CN105824124A - Display panel and display device - Google Patents

Display panel and display device Download PDF

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Publication number
CN105824124A
CN105824124A CN 201610370992 CN201610370992A CN105824124A CN 105824124 A CN105824124 A CN 105824124A CN 201610370992 CN201610370992 CN 201610370992 CN 201610370992 A CN201610370992 A CN 201610370992A CN 105824124 A CN105824124 A CN 105824124A
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display
display panel
region
sub
user
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CN 201610370992
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Chinese (zh)
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武延兵
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京东方科技集团股份有限公司
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    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS, OR APPARATUS
    • G02B27/00Other optical systems; Other optical apparatus
    • G02B27/01Head-up displays
    • G02B27/017Head mounted
    • G02B27/0172Head mounted characterised by optical features
    • 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 provides a display panel and a display device and belongs to the virtual and reality display technology field. The display panel comprises a display region used for displaying frames and a transmission region used for transmitting light. The display device comprises the display panel, a light outgoing side of the display panel is provided with an optical structure, and light emitted by the display region can be gathered through the optical structure on a retina of a user. According to the display panel and the display device, the user can not only acquire virtual images through the display region, but also can observe the real surrounding environment through the transmission region, so the virtual images and the real environment are fused in final presentation frames, the more realistic vision effect is realized, and brand new experience is provided for the user.

Description

-种显示面板及显示装置 - kind of display panel and a display device

技术领域 FIELD

[0001] 本发明设及虚拟与现实显示技术领域,特别指是一种显示面板及显示装置。 [0001] and the present invention is provided with a virtual reality display technology, and particularly refers to a display panel and a display device.

背景技术 Background technique

[0002] 虚拟现实技术的应用已经愈发得到重视,从谷歌的google glass,到微软新推出的hololens,运种在人眼前进行显示的装置带给我们许多全新的体验。 [0002] The application of virtual reality technology has become increasingly attention from Google's google glass, to Microsoft's new hololens, kind of a device for displaying transportation bring us a lot of new experience in human eyes. 目前沉浸式虚拟现实眼镜是常见的一种虚拟现实设备,其结构如图1所示,包括:第一显示屏121、第二显示屏122(也可W是一块大的显示屏分成两个显示区)、近眼的第一透镜131和第二透镜132,透镜分别将对应显示屏上显示的内容投射到人的双眼中。 Currently immersive virtual reality glasses is a common virtual reality apparatus, the structure shown in Figure 1, comprising: a first display 121, second display 122 (also W is a large display screen is divided into two zone), a first near-eye lens 131 and second lens 132, lenses respectively corresponding to the contents displayed on the display screen is projected to the human eyes. 此外图1所示的虚拟现实眼镜还包括将第一显示屏121、第二显示屏122、第一透镜131和第二透镜132进行固定和保护的外壳110。 Further virtual reality glasses shown in Figure 1 further comprises a first display 121, second display 122, a first lens 131 and second lens 132 and the protective casing 110 is fixed. 在外壳110与人脸接触的地方设有缓冲层140,缓冲层140用于与人脸外形紧密贴合,避免外界光线进入,同时也提高佩戴舒适性。 Where the buffer layer is provided in contact with the face 110 of the housing 140, and the buffer layer 140 to face close contact shape, to avoid entry of ambient light, while also improving wearer comfort. 缓冲层140可W用棉花、海绵、皮毛、树脂等构成。 The buffer layer 140 may be constituted by W cotton, sponge, leather, resin and the like.

[0003] 从图1中可W看出,沉浸式虚拟显示眼镜是视线完全封闭的设备,用户在佩戴后无法观察外部环境,因此具有一定局限性。 [0003] W may be seen in FIG. 1, immersive virtual sight glasses are completely enclosed display device, the user can not view the external environment after wearing, and therefore has certain limitations. 此外,该设备一般只采用一到两个光学透镜,运样一来每个光学透镜必须要对应较大的显示面积,因此必须与显示屏保持一定间距,如此一来造成了智能眼镜体积过大,非常笨重。 In addition, the apparatus generally uses only one or two optical lenses, a sample transport to correspond to each of the optical lens must be larger display area, it is necessary to maintain a certain distance with the display screen, this way causing the glasses too large , very heavy.

