopter and interpupillary distance respectively to satisfy different users' demand.
Description
Technical field
This utility model is related to technical field of virtual reality, more particularly to a kind of virtual reality video eyeglasses.
Background technology
Virtual reality vr(virtual reality now) concept is very popular, and show with virtual reality wear-type
Show appearing on the market so that more people begins to focus on this market of device oculus rift and htc vive two product.Vr technology profit
With one or one group of eyeglass, image is made to be presented on us at the moment.But the interpupillary distance of human eye and diopter (myopia or hypermetropia journey
Degree) vary with each individual, experience when with same vr glasses for the people of the people of twenty-twenty vision and myopia and hypermetropia is completely not
With.In the same manner, the experience of the less people of interpupillary distance and the larger people of interpupillary distance is also to have very big difference.And, the eyes of same people
There is also diopter (myopia or hypermetropia degree) different oculopupillary asymmetric with two.Based on this phenomenon, vr glasses need
Possess diopter and interpupillary distance regulatory function.
Diopter and interpupillary distance are adjusted, in vr class product on sale on the market, have can only adjust interpupillary distance, and have can only adjust
Diopter, interpupillary distance diopter is all adjustable to be but also that eyes are adjusted simultaneously, causes two eyes discrepant major part users one
Eyes are clear, and another eyes but obscure, and can only meet general demand for experience, do not reach higher experience level.
Therefore, it is necessary to propose a kind of vr glasses that can individually adjust left and right lens refractive power and interpupillary distance, with full
The demand of sufficient different user.
Utility model content
This utility model provides the virtual reality glasses that a kind of eyes diopter and interpupillary distance all can individually be adjusted.Solve
User affects to wear the problem of the visual effect of virtual reality glasses viewing because of the difference of interpupillary distance size and near-sighted hypermetropia.
A kind of virtual reality video eyeglasses that this utility model provides are it is characterised in that include mirror holder, two interpupillary distances
Regulating system, two diopter regulating systems and two lens barrels, wherein,
Described mirror holder includes a slideway, two columns and two Auxiliary Tracks, and described two columns are connected to institute
State the two ends of slideway, described two Auxiliary Tracks are connected respectively in the middle part of described slideway;
Each described interpupillary distance regulating system is assemblied in described column and described auxiliary rail positioned at described mirror holder the same side
Between road;
Each described diopter regulating system is assemblied in corresponding described interpupillary distance regulating system;
Described two interpupillary distance regulating systems, described two diopter regulating system and described two lens barrel have symmetrical knot
Structure.
Described mirror holder further includes:
Two holes of the strip on described slideway, described two holes are in a left side with respect to the center of described slideway
Right symmetrical;
One draw-in groove is had on each described Auxiliary Track.
Further, each described interpupillary distance regulating system includes lens cone frame and slide mechanism, wherein,
The body part of described lens cone frame has the part being fixedly connected with described lens barrel;
The upper end of described lens cone frame has the first projection, and described first projection has two studs;
The side of described lens cone frame has the gimbal lever;
The lower end of described lens cone frame has position-limit mechanism, described position-limit mechanism has and described diopter regulating system
The part being fixedly connected;
Described slide mechanism is fixedly connected with described stud.
Preferably, described slide mechanism includes action bars.
Further, each described diopter regulating system includes diopter left regulation wheel, gear, motion thread axle and outer
Shell, wherein,
Described diopter left regulation wheel is assemblied on the described position-limit mechanism of described lens cone frame;
Described gear is securely fitted on described motion thread axle, and is engaged with described diopter left regulation wheel;
One end of described motion thread axle has male thread;
On described shell, the position of corresponding described motion thread axle is provided with thread groove, is provided with female spiral shell in described thread groove
Stricture of vagina.
Preferably, described diopter left regulation wheel has identical modulus and the different numbers of teeth from described gear.
Preferably, described male thread and described box thread have the identical diameter of thread, pitch and screw thread form.
Further, described shell has the device of fixing display element.
Compared with prior art, the beneficial effects of the utility model are to be bent using a kind of eyes provided by the utility model
The virtual reality glasses that luminosity and interpupillary distance all can individually be adjusted, its structure simple it is adaptable to most users crowd, Yong Huke
Adjust described interpupillary distance regulating system and diopter regulating system according to the interpupillary distance size of oneself and near-sighted hypermetropia degree, make virtual existing
It is in optimum state during real glasses, improve visual experience effect.
