TWI649602B - Liquid crystal display module and liquid crystal display comprising the same - Google Patents
Liquid crystal display module and liquid crystal display comprising the same Download PDFInfo
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Abstract
本發明提供了一種液晶顯示模組和一種包含所述液晶顯示模組的液晶顯示器。所述液晶顯示模組包含:第一偏光板、第二偏光板和安置於第一偏光板與第二偏光板之間的液晶面板,其中所述第二偏光板包含偏光器和形成於偏光器上的光學薄膜;所述光學薄膜包含高折射率圖案層和低折射率圖案層,所述高折射率圖案層具有至少一個雕刻圖案,所述低折射率圖案層具有填充所述雕刻圖案的至少一部分的填充圖案;所述高折射率圖案層與所述低折射率圖案層之間的折射率差的範圍可介於大約0.1到大約0.2;以及所述光學薄膜可以安置成使得從所述液晶面板發出的光進入所述低折射率圖案層,然後通過所述高折射率圖案層發出。The invention provides a liquid crystal display module and a liquid crystal display comprising the liquid crystal display module. The liquid crystal display module includes: a first polarizing plate, a second polarizing plate, and a liquid crystal panel disposed between the first polarizing plate and the second polarizing plate, wherein the second polarizing plate includes a polarizer and is formed on the polarizer An optical film comprising: a high refractive index pattern layer having at least one engraving pattern, and a low refractive index pattern layer having at least one engraving pattern a portion of the filling pattern; a refractive index difference between the high refractive index pattern layer and the low refractive index pattern layer may range from about 0.1 to about 0.2; and the optical film may be disposed such that the liquid crystal is Light emitted from the panel enters the low refractive index pattern layer and is then emitted through the high refractive index pattern layer.
Description
本發明有關一種液晶顯示模組(liquid crystal module)和一種包含所述模組的液晶顯示器(liquid crystal display)。The invention relates to a liquid crystal module and a liquid crystal display comprising the module.
液晶顯示器受到操作在從背光單元接收光之後通過液晶面板發光。因此,液晶顯示器在其前側可以提供良好的色彩品質。然而,液晶顯示器在其側表面展現出的色彩品質、對比度(contrast ratio)和亮度均勻性(brightness uniformity)屬性低於其前表面。為了改善液晶顯示器的側表面處的色彩品質和對比度,人們作出了各種嘗試想研發一種改善的液晶面板或液晶結構。The liquid crystal display is operated to emit light through the liquid crystal panel after receiving light from the backlight unit. Therefore, the liquid crystal display can provide good color quality on the front side thereof. However, the liquid crystal display exhibits a color quality, a contrast ratio, and a brightness uniformity attribute on its side surface lower than its front surface. In order to improve the color quality and contrast at the side surface of a liquid crystal display, various attempts have been made to develop an improved liquid crystal panel or liquid crystal structure.
隨著液晶顯示器螢幕尺寸不斷增加,液晶顯示器的可見區域不僅在前側而且在左側和右側都明顯增大,因而導致其橫向側面的對比度相比於前側的對比度明顯降低。此外,隨著液晶顯示器螢幕尺寸增加,液晶顯示器的亮度均勻性也不斷降低。因此,必須根據螢幕尺寸提供單獨的液晶顯示模組,這樣會降低可加工性和經濟上的可行性。As the screen size of liquid crystal displays continues to increase, the visible area of the liquid crystal display is significantly increased not only on the front side but also on the left and right sides, resulting in a significant decrease in the contrast of the lateral side compared to the contrast on the front side. In addition, as the size of the liquid crystal display screen increases, the brightness uniformity of the liquid crystal display also decreases. Therefore, a separate liquid crystal display module must be provided according to the screen size, which reduces workability and economic feasibility.
根據本發明的一個方面,液晶顯示模組可以包含:第一偏光板,第二偏光板,和安置於第一偏光板與第二偏光板之間的液晶面板,其中所述第二偏光板可以包含偏光器和形成於偏光器上的光學薄膜;所述光學薄膜可以包含高折射率圖案層和低折射率圖案層,所述高折射率圖案層具有至少一個雕刻圖案,所述低折射率圖案層具有填充所述雕刻圖案的至少一部分的填充圖案;所述高折射率圖案層與所述低折射率圖案層之間的折射率差的範圍可介於大約0.1到大約0.2;以及所述光學薄膜可以安置成使得從所述液晶面板發出的光進入所述低折射率圖案層,然後通過所述高折射率圖案層發出。According to an aspect of the invention, a liquid crystal display module may include: a first polarizing plate, a second polarizing plate, and a liquid crystal panel disposed between the first polarizing plate and the second polarizing plate, wherein the second polarizing plate may And comprising: a polarizer and an optical film formed on the polarizer; the optical film may include a high refractive index pattern layer and a low refractive index pattern layer, the high refractive index pattern layer having at least one engraving pattern, the low refractive index pattern The layer has a filling pattern filling at least a portion of the engraved pattern; a refractive index difference between the high refractive index pattern layer and the low refractive index pattern layer may range from about 0.1 to about 0.2; and the optical The film may be disposed such that light emitted from the liquid crystal panel enters the low refractive index pattern layer and then emitted through the high refractive index pattern layer.
根據本發明的一實施例,所述液晶面板是圖案化垂直對齊模式的面板。According to an embodiment of the invention, the liquid crystal panel is a panel that is patterned in a vertical alignment mode.
根據本發明的一實施例,所述雕刻圖案具有1.0或更小的高寬比。According to an embodiment of the invention, the engraving pattern has an aspect ratio of 1.0 or less.
根據本發明的一實施例,所述雕刻圖案包括雙凸透鏡圖案、具有三角形到十邊形橫截面的稜鏡圖案、或具有三角形到十邊形橫截面和在所述雕刻圖案頂部的曲面的稜鏡圖案。According to an embodiment of the invention, the engraving pattern comprises a lenticular lens pattern, a 稜鏡 pattern having a triangular to decagon cross section, or a rib having a triangular to decagon cross section and a curved surface at the top of the engraving pattern Mirror pattern.
根據本發明的一實施例,所述高折射率圖案層具有0.5或更小的所述雕刻圖案的最大間距與週期的比率。According to an embodiment of the invention, the high refractive index pattern layer has a ratio of a maximum pitch to a period of the engraved pattern of 0.5 or less.
根據本發明的一實施例,所述高折射率圖案層更包括在所述雕刻圖案之間的平坦部分。According to an embodiment of the invention, the high refractive index pattern layer further includes a flat portion between the engraved patterns.
根據本發明的一實施例,所述低折射率圖案層具有小於1.50的折射率。According to an embodiment of the invention, the low refractive index pattern layer has a refractive index of less than 1.50.
根據本發明的一實施例,所述高折射率圖案層具有1.50或更大的折射率。According to an embodiment of the invention, the high refractive index pattern layer has a refractive index of 1.50 or more.
根據本發明的一實施例,所述填充圖案填滿所述雕刻圖案。According to an embodiment of the invention, the filling pattern fills the engraving pattern.
根據本發明的一實施例,所述第二偏光板更包括形成於所述光學薄膜上的第二保護層。According to an embodiment of the invention, the second polarizing plate further includes a second protective layer formed on the optical film.
根據本發明的一實施例,所述第二偏光板具有如下的堆疊結構,其中所述偏光器、所述低折射率圖案層、所述高折射率圖案層和所述第二保護層按這個順序依次形成,所述高折射率圖案層直接形成於所述低折射率圖案層上;或者所述第二偏光板具有如下的堆疊結構,其中所述偏光器、所述第二保護層、所述低折射率圖案層和所述高折射率圖案層按這個順序依次形成,所述高折射率圖案層直接形成於所述低折射率圖案層上。According to an embodiment of the present invention, the second polarizing plate has a stacked structure in which the polarizer, the low refractive index pattern layer, the high refractive index pattern layer, and the second protective layer are Forming sequentially, the high refractive index pattern layer is directly formed on the low refractive index pattern layer; or the second polarizing plate has a stacked structure in which the polarizer, the second protective layer, and the The low refractive index pattern layer and the high refractive index pattern layer are sequentially formed in this order, and the high refractive index pattern layer is directly formed on the low refractive index pattern layer.
根據本發明的一實施例,所述第二保護層由聚對苯二甲酸乙二醇酯、三乙醯纖維素、丙烯酸和環烯烴聚合物樹脂中的至少一種樹脂形成。According to an embodiment of the invention, the second protective layer is formed of at least one of polyethylene terephthalate, triacetyl cellulose, acrylic acid, and a cyclic olefin polymer resin.
根據本發明的一實施例,所述第二偏光板更包括功能層,所述功能層形成為在所述第二保護層或所述高折射率圖案層上的單獨一層,或者由所述第二保護層或所述高折射率圖案層的一個表面來實現。According to an embodiment of the invention, the second polarizing plate further includes a functional layer formed as a single layer on the second protective layer or the high refractive index pattern layer, or by the The second protective layer or one surface of the high refractive index pattern layer is realized.
根據本發明的一實施例,所述液晶顯示模組更包括複合光學薄片,安置於所述第一偏光板之下,其中所述複合光學薄片包括第一光學薄片和第二光學薄片,所述第一光學薄片具有形成於一個表面上的至少一個第一稜鏡圖案,所述第二光學薄片形成於所述第一光學薄片上,並且具有形成於一個表面上的至少一個第二稜鏡圖案,所述雕刻圖案是雙凸透鏡圖案,並且平坦部分進一步形成於所述雕刻圖案之間。According to an embodiment of the invention, the liquid crystal display module further includes a composite optical sheet disposed under the first polarizing plate, wherein the composite optical sheet includes a first optical sheet and a second optical sheet, The first optical sheet has at least one first meander pattern formed on one surface, the second optical sheet being formed on the first optical sheet, and having at least one second meander pattern formed on one surface The engraving pattern is a lenticular lens pattern, and a flat portion is further formed between the engraving patterns.
根據本發明的一實施例,所述液晶顯示模組更包括複合光學薄片,安置於所述第一偏光板之下,其中所述複合光學薄片包括第一光學薄片和第二光學薄片,所述第一光學薄片具有形成於一個表面上的至少一個第一稜鏡圖案,所述第二光學薄片形成於所述第一光學薄片上,並且具有形成於一個表面上的至少一個第二稜鏡圖案,並且所述雕刻圖案是稜鏡圖案。According to an embodiment of the invention, the liquid crystal display module further includes a composite optical sheet disposed under the first polarizing plate, wherein the composite optical sheet includes a first optical sheet and a second optical sheet, The first optical sheet has at least one first meander pattern formed on one surface, the second optical sheet being formed on the first optical sheet, and having at least one second meander pattern formed on one surface And the engraving pattern is a enamel pattern.
根據本發明的一實施例,所述液晶顯示模組更包括漫射器和光源,依次安置在所述複合光學薄片下方。According to an embodiment of the invention, the liquid crystal display module further includes a diffuser and a light source, which are sequentially disposed under the composite optical sheet.
根據本發明的一實施例,所述液晶顯示模組更包括光導板和光源,安置在所述複合光學薄片下方,所述光源安置在所述光導板側面。According to an embodiment of the invention, the liquid crystal display module further includes a light guide plate and a light source disposed under the composite optical sheet, and the light source is disposed on a side of the light guide plate.
根據本發明的一實施例,所述複合光學薄片以-40°到+40°的出射角發光。According to an embodiment of the invention, the composite optical sheet emits light at an exit angle of -40° to +40°.
根據本發明的另一個方面,一種液晶顯示器可以包含如上文所述的液晶顯示模組。According to another aspect of the present invention, a liquid crystal display may include a liquid crystal display module as described above.
本發明提供的液晶顯示模組能夠增加側面對比度。本發明提供能夠增加側面觀看角度的液晶顯示模組。本發明提供能夠增加亮度均勻性的液晶顯示模組。本發明提供能夠使液晶顯示器螢幕尺寸引起的亮度均勻性變化最小化的液晶顯示模組,由此保證極好的可加工性和經濟可行性。The liquid crystal display module provided by the invention can increase the side contrast. The present invention provides a liquid crystal display module capable of increasing a side viewing angle. The present invention provides a liquid crystal display module capable of increasing brightness uniformity. The present invention provides a liquid crystal display module capable of minimizing variations in luminance uniformity caused by the screen size of a liquid crystal display, thereby ensuring excellent workability and economic feasibility.
將參看附圖詳細地描述本發明的實施例以便使所屬領域的技術人員透徹地理解本發明。應理解,本發明可以按不同方式實施並且不限於以下實施例。在圖式中,為清楚起見將省略與描述無關的部分。在本說明書通篇中,類似元件將由類似參考標號表示。Embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to provide a thorough understanding of the invention. It should be understood that the present invention may be embodied in different ways and is not limited to the embodiments described below. In the drawings, portions that are not related to the description will be omitted for clarity. Throughout the specification, like elements will be referred to by like reference numerals.
本文所使用的如“上”和“下”的空間上相對的術語是參照附圖定義的。因此,應理解,“上”與“下”可以互換使用。應理解,當將一個層稱為“在”另一層“上”時,這個層可以直接在另一層上形成或者還可以存在介入層。因此,應理解,當將層稱為“直接在”另一層“上”時,其間不插入介入層。As used herein, spatially relative terms such as "upper" and "lower" are defined with reference to the drawings. Therefore, it should be understood that "upper" and "lower" are used interchangeably. It will be understood that when a layer is referred to as being "on" another layer, the layer can be formed directly on the other layer or the intervening layer can also be present. Therefore, it will be understood that when a layer is referred to as "directly on" another layer, the intervening layer is not interposed.
本文中所用的術語“水平方向”和“垂直方向”的意思分別是液晶顯示器的矩形螢幕的縱向方向和橫向方向。The terms "horizontal direction" and "vertical direction" as used herein mean the longitudinal direction and the lateral direction of a rectangular screen of a liquid crystal display, respectively.
本文所使用的術語“側表面”的意思是一個區域,其中θ的範圍介於球形坐標系中的60°到90°(Φ,θ),其中參照水平方向,前表面通過(0°, 0°)指示,左端點通過(180°, 90°)指示,並且右端點通過(0°, 90°)指示。The term "side surface" as used herein means a region in which the range of θ is between 60° and 90° (Φ, θ) in a spherical coordinate system, wherein the front surface passes (0°, 0) with reference to the horizontal direction. °) indicates that the left endpoint is indicated by (180°, 90°) and the right endpoint is indicated by (0°, 90°).
本文所使用的術語“出射角”(exit angle)的意思是液晶顯示器的一個點的角,在這裡,亮度變成液晶顯示器的前方的亮度的一半(通過使-90°到+90°指示的每個點處的亮度值標準化而獲得),當藉由組裝光源、光導板和液晶顯示模組所構造成的液晶顯示器的前側藉由0°指示時,參照圖12中的水平方向,它的左側藉由負(-)方向指示,它的右側藉由正(+)方向指示,它的左端點藉由-90°指示,並且它的右端點藉由+90°指示。在圖12中,藉由*指示的值是出射角。The term "exit angle" as used herein means the angle of a point of a liquid crystal display, where the brightness becomes half of the brightness in front of the liquid crystal display (by indicating -90° to +90° each When the front side of the liquid crystal display constructed by assembling the light source, the light guide plate, and the liquid crystal display module is indicated by 0°, refer to the horizontal direction in FIG. 12, and its left side. Indicated by the negative (-) direction, its right side is indicated by the positive (+) direction, its left endpoint is indicated by -90°, and its right endpoint is indicated by +90°. In Fig. 12, the value indicated by * is the exit angle.
本文所使用的術語“高寬比”指代光學結構的最大高度與光學結構的最大間距的比率(最大高度/最大間距)。The term "aspect ratio" as used herein refers to the ratio of the maximum height of the optical structure to the maximum spacing of the optical structure (maximum height/maximum spacing).