发明内容 SUMMARY

[0004] 本发明的目的是提供一种显示面板及显示装置,能够将虚拟影像与实际环境相结合,为用户提供一种全新的体验效果。 [0004] The object of the present invention is to provide a display panel and a display device, the virtual image can be combined with the actual environment, to provide users with a new experience effect.

[0005] 为实现上述目的,一方面,本发明提供一种显示面板,包括: [0005] To achieve the above object, in one aspect, the present invention provides a display panel, comprising:

[0006] 用于显示画面的显示区和用于透射光线的透射区。 [0006] The display area for displaying a screen and a transmission region for transmitting light.

[0007] 可选地,所述显示区和透光区交替排布。 [0007] Alternatively, the display region and the transmissive region are alternately arranged.

[000引可选地,所述显示面板包括有阵列排布的多个亚像素; [000 cited Alternatively, the display panel comprises a plurality of sub-pixels arranged in an array;

[0009] 其中,一行或多行的亚像素作为一个显示区,或者一列或多列的亚像素作为一个显示区;或者,多个相邻多个亚像素组成一个矩形的显示区,所述透射区与所述显示区的形状相同。 [0009] wherein one or more rows of sub-pixels as one display area, or one or more columns of sub-pixels as one display area; Alternatively, a plurality of sub-pixels form a plurality of adjacent rectangular display area, the transmission region and the display region of the same shape.

[0010] 可选地,所述显示区和所述透光区的面积相同。 [0010] Alternatively, the same area of ​​the display region and the transmissive region.

[0011] 另一方面,本发明还提供一种显示装置,包括上述的显示面板,W及设置在所述显示面板的出光侧的光学结构;其中,所述光学结构能够将显示区出射的光线汇聚至用户的视网膜上。 [0011] In another aspect, the present invention further provides a display apparatus comprising a display panel described above, W, and is provided in the optical configuration of a light emitting side of the display panel; wherein the optical structure capable of light exiting the display region converge onto the user's retina.

[0012] 可选地,所述光学结构为光学透镜。 [0012] Alternatively, the optical structure is an optical lens.

[0013] 可选地,所述显示面板划分为多个区域,每一区域对应有一个光学透镜,用于将对应区域的光线汇聚至用户的视网膜上。 [0013] Alternatively, the display panel is divided into a plurality of regions, each region corresponding to a optical lens for converging the light onto the region corresponding to the user's retina.

[0014] 可选地,所述显示面板的显示区包括有阵列排布的多个亚像素,每一亚像素对应有一个光学透镜。 [0014] Alternatively, the display region comprising a plurality of panels arranged in an array of sub-pixels, each sub-pixel corresponding to one optical lens has.

[0015] 可选地,每一透镜的焦距与其汇聚的亚像素的颜色相对应。 [0015] Alternatively, the focal length of each lens and its color sub-pixels corresponding to converge.

[0016] 可选地,所述光学透镜与所述显示面板之间的距离小于其与用户的视网膜之间的距离。 [0016] Alternatively, the optical lens and the distance between the display panel is shorter than the distance between it and the user's retina.

[0017] 可选地,所述光学透镜为凸透镜,具有一圆形覆盖区域,该覆盖区域的直径小于1mm,且所述凸透镜与所述显示面板之间的距离为1mm至10mm。 [0017] Alternatively, the optical lens is a convex lens having a circular coverage area, the coverage area is smaller than a diameter of 1mm, and the distance between the convex lens and the display panel is 1mm to 10mm.

[0018] 本发明的上述技术方案的有益效果如下: [0018] Advantageous effects of the above aspect of the present invention are as follows:

[0019] 在本发明方案中,用户不仅能够通过显示区获取虚拟影像,还能够通过透射区观看四周真实的环境,因此在最终呈现的画面中,虚拟影像与实际环境相融合,具有更加逼真的视觉效果。 [0019] In the embodiment of the present invention, the user can not only acquired by the display region virtual image can also be looked around the real environment through the transmissive region, and therefore the final product, the virtual image and the real environment integration, a more realistic Visual effects.

