M283738 以形成該抗眩層(40,);而上述之抗反射層(60,)則由低折射率之 樹脂所組成。 在習知技藝中,形成抗眩抗反射膜中,必須經過二次或甚 至更多次的塗佈製程方可達到抗眩與抗反射之目的;但由於此 一多次塗佈的形成方法較為繁複,容易造成良率降低,此外, 經過多次塗佈的抗眩抗反射膜在厚度上會大幅提升。 因此’有鐘於習知技藝中,抗眩抗反射膜的各種缺失,如 何提供=種結構簡單卻能達成抗眩與抗反射功能,並且能提高 產品良率、降低製程因難度的抗眩抗反射膜已成一項刻不容缓 的研究課題。 【新型内容】 本創作的主要目的係提供一種抗眩抗反射膜,以將抗眩膜 内、外部的光線擴散,使目視時不致感到刺眼,增加可視性。 本創作的另一目的係提供一種抗眩抗反射膜,以使其具有 低反射的效果,並僅需一次的塗佈步驟。 根據本創作所提供之抗眩抗反射膜,可應用於偏光板及顯 不裝置,且該抗眩抗反射膜包括有透光樹脂層、複數個第一透 光微粒及複數個第二透光微粒,並藉由將此抗眩抗反射膜設置 一底材表面,而能夠使透過該底材射出的光線與入射至該底材 之光線,得以被該抗眩抗反射膜擴散,使得使用者在目視時不 會感到刺眼,增加可視性。 、在將該抗眩抗反膜設置於該底材前,須先將該透光樹脂、 複數個第一透光微粒與第二透光微粒均勻混合在一起,使第一 透光微粒與第二透光微粒均勻分散在該透光樹脂中,以致在該 抗眩抗反射膜設置在該底材時,可有效降低該抗眩抗反射膜的 粗糙度及表面微粒分佈不均的現象。 M283738 盘2述一透光微粒均勻散佈於該透光樹脂層之表面 : 透光微粒的添加造成該透光樹脂層的折射 靥肉二,立:第二透光微粒之-部份亦散佈於該透光樹脂 二#二# 卩伤則有部份體積外露於該透光樹脂層,其折射 率與《光奶旨層相異,且其_大於第—透光微粒。 、疋以>’、田外部光線入射該抗眩抗反射膜時,因第一透光微 粒添加於該透光樹脂層而造成的低折射率,錢成抗反射之效 果’而增加衫像清晰度;當内部光線經底材至抗眩膜時,因第 -透^微粒與透光樹脂層的折射率相異,所以光線會被擴散而 達成抗眩之效果,能增加可視性。並可藉由一次塗佈,即能形 成此抗眩抗反射膜之結構。 —#為使熟悉該項技藝人士瞭解本創作之目的、特徵及功效, 茲藉由下述具體實施例,並配合所附之圖式,對本創作詳加說 明如后: 【實施方式】M283738 is used to form the anti-glare layer (40,); the above-mentioned anti-reflection layer (60,) is composed of a resin with a low refractive index. In the conventional art, in the formation of an anti-glare anti-reflection film, two or even more coating processes must be performed to achieve the purpose of anti-glare and anti-reflection; Complex, it is easy to reduce the yield. In addition, the thickness of the anti-glare anti-reflection film after multiple coatings is greatly increased. Therefore, in the conventional technique, how to provide various anti-glare and anti-reflection films, how to provide = anti-glare and anti-reflection functions with simple structure, which can improve product yield and reduce process difficulty. Reflective film has become an urgent research topic. [New content] The main purpose of this creation is to provide an anti-glare anti-reflection film to diffuse the light inside and outside of the anti-glare film, so that it does not feel glare when viewed, and increases visibility. Another object of this creation is to provide an anti-glare anti-reflection film so that it has a low reflection effect, and requires only one coating step. The anti-glare anti-reflection film provided according to this creation can be applied to polarizing plates and display devices, and the anti-glare anti-reflection film includes a light-transmitting resin layer, a plurality of first light-transmitting particles, and a plurality of second light-transmitting Particles, and by setting the anti-glare anti-reflection film on a substrate surface, the light emitted through the substrate and the light incident on the substrate can be diffused by the anti-glare anti-reflection film, so that the user It does not feel dazzling when you look at it, increasing visibility. Before disposing the anti-glare and anti-reflection film on the substrate, the light-transmitting resin, the plurality of first light-transmitting particles and the second light-transmitting particles must be uniformly mixed together, so that the first light-transmitting particles and the first Two light-transmitting particles are uniformly dispersed in the light-transmitting resin, so that when the anti-glare anti-reflection film is disposed on the substrate, the roughness of the anti-glare anti-reflection film and uneven distribution of surface particles can be effectively reduced. M283738 Disk 2 describes that a light-transmitting particle is uniformly dispersed on the surface of the light-transmitting resin layer: the addition of light-transmitting particles causes refraction of the light-transmitting resin layer. The light-transmitting resin II # 二 # sting is partially