本文所使用的術語“週期”的意思是光學薄膜中的一個雕刻圖案的間距與一個平坦部分的間距的總和。The term "period" as used herein means the sum of the pitch of one engraved pattern in the optical film and the pitch of one flat portion.
本文所使用的“平面內延遲(Re)”(in-plane retardation)表示為等式A,而“平面外延遲(Rth)”(out-of-plane retardation)表示為等式B: <等式A> Re = (nx - ny) x d <等式B> Rth = ((nx + ny)/2 - nz) x d (其中nx、ny和nz分別是相應光學裝置的慢軸方向、快軸方向和厚度方向上的550奈米波長下的折射率,而d是相應光學裝置的厚度(單位是奈米))。As used herein, "in-plane retardation" is expressed as Equation A, and "out-of-plane retardation" is expressed as Equation B: <equation A> Re = (nx - ny) xd <Equation B> Rth = ((nx + ny)/2 - nz) xd (where nx, ny, and nz are the slow axis direction, the fast axis direction, and The refractive index at a wavelength of 550 nm in the thickness direction, and d is the thickness (in nanometers) of the corresponding optical device.
本文所使用的術語“亮度均勻性”是藉由{(最小亮度)/(最大亮度)} x 100計算的值。這裡,參看圖13,在藉由組裝光源、光導板和液晶顯示模組所構造成的液晶顯示器中,在點A、B和C中的每一個處測量亮度,其中顯示螢幕的中心點、左端點和右端點分別通過B、A和C指示,並且獲得最大亮度值(Brightness max)和最小亮度值(Brightness min)。在測量亮度時,將亮度測試儀EZ CONTRAST X88RC(EZXL-176R-F422A4, 艾爾迪姆有限公司(ELDIM Co., Ltd.))固定到點B,並且接著導向成面朝點A、B和C中的每一個。在圖13中,A、B和C放在同一條線上。The term "brightness uniformity" as used herein is a value calculated by {(minimum brightness) / (maximum brightness)} x 100. Here, referring to FIG. 13, in a liquid crystal display constructed by assembling a light source, a light guide plate, and a liquid crystal display module, brightness is measured at each of points A, B, and C, wherein the center point and the left end of the screen are displayed. The point and the right end point are indicated by B, A, and C, respectively, and the maximum brightness value (Brightness max) and the minimum brightness value (Brightness min) are obtained. When measuring the brightness, the brightness tester EZ CONTRAST X88RC (EZXL-176R-F422A4, ELDIM Co., Ltd.) is fixed to point B, and then directed to face points A, B and Every one of C. In Fig. 13, A, B, and C are placed on the same line.
如本文所用,術語“(甲基)丙烯基”是指丙烯基和/或甲基丙烯基。As used herein, the term "(meth)acrylyl" refers to propylene and/or methacryl.
本文所使用的術語“頂部部分”是指相對於某一結構的最下部分位於最上部分的一個部分。The term "top portion" as used herein refers to a portion of the uppermost portion relative to the lowermost portion of a structure.
在下文中,將參照圖1到圖3描述根據本發明的一個實施例的液晶顯示模組。圖1是根據本發明的一個實施例的液晶顯示模組的示意性橫截面圖,圖2是圖1中所示的液晶顯示模組的第二偏光板的橫截面圖,圖3是圖2中所示的液晶顯示模組的光學薄膜的部分分解透視圖。Hereinafter, a liquid crystal display module according to an embodiment of the present invention will be described with reference to FIGS. 1 through 3. 1 is a schematic cross-sectional view of a liquid crystal display module according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of a second polarizing plate of the liquid crystal display module shown in FIG. 1, and FIG. 3 is FIG. A partially exploded perspective view of the optical film of the liquid crystal display module shown.
參看圖1,根據這個實施例的液晶顯示模組1可以包含第一偏光板20、液晶面板30和第二偏光板100。Referring to FIG. 1, a liquid crystal display module 1 according to this embodiment may include a first polarizing plate 20, a liquid crystal panel 30, and a second polarizing plate 100.
第一偏光板20可以安置在液晶面板30的下表面上,並且可以使進入第一偏光板20的光偏光。第一偏光板20可以包含第一偏光器和第一保護層。The first polarizing plate 20 may be disposed on a lower surface of the liquid crystal panel 30, and may polarize light entering the first polarizing plate 20. The first polarizing plate 20 may include a first polarizer and a first protective layer.
第一偏光器可以使進入第一偏光板的光偏光,並且可以包含所屬領域的技術人員已知的典型偏光器,例如通過在單軸方向上拉伸聚乙烯醇薄膜獲得的聚乙烯醇偏光器,或者通過使聚乙烯醇薄膜脫水獲得的多烯偏光器。The first polarizer may polarize light entering the first polarizer and may include a typical polarizer known to those skilled in the art, such as a polyvinyl alcohol polarizer obtained by stretching a polyvinyl alcohol film in a uniaxial direction. Or a polyene polarizer obtained by dehydrating a polyvinyl alcohol film.
第一保護層可以形成於第一偏光器上以保護第一偏光器。第一保護層可以是等向性光學薄膜。本文所使用的術語“等向性光學薄膜”的意思可以是一個nx、ny和nz基本上相同的薄膜,並且“基本上相同”這種表達可以包含兩種情況:這些值完全相同的情況和這些值之間有略微差異的情況。在550奈米的波長下,第一保護層可以具有大約5奈米或更小的Re,具體來說大約0.1奈米到大約5奈米。在550奈米的波長下,第一保護層可以具有大約5奈米或更小的Rth,具體來說大約0.1奈米到大約5奈米。在Re和Rth的這些範圍內,第一偏光板可以在垂直方向上和梯度方向上都增加對比度。The first protective layer may be formed on the first polarizer to protect the first polarizer. The first protective layer can be an isotropic optical film. The term "isotropic optical film" as used herein may mean a film of substantially the same nx, ny and nz, and the expression "substantially identical" may encompass two cases: the case where the values are identical and There is a slight difference between these values. At a wavelength of 550 nm, the first protective layer may have a Re of about 5 nm or less, specifically about 0.1 nm to about 5 nm. At a wavelength of 550 nm, the first protective layer may have an Rth of about 5 nm or less, specifically about 0.1 nm to about 5 nm. In these ranges of Re and Rth, the first polarizing plate can increase the contrast in both the vertical direction and the gradient direction.
雖然圖1中未示出,但是第一偏光板20可以經由黏著層或黏合層附接到液晶面板30。黏著層或黏合層可以由一種組合物形成,所述組合物包含黏著性樹脂並且任選地包含交聯劑、矽烷偶合劑、光自由基引發劑或光陽離子引發劑。黏著層或黏合層可進一步包含光漫射劑,用於促進光的漫射。光漫射劑可以包含所屬領域的技術人員已知的典型的光漫射劑。Although not shown in FIG. 1, the first polarizing plate 20 may be attached to the liquid crystal panel 30 via an adhesive layer or an adhesive layer. The adhesive layer or adhesive layer can be formed from a composition comprising an adhesive resin and optionally comprising a crosslinking agent, a decane coupling agent, a photoradical initiator or a photocationic initiator. The adhesive layer or adhesive layer may further comprise a light diffusing agent for promoting diffusion of light. The light diffusing agent can comprise a typical light diffusing agent known to those skilled in the art.
液晶面板30可以安置於第一偏光板20與第二偏光板100之間,並且可經配置以允許從第一偏光板20接收的光穿過第二偏光板100透射。液晶面板30可以包含第一基板、第二基板和液晶層,液晶層固定在第一基板與第二基板之間,並且用作顯示介質。第一基板可以包含彩色濾光片和安裝在上面的黑色基質。第二基板可以包含:切換裝置,經配置以控制液晶的光電特性;注入線,經配置以向切換裝置供應閘極信號;以及信號線,用於提供源信號;像素電極和對電極。液晶層可以包含在未施加電場時均勻對齊的液晶。具體來說,液晶面板30可以利用垂直對齊(vertical alignment,VA)模式、圖案化垂直對齊(patterned alignment,PVA)模式或超圖案化垂直對齊(super-patterned vertical alignment,S-PVA)模式。The liquid crystal panel 30 may be disposed between the first polarizing plate 20 and the second polarizing plate 100 and may be configured to allow light received from the first polarizing plate 20 to be transmitted through the second polarizing plate 100. The liquid crystal panel 30 may include a first substrate, a second substrate, and a liquid crystal layer, which is fixed between the first substrate and the second substrate, and functions as a display medium. The first substrate may include a color filter and a black matrix mounted thereon. The second substrate can include: switching means configured to control the optical characteristics of the liquid crystal; an injection line configured to supply a gate signal to the switching device; and a signal line for providing the source signal; a pixel electrode and a counter electrode. The liquid crystal layer may contain liquid crystals that are uniformly aligned when no electric field is applied. Specifically, the liquid crystal panel 30 may utilize a vertical alignment (VA) mode, a patterned vertical alignment (PVA) mode, or a super-patterned vertical alignment (S-PVA) mode.
第二偏光板100可以安置在液晶面板30的上表面上,並且可經配置以使從液晶面板30接收的光偏光和漫射。使用這個結構,第二偏光板100可以改善液晶顯示器的側表面處的包含對比度、亮度均勻性和觀看角度的各種屬性,同時使液晶顯示器的螢幕尺寸引起的亮度均勻性的變化最小化。第二偏光板100可以包含第二偏光器、光學薄膜和第二保護層。The second polarizing plate 100 may be disposed on an upper surface of the liquid crystal panel 30 and may be configured to polarize and diffuse light received from the liquid crystal panel 30. With this configuration, the second polarizing plate 100 can improve various properties including contrast, brightness uniformity, and viewing angle at the side surface of the liquid crystal display while minimizing variations in brightness uniformity caused by the screen size of the liquid crystal display. The second polarizing plate 100 may include a second polarizer, an optical film, and a second protective layer.
接下來,將參看圖2和圖3描述根據這個實施例的第二偏光板100。參看圖2和圖3,根據這個實施例的第二偏光板100可以包含第二偏光器110、光學薄膜120和第二保護層130。Next, the second polarizing plate 100 according to this embodiment will be described with reference to FIGS. 2 and 3. Referring to FIGS. 2 and 3, the second polarizing plate 100 according to this embodiment may include a second polarizer 110, an optical film 120, and a second protective layer 130.
第二偏光器110可以形成於液晶面板30上,並且可以使從液晶面板30接收的光偏光。第二偏光器100可以包含與第一偏光器相同或不同類別的偏光器。The second polarizer 110 may be formed on the liquid crystal panel 30, and may polarize light received from the liquid crystal panel 30. The second polarizer 100 can include the same or a different class of polarizers than the first polarizer.
光學薄膜120可以形成於第二偏光器110上以直接安置在第二偏光器110上,並且可以漫射從第二偏光器110接收的偏光。這裡,光學薄膜120可以直接接觸第二保護層130。使用這個結構,第二偏光板可以改善側表面處的包含對比度、亮度均勻性和觀看角度的各種屬性,同時使液晶顯示器的螢幕尺寸引起的亮度均勻性變化最小化。The optical film 120 may be formed on the second polarizer 110 to be directly disposed on the second polarizer 110, and may diffuse the polarized light received from the second polarizer 110. Here, the optical film 120 may directly contact the second protective layer 130. With this configuration, the second polarizing plate can improve various properties including contrast, brightness uniformity, and viewing angle at the side surface while minimizing variations in brightness uniformity caused by the screen size of the liquid crystal display.
光學薄膜120可以包含低折射率圖案層121和高折射率圖案層122。光學薄膜120可以安置到液晶顯示模組1,使得從液晶面板30發出的光可以進入低折射率圖案層121,然後可以通過高折射率圖案層122發出。使用這個結構,光學薄膜可以通過改善光漫射效應,大幅改善液晶顯示器的側表面處的對比度和觀看角度。The optical film 120 may include a low refractive index pattern layer 121 and a high refractive index pattern layer 122. The optical film 120 may be disposed to the liquid crystal display module 1 such that light emitted from the liquid crystal panel 30 may enter the low refractive index pattern layer 121 and may then be emitted through the high refractive index pattern layer 122. With this structure, the optical film can greatly improve the contrast and viewing angle at the side surface of the liquid crystal display by improving the light diffusion effect.
接下來,將參看圖2和圖3更詳細地描述根據這個實施例的光學薄膜120。參看圖2和圖3,根據這個實施例的光學薄膜120可以包含高折射率圖案層122和低折射率圖案層121,高折射率圖案層122包含至少一個雕刻圖案127,低折射率圖案層121包含填充雕刻圖案127的至少一部分的填充圖案125。Next, the optical film 120 according to this embodiment will be described in more detail with reference to FIGS. 2 and 3. Referring to FIGS. 2 and 3, the optical film 120 according to this embodiment may include a high refractive index pattern layer 122 and a low refractive index pattern layer 121, and the high refractive index pattern layer 122 includes at least one engraving pattern 127, and a low refractive index pattern layer 121. A fill pattern 125 filling at least a portion of the engraving pattern 127 is included.
高折射率圖案層122可以具有第一平面124,第一平面124可以包含一或多個雕刻圖案127和一或多個平坦部分126。雖然圖2和圖3中示出光學薄膜包含逐個交替地佈置在上面的雕刻圖案127和平坦部分126,但是雕刻圖案127和平坦部分126的形成順序不限於此。參看圖2和圖3,將包含曲面的雙凸透鏡圖案示出為雕刻圖案127。但是,應理解本發明不限於此。曲面可以充當用於漫射從第二偏光器110接收的偏光的透鏡,漫射的方式是藉由根據曲面上光所到達的位置而在各種方向上折射光。曲面可以包含球形表面、抛物線形表面、橢圓形表面、雙曲線形表面或無定形曲面。雕刻圖案127可以是稜鏡圖案,具有三角形到十邊形的橫截面和在其頂部的曲面。此外,雖然圖2和圖3中將曲面示出為具有不帶粗糙度的平滑表面,但是所述曲面可進一步包含粗糙度以改善光漫射效應。雕刻圖案127可以具有大約1.0或更小的寬高比(H3/P3),具體來說大約0.4到大約1.0,更具體來說大約0.7到大約1.0。參看圖2,高寬比意指雕刻圖案的最大高度與最大間距的比率。雕刻圖案127的最大間距P3的總和與高折射率圖案層122的總寬度A的比率(B/A)的範圍可以是大約40%到大約60%,具體來說大約45%到大約55%。在高寬比和寬度比率的這些範圍內,液晶顯示器可以改善側表面的包含對比度、亮度均勻性和觀看角度的多種屬性,同時使螢幕尺寸引起的亮度均勻性變化最小化。The high refractive index pattern layer 122 can have a first plane 124, which can include one or more engraved patterns 127 and one or more flat portions 126. Although the optical film is shown in FIGS. 2 and 3 to include the engraving pattern 127 and the flat portion 126 which are alternately arranged one by one, the order of formation of the engraving pattern 127 and the flat portion 126 is not limited thereto. Referring to FIGS. 2 and 3, a lenticular lens pattern including a curved surface is shown as an engraved pattern 127. However, it should be understood that the invention is not limited thereto. The curved surface may serve as a lens for diffusing the polarized light received from the second polarizer 110 in such a manner that the light is refracted in various directions according to the position at which the light on the curved surface reaches. Surfaces can include spherical surfaces, parabolic surfaces, elliptical surfaces, hyperbolic surfaces, or amorphous surfaces. The engraving pattern 127 may be a serpentine pattern having a triangular to decagon cross section and a curved surface at the top thereof. Further, although the curved surface is illustrated in FIGS. 2 and 3 as having a smooth surface without roughness, the curved surface may further include roughness to improve the light diffusion effect. The engraving pattern 127 may have an aspect ratio (H3/P3) of about 1.0 or less, specifically about 0.4 to about 1.0, and more specifically about 0.7 to about 1.0. Referring to Figure 2, the aspect ratio means the ratio of the maximum height to the maximum spacing of the engraved pattern. The ratio of the sum of the maximum pitches P3 of the engraved patterns 127 to the total width A of the high refractive index pattern layers 122 (B/A) may range from about 40% to about 60%, specifically from about 45% to about 55%. Within these ranges of aspect ratio and width ratio, liquid crystal displays can improve various properties of the side surface including contrast, brightness uniformity, and viewing angle while minimizing variations in brightness uniformity caused by screen size.
