CN206039046U - Pupil distance adjusting structure of VR glasses - Google Patents
Pupil distance adjusting structure of VR glasses Download PDFInfo
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- CN206039046U CN206039046U CN201620954334.7U CN201620954334U CN206039046U CN 206039046 U CN206039046 U CN 206039046U CN 201620954334 U CN201620954334 U CN 201620954334U CN 206039046 U CN206039046 U CN 206039046U
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- optical glass
- sliding bar
- lens
- bearing frame
- limited block
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Abstract
The embodiment of the utility model discloses pupil distance adjusting structure of VR glasses, including the lens bear, slide bar and two optical lens piece supports. The both ends of slide bar are fixed in on the lens bears the frame, and slide bar and lens are equipped with the headspace between bearing. Two optical lens piece supports are installed respectively on the slide bar, and two optical lens piece supports set up and set for the distance apart along slide bar length direction side by side. The upper portion of every optical lens piece support is equipped with anti -canting spare, and anti -canting spare includes to outside extension that extends of optical lens piece support and the kink of being connected with the extension, extension and kink form draw -in groove perpendicular with slide bar length direction and that have the settlement degree of depth, the draw -in groove bears the frame with the lens to be gone up the horizontal pole block that sets up with the slide bar is parallel and can follow the horizontal pole and slide. The bottom of every optical lens piece support is equipped with transfers the pupil button. The interpupillary distance of VR glasses can conveniently be adjusted in this application, and it is clear to make the user see the shadow, improves user's experience and feels.
Description
Technical field
This utility model is related to technical field of optical instrument, more particularly to a kind of interpupillary distance adjustment structure of VR glasses.
Background technology
Virtual reality glasses equipment, abbreviation VR glasses are a kind of smart machines for paying attention to Consumer's Experience effect.Using intelligence
Can glasses when, as the interpupillary distance of each user is not quite similar, if the interpupillary distance of VR glasses is fixed, can cause many users by
Situations such as image definition for mismatching in interpupillary distance and causing to watch is not enough, experience effect is not good occurs.
Utility model content
The purpose of this utility model is to provide a kind of interpupillary distance adjustment structure of VR glasses, with solve in prior art due to
The interpupillary distance of VR glasses is fixed, and causes the problems such as user viewing image is unintelligible, experience effect is poor.
According to embodiment of the present utility model, there is provided a kind of interpupillary distance adjustment structure of VR glasses, including:Lens-bearing
Frame, sliding bar, and two optical glass supports for being used to install optical glass;
The two ends of the sliding bar are fixed on the lens-bearing frame, and the sliding bar and the lens-bearing frame it
Between be provided with headspace;
Two optical glass supports are separately mounted on the sliding bar, and two optical glass supports are along institute
State sliding bar length direction to be arranged side by side and at a distance of setpoint distance;
The top of each optical glass support is provided with anti-canting part, and the anti-canting part is included to the optical glass
Extension and the kink being connected with the extension that bracket outer extends;The extension and the kink formed one with
The sliding bar length direction is vertical and the draw-in groove with set depth;The horizontal stroke arranged on the draw-in groove and the lens-bearing frame
Bar engages and can slide along the cross bar;The cross bar is parallel with the sliding bar;
The bottom of each optical glass support is provided with tune pupil button.
Further, the top of each optical glass support is additionally provided with plectrum structure, and the plectrum structure includes putting down
Plate portion and V-type fitting portion, the flat part and V-type fitting portion are integrally formed;The flat part is solid with the optical glass support
Fixed to connect, the V-type fitting portion is engaged with the reverse V-shaped support member arranged on the lens-bearing frame, and the V-type fitting portion can
Slide on the surface of the reverse V-shaped support member.
It is further preferred that the plectrum structure also includes a card convex, the card convex is integrally formed with the flat part, institute
Card convex is stated with the V-type fitting portion respectively positioned at the both sides of the flat part;
Jack is provided with the extension of the anti-canting part;
The card convex is embedded in the jack.
