CN106125307A - External hanging screen-type VR glasses, screen display adjustment method and screen display device - Google Patents

External hanging screen-type VR glasses, screen display adjustment method and screen display device Download PDF

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Publication number
CN106125307A
CN106125307A CN201610490619.4A CN201610490619A CN106125307A CN 106125307 A CN106125307 A CN 106125307A CN 201610490619 A CN201610490619 A CN 201610490619A CN 106125307 A CN106125307 A CN 106125307A
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China
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screen
plug
display
vr
glasses
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CN201610490619.4A
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Chinese (zh)
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姜冬英
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姜冬英
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Priority to CN201610490619.4A priority Critical patent/CN106125307A/en
Publication of CN106125307A publication Critical patent/CN106125307A/en

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    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS, OR APPARATUS
    • G02B27/00Other optical systems; Other optical apparatus
    • G02B27/01Head-up displays
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS, OR APPARATUS
    • G02B27/00Other optical systems; Other optical apparatus
    • G02B27/01Head-up displays
    • G02B27/0101Head-up displays characterised by optical features
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS, OR APPARATUS
    • G02B27/00Other optical systems; Other optical apparatus
    • G02B27/01Head-up displays
    • G02B27/0149Head-up displays characterised by mechanical features
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS, OR APPARATUS
    • G02B27/00Other optical systems; Other optical apparatus
    • G02B27/01Head-up displays
    • G02B27/017Head mounted
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS, OR APPARATUS
    • G02B27/00Other optical systems; Other optical apparatus
    • G02B27/01Head-up displays
    • G02B27/0101Head-up displays characterised by optical features
    • G02B2027/0132Head-up displays characterised by optical features comprising binocular systems
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS, OR APPARATUS
    • G02B27/00Other optical systems; Other optical apparatus
    • G02B27/01Head-up displays
    • G02B27/017Head mounted
    • G02B2027/0178Eyeglass type, eyeglass details G02C

Abstract

The invention relates to external hanging screen-type VR glasses, a screen display adjustment method and a screen display device. Two display pictures are displayed on the display screen of the external hanging screen device of the external hanging screen-type VR glasses, a contact point capable of being detected by the external hanging screen device is arranged on the VR glasses, the external hanging screen device detects the position of the contact point, and the positions and/or the sizes of the two display pictures are adjusted according to the detected contact point position. The method of the invention is used to ensure the two display pictures of the VR to be right in front of optical glasses, the display sizes are proper, and the VR glass display effects can be improved.

Description

外挂屏式VR眼镜及调整屏幕显示的方法和屏幕显示装置 A method and a screen-screen plug VR glasses and adjust the screen displayed on the display device

技术领域 FIELD

[0001]本发明涉及虚拟现实设备领域,用于改善外挂屏式VR眼镜的显示效果,进一步涉及外挂屏式VR眼镜及调整屏幕显示的方法和屏幕显示装置。 [0001] The present invention relates to the field of virtual reality device for improving VR glasses plug-screen display, and further relates to a method of screen-screen plug VR glasses and adjust the screen displayed on the display device.

背景技术 Background technique

[0002] VR眼镜即“虚拟现实眼镜"(Virtual Real ity Glasses)。 [0002] VR glasses known as "virtual reality glasses" (Virtual Real ity Glasses). 通过光学装置将小显示屏上的内容放成大场景,并通过相关硬件和软件实现虚拟现实的功能。 By optical means to put content on the small screen larger scenes, and virtual reality features through the relevant hardware and software.

[0003]根据显示屏是否内置一体化来区分,目前VR眼镜主要有两个类型:一体化显示屏VR眼镜和外挂屏式VR眼镜;前者集成处理系统和显示屏,后者需要外挂屏装置来实现处理和显示功能,例如,将手机作为外挂屏装置,通过将手机放入VR眼镜内实现处理和显示功會K。 [0003] The built-in integration to distinguish whether or not the display, there are currently two main types of glasses VR: VR glasses and plug integrated display screen formula VR glasses; former integrated processing system and a display screen, which requires screen plug means implement the processing and display functions, e.g., as a plug-in phone screen apparatus, which processes and displays the phone function will pass into the VR glasses K.

[0004]虽然一体化显示屏VR眼镜的显示效果较好,但其价格较高,且一般需要连接电脑端,另外,如果显示屏技术升级后观看者想更换更高级的显示屏,就需要更换整体VR眼镜,所以其使用成本和升级成本都较高。 [0004] Although the integrated display VR glasses looks good, but its price is higher, and generally need to connect the computer end, in addition, display technology upgrade if the viewer want to change more advanced display, need to be replaced overall VR glasses, so its cost and upgrade costs are higher. 而外挂屏式VR眼镜由于自身不带显示屏,其结构简单、价格便宜,随着显示屏技术的进步,直接将更高级的外挂屏装置放入VR眼镜内即可实现VR眼镜显示屏的升级,所以其使用成本和升级成本都较低,且无需连接电脑端,使用方便,便于普及,有着广泛的应用前景。 The plug-screen VR glasses due to their own without display, its structure is simple, cheap, with advances in display technology, more advanced plug directly into the screen device VR glasses can upgrade the VR glasses display , so its cost and upgrade costs are low, and no need to connect the computer end, easy to use, easy to spread, with a wide range of applications.

[0005]但目前的外挂屏式VR眼镜技术不能保证画面位置与眼镜位置一致,也不能保证显示画面的大小和眼镜的视域匹配,所以导致观看效果不佳,甚至佩戴起来容易引起头晕。 [0005] However, the current VR eyeglass plug-screen picture can not be guaranteed position coincides with the position of the glasses, the viewing area is not guaranteed to match the size of the display screen and glasses, resulting in poor viewing, cause dizziness and even easier to wear.

