CN106154557B - A kind of virtual reality video glass - Google Patents

Abstract

The invention discloses a kind of virtual reality video glasses, including a mirror holder, it includes a slideway, two columns and two Auxiliary Tracks, and described two columns are connected to the both ends of the slideway, and described two Auxiliary Tracks are connected respectively in the middle part of the slideway；Two interpupillary distance regulating systems are respectively assembled between the column and the Auxiliary Track of described mirror holder the same side；Two diopter regulating systems are respectively assembled in the corresponding interpupillary distance regulating system；Described two interpupillary distance regulating systems, described two diopter regulating systems and described two lens barrels have symmetrical structure.When using the virtual reality video glass provided according to the present invention, since the left and right sides is each configured with independent and symmetrical diopter regulating system and interpupillary distance regulating system, user uses identical adjusting method according to the clarity of right and left eyes, diopter and interpupillary distance are adjusted respectively, to meet the needs of different user.

Description

A kind of virtual reality video glass

Technical field

The present invention relates to technical field of virtual reality, more particularly to a kind of virtual reality video glass.

Background technology

Present Virtual Reality（Virtual Reality）Concept is very popular, and as virtual reality wear-type is aobvious Show appearing on the market for two products of device OCULUS RIFT and HTC VIVE so that more people begin to focus on this market.VR technology profits With one or a set of eyeglass, image is made to be presented on us at the moment.But the interpupillary distance of human eye and diopter（Myopia or long sight journey Degree）It varies with each individual, the experience of the people of twenty-twenty vision and the people of myopia and long sight when with the same VR glasses is completely not With.Similarly, the experience of the smaller people of interpupillary distance and the larger people of interpupillary distance are also to have very big difference.Moreover, the eyes of same people There is also diopters（Myopia or long sight degree）It is different and two is oculopupillary asymmetric.Based on this phenomenon, VR glasses need Have diopter and interpupillary distance regulatory function.

Diopter and interpupillary distance are adjusted, on the market in VR class products on sale, what is had can only adjust interpupillary distance, and what is had can only adjust Diopter, it is but also that eyes are adjusted simultaneously that interpupillary distance diopter is all adjustable, causes the discrepant most of user one of two eyes Eyes are clear, and another eyes but obscure, and can only meet general demand for experience, and higher experience level is not achieved.

Therefore, it is necessary to a kind of VR glasses that can individually adjust left and right lens refractive power and interpupillary distance be proposed, with full The demand of sufficient different user.

Invention content

The present invention provides the virtual reality glasses that a kind of eyes diopter and interpupillary distance can be adjusted individually.Solves user The problem of influencing to wear the visual effect of virtual reality glasses viewing due to the difference of interpupillary distance size and near-sighted long sight.

A kind of virtual reality video glass provided by the invention, which is characterized in that adjusted including a mirror holder, two interpupillary distances System, two diopter regulating systems and two lens barrels, wherein

The mirror holder includes that a slideway, two columns and two Auxiliary Tracks, described two columns are connected to institute The both ends of slideway are stated, described two Auxiliary Tracks are connected respectively in the middle part of the slideway；

Each described interpupillary distance regulating system is assemblied in the column and the auxiliary rail positioned at described mirror holder the same side Between road；

Each described diopter regulating system is assemblied in the corresponding interpupillary distance regulating system；

Described two interpupillary distance regulating systems, described two diopter regulating systems and described two lens barrels have symmetrical knot Structure.

The mirror holder further comprises：

Two holes of the strip on the slideway, described two holes are in a left side relative to the center of the slideway It is right symmetrical；

There are one card slots for tool on each described Auxiliary Track.

Further, each described interpupillary distance regulating system includes lens cone frame and sliding equipment, wherein

The body part of the lens cone frame has the component being fixedly connected with the lens barrel；

The upper end of the lens cone frame has the first raised, stud there are two tools in first protrusion；

The side of the lens cone frame has balancing pole；

The lower end of the lens cone frame has position-limit mechanism, has and the diopter regulating system on the position-limit mechanism The component being fixedly connected；

The sliding equipment is fixedly connected with the stud.

Preferably, the sliding equipment includes operating lever.