Preferably, the first limited block and second are additionally provided between the two ends that the sliding bar is fixed in the lens-bearing frame
Limited block;The through hole worn for the sliding bar is equipped with first limited block and the second limited block;
One of them described optical glass support is located between the lens-bearing frame first end and the first limited block;It is another
The optical glass support is located between the second end of the sliding bar and the second limited block;Wherein,
The first end of the lens-bearing frame is wherein one end that the lens-bearing frame fixes the sliding bar, the mirror
Second end of piece carrier is the other end that the lens-bearing frame fixes the sliding bar.
As another preferred version, the 3rd limited block and the 4th limited block on the sliding bar, are additionally provided with;
One of them described optical glass support is located between one end of the sliding bar and the 3rd limited block;It is another described
Optical glass support is located between the other end and the 4th limited block of the sliding bar.
Preferably, the tune pupil button includes keycap and connector;The connector inlay card is fixedly connected on the light
The bottom of lens supports is learned, the keycap is near the side and the optical glass support bottom of the optical glass frame bottom
Portion is affixed.
It is further preferred that being provided with friction striped away from the side of the optical glass frame bottom in the keycap.
From above technical scheme, the interpupillary distance adjustment structure of the VR glasses in the application is realized and is conveniently adjusted VR eyes
The interpupillary distance of mirror, makes user viewing clear, improves the experience sense of user.
Description of the drawings
In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below will be to embodiment
Needed for accompanying drawing to be used be briefly described, it should be apparent that, drawings in the following description are only of the present utility model
Some embodiments, for those of ordinary skill in the art, on the premise of not paying creative work, can be with according to this
A little accompanying drawings obtain other accompanying drawings.
Fig. 1 is the structural representation of the interpupillary distance adjustment structure according to the VR glasses for being preferable to carry out exemplifying;
Fig. 2 is the structural representation according to a lens-bearing frame for being preferable to carry out exemplifying;
Fig. 3 is the structural representation according to a lens-bearing frame for being provided with anti-canting part for being preferable to carry out exemplifying;
Fig. 4 is the optical glass supporting structure schematic diagram for being provided with anti-canting part shown in Fig. 3;
Fig. 5 shows the structural representation that plectrum structure is arranged on optical glass support.
Specific embodiment
Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out
Clear, complete description, it is clear that described embodiment is only this utility model a part of embodiment, rather than whole
Embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not under the premise of creative work is made
The every other embodiment for being obtained, belongs to the scope of this utility model protection.
Fig. 1 is the structural representation of the interpupillary distance adjustment structure according to the VR glasses for being preferable to carry out exemplifying.Such as Fig. 1 institutes
Show, the interpupillary distance adjustment structure of VR glasses includes lens-bearing frame 1, sliding bar 2, and two optics for being used to install optical glass
Lens supports 3.
Fig. 2 is the structural representation according to a lens-bearing frame for being preferable to carry out exemplifying.As shown in Fig. 2 sliding bar 2
Two ends are fixed on lens-bearing frame 1, and are provided with headspace between sliding bar 2 and lens-bearing frame 1.Sliding bar 2 and eyeglass
Headspace is provided between carrier 1 so that optical glass support 3 can be installed on sliding bar.
The top of two optical glass supports 3 is separately mounted on sliding bar 2, and two optical glass supports 3 are along slip
Pole length direction is arranged side by side and at a distance of setpoint distance.Two optical glass supports 3 can be on sliding bar 2 along slip pole length
Slide in direction.
The bottom of each optical glass support 3 is provided with tune pupil button 4.As one of which preferred version, in the present embodiment
Tune pupil button 4 include keycap 40 and connector 41.Wherein, 41 cocker of connector is embedded in the bottom of optical glass support 3, also may be used
It is fixedly connected with the bottom of optical glass support 3 by fixed components such as screw or bolts.In 41 inlay card of connector or fixed company
When being connected to the bottom of optical glass support 3, the side and optical glass support 3 of the keycap 40 near 3 bottom of optical glass support
Bottom is affixed.