exposed to the light-transmitting resin layer, and its refractive index is different from that of the light-milk purpose layer, and its _ is larger than the first-light-transmitting particles. "疋" When the external light from the field enters the anti-glare anti-reflection film, the low refractive index caused by the addition of the first light-transmitting particles to the light-transmitting resin layer, and the effect of anti-reflection of money, increase the shirt image. Clarity; when the internal light passes through the substrate to the anti-glare film, the refractive index of the -transparent particles and the transparent resin layer are different, so the light will be diffused to achieve the anti-glare effect and increase visibility. The structure of this anti-glare anti-reflection film can be formed by one coating. — # In order to familiarize those skilled in the art with the purpose, characteristics and effects of this creation, hereby use the following specific embodiments and the accompanying drawings to explain this creation in detail as follows: [Implementation Mode]
請參閱第2圖,根據本創作所揭露的抗眩抗反射膜係用 以防止目視時之眩光。該抗眩抗反射膜(1)包括有透光樹脂層 (10)、複數個第一透光微粒(12)及複數個第二透光微粒(14),使 用上是將該抗眩抗反射膜(1)塗佈於一底材(2)的一表面,以使透 過底材(2)射出的光線與入射至底材(2)的光線得以被該抗眩抗 反射膜(1)擴散,而使得使用者在目視時不致感到刺眼,而增加 可視性’並同時具有降低反射率的效果。此抗眩抗反射膜(!), 厚度較佳地是介於6〜10微米。 該透光樹脂層(10)係由一種光固化樹脂組成,其光線穿透性 佳,將其與第一透光微粒(12)及第二透光微粒(14),均勻混合塗 佈至底材(2)後,再藉由光固化反應將該透光樹脂層(1〇)硬化, 並固定該第一透光微粒(12)及該第二透光微粒(14)的位置。在本 M283738 實施例中,較佳地係使用壓克力樹脂。 該第一透光微粒(12)均勻散佈於該透光樹脂層(1〇)内,其添 加可造成該透光樹脂層(10)的折射率下降,在本實例中,該第一 透光微粒(12)係使用矽化物(Siiica),較佳地係使用表面已由含氟 石夕烧偶聯劑修飾過之石夕化物,或表面已由具壓克力官能基之石夕 烷偶聯劑修飾過的矽化物,其粒徑小於1微米,並可造成該透 光樹脂層(10)的折射率介於1.3〜;L45間。Please refer to Figure 2. The anti-glare anti-reflection film disclosed in this creation is used to prevent glare when viewed. The anti-glare anti-reflection film (1) includes a light-transmitting resin layer (10), a plurality of first light-transmitting particles (12), and a plurality of second light-transmitting particles (14). The film (1) is coated on a surface of a substrate (2), so that light emitted through the substrate (2) and light incident on the substrate (2) can be diffused by the anti-glare anti-reflection film (1). , So that the user does not feel glare when looking at the eyes, and increases the visibility, and at the same time has the effect of reducing the reflectance. The thickness of the anti-glare anti-reflection film (!) Is preferably between 6 and 10 microns. The light-transmitting resin layer (10) is composed of a light-curing resin, which has good light penetrability. It is uniformly mixed and coated with the first light-transmitting particles (12) and the second light-transmitting particles (14) to the bottom. After the material (2), the light-transmitting resin layer (10) is hardened by a photo-curing reaction, and the positions of the first light-transmitting particles (12) and the second light-transmitting particles (14) are fixed. In this embodiment of M283738, acrylic resin is preferably used. The first light-transmitting particles (12) are evenly dispersed in the light-transmitting resin layer (10), and the addition thereof may cause the refractive index of the light-transmitting resin layer (10) to decrease. In this example, the first light-transmitting particles The microparticle (12) is a silicon compound (Siiica), preferably a silicon compound having a surface modified with a fluorite-containing coupling agent, or a surface having an acrylic functional group. The silicide-modified silicide has a particle size of less than 1 micron, and can cause the refractive index of the transparent resin layer (10) to be between 1.3 and L45.