[0006]发明人研究发现,主要原因有以下3点(以手机为外挂显示屏装置为例): [0006] The inventors have found that the following three main reasons (mobile phone display device as an example plug):

[0007] 1、外挂屏装置的显示屏通常大小不一,如手机显示屏尺寸可能小到4寸,大到7寸; [0007] 1, the display screen typically plug the device sizes, such as mobile phones small display sizes may be 4 inches, 7 inches large;

[0008] 2、显示屏在VR眼镜中的位置也不相同,如有的手机边框宽,有的手机边框窄,即使显示屏尺寸相同的手机,其显示区域与手机边框的位置也不固定; [0008] 2, the display position of the glasses in the VR is not the same, if the width of the border phones, some mobile phones narrow frame, even if the same phone display size, display position region is not fixed and mobile frame;

[0009] 3、不同观看者的瞳距可能不一样,当前的VR眼镜可以调节两组镜片的瞳距,但还不能根据瞳距自动调节两个画面之间的距离。 [0009] 3, IPD different viewers may be different, the current VR glasses lens groups may be adjusted IPD, but can not automatically adjust the distance between the two screens according to the IPD.

[0010]因此,现有外挂屏式VR眼镜技术还有待于改进。 [0010] Thus, the conventional plug-screen technology is still room for improvement VR glasses.

发明内容 SUMMARY

[0011]为了解决外挂屏式VR眼镜的显示效果差的问题,本发明的技术方案如下: [0011] In order to solve VR Plug-screen display glasses problem of poor aspect of the present invention is as follows:

[0012] 一种外挂屏式VR眼镜调整屏幕显示的方法,在所述外挂屏式VR眼镜的外挂屏装置的显示屏上显示有两个显示画面,在VR眼镜上设置有能被外挂屏装置检测到的触点,所述外挂屏装置检测所述触点的位置;根据检测到的触点调整两个显示画面的位置或大小,或同时调节位置和大小。 [0012] A method for adjusting glasses VR Plug-screen display screen, a display screen displayed on the two-screen display device of the plug-in plug-screen glasses VR, VR is provided on the glasses can have a plug-screen device detected contact, the plug-in position of the contact detecting panel unit; adjusted according to the detected contact position or size of two display screens, or while adjusting the position and size.

[0013]所述的外挂屏式VR眼镜调整屏幕显示的方法,所述外挂屏式VR眼镜还包括瞳距调节器,所述触点随所述光学镜片移动且与所述光学镜片的相对位置固定不变,所述外挂屏装置检测所述瞳距调节器确定瞳距后的所述触点的位置。 [0013] The method of the plug-screen display adjustment screen VR glasses, said plug further comprises shield glasses IPD formula VR regulator, said moving contact with said optical lens and the relative position of the optical lens fixed, said plug means detects said interpupillary distance adjustment panel determines that the contact position of the IPD.

[0014] 所述的外挂屏式VR眼镜调整屏幕显示的方法,所述外挂屏式VR眼镜还包括分别与两个光学镜片相对应的两个光学镜片构架,两个所述光学镜片构架上或任意一个所述光学镜片构架上设置有所述触点。 [0014] The method of the plug-screen display adjustment screen VR glasses, the glasses VR plug platen further includes two optical lens with two optical lenses corresponding to the frame, said two optical lens or frame any of a lens disposed on the optical contact with said frame.

[0015]所述挂屏式VR眼镜调整屏幕显示的方法,每个光学镜片构架上设置一个所述触点。 The [0015] method for adjusting Guabing formula VR glasses screen display, one of said contacts is provided on each optical lens frame.

[0016]所述外挂屏式VR眼镜调整屏幕显示的方法,一共有三个或四个所述触点,其中两个所述触点位于一个光学镜片构架上,另一个或两个所述触点位于另一个光学镜片构架上。 [0016] The glasses method VR Plug-panel screen display adjustment, a total of three or four of the contacts, wherein two of said contacts located on an optical lens frame, the other or both of the touch point is located on another optical lens frame.

[0017]所述外挂屏式VR眼镜调整屏幕显示的方法,所述一个光学镜片构架上的两个所述触点按光学镜片的中心呈对称布置。 [0017] The plug-panel screen display VR glasses method adjusting said one of said two optical lens frame contacts the center of the optical lens according to symmetrical arrangement.

[0018]所述外挂屏式VR眼镜调整屏幕显示的方法,只有一个光学镜片构架上设置有所述触点,同时在所述外挂屏式VR眼镜固定的位置上设置有固定触点,所述方法还包括:所述外挂屏装置检测所述固定触点的位置;调整所述两个显示画面的位置和/或大小的步骤具体为:根据所述固定触点的位置与所述一个光学镜片构架上的触点调整所述两个显示画面的位置和/或大小。 [0018] Method for a VR glasses adjust the plug-screen display, only one of the contacts provided on the optical lens frame, while the fixed contact provided at a position of the plug-screen VR glasses fixed on the the method further comprising: detecting a position of the plug-in screen means the fixed contact; adjusting the position of the two display screens and / or size of the steps specifically comprises: the position of the fixed contact a of the optical lens contacts the two adjustment on the display position of the screen frame and / or size.

[0019]所述的外挂屏式VR眼镜调整屏幕显示的方法,所述触点为可被电容式触摸屏识别的电容触点或可被电阻式触摸屏识别的压力触点。 [0019] The method of the plug-screen display adjustment screen VR glasses, contact the contact pressure which may be identified by a capacitive touch screen or capacitive contacts can be identified resistive touch screen.

[0020]所述外挂屏式VR眼镜调整屏幕显示的方法,所述外挂屏式VR眼镜上设置有能够将外挂屏装置进行定位的定位结构,所述触点可拆卸。 [0020] The glasses method VR Plug-panel screen display adjustment, the plug can be provided with a plug panel positioning device positioning structure, said removable upper platen contacts VR glasses.

[0021]所述外挂屏式VR眼镜调整屏幕显示的方法,外挂屏装置可以根据所述触点在屏幕上显示出当前瞳距大小。 [0021] The glasses method VR Plug-panel screen display adjustment screen plug IPD device may display the current on-screen size according to the contact.