As two optical glass supports 3 can slide along sliding bar 2, therefore stirring each optical glass frame bottom
When adjusting pupil button 4, the distance between two optical glass supports 3 can be adjusted.
As further preferred scheme, the side of the present embodiment in keycap 40 away from 3 bottom of optical glass support
It is provided with friction striped 42.Striped is set on keycap 40, beneficial to the frictional force between increase finger and keycap 40, user is used
Slighter strength is just capable of achieving the regulation to 3 position of optical glass support.It should be noted that away from optical frames in keycap
The friction striped that the side of plate rack bottom is arranged is exemplary, every knot that can increase key cap surface frictional force
Structure each falls within protection domain of the present utility model.
In the present embodiment, sliding bar 2 is a complete body of rod, it is contemplated that the spacing between user's eyes is generally one
In the range of individual setting, therefore the present embodiment is additionally provided with the first limited block 5 between the two ends of the fixation sliding bar 2 of lens-bearing frame 1
With the second limited block 6.The through hole worn for sliding bar 2 is equipped with first limited block 5 and the second limited block 6.One of them
Optical glass support 3 is located between 1 first end of lens-bearing frame and the first limited block 5;Another optical glass support 3 is located at and slides
Between second end of bar 2 and the second limited block 6.Wherein, the first end of lens-bearing frame 1 is that lens-bearing frame 1 fixes sliding bar 2
Wherein one end, the second end of lens-bearing frame 1 is the other end that lens-bearing frame 1 fixes sliding bar 2.
As another preferred embodiment, limited block can be also set on sliding bar 2 with the shifting to two optical glass supports 3
Dynamic scope is defined.Specifically, the 3rd limited block and the 4th limited block are additionally provided with sliding bar 2.One of optical frames
Plate rack 3 is located between one end of sliding bar 2 and the 3rd limited block;Another optical glass support 3 is located at the other end of sliding bar 2
Between the 4th limited block.
By the restriction to two 3 movings range of optical glass support, can make two optical glass supports 3 respectively in setting
Moving range in be adjusted, it is to avoid due to exchange pupil button 4 overexert and make between two optical glass supports 3 away from
Close to excessively or too far.
As gap is left between two optical glass supports 3 and sliding bar 2, and sliding bar 2 is circular pin, therefore in profit
With adjust 4 pairs of two optical glass supports 3 of pupil button along 2 length direction of sliding bar be adjusted when, if firmly excessive, optical glass
Can then there is the phenomenon rotated around sliding bar 2 in support 3.It is further preferred that to avoid optical glass support 3 around 2 turns of sliding bar
Dynamic, the embodiment in the application is provided with anti-canting part 7 on the top of each optical glass support 3.
Fig. 3 is the structural representation according to a lens-bearing frame for being provided with anti-canting part for being preferable to carry out exemplifying.Fig. 4
To be provided with the optical glass supporting structure schematic diagram of anti-canting part shown in Fig. 3.As shown in Figure 3 and Figure 4, anti-canting part 7 includes
The extension 70 extended to optical glass bracket outer and the kink 71 being connected with extension 70.Extension 70 and kink 71
Form an and draw-in groove with set depth vertical with 2 length direction of sliding bar.Arrange on draw-in groove and lens-bearing frame 1 with cunning
The parallel engaging of cross bar 10 of lever 2 simultaneously can be slided along cross bar 10.As, in anti-canting part 7, extension 70 and kink 71 are formed
Draw-in groove it is vertical with 2 length direction of sliding bar, when draw-in groove is fastened on the cross bar of lens-bearing frame 1, optical glass support is received
It is limited to the restriction of draw-in groove, will not realizes rotating on the circumferencial direction with the centrage of sliding bar 2 as axis, and can only be in level
Movement is realized on direction, therefore when pupil is adjusted, anti-canting part 7 can effectively prevent optical glass support from rotating.