同樣參看圖2,雕刻圖案127可以具有大約30微米或更小的間距P3,具體來說大約5微米到大約20微米。雕刻圖案127可以具有大約20微米或更小的最大高度H3,具體來說大約15微米或更小,更具體來說大約5微米到大約15微米,再具體來說大約5微米到大約10微米。在間距和高度的這些範圍內,雕刻圖案可以提供光漫射效應。Referring also to Figure 2, the engraved pattern 127 can have a pitch P3 of about 30 microns or less, specifically about 5 microns to about 20 microns. The engraved pattern 127 can have a maximum height H3 of about 20 microns or less, specifically about 15 microns or less, more specifically about 5 microns to about 15 microns, and more specifically about 5 microns to about 10 microns. In these ranges of pitch and height, the engraved pattern can provide a light diffusion effect.
平坦部分126可以安置於雕刻圖案127之間,以在光到達平坦部分126時通過雕刻圖案127使光全反射來漫射光。平坦部分126的間距P4可以大於雕刻圖案127的最大間距P3或與最大間距P3相同(P4≥P3)。雕刻圖案127的最大間距P3與平坦部分126的間距P4的比率(P3/P4)可為約1或更小。雕刻圖案127的最大間距P3與週期C的比率(P3/C)可為約0.5或更小。在這些範圍內,高折射率圖案層122可以保證高光收集和漫射效應。當光到達低折射率圖案層121並且未被平坦部分126朝向填充圖案125反射時,高折射率圖案層122可以漫射光,由此改善光漫射效應。此外,雕刻圖案127可以佈置成預定週期,由此進一步改善光漫射效應。The flat portion 126 may be disposed between the engraved patterns 127 to diffuse the light by the total engraving of the light by the engraving pattern 127 when the light reaches the flat portion 126. The pitch P4 of the flat portion 126 may be greater than the maximum pitch P3 of the engraved pattern 127 or the same as the maximum pitch P3 (P4 ≥ P3). The ratio (P3/P4) of the maximum pitch P3 of the engraving pattern 127 to the pitch P4 of the flat portion 126 may be about 1 or less. The ratio of the maximum pitch P3 of the engraving pattern 127 to the period C (P3/C) may be about 0.5 or less. Within these ranges, the high refractive index pattern layer 122 can ensure high light collection and diffusion effects. When light reaches the low refractive index pattern layer 121 and is not reflected by the flat portion 126 toward the filling pattern 125, the high refractive index pattern layer 122 may diffuse light, thereby improving the light diffusion effect. Further, the engraving patterns 127 may be arranged in a predetermined period, thereby further improving the light diffusion effect.
高折射率圖案層122可以具有大約1.50或更大的折射率,具體來說大約1.50到大約1.60。在此範圍內,高折射率圖案層122可以提供良好的光漫射效應。高折射率圖案層122可以由UV可固化組合物形成,包含(甲基)丙烯酸、聚碳酸酯、矽酮和環氧樹脂中的至少一個,但是不限於此。The high refractive index pattern layer 122 may have a refractive index of about 1.50 or more, specifically about 1.50 to about 1.60. Within this range, the high refractive index pattern layer 122 can provide a good light diffusion effect. The high refractive index pattern layer 122 may be formed of a UV curable composition, including at least one of (meth)acrylic acid, polycarbonate, anthrone, and epoxy resin, but is not limited thereto.
低折射率圖案層121可以形成於第二偏光器110上,並且可以在一個方向上從第二偏光器110接收到光時根據光入射位置在各種方向上折射光來漫射偏光。The low refractive index pattern layer 121 may be formed on the second polarizer 110, and may refract light in various directions according to the light incident position to diffuse the polarized light when receiving light from the second polarizer 110 in one direction.
低折射率圖案層121可以由具有比高折射率圖案層122低的折射率的材料形成,並且可以具有小於大約1.50、具體來說大約1.35到小於大約1.50的折射率。在此範圍內,低折射率圖案層121可以確保良好的光漫射效應並且可以容易形成。低折射率圖案層121可以由包含UV可固化透明樹脂的組合物形成。具體來說,樹脂可以包含(甲基)丙烯酸、聚碳酸酯、矽酮和環氧樹脂中的至少一個,但是不限於此。所述組合物可進一步包含用於形成圖案層的典型引發劑。The low refractive index pattern layer 121 may be formed of a material having a lower refractive index than the high refractive index pattern layer 122, and may have a refractive index of less than about 1.50, specifically, about 1.35 to less than about 1.50. Within this range, the low refractive index pattern layer 121 can ensure a good light diffusion effect and can be easily formed. The low refractive index pattern layer 121 may be formed of a composition containing a UV curable transparent resin. Specifically, the resin may contain at least one of (meth)acrylic acid, polycarbonate, anthrone, and epoxy resin, but is not limited thereto. The composition may further comprise a typical initiator for forming a patterned layer.
低折射率圖案層121可以包含第二平面123,其面朝高折射率圖案層122的第一平面124並且可以包含至少一個填充圖案125。填充圖案125可以填充高折射率圖案層122的雕刻圖案127的至少一部分。本文所使用的表達“填充至少一部分”可以包含其中填充圖案填滿雕刻圖案127的結構和其中填充圖案部分地填充雕刻圖案127的結構。在其中填充圖案部分地填充雕刻圖案的結構中,雕刻圖案的其餘部分可以用空氣或具有預定折射率的樹脂填充。具體來說,樹脂的折射率可以與低折射率圖案層的折射率相同或高於低折射率圖案層的折射率,並且與高折射率圖案層122的折射率相同或低於高折射率圖案層122的折射率。雖然圖3示出的光學薄膜中填充圖案125和雕刻圖案127是以條形形狀延伸,但是填充圖案125和雕刻圖案127可以形成為圓點形狀。本文所使用的術語“圓點”意思是填充圖案與雕刻圖案的組合是分散的。The low refractive index pattern layer 121 may include a second plane 123 that faces the first plane 124 of the high refractive index pattern layer 122 and may include at least one fill pattern 125. The fill pattern 125 may fill at least a portion of the engraved pattern 127 of the high refractive index pattern layer 122. The expression "filling at least a portion" as used herein may include a structure in which a filling pattern fills the engraving pattern 127 and a structure in which the filling pattern partially fills the engraving pattern 127. In the structure in which the filling pattern partially fills the engraving pattern, the remaining portion of the engraving pattern may be filled with air or a resin having a predetermined refractive index. Specifically, the refractive index of the resin may be the same as or higher than the refractive index of the low refractive index pattern layer, and the refractive index of the high refractive index pattern layer 122 is the same as or lower than the high refractive index pattern. The refractive index of layer 122. Although the filling pattern 125 and the engraving pattern 127 in the optical film shown in FIG. 3 extend in a strip shape, the filling pattern 125 and the engraving pattern 127 may be formed in a dot shape. The term "dot" as used herein means that the combination of the fill pattern and the engraved pattern is dispersed.
高折射率圖案層122與低折射率圖案層121之間的折射率差異可為約0.20或更小,具體來說大約0.10到大約0.20,更具體來說大約0.10到大約0.15。在此範圍內,光學薄膜可以確保光的集合和漫射效應。The difference in refractive index between the high refractive index pattern layer 122 and the low refractive index pattern layer 121 may be about 0.20 or less, specifically about 0.10 to about 0.20, more specifically about 0.10 to about 0.15. Within this range, the optical film ensures a collection of light and a diffusing effect.
雖然圖2和圖3中未示出,但是高折射率圖案層和低折射率圖案層中的至少一個可以包含光漫射劑。因此,液晶顯示器可以實現對應於顯示螢幕的水平方向的縱向方向的觀看角度和對應於顯示螢幕的垂直方向的橫向方向的觀看角度的改善。此外,當雕刻圖案高度相比於不包含光漫射劑的高折射率圖案層的高度進一步減小時,可以大幅改善觀看角度。光漫射劑可以包含有機光漫射劑、無機光漫射劑或其混合物。有機光漫射劑和無機光漫射劑的混合物可以有利於改善低折射率圖案層或高折射率圖案層的漫射率和透射率。這些光漫射劑可以單獨使用或者作為混合物使用。有機光漫射劑可以包含(甲基)丙烯酸顆粒、矽氧烷顆粒和苯乙烯顆粒中的至少一個。無機光漫射劑可包括以下中的至少一個:碳酸鈣、硫酸鋇、二氧化鈦、氫氧化鋁、矽石、玻璃、滑石、雲母、白碳、氧化鎂和氧化鋅。具體來說,無機光漫射劑可以更有利地防止白度降低,同時相比僅包含有機光漫射劑的光漫射劑進一步改善光漫射率。光漫射劑不限於特定形狀和粒徑。具體來說,光漫射劑可以包含球形交聯顆粒,並且可以具有大約0.1微米到大約30微米的平均粒徑(D50),具體來說大約0.5微米到大約10微米,更具體來說大約1微米到大約5微米。在此範圍內,光漫射劑可以實現光漫射效應,增加圖案層的表面粗糙度使得與第二保護層的黏合強度不會出現問題,並且可以確保良好的分散。光漫射劑的存在量可以占僅高折射率圖案層、僅低折射率圖案層或高折射率圖案層和低折射率圖案層總量的大約0.1 wt%到大約20 wt%,具體來說大約1 wt%到大約15 wt%。在此範圍內,光漫射劑可以確保光漫射效應。當低折射率圖案層利用光漫射劑時,可以在廣泛的範圍內選擇樹脂的折射率並且降低製造成本。Although not shown in FIGS. 2 and 3, at least one of the high refractive index pattern layer and the low refractive index pattern layer may contain a light diffusing agent. Therefore, the liquid crystal display can achieve an improvement in the viewing angle corresponding to the longitudinal direction of the horizontal direction of the display screen and the viewing angle corresponding to the lateral direction of the vertical direction of the display screen. Further, when the engraving pattern height is further reduced as compared with the height of the high refractive index pattern layer not containing the light diffusing agent, the viewing angle can be greatly improved. The light diffusing agent may comprise an organic light diffusing agent, an inorganic light diffusing agent, or a mixture thereof. The mixture of the organic light diffusing agent and the inorganic light diffusing agent can be advantageous for improving the diffusing rate and transmittance of the low refractive index pattern layer or the high refractive index pattern layer. These light diffusing agents can be used singly or as a mixture. The organic light diffusing agent may include at least one of (meth)acrylic acid particles, siloxane oxide particles, and styrene particles. The inorganic light diffusing agent may include at least one of calcium carbonate, barium sulfate, titanium oxide, aluminum hydroxide, vermiculite, glass, talc, mica, white carbon, magnesium oxide, and zinc oxide. In particular, the inorganic light diffusing agent can more advantageously prevent a decrease in whiteness while further improving the light diffusing ratio compared to a light diffusing agent containing only an organic light diffusing agent. The light diffusing agent is not limited to a specific shape and particle diameter. In particular, the light diffusing agent may comprise spherical crosslinked particles and may have an average particle size (D50) of from about 0.1 microns to about 30 microns, specifically from about 0.5 microns to about 10 microns, more specifically about 1 Micron to about 5 microns. Within this range, the light diffusing agent can achieve a light diffusing effect, increasing the surface roughness of the pattern layer so that the bonding strength with the second protective layer is not problematic, and good dispersion can be ensured. The light diffusing agent may be present in an amount of from about 0.1 wt% to about 20 wt% of the total of only the high refractive index pattern layer, only the low refractive index pattern layer or the high refractive index pattern layer and the low refractive index pattern layer, specifically From about 1 wt% to about 15 wt%. Within this range, the light diffusing agent can ensure the light diffusion effect. When the low refractive index pattern layer utilizes a light diffusing agent, the refractive index of the resin can be selected in a wide range and the manufacturing cost can be reduced.
接下來,將更詳細地描述第二保護層130。第二保護層130可以形成於高折射率圖案層122或低折射率圖案層121上以保護光學薄膜120,同時支撐光學薄膜120。在圖2中,第二保護層130可以直接形成於高折射率圖案層122上。但是,應理解本發明不限於此。或者,第二保護層130可以形成於低折射率圖案層121上。也就是說,圖2示出了一個結構,其中低折射率圖案層121、高折射率圖案層122和第二保護層130按這個順序依次堆疊。然而,在替代實施例中,第二保護層130、低折射率圖案層121和高折射率圖案層122可以按這個順序依次堆疊,其中第二保護層130可以經由黏合層與第二偏光器110合併。Next, the second protective layer 130 will be described in more detail. The second protective layer 130 may be formed on the high refractive index pattern layer 122 or the low refractive index pattern layer 121 to protect the optical film 120 while supporting the optical film 120. In FIG. 2, the second protective layer 130 may be formed directly on the high refractive index pattern layer 122. However, it should be understood that the invention is not limited thereto. Alternatively, the second protective layer 130 may be formed on the low refractive index pattern layer 121. That is, FIG. 2 shows a structure in which the low refractive index pattern layer 121, the high refractive index pattern layer 122, and the second protective layer 130 are sequentially stacked in this order. However, in an alternative embodiment, the second protective layer 130, the low refractive index pattern layer 121, and the high refractive index pattern layer 122 may be sequentially stacked in this order, wherein the second protective layer 130 may be via the adhesive layer and the second polarizer 110. merge.
第二保護層130可以具有大約8,000奈米或更大的Re,大約10,000奈米或更大,具體來說高於大約10,000奈米,更具體來說大約10,100奈米到大約15,000奈米。在此範圍內,第二保護層130可以防止看見彩虹斑(rainbow spot)。第二保護層130可以是通過在單軸方向或雙軸方向上拉伸光學透明樹脂而形成的薄膜。具體來說,光學透明樹脂可以包含至少一種聚酯,包含聚對苯二甲酸乙二醇酯(polyethylene terephthalate,PET)、聚對苯二甲酸丁二醇酯、聚萘二甲酸乙二醇酯、聚萘二甲酸丁二醇酯等等;丙烯酸樹脂;纖維素酯,包含環烯烴聚合物(cyclic olefin polymer,COP)、三乙醯纖維素(triacetyl cellulose,TAC)等等;聚乙酸乙烯酯;聚氯乙烯(polyvinyl chloride,PVC);聚降冰片烯、聚碳酸酯(polycarbonate,PC)、聚醯胺、聚縮醛、聚苯醚、聚苯硫醚、聚碸、聚醚碸、聚芳酯和聚醯亞胺。第二保護層可以包含藉由給前述樹脂改質而形成的薄膜。改質可以包含共聚、分支、交聯或末端分子改質。第二保護層130可以與光學薄膜120合併。本文所使用的術語“合併”的意思是第二保護層130和光學薄膜120不獨立地彼此分隔開的狀態。The second protective layer 130 may have a Re of about 8,000 nanometers or more, about 10,000 nanometers or more, specifically, more than about 10,000 nanometers, more specifically about 10,100 nanometers to about 15,000 nanometers. . Within this range, the second protective layer 130 can prevent the rainbow spot from being seen. The second protective layer 130 may be a film formed by stretching an optically transparent resin in a uniaxial direction or a biaxial direction. Specifically, the optically transparent resin may comprise at least one polyester comprising polyethylene terephthalate (PET), polybutylene terephthalate, polyethylene naphthalate, Polybutylene naphthalate or the like; acrylic resin; cellulose ester, comprising cyclic olefin polymer (COP), triacetyl cellulose (TAC), etc.; polyvinyl acetate; Polyvinyl chloride (PVC); polynorbornene, polycarbonate (PC), polyamine, polyacetal, polyphenylene ether, polyphenylene sulfide, polyfluorene, polyether oxime, poly aryl Ester and polyimine. The second protective layer may include a film formed by modifying the aforementioned resin. Modifications can include copolymerization, branching, crosslinking, or terminal molecular modification. The second protective layer 130 may be combined with the optical film 120. The term "combined" as used herein means a state in which the second protective layer 130 and the optical film 120 are not independently separated from each other.