附图说明 BRIEF DESCRIPTION

[0020] 图1为现有的沉浸式虚拟现实眼镜的结构示意图; [0020] FIG. 1 is a schematic view of a conventional immersive virtual reality glasses;

[0021 ]图2为本发明的显示面板的结构示意图; [0021] The structure of the display panel of FIG. 2 is a schematic view of the present disclosure;

[0022] 图3-图5为本发明的显示面板中,显示区与透射区的分布示意图; In the display panel [0022] Figures 3-5 of the present invention, a distribution diagram display region and the transmissive region;

[0023] 图6为本发明的显示装置的结构示意图; Schematic structural diagram of a display device [0023] FIG. 6 of the present invention;

[0024] 图7为本发明的显示装置中,亚像素与光学透镜的设置示意图; The display device [0024] FIG. 7 of the present invention, is provided a schematic diagram of the optical lens sub-pixel;

[0025] 图8为本发明的显示装置中,光学透镜的结构示意图。 [0025] The display device of the present invention in FIG. 8, a schematic structure of the optical lens.

具体实施方式 Detailed ways

[0026] 为使本发明要解决的技术问题、技术方案和优点更加清楚,下面将结合附图及具体实施例进行详细描述。 [0026] For the present invention to solve the technical problem, technical solutions and advantages clearer, the accompanying drawings and will be described in detail specific embodiments.

[0027] 针对现有的虚拟与现实成像设备无法将虚拟影像与用户周围的实际场景相融合的问题,本发明提供一种解决方案。 [0027] The problem with the existing virtual reality imaging device can not image the actual virtual scene fused around the user, the present invention provides a solution.

[0028] -方面,本发明提供一种全新结构的显示面板,如图2所示,包括: [0028] - aspect, the present invention provides a new structure of the display panel, shown in Figure 2, comprising:

[0029] 用于显示画面的显示区1,W及用于透射光线的透射区2。 [0029] The display area for displaying screen 1, W, and for transmitting the light transmission region 2.

[0030] 在本实施例中,用户在可W通过显示区获取到虚拟影像,并通过透射区穿透该显示面板,观看到周围的实际环境。 [0030] In the present embodiment, the user can obtain the W region through the display to the virtual image, and penetrate through the transmissive region of the display panel, viewing the actual surroundings. 显示区和透射区的相互配合,最终将虚拟影像融合到实际环境中,从而为用户提供一种全新的体验,具有更加真实的显示效果。 Cooperate with each other and transmissive display area will eventually virtual images integrated into the actual environment, giving users a new experience, with a more realistic display.

[0031] 当然,为了不影响用户的体验效果,作为优选方案,本实施例的显示面板的显示区和透射区为多个,且交替排布,基于该结构设计,合理设置显示区和透射区的大小,可W保证用户难W肉眼识别出显示面板被显示区所遮挡。 A display panel [0031] Of course, in order not to affect the user's experience of the effect, as a preferred embodiment, the present embodiment is a display and transmissive regions of the plurality and alternately arranged, based on the structural design, reasonable setting display region and the transmissive region size, may be difficult to ensure that the user W W visually recognize a display panel is obscured by the display area.

[0032] 下面结合实际应用,对本实施例的显示面板进行详细介绍。 [0032] The following practical application, the display panel of the present embodiment will be described in detail.

[0033] 在本实际应用中,显示面板的显示区可W对应传统的显示屏结构,如化邸屏,而透射区则可W是白玻璃,即整个显示面板是W化抓屏为基础,在其中加入了由白玻璃构成的透明区。 [0033] In the present practical application, the panel display area may correspond to a conventional display configuration W, such as Di of the screen, and W is a transmissive region may be clear glass, i.e., the entire display panel is a screen capture of the basis W, It was added in the transparent region composed of a white glass.

