CN108008537A

CN108008537A - Adjusting processing method and VR glasses based on VR glasses

Info

Publication number: CN108008537A
Application number: CN201711448448.XA
Authority: CN
Inventors: 杨云龙
Original assignee: Beijing Chuan Jia Technology Co Ltd
Current assignee: Shenzhen acoustic Manufacturing Co. Ltd.
Priority date: 2017-12-27
Filing date: 2017-12-27
Publication date: 2018-05-08

Abstract

The present invention provides a kind of adjusting processing method and VR glasses based on VR glasses.This method includes：Collection obtains the eye information of VR glasses users；According to the eye information, however, it is determined that the eye information is unsatisfactory for the visual condition of the VR glasses, then according to the eye information, determines adjustment modes；According to the adjustment modes, the VR glasses are adjusted.The method of the present invention, the eye information of VR glasses users is obtained by gathering, if it is determined that the eye information of user is unsatisfactory for the visual condition of VR glasses, according to the eye information of user, determine adjustment modes, automatically VR glasses are carried out with the adjustment of different adjustment modes, it can make the visual condition of VR glasses and the eye information matches of user, realize the eye information of automatic collection user, and the visual condition of the eye information adjust automatically VR glasses according to user, the visual effect of VR glasses is improved, improves user's visual experience.

Description

Adjusting processing method and VR glasses based on VR glasses

Technical field

The present invention relates to field of communication technology, more particularly to a kind of adjusting processing method and VR glasses based on VR glasses.

Background technology

Virtual reality (English：Virtual Reality, abbreviation VR) technology is comprehensive utilization computer graphics system and each The interface equipment such as reality and control is planted, the technology for immersing sensation is provided in three-dimensional environment generating on computers, can interacting.

VR glasses, also referred to as VR aobvious or virtual reality head-mounted display apparatus, being will using head-mounted display apparatus People's closes extraneous vision, the sense of hearing, and guiding user produces a kind of sensation in virtual environment.Its displaying principle is left Right eye screen shows that the image of right and left eyes, human eye produce three-dimensional sense after obtaining this discrepant information of band in brain respectively.

The interpupillary distance of existing VR eyeglass designs is fixed range, in order to meet that the different user of interpupillary distance being capable of normal use VR Glasses, often design the lens area of VR glasses very big.But after the lens area of VR glasses becomes larger, due to refraction The reason for rate, cause optical imaging effect poor, influences user's visual experience；It is inclined in the interpupillary distance of the interpupillary distance and VR eyeglass designs of user When difference is larger, the visual experience that user wears VR glasses can be substantially reduced.

The content of the invention

The present invention provides a kind of adjusting processing method and VR glasses based on VR glasses, to solve the eyeglass when VR glasses After area becomes larger, due to refractive index, cause optical imaging effect poor, influence user's visual experience；In the interpupillary distance of user And when the interpupillary distance deviation of VR eyeglass designs is larger, the problem of user wears the visual experience of VR glasses can be substantially reduced.

It is an aspect of the invention to provide a kind of adjusting processing method based on VR glasses, including：

Collection obtains the eye information of VR glasses users；

According to the eye information, however, it is determined that the eye information is unsatisfactory for the visual condition of the VR glasses, then basis The eye information, determines adjustment modes；

According to the adjustment modes, the VR glasses are adjusted.

Another aspect of the present invention is to provide a kind of VR glasses, including：First eyeglass module, the second eyeglass module, show Display screen curtain and processor；

The processor is used to gather the eye information for obtaining VR glasses users；According to the eye information, however, it is determined that The eye information is unsatisfactory for visual condition, then according to the eye information, determines adjustment modes；According to the adjustment modes, Adjust the VR glasses.

Adjusting processing method and VR glasses provided by the invention based on VR glasses, VR glasses users are obtained by gathering Eye information, however, it is determined that the eye information of user is unsatisfactory for the visual condition of VR glasses, according to the eye information of user, Determine adjustment modes, automatically VR glasses are carried out with the adjustment of different adjustment modes, visual condition and the use of VR glasses can be made The eye information matches of person, realize the eye information of automatic collection user, and are adjusted automatically according to the eye information of user The visual condition of whole VR glasses, improves the visual effect of VR glasses, improves user's visual experience.

Brief description of the drawings

Attached drawing herein is merged in specification and forms the part of this specification, shows the implementation for meeting the present invention Example, and for explaining the principle of the present invention together with specification.

