ANISOTROPIC OPTICAL FILM
    1.
    发明申请

    公开(公告)号:US20170192137A1

    公开(公告)日:2017-07-06

    申请号:US15129219

    申请日:2015-03-17

    Abstract: In an anisotropic optical film including two or more anisotropic light diffusion layers where a linear transmittance varies depending on an incident light angle, each of the anisotropic light diffusion layers has a matrix region and a plurality of pillar regions that differ in refractive index from the matrix region, at least two types of anisotropic light diffusion layers (a) and (b) that differ in aspect ratio between a short diameter and a long diameter at a cross section perpendicular to an orientation direction of the pillar regions are used as the anisotropic light diffusion layers, the aspect ratio between the short diameter and the long diameter in the pillar regions is made less than 2 in the anisotropic light diffusion layer (a), and the aspect ratio between the short diameter and the long diameter in the pillar regions is made 2 or more and 20 or less in the anisotropic light diffusion layer (b).

    PROCESS FOR PRODUCTION OF ANISOTROPIC OPTICAL FILM
    2.
    发明申请
    PROCESS FOR PRODUCTION OF ANISOTROPIC OPTICAL FILM 审中-公开
    生产光电膜的方法

    公开(公告)号:US20160327697A1

    公开(公告)日:2016-11-10

    申请号:US15084707

    申请日:2016-03-30

    Abstract: A process for producing an anisotropic optical film of which diffusibility is varied depending on the incident angle of light includes: —a light irradiation mask joining step of joining a light irradiation mask with a haze value of 1.0 to 50.0% to a surface of an uncured light-curing resin composition layer; and a curing step of curing the uncured resin composition layer to form an anisotropic diffusion layer by light irradiation through the light irradiation mask, after the light irradiation mask joining step.

    Abstract translation: 一种用于制造扩散性根据光的入射角度而变化的各向异性光学膜的方法包括: - 光照射掩模接合步骤,将光照射掩模与雾度值为1.0至50.0%的雾度值接合到未固化的表面 光固化树脂组合物层; 以及在光照射掩模接合步骤之后,通过光照射掩模的光照射固化未固化的树脂组合物层以形成各向异性扩散层的固化步骤。

    HEAD-MOUNTED DISPLAY
    3.
    发明申请

    公开(公告)号:US20210247609A1

    公开(公告)日:2021-08-12

    申请号:US17054761

    申请日:2019-03-22

    Abstract: This head-mounted display is provided with, closer to the viewing side than a color filter having a black matrix between pixels in a liquid crystal display panel (160), an anisotropic optical film (150), the linear transmittance of which changes according to the angle of incident light, wherein the anisotropic optical film (150) includes a single-layered or multilayered anisotropic light diffusion layer, on at least on one surface of the anisotropic light diffusion layer, surface asperities having an arithmetic average roughness Ra of 0.10 μm or less, which is measured in accordance with JIS B0601-2001, are formed, the anisotropic light diffusion layer has a matrix region and a plurality of pillar regions having a refractive index different from that of the matrix region, and the visibility of the black matrix is lowered by the anisotropic optical film (150), thereby making it possible to obtain a higher sense of immersion without feeling coloring.

    LIGHT GUIDING LAMINATE USING ANISOTROPIC OPTICAL FILM AND PLANAR LIGHT SOURCE DEVICE USING THE SAME

    公开(公告)号:US20200033525A1

    公开(公告)日:2020-01-30

    申请号:US16497855

    申请日:2018-03-30

    Abstract: According to the present invention, a light guiding laminate including a light guide plate with good visibility and an anisotropic optical film, and a planar light source device including the light guiding laminate and a light source are provided.There are a light guiding laminate including a light guide plate which has: a light emission surface through which light incident from an end face is bent and emitted in a surface direction, and an angle at which emission intensity in the light emission surface is maximum, the angle being 20° to 60° with respect to a perpendicular direction to the light emission surface; and an anisotropic optical film which is laminated directly or via another layer and has diffusibility changing depending on an angle of incident light with respect to the light emission surface, in which an opposite surface which is a surface on an opposite side to the light emission surface of the light guide plate has a plurality of concave or convex structures having a size of 50 μm or less and a height or a depth of 50 μm or less, the anisotropic optical film has a matrix region and a structural region formed of a plurality of structures, and linear transmittance of the anisotropic optical film, which is an amount of transmitted light in a linear direction of light incident on the anisotropic optical film/an amount of incident light, is 30% or less at an angle at which the emission intensity of the light guide plate is maximum, and a planar light source device using the light guiding laminate.

    ANISOTROPIC OPTICAL FILM
    5.
    发明申请
    ANISOTROPIC OPTICAL FILM 审中-公开
    各向异性光学膜

    公开(公告)号:US20170003422A1

    公开(公告)日:2017-01-05

    申请号:US15112889

    申请日:2015-01-16

    Abstract: Provided is an anisotropic optical film, which can, while keeping excellent display characteristics (e.g., brightness and contrast) in the direction of a viewing angle, suppress decreased display characteristics in the other directions, when the anisotropic optical film is used as a diffusion film of a display panel.In an anisotropic optical film including two or more anisotropic light diffusion layers where the linear transmittance varies depending on the incident angle of incident light, each of the anisotropic light diffusion layers is provided with a matrix region and a plurality of pillar regions that differ in refractive index from the matrix region, the film includes, as the anisotropic light diffusion layers, at least two types of anisotropic light diffusion layers (a) and (b) that differ in linear transmittance, the maximum linear transmittance of the anisotropic light diffusion (a) is 40% or more and less than 95%, and the minimum linear transmittance thereof is less than 20%, and the maximum linear transmittance of the anisotropic light diffusion layer (h) is 20% or more and less than 40%, and the minimum linear transmittance thereof is less than 20%.