[0034] 显然,每个显示面板中包括有阵列排布的多个亚像素; [0034] Obviously, each of the display panel comprises a plurality of sub-pixels arranged in an array;

[0035] 其中,如图3所示,一行或多行的亚像素(R/G/B方格)作为一个显示区1,在相邻的两行显示区1之间设置一个透射区2; [0035] wherein, as shown in FIG. 3, one or more rows of sub-pixels (R / G / B box) 1 as a display area, a display area is provided between a transmission region 2 in two adjacent rows;

[0036] 或者,如图4所示,一列或多列的亚像素作为一个显示区1,在相邻的两列显示区1 之间设置一个透射区2。 [0036] Alternatively, as shown, one or more columns of sub-pixels of the display area as a 1, between two adjacent display region 1 is provided a transmissive region 24.

[0037] 进一步地,在上述图3或图4所示结构的基础上,显示区和透光区的面积相等,运样显示区和透光区在显示面板上均匀分布,由于实际应用中,本实施例的显示区和透光区是按照亚像素的尺寸对应设置的,因此用户是通过肉眼难W辨出透光区之间所设置的单个显示区,从而不会对观看到的实际环境产生影像。 [0037] Further, on the basis of the structure of FIG. 3 or FIG. 4, the display area and the transmissive area equal to the area of ​​the sample transport region and the transmissive display region on the display panel uniformly distributed, since the practical application, transmissive display region and the region in accordance with the present embodiment is that the size of sub-pixels corresponding to the set, the user is visually difficult to discern the individual display area W between the light-transmitting region is provided so as not to an actual viewing environment generated images.

[0038] 此外,运里需要给予说明的是,图3和图4仅用于示例性介绍本实际应用中显示装置可行的结构。 [0038] Further, in the operation needs to be given Incidentally, FIG. 3 and FIG. 4 only feasible configuration for the device shows an exemplary description of the present practical application. 作为其他的方案,如图5所示,显示区1和透光区2可W是矩形,并呈棋盘式排列,其中一个显示区1可W由多个相邻的亚像素(R/G/B)构成。 As another embodiment, shown in Figure 5, a display region and a transmissive region W 2 may be rectangular, and arranged in a checkerboard shape, wherein a display area W 1 may be a plurality of adjacent sub-pixels (R / G / B). 或者,本实施例中,相邻两行显示区之间设置一行透光区,同时相邻两列显示区之间设置有一列透光区。 Alternatively, in this embodiment, the light-transmitting region is provided between two adjacent row lines display region, while provided between adjacent two light-transmissive region a display region. 显然,但凡是具有显示区和透射区的显示面板,不管显示区和透射区是什么形状、如何排列,均应属于本发明所保护的范围。 Obviously, all but the display panel has a display region and a transmissive region, regardless of the display region and the transmissive region is what shape, how to arrange, should belong to the protection scope of the present invention.

[0039] 另一方面,如图6所示,本发明的另一实施例还提供一种包括上述显示面板61的显示装置,在此基础上,本实施例的显示装置还进一步包括设置在显示面板61的出光侧的光学结构62,该光学结构62能够将显示区出射的光线汇聚至用户的视网膜63上。 [0039] On the other hand, as shown in Figure 6, another embodiment of the present invention further provides a display device comprising the display panel 61, based on this, the present embodiment the display device further comprising a further embodiment of a display provided the optical structure 62 of the light emitting side panel 61, the optical configuration of the display region 62 can be emitted to the light converging on the retina of the user 63.

[0040] 基于本发明所提供的显示面板,本实施例实现了一种具有全新显示效果的虚拟与现实技术,一方面能够将显示区的虚拟图像汇聚到用户视网膜上,且另一方面用户通过透射区可正常观看到的周围的真实环境,基于该结构设计,虚拟影像可W与实际环境相融合, 具有现有虚拟设备所不能达到的体验。 [0040] Based on a display panel of the present invention provides, according to the present embodiment implements a technique of virtual reality with a display having a new effect, on the one hand the virtual image display region can be converged on the retina of the user, and on the other hand by the user transmission area normally watch the real environment around the structure-based design, virtual images can be fused W and the actual environment, with existing virtual devices can not achieve experience.

