CN206741094U - A kind of virtual reality glasses - Google Patents
A kind of virtual reality glasses Download PDFInfo
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- CN206741094U CN206741094U CN201720376763.5U CN201720376763U CN206741094U CN 206741094 U CN206741094 U CN 206741094U CN 201720376763 U CN201720376763 U CN 201720376763U CN 206741094 U CN206741094 U CN 206741094U
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Abstract
Embodiment of the present utility model discloses a kind of virtual reality glasses, is related to technical field of virtual reality, can avoid the eyes of user directly facing asthenopia sense caused by high intensity display screen.The glasses include:Binocular ophthalmoscope framework, is provided with single plane fluoroscopy eyeglass on the binocular ophthalmoscope framework, and the reflecting surface of the single plane fluoroscopy eyeglass is towards wearer direction;Position close to wearer's forehead direction on the binocular ophthalmoscope framework is provided with display screen;The image that the display screen is shown is reflected on the reflecting surface of the single plane fluoroscopy eyeglass.The utility model is suitable for the experience such as virtual reality video, game.
Description
Technical field
Technical field of virtual reality is the utility model is related to, more particularly, to a kind of virtual reality glasses.
Background technology
Virtual reality (VR, virtual reality) glasses are a kind of virtual reality head-mounted display equipment, using wearing
Vision of the people to the external world, sense of hearing closing, guiding user are produced a kind of sensation in virtual environment by formula display device.It is aobvious
It is the image that right and left eyes screen shows right and left eyes respectively to show principle, and human eye produces after obtaining this discrepant information of band in brain
Raw third dimension.
Existing virtual reality glasses are generally a box-shaped device either helmet-type equipment, its built-in display screen or are used for
The bearing frame of the electronic equipments such as mobile phone is placed, when user needs to watch program, is worn on head, it is direct by display screen
Viewing, or the electronic equipments such as mobile phone are positioned on the bearing frame, watched, used by electronic equipments such as mobile phones
Because display screen is constantly in the state of being highlighted in journey, user enters directly facing the display screen in high brightness state
Row is watched for a long time, eyes is produced sense of fatigue, or even vision impairment.
The content of the invention
In view of this, the utility model embodiment provides a kind of virtual reality glasses, can avoid the direct face of eyes of user
To asthenopia sense caused by high intensity display screen.
To reach above-mentioned purpose, embodiment of the present utility model adopts the following technical scheme that:
A kind of virtual reality glasses, including:Binocular ophthalmoscope framework, single plane fluoroscopy is installed on the binocular ophthalmoscope framework
Eyeglass, the reflecting surface of the single plane fluoroscopy eyeglass is towards wearer direction;Close to wearer's volume on the binocular ophthalmoscope framework
The position in head direction is provided with display screen;The image that the display screen is shown obtains on the reflecting surface of the single plane fluoroscopy eyeglass
Reflection.
Alternatively, the virtual reality glasses also include:The brightness automatic control unit electrically connected with the display screen, with
And the first environment brightness impression device and second environment brightness impression device being connected respectively with the brightness automatic control unit;Its
In, the first environment brightness impression device, sense the ambient brightness on the outside of the binocular ophthalmoscope framework and to obtain outside environment bright
Degrees of data;The second environment brightness impression device, sense side ring in ambient brightness and the acquisition on the inside of the binocular ophthalmoscope framework
Border brightness data;The brightness automatic control unit according to the outside environment brightness data and inside environment brightness data, with
And the brightness adjustment strategy pre-set, the display brightness of display screen described in adjust automatically.
Alternatively, the brightness automatic control unit is built in the display screen;The first environment brightness impression device
It is arranged on the outside of the binocular ophthalmoscope framework;The second environment brightness impression device is arranged on the inside of the binocular ophthalmoscope framework.
Alternatively, it is provided with shutter in the lower section of the display screen.
Alternatively, binocular sight partition panel is provided among the binocular ophthalmoscope framework.
Alternatively, the single plane fluoroscopy eyeglass is level crossing or the curved mirror with radian;
The one side of the curved mirror is plane or cancave cambered surface, and another side is convex globoidal, the plane or concave arc of the curved mirror
Face is reflecting surface, i.e., towards wearer's face direction.