雖然圖2中未示出,但是第二偏光器110與光學薄膜120之間可以形成黏合層。在一個實施例中,黏合層可以由光固化黏合劑形成,包含環氧樹脂、(甲基)丙烯酸單體和光引發劑,或者聚乙烯醇的水型黏合劑。黏合層可進一步包含光漫射劑以改善光漫射效應。Although not shown in FIG. 2, an adhesive layer may be formed between the second polarizer 110 and the optical film 120. In one embodiment, the adhesive layer may be formed of a photocurable adhesive comprising an epoxy resin, a (meth)acrylic monomer and a photoinitiator, or a water-based adhesive of polyvinyl alcohol. The adhesive layer may further comprise a light diffusing agent to improve the light diffusion effect.
此外,雖然圖2中未示出,但是第二保護層130上可以進一步形成功能層。功能層可以為第二保護層130提供如下至少一種功能:防反射、低反射、硬塗層、防眩光、防指紋、防污染、漫射和折射功能。在一個實施例中,功能層可以在第二保護層130上形成為單獨一層。舉例來說,功能層可以通過在第二保護層130上塗布功能層用的組合物而形成於第二保護層130上,或者可以經由黏合層或黏著層而沉積在第二保護層130上。在另一實施例中,功能層可以透過第二保護層130的一個表面來實現。Further, although not shown in FIG. 2, a functional layer may be further formed on the second protective layer 130. The functional layer may provide the second protective layer 130 with at least one of the following functions: anti-reflection, low reflection, hard coating, anti-glare, anti-fingerprint, anti-pollution, diffusion, and refraction functions. In one embodiment, the functional layer may be formed as a single layer on the second protective layer 130. For example, the functional layer may be formed on the second protective layer 130 by coating the composition for the functional layer on the second protective layer 130, or may be deposited on the second protective layer 130 via an adhesive layer or an adhesive layer. In another embodiment, the functional layer may be implemented through one surface of the second protective layer 130.
此外,雖然圖2中未示出,但是在其中第二保護層130、低折射率圖案層121和高折射率圖案層122可以按這個順序依次堆疊的結構中,功能層可以在高折射率圖案層122上形成為單獨一層。參看圖4,第二偏光板100'可以包含光學薄膜120',光學薄膜120'包含高折射率圖案層122',高折射率圖案層122'的一個表面接受過表面處理,以便為高折射率圖案層122'的所述表面提供前述功能中的至少一項。舉例來說,高折射率圖案層122'可以形成為使得高折射率圖案層122'的一個表面具有粗糙度,或者可以使用細顆粒接受表面處理使得它的一個表面變成功能層。Further, although not shown in FIG. 2, in a structure in which the second protective layer 130, the low refractive index pattern layer 121, and the high refractive index pattern layer 122 may be sequentially stacked in this order, the functional layer may be in a high refractive index pattern. Layer 122 is formed as a separate layer. Referring to FIG. 4, the second polarizing plate 100' may include an optical film 120' including a high refractive index pattern layer 122', and one surface of the high refractive index pattern layer 122' is subjected to surface treatment to have a high refractive index. The surface of the patterned layer 122' provides at least one of the aforementioned functions. For example, the high refractive index pattern layer 122' may be formed such that one surface of the high refractive index pattern layer 122' has roughness, or a fine particle may be subjected to surface treatment such that one surface thereof becomes a functional layer.
接下來,將描述根據一個實施例的用於製造第二偏光板的方法。Next, a method for manufacturing a second polarizing plate according to an embodiment will be described.
首先,可以形成第二保護層和光學薄膜的堆疊結構。具體來說,可以將高折射率圖案層用的樹脂塗布到第二保護層的一個表面上。塗布不限於特定方法。舉例來說,塗布可以通過如下方式執行:棒塗、旋塗、浸塗、滾塗、流體塗布、模塗等。接著,可以使用上面形成有壓印填充圖案和平坦部分的圖案薄膜將圖案轉移到塗層上。此後,可以塗布低折射率圖案層用的樹脂,並且將其填充到轉移的圖案上,接著固化。可以通過光固化或熱固化中的至少一個來執行固化。可以使用大約10 mJ/cm2 到大約1000 mJ/cm2 的400奈米或更小的波長的光執行光固化。可以在大約40℃到大約200℃執行熱固化大約1小時到大約30小時。在這些條件下,圖案層用的樹脂可以充分固化。First, a stacked structure of the second protective layer and the optical film can be formed. Specifically, a resin for a high refractive index pattern layer may be coated on one surface of the second protective layer. Coating is not limited to a particular method. For example, coating can be performed by bar coating, spin coating, dip coating, roll coating, fluid coating, die coating, and the like. Next, the pattern can be transferred onto the coating using the pattern film on which the embossed filling pattern and the flat portion are formed. Thereafter, the resin for the low refractive index pattern layer may be coated and filled onto the transferred pattern, followed by curing. Curing can be performed by at least one of photo curing or thermal curing. Photocuring can be performed using light having a wavelength of about 400 m or less of about 10 mJ/cm 2 to about 1000 mJ/cm 2 . Thermal curing can be performed at about 40 ° C to about 200 ° C for about 1 hour to about 30 hours. Under these conditions, the resin for the pattern layer can be sufficiently cured.
接著,可以製造第二偏光器。第二偏光器可以通過典型方法製造。在一個實施例中,第二偏光器可以通過給聚乙烯醇薄膜泡脹、拉伸和染色來製造。泡脹、拉伸和染色可以通過所屬領域的技術人員已知的典型方法執行。在另一實施例中,可以通過使聚乙烯醇薄膜脫水來製造第二偏光器。Next, a second polarizer can be fabricated. The second polarizer can be manufactured by a typical method. In one embodiment, the second polarizer can be fabricated by inflating, stretching, and dyeing a polyvinyl alcohol film. Swelling, stretching and dyeing can be carried out by typical methods known to those skilled in the art. In another embodiment, the second polarizer can be fabricated by dehydrating a polyvinyl alcohol film.
接著,可以通過如下方式製造第二偏光板:將偏光板用的黏合劑塗布到堆疊結構的光學薄膜的一個表面上以形成黏合層,經由黏合層將第二偏光器附接到光學薄膜,並且使黏合層固化。Next, the second polarizing plate can be manufactured by applying a binder for the polarizing plate to one surface of the optical film of the stacked structure to form an adhesive layer, attaching the second polarizer to the optical film via the adhesive layer, and The adhesive layer is cured.
接下來,將參照圖5描述根據本發明的另一個實施例的液晶顯示模組。圖5是根據另一個實施例的第二偏光板的橫截面圖。Next, a liquid crystal display module according to another embodiment of the present invention will be described with reference to FIG. FIG. 5 is a cross-sectional view of a second polarizing plate according to another embodiment.
根據這個實施例的液晶顯示模組可以包含第一偏光板、液晶面板和第二偏光板。根據這個實施例的液晶顯示模組與根據上面的實施例的液晶顯示模組基本上相同,只不過根據這個實施例的液晶顯示模組包含圖5中所示的第二偏光板而不是圖2中所示的第二偏光板。以下描述將集中於圖5中所示的第二偏光板。The liquid crystal display module according to this embodiment may include a first polarizing plate, a liquid crystal panel, and a second polarizing plate. The liquid crystal display module according to this embodiment is substantially the same as the liquid crystal display module according to the above embodiment, except that the liquid crystal display module according to this embodiment includes the second polarizing plate shown in FIG. 5 instead of FIG. The second polarizing plate shown in the drawing. The following description will focus on the second polarizing plate shown in FIG.
參看圖5,根據這個實施例的第二偏光板200包含第二偏光器110、包含低折射率圖案層141和高折射率圖案層142的光學薄膜140、和第二保護層130。第二偏光器110和第二保護層130與根據上面的實施例的第二偏光板的第二偏光器和第二保護層基本上相同,因此以下描述將集中於光學薄膜140。Referring to FIG. 5, the second polarizing plate 200 according to this embodiment includes a second polarizer 110, an optical film 140 including a low refractive index pattern layer 141 and a high refractive index pattern layer 142, and a second protective layer 130. The second polarizer 110 and the second protective layer 130 are substantially the same as the second polarizer and the second protective layer of the second polarizing plate according to the above embodiment, and thus the following description will focus on the optical film 140.
光學薄膜140可以安置於第二偏光器110和第二保護層130之間,並且可以漫射從第二偏光器110接收的偏光。使用這個結構,光學薄膜可以增加液晶顯示器的側表面處的對比度和觀看角度,同時改善液晶顯示器的亮度均勻性。The optical film 140 may be disposed between the second polarizer 110 and the second protective layer 130 and may diffuse the polarized light received from the second polarizer 110. With this structure, the optical film can increase the contrast and viewing angle at the side surface of the liquid crystal display while improving the brightness uniformity of the liquid crystal display.
參看圖5,根據這個實施例的光學薄膜140可以包含高折射率圖案層142和低折射率圖案層141,高折射率圖案層142上面形成有一或多個雕刻稜鏡圖案144,低折射率圖案層141上面具有填充雕刻稜鏡圖案144的至少一部分的填充圖案143。Referring to FIG. 5, the optical film 140 according to this embodiment may include a high refractive index pattern layer 142 and a low refractive index pattern layer 141. The high refractive index pattern layer 142 is formed with one or more engraved enamel patterns 144, a low refractive index pattern. The layer 141 has a fill pattern 143 on it that fills at least a portion of the engraved enamel pattern 144.
圖5示出了包含具有三角形橫截面的雕刻稜鏡圖案144的第二偏光板。然而,第二偏光板可以包含具有n邊形(n是從4到10的整數)橫截面的稜鏡圖案。此外,雖然圖5中所示的光學薄膜不包含平坦部分,但是光學薄膜可進一步包含雕刻稜鏡圖案144之間的如圖2中所示的平坦部分126。在一些實施例中,可以進一步在圖5中所示的雕刻稜鏡圖案上形成粗糙度,以進一步改善光漫射效應。在其它實施例中,圖5中所示的雕刻稜鏡圖案可以在其頂部包含曲面。FIG. 5 shows a second polarizing plate comprising an engraved 稜鏡 pattern 144 having a triangular cross section. However, the second polarizing plate may include a meandering pattern having an n-sided (n is an integer from 4 to 10) cross section. Further, although the optical film shown in FIG. 5 does not include a flat portion, the optical film may further include a flat portion 126 as shown in FIG. 2 between the engraved 稜鏡 patterns 144. In some embodiments, roughness may be further formed on the engraved enamel pattern shown in FIG. 5 to further improve the light diffusion effect. In other embodiments, the engraved plaque pattern shown in Figure 5 may include a curved surface at the top thereof.
雕刻稜鏡圖案144可以具有大約5微米到大約20微米的間距P5,具體來說大約7微米到大約15微米。雕刻稜鏡圖案144可以具有大約3微米到大約16微米的高度H5,具體來說大約4微米到大約16微米。雕刻稜鏡圖案144可以具有大約55°到大約90°的頂角g,具體來說大約65°到大約80°。雕刻稜鏡圖案144可以具有大約1.0或更小的高寬比,具體來說大約0.50到大約0.96,更具體來說大約0.6到大約0.8。在間距、高度、頂角和高寬比的這些範圍內,雕刻稜鏡圖案144可以確保光漫射效應。The engraved plaque pattern 144 can have a pitch P5 of from about 5 microns to about 20 microns, specifically from about 7 microns to about 15 microns. The engraved plaque pattern 144 can have a height H5 of from about 3 microns to about 16 microns, specifically from about 4 microns to about 16 microns. The engraved plaque pattern 144 may have an apex angle g of from about 55° to about 90°, specifically from about 65° to about 80°. The engraved plaque pattern 144 can have an aspect ratio of about 1.0 or less, specifically about 0.50 to about 0.96, and more specifically about 0.6 to about 0.8. In these ranges of pitch, height, apex angle, and aspect ratio, the engraved 稜鏡 pattern 144 can ensure a light diffusion effect.
接下來,將參看圖6描述根據另一實施例的液晶顯示模組。圖6是根據這個實施例的液晶顯示模組中的第二偏光板的橫截面圖。Next, a liquid crystal display module according to another embodiment will be described with reference to FIG. Figure 6 is a cross-sectional view of a second polarizing plate in the liquid crystal display module according to this embodiment.
根據這個實施例的液晶顯示模組可以包含第一偏光板、液晶面板和第二偏光板。根據這個實施例的液晶顯示模組與根據上面的實施例的液晶顯示模組基本上相同,只不過根據這個實施例的液晶顯示模組包含圖6中所示的第二偏光板而不是圖2中所示的第二偏光板。以下描述將集中於圖6中所示的第二偏光板。The liquid crystal display module according to this embodiment may include a first polarizing plate, a liquid crystal panel, and a second polarizing plate. The liquid crystal display module according to this embodiment is substantially the same as the liquid crystal display module according to the above embodiment, except that the liquid crystal display module according to this embodiment includes the second polarizing plate shown in FIG. 6 instead of FIG. The second polarizing plate shown in the drawing. The following description will focus on the second polarizing plate shown in FIG. 6.
參看圖6,根據這個實施例的第二偏光板300可以包含第二偏光器110、包含低折射率圖案層151和高折射率圖案層152的光學薄膜150、和第二保護層130。高折射率圖案層152可以包含雕刻圖案153和平坦部分154,並且可進一步包含形成在雕刻圖案153與平坦部分154之間的介面處的曲面155。使用這個結構,第二偏光板可以提供高光漫射效應。低折射率圖案層151可以包含填充雕刻圖案153的填充圖案156。Referring to FIG. 6, the second polarizing plate 300 according to this embodiment may include a second polarizer 110, an optical film 150 including a low refractive index pattern layer 151 and a high refractive index pattern layer 152, and a second protective layer 130. The high refractive index pattern layer 152 may include an engraved pattern 153 and a flat portion 154, and may further include a curved surface 155 formed at an interface between the engraved pattern 153 and the flat portion 154. With this structure, the second polarizing plate can provide a high light diffusion effect. The low refractive index pattern layer 151 may include a filling pattern 156 filling the engraving pattern 153.
接下來,將參照圖7描述根據本發明的又一實施例的液晶顯示模組。圖7是根據這個實施例的液晶顯示模組的第二偏光板的橫截面圖。Next, a liquid crystal display module according to still another embodiment of the present invention will be described with reference to FIG. Fig. 7 is a cross-sectional view showing a second polarizing plate of the liquid crystal display module according to this embodiment.
根據這個實施例的液晶顯示模組可以包含第一偏光板、液晶面板和第二偏光板。根據這個實施例的液晶顯示模組與根據上面的實施例的液晶顯示模組基本上相同,只不過根據這個實施例的液晶顯示模組包含圖7中所示的第二偏光板而不是圖2中所示的第二偏光板。以下描述將集中於圖7中所示的第二偏光板。The liquid crystal display module according to this embodiment may include a first polarizing plate, a liquid crystal panel, and a second polarizing plate. The liquid crystal display module according to this embodiment is substantially the same as the liquid crystal display module according to the above embodiment, except that the liquid crystal display module according to this embodiment includes the second polarizing plate shown in FIG. 7 instead of FIG. The second polarizing plate shown in the drawing. The following description will focus on the second polarizing plate shown in FIG.