[0022]本发明还提供了一种外挂屏式VR眼镜的屏幕显示装置,用于执行上述任意一种外挂屏式VR眼镜调整屏幕显示的方法。 [0022] The present invention also provides a plug-screen VR glasses screen display apparatus for performing any of the above glasses VR Plug-screen display screen adjusting method. 该装置可以通过软件程序实现,也可以通过硬件电路实现或者通过软件程序结合硬件电路的方式实现,本申请对此不作限定。 The apparatus may be implemented by a software program, may be realized by a hardware circuit or a combination of hardware circuits implemented by a software program embodiment, the present application is not limited to this.

[0023]本发明还提供了一种外挂屏式装置,包括上述任意一种外挂屏式VR眼镜的屏幕显示装置,该外挂屏式装置可以为手机或其他具有显示屏的终端。 [0023] The present invention further provides a plug-screen device, comprising any of the above glasses VR-panel screen display device plug, the plug-screen or other device may be a mobile phone terminal having a display screen.

[0024]本发明还提供了一种外挂屏式VR眼镜,包括触点以及用于放置能够根据检到的所述触点的位置而调整显示画面的位置和/或大小的外挂屏装置的外挂屏固定结构。 [0024] The present invention also provides a plug-in position of the picture screen device and plug and / or the size of a plug-screen VR glasses, and includes a contact for placing the subject can be adjusted according to the position of the contact display screen fixed structure.

[0025]所述光学镜片构架是指与相应光学镜片的相对位置是固定不变的结构上,包括但不限于光学镜片的镜框、与光学镜片连接的用于调节光学镜片瞳距的结构;只要随着光学镜片移动,所述触点也跟着移动即可 [0025] The relative position of the optics frame means corresponding to the optical lens is fixed on the structure, including, but not limited to, the optical lens structure of the frame, is connected with the optical lens for adjusting the interpupillary distance of the optical lens; long with the movement of the optical lens, the contact also moves to

[0026]所述触点只要能被外挂屏装置检测到即可,不一定需要接触到屏幕,例如对于电容式触摸屏的外挂屏装置而言,触点虽然不接触屏幕但只要离触屏较近也可能被检测到。 [0026] The contact plug means can be as long as the screen can be detected, not necessarily need access to the screen such as the screen for a plug means of a capacitive touch screen, although not in contact with the contacts from the touch screen as long as close it may also be detected.

[0027]外挂屏式VR眼镜的外挂屏装置包括但不限于手机,但为了便于说明,以下均以手机为例进行说明。 [0027] Plug-panel screen VR glasses plug means including but not limited to mobile phones, but for convenience of explanation, the following are the mobile phone as an example.

[0028] 将手机放入VR眼镜的卡槽里,手机在一个屏幕上分左右显示两幅画面,这两幅画面分别通过两组光学镜片被观看者的两只眼睛看到。 [0028] The VR glasses phone into the slot, the mobile phone displays left and right two screens on one screen, pictures which are seen by the two sets of the optical lens of the viewer's two eyes. 在未经画面调整的VR眼镜上,观看者需要先根据观看效果(比如重影等)或自己的已知瞳距值手动调整两个镜片的瞳距;在调整镜片瞳距过程中,固定在光学镜片架构上的触点也相应移动,手机便可根据所述触点确定当前两组镜片的位置,从而根据镜片的位置调整两个画面的显示位置,而两个显示画面的中心距离即为当前的瞳距。 On the screen without glasses adjustment VR, or their viewers need to manually adjust the value of the interpupillary distance IPD known lenses according to two viewing (such as ghosting, etc.); lens IPD adjustment process, the fixed contact lens on the optical architecture moves accordingly, the current position of the phone can be determined based on the two sets of contact lenses, to adjust the position of the display screen according to the position of two lenses, and two of the display screen is the center distance the current IPD. 在手机比较大的情况下,如果按照手机屏幕大小显示两组画面可能导致显示的画面超出视域,这时手机还可以根据所述触点提供的信息将画面缩小以达到更好的观看效果。 In the case where the mobile phone is relatively large, if the size of the display screen of the phone in accordance with the two-screen display screen may cause beyond sight, then the phone can also be provided according to contact information of the picture will be reduced in order to achieve a better viewing experience.

[0029]外挂屏装置可以选择性地将当前的瞳距和其他画面信息显示在屏幕上。 [0029] The plug means can selectively screen the current IPD and other picture information displayed on the screen.

[0030]当VR眼镜的壳体上或者VR眼镜的外挂屏固定结构上设置有能够将手机进行定位的定位结构时,所述两幅画面的位置和大小信息,对于同一型号的手机和VR眼镜是不变的,这时所述触点还可以做成可拆卸式的(例如,卡接连接),在需要自动调整时安装上,调整完保存参数后也可以拆下来。 When [0030] When the plug housing on the screen VR glasses fixing structure VR glasses or the phone can be provided with a positioning structure for positioning, the position and size of the two picture information, for the same type of mobile phone and VR glasses is constant, the contact time may also be made removable (e.g., snap connection), mounted on the automatic adjustment when required, after storage after adjustment parameters may also be removed.

[0031]本发明外挂屏式VR眼镜调整屏幕显示的方法,可以自动调整外挂屏幕显示的两幅画面的位置和大小,使得屏幕显示的两幅画面位于两个镜片的正前方,并且可以控制显示区域的大小,从而获得更好的观看效果。 The position and size of the [0031] method of glasses VR Plug-screen display adjustment screen of the present invention, the plug can automatically adjust screen display of two pictures, so that the two screen display screen directly in front of the two lenses, and may control the display size of the area, in order to get a better viewing experience.

附图说明 BRIEF DESCRIPTION

[0032]图1为本发明的结构示意图。 [0032] FIG. 1 is a schematic structural diagram of the present invention.

[0033]图2为每个光学镜片构架上设置一个触点时的外挂屏装置示意图。 [0033] FIG. 2 is a schematic view when a plug is provided a screen device contacts on each optical lens frame.

[0034]图3为两个光学镜片构架上均设置有触点时的外挂屏装置示意图。 [0034] FIG. 3 is a schematic view of two plug-optical panel device when both contacts are provided on the lens frame.