[0041] 在实际应用中,本实施例的光学结构可W是光学透镜,显示面板划分为多个区域, 每一区域对应有一个光学透镜,用于将对应区域的光线汇聚至用户的视网膜上。 The optical structure [0041] In practice, the present embodiment may be W is an optical lens, the display panel is divided into a plurality of regions, each region corresponding to one optical lens has, for the region corresponding to the light converging to the user's retina .

[0042] 显然,基于上述结构设计,本实施例显示面板中会设置有多个光学透镜,每个光学透镜对应显示面板的一小块区域。 [0042] Clearly, the above-described structural design based on the present embodiment, the display panel provided with a plurality of optical lenses, each optical lens corresponds to a small region of the display panel. 与图1所示的现有技术的相比,光学透镜可W设置在更靠近显示面板的位置,从而减小了整个显示装置的尺寸,更利于方便用户佩戴。 The prior art shown in FIG. 1 as compared with the optical lens may be disposed at a position closer to W display panel, thereby reducing the size of the entire display device, user convenience is more conducive to wear.

[0043] 此外,作为优选方案,为给用户提供更好的显示效果,如图7所示,在本实施例中, 显示面板的每一亚像素R/G/B均对应有一个微透镜(即本文前述的光学透镜),该微透镜与亚像素一样对应形成阵列排布,在显示面板上每个亚像素均能够通过对应的微透镜将光线投射到视网膜63上,由于运种投射粒度很高,因此相比于现有技术,本实施例能够实现高质量的显示画面。 [0043] Further, as a preferred embodiment, to provide a better display to the user, as shown in FIG. 7, in the present embodiment, the display panel for each sub-pixel R / G / B has one microlens corresponds ( i.e., herein, the optical lens), the sub-pixels corresponding to the microlens array is formed as arranged, in each sub-pixel on the display panel are capable of projecting light onto the retina 63 through the corresponding microlens, since the projection size is transported species high, as compared to the prior art, the present embodiment can realize high-quality display screen.

[0044] 进一步地,基于亚像素与光学透镜的一一对应的结构设计,相比于现有技术的设备,本实施例的光学透镜更贴近显示面板,即光学透镜与显示面板之间距离要小于光学透镜与用户的视网膜之间距离。 [0044] Furthermore, the structural design of one-sub-pixel based on the optical lens, as compared to prior art devices, the optical lens of the present embodiment is closer to the display panel, i.e. to the distance between the optical lens and the display panel It is smaller than the distance between the optical lens and the retina of the user. 因此,可W知道的是,现有技术中光学透镜像眼镜的镜片一样贴近并覆盖用户的视网膜,使得用户的视线完全透过光学透镜观看到显示面板。 Thus, W may be known that, as close to the retina of the user and covers the optical lens image prior art spectacle lens, so that the user's line of sight to the display panel through the full viewing optical lens. 而本实施例中,光学透镜更贴近显示面板的显示区,光学透镜是将显示区的光线区投射至用户的视网膜。 In the present embodiment, the optical lens closer to the display area of ​​the display panel, an optical lens is projected light region of the display region to the user's retina.

[0045] 作为更直观的介绍,如图8所示,假设本实施例的光学透镜为凸透镜(即图8中的阴影部分),该凸透镜高度(即凸透镜圆形覆盖区域的直径)为化,厚度为A,所在圆半径为r,则对应的焦距= r/2。 [0045] As a more intuitive presentation, shown in Figure 8, the present embodiment is assumed that the optical lens is a convex lens (i.e., hatched portion in FIG. 8), the height of the lens (i.e., lens diameter of the circular coverage area) is based, thickness of a, where the radius is r, the corresponding focal length = r / 2. 根据几何特性可W知道,A气-λ/γ2 - L·2,即r〉L。 The geometric characteristics can know W, A gas -λ / γ2 - L · 2, i.e., r> L. 现有产品中,一个凸透镜覆盖用户整个眼睛,所W典型的化-40mm。 Existing products, a user covers the entire eye lens, typically -40mm of the W. 要让显示面板在视网膜上成缩小的像,则显示面板需要放置在两倍焦距外,即〉化,所W显示面板与凸透镜的距离至少要40mm,运就造成现在的V則艮镜体积很大。 Let the display panel into a reduced image on the retina, the display panel needs to be placed outside the double focal length, i.e.> of, at least the distance W and the convex lens to 40mm panel display, causing operation of the current V is the volume of the mirror Gen Big. 而本发明中,将整体透镜变化为微透镜阵列,假设每个透镜只覆盖了一个或者一小部分的子像素,那么单个凸透镜的高度可W控制在<lmm左右,(手机的像素尺寸一般是0.05mm左右),那么显示面板与凸透镜的放置距离就可W减小到1mm至10mm之间,从而大幅缩小V即艮镜的体积。 In the present invention, the entire lens is changed to a microlens array, each lens is assumed that only covers a small portion or a sub-pixel, then the single lens in the height-W control <lmm or so (pixel size is generally phone about 0.05mm), the display panel and the lens is disposed a distance W can be reduced to between 1mm to 10mm, thereby significantly reducing the volume V Gen i.e. mirror.