Further, the top of each optical glass support 3 is additionally provided with plectrum structure 8.Fig. 5 shows optical glass support
The upper structural representation that plectrum structure is set.As shown in figure 5, plectrum structure includes that integrally formed flat part 80 and V-type are chimeric
Portion 81, flat part 80 are fixedly connected with optical glass support 3, reverse V-shaped arranged on V-type fitting portion 81 and lens-bearing frame 1
Support member 11 engages and can slide along 11 surface of reverse V-shaped support member.11 surface of reverse V-shaped support member is provided with multiple raised gears 12.
After the flat part 80 of plectrum structure is fixed with optical glass support 3, V-type fitting portion 81 and the lens-bearing frame 1 of plectrum structure block
Close, as V-type fitting portion 81 has certain depth on the direction vertical with sliding bar 2, thus to optical glass support 3
Rotation can play certain inhibitory action.Raised gear is set in the reverse V-shaped support surface of lens-bearing frame 1, is conducive to
Gear is fixed when adjusting pupil, is increased and is adjusted feel.
Further, plectrum structure also includes a card convex 82, and card convex is integrally formed with flat part 80, and card convex is embedding with V-type
Conjunction portion 81 is respectively positioned at the both sides of flat part 80.Jack 72 is provided with the extension 70 of anti-canting part 7, card convex 82 is embedded in jack
In 72.Card convex 82 is set in plectrum structure, jack 72 is set on the extension 70 of anti-canting part 7, by card convex 82 and inserted
Hole 72 coordinates, and makes together with plectrum structure is effectively combined with anti-canting part 7, and then when optical glass support 3 is adjusted, anti-to turn over
Turning part 7 and plectrum structure while realizing adjusting optical glass support 3, can prevent upset and in different gears while move
Between adjust.
From above technical scheme, the interpupillary distance adjustment structure of the VR glasses in the application is realized and is conveniently adjusted VR eyes
The interpupillary distance of mirror, makes user viewing clear, improves the experience sense of user.
Those skilled in the art are will readily occur to practical considering description and after putting into practice utility model disclosed herein
Other new embodiment.The application is intended to any modification of the present utility model, purposes or adaptations, these
Modification, purposes or adaptations follow general principle of the present utility model and including the undocumented this technology neck of the disclosure
Common knowledge or conventional techniques in domain.Description and embodiments be considered only as it is exemplary, it is of the present utility model real
Scope and spirit are pointed out by claim below.
It should be appreciated that this utility model is not limited to the accurate side for being described above and being shown in the drawings
Method, and various modifications and changes can be being carried out without departing from the scope.Scope of the present utility model only will by appended right
Ask to limit.
Claims (10)
1. a kind of interpupillary distance adjustment structure of VR glasses, it is characterised in that including lens-bearing frame, sliding bar, and two be used for
The optical glass support of optical glass is installed;
The two ends of the sliding bar are fixed on the lens-bearing frame, and set between the sliding bar and the lens-bearing frame
There is headspace;
Two optical glass supports are separately mounted on the sliding bar, and two optical glass supports are along the cunning
Lever length direction is arranged side by side and at a distance of setpoint distance;
The top of each optical glass support is provided with anti-canting part, and the anti-canting part is included to the optical glass support
The outside extension for extending and the kink being connected with the extension;The extension and the kink formed one with it is described
Sliding bar length direction is vertical and the draw-in groove with set depth;The cross bar card arranged on the draw-in groove and the lens-bearing frame
Merging can be slided along the cross bar;The cross bar is parallel with the sliding bar;
The bottom of each optical glass support is provided with tune pupil button.
2. the interpupillary distance adjustment structure of VR glasses according to claim 1, it is characterised in that each optical glass support
Top is additionally provided with plectrum structure, and the plectrum structure includes flat part and V-type fitting portion, the flat part and V-type fitting portion one
It is body formed;The flat part is fixedly connected with the optical glass support, is set on the V-type fitting portion and the lens-bearing frame
The reverse V-shaped support member engaging put, and the V-type fitting portion can be in the slip of the surface of the reverse V-shaped support member.