[0035]图4为只有一个光学镜片构架上设置有触点,同时在VR眼镜固定的位置上设置有固定触点时的外挂屏装置示意图。 [0035] FIG 4 is provided with a contact on only one optical lens frame, while a schematic view of the plug when the screen device fixed contact provided at a fixed position on the VR glasses.

[0036]图5为全景显示模式下的外挂屏装置示意图。 [0036] FIG. 5 is a schematic view of the screen device plug panning mode.

具体实施方式 Detailed ways

[0037]下面结合附图和实施例对本发明的进行详细的描述。 Drawings and embodiments of the present invention will be described in detail [0037] below in conjunction.

[0038] 本发明为了解决由于外挂屏式VR眼镜的显示画面位置和眼镜位置不一致,以及显示画面大小不能和VR眼镜视域相匹配,而导致的显示效果差的问题,通过在VR眼镜上设置有能被外挂屏装置检测到的触点,并且通过外挂屏装置检测所述触点的位置,然后根据检测到的触点调整两个显示画面的位置或大小,或同时调节位置和大小。 [0038] In order to solve due to inconsistencies plug-screen VR glasses display screen position and glasses position, and a display screen size can not and VR glasses viewing zone matches, but shows poor results in the problem caused by setting on the VR glasses there are plug contacts can be detected screen means, and by means for detecting the position of the plug contact screen, then the display screen in accordance with the position or size of the two adjusting contacts detected, or while adjusting the position and size. 本发明通过外挂屏装置检测所述触点的位置,即能够检测到两组光学镜片的位置,根据光学镜片的位置信息,外挂屏装置就能够调整两个画面的显示位置和/或大小,从而能够解决显示画面位置和眼镜位置不一致,以及显示画面大小不能和VR眼镜视域相匹配的问题。 The present invention detects the position of the plug contact screen device, i.e., the position can be detected two sets of optical lenses, optical lens position information, plug the screen apparatus can adjust the display position of the two screens and / or size, whereby You can solve the display screen position and the position inconsistent glasses, and a display screen size can not issue sight glasses and VR match.

[0039]其中,触点设置的位置和触点的个数不同,外挂屏装置根据检测到的所有触点的位置确定显示画面的大小和位置的方法不同,具体如下述各个实施例,但本发明的保护范围并不限定于此,本领域技术人员可依据常规技术手段实施其他触点个数和位置的实施例,均在本发明的保护范围之内。 [0039] wherein, different numbers of contacts and the contacts set position, the plug means according to the detected screen position of all the contacts of different methods to determine the size and position of the display screen, each of the specific embodiments described below as examples, but the present the scope of invention is not limited thereto, those skilled in the art can implement other embodiments of the number and location of the contacts according to conventional techniques, it is within the scope of the present invention.

[0040]实施本发明提供的用于外挂屏式VR眼镜自动调整屏幕显示的方法可以采用各种适当的结构。 Method [0040] VR-screen embodiment of a plug according to the present invention provides glasses automatically adjusting screen display may employ various suitable structures.

[0041]如图1所示为实施本发明提供的用于外挂屏式VR眼镜自动调整屏幕显示的方法的优选地的外挂屏式VR眼镜的结构示意图,本实例的外挂屏式VR眼镜包括壳体1、瞳距调节器 Plug schematic structural formula VR glasses screen is preferably a method of [0041] embodiment of the present invention is shown as provided for plug-screen glasses to automatically adjust screen VR 1, VR plug platen glasses of the present example includes a housing 1, pupil distance adjuster

3、两组光学镜片4、两组镜框5、触点7、外挂屏托板8、铰链9和固定挡板10。 3, two sets of optical lens 4, two frame 5, the contacts 7, 8 pallets screen plug, the hinge 9 and the fixed baffle 10. 所述两组光学镜片4分别固定在两个镜框5上,所述镜框5上安装有能被外挂屏装置100检测到的触点7。 The two sets of optical lenses 4 are fixed on the two frame 5, the mounting means 100 with a contact plug 7 can be detected on the panel frame 5.

[0042]需要说明的是,本发明并不限定于触点7设置在镜框5上这种实施例,在另一种实施例中,触点7也可设置于与光学镜片连接的、用于调节瞳距的结构上,只要满足外挂屏装置通过检测到触点的位置即可获取到光学镜片的位置的要求,触点可设置于外挂屏式VR目艮镜的任意位置,均在本发明的保护范围之内。 [0042] Incidentally, the present invention is not limited to the contact 7 is provided on the frame 5 of this embodiment, in another embodiment, it may be provided on the contact 7 is connected to the optical lenses for High adjustment on the structure, can be obtained as long as required by the position of the optical lens satisfies the detected position of the contact plug-screen device, the contact plug may be disposed at any position VR-screen mesh Gen mirror, in the present invention are within the scope of protection.

[0043] 本发明中所述的瞳距调节器3可以采用现有的各种适当结构。 [0043] In the invention of claim 3 interpupillary distance adjustment may take various suitable conventional structure. 例如,可以通过螺纹螺杆或齿轮的结构与VR眼镜的两组光学镜片结构连接,通过驱动螺杆或者齿轮转动,即可调节两组光学镜片的距离。 For example, the two may be connected through an optical lens structure as glasses and VR threaded screw or gear, or the gear is rotated by the drive screw, to adjust the distance of the optical lens groups. 在图1所述的优选实施例中,通过驱动螺杆或者齿轮,可以实现两组光学镜片的同时调整,即实现两组光学镜片同时相向移动或者反向移动。 In a preferred embodiment according to FIG. 1 embodiment, by a screw or gear drive may be achieved simultaneously adjust the optical lens groups, i.e., two sets of optical lenses to achieve simultaneously moved towards or reverse movement. 但本发明不限于此,在本发明的其他实施例中,可以通过螺杆或者齿轮分别调整每组光学镜片的位置,以适应不同的需要。 However, the present invention is not limited thereto, in other embodiments of the present invention, can be adjusted by a screw or a gear position of each of the optical lenses, respectively, to accommodate different needs.