參看圖7,根據這個實施例的第二偏光板400可以包含第二偏光器110、包含高折射率圖案層122和低折射率圖案層161的光學薄膜160、和第二保護層130,其中高折射率圖案層122包含雕刻圖案127和平坦部分126。根據這個實施例的第二偏光板400與圖2中所示的第二偏光板基本上相同,只不過根據這個實施例,低折射率圖案層161的厚度與第二偏光板中的雕刻圖案127的高度相同。Referring to FIG. 7, the second polarizing plate 400 according to this embodiment may include a second polarizer 110, an optical film 160 including a high refractive index pattern layer 122 and a low refractive index pattern layer 161, and a second protective layer 130, wherein The refractive index pattern layer 122 includes an engraved pattern 127 and a flat portion 126. The second polarizing plate 400 according to this embodiment is substantially the same as the second polarizing plate shown in FIG. 2 except that the thickness of the low refractive index pattern layer 161 and the engraved pattern 127 in the second polarizing plate are 127 according to this embodiment. The height is the same.
接下來,將參照圖8描述根據本發明的又一實施例的液晶顯示模組。圖8是根據這個實施例的液晶顯示模組的第二偏光板的橫截面圖。Next, a liquid crystal display module according to still another embodiment of the present invention will be described with reference to FIG. Figure 8 is a cross-sectional view of a second polarizing plate of the liquid crystal display module according to this embodiment.
根據這個實施例的液晶顯示模組可以包含第一偏光板、液晶面板和第二偏光板。根據這個實施例的液晶顯示模組與根據上面的實施例的液晶顯示模組基本上相同,只不過根據這個實施例的液晶顯示模組包含圖8中所示的第二偏光板而不是圖2中所示的第二偏光板。以下描述將集中於圖8中所示的第二偏光板。The liquid crystal display module according to this embodiment may include a first polarizing plate, a liquid crystal panel, and a second polarizing plate. The liquid crystal display module according to this embodiment is substantially the same as the liquid crystal display module according to the above embodiment, except that the liquid crystal display module according to this embodiment includes the second polarizing plate shown in FIG. 8 instead of FIG. The second polarizing plate shown in the drawing. The following description will focus on the second polarizing plate shown in FIG.
參看圖8,根據這個實施例的第二偏光板500可以包含第二偏光器110、包含低折射率圖案層121和高折射率圖案層122的光學薄膜120、第二保護層130和第三保護層170。根據這個實施例的第二偏光板500與圖2中所示的第二偏光板基本上相同,只不過根據這個實施例的第二偏光板500進一步包含第三保護層170。Referring to FIG. 8, the second polarizing plate 500 according to this embodiment may include a second polarizer 110, an optical film 120 including a low refractive index pattern layer 121 and a high refractive index pattern layer 122, a second protective layer 130, and a third protection. Layer 170. The second polarizing plate 500 according to this embodiment is substantially the same as the second polarizing plate shown in FIG. 2, except that the second polarizing plate 500 according to this embodiment further includes a third protective layer 170.
第三保護層170可以形成於第二偏光器110的下表面上以保護第二偏光器110,同時與第二保護層130一起抑制第二偏光板500在惡劣條件下發生翹曲。The third protective layer 170 may be formed on the lower surface of the second polarizer 110 to protect the second polarizer 110 while suppressing warpage of the second polarizing plate 500 under severe conditions together with the second protective layer 130.
第三保護層170可以是通過在單軸方向或雙軸方向上拉伸光學透明樹脂而形成的薄膜。具體來說,光學透明樹脂可以包含至少一種聚酯,包含聚對苯二甲酸乙二醇酯、聚對苯二甲酸丁二醇酯、聚萘二甲酸乙二醇酯、聚萘二甲酸丁二醇酯等等;丙烯酸樹脂;纖維素酯,包含環烯烴聚合物、三乙醯纖維素等等;聚乙酸乙烯酯;聚氯乙烯;聚降冰片烯、聚碳酸酯、聚醯胺、聚縮醛、聚苯醚、聚苯硫醚、聚碸、聚醚碸、聚芳酯和聚醯亞胺。第三保護層170可以包含通過給前述樹脂改質而形成的薄膜。改質可以包含共聚、分支、交聯或末端分子改質。第三保護層170可以具有預定延遲距離以提供觀看角度補償功能。具體來說,第三保護層170可以在550奈米的波長下具有大約40奈米到大約60奈米的Re。在此範圍內,第三保護層可以補償觀看角度以提供良好的圖像品質。The third protective layer 170 may be a film formed by stretching an optically transparent resin in a uniaxial direction or a biaxial direction. Specifically, the optically transparent resin may comprise at least one polyester comprising polyethylene terephthalate, polybutylene terephthalate, polyethylene naphthalate, polybutylene naphthalate Alcohol esters and the like; acrylic resin; cellulose ester, comprising a cyclic olefin polymer, triacetyl cellulose, etc.; polyvinyl acetate; polyvinyl chloride; polynorbornene, polycarbonate, polyamine, polycondensation Aldehydes, polyphenylene ethers, polyphenylene sulfides, polyfluorenes, polyether oximes, polyarylates, and polyimines. The third protective layer 170 may include a film formed by modifying the aforementioned resin. Modifications can include copolymerization, branching, crosslinking, or terminal molecular modification. The third protective layer 170 may have a predetermined delay distance to provide a viewing angle compensation function. Specifically, the third protective layer 170 may have a Re of about 40 nm to about 60 nm at a wavelength of 550 nm. Within this range, the third protective layer can compensate for the viewing angle to provide good image quality.
雖然在圖8中光學薄膜120示出為形成於第二保護層130和第二偏光器110之間,但是光學薄膜120可以形成於第二偏光器110和第三保護層170之間。也就是說,根據這個實施例的第二偏光板可以具有一個結構,其中第三保護層170、低折射率圖案層121、高折射率圖案層122、第二偏光器110和第二保護層130按這個順序依次形成。Although the optical film 120 is illustrated as being formed between the second protective layer 130 and the second polarizer 110 in FIG. 8, the optical film 120 may be formed between the second polarizer 110 and the third protective layer 170. That is, the second polarizing plate according to this embodiment may have a structure in which the third protective layer 170, the low refractive index pattern layer 121, the high refractive index pattern layer 122, the second polarizer 110, and the second protective layer 130 Formed in this order.
雖然圖8中未示出,但是黏著層可以形成於第三保護層170的下表面上,以有利於第三保護層170與液晶面板30之間的黏著。黏著層的細節與上述黏著層的相同。雖然圖8中未示出,但是黏合層也可以形成於第二偏光器110和第三保護層170之間。Although not shown in FIG. 8, an adhesive layer may be formed on the lower surface of the third protective layer 170 to facilitate adhesion between the third protective layer 170 and the liquid crystal panel 30. The details of the adhesive layer are the same as those of the above adhesive layer. Although not shown in FIG. 8, an adhesive layer may be formed between the second polarizer 110 and the third protective layer 170.
接下來,將參照圖9描述根據本發明的又一實施例的液晶顯示模組。圖9是根據這個實施例的液晶顯示模組的第二偏光板的橫截面圖。Next, a liquid crystal display module according to still another embodiment of the present invention will be described with reference to FIG. Figure 9 is a cross-sectional view of a second polarizing plate of the liquid crystal display module according to this embodiment.
根據這個實施例的液晶顯示模組可以包含第一偏光板、液晶面板和第二偏光板。根據這個實施例的液晶顯示模組與根據上面的實施例的液晶顯示模組基本上相同,只不過根據這個實施例的液晶顯示模組包含圖9中所示的第二偏光板而不是圖2中所示的第二偏光板。以下描述將集中於圖9中所示的第二偏光板。The liquid crystal display module according to this embodiment may include a first polarizing plate, a liquid crystal panel, and a second polarizing plate. The liquid crystal display module according to this embodiment is substantially the same as the liquid crystal display module according to the above embodiment, except that the liquid crystal display module according to this embodiment includes the second polarizing plate shown in FIG. 9 instead of FIG. The second polarizing plate shown in the drawing. The following description will focus on the second polarizing plate shown in FIG.
參看圖9,根據這個實施例的第二偏光板600包含第二偏光器110、包含低折射率圖案層121和高折射率圖案層122的光學薄膜120、和第三保護層170。根據這個實施例的第二偏光板與圖8中所示的第二偏光板500基本上相同,只不過光學薄膜120安置於第二偏光器110下並且直接形成於第三保護層170上,並且沒有第二保護層130。Referring to FIG. 9, the second polarizing plate 600 according to this embodiment includes a second polarizer 110, an optical film 120 including a low refractive index pattern layer 121 and a high refractive index pattern layer 122, and a third protective layer 170. The second polarizing plate according to this embodiment is substantially the same as the second polarizing plate 500 shown in FIG. 8, except that the optical film 120 is disposed under the second polarizer 110 and formed directly on the third protective layer 170, and There is no second protective layer 130.
接下來,將參照圖10描述根據本發明的又一實施例的液晶顯示模組。圖10是根據這個實施例的液晶顯示模組的複合光學薄片的透視圖。Next, a liquid crystal display module according to still another embodiment of the present invention will be described with reference to FIG. Figure 10 is a perspective view of a composite optical sheet of a liquid crystal display module according to this embodiment.
根據這個實施例的液晶顯示模組可以包含複合光學薄片、第一偏光板、液晶面板和第二偏光板。根據這個實施例的液晶顯示模組與根據上面的實施例的液晶顯示模組基本上相同,但是不包含複合光學薄片。複合光學薄片可以安置於第一偏光板下,並且收集入射於其下側面上的光。以下描述將集中於複合光學薄片。The liquid crystal display module according to this embodiment may include a composite optical sheet, a first polarizing plate, a liquid crystal panel, and a second polarizing plate. The liquid crystal display module according to this embodiment is substantially the same as the liquid crystal display module according to the above embodiment, but does not include a composite optical sheet. The composite optical sheet may be disposed under the first polarizing plate and collect light incident on a lower side thereof. The following description will focus on composite optical sheets.
參看圖10,根據這個實施例的複合光學薄片10可以包含:第一光學薄片12,其包含形成於其一個表面上的一或多個第一稜鏡圖案11;以及第二光學薄片14,其形成於第一光學薄片12上,並且包含形成於其一個表面上的一或多個第二稜鏡圖案13。Referring to FIG. 10, the composite optical sheet 10 according to this embodiment may include: a first optical sheet 12 including one or more first ruthenium patterns 11 formed on one surface thereof; and a second optical sheet 14 It is formed on the first optical sheet 12 and includes one or more second ruthenium patterns 13 formed on one surface thereof.
複合光學薄片10可以允許光以大約-40°到大約+40°的出射角出射,具體來說大約-30°到大約+30°,更具體來說大約-28°到大約+28°。在出射角的此範圍內,複合光學薄片可以在光透過液晶面板出射之前收集光,方法是通過抑制光通過複合光學薄片的側表面出射,由此增加其側表面處的對比度。The composite optical sheet 10 can allow light to exit at an exit angle of from about -40° to about +40°, specifically from about -30° to about +30°, more specifically from about -28° to about +28°. Within this range of exit angles, the composite optical sheet can collect light before it exits through the liquid crystal panel by inhibiting light from exiting through the side surface of the composite optical sheet, thereby increasing the contrast at its side surfaces.
第一光學薄片12可以安置在第二光學薄片14的下表面上。第一光學薄片12具有對應於其上表面的光出射平面以及對應於其下表面的光入射平面,以改變入射光的光學路徑,從而允許光出射到第二光學薄片14。第一光學薄片12可以包含第一基底薄膜15和形成於第一基底薄膜15上的至少一個第一稜鏡圖案11。The first optical sheet 12 may be disposed on a lower surface of the second optical sheet 14. The first optical sheet 12 has a light exiting plane corresponding to its upper surface and a light incident plane corresponding to its lower surface to change the optical path of the incident light, thereby allowing light to exit to the second optical sheet 14. The first optical sheet 12 may include a first base film 15 and at least one first meander pattern 11 formed on the first base film 15.
第一基底薄膜15可以支撐第一光學薄片12,並且具有大約10微米到大約500微米的厚度,具體來說大約25微米到大約250微米,更具體來說大約75微米到大約150微米,但不限於此。在此範圍內,第一基底薄膜可以用於液晶顯示器。第一基底薄膜15可以由熱塑樹脂或包括熱塑樹脂的組合物形成。具體來說,熱塑樹脂可以包含至少一種聚酯樹脂,例如聚對苯二甲酸乙二醇酯和聚萘二甲酸乙二醇酯、聚縮醛樹脂、丙烯酸樹脂、聚碳酸酯樹脂、苯乙烯樹脂、乙烯基樹脂、聚苯醚樹脂、非環狀聚烯烴樹脂(例如聚乙烯和聚丙烯)、環烯烴樹脂、丙烯腈-丁二烯-苯乙烯共聚物樹脂、聚丙烯酸酯樹脂、聚芳碸樹脂、聚醚碸樹脂、聚苯硫醚樹脂、氟樹脂和(甲基)丙烯酸樹脂。The first substrate film 15 can support the first optical sheet 12 and have a thickness of from about 10 microns to about 500 microns, specifically from about 25 microns to about 250 microns, more specifically from about 75 microns to about 150 microns, but not Limited to this. Within this range, the first base film can be used for a liquid crystal display. The first base film 15 may be formed of a thermoplastic resin or a composition including a thermoplastic resin. Specifically, the thermoplastic resin may comprise at least one polyester resin such as polyethylene terephthalate and polyethylene naphthalate, polyacetal resin, acrylic resin, polycarbonate resin, styrene Resin, vinyl resin, polyphenylene ether resin, acyclic polyolefin resin (such as polyethylene and polypropylene), cycloolefin resin, acrylonitrile-butadiene-styrene copolymer resin, polyacrylate resin, polyfang Anthracene resin, polyether oxime resin, polyphenylene sulfide resin, fluororesin and (meth)acrylic resin.