該第二透光微粒(14)其折射率相異於該透光樹脂層(1〇),且 粒徑大於該第一透光微粒(12),而該複數個第二透光微粒之一部 份散佈於該透光樹脂層内部,另一部份則有部份體積外露於該 透光樹脂層。於本實施例,該第二透光微粒(14)之折射率介於 1·4〜1·6,粒徑介於1〜5微米,且其材質較佳地可為聚甲基丙烯 酸曱酯(ΡΜΜΑ)或矽化物(silica)。 該底材(2)為一透光材質,本實例中,材質較佳地包含三醋 酸纖維素(triacetyl cellulose; TAC)、聚苯二曱酸乙烯酯 (polyethylene terephthalate; PET)、環烯烴共聚物(cyclic olefin copolymer)、環浠烴聚合物(CyCHc olefin polymer)、聚石炭酸醋 (polycarbonate),或是其他透明材質。上述之抗眩抗反射膜⑴ 僅需一次的塗佈步驟即可形成,不需多次塗佈。 第3圖為抗眩抗反射膜之另一較佳實施例的示意圖。第3 圖與弟2圖不同之處在於該抗眩抗反射膜(1)與底材(2)之間更可 增設一硬膜膠(3),可用來增加該抗眩抗反射膜(1)之硬度,更佳 地可使用抗靜電之硬膜膠(3)以避免灰塵之吸附。較佳地,該硬 膜膠(3)厚度介於6〜8微米,而該抗眩抗反射膜(1)之厚度介於 2〜4微米。 是以,當外部光線入射該抗眩抗反射膜(1)時,因第一透光 微粒(12)添加於該透光樹脂層(10)而造成的低折射率,能達成抗 反射之效果,而增加影像清晰度;當内部光線經底材(2)至該抗 M283738 眩抗反射膜(1)時,因第二透光微粒(14)粒徑較大,可造成表面 粗糙,所以光線會被擴散而達成抗眩之效果,能增加可視性。 請參閱第4圖所示,係將上述之抗眩抗反射膜Q)應用於上 偏光板(4)之示意圖。該上偏光板(4)包括有一偏光元件(42)、第 一透明基材(44a)及第二透明基材(44b)。該偏光元件(42)之相對 表面分別貼合該第一逶明基材(44a)與該第二透明基材(44b),而 該抗眩抗反射膜(1)則塗佈於第一透明基材(44a)之另一表面。The second light-transmitting particles (14) have a refractive index different from that of the light-transmitting resin layer (10), and the particle size is larger than the first light-transmitting particles (12), and one of the plurality of second light-transmitting particles A part is scattered inside the light-transmitting resin layer, and another part is partially exposed to the light-transmitting resin layer. In this embodiment, the refractive index of the second light-transmitting particles (14) is between 1.4 and 1.6, and the particle size is between 1 and 5 microns, and the material is preferably polymethylmethacrylate. (PMMA) or silica. The substrate (2) is a light-transmissive material. In this example, the material preferably includes triacetyl cellulose (TAC), polyethylene terephthalate (PET), and cycloolefin copolymer. (Cyclic olefin copolymer), CyCHc olefin polymer, polycarbonate, or other transparent materials. The above-mentioned anti-glare anti-reflection film 形成 can be formed with only one coating step, and does not need to be coated multiple times. FIG. 3 is a schematic diagram of another preferred embodiment of an anti-glare anti-reflection film. The difference between Figure 3 and Figure 2 is that a hard film adhesive (3) can be added between the anti-glare anti-reflection film (1) and the substrate (2), which can be used to increase the anti-glare anti-reflection film (1). ), It is better to use antistatic hard film adhesive (3) to avoid dust adsorption. Preferably, the thickness of the hard film adhesive (3) is between 6 and 8 microns, and the thickness of the anti-glare anti-reflection film (1) is between 2 and 4 microns. Therefore, when external light enters the anti-glare anti-reflection film (1), the low refractive index caused by the first light-transmitting particles (12) added to the light-transmitting resin layer (10) can achieve the effect of anti-reflection. When the internal light passes through the substrate (2) to the anti-M283738 anti-glare anti-reflection film (1), the larger diameter of the second light-transmitting particles (14) can cause the surface to be rough, so the light Will be diffused to achieve anti-glare effect, which can increase visibility. Please refer to FIG. 4, which is a schematic diagram of applying the above-mentioned anti-glare anti-reflection film Q) to the upper polarizing plate (4). The upper polarizing plate (4) includes a polarizing element (42), a first transparent substrate (44a), and a second transparent substrate (44b). The opposite surfaces of the polarizing element (42) are respectively adhered to the first transparent substrate (44a) and the second transparent substrate (44b), and the anti-glare anti-reflection film (1) is coated on the first transparent substrate. Surface of the wood (44a).