[0044]上述实施例提供了一种较优的实施本发明的用于外挂屏式VR眼镜自动调整屏幕显示的方法的结构,但本发明并不以此为限,实施本发明的方法的外挂屏式VR眼镜,只要在VR眼镜的光学镜片构架上设置有能被外挂屏装置检测到的触点即可,外挂屏式VR眼镜的其他结构可以采用现有的任何结构,例如,固定挡板1可以卡接在壳体I上。 Plug [0044] The embodiment provides a superior method for the plug embodiment of the structure of formula VR glasses to automatically adjust screen displayed on the screen of the present invention, but the present invention is not limited thereto, embodiments of the present invention is a method of VR-screen glasses, as long as the plug can be provided with a screen means on the optical lens glasses frame VR detected contact as described, other structural formula VR glasses screen plug may take any conventional configuration, e.g., a fixed baffle 1 may be connected to the card housing I.

[0045]下面以本发明提供优选实施例为例,来说明本发明提供的用于外挂屏式VR眼镜自动调整屏幕显示的方法: [0045] In the present invention, the following preferred embodiment provided as an example embodiment to illustrate the present invention provides for a plug-screen VR glasses method for automatically adjusting screen display:

[0046]首先,将外挂屏装置100放在所述外挂屏托板8上,然后扣上所述固定挡板10即可固定外挂屏装置。 [0046] First, the screen device 100 on the plug the plug tray on the screen 8, and then fasten the bezel 10 to the fixing device fixing the plug panel. 在未经画面调整的VR眼镜上,观看者需要先根据观看效果(比如重影等)或自己的已知瞳距值利用所述瞳距调节器3调整两个镜片的瞳距;在调整镜片瞳距过程中,固定在所述镜框5上的所述触点7也相应移动,所述外挂屏装置100检测触点7的位置,根据检测到的所述触点7的位置确定当前两组镜片的位置,从而根据镜片的位置调整两个画面的显示位置和大小。 On the screen without glasses VR adjusted, according to need to the viewer viewing (such as ghost and the like) or their known IPD value by using IPD the regulator 3 to adjust IPD two lenses; lens adjustment IPD process, fixed to the frame 5 of the contact 7 moves accordingly, the screen device 100 detects the position of the plug contacts 7, according to the detected position of the two contacts 7 determines the current lens position to adjust the position and size of the display screen according to the position of two lenses. 而此时两个显示画面的中心距离即为当前的瞳距,所述外挂屏装置可以选择性地将计算出的瞳距和其他画面信息显示在屏幕上。 Two at a time from the center of the display screen is the current IPD, the plug means can selectively screen the calculated IPD and other picture information displayed on the screen.

[0047]需要注意的是,针对个人特别制定的VR眼镜,不需要调整瞳距,这类VR眼镜上也无需设置瞳距调节器;针对个人之前已经调节好瞳距的VR眼镜,由于该VR眼镜的瞳距与佩戴者的瞳距完全相符,因此也不需要重新调整瞳距。 [0047] It should be noted, in particular, the development of personal VR glasses, no need to adjust the IPD, the type of VR glasses without setting IPD regulator; for good before the individual has been adjusted IPD VR glasses, since the VR IPD IPD glasses entirely consistent with the wearer, and therefore do not need to re-adjust the IPD. 对于这两类VR眼镜,在使用时,只需要将外挂屏装置100放在所述外挂屏托板8上,然后外挂屏装置100根据触点7确定当前两组镜片的位置,从而根据镜片的位置调整两个画面的显示位置和大小即可。 For these two types of VR glasses, when in use, only need to plug the screen apparatus 100 is placed on the pallet screen plug 8, and then plug the screen apparatus 100 according to the current position of the contacts 7 determines two sets of lenses, so that the lens according to the adjusting the position of the two screens to display position and size.

[0048]在本发明中,所述触点可以具有不同的设置方式,下面以以下实施实例为例进行具体说明,需要说明的是,图2与图4中外挂屏装置100的显示画面均为长方形,实际上,由于镜片能够优化的参数极其有限,在满足提高清晰度,增强视野的情况下,很难同时满足消除畸变的目的,因此,手机上的显示画面的形状依镜片的不同而不同,可能显示为枕形(显示画面的四个边内凹)或者桶形(显示画面的四个边外凸),也可能长方形,本申请对显示画面的形状不做限定。 [0048] In the present invention, the contacts may have a different arrangement, the following embodiments in the following examples will be specifically described as an example, to be noted that, in FIG. 2 and FIG. 4 shows the screen of the screen device 100 are plug a rectangle, in fact, is very limited because the parameters of the lens can be optimized, while meeting improve clarity, enhanced vision, difficult to satisfy the purpose of eliminating distortion, and therefore, the shape of the display screen on the phone varies according to different lenses , may appear as pillow-shaped (four sides of the display screen is concave) or barrel (four sides of the display screen is convex), may also be rectangular, the shape of the display screen of the application is not limited.

[0049]对于显示画面为上述枕形或桶形的情况,在确定显示画面的高度和宽度时,以上下最大的纵向距离记为高度,以左右最大的横向距离记为宽度。 [0049] For the case where the display screen as pincushion or barrel of the above, in determining the height and width of the display screen, above the maximum height referred to as the longitudinal distance to the left and right lateral distance referred to as the maximum width.

[0050] 实施实例I [0050] Embodiment Example I

[0051]如图2所示为每组光学镜片构架上设置一个触点时的外挂屏装置100示意图。 [0051] Plug panel 100 is provided a contact means is a schematic diagram of the optical lens 2 during each frame as shown in FIG. 左边光学镜片构架上设置第一触点701;右边光学镜片构架上设置第二触点702。 Left optical lens frame 701 is provided on the first contact; a second contact 702 disposed on the right side of the optical lens frame. 虚线框101为眼镜通过光学镜片所能看到的范围,即视域。 By dashed box 101 for the glasses you can see the range of the optical lens, i.e., the viewing area. 两个所述触点离视域边界有一定的安全距离E,这样就不会因为设置的触点及触点连接装置挡住观看者的视线。 The two contacts from the viewing area at a safe distance from the boundary E, so that will not contact the contact and connecting means provided to block the line of sight of the viewer.