Fig. 1 is the adjusting process flow figure based on VR glasses that the embodiment of the present invention one provides；

Fig. 2 is the adjusting process flow figure provided by Embodiment 2 of the present invention based on VR glasses；

Fig. 3 is the structure diagram for the VR glasses that the embodiment of the present invention three provides.

Pass through above-mentioned attached drawing, it has been shown that the clear and definite embodiment of the present invention, will hereinafter be described in more detail.These attached drawings It is not intended to limit the scope of present inventive concept by any mode with word description, but is by reference to specific embodiment Those skilled in the art illustrate idea of the invention.

Embodiment

Here exemplary embodiment will be illustrated in detail, its example is illustrated in the accompanying drawings.Following description is related to During attached drawing, unless otherwise indicated, the same numbers in different attached drawings represent the same or similar key element.Following exemplary embodiment Described in embodiment do not represent and the consistent all embodiments of the present invention.On the contrary, they be only with it is such as appended The example of the consistent apparatus and method of some aspects being described in detail in claims, of the invention.

Noun according to the present invention is explained first：

VR glasses：That is VR aobvious, virtual reality head-mounted display apparatus.

These specific embodiments can be combined with each other below, may be at certain for the same or similar concept or process Repeated no more in a little embodiments.Below in conjunction with attached drawing, the embodiment of the present invention is described.

Embodiment one

Fig. 1 is the adjusting process flow figure based on VR glasses that the embodiment of the present invention one provides.The embodiment of the present invention For after the lens area of VR glasses becomes larger, due to refractive index, causing optical imaging effect poor, shadow in the prior art Ring user's visual experience；In the interpupillary distance of user and the larger interpupillary distance deviation of VR eyeglass designs, user can be substantially reduced and wear VR The problem of visual experience of glasses, there is provided the adjusting processing method based on VR glasses.Such as Fig. 1, this method comprises the following steps that：

Step S101, collection obtains the eye information of VR glasses users.

In the present embodiment, the eye information of user at least can the person of including the use of interpupillary distance information and diopter information.

In the step, it can be believed by the image collecting device on VR glasses to obtain the eyes image of user Breath, and the eye information of user is calculated.Furthermore it is also possible to receive eye information input by user.

Step S102, according to eye information, however, it is determined that eye information is unsatisfactory for the visual condition of VR glasses, then according to eye Information, determines adjustment modes.

The visual condition of VR glasses includes at least the diopter configuration information and interpupillary distance configuration information of VR glasses.

In the step, by eye information, eye information configuration information corresponding with the visual condition of VR glasses is determined Whether match, if mismatching, can determine that eye information is unsatisfactory for the visual condition of VR glasses, determine to adjust according to eye information Integral pattern, and VR glasses are adjusted according to definite adjustment modes；If matching, can determine that eye information meets VR The visual condition of mirror, without being adjusted to VR glasses.

Wherein, whether eye information configuration information corresponding with the visual condition of VR glasses matches, and refers to eye information Whether the difference of configuration information corresponding with the visual condition of VR glasses is in corresponding default error range, if difference is right In the default error range answered, it is determined that matching；If difference is not in corresponding default error range, it is determined that mismatches.

In the present embodiment, according to eye information, however, it is determined that eye information is unsatisfactory for the visual condition of VR glasses, then according to eye Portion's information, determines adjustment modes, including at least situations below：

If it is determined that the interpupillary distance information of user is mismatched with the interpupillary distance configuration information in the visual condition of VR glasses, it is determined that Adjustment modes are interpupillary distance adjustment modes.

If it is determined that the diopter information of user is mismatched with the diopter configuration information in the visual condition of VR glasses, then It is diopter adjustment modes to determine adjustment modes.

If it is determined that the interpupillary distance information of user is mismatched with the interpupillary distance configuration information in the visual condition of VR glasses, and make The diopter information of user is mismatched with the diopter configuration information in the visual condition of VR glasses, can be according to default adjusting Sequentially, adjustment modes are first determined as interpupillary distance adjustment modes, in the interpupillary distance configuration information according to interpupillary distance adjustment modes to VR glasses After the completion of adjustment, then adjustment modes are determined as diopter adjustment modes, the dioptric according to diopter adjustment modes to VR glasses Spend configuration information adjustment；Or adjustment modes are first determined as diopter adjustment modes, according to diopter adjustment modes to VR After the completion of the diopter configuration information adjustment of glasses, then adjustment modes are determined as interpupillary distance adjustment modes, mould is adjusted according to interpupillary distance Formula is adjusted the interpupillary distance configuration information of VR glasses.