其中’该偏光元件(42)的材質可為聚乙稀醇& 〇lyVinyl alcohol; PVA),第一、第二透明基材(44a、44b)的材質可為三醋 酸纖維素(triacetyl cellulose)、聚苯二曱酸乙烯酯(p〇lyethylene terephthalate; PET)、環烯烴共聚物(CyCHc 〇iefln copolymer)、環 烯fe聚合物(cyclic olefin polymer)、聚碳酸醋(polycarbonate), 或是其他透明材質。 同於前述,該抗眩抗反射膜(1)包括有透光樹脂層(1〇)、第 一透光微粒(12)及第二透光微粒(14),能使得目視者在目視時不 致感到刺眼,而增加可視性,並同時具有降低反射率的效果。 此抗眩抗反射膜(1),厚度較佳地是介於6〜10微米。 該透光樹脂層(10)係由一種光固化樹脂組成,其光線穿透性 佳,將其與第一透光微粒(12)及第二透光微粒(14),均勻混合塗 佈至該上偏光板(4)後,再藉由光固化反應將該透光樹脂層(1〇) 硬化,並固定該第一透光微粒(12)及該第二透光微粒(14)的位 置。在本實施例中,較佳地係使用壓克力樹脂。 該第一透光微粒(12)均勻散佈於該透光樹脂層(10)内,其添 加可造成該透光樹脂層(10)的折射率下降,在本實例中,該第一 透光微粒(12)係使用矽化物(silica),較佳地係使用表面已由含氟 矽烷偶聯劑修飾過之矽化物,或表面已由具壓克力官能基之矽 烧偶聯劑修飾過的矽化物,其粒徑小於1微米,並可造成該透 光樹脂層(10)的折射率介於1·3〜1.45間。Wherein, the material of the polarizing element (42) may be polyvinyl alcohol (PVA), and the material of the first and second transparent substrates (44a, 44b) may be triacetyl cellulose. , Polyethylene terephthalate (PET), cyclic olefin copolymer (CyCHc oefln copolymer), cyclic olefin polymer (cyclic olefin polymer), polycarbonate (polycarbonate), or other transparent Material. As described above, the anti-glare and anti-reflection film (1) includes a light-transmitting resin layer (10), first light-transmitting particles (12), and second light-transmitting particles (14), which can prevent a viewer from seeing the light. It is dazzling, which increases the visibility and has the effect of reducing the reflectivity. The thickness of the anti-glare anti-reflection film (1) is preferably between 6 and 10 microns. The light-transmitting resin layer (10) is composed of a light-curing resin, which has good light penetrability. The light-transmitting resin layer (10) is uniformly mixed and coated with the first light-transmitting particles (12) and the second light-transmitting particles (14). After the polarizing plate (4) is mounted, the light-transmitting resin layer (10) is hardened by a photo-curing reaction, and the positions of the first light-transmitting particles (12) and the second light-transmitting particles (14) are fixed. In this embodiment, acrylic resin is preferably used. The first light-transmitting particles (12) are evenly dispersed in the light-transmitting resin layer (10), and the addition thereof may cause the refractive index of the light-transmitting resin layer (10) to decrease. In this example, the first light-transmitting particles (12) Silica is used, preferably a silicide whose surface has been modified with a fluorine-containing silane coupling agent, or whose surface has been modified with a silicic coupling agent having an acrylic functional group. The silicide has a particle size of less than 1 micron, and can cause the refractive index of the transparent resin layer (10) to be between 1.3 and 1.45.