[0052]对于指定型号的VR眼镜,其所述视域101的大小是由光学镜片自身的参数和光学镜片至显示屏之间的距离参数,也即物距确定的,本实例中可以事先在所述外挂屏装置100中输入具体数据或选择预置好参数的VR眼镜型号来确定视域大小,也即确定显示画面的大小。 [0052] For the Model VR glasses, the size of the field of view 101 which is an optical lens and its optical parameters of lens to a distance between the display parameters, i.e., the object distance determined in the present example may be previously the plug-specific data input screen apparatus 100 or select the preset parameters VR glasses good model to determine the size of the viewing area, i.e. to determine the size of the display screen.

[0053]需要说明的是,本申请中提到的视域是指对应于显示屏幕观看效果较为理想的显示画面大小,并不是VR眼镜的全部视域。 [0053] Incidentally, mentioned in this application refers to a field of view corresponding to the display screen is viewing the display screen size is preferable, not all VR sight glasses. VR眼镜的全部视域形状与光学镜片的形状有关,例如光学镜片的形状为圆形时,其实际视域通常也为圆形,但在显示时,一般显示为长方形或类长方形(例如上文提到的桶形或枕形)。 VR sight glasses all shapes related to the shape of the optical lens, such as the shape of the optical lens is circular, the actual field of view is also generally circular, but in the case, generally shown as rectangular or almost rectangular (e.g. above mentioned barrel or pincushion).

[0054] 优选地,当外挂屏式VR眼镜工作于全景模式时,在显示屏的显示范围之内,显示画面的大小可以比非全景模式大,以提高沉浸感。 [0054] Preferably, when the plug-screen VR glasses operating in panoramic mode, the display range of the display screen, the display screen size may be larger than the non-panoramic mode, to increase the sense of immersion. 因此可以同时设置全景模式和非全景模式两组独立的视域大小参数和安全距离E值。 Panorama mode and can be set independently of the size of field of view and safety parameters from the non-E-value in both groups panorama mode.

[0055]下面要确定两幅画面的位置。 [0055] To determine the position of the next two pictures. 本实例中每个所述触点都设置在所述视域101的下侧的中间位置,以左侧画面为例,其横向中点与所述触点701的横向位置相同,其纵向位置的下边缘为所述触点701的纵向位置加上所述安全距离E,同理可根据所述触点702来确定右侧画面的位置。 In the present example each of the contacts are disposed in an intermediate position on the lower side of the field of view 101 to the left side of the screen, for example, the midpoint of the transverse contacts 701 of the same lateral position, its longitudinal position the lower edge of the longitudinal position of the contact 701 plus the safety distance E, the same way may be determined according to the position of the right side of the screen 702 contacts.

[0056] 实施实例2 [0056] Embodiment Example 2

[0057]如图3所示为每组光学镜片构架上均设置有两个触点时的外挂屏装置100示意图。 [0057] Figure 3 a schematic view of the plug means has screen 100 when the two contacts are provided on the optical lens to each frame. 左边光学镜片构架上设置第一触点701和第二触点702;右边光学镜片构架上设置第三触点703和第四触点704。 Optical lens disposed on the left frame 701 on the first contact and the second contact 702; a third contact and fourth contact 703 on the right side of the optical lens 704 architecture. 虚线框101为眼镜通过光学镜片所能看到的范围,即视域。 By dashed box 101 for the glasses you can see the range of the optical lens, i.e., the viewing area. 四个所述触点离视域边界有一定的安全距离E,这样就不会因为设置的触点及触点连接装置挡住观看者的视线。 The four contacts from the viewing area at a safe distance from the boundary E, so that will not contact the contact and connecting means provided to block the line of sight of the viewer.

[0058]本实例中每组所述触点都设置在所述视域101的上下两侧的中间位置,以左侧画面为例,所述外挂屏装置100检测到所述第一触点701和第二触点702,计算两点连线的中点即为所需要显示画面的中心点。 [0058] In the present example the contacts are each provided at an intermediate position of the upper and lower sides of the field of view 101 to the left side of the screen, for example, the plug-in screen apparatus 100 detects the first contact 701 and a second contact 702, the midpoint of the two connections is the calculation of the center point of the picture to be displayed. 而所述第一触点701和第二触点702的距离再减去两倍的所述安全距离E即为显示画面的高度H,再根据画面的显示比例即可确定画面的长度L。 And the distance between the first contacts 701 and second contacts 702 minus twice the safety distance H E is the height of the display screen, and then to determine the ratio of the length of the screen according to the display screen L. 同理利用所述第三触点703和所述第四触点704确定右侧画面的位置和大小。 Similarly with the third contacts 703 and the fourth contact 704 to determine the location and size of the right screen.

[0059 ]优选地,可以同时设置全景模式和非全景模式两组独立的安全距离E值。 [0059] Preferably, panorama mode, and may be provided separate from the non-safety value E panorama mode in both groups.

[0060] 实施实例3 [0060] Embodiment Example 3

[0061 ]本实施实例和实施实例2相似,只是没有所述第四触点704。 [0061] The examples and embodiments of the present embodiment is similar to Example 2, but without the fourth contact 704.

[0062]根据实施实例2中描述的所述第一触点701和所述第二触点702确定左侧画面的位置和大小,直接设置右侧画面大小等于左侧画面大小,然后根据所述第三触点703和所述第一触点701的距离D确定右侧画面的位置。 [0062] 702 determine the position and size of the left screen according to the embodiment example 2 described in the first contact and the second contact 701, is equal to the size of the right screen disposed directly left side of the screen size, and according to the a third contact 703 and the first contact 701, the distance D determines the position of the right side of the screen.