Further, each described diopter regulating system includes diopter regulating wheel, gear, motion thread axis and outer Shell, wherein

The diopter regulating wheel is assemblied on the position-limit mechanism of the lens cone frame；

The gear is securely fitted on the motion thread axis, and is engaged with the diopter regulating wheel；

One end of the motion thread axis has male thread；

The position that the motion thread axis is corresponded on the shell is provided with thread groove, and female spiral shell is provided in the thread groove Line.

Preferably, the diopter regulating wheel and gear modulus having the same and the different numbers of teeth.

Preferably, the male thread and the box thread diameter of thread having the same, screw pitch and thread shape.

Further, there is the device of fixed display element on the shell.

Compared with prior art, the beneficial effects of the invention are as follows use a kind of eyes diopter and pupil provided by the present invention It is simple in structure away from the virtual reality glasses that can individually adjust, it is suitable for most users crowd, user can be according to oneself Interpupillary distance size and near-sighted long sight degree adjust the interpupillary distance regulating system and diopter regulating system, when making virtual reality glasses In optimum state, visual experience effect is improved.

Description of the drawings

Slide fastener of the present invention is described further in the following with reference to the drawings and specific embodiments, it should be noted that these are attached Figure is not necessarily drawn to scale.

Fig. 1 is the structural schematic diagram according to the virtual reality video glass of the embodiment of the present invention；

Fig. 2 is the structural schematic diagram according to the mirror holder in the virtual reality glasses of the embodiment of the present invention；

Fig. 3 is the structural schematic diagram according to the interpupillary distance regulating system in the virtual reality glasses of the embodiment of the present invention；

Fig. 4 is the sectional view according to the diopter regulating system in the virtual reality video glass of the embodiment of the present invention；

Fig. 5 is the front view according to the diopter regulating system in the virtual reality video glass of the embodiment of the present invention and cuts Face figure；And

Fig. 6 is the sectional view according to the diopter regulating system in the virtual reality video glass of the embodiment of the present invention.

Specific implementation mode

The following further describes the present invention with reference to the drawings.

Referring to Fig.1, it show the structural schematic diagram of virtual reality video glass according to the ... of the embodiment of the present invention.It is described virtual Real video glass 10 includes a diopter regulating system 3 of interpupillary distance regulating system 2, two of mirror holder 1, two and two lens barrels 4. The mirror holder 1 includes that 11, two columns 12 of a slideway and two Auxiliary Tracks 13, described two columns 12 are connected to institute The both ends of slideway 11 are stated, described two Auxiliary Tracks 13 are connected respectively to 11 middle part of the slideway；The slideway 11, the column 12 and the Auxiliary Track 13 can be integrally formed, can also manufacture and reassemble respectively.Each described interpupillary distance adjusts system System 2 is assemblied between the column 12 and the Auxiliary Track 13 of 1 the same side of the mirror holder.Each described diopter Regulating system 3 and each described lens barrel 4 are assemblied in the corresponding interpupillary distance regulating system 2.Described two interpupillary distances adjust system System 2, described two diopter regulating systems 3 and described two lens barrels 4 have symmetrical structure, specifically, in the present embodiment, It is relative axis AA ' in symmetrical.

In order to more clearly describe virtual reality video glass all parts position, connection relation and operation principle, It is illustrated below in conjunction with each exploded view.

With reference to Fig. 2, it show the structural schematic diagram of the mirror holder in virtual reality glasses according to the ... of the embodiment of the present invention.Such as it Preceding described, the mirror holder 1 includes the slideway 11, the column 12 and the Auxiliary Track 13.Have on the slideway 11 There are two the hole 11-1 of strip, described two hole 11-1 are symmetrical relative to the center of the slideway 11；It is each The length of a hole 11-1 defines the range that unilateral interpupillary distance is adjusted.There are one card slots for tool on each described Auxiliary Track 13 13-1, the stability for increasing the diopter regulating system 3.