第一稜鏡圖案11可以形成於第一光學薄片12的上表面上,並且收集從其下表面接收的光,同時改善亮度。雖然圖10示出稜鏡圖案具有三角形橫截面,但是應理解本發明不限於此,並且第一稜鏡圖案11可以具有多邊形稜鏡形狀,其邊數的範圍介於4到10。第一稜鏡圖案11可以具有大約5微米到大約50微米的高度H1,具體來說大約5微米到大約40微米,更具體來說大約10微米到大約30微米。第一稜鏡圖案11可以具有大約80°到大約100°、具體來說大約85°到大約95°的頂角(α)。在這些高度和頂角的範圍內,第一稜鏡圖案可以改善亮度,同時抑制波紋現象(Moiré phenomenon)。第一稜鏡圖案11可以具有大約0.3到大約0.7、具體來說大約0.4到大約0.6的高寬比。在此範圍內,第一稜鏡圖案可以改善亮度。第一稜鏡圖案11可以由包含UV固化不飽和化合物和引發劑的組合物形成,或者可以由與第一基底薄膜15的材料相同的材料或不同的材料形成。舉例來說,UV固化不飽和化合物可以包含環氧樹脂(甲基)丙烯酸酯、氨基甲酸酯(甲基)丙烯酸酯、苯基酚乙氧基化(甲基)丙烯酸酯、三羥甲基丙烷乙氧基化(甲基)丙烯酸酯、苯並茚衍生的不飽和樹脂、(甲基)丙烯酸苯氧基苄酯、(甲基)丙烯酸苯基苯氧基乙酯、二(甲基)丙烯酸乙氧基化硫代二苯酯、(甲基)丙烯酸苯基硫代乙酯單體或其低聚合物中的至少一種,但不限於此。引發劑可以是光引發劑,並且可以包含酮或氧化膦類引發劑,但不限於此。第一稜鏡圖案11可以具有以條形形狀延伸的伸長形狀,並且第一稜鏡圖案的縱向方向與其垂直方向基本上相同。本文所使用的表達“基本上相同”包含這些值完全相同的情況和這些值之間略有差異的情況。The first meander pattern 11 may be formed on the upper surface of the first optical sheet 12, and collect light received from the lower surface thereof while improving brightness. Although FIG. 10 shows that the meandering pattern has a triangular cross section, it should be understood that the present invention is not limited thereto, and the first meandering pattern 11 may have a polygonal meander shape with a number of sides ranging from 4 to 10. The first meander pattern 11 can have a height H1 of from about 5 microns to about 50 microns, specifically from about 5 microns to about 40 microns, and more specifically from about 10 microns to about 30 microns. The first meander pattern 11 may have an apex angle (α) of from about 80° to about 100°, specifically from about 85° to about 95°. Within these height and apex angles, the first 稜鏡 pattern can improve brightness while suppressing the Moiré phenomenon. The first meander pattern 11 may have an aspect ratio of from about 0.3 to about 0.7, specifically from about 0.4 to about 0.6. Within this range, the first pattern can improve brightness. The first ruthenium pattern 11 may be formed of a composition containing a UV-curable unsaturated compound and an initiator, or may be formed of the same material as the material of the first base film 15 or a different material. For example, the UV curable unsaturated compound may comprise an epoxy (meth) acrylate, a urethane (meth) acrylate, a phenyl phenol ethoxylated (meth) acrylate, a trimethylol Propane ethoxylated (meth) acrylate, benzofluorene-derived unsaturated resin, phenoxybenzyl (meth) acrylate, phenylphenoxyethyl (meth) acrylate, di(methyl) At least one of ethoxylated thiodiphenyl acrylate, phenyl thioethyl (meth) acrylate monomer or a low polymer thereof, but is not limited thereto. The initiator may be a photoinitiator and may include a ketone or a phosphine oxide-based initiator, but is not limited thereto. The first meander pattern 11 may have an elongated shape extending in a strip shape, and the longitudinal direction of the first meandering pattern is substantially the same as the vertical direction thereof. As used herein, the expression "substantially the same" encompasses the case where the values are identical and the case where there is a slight difference between these values.
第二光學薄片14可以安置在第一光學薄片12的上表面上,並且可以具有對應於其上表面的光出射平面和對應於其下表面的光入射平面,以改變從第一光學薄片12接收的光的光學路徑。第二光學薄片14可以包含第二基底薄膜16和形成於第二基底薄膜16上的第二稜鏡圖案13。The second optical sheet 14 may be disposed on an upper surface of the first optical sheet 12 and may have a light exiting plane corresponding to an upper surface thereof and a light incident plane corresponding to a lower surface thereof to change reception from the first optical sheet 12 Optical path of light. The second optical sheet 14 may include a second base film 16 and a second ruthenium pattern 13 formed on the second base film 16.
第二基底薄膜16可以支撐第二光學薄片14,並且可以具有大約10微米到大約500微米、具體來說大約25微米到大約250微米、更具體來說大約75微米到大約150微米的厚度。在此範圍內,第二基底薄膜可以用於液晶顯示器。第二基底薄膜16可以由與第一基底薄膜15相同的樹脂或不同的樹脂形成。第二基底薄膜16的厚度可以與第一基底薄膜15的厚度相同或不同。The second substrate film 16 can support the second optical sheet 14, and can have a thickness of from about 10 microns to about 500 microns, specifically from about 25 microns to about 250 microns, and more specifically from about 75 microns to about 150 microns. Within this range, the second substrate film can be used for a liquid crystal display. The second base film 16 may be formed of the same resin as the first base film 15 or a different resin. The thickness of the second base film 16 may be the same as or different from the thickness of the first base film 15.
第二稜鏡圖案13可以形成於第二光學薄片14的上表面上,並且收集從其下表面接收的光,同時改善亮度。雖然圖10示出稜鏡圖案具有三角形橫截面,但是應理解本發明不限於此,並且第二稜鏡圖案13可以具有多邊形稜鏡形狀,其邊數的範圍介於4到10。第二稜鏡圖案13可以由與第一稜鏡圖案11相同或不同種類的樹脂形成。第二稜鏡圖案13可以具有大約5微米到大約50微米、具體來說大約5微米到大約40微米、更具體來說大約10微米到大約30微米的高度H2。第二稜鏡圖案13可以具有大約80°到大約100°、具體來說大約85°到大約95°的頂角(β)。在這些高度和頂角的範圍內,第二稜鏡圖案可以改善亮度,同時抑制波紋現象。第二稜鏡圖案13可以具有大約0.3到大約0.7、具體來說大約0.4到大約0.6的高寬比。在此範圍內,第二稜鏡圖案可以改善亮度。第二稜鏡圖案13的高寬比(A2 )與第一稜鏡圖案11的高寬比(A1 )的比率(A2 /A1 )的範圍可介於大約0.9到大約1.1。在此範圍內,第二稜鏡圖案13可以允許光以大約-40°到大約+40°的出射角出射,由此改善側表面處的對比度。第二稜鏡圖案13可以具有以條形形狀延伸的伸長形狀,並且第二稜鏡圖案的縱向方向基本上正交於第一稜鏡圖案的縱向方向。本文所使用的表達“基本上正交於”包含兩個方向完全彼此正交的情況和其間略有差異的情況。The second meander pattern 13 may be formed on the upper surface of the second optical sheet 14, and collect light received from the lower surface thereof while improving brightness. Although FIG. 10 shows that the meandering pattern has a triangular cross section, it should be understood that the present invention is not limited thereto, and the second meandering pattern 13 may have a polygonal meander shape with a number of sides ranging from 4 to 10. The second meander pattern 13 may be formed of the same or different kind of resin as the first meander pattern 11. The second meander pattern 13 can have a height H2 of from about 5 microns to about 50 microns, specifically from about 5 microns to about 40 microns, more specifically from about 10 microns to about 30 microns. The second meander pattern 13 may have an apex angle (β) of from about 80° to about 100°, specifically from about 85° to about 95°. In the range of these heights and apex angles, the second 稜鏡 pattern can improve the brightness while suppressing the ripple phenomenon. The second meander pattern 13 may have an aspect ratio of from about 0.3 to about 0.7, specifically from about 0.4 to about 0.6. Within this range, the second pattern can improve brightness. Prism range of the second pattern 13 is the aspect ratio (A 2) and the aspect ratio (A 1) a first pattern 11 Prism ratio (A 2 / A 1) may be between about 0.9 to about 1.1. Within this range, the second meander pattern 13 may allow light to exit at an exit angle of about -40° to about +40°, thereby improving contrast at the side surfaces. The second meander pattern 13 may have an elongated shape extending in a strip shape, and the longitudinal direction of the second meander pattern is substantially orthogonal to the longitudinal direction of the first meander pattern. As used herein, the expression "substantially orthogonal to" encompasses the case where the two directions are completely orthogonal to each other and the case where there is a slight difference therebetween.
液晶顯示模組可進一步包含漫射器,其安置於複合光學薄片10和第一偏光板20之間。漫射器可以保護複合光學薄片10並且可以包含光漫射劑。在這個實施例中,漫射器和光源可以依次安置於複合光學薄片10之下。The liquid crystal display module may further include a diffuser disposed between the composite optical sheet 10 and the first polarizing plate 20. The diffuser can protect the composite optical sheet 10 and can include a light diffusing agent. In this embodiment, the diffuser and light source may be disposed under the composite optical sheet 10 in sequence.
圖10示出了其中第二光學薄片14堆疊在第一光學薄片12上並且其間沒有黏合層的結構。在另一實施例中,所述複合光學薄片可進一步包含形成於第二光學薄片14的下表面上的黏合層,使得第一光學薄片12的第一稜鏡圖案11可以滲入黏合層。黏合層可以防止第一光學薄片和第二光學薄片變形,由此防止薄片起皺和波紋現象。黏合層可以由典型的黏合樹脂例如丙烯酸或甲基丙烯酸酯樹脂形成。黏合層可以具有大約1微米到大約10微米、具體來說大約2微米到大約8微米的厚度。在此範圍內,黏合層可以確保充分的黏合強度。FIG. 10 shows a structure in which the second optical sheets 14 are stacked on the first optical sheet 12 with no adhesive layer therebetween. In another embodiment, the composite optical sheet may further include an adhesive layer formed on a lower surface of the second optical sheet 14, such that the first meander pattern 11 of the first optical sheet 12 may penetrate into the adhesive layer. The adhesive layer can prevent deformation of the first optical sheet and the second optical sheet, thereby preventing sheet wrinkling and waviness. The adhesive layer can be formed of a typical adhesive resin such as an acrylic or methacrylate resin. The adhesive layer can have a thickness of from about 1 micron to about 10 microns, specifically from about 2 microns to about 8 microns. Within this range, the adhesive layer ensures sufficient bond strength.
接下來,將參看圖11描述根據本發明的一個實施例的液晶顯示器。圖11是根據這個實施例的液晶顯示器的透視圖。Next, a liquid crystal display according to an embodiment of the present invention will be described with reference to FIG. Figure 11 is a perspective view of a liquid crystal display according to this embodiment.
參看圖11,根據這個實施例的液晶顯示器2可以包含光源40、引導從光源40發出的光的光導板60、安置在光導板60下方的反射薄片50、安置在光導板60上方的漫射薄片70、安置在漫射薄片70上方的液晶顯示模組80、和安置在液晶顯示模組80上方的視窗薄膜(window film)90,其中液晶顯示模組80可以包含根據本發明的實施例的液晶顯示模組。Referring to Fig. 11, a liquid crystal display 2 according to this embodiment may include a light source 40, a light guiding plate 60 guiding light emitted from the light source 40, a reflective sheet 50 disposed under the light guiding plate 60, and a diffusing sheet disposed above the light guiding plate 60. 70. A liquid crystal display module 80 disposed above the diffusing sheet 70, and a window film 90 disposed above the liquid crystal display module 80, wherein the liquid crystal display module 80 may include a liquid crystal according to an embodiment of the present invention. Display module.
光源40可以產生光,並且可以安置在光導板60的側面處(側光式)。光源40可以是線光燈、面光燈或多種其它光源,例如冷陰極螢光燈(cold cathode fluorescent lamp, CCFL)或發光二極體(light emitting diode, LED)。光源罩41可以安置在光源40外部。The light source 40 can generate light and can be disposed at the side of the light guide plate 60 (sidelight type). The light source 40 can be a line light, a surface light or a variety of other light sources, such as a cold cathode fluorescent lamp (CCFL) or a light emitting diode (LED). The light source cover 41 may be disposed outside the light source 40.
光導板60可以將從光源40發出的光引導到漫射薄片70。當使用直接型光源時,可以省略光導板。The light guide plate 60 can guide the light emitted from the light source 40 to the diffusion sheet 70. When a direct type light source is used, the light guide plate can be omitted.
反射薄片50可以反射從光源40發出的光以朝向漫射薄片70供應光。The reflective sheet 50 may reflect light emitted from the light source 40 to supply light toward the diffusing sheet 70.
漫射薄片70可以漫射和散射從光導板60接收的光以向液晶顯示器供應光。The diffusing sheet 70 can diffuse and scatter light received from the light guiding plate 60 to supply light to the liquid crystal display.
雖然光源40安置在圖11中所示的液晶顯示器中的光導板60的側面,但是光源40可以安置在光導板60的下表面上(直接型)。在這個結構中,可以省略光導板60並且液晶顯示器可進一步包含漫射器。Although the light source 40 is disposed on the side of the light guiding plate 60 in the liquid crystal display shown in FIG. 11, the light source 40 may be disposed on the lower surface of the light guiding plate 60 (direct type). In this configuration, the light guide plate 60 can be omitted and the liquid crystal display can further include a diffuser.
在下文中將參考一些實例更詳細地描述本發明。但是,應理解僅為說明目的提供這些實例,且這些實例不應以任何方式解釋為對本發明的限制。The invention will be described in more detail hereinafter with reference to some examples. However, it should be understood that these examples are provided for the purpose of illustration only, and are not to be construed as limiting the invention in any way.
製備實例1:複合光學薄片的製造Preparation Example 1: Fabrication of Composite Optical Sheets
製備一種組合物,包括35 wt%的環氧樹脂丙烯酸酯、15 wt%的氨基甲酸酯丙烯酸酯低聚物、36 wt%的鄰苯基酚乙氧基化丙烯酸酯、10 wt%的三羥甲基丙烷9-乙氧基化丙烯酸酯和4 wt%的光引發劑。A composition was prepared comprising 35 wt% epoxy acrylate, 15 wt% urethane acrylate oligomer, 36 wt% o-phenylphenol ethoxylated acrylate, 10 wt% three Hydroxymethylpropane 9-ethoxylated acrylate and 4 wt% photoinitiator.
將所述組合物塗布到第一基底薄膜用的聚對苯二甲酸乙二醇酯(polyethylene terephthalate,PET)膜(T910E,厚度:125微米,三菱株式會社(Mitsubishi Co., Ltd.))的一個表面上以形成塗層。將稜鏡圖案(三角形橫截面,高度:12微米,間距:24微米,頂角:90°)從具有對應於稜鏡圖案的壓印圖案的圖案輥轉移到塗層,隨後固化,由此形成一個上面形成有第一稜鏡圖案的第一光學薄片。The composition was applied to a polyethylene terephthalate (PET) film (T910E, thickness: 125 μm, Mitsubishi Co., Ltd.) for the first base film. A surface is formed to form a coating. A 稜鏡 pattern (triangular cross section, height: 12 μm, pitch: 24 μm, apex angle: 90°) was transferred from a pattern roll having an embossed pattern corresponding to the 稜鏡 pattern to the coating, followed by solidification, thereby forming A first optical sheet on which the first meander pattern is formed.
將所述組合物塗布到第二底薄膜用的聚對苯二甲酸乙二醇酯(polyethylene terephthalate,PET)膜(T910E,厚度:125微米,三菱株式會社(Mitsubishi Co., Ltd.))的一個表面上以形成塗層。將稜鏡圖案(三角形橫截面,高度:12微米,間距:24微米,頂角:90°)從具有對應於稜鏡圖案的壓印圖案的圖案輥轉移到塗層,隨後固化,由此形成一個上面形成有第二稜鏡圖案的第二光學薄片。The composition was applied to a polyethylene terephthalate (PET) film (T910E, thickness: 125 μm, Mitsubishi Co., Ltd.) for the second under film. A surface is formed to form a coating. A 稜鏡 pattern (triangular cross section, height: 12 μm, pitch: 24 μm, apex angle: 90°) was transferred from a pattern roll having an embossed pattern corresponding to the 稜鏡 pattern to the coating, followed by solidification, thereby forming A second optical sheet having a second meander pattern formed thereon.
用如下方式製造複合光學薄片:將第二光學薄片堆疊在第一光學薄片上,使得第一稜鏡圖案的縱向方向正交於第二稜鏡圖案的縱向方向。The composite optical sheet is manufactured by stacking the second optical sheets on the first optical sheet such that the longitudinal direction of the first meander pattern is orthogonal to the longitudinal direction of the second meander pattern.
通過相對於複合光學薄片測量觀看角度的方法來測量出射角。The exit angle is measured by a method of measuring the viewing angle with respect to the composite optical sheet.