[0046] 进一步地,作为示例性介绍,目前的亚像素包括有红色亚像素(R)、蓝色亚像素(B) 和绿色亚像素(G),能够发出对应颜色的光线,而不同颜色的光线具有不同的波长,如果经过同一个光学透镜,最终透射的位置会存在一定偏差,运样一来会降低用户观看画面的质量。 [0046] Further, as an example, the current sub-pixels include a red sub-pixel (R), blue sub-pixel (B), and green sub-pixel (G), capable of emitting light corresponding to the color and the different colors light having a different wavelength, if the optical lens through the same, the final position of the transmission there will be some deviation, a sample transport to reduce the quality of the picture viewed by the user. 而基于图7所示的结构,本实施例的显示设备具备了精确至亚像素的透射粒度,因此可W针对亚像素的颜色设置对应焦距的光学透镜,使得红、绿、蓝Ξ种颜色的光线能够通过各自焦距的光学透镜汇聚至用户视网膜的一点上。 And based on the structure shown in FIG. 7, the display apparatus according to the present embodiment includes a transmissive sub-pixel accuracy to size, and therefore may be an optical lens W for the color corresponding to the focal length of the sub-pixels, so that the red, green, and blue colors Ξ light to converge to a point on the retina of the user by the focal length of each optical lens.

[0047] 基于上述原理,在实际应用中,本实施例的显示装置可W提供很多的人性化功能。 The display device [0047] Based on the above principle, in practice, the present embodiment can provide a lot of W user-friendly features. 例如,本实施例的显示装置可W是导航设备,对应地,导航信息作为显示区的虚拟影像,用户在佩戴该导航设备后,可W通过上面的显示面板观察到周围道路W及与道路相融合的导航信息,从而边移动边完成导航。 For example, the display device of the present embodiment may be W is a navigation device, correspondingly, the navigation information as a virtual image display area, after the user wears the navigation device, may be W was observed from the above display panel around the road W, and the road phase fusion navigation information to the navigation is completed while moving. 或者,本实施例的也可W服装/家具等售前服务设备,对应地,用户在佩戴该售前服务设备后,可W将服装的影像W虚拟方式穿戴在试穿对象上,或者将家具的影像W虚拟方式摆放在家中,从而实现了简单、快捷的进行比较,决定是否购买。 Alternatively, the present embodiment may clothing W / furniture service equipment, correspondingly, after the user wears the service equipment, W can be worn on a subject image W virtually try on clothing, furniture or W images virtually placed at home, in order to achieve a simple, quick to compare, decide whether to buy.

[0048] 综上所述,本实施例的显示装置能够将虚拟影像与用户周围实际环境相融合,从而为用户带来了全新的体验效果,基于该体验效果又能够衍生出很多实用功能,因此具有很高的应用价值。 The display device [0048] As described above, the present embodiment can be fused to the virtual image and the actual environment surrounding the user, so as to bring a new user experience results, based on the experience effect and can be derived from many useful features, so It has a high value.