With reference to Fig. 3, the structure for the interpupillary distance regulating system showing in virtual reality glasses according to the ... of the embodiment of the present invention is shown It is intended to.Each interpupillary distance regulating system 2 includes lens cone frame 20 and sliding equipment 21.Wherein, the lens cone frame 20 Body part 20-1 there is the component that is fixedly connected with the lens barrel 4；Specifically, in the present embodiment, it is four studs, leads to Crossing screw can be by four studs, four screw hole fixing assembling corresponding on the lens barrel 4.The lens cone frame 20 Upper end have the first protrusion 20-2, the first protrusion 20-2 on have there are two stud 20-3.First protrusion 20-2 In the lower section of the slideway 11 of the mirror holder 1, described two stud 20-3 pass through the hole 11-1 of the slideway 11 outside Protrusion, and can be moved in the hole 11-1, moving range is limited by the length of the hole 11-1.The lens cone frame 20 side has balancing pole 20-4, and the balancing pole 20-4 is inserted into the card slot 13-1 of the mirror holder 1, in the present embodiment In, the width of the card slot 13-1 is slightly larger than the thickness of the balancing pole 20-4, therefore, when the lens cone frame is slided, leads to It crosses and the balancing pole 20-4 is inserted into the card slot 13-1, so that it may to inhibit the shaking of the lens cone frame 20.The lens barrel branch The lower end of frame 20, which has on position-limit mechanism 20-5, the position-limit mechanism 20-5 to have to fix with the diopter regulating system 3, to be connected The component connect；Specifically, in the present embodiment, the component for being fixedly connected includes a rotation axis and a screw hole.

Certainly, the component for being fixedly connected known to other machinery field, example may be used in those skilled in the art Such as rivet, bolt, and be not limited to stud described herein, screw, rotation axis etc..Equally, other places herein The component for being fixedly connected occurred similarly can be replaced other known elements with the same function.

The sliding equipment 21 is fixedly connected with the stud 20-3, and the sliding equipment 21 is located at the institute of the mirror holder 1 11 top of slideway is stated, by the connection of the sliding equipment 21 and the stud 20-3, can so that the lens cone frame 20 is outstanding It hangs on the slideway 11 of the mirror holder 1.Preferably, the sliding equipment 21 can also have operating lever 21-1, with convenient User's operation.

By the above structure it is found that since the sliding equipment 21 is fixedly connected with the lens cone frame 20, work as user When moving the sliding equipment 21 by the operating lever 21-1 and being slided in the hole 11-1 on the slideway 11, the lens barrel branch Frame 20 follows the sliding equipment 21 to move, and the range of movement is limited by the length of the hole 11-1 on the slideway 11.Due to The lens barrel 4 of human eye observation is integrally fixed in the lens cone frame 20, and when the lens cone frame 20 moves, the lens barrel 4 must So and then move.

Therefore, by interpupillary distance regulating system described above, user when in use, can be big according to the pupil of itself It is small and two between interpupillary distance, the operating lever 21-1 on the mobile sliding equipment 21 so that the lens barrel 4 can The operating lever 21-1 is followed to be moved horizontally along the slideway 11 under the drive of the lens cone frame 20, until user can see See clearly picture.

In figure 1 it can be seen that the virtual reality video glass provided according to embodiments of the present invention, further includes diopter Regulating system 3.In order to keep description clearer, the structural schematic diagram of single diopter regulating system is individually given below.

With reference to fig. 4 to fig. 6, the diopter tune in virtual reality video glass according to the ... of the embodiment of the present invention is set forth Upward view, front view and the sectional view of section system 3.The diopter regulating system 3 include diopter regulating wheel 31, gear 32, Motion thread axis 33, shell 34, wherein the diopter regulating wheel 31 is fixed by screws in positioned at the lens cone frame 20 On the rotation axis 20-51 of the position-limit mechanism 20-5, the diopter regulating wheel 31 is allow to rotate but not take off axis.Institute It states diopter regulating wheel 31 to be engaged with the gear 32, wherein the diopter regulating wheel 31 has identical mould with the gear 32 Number, but there is the different numbers of teeth.The gear 32 and the motion thread axis 33 realize integration, example by way of clamping Such as, respectively there are one notches for the gear 32 and the motion thread axis 33, and the gear 32 is inserted into the transmission spiral shell by notch After line axis 33, then the insertion end of the motion thread axis 33 is firm with E shape clamp springs card, you can make the gear 32 and the transmission Thread spindle 33 is fixed together.There is male thread, the shell 34 to be equipped with thread groove 34- for one end of the motion thread axis 33 There is box thread in 1, the thread groove 34-1.The male thread and the box thread match, i.e., screw thread having the same is straight Diameter, screw pitch and thread shape.