In addition, however, it is determined that the interpupillary distance information of user is mismatched with the interpupillary distance configuration information in the visual condition of VR glasses, And the diopter information of user is mismatched with the diopter configuration information in the visual condition of VR glasses, can also set VR Glasses are interpupillary distance diopter adjustment modes, while adjusted to the interpupillary distance configuration information and diopter configuration information of VR glasses at the same time It is whole.

Step S103, according to adjustment modes, VR glasses are adjusted.

In the present embodiment, if adjustment modes are interpupillary distance adjustment modes, according to the interpupillary distance information of user, VR glasses are adjusted Interpupillary distance so that the interpupillary distance of VR glasses and the interpupillary distance information matches of user；If adjustment modes are diopter adjustment modes, according to making The diopter information of user, adjusts the diopter of VR glasses so that the diopter of VR glasses and the diopter information of user Match somebody with somebody.

The embodiment of the present invention obtains the eye information of VR glasses users by gathering, however, it is determined that the eye information of user The visual condition of VR glasses is unsatisfactory for, according to the eye information of user, determines adjustment modes, VR glasses are carried out automatically different The adjustment of adjustment modes, can make the visual condition of VR glasses and the eye information matches of user, realizing automatic collection makes The eye information of user, and the visual condition of the eye information adjust automatically VR glasses according to user, improve VR glasses Visual effect, improves user's visual experience.

Embodiment two

Fig. 2 is the adjusting process flow figure provided by Embodiment 2 of the present invention based on VR glasses.In above-described embodiment On the basis of one, in the present embodiment, collection obtains the eye information of user, including：Obtained and used by image collecting device The eyes image information of person；According to eyes image information, the two interpupillary distances and/or two eyeballs of user are calculated Aspect ratio；According to the two of user interpupillary distances, the interpupillary distance information of user is obtained；And/or according to user's The aspect ratio of two eyeballs, calculates the diopter information for obtaining user.As shown in Fig. 2, this method comprises the following steps that：

Step S201, the eyes image information of user is obtained by image collecting device.

Grand in practical application, VR glasses include：First eyeglass module, the second eyeglass module, display screen and processing Device.

In the present embodiment, image collecting device can be the camera device being arranged on VR glasses, when user puts on VR After glasses, the eyes image information of user is gathered.For example, image collecting device can be to be arranged on the first mirror on VR glasses Position among piece module and the second eyeglass module.

Alternatively, image collecting device can be independently of VR glasses set camera device, and image collecting device with VR glasses are electrically connected, and the eyes image information of the user collected can be sent to the processor of VR glasses.In user Before wearing VR glasses, the eyes image information of image acquisition device user, and by the eye of the user collected Image information is sent to the processor of VR glasses so that processor is adjusted VR glasses.

Step S202, according to eyes image information, two interpupillary distances of user and the shape of two eyeballs are calculated Shape ratio.

In the present embodiment, according to eyes image information, two pupils of user can be calculated by image processing techniques Between distance；According to eyes image information, the 3D models of two eyeballs can be established by image processing techniques, and are further counted Calculate the aspect ratio of two eyeballs.

In another embodiment of the invention, two interpupillary distances of user, follow-up basis can also only be calculated Two interpupillary distances obtain the interpupillary distance information of user, and the interpupillary distance of VR glasses is adjusted according to the interpupillary distance information of user.Or Person, can also only calculate the aspect ratio of two eyeballs, according to the aspect ratio of the two of user eyeballs, calculate acquisition and use The diopter information of person, the diopter of VR glasses is adjusted according to the diopter information of user.

Step S203, according to the two of user interpupillary distances, the interpupillary distance information of user is obtained；According to user Two eyeballs aspect ratio, calculate obtain user diopter information.

After two interpupillary distances of user are calculated, you can obtain the interpupillary distance information of user.

After the aspect ratio of two eyeballs of user is calculated, is corresponded to and closed according to aspect ratio and diopter System, can obtain the corresponding diopter of aspect ratio of the left eye of user and the eyeball of right eye, that is to say user's Left eye diopter and right eye diopter.

Above-mentioned steps S201-S203 is a kind of embodiment for the eye information that collection obtains VR glasses users, is passed through The eyes image information of the user of VR glasses is worn in collection in real time, and the interpupillary distance that user is calculated according to eyes image information is believed Breath and diopter information.