3. the interpupillary distance adjustment structure of VR glasses according to claim 2, it is characterised in that the reverse V-shaped support surface sets
There are multiple raised gears.
4. the interpupillary distance adjustment structure of VR glasses according to claim 3, it is characterised in that the plectrum structure is also including a card
Convex, the card convex is integrally formed with the flat part, and the card convex is with the V-type fitting portion respectively positioned at the two of the flat part
Side;
Jack is provided with the extension of the anti-canting part;
The card convex is embedded in the jack.
5. the interpupillary distance adjustment structure according to arbitrary described VR glasses in Claims 1-4, it is characterised in that in the eyeglass
The first limited block and the second limited block are additionally provided between the two ends of the carrier fixation sliding bar;First limited block and the second limit
The through hole worn for the sliding bar is equipped with the block of position;
One of them described optical glass support is located between the lens-bearing frame first end and the first limited block;It is another described
Optical glass support is located between the second end of the sliding bar and the second limited block;Wherein,
The first end of the lens-bearing frame is wherein one end that the lens-bearing frame fixes the sliding bar, and the eyeglass holds
Second end of carrier is the other end that the lens-bearing frame fixes the sliding bar.
6. the interpupillary distance adjustment structure according to arbitrary described VR glasses in Claims 1-4, it is characterised in that the sliding bar
On be additionally provided with the 3rd limited block and the 4th limited block;
One of them described optical glass support is located between one end of the sliding bar and the 3rd limited block;Another optics
Lens supports are located between the other end and the 4th limited block of the sliding bar.
7. the interpupillary distance adjustment structure of VR glasses according to claim 5, it is characterised in that the tune pupil button includes keycap
And connector;The connector inlay card is fixedly connected on the bottom of the optical glass support, and the keycap is near the light
The side for learning lens supports bottom is affixed with the optical glass frame bottom.
8. the interpupillary distance adjustment structure of VR glasses according to claim 7, it is characterised in that away from the light in the keycap
The side for learning lens supports bottom is provided with friction striped.
9. the interpupillary distance adjustment structure of VR glasses according to claim 6, it is characterised in that the tune pupil button includes keycap
And connector;The connector inlay card is fixedly connected on the bottom of the optical glass support, and the keycap is near the light
The side for learning lens supports bottom is affixed with the optical glass frame bottom.
10. the interpupillary distance adjustment structure of VR glasses according to claim 9, it is characterised in that away from described in the keycap
The side of optical glass frame bottom is provided with friction striped.
Priority Applications (1)
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CN201620954334.7U CN206039046U (en) | 2016-08-26 | 2016-08-26 | Pupil distance adjusting structure of VR glasses |
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Application Number | Priority Date | Filing Date | Title |
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CN201620954334.7U CN206039046U (en) | 2016-08-26 | 2016-08-26 | Pupil distance adjusting structure of VR glasses |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106199968A (en) * | 2016-08-26 | 2016-12-07 | 深圳多哚新技术有限责任公司 | The interpupillary distance adjustment structure of VR glasses |
CN109633903A (en) * | 2018-12-17 | 2019-04-16 | 许昌学院 | A kind of portable folding virtual reality glasses of focus adjustable |
-
2016
- 2016-08-26 CN CN201620954334.7U patent/CN206039046U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106199968A (en) * | 2016-08-26 | 2016-12-07 | 深圳多哚新技术有限责任公司 | The interpupillary distance adjustment structure of VR glasses |
CN109633903A (en) * | 2018-12-17 | 2019-04-16 | 许昌学院 | A kind of portable folding virtual reality glasses of focus adjustable |
CN109633903B (en) * | 2018-12-17 | 2021-01-12 | 许昌学院 | Focus adjustable portable folding virtual reality glasses |
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