M283738 "该第二透光微粒(14)其折射率相異於該透光樹脂層(1〇),且 粒徑大,該第一透光微粒(12),該複數個第二透光微粒之一部份 散7於該透光樹脂層内部,另一部份則有部份體積外露於該透 光,脂層,可造成表面粗糙,達到抗眩的效果,於本實施例, 該第二透光微粒(14)之折射率介於m 6,粒徑介於ι〜5微米, 且其材質較佳地可為聚曱基丙烯酸曱酯(PMMA)或矽化物 (silica) 〇 當然’該抗眩抗反射膜(1)與該第一透明基材(44&)之間更可 增設一硬膜膠(3),可用來增加該抗眩抗反射膜(丨)之硬度,更佳 地1使用抗靜電之硬膜膠(3)以避免灰塵之吸附。較佳地,該硬 膜膠(3)厚度介於6〜8微米,而該抗眩抗反射膜(丨)之厚度介於 2〜4微米。 請參閱第5圖所示,係將上述抗眩抗反射膜(1)應用於顯示 裝置(8) ’该顯示裝置(8)包括有一液晶面板(6)及一背光模組 (7)。該液晶面板(6)包括有一液晶層(5)、一上偏光板(4)與一下 偏光板(4’),該液晶層(5)被該上偏光板(4)與該下偏光板(4,)夾 置’該上偏光板(4)塗佈有一層前述之抗眩抗反射膜(1),且該背 光模組(7)係設置於靠近該下偏光板(4,)之一側。其中,該上、下 偏光板(4、4,)(請參閱第3圖)各自包括有一偏光元件(42)、第一 透明基材(44a)、第二透明基材(44b)。該偏光元件(42)之相對表 面分別貼合該第一逶明基材(44a)與該第二透明基材(44b)。而該 抗眩抗反射膜(1)則塗佈於該上偏光板(4)的第一透明基材(44a) 之另一表面。 同於前述,該偏光元件(42)的材質可為聚乙烯醇(polyvinyl alcohol; PVA),第一、第二透明基材(44a、44b)的材質可為三醋 酸纖維素(triacetyl cellulose)、聚苯二曱酸乙烯酯(polyethylene terephthalate; PET)、環烯烴共聚物(cyclic olefin copolymer)、環 烯烴聚合物(cyclic olefin polymer)、聚碳酸醋(polycarbonate), 或是其他透明材質。M283738 " The second light-transmitting particles (14) have a refractive index different from that of the light-transmitting resin layer (10) and have a large particle diameter. The first light-transmitting particles (12) and the plurality of second light-transmitting particles One part of the particles is scattered inside the light-transmitting resin layer, and the other part is partially exposed to the light-transmitting, fat layer, which can cause rough surface and achieve anti-glare effect. In this embodiment, the The refractive index of the second light-transmitting particles (14) is between m 6 and the particle size is between ι and 5 μm, and the material thereof may preferably be polymethyl acrylate (PMMA) or silicon (silica). Of course 'A hard film adhesive (3) can be added between the anti-glare anti-reflection film (1) and the first transparent substrate (44 &), which can be used to increase the hardness of the anti-glare anti-reflection film (丨), and more Jiadi 1 uses antistatic hard film adhesive (3) to avoid dust adsorption. Preferably, the thickness of the hard film adhesive (3) is between 6 and 8 microns, and the thickness of the anti-glare anti-reflection film (丨) is between 2 and 4 microns. Please refer to FIG. 5, the above-mentioned anti-glare anti-reflection film (1) is applied to a display device (8). The display device (8) includes a liquid crystal panel (6) and a backlight module (7). The liquid crystal panel (6) includes a liquid crystal layer (5), an upper polarizing plate (4) and a lower polarizing plate (4 '). The liquid crystal layer (5) is covered by the upper polarizing plate (4) and the lower polarizing plate ( 4. ”The upper polarizing plate (4) is sandwiched with a layer of the aforementioned anti-glare anti-reflection film (1), and the backlight module (7) is disposed near one of the lower polarizing plates (4,). side. The upper and lower polarizing plates (4, 4,) (see FIG. 3) each include a polarizing element (42), a first transparent substrate (44a), and a second transparent substrate (44b). The opposite surfaces of the polarizing element (42) are respectively adhered to the first transparent substrate (44a) and the second transparent substrate (44b). The anti-glare anti-reflection film (1) is coated on the other surface of the first transparent substrate (44a) of the upper polarizing plate (4). As mentioned above, the material of the polarizing element (42) may be polyvinyl alcohol (PVA), and the material of the first and second transparent substrates (44a, 44b) may be triacetyl cellulose, Polyethylene terephthalate (PET), cyclic olefin copolymer, cyclic olefin polymer, polycarbonate, or other transparent materials.