Step S204, determine whether interpupillary distance information meets the interpupillary distance configuration information in visual condition.

If it is determined that interpupillary distance information is the interpupillary distance configuration information met in visual condition, then need not to the interpupillary distances of VR glasses into Row is adjusted, and terminates the adjusting to VR glasses interpupillary distances.

If it is determined that interpupillary distance information is unsatisfactory for the interpupillary distance configuration information in visual condition, step S205-S207 is performed, to VR The interpupillary distance of mirror is adjusted.

In the step, the interpupillary distance information in eye information, determine interpupillary distance information with it is right in the visual condition of VR glasses Whether the interpupillary distance configuration information answered matches, if mismatching, can determine that interpupillary distance information is unsatisfactory for the interpupillary distance in visual condition and matches somebody with somebody Confidence ceases, and that is to say that interpupillary distance information is unsatisfactory for the visual condition of VR glasses；If matching, can determine that interpupillary distance information meets VR The visual condition of mirror.

Wherein, whether interpupillary distance information interpupillary distance configuration information corresponding with the visual condition of VR glasses matches, and refers to interpupillary distance Whether the difference of information and the interpupillary distance configuration information in the visual condition of VR glasses is in the corresponding default error range of interpupillary distance information It is interior, if in the corresponding default error range of interpupillary distance information, it is determined that matching；If not in the corresponding default error model of interpupillary distance information In enclosing, it is determined that mismatch.

Step S205, if it is determined that interpupillary distance information is unsatisfactory for the interpupillary distance configuration information in visual condition, then according to interpupillary distance information With interpupillary distance configuration information, it is interpupillary distance adjustment modes to determine adjustment modes.

Step S206, according to the interpupillary distance information of user, the first eyeglass module and the second eyeglass module of adjustment VR glasses Position.

In the present embodiment, VR glasses further include：The first motor being connected with the first eyeglass module, connects with the second eyeglass module The second motor connect, the first motor and the second motor are electrically connected with processor.

Center reference point is previously provided between first eyeglass module and the second eyeglass module.First eyeglass module includes the One eyeglass and the first housing for installing the first eyeglass, the second eyeglass module include the second eyeglass and for installing second Second housing of eyeglass.Default center reference point is located on the line of the first eyeglass and the second center of lens, when the first eyeglass The distance between module and the second eyeglass module are nearest, that is to say the first eyeglass module and the second eyeglass module be respectively positioned near During the position of center reference point, the first eyeglass and the second eyeglass are on center reference point symmetry.

First motor is used to drive the first eyeglass module under the control of a processor along remote or close center reference point Direction movement, the second motor be used to driving under the control of a processor the second eyeglass module along away from or close to center reference The direction movement of point.

In the step, according to the interpupillary distance information of user, the first eyeglass module and the second eyeglass module of adjustment VR glasses Position, can specifically realize in the following way：

According to the interpupillary distance information of user, compare the interpupillary distance of user and the size of the current interpupillary distance of VR glasses；If user Interpupillary distance be more than the current interpupillary distance of VR glasses, then the first motor and the second motor are controlled, to drive corresponding first mirror of the first motor Piece module and the corresponding second eyeglass module of the second motor are synchronously moved to the direction away from center reference point, so that VR glasses Interpupillary distance and the interpupillary distance of user match；If the interpupillary distance of user is less than the current interpupillary distance of VR glasses, control the first motor and Second motor, with drive the corresponding first eyeglass module of the first motor and the corresponding second eyeglass module of the second motor synchronously to Close to the movement of the direction of center reference point, so that the interpupillary distance of VR glasses and the interpupillary distance of user match.

Above-mentioned steps S204-S206 is the interpupillary distance information according to user, and it is interpupillary distance adjustment modes to determine adjustment modes, is adjusted A kind of embodiment of the interpupillary distance of whole VR glasses.

Step S207, determine whether diopter information meets the diopter configuration information in visual condition.

If it is determined that diopter information is unsatisfactory for the diopter configuration information in visual condition, step S208-S209 is performed, it is right The diopter of VR glasses is adjusted.

If it is determined that diopter information meets the diopter configuration information in visual condition, then need not be to the dioptric of VR glasses Degree is adjusted, and terminates the adjusting to VR glasses diopters.

In the step, the diopter information in eye information, determines the visual condition of diopter information and VR glasses In diopter configuration information whether match, if mismatch, can determine diopter information be unsatisfactory in visual condition bend Luminosity configuration information, that is to say that diopter information is unsatisfactory for the visual condition of VR glasses；If matching, can determine interpupillary distance information Meet the visual condition of VR glasses.