Brief description
With specific embodiment, this utility model slide fastener is described further below in conjunction with the accompanying drawings it should be noted that this
A little accompanying drawings are not necessarily drawn to scale.
Fig. 1 is the structural representation of the virtual reality video eyeglasses according to this utility model embodiment;
Fig. 2 is the structural representation of the mirror holder in the virtual reality glasses according to this utility model embodiment;
Fig. 3 is the structural representation of the interpupillary distance regulating system in the virtual reality glasses according to this utility model embodiment;
Fig. 4 is the section according to the diopter regulating system in the virtual reality video eyeglasses of this utility model embodiment
Figure;
Fig. 5 is the front view according to the diopter regulating system in the virtual reality video eyeglasses of this utility model embodiment
And sectional view;And
Fig. 6 is the section according to the diopter regulating system in the virtual reality video eyeglasses of this utility model embodiment
Figure.
Specific embodiment
Below in conjunction with the accompanying drawings this utility model is further illustrated.
With reference to Fig. 1, it show the structural representation of the virtual reality video eyeglasses according to this utility model embodiment.Described
Virtual reality video eyeglasses 10 include a mirror holder 2, two diopter regulating systems 3 of 1, two interpupillary distance regulating systems and two mirrors
Cylinder 4.Described mirror holder 1 includes 11, two columns 12 of a slideway and two Auxiliary Tracks 13, and described two columns 12 connect respectively
At the two ends of described slideway 11, described two Auxiliary Tracks 13 are connected respectively in the middle part of described slideway 11;Described slideway 11, described
Column 12 and described Auxiliary Track 13 can be integrally formed and form it is also possible to manufacture to reassemble respectively.Each described interpupillary distance is adjusted
Section system 2 is assemblied between the described column 12 and described Auxiliary Track 13 of described mirror holder 1 the same side.Each is described in the wrong
Luminosity regulating system 3 and each described lens barrel 4 are assemblied in corresponding described interpupillary distance regulating system 2.Described two interpupillary distances are adjusted
Section system 2, described two diopter regulating system 3 and described two lens barrel 4 have symmetrical structure, specifically, in this enforcement
Example in, be relative axis aa ' symmetrically.
In order to more clearly describe position, annexation and the operation principle of all parts of virtual reality video eyeglasses,
Illustrate below in conjunction with each exploded view.
With reference to Fig. 2, it show the structural representation of the mirror holder in the virtual reality glasses according to this utility model embodiment.
As previously described, described mirror holder 1 includes described slideway 11, described column 12 and described Auxiliary Track 13.Described slideway 11
On there is the hole 11-1 of two strips, described two hole 11-1 are symmetrical with respect to the center of described slideway 11;
The length of each described hole 11-1 defines the scope that unilateral interpupillary distance is adjusted.On each described Auxiliary Track 13, there is one
Draw-in groove 13-1, for increasing the stability of described diopter regulating system 3.
With reference to Fig. 3, it show the knot of the interpupillary distance regulating system in the virtual reality glasses according to this utility model embodiment
Structure schematic diagram.The inclusion lens cone frame 20 of each described interpupillary distance regulating system 2 and slide mechanism 21.Wherein, described lens barrel props up
The body part 20-1 of frame 20 has the part being fixedly connected with described lens barrel 4;Specifically, in the present embodiment, it is four spiral shells
Post, can be by described four studs and the corresponding four screw fixing assemblings on described lens barrel 4 by screw.Described lens barrel props up
The upper end of frame 20 has the first raised 20-2, and the described first raised 20-2 has two stud 20-3.Described first raised 20-
2 be located at described mirror holder 1 described slideways 11 lower section, described two stud 20-3 pass through described slideway 11 described hole 11-1 to
Outer protrusion, and can move in described hole 11-1, its moving range is limited by the length of described hole 11-1.Described lens barrel props up
The side of frame 20 has gimbal lever 20-4, and described gimbal lever 20-4 inserts in the described draw-in groove 13-1 of described mirror holder 1, in this enforcement
In example, the width of described draw-in groove 13-1 is slightly larger than the thickness of described gimbal lever 20-4, therefore, when described lens cone frame is slided,
By described gimbal lever 20-4 is inserted described draw-in groove 13-1 it is possible to suppress rocking of described lens cone frame 20.Described lens barrel
The lower end of support 20 has position-limit mechanism 20-5, described position-limit mechanism 20-5 has fixing with described diopter regulating system 3
The part connecting;Specifically, in the present embodiment, the part for being fixedly connected includes a rotary shaft and a screw.