製備實例2:複合光學薄片的製造Preparation Example 2: Fabrication of Composite Optical Sheets
複合光學薄片的製造方式與製備實例1中相同,區別是表1中列出的微透鏡圖案形成於第一基底薄膜用的聚對苯二甲酸乙二醇酯(polyethylene terephthalate,PET)薄膜的一個表面上,而非稜鏡圖案。The composite optical sheet was produced in the same manner as in Preparation Example 1, except that the microlens pattern listed in Table 1 was formed on a polyethylene terephthalate (PET) film for the first base film. On the surface, not the enamel pattern.
<表1>
製備實例3:第一偏光板的製造Preparation Example 3: Fabrication of First Polarizing Plate
通過如下方式製造第一偏光器:在60℃下將聚乙烯醇薄膜拉伸成其初始長度的三倍,並且將碘吸附到拉伸後的薄膜上,接著在40℃下在硼酸含水溶劑中將所得的薄膜拉伸成薄膜拉伸長度的2.5倍。經由偏光器用的黏合劑(Z-200,日本合成化學公司(Nippon Goshei Co., Ltd.))將三乙醯纖維素薄膜(厚度為80微米)作為第一保護層黏合到第一偏光器的兩個表面,由此提供第一偏光板。The first polarizer was fabricated by stretching a polyvinyl alcohol film to three times its original length at 60 ° C, and adsorbing iodine onto the stretched film, followed by an aqueous solution of boric acid at 40 ° C. The resulting film was stretched to 2.5 times the stretched length of the film. Adhesive (Z-200, Nippon Goshei Co., Ltd.) for the polarizer is used to bond the triacetyl cellulose film (having a thickness of 80 μm) as a first protective layer to the first polarizer. Two surfaces, thereby providing a first polarizing plate.
實例1:液晶顯示模組的製造Example 1: Manufacturing of a liquid crystal display module
(1)第二偏光板的製造(1) Manufacture of the second polarizing plate
偏光器的製造方式與製備實例3中相同。The polarizer was fabricated in the same manner as in Preparation Example 3.
將UV固化樹脂(SSC155,Shin-A T&C)塗布到第二保護層用的透明PET薄膜(SRF,厚度:80微米,550奈米波長下Re=14,000奈米,東洋株式會社(Toyobo Co., Ltd.))的一個表面上以形成塗層。使用上面交替地形成有壓印雙凸透鏡圖案(間距:10微米,高度:10微米)和平坦部分(間距:10微米)的薄膜,在塗層上形成雕刻雙凸透鏡圖案和平坦部分,接著固化,由此形成高折射率圖案層。接著,將UV固化樹脂(SSC140,Shin-A T&C)塗布到高折射率圖案層上,使得雕刻雙凸透鏡圖案可以裝滿UV固化樹脂,接著固化,由此形成在高折射率圖案層上面直接形成低折射率圖案層的光學薄膜。A UV curable resin (SSC155, Shin-A T&C) was applied to a transparent PET film for a second protective layer (SRF, thickness: 80 μm, Re=14000 nm at a wavelength of 550 nm, Toyobo Co., One surface of Ltd.)) to form a coating. An engraved lenticular lens pattern and a flat portion are formed on the coating layer using a film having an embossed lenticular lens pattern (pitch: 10 μm, height: 10 μm) and a flat portion (pitch: 10 μm) alternately formed thereon, followed by curing, Thereby, a high refractive index pattern layer is formed. Next, a UV curable resin (SSC140, Shin-A T&C) is applied onto the high refractive index pattern layer so that the engraved lenticular lens pattern can be filled with the UV curable resin, followed by curing, thereby forming a direct formation on the high refractive index pattern layer. An optical film of a low refractive index pattern layer.
將偏光板用的黏合劑(Z-200,日本合成化學公司)塗布到低折射率圖案層的一個表面上,低折射率圖案層又黏合到製造好的偏光器上,隨後固化,由此製造第二偏光板。A polarizing plate adhesive (Z-200, Nippon Synthetic Chemical Co., Ltd.) is applied onto one surface of the low refractive index pattern layer, and the low refractive index pattern layer is bonded to the manufactured polarizer, followed by curing, thereby manufacturing The second polarizing plate.
(2)液晶顯示模組的製造(2) Manufacturing of liquid crystal display module
依次組裝在製備實例1中製造的複合光學薄片、在製備實例3中製造的第一偏光板、液晶面板(PVA模式)和製造好的第二偏光板,由此製造液晶顯示模組。The composite optical sheet manufactured in Preparation Example 1, the first polarizing plate manufactured in Preparation Example 3, the liquid crystal panel (PVA mode), and the manufactured second polarizing plate were assembled in this order, thereby manufacturing a liquid crystal display module.
實例2:液晶顯示模組的製造Example 2: Manufacturing of a liquid crystal display module
(1)第二偏光板的製造(1) Manufacture of the second polarizing plate
偏光器的製造方式與製備實例3中相同。The polarizer was fabricated in the same manner as in Preparation Example 3.
將UV固化樹脂(SSC155,Shin-A T&C)塗布到第二保護層用的透明PET薄膜(SRF,厚度:80微米,550奈米波長下Re=14,000奈米,東洋株式會社(Toyobo Co., Ltd.))的一個表面上以形成塗層。使用上面形成有壓印稜鏡圖案(間距:13微米,高度:10微米,頂角:65.5°,三角形橫截面)的薄膜,在塗層上形成雕刻稜鏡圖案,接著固化,由此形成高折射率圖案層。接著,將UV固化樹脂(SSC140,Shin-A T&C)塗布到高折射率圖案層上,使得雕刻稜鏡圖案可以裝滿UV固化樹脂,接著固化,由此形成在高折射率圖案層上面直接形成低折射率圖案層的光學薄膜。A UV curable resin (SSC155, Shin-A T&C) was applied to a transparent PET film for a second protective layer (SRF, thickness: 80 μm, Re=14000 nm at a wavelength of 550 nm, Toyobo Co., One surface of Ltd.)) to form a coating. Using a film having an embossed enamel pattern (pitch: 13 μm, height: 10 μm, apex angle: 65.5°, triangular cross section) formed thereon, an engraved enamel pattern is formed on the coating, followed by curing, thereby forming a high Refractive index pattern layer. Next, a UV curable resin (SSC140, Shin-A T&C) is applied onto the high refractive index pattern layer so that the engraved enamel pattern can be filled with the UV curable resin, followed by curing, thereby forming a direct formation on the high refractive index pattern layer. An optical film of a low refractive index pattern layer.
將偏光板用的黏合劑(Z-200,日本合成化學公司)塗布到低折射率圖案層的一個表面上,低折射率圖案層又黏合到製造好的偏光器上,隨後固化,由此製造第二偏光板。A polarizing plate adhesive (Z-200, Nippon Synthetic Chemical Co., Ltd.) is applied onto one surface of the low refractive index pattern layer, and the low refractive index pattern layer is bonded to the manufactured polarizer, followed by curing, thereby manufacturing The second polarizing plate.
(2)液晶顯示模組的製造(2) Manufacturing of liquid crystal display module
依次組裝在製備實例1中製造的複合光學薄片、在製備實例3中製造的第一偏光板、液晶面板(PVA模式)和製造好的第二偏光板,由此製造液晶顯示模組。The composite optical sheet manufactured in Preparation Example 1, the first polarizing plate manufactured in Preparation Example 3, the liquid crystal panel (PVA mode), and the manufactured second polarizing plate were assembled in this order, thereby manufacturing a liquid crystal display module.
實例3:液晶顯示模組的製造Example 3: Manufacturing of a liquid crystal display module
偏光器的製造方式與製備實例3中相同。The polarizer was fabricated in the same manner as in Preparation Example 3.
將UV固化樹脂(SSC155,Shin-A T&C)塗布到第二保護層用的透明PET薄膜(SRF,厚度:80微米,550奈米波長下Re=14,000奈米,東洋株式會社(Toyobo Co., Ltd.))的一個表面上以形成塗層。使用上面交替地形成有壓印雙凸透鏡圖案(間距:10微米,高度:10微米)和平坦部分(間距:10微米)的薄膜,在塗層上形成雕刻雙凸透鏡圖案和平坦部分,接著固化,由此形成高折射率圖案層。接著,將UV固化樹脂(SSC143,Shin-A T&C)塗布到高折射率圖案層上,使得雕刻雙凸透鏡圖案可以裝滿UV固化樹脂,接著固化,由此形成在高折射率圖案層上面直接形成低折射率圖案層的光學薄膜。A UV curable resin (SSC155, Shin-A T&C) was applied to a transparent PET film for a second protective layer (SRF, thickness: 80 μm, Re=14000 nm at a wavelength of 550 nm, Toyobo Co., One surface of Ltd.)) to form a coating. An engraved lenticular lens pattern and a flat portion are formed on the coating layer using a film having an embossed lenticular lens pattern (pitch: 10 μm, height: 10 μm) and a flat portion (pitch: 10 μm) alternately formed thereon, followed by curing, Thereby, a high refractive index pattern layer is formed. Next, a UV curable resin (SSC143, Shin-A T&C) is applied onto the high refractive index pattern layer so that the engraved lenticular lens pattern can be filled with the UV curable resin, followed by curing, thereby forming a direct formation on the high refractive index pattern layer. An optical film of a low refractive index pattern layer.
將偏光板用的黏合劑(Z-200,日本合成化學公司)塗布到低折射率圖案層和第三保護膜用的TAC薄膜(KC4DR -1,厚度:40微米,柯尼卡有限公司(Konica Co., Ltd.))中的每一個的一個表面上,低折射率圖案層和TAC薄膜又黏合到製造好的偏光器上,接著固化,由此製造第二偏光板。A polarizing plate adhesive (Z-200, Nippon Synthetic Chemical Co., Ltd.) was applied to a TAC film for a low refractive index pattern layer and a third protective film (KC4DR-1, thickness: 40 μm, Konica Corporation) On one surface of each of Co., Ltd.)), the low refractive index pattern layer and the TAC film are bonded to the fabricated polarizer, followed by curing, thereby fabricating a second polarizing plate.
依次組裝在製備實例1中製造的複合光學薄片、在製備實例3中製造的第一偏光板、液晶面板(PVA模式)和製造好的第二偏光板,由此製造液晶顯示模組。The composite optical sheet manufactured in Preparation Example 1, the first polarizing plate manufactured in Preparation Example 3, the liquid crystal panel (PVA mode), and the manufactured second polarizing plate were assembled in this order, thereby manufacturing a liquid crystal display module.
實例4:液晶顯示模組的製造Example 4: Manufacturing of a liquid crystal display module
偏光器的製造方式與製備實例3中相同。The polarizer was fabricated in the same manner as in Preparation Example 3.
將UV固化樹脂(SSC155,Shin-A T&C)塗布到第二保護層用的透明PET薄膜(SRF,厚度:80微米,550奈米波長下Re=14,000奈米,東洋株式會社(Toyobo Co., Ltd.))的一個表面上以形成塗層。使用上面形成有壓印稜鏡圖案(間距:13微米,高度:10微米,頂角:65.5°,三角形橫截面)的薄膜,在塗層上形成雕刻稜鏡圖案,接著固化,由此形成高折射率圖案層。接著,將UV固化樹脂(SSC143,Shin-A T&C)塗布到高折射率圖案層上,使得雕刻稜鏡圖案可以裝滿UV固化樹脂,接著固化,由此形成在高折射率圖案層上面直接形成低折射率圖案層的光學薄膜。A UV curable resin (SSC155, Shin-A T&C) was applied to a transparent PET film for a second protective layer (SRF, thickness: 80 μm, Re=14000 nm at a wavelength of 550 nm, Toyobo Co., One surface of Ltd.)) to form a coating. Using a film having an embossed enamel pattern (pitch: 13 μm, height: 10 μm, apex angle: 65.5°, triangular cross section) formed thereon, an engraved enamel pattern is formed on the coating, followed by curing, thereby forming a high Refractive index pattern layer. Next, a UV curable resin (SSC143, Shin-A T&C) is applied onto the high refractive index pattern layer so that the engraved enamel pattern can be filled with the UV curable resin, followed by curing, thereby forming a direct formation on the high refractive index pattern layer. An optical film of a low refractive index pattern layer.
將偏光板用的黏合劑(Z-200,日本合成化學公司)塗布到低折射率圖案層和第三保護膜用的TAC薄膜(KC4DR -1,厚度:40微米,柯尼卡有限公司(Konica Co., Ltd.))中的每一個的一個表面上,低折射率圖案層和TAC薄膜又黏合到製造好的偏光器上,接著固化,由此製造第二偏光板。A polarizing plate adhesive (Z-200, Nippon Synthetic Chemical Co., Ltd.) was applied to a TAC film for a low refractive index pattern layer and a third protective film (KC4DR-1, thickness: 40 μm, Konica Corporation) On one surface of each of Co., Ltd.)), the low refractive index pattern layer and the TAC film are bonded to the fabricated polarizer, followed by curing, thereby fabricating a second polarizing plate.
依次組裝在製備實例1中製造的複合光學薄片、在製備實例3中製造的第一偏光板、液晶面板(PVA模式)和製造好的第二偏光板,由此製造液晶顯示模組。The composite optical sheet manufactured in Preparation Example 1, the first polarizing plate manufactured in Preparation Example 3, the liquid crystal panel (PVA mode), and the manufactured second polarizing plate were assembled in this order, thereby manufacturing a liquid crystal display module.
比較例1:液晶顯示模組的製造Comparative Example 1: Manufacturing of a liquid crystal display module
通過如下方式製造第二偏光器:在60℃下將聚乙烯醇薄膜拉伸成其初始長度的三倍,並且將碘吸附到拉伸後的薄膜上,接著在40℃下在硼酸含水溶劑中將所得的薄膜拉伸成薄膜拉伸長度的2.5倍。A second polarizer was fabricated by stretching a polyvinyl alcohol film to three times its original length at 60 ° C, and adsorbing iodine onto the stretched film, followed by an aqueous solution of boric acid at 40 ° C. The resulting film was stretched to 2.5 times the stretched length of the film.
將偏光板用的黏合劑塗覆到第二偏光器的兩個表面上,第二偏光器又被組裝到第二保護層用的透明PET薄膜(SRF,厚度:80微米,550奈米波長下Re=14,000奈米,東洋株式會社)和第三保護膜用的TAC薄膜(KC4DR -1,厚度:40微米,柯尼卡有限公司)上,由此製造偏光板。The adhesive for the polarizing plate is applied to both surfaces of the second polarizer, and the second polarizer is assembled to the transparent PET film for the second protective layer (SRF, thickness: 80 μm, 550 nm wavelength) A polarizing plate was produced by using a TAC film (KC4DR-1, thickness: 40 μm, Konica Co., Ltd.) for a third protective film of Re=14,000 nm, Toyo Co., Ltd.).
依次組裝在製備實例2中製造的複合光學薄片、在製備實例3中製造的第一偏光板、液晶面板(PVA模式)和製造好的偏光板,由此製造液晶顯示模組。The composite optical sheet produced in Preparation Example 2, the first polarizing plate manufactured in Preparation Example 3, the liquid crystal panel (PVA mode), and the manufactured polarizing plate were assembled in this order, thereby manufacturing a liquid crystal display module.
比較例2:液晶顯示模組的製造Comparative Example 2: Manufacturing of a liquid crystal display module
通過如下方式製造第二偏光器:在60℃下將聚乙烯醇薄膜拉伸成其初始長度的三倍,並且將碘吸附到拉伸後的薄膜上,接著在40℃下在硼酸含水溶劑中將所得的薄膜拉伸成薄膜拉伸長度的2.5倍。A second polarizer was fabricated by stretching a polyvinyl alcohol film to three times its original length at 60 ° C, and adsorbing iodine onto the stretched film, followed by an aqueous solution of boric acid at 40 ° C. The resulting film was stretched to 2.5 times the stretched length of the film.