Step S208, if it is determined that diopter information is unsatisfactory for the diopter configuration information in visual condition, then according to dioptric Information and diopter configuration information are spent, it is diopter adjustment modes to determine adjustment modes.

Step S209, according to the diopter information of user, the first eyeglass module and the second eyeglass mould of adjustment VR glasses Group and the distance of display screen.

In the present embodiment, display screen includes the first screen and the second screen, diopter information include left eye diopter and Right eye diopter.VR glasses further include：The 3rd motor being connected with the first screen, the 4th motor being connected with the second screen, the Three motors and the 4th motor are electrically connected with processor.

3rd motor is used to drive the first screen under the control of a processor to close or remote first eyeglass module Direction is moved, and the 4th motor is used to drive the second screen under the control of a processor to close or remote second eyeglass module Move in direction.

In the step, according to the diopter information of user, the first eyeglass module and the second eyeglass mould of adjustment VR glasses Group and the distance of display screen, can specifically realize in the following way：

According to the left eye diopter of user, control the 3rd motor, with drive corresponding first screen of the 3rd motor to by Near or away from the first eyeglass module direction is moved, so that the corresponding diopter of the first eyeglass module and the left eye of user are bent Luminosity matches；According to the right eye diopter of user, control the 4th motor, with drive corresponding second screen of the 4th motor to Close or away from the second eyeglass module direction is moved, so that the corresponding diopter of the second eyeglass module and the right eye of user Diopter matches.

Specifically, according to the left eye diopter of user, if the left eye diopter of user is worked as more than the first eyeglass module Preceding diopter, then control the 3rd motor, to drive corresponding first screen of the 3rd motor to close to the side of the first eyeglass module To movement.If the left eye diopter of user is less than the current diopter of the first eyeglass module, the 3rd motor is controlled, with driving Corresponding first screen of 3rd motor is moved to close to the direction of the first eyeglass module.

According to the right eye diopter of user, if the right eye diopter of user is more than the current dioptric of the second eyeglass module Degree, then control the 4th motor, to drive corresponding second screen of the 4th motor to be moved to close to the direction of the second eyeglass module.If The right eye diopter of user is less than the current diopter of the second eyeglass module, then the 4th motor is controlled, to drive the 4th motor Corresponding second screen is moved to close to the direction of the second eyeglass module.

It is alternatively possible to be an entirety by display screen, according to user's left eye area's diopter and right eye diopter, adjust The distance between whole display screen and eyeglass module.For example, the first screen and the second screen synch can be adjusted.

Above-mentioned steps S207-S209 is the diopter information according to user, determines that adjustment modes adjust mould for diopter Formula, adjusts a kind of embodiment of the diopter of VR glasses, adjusts the dioptric of the first eyeglass module and the second eyeglass module respectively Degree.

In practical applications, since voice coil motor has the characteristics that high frequency sound, high accuracy, small, alternatively, the first horse Reach, the second motor, the 3rd motor and the 4th motor can be realized using voice coil motor.

In the present embodiment, above-mentioned steps S204-S206 adjusts the interpupillary distance of VR glasses and above-mentioned steps S207-S209 adjusts VR The process for going to stroll of glasses is two relatively independent processes, can first adjust the interpupillary distance of VR glasses, then adjusts VR glasses Diopter, can also first adjust the diopter of VR glasses, rear to adjust the interpupillary distance of VR glasses, or can also adjust VR glasses at the same time Interpupillary distance and diopter, the present embodiment is not done herein for the condition order of different configuration parameter in the visual condition of VR glasses to be had Body limits.

The embodiment of the present invention obtains the eyes image information of user by image collecting device, is believed according to eyes image Breath, calculates two interpupillary distances of user and/or the aspect ratio of two eyeballs, and further get user's Interpupillary distance information and diopter information, according to the interpupillary distance information of user, the first eyeglass module and the second eyeglass of adjustment VR glasses The position of module, according to the diopter information of user, the first eyeglass module and the second eyeglass module of adjustment VR glasses are with showing The distance of display screen curtain, realizes the eye information of automatic collection user, and according to the eye information adjust automatically VR of user The visual condition of glasses, improves the visual effect of VR glasses, improves user's visual experience.