    Abstract translation: 在包括两个或更多个各向异性光扩散层的各向异性光学膜中,其中线性透射率根据入射光的入射角而变化,各向异性光漫射层设置有矩阵区域和折射率不同的多个柱状区域 从矩阵区域的指数来看,作为各向异性光扩散层,膜包括线性透射率不同的至少两种各向异性光扩散层(a)和(b),各向异性光扩散的最大线性透射率 )为40%以上且小于95%,其最小线性透射率小于20%,各向异性光扩散层(h)的最大线性透射率为20%以上且小于40%, 其最小线性透射率小于20%。

    HEAD-MOUNTED DISPLAY
    6.
    发明申请

    公开(公告)号:US20210263200A1

    公开(公告)日:2021-08-26

    申请号:US17054768

    申请日:2019-03-22

    Abstract: To provide a head-mounted display that can obtain a higher sense of immersion without sensing coloring by diffusing and transmitting light from an organic electroluminescence display panel by an anisotropic optical film to reduce the visibility of a black matrix (BM). The head-mounted display is provided with an anisotropic optical film on the viewing side with respect to a color filter or an RGB light emitting layer in an organic electroluminescence display panel, said anisotropic optical film having a linear transmittance that varies depending on an incident light angle. The head-mounted display is characterized in that: the anisotropic optical film includes at least a single or a plurality of anisotropic light diffusion layers; and the anisotropic light diffusion layers have a matrix region and a plurality of pillar regions having refractive indexes different from that of the matrix region.

    LIGHT DIFFUSION FILM LAMINATE FOR REFLECTIVE DISPLAY DEVICE AND REFLECTIVE DISPLAY DEVICE INCLUDING THE SAME

    公开(公告)号:US20190204488A1

    公开(公告)日:2019-07-04

    申请号:US16332011

    申请日:2017-07-24

    Abstract: Provided is a light diffusion film laminate for a reflective display device that can improve the reflection luminance at a predetermined observation position (for example, the front direction of the screen) without reducing the visibility not only from the predetermined observation position (for example, the front direction of the screen) but also from a position away from a predetermined observation position (for example, an oblique direction deviated from the front of the screen) and a reflective display device including the light diffusion film laminate.A light diffusion film laminate for a reflective display device has optical diffusibility that changes depending on an incident angle of light, and at least transmits reflected light occurring when incident light is reflected by a reflective layer. The light diffusion film laminate includes at least an anisotropic light diffusion layer that has a scattering central axis and whose linear transmittance changes depending on an incident light angle of the light, wherein the anisotropic light diffusion layer has a matrix region and a plurality of pillar structures, wherein an angle of the scattering central axis is in a range of +6° or more and +40° or less, or −40° or more and −6° or less with respect to a normal direction of the anisotropic light diffusion layer, and an isotropic light diffusion layer disposed on one surface of the anisotropic light diffusion layer.

    ANISOTROPIC OPTICAL FILM
    9.
    发明申请
    ANISOTROPIC OPTICAL FILM 有权
    各向异性光学膜

    公开(公告)号:US20150346396A1

    公开(公告)日:2015-12-03

    申请号:US14648372

    申请日:2013-11-29

    CPC classification number: G02B5/0257 G02B5/0236 G02F1/133504

    Abstract: Provided is an anisotropic optical film which is capable of diffusing and condensing light in a wide incident angle range even when this film merely has a single anisotropic diffusion layer, which gives no unnatural impression, and which does not easily generate any light interference (rainbow). An anisotropic optical film having a diffusing property which varies in accordance with the incident angle of light radiated thereinto. The film has rectangularly columnar region, and a matrix region. At an incident angle of the light at which a maximum linear transmittance is exhibited, the maximum linear transmittance is 30% or more and less than 95%; and at an incident angle of the light at which a minimum linear transmittance is exhibited, the minimum linear transmittance is 20% or less.

    Abstract translation: 提供一种能够在宽的入射角范围内散射和聚光光的各向异性光学膜,即使该膜仅具有单个各向异性扩散层,也不会产生任何不自然的印象,并且不容易产生任何光干涉(彩虹) 。 具有根据照射的光的入射角而变化的扩散性的各向异性光学膜。 该膜具有矩形柱状区域和矩阵区域。 在显示最大线性透射率的光的入射角处,最大线性透射率为30%以上且小于95%; 并且在显示最小线性透射率的光的入射角处,最小线性透射率为20%以下。

    DISPLAY APPARATUS
    10.
    发明申请
    DISPLAY APPARATUS 有权
    显示设备

    公开(公告)号:US20150338698A1

    公开(公告)日:2015-11-26

    申请号:US14650481

    申请日:2013-12-06

    Abstract: Provided is a display apparatus which has a sufficient luminance even when viewed at a large viewing angle, and which can overcome a problem of color change. The display apparatus is a display apparatus including a display device showing a color change in accordance with viewer's viewing angle, and an anisotropic optical film having a diffusing property changed in accordance with the incident angle of light radiated thereinto. The anisotropic optical film has at least one scattering central axis, and an angle made between the scattering central axis and a direction along which the display device shows a minimum color change is from 20 to 65°, or −20 to −65°.

    Abstract translation: 提供即使在大视角观看时也具有足够的亮度的显示装置,并且能够克服颜色变化的问题。 显示装置是包括根据观察者的视角显示颜色变化的显示装置的显示装置和具有根据照射到其中的光的入射角度而改变的漫射特性的各向异性光学膜。 各向异性光学膜具有至少一个散射中心轴,并且在散射中心轴与显示装置显示最小颜色变化的方向之间形成的角度为20°至65°或-20°至-65°。

Patent Agency Ranking