Certainly, those skilled in the art can using known to other machinery field for the part being fixedly connected, example
As rivet, bolt etc., and it is not limited to stud described herein, screw, rotary shaft etc..Equally, herein other local
Occurred for the part being fixedly connected, similarly can be replaced the known elements that other has identical function.
Described slide mechanism 21 is fixedly connected with described stud 20-3, and described slide mechanism 21 is located at the institute of described mirror holder 1
State above slideway 11, by the connection of described slide mechanism 21 and described stud 20-3, so that described lens cone frame 20 is hanged
Hang on the described slideway 11 of described mirror holder 1.Preferably, described slide mechanism 21 can also have action bars 21-1, with convenient
User operation.
From above structure, because described slide mechanism 21 is fixedly connected with described lens cone frame 20, work as user
When being slided in the hole 11-1 on described slideway 11 by the mobile described slide mechanism 21 of described action bars 21-1, described lens barrel props up
Frame 20 is followed described slide mechanism 21 and is moved, and the scope of its movement is limited by the length of the hole 11-1 on described slideway 11.Due to
The lens barrel 4 of human eye observation is integrally fixed in described lens cone frame 20, and when described lens cone frame 20 is mobile, described lens barrel 4 must
So and then move.
Therefore, by interpupillary distance regulating system described above, user, can be big according to the pupil of itself when using
Little and two between interpupillary distance, the described action bars 21-1 on mobile described slide mechanism 21 is so that described lens barrel 4 can
Follow described action bars 21-1 to move horizontally along described slideway 11, until user can see under the drive of described lens cone frame 20
See clearly picture.
In figure 1 it can be seen that the virtual reality video eyeglasses being provided according to this utility model embodiment, also include bending
Luminosity regulating system 3.In order that description is clearer, individually give the structural representation of single diopter regulating system below
Figure.
With reference to Fig. 4 to Fig. 6, sets forth according to the dioptric in the virtual reality video eyeglasses of this utility model embodiment
The upward view of degree regulating system 3, front view and sectional view.Described diopter regulating system 3 includes diopter left regulation wheel 31, gear
32nd, motion thread axle 33, shell 34, wherein said diopter left regulation wheel 31 is fixed by screws in positioned at described lens cone frame 20
Described rotary shaft 20-51 of described position-limit mechanism 20-5 on, so that described diopter left regulation wheel 31 can be rotated but axle will not be taken off.
Described diopter left regulation wheel 31 is engaged with described gear 32, and wherein said diopter left regulation wheel 31 has identical with described gear 32
Modulus, but there are the different numbers of teeth.Described gear 32 and described motion thread axle 33 realize integration, example by way of clamping
As, described gear 32 and described motion thread axle 33 respectively have a breach, by breach, described gear 32 is inserted described transmission spiral shell
After stricture of vagina axle 33 then the insertion end of described motion thread axle 33 is firm with e shape jump ring card, you can to make described gear 32 and described transmission
Thread spindle 33 is fixed together.One end of described motion thread axle 33 has male thread, and described shell 34 is provided with thread groove 34-
1, in described thread groove 34-1, there is box thread.Described male thread and described box thread match, that is, have identical screw thread straight
Footpath, pitch and screw thread form.
One end of described shell 34 also has the device 34-2 of fixing display element;In the present embodiment, shell 24 is preferred
For oled support.
When using above-mentioned diopter regulating system 33, diopter left regulation wheel 31 described in user's turn, drive described gear
32 and described motion thread axle 33 rotate, the described thread groove 34-1 on described shell 34 with described motion thread axle 33 turn
Move and move, and then drive described shell 34 to move along a straight line in the axial direction of described lens barrel 4.In the process, described mirror
The position of tube stent 20 and described lens barrel 4 keeps fixing, and thus keeps constant with the distance of eyes, and that is, emergent pupil is away from constant, but institute
State the distance between the display element on shell 34 and eyes of user to diminish or become big, thus realize diopter adjusting.
With reference to Fig. 5, it show and system is adjusted according to the diopter in the virtual reality video eyeglasses of this utility model embodiment
The front view of system.In figure 5 it will be seen that described lens barrel 4 be shaped as middle part rectangular, two ends be in circular arc.Described shell
34 is identical with the shape of described lens barrel 4 with the shape of described lens cone frame 20 main part, but size is slightly larger than described lens barrel 4.