Alternatively, the display screen is provided with audio output interface;Temple is additionally provided with the binocular ophthalmoscope framework, it is described
Temple one end is connected with the binocular ophthalmoscope framework, and the temple is hollow structure, and wire is provided with the hollow structure,
The wire is provided with the first exit, is provided with headset plug on first exit, and first exit is from described
Temple and the junction of the framework are drawn, and are connected by the headset plug with the audio output interface;The wire
The second exit is additionally provided with, second exit is drawn from the other end of the temple, is provided with and prolongs in the temple other end
The annular ring stretched, is provided with sounding body in annular ring, and the sounding body is connected with second exit.
A kind of virtual reality glasses of the utility model the present embodiment, pass through the close wearer on the binocular ophthalmoscope framework
The direction position of forehead sets display screen, and single plane fluoroscopy eyeglass is set on binocular ophthalmoscope framework, when user watches video,
The image that the display screen is shown can be projected on the reflecting surface of the single plane fluoroscopy eyeglass, pass through the reflective surface to use
In the right and left eyes at family, the eyes of user are avoided directly facing asthenopia sense caused by high intensity display screen.
Brief description of the drawings
, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art
Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that, drawings in the following description are only
It is some embodiments of the utility model, for those of ordinary skill in the art, is not paying the premise of creative work
Under, other accompanying drawings can also be obtained according to these accompanying drawings.
Fig. 1 is embodiment virtual reality glasses basic structure schematic diagram of the present utility model;
Fig. 2 is embodiment virtual reality glasses operation principle schematic diagram of the present utility model.
Embodiment
A kind of virtual reality glasses of the utility model embodiment are described in detail below in conjunction with the accompanying drawings.
It will be appreciated that described embodiment is only the utility model part of the embodiment, rather than whole implementation
Example.Based on the embodiment in the utility model, those of ordinary skill in the art are obtained under the premise of creative work is not made
The all other embodiment obtained, belong to the scope of the utility model protection.
Embodiment one
Referring to shown in Fig. 1 and Fig. 2, a kind of virtual reality glasses of the utility model embodiment, including:Binocular ophthalmoscope framework 1,
Single plane fluoroscopy eyeglass 2 is installed on the binocular ophthalmoscope framework 1, the reflecting surface of the single plane fluoroscopy eyeglass 2 is towards wearer
Direction;Position close to wearer's forehead direction on the binocular ophthalmoscope framework 1 is provided with display screen 3;The display screen 3 is aobvious
The image shown is reflected on the reflecting surface of the single plane fluoroscopy eyeglass 2.
Referring to shown in Fig. 2, being the utility model embodiment virtual reality glasses operating diagram, the figure that display screen 3 is shown
Reflecting surface as projecting the single plane fluoroscopy eyeglass 2, the reflecting surface of the single plane fluoroscopy eyeglass 2 are anti-by image caused by projection
Be mapped in the eyes O of user, user's eyes O need not directly facing high brightness display screen with regard to that can watch on display screen
Content;The display screen 3 itself can be collection picture signal input, be output in integral electronic display, can also pass through it
Image is presented by mode incoming video signal in he.
A kind of virtual reality glasses of the present embodiment, pass through the direction of close wearer's forehead on the binocular ophthalmoscope framework
Position sets display screen, and single plane fluoroscopy eyeglass is set towards the direction of wearer in front of binocular ophthalmoscope framework, when user sees
When seeing video, the image that the display screen is shown can be projected on the reflecting surface of the single plane fluoroscopy eyeglass, pass through the reflection
Face is reflexed in the right and left eyes of user, avoids that existing virtual reality glasses are in use, and user shows directly facing high brightness
Eye fatigue sense caused by display screen.
Further, the display screen short range projection image is on the single plane fluoroscopy eyeglass, it is not necessary to too big throwing
Power is penetrated, small power consumption, so as to which substantial amounts of heat will not be produced, is adapted to user to wear for a long time.