M283738 同於前述,該抗眩抗反射膜包括有透光樹脂層(10)、第 一透光微粒(12)及第二透光微粒(14),能使得目視者在目視時不 致感到刺眼,而增加可視性,並同時具有降低反射率的效果。 此抗眩抗反射膜(1),厚度較佳地是介於6〜10微米。 該透光樹脂層(10)係由一種光固化樹脂組成,其光線穿透性 佳,將其與第一透光微粒(12)及第二透光微粒(14),均勻混合塗 佈至該上偏光板(4)後,再藉由光固化反應將該透光樹脂層(1〇) 硬化’並固定該第一透光微粒(12)及該第二透光微粒(i句的位 置。在本實施例中,較佳地係使用壓克力樹脂。 該第一透光微粒(12)均勻散佈於該透光樹脂層(10)内,其添 加可造成該透光樹脂層(1〇)的折射率下降,在本實例中,該第一 透光微粒(12)係使用矽化物(siiica),較佳地係使用表面已由含氟 石夕炫偶聯劑修飾過之矽化物,或表面已由具壓克力官能基之矽 烧偶聯劑修飾過的矽化物,其粒徑小於丨微米,並可造成該透 光樹脂層(10)的折射率介於1.3〜ι·45間。 該第一透光微粒(14)粒徑大於該第一透光微粒(12),且該複 數個第二透光微粒之一部份散佈於該透光樹脂層内部,另一部 份則有部份體積外露於該透光樹脂層,可造成表面粗糙,達到 抗眩的效果,於本實施例,該第二透光微粒句之折射率介於 1.4〜1.6,粒徑介於1〜5微米,且其材質較佳地可為聚曱基丙烯 酸甲醋(PMMA)或石夕化物(siHca)。 當然,该抗眩抗反射膜(1)與該上偏光板(4)之間更可增設一 硬膜膠(3),可用來增加該抗眩抗反射膜(1)之硬度,更佳地可使 用抗靜電之硬膜膠(3)以避免灰塵之吸附。較佳地,該硬膜膠(3) 尽度’I於6〜8微米,而該抗眩抗反射膜(1)之厚度介於2〜*微米。 是以,本創作係提供有關於一種抗眩抗反射膜,能有效減 少顯示裝置之眩光與反射光,並可以較簡單的步驟形成該膜, 因此本創作極具進步性及符合申請創作專利之要件,爰依法提 11M283738 is the same as above, the anti-glare anti-reflection film includes a light-transmitting resin layer (10), first light-transmitting particles (12), and second light-transmitting particles (14), which can prevent a viewer from feeling glare when viewing, While increasing visibility, it also has the effect of reducing the reflectivity. The thickness of the anti-glare anti-reflection film (1) is preferably between 6 and 10 microns. The light-transmitting resin layer (10) is composed of a light-curing resin, which has good light penetrability. The light-transmitting resin layer (10) is uniformly mixed and coated with the first light-transmitting particles (12) and the second light-transmitting particles (14). After the polarizing plate (4) is mounted, the light-transmitting resin layer (10) is hardened by a light curing reaction, and the positions of the first light-transmitting particles (12) and the second light-transmitting particles (i sentence) are fixed. In this embodiment, acrylic resin is preferably used. The first light-transmitting particles (12) are uniformly dispersed in the light-transmitting resin layer (10), and the addition thereof may cause the light-transmitting resin layer (10). ), The refractive index decreases. In this example, the first light-transmitting fine particle (12) is a silicide (siiica), preferably a silicide whose surface has been modified with a fluorite-containing coupling agent. Or the silicide whose surface has been modified with a silicon-fired coupling agent with an acrylic functional group, the particle size is smaller than 丨 micron, and can cause the refractive index of the transparent resin layer (10) to be between 1.3 and 45. The particle size of the first light-transmitting particles (14) is larger than that of the first light-transmitting particles (12), and a part of the plurality of second light-transmitting particles is dispersed in the light-transmitting portion. Inside the resin layer, another part of the volume is exposed to the transparent resin layer, which can cause the surface to be rough and achieve an anti-glare effect. In this embodiment, the refractive index of