200523566 玖、發明說明 【發明所屬之技術領域】 本發明是有關於一種光學薄板的包裝,且特別是有關 於一種具有膠合層之光學薄板的包裝組合與包裝方法。 【先前技術】 液晶顯示器具有高畫質、體積小、重量輕、低電壓驅 動、低消耗功率及應用範圍廣等優點。因此被廣泛應用於 中、小型可攜式電視、行動電話、攝錄放影機、筆記型電 腦、桌上型顯示器、以及投影電視等消費性電子或電腦產 品’並已逐漸取代陰極射線管(cath〇de ray tube,CRT)成 為顯示器的主流。 液晶顯示器之基本原理係先在液晶晝素之液晶層兩 側各配置一偏光板,再以電場控制液晶層中液晶分子的排 列方向,即可配合偏光板來控制該液晶畫素之光線的穿透 程度。因此,對於液晶顯示器而言,偏光板為一重要且關 鍵的組成元件,也就是說,偏光板本身之品質實與液晶顯 不斋之畫面品質息息相關。 一般來說,液晶顯示器之製造商可視規格或價格需 要,向偏光板製造商採購不同的偏光板作為配置於液晶面 板之用。換言之,偏光板通常係先由偏光板製造商製造完 成後,而後再運送至液晶顯示器製造商以供另行將其貼合 於液晶面板之兩側。 然而’由於偏光板為一精細的光學薄板,很容易因碰 200523566 撞或被如空氣中的微塵等污染而遭到破壞。因此,在運送 偏光板之前必須先將其加以包裝來保護,使偏光板能夠免 於損傷並防止被外界環境所污染。再者,偏光板係由多層 光學層膠合而組成,若沒有使用特殊的包裝或是方法處 理,單純以一普通的包裝物包裝偏光板時,則此包裝物很 可能會因接觸摩擦而帶出偏光板内含的膠合層材料,反而 污染到偏光板之表面。 第1A圖係繪示偏光板的一種傳統包裝方式,第1B 圖則為弟1A圖之傳統包裝方式的流程圖。請參照第1 a 圖與第1B圖,在習知技術中,偏光板1 〇2係先被兩片離 形紙(release film)l 12與114十字交錯地包覆於其中(步驟 132),離形紙112與114之表面經過特殊處理,因此並不 會帶出偏光板内的膠合層材料。接著,再將外層已包覆離 形紙的偏光板裝入鋁袋122之中(步驟134),如此即可完 成偏光板的包裝。鋁袋122在此係作為遮光之用,以防止 外界的光線照射而對偏光板造成傷害。 然而,由於離形紙112與114之表面必須經過特殊處 理才能防止帶出膠合層材料,因此其成本較高。此外,第 1A圖中所示的傳統包裝方式必須用到三個包裝部件,離 形紙112與114以及鋁袋122,且離形紙11 2與11 4必須 以十字交錯的形式來包覆偏光板1〇2,這些都會提高包裝 偏光板時發生錯誤的機會,以及增加材料、人力與時間成 本的負擔。甚者,這種複雜的包裝組合並不易導入自動化 包裝,這使得偏光板製造商難以提昇其生產效能及產量。 200523566 【發明内容】 因此本發明的目的就是在提供一種光學薄板的包裝 組合’以摻合矽之包裝物件包覆或裝載光學薄板,來防止 包裝物件摩擦接觸到光學薄板而帶出其内含的勝合層材 料’如此減少其包裝物件的數量,以節省其材料成本以及 所需的包裝時間。 本發明的另一目的是在提供—種光學薄板的包裝方 法,減少其包裝的步驟,以提昇包裝過程的良率,節省其 包裝人力成本,並且易於導入自動化包裝製程。 根據本發明之上述目的,提出一種光學薄板的包裝組 合,用以包裝具有膠合層之光學薄板。先以第一包裝部件 包覆具有膠合層之光學薄板,而此第一包裝部件之材質包 含塑膠基材與聚矽氧烷。而後,再以第二包裝部件包覆第 一包裝部件,而此第二包裝部件之材質係為一不透光材 料。 依照本發明一較佳實施例,此光學薄板可為一偏光 板、一太陽眼鏡或者是其他内含膠合層之光學元件。而 且,除了單片光學薄板外,本發明之包裝組合亦可用來包 裝複數個光學薄板。塑膠基材係選自由聚乙烯與聚對苯二 甲酸二乙酯所組成的族群之一,且聚矽氧烷與塑膠基材之 重置百分比係小於百分之五,而較佳重量百分比則必須小 於百分之三。 第一包裝部件可為包裝袋、包裝紙、包裝盒、包裝箱 200523566 或是其他形式的包裝部件,而第二 ^ /u ^ ^ 匕表口P件則為一鋁袋或 其他的不透光包裝部件,例如包裝 7 當使用第一包裝部件包覆福t , 匕凌相4。再者, 仵匕覆複數個光學薄板時,在光學簿抚 :第::襄部件間可加入塾片’以減少光學薄板表面的損 :r靜電二更可選擇在第—包裝部件之材質加入 抗靜電材料,以防止第一包裝部件與 電而對光學薄板造成破壞。 ” ' 3 ^ 本發明以具有兩個包裝部件之包裝組: 個包裝部件之傳統包裝組合 4 〜有一 ^ L· ^ 乂即,成本並提高生產良率 t效Γ用以包覆光學薄板之第-包裝部件,其材質包含 聚矽氧烷,使得其内層表面變 s 薄板接觸時可減少帶出光㈣板更因此在與光學 二:明之包裝方法’其步驟簡單且不需精細的操作, :但可提昇包裝過程的良率’並亦能節省包裝時的人力成 而且更易於導入自動化包裝製程。 【實施方式】 本發明以具有兩個包裝部件之包裝組合取代具有三 :包裝部件之傳統包裝組合’以節省成本並提高生產良率 質:m明在與光學薄板接觸之包裝部件之材 ..’”寺疋重$百分比的聚矽氧烷,以降低此包裝部 面的摩擦係數,如此改善f知膠合層材料被包裝 邛件π出而污染光學薄板的情形。 第2α圖錢示依照本發明之—較佳實施例的示意 200523566 圖,第2B圖係繪示依照本發明之另一較佳實施例的示意 圖 而苐2C圖則為上述兩較佳實施例之包裝步驟流程 圖’以下說明請分別參照第2A、2B及2C圖。 請參照第2A圖,在此較佳實施例中,第一包裝部件 係為一包裝袋212a,而光學薄板係為一偏光板ι〇2,第二 包裝部件則為不透光的鋁袋222。先以包裝袋212a包裝 偏光板102(步驟232),然後再以鋁袋222包裝内裝有偏 光板102之包裝袋212a(步驟234),如此即可完成包裝偏 光板102。 請參照第2B圖,在此較佳實施例中,第一包裝部件 係為包裝紙2 1 2b ’而光學薄板係為一偏光板1 〇2,第二 包裝部件則為不透光的銘袋222。先以包裝紙212b延虛 線摺疊包覆偏光板102(步驟232),然後再以鋁袋222包 裝已包覆偏光板102之包裝紙212b(步驟234),如此即可 完成包裝偏光板102。 第2A圖與第2B圖之實施例係說明本發明中之第一 包裝部件視狀況可為各種不同的形式,如第2A圖之包裝 袋或是第2B圖之包裝紙等,其中以包裝紙包覆的包以 式係便於大尺寸光學薄板的包裝,且易於導入自動化包裝 過程。 ^ 本發明之包裝組合除了被用來包裝單片光學薄板 外,亦可用於包裝複數片光學薄板。而且,對於多片堆疊 在一起的光學薄板,本發明應其需要提供更合適類型的= 裝部件。以下用第3A圖至第3D圖所示之實施例來分別 10 200523566 說明本發明中各種不同類型包裝部件的實施例以及其包 裝方式。 第3A圖係繪示依照本發明之—較佳實施例的示意 圖。在此較佳實施例中,第一包裝部件係為一包裝袋 212a’而複數個光學薄板302係為多片堆疊在一起的偏光 板1〇2,第二包裝部件則為不透光的紹袋如。先以包裝 袋212a包裝複數個光學薄板3〇2(步驟232),然後再以鋁 袋222包裝内裝有複數個光學薄板3〇2之包裝袋212&(步 驟234),如此即可完成包裝。 第3B圖係繪示依照本發明之另一較佳實施例的示意 圖。