In the present embodiment, alternatively, the single plane fluoroscopy eyeglass 2 is level crossing or the curved mirror with radian.The list
Divide to perspective eyeglass 2 for tow sides, front i.e. reflecting surface will be towards the wearers of the glasses, i.e., towards the binocular
On the inside of frame, reverse side is then towards binocular ophthalmoscope framework outside;The curved mirror side with radian is plane or concave arc
Face, opposite side are raised cambered surfaces;When the eyeglass 2 has the curved mirror of radian, the front, i.e., towards the binocular
The one side of inframe side is plane or cancave cambered surface, the reverse side, i.e., is dimpling arc towards the one side on the outside of the binocular ophthalmoscope framework
Face.The ambient brightness on the inside of binocular ophthalmoscope framework residing for the single plane fluoroscopy front lens surface can be located at higher than reverse side in use
Ambient brightness on the outside of binocular ophthalmoscope framework, according to the property of single plane fluoroscopy mirror, what the side of low light degree can will be apparent that sees
The object of high brightness side, so, user is during wearing, when being exchanged with the people of surrounding, due to residing for other side
Ambient brightness can be clear from passing through institute less than the ambient brightness on the inside of the binocular framework residing for user's glasses, the people of surrounding
The expression in the eyes that single plane fluoroscopy eyeglass sees user clearly is stated, does not influence normal Eye contact, the void that can solve existing box type
Intend Reality glasses during wearing, the both sides of exchange do not see the eyes of other side due to having covered face, and the exchange occurred
Problem on obstacle.
In the present embodiment, alternatively, shutter 4 is provided with the lower section of the display screen, on the one hand the shutter 4, is used
A part of light sent when 3 display image of display screen is blocked is shone directly into the eyes of user;On the other hand,
The image for showing the display screen 3 is projected on the reflecting surface of the single plane fluoroscopy eyeglass 2, to ensure to greatest extent to
Light projection is on the reflecting surface of single plane fluoroscopy eyeglass 2.
In the present embodiment, alternatively, binocular sight partition panel 5 is provided among the binocular ophthalmoscope framework, it is described double
Mesh realizes that the binocular ophthalmoscope lower portion has been divided into two passages by partition panel 5, and described two passages correspond respectively to make
The right and left eyes of user, the binocular sight partition panel 5 are used to separate the sight of two, make to present on single plane fluoroscopy lens reflecting face
Left-eye image can only enter left eye by left passage, eye image can only enter right eye by right passage, can thus make
User produces the experience placed oneself in the midst of in true environment and felt.
Embodiment two
Referring to shown in Fig. 1 and Fig. 2, a kind of virtual reality glasses of the utility model embodiment, its basic structure and function are real
Existing principle is essentially identical, and difference is, the present embodiment is bright to ensure the environment of the tow sides of single plane fluoroscopy eyeglass 2
Degree can flexibly adjust the ambient brightness residing for the positive and negative of single plane fluoroscopy eyeglass 2 according to the needs in actual exchange;Make
The wearer of the glasses and with the expression in the eyes and face to other side can be seen in real time each other that it is exchanged, be also provided with it is described
The brightness automatic control unit 6 that display screen 3 electrically connects, and the first ring being connected respectively with the brightness automatic control unit 6
Border brightness impression device 7 and second environment brightness impression device 8;Wherein, the first environment brightness impression device 7, it is described for sensing
The ambient brightness in the outside of binocular ophthalmoscope framework 1 simultaneously obtains outside environment brightness data;The second environment brightness impression device 8, use
In the ambient brightness for sensing the inner side of binocular ophthalmoscope framework 1 and obtain inside environment brightness data;The brightness automatically controls
Unit 6 is according to the outside environment brightness data and inside environment brightness data, and the brightness adjustment strategy pre-set, from
The display brightness of the dynamic adjustment display screen 3;The adjustable strategies are binocular ophthalmoscope framework outside, that is, described
The brightness of the reverse side of single plane fluoroscopy eyeglass 2 or the space natural environment residing for user itself with the inside of the binocular framework,
Binocular framework and display screen and single plane fluoroscopy eyeglass residing for the front (i.e. reflecting surface) of namely described single plane fluoroscopy eyeglass 2
Brightness size in the space surrounded, it is adjusted with the brightness to the display screen 3, to ensure to work as the single plane fluoroscopy mirror 2
The brightness in binocular ophthalmoscope framework residing for positive (reflecting surface) is consistently higher than the binocular residing for the reverse side of the single plane fluoroscopy mirror 2
Space environment brightness on the outside of frame.