the second light-transmitting particle sentence is between 1.4 ~ 1.6, the particle size is between 1 ~ 5 microns, and the material thereof may preferably be polymethyl acrylic acid vinegar (PMMA) or stone compound (siHca). Of course, the anti-glare anti-reflection film (1) and the A hard coat glue (3) can be added between the upper polarizing plates (4), which can be used to increase the hardness of the anti-glare anti-reflection film (1). It is better to use an antistatic hard coat glue (3) to avoid Adsorption of dust. Preferably, the hard film adhesive (3) is as high as 6 to 8 microns, and the thickness of the anti-glare anti-reflection film (1) is between 2 to * microns. Therefore, this creative department Provided is an anti-glare anti-reflection film, which can effectively reduce the glare and reflected light of a display device, and can form the film in relatively simple steps. Therefore, this creation is very progressive and meets the requirements for applying for a patent for creation.
M283738 出申請,祈鈞局早日賜准專利,實感德便。 以上已將本創作做一詳細說明,惟以上所述者,僅為本創 作之一較佳實施例而已,當不能限定本創作實施之範圍。即凡 依本創作申請範圍所作之均等變化與修飾等,皆應仍屬本創作 之專利涵蓋範圍内。 【圖式簡單說明】 第1圖為一根據習知技藝之抗眩抗反膜的示意圖; 第2圖為一根據本發明之抗眩抗反射膜的示意圖; 第3圖為抗眩抗反射膜之另一較佳實施例的示意圖; 第4圖為抗眩抗反射膜應用於偏光板的示意圖; 第5圖為抗眩抗反射膜應用顯示裝置的示意圖。 【主要元件符號說明】 20, 底材 409 抗眩層 4029 複數個粒子 60, 抗反射層 1 抗眩抗反射膜 10 透光樹脂層 12 第一透光微粒 14 第二透光微粒 2 底材 12 M283738 3 硬膜膠 4 上偏光板 4, 下偏光板 42 偏光元件 44a 第一透明基材 44b 第二透明基材 5 液晶層 6 液晶面板 7 背光模組 顯示裝置 8M283738 filed an application, and prayed that the Bureau could grant a quasi-patent at an early date, and it was really moral. The above has described the creation in detail, but the above is only a preferred embodiment of the creation, and the scope of implementation of the creation cannot be limited. That is to say, all equal changes and modifications made in accordance with the scope of this application for creation shall still be covered by the patent for this creation. [Brief description of the drawings] FIG. 1 is a schematic diagram of an anti-glare anti-reflection film according to the conventional art; FIG. 2 is a schematic diagram of an anti-glare anti-reflection film according to the present invention; and FIG. 3 is an anti-glare anti-reflection film A schematic diagram of another preferred embodiment; FIG. 4 is a schematic diagram of an anti-glare anti-reflection film applied to a polarizing plate; and FIG. 5 is a schematic diagram of an anti-glare anti-reflection film applied to a display device. [Description of main component symbols] 20, substrate 409 anti-glare layer 4029, a plurality of particles 60, anti-reflection layer 1 anti-glare anti-reflection film 10 light-transmitting resin layer 12 first light-transmitting particles 14 second light-transmitting particles 2 substrate 12 M283738 3 Hard film adhesive 4 Upper polarizing plate 4, Lower polarizing plate 42 Polarizing element 44a First transparent substrate 44b Second transparent substrate 5 Liquid crystal layer 6 Liquid crystal panel 7 Backlight module display device 8