Embodiment three

Fig. 3 is the structure diagram for the VR glasses that the embodiment of the present invention three provides.VR glasses provided in an embodiment of the present invention 30 can perform the process flow that the adjusting processing method embodiment based on VR glasses 30 provides.As shown in figure 3, the VR glasses 30 Including：First eyeglass module 31, the second eyeglass module 32, display screen and processor (not shown).

As shown in figure 3, display screen can include the first display screen 1 and second display screen 2.

In the present embodiment, processor is used to gather the eye information for obtaining 30 user of VR glasses；According to eye information, if Determine that eye information is unsatisfactory for visual condition, then according to eye information, determine adjustment modes；According to adjustment modes, VR are adjusted Mirror 30.

VR glasses 30 provided in an embodiment of the present invention can be specifically used for performing the method reality that above-described embodiment one is provided Example is applied, details are not described herein again for concrete function.

The embodiment of the present invention obtains the eye information of 30 user of VR glasses by gathering, however, it is determined that the eye letter of user Breath is unsatisfactory for the visual conditions of VR glasses 30, according to the eye information of user, determines adjustment modes, automatically to VR glasses 30 into The adjustment of the different adjustment modes of row, can make the visual condition of VR glasses 30 and the eye information matches of user, realize certainly The eye information of dynamic collection user, and the visual condition of the eye information adjust automatically VR glasses 30 according to user, are improved The visual effects of VR glasses 30, improves user's visual experience.

Example IV

On the basis of above-described embodiment three, in the present embodiment, as shown in figure 3, VR glasses 30 further include：With the first eyeglass The first motor 35 that module 31 connects, the second motor 36 being connected with the second eyeglass module 32, the first motor 35 and the second motor 36 are electrically connected with processor.

Center reference point is previously provided between first eyeglass module 31 and the second eyeglass module 32.First eyeglass module 31 The first housing including the first eyeglass and for the first eyeglass of installation, the second eyeglass module 32 include the second eyeglass and are used for Second housing of the second eyeglass is installed.Default center reference point is located on the line of the first eyeglass and the second center of lens, when The distance between first eyeglass module 31 and the second eyeglass module 32 are nearest, that is to say the first eyeglass module 31 and the second eyeglass mould When group 32 is respectively positioned near the position of center reference point, the first eyeglass and the second eyeglass are on center reference point symmetry.

First motor 35 is used to drive the first eyeglass module 31 along away from or close to center to join under the control of a processor Moved according to the direction of point, the second motor 36 is used to drive the second eyeglass module 32 under the control of a processor along remote or close The direction movement of center reference point.

Processor is specifically used for the interpupillary distance information according to user, compares the interpupillary distance and 30 current interpupillary distance of VR glasses of user Size；If the interpupillary distance of user is more than 30 current interpupillary distance of VR glasses, the first motor 35 and the second motor 36 are controlled, with driving First motor, 35 corresponding first eyeglass module 31 and 36 corresponding second eyeglass module 32 of the second motor are synchronously to away from The direction movement of heart reference point, so that the interpupillary distance of VR glasses 30 and the interpupillary distance of user match；If the interpupillary distance of user is less than 30 current interpupillary distance of VR glasses, then control the first motor 35 and the second motor 36, to drive 35 corresponding first eyeglass of the first motor 31 and second motor of module, 36 corresponding second eyeglass module 32 is synchronously moved to close to the direction of center reference point, so that VR The interpupillary distance of glasses 30 and the interpupillary distance of user match.

It is alternatively possible to first motor 35 is set respectively in the top and bottom of the first eyeglass module 31, in the second eyeglass The top and bottom of module 32 set the second motor 36 respectively, so as to synchronously drive the first eyeglass module from top and bottom 31 and the second eyeglass module 32 so that the movement of the first eyeglass module 31 and the second eyeglass module 32 is more steady.

In the present embodiment, VR glasses 30 further include what is be connected with processor, the eye of the user for gathering VR glasses 30 The image collecting device of portion's image information.

In the present embodiment, processor is specifically used for the eyes image information that user is obtained by image collecting device；Root According to eyes image information, two interpupillary distances of user and/or the aspect ratio of two eyeballs are calculated；According to user Two interpupillary distances, obtain the interpupillary distance information of user；And/or the aspect ratio of two eyeballs according to user, Calculate the diopter information for obtaining user.

Alternatively, image collecting device can be the camera device being arranged on VR glasses 30, when user puts on VR After mirror 30, the eyes image information of user is gathered.For example, image collecting device can be to be arranged on first on VR glasses 30 Position among 31 and second eyeglass module of eyeglass module 32.