在此較佳實施例中,第一包裝部件係為一包裝紙 212b,而複數個光學薄板3〇2係為多片堆疊在一起的偏光 板102,第二包裝部件則為不透光的鋁袋222。先以包裝 紙212b延虛線摺疊包覆複數個光學薄板3〇2(步驟232), 然後再以鋁袋222包裝已包覆複數個光學薄板3〇2之包裝 紙2 12b(步驟234),如此即可完成包裝。此外,可分別加 入墊片304於複數個光學薄板3〇2兩側的表面,以減少位 於最外層之兩偏光板1 〇2的表面損傷。 第3C圖係繪示依照本發明之另一較佳實施例的示意 圖。在此較佳實施例中,第一包裝部件係為一包裝盒 3〇6,而複數個光學薄板3〇2係為多片堆疊在一起的偏光 板102,第—包裝部件則為不透光的鋁袋222。先以包裝 箱306裝載複數個光學薄板3〇2(步驟232),然後再以鋁 袋222包裝已裝載複數個光學薄板302之包裝盒306(步 200523566 # 驟234),如此即可完成包裝。此外,可分別加上墊片3〇4 於複數個光學薄板302兩側的表面,以減少位於最外層之 兩偏光板102的表面損傷。 第3D圖係繪示依照本發明之另一較佳實施例的示意 圖。在此較佳實施例中,第一包裝部件係為一包裝箱 308,而複數個光學薄板312係為多片堆疊在一起的偏光 板102,第二包裝部件則為不透光的鋁袋222。先以包裝 相3 08裝載並包覆複數個光學.薄板3 12(步驟232)於其 中,然後再以鋁袋222包裝已裝載複數個光學薄板312 之包裝箱308(步驟234),如此即可完成包裝。 再者,可分別加上墊片304於複數個光學薄板3〇2 兩側的表面,以減少位於最外層之兩偏光板丨〇2的表面損 傷。另外’在本發明中,複數個光學薄板堆疊裝入第一包 裝部件的方式可視製程或需求而改變,如第3C圖之複數 個光學薄板302平行地堆疊裝入包裝盒306中,或是第 3D圖中之複數個光學薄板312垂直地堆疊裝入包裝箱 308中等包裝方式。 此外’具有膠合層之光學薄板可為一偏光板、一太陽 眼鏡或者是其他内含膠合層之光學元件。再者,本發明以 材質包含塑膠基材與聚矽氧烷之第一包裝部件包覆光學 薄板’聚矽氧烷可使此第一包裝部件之内層表面變得更加 平滑’使其與光學薄板接觸時不會帶出光學薄板内含的膠 合層材料。塑膠基材可使用聚乙烯(Polyethlene,PE)、聚 對苯二甲酸二乙酯(p〇lyethyiene terephthalate,PET)、聚 12 200523566 醯胺(polyamide,nylon)或其他塑膠材料,其中聚乙烯與聚 對苯二甲酸二乙酯之成本便宜,因此為本發明之塑膠基材 的較佳選擇。200523566 2. Description of the invention [Technical field to which the invention belongs] The present invention relates to packaging of an optical sheet, and more particularly, to a packaging combination and packaging method of an optical sheet having an adhesive layer. [Previous technology] LCDs have the advantages of high picture quality, small size, light weight, low voltage drive, low power consumption, and wide application range. Therefore, it is widely used in small and medium-sized portable TVs, mobile phones, camcorders, notebook computers, desktop displays, and consumer electronics or computer products such as projection televisions, and has gradually replaced cathode ray tubes ( cathode ray tube (CRT) has become the mainstream of displays. The basic principle of a liquid crystal display is to first arrange a polarizing plate on each side of the liquid crystal layer of the liquid crystal element, and then use an electric field to control the alignment direction of the liquid crystal molecules in the liquid crystal layer. Then, the polarizing plate can be used to control the light transmission of the liquid crystal pixel. Degree of penetration. Therefore, for the liquid crystal display, the polarizing plate is an important and critical component, that is, the quality of the polarizing plate itself is closely related to the image quality of the liquid crystal display. Generally, manufacturers of liquid crystal displays can purchase different polarizing plates from polarizing plate manufacturers for deployment on liquid crystal panels depending on the specifications or price requirements. In other words, the polarizing plate is usually manufactured by the manufacturer of the polarizing plate, and then shipped to the liquid crystal display manufacturer for lamination on both sides of the liquid crystal panel. However, because the polarizing plate is a fine optical thin plate, it is easily damaged by being hit by 200523566 or being polluted by dust in the air. Therefore, the