In the present embodiment, the ambient brightness of the both sides of single plane fluoroscopy eyeglass 2 can also be appointed according to being actually needed
Meaning regulation, for example, when the user of the glasses is exchanged with the people of surrounding, wants to see other side, can voluntarily adjust unidirectional
Brightness of the reflecting surface of eyeglass 2 towards user side is had an X-rayed, makes it below the natural ring residing for the reverse side of single plane fluoroscopy eyeglass 2
Border brightness, such user can be exchanged the people of surrounding, the people for so wearing the glasses and surrounding to see clearly with it
People's can without Eye contact obstacle.
The present embodiment virtual reality glasses, by having an X-rayed eyeglass positive and negative, that is, binocular ophthalmoscope framework in unidirectional glasses
Interior outside sets brightness impression device, and the spatial brightness residing for the unidirectional glasses perspective eyeglass positive and negative is monitored in real time, will be supervised
The brightness data of survey sends brightness automatic control unit to, and brightness automatic control unit is compared according to the brightness in the interior outside
After relatively, when the inner side brightness is less than the outside brightness, the brightness to the display screen 3 is adjusted in real time, is made described unidirectional
The brightness on the inside of binocular ophthalmoscope framework residing for perspective front lens surface (reflecting surface) is higher than the single plane fluoroscopy eyeglass reverse side
Natural environment brightness on the outside of residing binocular ophthalmoscope framework, the people of surrounding can thus seen in real time and wears the glasses
The expression in the eyes and face of people;When the people of the wearing spectacles needs to see other side, user can also be described unidirectional by adjusting
The ambient brightness of eyeglass both sides is had an X-rayed, makes the ambient brightness residing for the single plane fluoroscopy front lens surface less than residing for the reverse side
Ambient brightness, it is possible to see other side clearly.In this way, user adjusts ring residing for the single plane fluoroscopy eyeglass positive and negative as needed
The brightness in border, can just see mutual expression in the eyes and face clearly in real time, can effectively solve the problem that user wear virtual reality glasses with
Around people exchange when, both sides occur because can't see mutual eyes the problem of effectively can not carrying out Eye contact.
Embodiment three
A kind of virtual reality glasses of the present embodiment, tied substantially with the virtual reality glasses described in preceding any described embodiment
Structure and function realization principle are identical, and difference is, a kind of virtual reality glasses of the present embodiment, except with foregoing any described
Virtual reality glasses architectural feature and function outside, audio output interface is provided with the display screen, in the binocular eye
Cell mount is provided with temple, and described temple one end is connected with the binocular ophthalmoscope framework 1, and the temple is hollow structure, in institute
State and wire is provided with hollow structure, the wire is provided with the first exit, is inserted on first exit provided with earphone
Head, first exit are drawn from the junction of the temple and the framework, pass through the headset plug and the audio
Output interface connects;The wire is additionally provided with the second exit, and second exit is drawn from the other end of the temple,
Be provided with the annular ring of extension in the temple other end, be provided with sounding body in annular ring, the sounding body with it is described
Second exit connects.
A kind of virtual reality glasses of the present embodiment, it is hollow by being set in the temple being connected with the binocular ophthalmoscope framework
Structure, wire is set in the hollow structure, and one end of wire is set into headset plug, the other end connects with sounding body
Connect, user can be easy to be not desired to be done by external sound when wearing video of the virtual reality glasses viewing comprising audio content
When disturbing and wanting to experience virtual reality scenario sound intermediate frequency content, without audio frequency apparatus is set up again in addition, it can be experienced with immersion
Audio content in virtual reality scenario.