Alternatively, image collecting device can be the camera device set independently of VR glasses 30, and image collecting device It is electrically connected with VR glasses 30, the eyes image information of the user collected can be sent to the processor of VR glasses 30.

In the present embodiment, display screen includes the first screen 331 and the second screen 332, diopter information are bent including left eye Luminosity and right eye diopter.VR glasses 30 further include：The 3rd motor 37 being connected with the first screen 331, connects with the second screen 332 The 4th motor 38 connect, the 3rd motor 37 and the 4th motor 38 are electrically connected with processor.

3rd motor 37 is used to drive the first screen 331 under the control of a processor to close or remote first eyeglass mould The direction movement of group 31, the 4th motor 38 are used to driving the second screen 332 under the control of a processor to close to or away from the The direction movement of two eyeglass modules 32.

Processor is specifically used for the left eye diopter according to user, the 3rd motor 37 is controlled, to drive the 3rd motor 37 Corresponding first screen 331 is moved to the direction close to or away from the first eyeglass module 31, so that the first eyeglass module 31 is right The diopter and the left eye diopter of user answered match；According to the right eye diopter of user, the 4th motor 38 is controlled, with 38 corresponding second screen 332 of the 4th motor is driven to be moved to the direction close to or away from the second eyeglass module 32, so that the Two eyeglass modules, 32 corresponding diopter and the right eye diopter of user match.

In practical applications, since voice coil motor has the characteristics that high frequency sound, high accuracy, small, alternatively, the first horse Can it be realized up to the 35, second motor 36, the 3rd motor 37 and the 4th motor 38 using voice coil motor.

VR glasses 30 provided in an embodiment of the present invention can be specifically used for performing the method reality that above-described embodiment two is provided Example is applied, details are not described herein again for concrete function.

The embodiment of the present invention obtains the eyes image information of user by image collecting device, is believed according to eyes image Breath, calculates two interpupillary distances of user and/or the aspect ratio of two eyeballs, and further get user's Interpupillary distance information and diopter information, according to the interpupillary distance information of user, the first eyeglass module 31 and second of adjustment VR glasses 30 The position of eyeglass module 32, according to the diopter information of user, the first eyeglass module 31 and the second mirror of adjustment VR glasses 30 The distance of piece module 32 and display screen, realizes the eye information of automatic collection user, and is believed according to the eye of user The visual condition of adjust automatically VR glasses 30 is ceased, the visual effect of VR glasses 30 is improved, improves user's visual experience.

Those skilled in the art can be understood that, for convenience and simplicity of description, only with above-mentioned each function module Division progress for example, in practical application, can be complete by different function modules by above-mentioned function distribution as needed Into the internal structure of device being divided into different function modules, to complete all or part of function described above.On The specific work process of the device of description is stated, may be referred to the corresponding process in preceding method embodiment, details are not described herein.

Those skilled in the art will readily occur to the present invention its after considering specification and putting into practice invention disclosed herein Its embodiment.It is contemplated that cover the present invention any variations, uses, or adaptations, these modifications, purposes or Person's adaptive change follows the general principle of the present invention and including undocumented common knowledge in the art of the invention Or conventional techniques.Description and embodiments are considered only as exemplary, and true scope and spirit of the invention are by following Claims are pointed out.

It should be appreciated that the invention is not limited in the precision architecture for being described above and being shown in the drawings, and And various modifications and changes may be made without departing from the scope thereof.The scope of the present invention is only limited by appended claims System.

Claims

A kind of 1. adjusting processing method based on VR glasses, it is characterised in that including：

Collection obtains the eye information of VR glasses users；

According to the eye information, however, it is determined that the eye information is unsatisfactory for the visual condition of the VR glasses, then according to Eye information, determines adjustment modes；

According to the adjustment modes, the VR glasses are adjusted.
2. according to the method described in claim 1, it is characterized in that, the collection obtains the eye information of the user, bag Include：

The eyes image information of the user is obtained by image collecting device；

According to the eyes image information, two interpupillary distances of the user and/or the shape of two eyeballs are calculated Ratio；

According to the two of the user interpupillary distances, the interpupillary distance information of the user is obtained；And/or made according to described The aspect ratio of two eyeballs of user, calculates the diopter information for obtaining the user.
3. according to the method described in claim 2, it is characterized in that, described according to the eye information, however, it is determined that the eye Information is unsatisfactory for the visual condition of the VR glasses, then according to the eye information, determines adjustment modes, including：