[0063] 实施实例4 [0063] Embodiment Example 4

[0064]如图4所示为只有一个光学镜片构架上设置有触点,同时在VR眼镜固定的位置上设置有固定触点时的外挂屏装置示意图。 [0064] FIG. 4 shows only a contact provided on the optical lens frame, while a schematic view of the plug when the screen device fixed contact provided at a fixed position on the VR glasses.

[0065]对于指定型号的VR眼镜,其所述视域101的大小是由光学镜片参数和VR眼镜几何尺寸确定的,本实例中可以事先在所述外挂屏装置100中输入具体数据或选择预置好尺寸的VR眼镜型号来确定视域大小,或者也可以先根据所述触点701和所述固定触点802的纵向距离D2来确定显示画面的高度H = D2-Kd,对于确定的VR眼镜,H是确定的,触点701和固定触点802之间的纵向距离D2也是固定的,因而Kd为固定值,Kd可以提前输入到所述外挂屏装置100中或选择预置好数值的VR眼镜型号。 [0065] For the Model VR glasses, depending on the size of the field 101 which is determined by the optical parameters and VR glasses lens geometry, the present example can be pre-selected or pre-specific data input in the screen device 100 in the plug VR glasses facing the sized model to determine the size of the viewing area, or may be based on the first contact 701 and the longitudinal distance D2 from the fixed contact 802 to determine the height of the display screen H = D2-Kd, for certain VR glasses, H is determined, the longitudinal distance D2 between the contacts 701 and the fixed contact 802 is fixed, the Kd of a fixed value, can be entered in advance into the Kd value of said preset the plug means 100 or the screen selected VR glasses models. 然后只需要根据所述固定触点802和所述触点701确定两幅画面的显示位置即可。 701 then only needs to determine the position of the screen in accordance with the two fixed contacts 802 and the contacts.

[0066] 所述固定触点802为固定在所述VR眼镜壳体I上的触点,在调节所述瞳距调节器3的过程中,所述固定触点802的位置是固定不变的。 [0066] The fixed contact 802 is fixed to the spectacle case I contact VR in the process of adjusting the interpupillary distance adjustment device 3, the position of the fixed contact 802 is fixed .

[0067]本实例中调节瞳距过程中所述触点701只是随着所述光学镜片4左右移动,所以所述固定触点802和所述触点701的纵向距离D2是固定不动的,横向距离Dl是变化的。 [0067] In the present example the High adjustment process 701 only contacts with the movement of the left and right optical lens 4, the fixed contact 802 and the longitudinal distance D2 of the contact 701 is stationary, lateral distance Dl varies. 将所述触点701设置在左侧画面的中点,用所述触点701的纵向位置减去安全距离E即为左右两侧画面的上边沿位置,从而确定了左右两个画面的纵向位置。 The contact 701 is provided at the midpoint of the left side of the screen, by subtracting the distance E is the safety position of the left and right sides of the upper edge of the screen with the longitudinal position of the contact 701 to determine the longitudinal position of the left and right two screens . 所述触点701的中点即为左画面的横向中点,这样左画面的横向位置即可确定。 Lateral midpoint of the contact 701 is the midpoint of the left screen, so that the left lateral position of the screen can be determined.

[0068] 在确定右侧画面的横向位置时,一种情况下,若需要通过所述瞳距调节器3调节瞳距时,也即本实施实例还需要调节所述瞳距调节器3时,两个所述光学镜片4呈对称运动,这样移动过程中两幅画面视域的间距D的变化距离为Dl变化距离的2倍。 [0068] In determining the lateral position of the right side of the screen, in one case, if the pupillary distance by adjusting the required 3 IPD regulator, i.e. the present example embodiment further necessary to adjust the regulator 3 the IPD, the two symmetrical moving optical lens 4, such movement changes the distance D during two picture field of view is two times the distance Dl change in distance. 即D = K-2XDUK为固定触点802至两个镜片之间横向中心点的横向距离的2倍,对于确定的VR眼镜,固定触点802至两个镜片之间横向中心点距离为常量,因而K为常量。 I.e., D = K-2XDUK 2 times the lateral distance between the center point of the lateral fixed contact lenses 802-2, the transverse distance between the center point of the VR glasses determined fixed contact lenses 802-2 constant, thus K is a constant. 因此,D由所述固定触点802和所述触点701的位置及光学镜片的位置确定。 Thus, D by the fixed contact 802 and the position and the position of the optical lens 701 contacts determined. 另一种情况下,对于个人定制化的VR眼镜,VR眼镜的瞳距是与使用者的瞳距相匹配,因而个人定制化的VR眼镜的D值是不变的,所以可以依上述两种情况的不同,事先在所述外挂屏装置100中输入K值或D值的具体数据,也可以预先在外挂屏装置100中设置K值或D值与VR眼镜型号的对应关系,使用者选择预置好参数的VR眼镜型号即可。 In another case, for personalization of glasses VR, VR glasses IPD is IPD matches the user, and thus the value of D glasses personalization of VR is constant, it is possible according to the two different circumstances, specific data previously entered in the 100 K value or the value of the add-D screen apparatus 100 may be previously set in relation K values ​​corresponding plug-screen device D value or VR glasses models, the user selects a pre- VR glasses to set a good model parameters.

[0069]优选地,可以同时设置全景模式和非全景模式两组独立的视域大小参数和安全距 [0069] Preferably, may be provided simultaneously panoramic mode and the non panorama mode two independent parameters, and the size of the viewing area at a safe distance

I^E值。 I ^ E value.

[0070] 实施实例5 [0070] Embodiment Example 5

[0071]如图5所示,本实施实例和实施实例I相似,只是本示例为全景显示模式下其部分显示画面超出了VR眼镜的光学视域102范围,所以虽然触点设置在了显示画面上(此时安全距离E值为负值)但并不影响观看视线,将触点的横向位置加固定参数De后即可根据实例I进行处理。 [0071] 5, and examples of the present embodiment is similar to Embodiment Example I, except that the present example is a panning mode screen display section 102 outside the optical range VR sight glasses, so although a display screen provided on the contact processed according to example I after (E safety distance at this time is a negative value), but does not affect the viewing line of sight, the lateral position of the contacts plus fixed parameter De. De为VR眼镜的固定参数,也即触点701至其对应光学镜片的光学中心的横向距离,可以设置或选择预置好参数的VR眼镜型号。 De VR glasses of fixed parameters, i.e. lateral distance contacts 701 to its corresponding optical center of the optical lens may be set or selected preset the parameters VR glasses models.