It should be noted that herein, such as first and second or the like relational terms are used merely to a reality
Body or operation make a distinction with another entity or operation, and not necessarily require or imply and deposited between these entities or operation
In any this actual relation or order.Moreover, term " comprising ", "comprising" or its any other variant are intended to
Nonexcludability includes, so that process, method, article or equipment including a series of elements not only will including those
Element, but also the other element including being not expressly set out, or it is this process, method, article or equipment also to include
Intrinsic key element.In the absence of more restrictions, the key element limited by sentence " including one ... ", it is not excluded that
Other identical element in the process including the key element, method, article or equipment also be present.
Each embodiment in this specification is described by the way of related, identical similar portion between each embodiment
Divide mutually referring to what each embodiment stressed is the difference with other embodiment.
It is described above, only specific embodiment of the present utility model, but the scope of protection of the utility model is not limited to
In this, any one skilled in the art is in the technical scope that the utility model discloses, the change that can readily occur in
Change or replace, should all cover within the scope of protection of the utility model.Therefore, the scope of protection of the utility model should be with right
It is required that protection domain be defined.
Claims (7)
- A kind of 1. virtual reality glasses, it is characterised in that including:Binocular ophthalmoscope framework, installed on the binocular ophthalmoscope framework There is a single plane fluoroscopy eyeglass, the reflecting surface of the single plane fluoroscopy eyeglass is towards wearer direction;Position close to wearer's forehead direction on the binocular ophthalmoscope framework is provided with display screen;The image that the display screen is shown is reflected on the reflecting surface of the single plane fluoroscopy eyeglass.
- 2. virtual reality glasses according to claim 1, it is characterised in that also include:Electrically connected with the display screen Brightness automatic control unit, and the first environment brightness impression device and second being connected respectively with the brightness automatic control unit Ambient brightness inductor;Wherein,The first environment brightness impression device, sense the ambient brightness on the outside of the binocular ophthalmoscope framework and to obtain outside environment bright Degrees of data;The second environment brightness impression device, sense the ambient brightness on the inside of the binocular ophthalmoscope framework and to obtain inside environment bright Degrees of data;The brightness automatic control unit is according to the outside environment brightness data and inside environment brightness data, and sets in advance The brightness adjustment strategy put, the display brightness of display screen described in adjust automatically.
- 3. virtual reality glasses according to claim 2, it is characterised in that the brightness automatic control unit is built in institute State in display screen;The first environment brightness impression device is arranged on the outside of the binocular ophthalmoscope framework;The second environment brightness impression device is arranged on the inside of the binocular ophthalmoscope framework.
- 4. virtual reality glasses according to claim 1, it is characterised in that be provided with and block in the lower section of the display screen Plate.
- 5. virtual reality glasses according to claim 1, it is characterised in that be provided among the binocular ophthalmoscope framework Binocular sight partition panel.
- 6. virtual reality glasses according to claim 5, it is characterised in that the single plane fluoroscopy eyeglass is level crossing or tool Cambered curved mirror;The one side of the curved mirror is plane or cancave cambered surface, and another side is convex globoidal, and the plane or cancave cambered surface of the curved mirror are Reflecting surface, i.e., towards wearer's face direction.
- 7. virtual reality glasses according to claim 1, it is characterised in that the display screen is provided with audio output interface;Temple is additionally provided with the binocular ophthalmoscope framework, described temple one end is connected with the binocular ophthalmoscope framework, the temple For hollow structure, wire is provided with the hollow structure, the wire is provided with the first exit, is drawn described first End is provided with headset plug, and first exit is drawn from the junction of the temple and the framework, passes through the earphone Plug is connected with the audio output interface;The wire is additionally provided with the second exit, and second exit is drawn from the other end of the temple, in the mirror The leg other end is provided with the annular ring of extension, and sounding body is provided with annular ring, and the sounding body is drawn with described second End connection.
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CN201720376763.5U CN206741094U (en) | 2017-04-11 | 2017-04-11 | A kind of virtual reality glasses |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106990534A (en) * | 2017-04-11 | 2017-07-28 | 北京峰云视觉技术有限公司 | A kind of virtual reality glasses |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106990534A (en) * | 2017-04-11 | 2017-07-28 | 北京峰云视觉技术有限公司 | A kind of virtual reality glasses |
CN106990534B (en) * | 2017-04-11 | 2023-07-18 | 北京峰云视觉技术有限公司 | Virtual reality glasses |
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