As described above, each described diopter regulating system and each described interpupillary distance regulating system can be independently real
Existing diopter and interpupillary distance are adjusted, therefore, when using the virtual reality video eyeglasses providing according to this utility model, due to left and right
Both sides are each configured with independent and symmetrical diopter regulating system and interpupillary distance regulating system, and user is according to the definition of right and left eyes
Using identical control method, adjust diopter and interpupillary distance respectively, to meet the demand of different user.
Although this utility model has been described in detail with reference to disclosed embodiment it should be appreciated that, in such as institute
In the spirit and scope of the present utility model that attached claims are limited, this utility model can be carried out with multiple modifications and become
Type.
Claims (8)
1. a kind of virtual reality video eyeglasses are it is characterised in that include mirror holder, two interpupillary distance regulating systems, two dioptrics
Degree regulating system and two lens barrels, wherein,
Described mirror holder includes a slideway, two columns and two Auxiliary Tracks, and described two columns are connected to described cunning
The two ends in road, described two Auxiliary Tracks are connected respectively in the middle part of described slideway;
Each described interpupillary distance regulating system be assemblied in described column positioned at described mirror holder the same side and described Auxiliary Track it
Between;
Each described diopter regulating system is assemblied in corresponding described interpupillary distance regulating system;
Described two interpupillary distance regulating systems, described two diopter regulating system and described two lens barrel have symmetrical structure.
2. virtual reality video eyeglasses according to claim 1 are it is characterised in that described mirror holder further includes:
Two holes of the strip on described slideway, described two holes are in that left and right is right with respect to the center of described slideway
Claim;
One draw-in groove is had on each described Auxiliary Track.
3. virtual reality video eyeglasses according to claim 1 are it is characterised in that each described interpupillary distance regulating system bag
Include lens cone frame and slide mechanism, wherein,
The body part of described lens cone frame has the part being fixedly connected with described lens barrel;
The upper end of described lens cone frame has the first projection, and described first projection has two studs;
The side of described lens cone frame has the gimbal lever;
The lower end of described lens cone frame has position-limit mechanism, described position-limit mechanism has and fixes with described diopter regulating system
The part connecting;
Described slide mechanism is fixedly connected with described stud.
4. virtual reality video eyeglasses according to claim 3 are it is characterised in that described slide mechanism includes action bars.
5. virtual reality video eyeglasses according to claim 3 are it is characterised in that each described diopter regulating system
Including diopter left regulation wheel, gear, motion thread axle and shell, wherein,
Described diopter left regulation wheel is assemblied on the described position-limit mechanism of described lens cone frame;
Described gear is securely fitted on described motion thread axle, and is engaged with described diopter left regulation wheel;
One end of described motion thread axle has male thread;
On described shell, the position of corresponding described motion thread axle is provided with thread groove, is provided with box thread in described thread groove.
6. virtual reality video eyeglasses according to claim 5 are it is characterised in that described diopter left regulation wheel and described tooth
Wheel has identical modulus and the different numbers of teeth.
7. virtual reality video eyeglasses according to claim 5 are it is characterised in that described male thread is had with described box thread
There are the identical diameter of thread, pitch and screw thread form.
8. virtual reality video eyeglasses according to claim 5 are it is characterised in that have fixing display unit on described shell
The device of part.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620947978.3U CN205920275U (en) | 2016-08-26 | 2016-08-26 | Virtual reality video glasses |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620947978.3U CN205920275U (en) | 2016-08-26 | 2016-08-26 | Virtual reality video glasses |
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CN201620947978.3U Withdrawn - After Issue CN205920275U (en) | 2016-08-26 | 2016-08-26 | Virtual reality video glasses |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106154557A (en) * | 2016-08-26 | 2016-11-23 | 浙江晶景光电有限公司 | A kind of virtual reality video eyeglasses |
CN111929894A (en) * | 2020-07-24 | 2020-11-13 | 光朗(海南)生物科技有限责任公司 | VR glasses with adjustable |
-
2016
- 2016-08-26 CN CN201620947978.3U patent/CN205920275U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106154557A (en) * | 2016-08-26 | 2016-11-23 | 浙江晶景光电有限公司 | A kind of virtual reality video eyeglasses |
CN111929894A (en) * | 2020-07-24 | 2020-11-13 | 光朗(海南)生物科技有限责任公司 | VR glasses with adjustable |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170201 Effective date of abandoning: 20180918 |
|
AV01 | Patent right actively abandoned |