將偏光板用的黏合劑塗覆到第二偏光器的兩個表面上,第二偏光器又被組裝到第二保護層用的透明PET薄膜(SRF,厚度:80微米,550奈米波長下Re=14,000奈米,東洋株式會社)和第三保護膜用的TAC薄膜(KC4DR -1,厚度:40微米,柯尼卡有限公司)上,由此製造偏光板。The adhesive for the polarizing plate is applied to both surfaces of the second polarizer, and the second polarizer is assembled to the transparent PET film for the second protective layer (SRF, thickness: 80 μm, 550 nm wavelength) A polarizing plate was produced by using a TAC film (KC4DR-1, thickness: 40 μm, Konica Co., Ltd.) for a third protective film of Re=14,000 nm, Toyo Co., Ltd.).
依次組裝在製備實例1中製造的複合光學薄片、在製備實例3中製造的第一偏光板、液晶面板(PVA模式)和製造好的偏光板,由此製造液晶顯示模組。The composite optical sheet produced in Preparation Example 1, the first polarizing plate manufactured in Preparation Example 3, the liquid crystal panel (PVA mode), and the manufactured polarizing plate were assembled in this order, thereby manufacturing a liquid crystal display module.
表2中示出了在實例和比較例中製造的液晶顯示模組的示意性配置。A schematic configuration of a liquid crystal display module fabricated in the examples and comparative examples is shown in Table 2.
關於下面的屬性評估了在實例和比較例中製造的液晶顯示模組,表2和圖14中示出了評估結果。The liquid crystal display modules manufactured in the examples and comparative examples were evaluated with respect to the following attributes, and the evaluation results are shown in Table 2 and FIG.
(1)亮度:組裝LED光源、光導板和液晶顯示模組以製造液晶顯示器,所述液晶顯示器的一側包含側光型LED光源(配置與三星LED電視(UN32H5500)相同),區別是在實例和比較例中製造的液晶顯示模組的配置。使用EZ對比度分析儀X88RC(EZXL-176R-F422A4, 艾爾迪姆有限公司(ELDIM Co., Ltd.))測量正面亮度。通過{(實例和比較例的亮度)/(比較例1的亮度)} x 100計算相對亮度。(1) Brightness: The LED light source, the light guide plate and the liquid crystal display module are assembled to manufacture a liquid crystal display, and one side of the liquid crystal display includes a side light type LED light source (the configuration is the same as that of the Samsung LED TV (UN32H5500)), and the difference is in the example. And the configuration of the liquid crystal display module manufactured in the comparative example. The front brightness was measured using an EZ contrast analyzer X88RC (EZXL-176R-F422A4, ELDIM Co., Ltd.). The relative luminance is calculated by {(luminance of the example and comparative example) / (brightness of the comparative example)} x 100.
(2)1/2觀看角度和1/3觀看角度:液晶顯示器的製造方式與評估項1中相同,並且使用EZ對比度分析儀X88RC(EZXL-176R-F422A4, 艾爾迪姆有限公司)測量亮度。1/2觀看角度和1/3觀看角度的意思分別是亮度值變成正面亮度的1/2和1/3的觀看角度。(2) 1/2 viewing angle and 1/3 viewing angle: The liquid crystal display was manufactured in the same manner as in Evaluation 1, and the brightness was measured using an EZ contrast analyzer X88RC (EZXL-176R-F422A4, Eldim Co., Ltd.). . The 1/2 viewing angle and the 1/3 viewing angle mean that the luminance value becomes a viewing angle of 1/2 and 1/3 of the front luminance, respectively.
(3)對比度:液晶顯示器的製造方式與評估項1中相同,並且使用EZ對比度分析儀X88RC(EZXL-176R-F422A4, 艾爾迪姆有限公司)測量球形坐標系(Φ,θ)和對比度。(3) Contrast: The liquid crystal display was manufactured in the same manner as in Evaluation 1, and the spherical coordinate system (Φ, θ) and contrast were measured using an EZ contrast analyzer X88RC (EZXL-176R-F422A4, Eldim Co., Ltd.).
(4)亮度均勻性:通過組裝LED光源、光導板、液晶顯示模組和具有長軸和短軸的螢幕單元來製造液晶顯示器。參看圖13,在包含光源、光導板和液晶顯示模組的液晶顯示器中,在點A、B和C中的每一個處測量亮度,其中顯示螢幕的中心點、左端點和右端點分別通過B、A和C指示,並且獲得最大亮度值(Brightness max)和最小亮度值(Brightness min)。可以通過(Brightness min)/(Brightness max)x 100來計算亮度均勻性。可以通過(Brightness min)/(Brightness max)x 100來計算亮度均勻性。在測量亮度時,將亮度測試儀EZ對比度分析儀X88RC(EZXL-176R-F422A4, 艾爾迪姆有限公司)固定到點B,然後引導成面向點A、B和C中的每一個。(4) Brightness uniformity: A liquid crystal display is manufactured by assembling an LED light source, a light guide plate, a liquid crystal display module, and a screen unit having a long axis and a short axis. Referring to FIG. 13, in a liquid crystal display including a light source, a light guide plate, and a liquid crystal display module, brightness is measured at each of points A, B, and C, wherein the center point, the left end point, and the right end point of the display screen are respectively passed through B. , A and C indicate, and obtain the maximum brightness value (Brightness max) and the minimum brightness value (Brightness min). Brightness uniformity can be calculated by (Brightness min) / (Brightness max) x 100. Brightness uniformity can be calculated by (Brightness min) / (Brightness max) x 100. When measuring the brightness, the brightness tester EZ Contrast Analyzer X88RC (EZXL-176R-F422A4, Eldim Co., Ltd.) was fixed to point B and then guided to face each of points A, B and C.
<表2>
*折射率差:高折射率圖案層的折射率-低折射率圖案層的折射率* Refractive index difference: refractive index of high refractive index pattern layer - refractive index of low refractive index pattern layer
如表2中所示,實例中製造的液晶顯示模組具有高正面亮度,可以通過增加1/2觀看角度和1/3觀看角度來增加側面觀看角度,並且具有高的側面對比度。此外,實例中製造的液晶顯示模組可以增加亮度均勻性,並且不需要因為液晶顯示器尺寸變化而改變,方法是通過使液晶顯示器的螢幕尺寸引起的亮度均勻性變化最小化(如圖14中所展示),由此改善可加工性和經濟可行性。因此,本發明提供的液晶顯示模組能夠增加側面對比度。本發明提供能夠增加側面觀看角度的液晶顯示模組。本發明提供能夠增加亮度均勻性的液晶顯示模組。本發明提供能夠使液晶顯示器螢幕尺寸引起的亮度均勻性變化最小化的液晶顯示模組,由此保證極好的可加工性和經濟可行性。As shown in Table 2, the liquid crystal display module manufactured in the example has high front luminance, and can increase the side viewing angle by increasing the 1/2 viewing angle and the 1/3 viewing angle, and has high side contrast. In addition, the liquid crystal display module manufactured in the example can increase the brightness uniformity and does not need to be changed due to the change of the size of the liquid crystal display by minimizing the change in brightness uniformity caused by the screen size of the liquid crystal display (as shown in FIG. 14). Show), thereby improving processability and economic viability. Therefore, the liquid crystal display module provided by the present invention can increase the side contrast. The present invention provides a liquid crystal display module capable of increasing a side viewing angle. The present invention provides a liquid crystal display module capable of increasing brightness uniformity. The present invention provides a liquid crystal display module capable of minimizing variations in luminance uniformity caused by the screen size of a liquid crystal display, thereby ensuring excellent workability and economic feasibility.
相反,比較例1的液晶顯示模組未利用實例的光學薄膜,它的側面對比度較低和相對亮度較低。In contrast, the liquid crystal display module of Comparative Example 1 did not utilize the optical film of the example, and its side contrast was low and the relative brightness was low.
比較例2的液晶顯示模組未利用實例的光學薄膜,儘管相對亮度較高,它顯現出的觀看角度和對比度改善不明顯。此外,如圖14中所展示,液晶顯示器顯現出亮度均勻性根據液晶顯示器的螢幕尺寸有明顯變化,因而相比於實例中製造的液晶顯示模組可加工性和經濟可行性較低。The liquid crystal display module of Comparative Example 2 did not utilize the optical film of the example, and although the relative brightness was high, the viewing angle and contrast which it exhibited were not significantly improved. Further, as shown in FIG. 14, the liquid crystal display exhibits a brightness uniformity which varies significantly depending on the screen size of the liquid crystal display, and thus is less processable and economically viable than the liquid crystal display module manufactured in the example.
應瞭解,本領域的技術人員可以在不脫離本發明的精神和範圍的情況下作出各種修改、變化、更改以及等效實施例。It will be appreciated that various modifications, changes, variations and equivalents may be made without departing from the spirit and scope of the invention.
1‧‧‧液晶顯示模組1‧‧‧LCD module
2‧‧‧液晶顯示器 2‧‧‧LCD display
10‧‧‧複合光學薄片 10‧‧‧Composite optical sheets
11‧‧‧第一稜鏡圖案 11‧‧‧ First pattern
12‧‧‧第一光學薄片 12‧‧‧First optical sheet
13‧‧‧第二稜鏡圖案 13‧‧‧second pattern
14‧‧‧第二光學薄片 14‧‧‧Second optical sheet
15‧‧‧第一基底薄膜 15‧‧‧First base film
16‧‧‧第二基底薄膜 16‧‧‧Second base film
20‧‧‧第一偏光板 20‧‧‧First polarizer
30‧‧‧液晶面板 30‧‧‧LCD panel
40‧‧‧光源 40‧‧‧Light source
41‧‧‧光源罩 41‧‧‧Light source cover
50‧‧‧反射薄片 50‧‧‧Reflecting foil
60‧‧‧光導板 60‧‧‧Light guide
70‧‧‧漫射薄片 70‧‧‧Diffuse sheet
80‧‧‧液晶顯示模組 80‧‧‧LCD module
90‧‧‧窗口薄膜 90‧‧‧ window film
100‧‧‧第二偏光板 100‧‧‧second polarizer
100'‧‧‧第二偏光板 100'‧‧‧second polarizer
110‧‧‧第二偏光器 110‧‧‧Second polarizer
120‧‧‧光學薄膜 120‧‧‧Optical film
120'‧‧‧光學薄膜 120'‧‧‧Optical film
121‧‧‧低折射率圖案層 121‧‧‧Low-refractive-index pattern layer
122‧‧‧高折射率圖案層 122‧‧‧High refractive index pattern layer
122'‧‧‧高折射率圖案層 122'‧‧‧High refractive index pattern layer
123‧‧‧第二平面 123‧‧‧ second plane
124‧‧‧第一平面 124‧‧‧ first plane
125‧‧‧填充圖案 125‧‧‧fill pattern
126‧‧‧平坦部分 126‧‧‧flat part
127‧‧‧雕刻圖案 127‧‧‧ carving pattern
130‧‧‧第二保護層 130‧‧‧Second protective layer
140‧‧‧光學薄膜 140‧‧‧Optical film
141‧‧‧低折射率圖案層 141‧‧‧Low-refractive-index pattern layer
142‧‧‧高折射率圖案層 142‧‧‧High refractive index pattern layer
143‧‧‧填充圖案 143‧‧‧fill pattern
144‧‧‧雕刻稜鏡圖案 144‧‧‧ Engraving pattern
150‧‧‧光學薄膜 150‧‧‧Optical film
151‧‧‧低折射率圖案層 151‧‧‧Low-refractive-index pattern layer
152‧‧‧高折射率圖案層 152‧‧‧High refractive index pattern layer
153‧‧‧雕刻圖案 153‧‧‧ carving pattern
154‧‧‧平坦部分 154‧‧‧flat part
155‧‧‧曲面 155‧‧‧ Surface
156‧‧‧填充圖案 156‧‧‧fill pattern
160‧‧‧光學薄膜 160‧‧‧Optical film
161‧‧‧低折射率圖案層 161‧‧‧Low-refractive-index pattern layer
170‧‧‧第三保護層 170‧‧‧ third protective layer
200‧‧‧第二偏光板 200‧‧‧second polarizer
300‧‧‧第二偏光板 300‧‧‧second polarizer
400‧‧‧第二偏光板 400‧‧‧second polarizer
500‧‧‧第二偏光板 500‧‧‧second polarizer
600‧‧‧第二偏光板 600‧‧‧second polarizer
A‧‧‧顯示螢幕左端點 A‧‧‧Display left endpoint of the screen
B‧‧‧顯示螢幕中心點 B‧‧‧Show screen center point
C‧‧‧顯示螢幕右端點 C‧‧‧Display screen right endpoint
A1、A2‧‧‧高寬比A 1 , A 2 ‧ ‧ aspect ratio
H1、H2、H3、H5‧‧‧高度 H1, H2, H3, H5‧‧‧ height
P3、P4、P5‧‧‧間距 P3, P4, P5‧‧‧ spacing
α、β、g‧‧‧頂角 α, β, g‧‧‧ vertices
圖1是根據本發明的一個實施例的液晶顯示模組的示意性橫截面圖。 圖2是圖1中所示的液晶顯示模組的第二偏光板的橫截面圖。 圖3是圖2中所示的液晶顯示模組的光學薄膜的部分分解透視圖。 圖4是根據本發明的另一個實施例的液晶顯示模組的第二偏光板的橫截面圖。 圖5是根據本發明的另一實施例的液晶顯示模組的第二偏光板的橫截面圖。 圖6是根據本發明的又一實施例的液晶顯示模組的第二偏光板的橫截面圖。 圖7是根據本發明的又一實施例的液晶顯示模組的第二偏光板的橫截面圖。 圖8是根據本發明的又一實施例的液晶顯示模組的第二偏光板的橫截面圖。 圖9是根據本發明的又一實施例的液晶顯示模組的第二偏光板的橫截面圖。 圖10是根據本發明的又一實施例的液晶顯示模組的複合光學薄片的透視圖。 圖11是根據本發明的一個實施例的液晶顯示器的透視圖。 圖12是出射角的概念圖。 圖13是亮度均勻性測量時的顯示螢幕的圖。 圖14是描繪亮度均勻性的曲線圖。1 is a schematic cross-sectional view of a liquid crystal display module in accordance with an embodiment of the present invention. 2 is a cross-sectional view of a second polarizing plate of the liquid crystal display module shown in FIG. 1. 3 is a partially exploded perspective view of the optical film of the liquid crystal display module shown in FIG. 2. 4 is a cross-sectional view of a second polarizing plate of a liquid crystal display module in accordance with another embodiment of the present invention. FIG. 5 is a cross-sectional view of a second polarizing plate of a liquid crystal display module according to another embodiment of the present invention. 6 is a cross-sectional view of a second polarizing plate of a liquid crystal display module in accordance with still another embodiment of the present invention. 7 is a cross-sectional view of a second polarizing plate of a liquid crystal display module in accordance with still another embodiment of the present invention. 8 is a cross-sectional view of a second polarizing plate of a liquid crystal display module in accordance with still another embodiment of the present invention. 9 is a cross-sectional view of a second polarizing plate of a liquid crystal display module in accordance with still another embodiment of the present invention. Figure 10 is a perspective view of a composite optical sheet of a liquid crystal display module in accordance with still another embodiment of the present invention. Figure 11 is a perspective view of a liquid crystal display in accordance with one embodiment of the present invention. Figure 12 is a conceptual diagram of the exit angle. Fig. 13 is a view showing a display screen at the time of luminance uniformity measurement. Figure 14 is a graph depicting brightness uniformity.
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KR102364573B1 (en) | 2018-02-28 | 2022-02-18 | 주식회사 엘지화학 | Film for compensating viewing angle, polarizing plate comprising the same and display device comprising the same |
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