One end of the shell 34 also has the device 34-2 of fixed display element；In the present embodiment, shell 24 is preferred For OLED holders.

When stating diopter regulating system 33 in use, diopter regulating wheel 31 described in user's turn drives the gear 32 and the motion thread axis 33 rotation, the thread groove 34-1 on the shell 34 turn with the motion thread axis 33 It moves and moves, and then the shell 34 is driven to be moved in a straight line in the axial direction of the lens barrel 4.In the process, the mirror The position of tube stent 20 and the lens barrel 4 is kept fixed, and thus keeps constant at a distance from eyes, i.e. emergent pupil is away from constant, but institute Stating the distance between display element on shell 34 and eyes of user can become smaller or larger, to realize that diopter is adjusted.

With reference to figure 5, it show the diopter regulating system in virtual reality video glass according to the ... of the embodiment of the present invention Front view.In figure 5 it will be seen that the shape of the lens barrel 4 is that middle part is rectangular, both ends are arc-shaped.The shell 34 with The shape of 20 main part of the lens cone frame is identical as the shape of the lens barrel 4, but size is slightly larger than the 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 glass provided according to the present invention, due to the left and right sides It is each configured with independent and symmetrical diopter regulating system and interpupillary distance regulating system, user uses according to the clarity of right and left eyes Identical adjusting method adjusts diopter and interpupillary distance, to meet the needs of different user respectively.

Although the present invention is described in detail with reference to disclosed embodiment, it should be appreciated that, in such as appended power In the spirit and scope of the present invention defined by sharp claim, can to the present invention numerous modifications and variations may be made.

Claims (6)

1. a kind of virtual reality video glass, which is characterized in that including a mirror holder, two interpupillary distance regulating systems, two dioptrics Spend regulating system and two lens barrels, wherein

The mirror holder includes that a slideway, two columns and two Auxiliary Tracks, described two columns are connected to the cunning The both ends in road, described two Auxiliary Tracks are connected respectively in the middle part of the slideway；

Each described interpupillary distance regulating system be assemblied in positioned at the column of described mirror holder the same side and the Auxiliary Track it Between；

Each described diopter regulating system is assemblied in the corresponding interpupillary distance regulating system；

Described two interpupillary distance regulating systems, described two diopter regulating systems and described two lens barrels have symmetrical structure；

Each described interpupillary distance regulating system includes lens cone frame and sliding equipment, wherein

The body part of the lens cone frame has the component being fixedly connected with the lens barrel；

The upper end of the lens cone frame has the first raised, stud there are two tools in first protrusion；

The side of the lens cone frame has balancing pole；

The lower end of the lens cone frame has position-limit mechanism, has on the position-limit mechanism and is fixed with the diopter regulating system The component of connection；

The sliding equipment is fixedly connected with the stud；

Each described diopter regulating system includes diopter regulating wheel, gear, motion thread axis and shell, wherein

The diopter regulating wheel is assemblied on the position-limit mechanism of the lens cone frame；

The gear is securely fitted on the motion thread axis, and is engaged with the diopter regulating wheel；

One end of the motion thread axis has male thread；

The position that the motion thread axis is corresponded on the shell is provided with thread groove, and box thread is provided in the thread groove.

2. virtual reality video glass according to claim 1, which is characterized in that the mirror holder further comprises：

Two holes of the strip on the slideway, described two holes are in left and right pair relative to the center of the slideway Claim；

There are one card slots for tool on each described Auxiliary Track.

3. virtual reality video glass according to claim 1, which is characterized in that the sliding equipment includes operating lever.

4. virtual reality video glass according to claim 1, which is characterized in that the diopter regulating wheel and the tooth Take turns modulus having the same and the different numbers of teeth.

5. virtual reality video glass according to claim 1, which is characterized in that the male thread has with the box thread There are the identical diameter of thread, screw pitch and thread shape.

6. virtual reality video glass according to claim 1, which is characterized in that have fixed display member on the shell The device of part.