If it is determined that the diopter information is unsatisfactory for the diopter configuration information in the visual condition, then according to the diopter Information and the diopter configuration information, it is diopter adjustment modes to determine adjustment modes；And/or

If it is determined that the interpupillary distance information is unsatisfactory for the interpupillary distance configuration information in the visual condition, then according to the interpupillary distance information and The interpupillary distance configuration information, it is interpupillary distance adjustment modes to determine the adjustment modes.
4. according to the method described in claim 3, it is characterized in that, described according to the adjustment modes, the VR glasses are adjusted, Including：

According to the interpupillary distance information of the user, the first eyeglass module of the VR glasses and the position of the second eyeglass module are adjusted Put.
5. according to the method described in claim 4, it is characterized in that, according to the interpupillary distance information of the user, the VR is adjusted First eyeglass module of glasses and the position of the second eyeglass module, including：

According to the interpupillary distance information of the user, the size of the interpupillary distance of the user and the current interpupillary distance of VR glasses；

If the interpupillary distance of the user is more than the current interpupillary distance of VR glasses, the first motor and the second motor are controlled, with driving The corresponding first eyeglass module of first motor and the corresponding second eyeglass module of second motor are synchronously to away from The direction movement of heart reference point, so that the interpupillary distance and the interpupillary distance of the user of the VR glasses match；

If the interpupillary distance of the user is less than the current interpupillary distance of VR glasses, the first motor and the second motor are controlled, with driving The corresponding first eyeglass module of first motor and the corresponding second eyeglass module of second motor are synchronously in The direction movement of heart reference point, so that the interpupillary distance and the interpupillary distance of the user of the VR glasses match.
6. according to the method described in claim 3, it is characterized in that, described according to the adjustment modes, the VR glasses are adjusted, Including：

According to the diopter information of the user, adjust the VR glasses the first eyeglass module and the second eyeglass module with it is aobvious The distance of display screen curtain.
7. according to the method described in claim 6, it is characterized in that, the display screen includes the first screen and the second screen, The diopter information includes left eye diopter and right eye diopter；

The diopter information according to the user, adjusts the first eyeglass module and the second eyeglass module of the VR glasses With the distance of display screen, including：

According to the left eye diopter of the user, the 3rd motor is controlled, to drive corresponding first screen of the 3rd motor Moved to the direction close to or away from the first eyeglass module, so that the corresponding diopter of the first eyeglass module and institute The left eye diopter for stating user matches；

According to the right eye diopter of the user, the 4th motor is controlled, to drive corresponding second screen of the 4th motor Moved to the direction close to or away from the second eyeglass module, so that the corresponding diopter of the second eyeglass module and institute The right eye diopter for stating user matches.
A kind of 8. VR glasses, it is characterised in that including：First eyeglass module, the second eyeglass module, display screen and processing Device；

The processor is used to gather the eye information for obtaining VR glasses users；According to the eye information, however, it is determined that described Eye information is unsatisfactory for visual condition, then according to the eye information, determines adjustment modes；According to the adjustment modes, adjustment The VR glasses.
9. VR glasses according to claim 8, it is characterised in that further include：It is connected with the processor, for gathering The image collecting device of the eyes image information of the user of the VR glasses；

The processor is specifically used for the eyes image information that the user is obtained by image collecting device；According to the eye Portion's image information, calculates two interpupillary distances of the user and/or the aspect ratio of two eyeballs；Made according to described Two interpupillary distances of user, obtain the interpupillary distance information of the user；And/or two eyeballs according to the user Aspect ratio, calculate the diopter information for obtaining the user.
10. VR glasses according to claim 9, it is characterised in that the display screen includes the first screen and the second screen Curtain,

The VR glasses further include：The 3rd motor being connected with first screen, the 4th horse being connected with second screen Reach, the 3rd motor and the 4th motor are electrically connected with the processor；

The diopter information includes left eye diopter and right eye diopter, and the processor is specifically used for according to the user Left eye diopter, the 3rd motor is controlled, to drive corresponding first screen of the 3rd motor to close to or away from described The direction movement of first eyeglass module, so that the corresponding diopter of the first eyeglass module and the left eye dioptric of the user Degree matches；According to the right eye diopter of the user, the 4th motor is controlled, to drive the 4th motor corresponding second Screen is moved to the direction close to or away from the second eyeglass module, so that the corresponding diopter of the second eyeglass module Match with the right eye diopter of the user.