[0049] W上所述是本发明的优选实施方式,应当指出,对于本技术领域的普通技术人员来说,在不脱离本发明所述原理的前提下,还可W作出若干改进和润饰,运些改进和润饰也应视为本发明的保护范围。 [0049] W is on the preferred embodiments of the invention, it should be noted that those of ordinary skill in the art who, without departing from the principles of the present invention, may make various improvements and modifications W, these transport improvements and modifications should also be regarded as the protection scope of the present invention.

Claims (12)

  1. 1. 一种显示面板,其特征在于,包括: 用于显示画面的显示区和用于透射光线的透射区。 1. A display panel comprising: a display area of ​​the display and the transmissive area for transmitting light.
  2. 2. 根据权利要求1所述的显示面板,其特征在于, 所述显示区和透光区交替排布。 2. The display panel according to claim 1, wherein said display region and transmissive region are alternately arranged.
  3. 3. 根据权利要求2所述的显示面板,其特征在于, 所述显示面板包括有阵列排布的多个亚像素; 其中,一行或多行的亚像素作为一个显示区,或者一列或多列的亚像素作为一个显示区。 3. The display panel of claim 2, wherein the display panel comprises a plurality of sub-pixels arranged in an array; wherein one or more rows of sub-pixels as one display area, one or more columns or as a display sub-pixel region.
  4. 4. 根据权利要求3所述的显示面板,其特征在于, 所述显示面板包括有阵列排布的多个亚像素; 其中,多个相邻多个亚像素组成一个矩形的显示区,所述透射区与所述显示区的形状相同。 4. The display panel of claim 3, wherein the display panel comprises a plurality of sub-pixels arranged in an array; wherein a plurality of sub-pixels form a plurality of adjacent rectangular display region, the the transmissive display region and the region of the same shape.
  5. 5. 根据权利要求3或4所述的显示面板,其特征在于, 所述显示区和所述透光区的面积相同。 The display panel according to claim 3 or claim 4, characterized in that the display area and the transmissive area is the same region.
  6. 6. -种显示装置,其特征在于,包括如权利要求1-5任一项所述的显示面板,还包括设置在所述显示面板的出光侧的光学结构,所述光学结构能够将显示区出射的光线汇聚至用户的视网膜上。 6. - kind of display device, comprising the display panel as claimed in any one of claims 1-5, further comprising a display disposed in the optical structure of the light emitting side panel, the display area optical structures can be converging a light beam emitted onto the user's retina.
  7. 7. 根据权利要求6所述的显示装置,其特征在于, 所述光学结构为光学透镜。 The display device according to claim 6, wherein the optical structure is an optical lens.
  8. 8. 根据权利要求7所述的显示装置,其特征在于, 所述显示面板划分为多个区域,每一区域对应有一个光学透镜,用于将对应区域的光线汇聚至用户的视网膜上。 The display device according to claim 7, wherein the display panel is divided into a plurality of regions, each region corresponding to a optical lens for converging the light onto the region corresponding to the user's retina.
  9. 9. 根据权利要求8所述的显示装置,其特征在于, 所述显示面板的显示区包括有阵列排布的多个亚像素,每一亚像素对应有一个光学透镜。 The display device according to claim 8, wherein said display panel includes a plurality of regions of sub-pixels arranged in an array, each pixel corresponding to a sub-optical lens.
  10. 10. 根据权利要求9所述的显示装置,其特征在于, 每一透镜的焦距与其汇聚的亚像素的颜色相对应。 The display device according to claim 9, characterized in that the focal length of each lens with its color sub-pixels corresponding to converge.
  11. 11. 根据权利要求8所述的显示装置,其特征在于, 所述光学透镜与所述显示面板之间的距离小于其与用户的视网膜之间的距离。 The display device according to claim 8, characterized in that the optical lens and the distance between the display panel is shorter than the distance between it and the user's retina.
  12. 12. 根据权利要求11任一项所述的显示装置,其特征在于, 所述光学透镜为凸透镜,具有一圆形覆盖区域,该覆盖区域的直径小于1mm,且所述凸透镜与所述显示面板之间的距离为1mm至10mm。 The display device according to any one of claim 11, wherein said optical lens is a convex lens having a circular coverage area, the coverage area of ​​a diameter of less than 1mm, and the display panel and the lens the distance between 1mm to 10mm.
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