[0072]以上所述仅为本发明的较佳实施实例,不能因此而理解为对本发明专利保护范围的限制,凡依据本发明权利要求范围所做的均等变化与修饰,皆应属于本发明权利要求的涵盖范围。 [0072] The examples above are merely preferred embodiments of the present invention, and therefore should not be construed as limiting the scope of protection of the present invention, where the basis of modifications and alterations made to the scope of claims of the invention and are claimed in the present invention should fall coverage requirements.

Claims (10)

1.一种外挂屏式VR眼镜调整屏幕显示的方法,在所述外挂屏式VR眼镜的外挂屏装置的显示屏上显示有两个显示画面,其特征在于, 在VR眼镜上设置有能被外挂屏装置检测到的触点; 所述外挂屏装置检测所述触点的位置;以及根据检测到的触点位置调整所述两个显示画面的位置和/或大小。 1. A method of adjusting glasses VR Plug-screen display screen, a display screen displayed on the two-screen display device of the plug-in plug-screen VR glasses, characterized in that, there can be provided on the VR glasses detecting the contact plug panel means; means for detecting the position of said screen of said plug contacts; and according to the detected contact position adjustment of the two display position of the screen and / or size.
2.根据权利要求1所述的外挂屏式VR眼镜调整屏幕显示的方法,所述外挂屏式VR眼镜还包括瞳距调节器,所述触点随所述光学镜片移动且与所述光学镜片的相对位置固定不变。 Screen plug according to claim 1 of the formula VR glasses method for adjusting a screen display, the plug further comprising a platen VR glasses IPD regulator, said moving contact with said optical lens and the optical lens fixed relative position.
3.根据权利要求2所述的外挂屏式VR眼镜调整屏幕显示的方法,所述外挂屏式VR眼镜还包括分别与两个光学镜片相对应的两个光学镜片构架,两个所述光学镜片构架上或任意一个所述光学镜片构架上设置有所述触点。 The plug-screen VR glasses according to claim 2 The method of adjusting a screen display, the plug further comprising a platen glasses VR respectively corresponding to the two optical lens frame two optical lenses, said two optical lens on the frame or any one of the contacts provided on the optical lens frame.
4.根据权利要求3所述的外挂屏式VR眼镜调整屏幕显示的方法,其特征在于: 每个光学镜片构架上设置一个所述触点;或者在一个光学镜片构架上设置两个所述触点,在另一个光学镜片构架上设置一个或两个所述触点。 Plug-type screen according to claim 3, wherein said VR glasses method of adjusting a screen display, wherein: one of said contacts is provided on each optical lens frame; or the two contact disposed on a framework optical lens point, one or both of contacts provided on the other optical lens frame.
5.根据权利要求4所述的外挂屏式VR眼镜调整屏幕显示的方法,其特征在于:所述一个光学镜片构架上的两个所述触点按光学镜片的中心呈对称布置。 Plug according to claim 4, wherein the platen glasses VR method for adjusting a screen display, wherein: said contacts on one of said two optical lens frame by the symmetrical center of the optical lens arrangement.
6.根据权利要求3所述的外挂屏式VR眼镜调整屏幕显示的方法,其特征在于:只有一个光学镜片构架上设置有所述触点,同时在所述外挂屏式VR眼镜固定的位置上设置有固定触点, 所述方法还包括:所述外挂屏装置检测所述固定触点的位置; 调整所述两个显示画面的位置和/或大小的步骤具体为:根据所述固定触点的位置与所述一个光学镜片构架上的触点调整所述两个显示画面的位置和/或大小。 The plug-screen VR glasses according to claim 3, wherein the display screen adjusting method, wherein: only one of the contacts provided on the optical lens frame, while the plug-in fixed position on the platen glasses VR fixed contact is provided, the method further comprising: detecting a position of the plug-in screen means the fixed contact; adjusting the position of the two display screens and / or size of the step is specifically: the said fixed contact adjusting the position of contact with said one of said two optical lens frame display position of the screen and / or size.
7.根据权利要求1所述的外挂屏式VR眼镜调整屏幕显示的方法,其特征在于:所述触点为可被电容式触摸屏识别的电容触点或可被电阻式触摸屏识别的压力触点。 The plug-screen VR glasses according to claim 1 The method of adjusting a screen display, wherein: said contact is a capacitive touch screen can be identified or capacitor contacts may be identified resistive touch screen contact pressure .
8.—种外挂屏式VR眼镜的屏幕显示装置,其特征在于:用于执行权利要求1至7任一所述的外挂屏式VR眼镜调整屏幕显示的方法。 8.- kinds of glasses VR Plug-panel screen display apparatus, wherein: means for performing any of claims 1 to 7, a plug-screen of the VR glasses method for adjusting a screen display.
9.一种外挂屏式装置,其特征在于:包括权利要求8所述的外挂屏式VR眼镜的屏幕显示目.ο A plug-type screen device, comprising: a plug-screen VR glasses according to claim 8 mesh screen display .ο
10.一种外挂屏式VR眼镜,其特征在于:所述外挂屏式VR眼镜包括能被外挂屏装置检测到的触点以及用于放置外挂屏装置的外挂屏固定结构,其中,所述外挂屏装置能够根据检测到的所述触点的位置而调整显示画面的位置和/或大小。 A plug-screen VR glasses, characterized in that: said plug-screen panel VR glasses comprising plug means can be detected by the contacts and plug-fixing structure for placement screen panel device plug, wherein said plug screen display apparatus capable of adjusting the screen position and / or size according to the position of the contact detected.
CN201610490619.4A 2016-06-28 2016-06-28 External hanging screen-type VR glasses, screen display adjustment method and screen display device CN106125307A (en)

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