polarizer must be packaged to protect it before shipping, so that the polarizer can be protected from damage and contaminated by the external environment. Furthermore, the polarizing plate is composed of multiple optical layers glued together. If the polarizing plate is simply packaged with an ordinary package without special packaging or processing methods, the package is likely to be brought out due to contact friction. The material of the glue layer contained in the polarizing plate contaminates the surface of the polarizing plate. Figure 1A shows a traditional packaging method of polarizing plates, and Figure 1B is a flowchart of the traditional packaging method of Figure 1A. Please refer to FIG. 1a and FIG. 1B. In the conventional technology, the polarizing plate 10 is firstly covered with two release films 12 and 114 in a staggered manner (step 132). The surfaces of the release papers 112 and 114 are specially treated, so the glue layer material in the polarizing plate is not taken out. Next, the polarizing plate having the outer layer coated with release paper is packed into the aluminum bag 122 (step 134), so that the packaging of the polarizing plate can be completed. The aluminum bag 122 is used for light shielding to prevent the polarizing plate from being damaged by the external light. However, since the surfaces of the release papers 112 and 114 must be specially treated to prevent the adhesive layer material from being carried out, the cost is high. In addition, the traditional packaging method shown in Figure 1A must use three packaging parts, release papers 112 and 114 and aluminum bag 122, and release papers 11 2 and 11 4 must be polarized in a crisscross pattern. Plate 102, these will increase the chance of errors when packaging polarizing plates, and increase the burden of material, labor and time costs. Moreover, this complex packaging combination is not easy to introduce into automated packaging, which makes it difficult for polarizer manufacturers to improve their production efficiency and output. 200523566 [Content of the invention] Therefore, the object of the present invention is to provide a packaging package for optical sheets, which is used to cover or load optical sheets with silicon-doped packaging articles to prevent the packaging articles from frictionally contacting the optical sheets and bringing out the contents The Shenghe layer material 'reduces the number of packaging items in order to save its material cost and the required packaging time. Another object of the present invention is to provide a method for packaging an optical sheet and reduce the steps of packaging, so as to improve the yield of the packaging process, save the cost of packaging labor, and facilitate the introduction of an automated packaging process. According to the above object of the present invention, a packaging combination of an optical sheet is provided for packaging an optical sheet having an adhesive layer. Firstly, the first packaging component is used to cover the optical sheet with an adhesive layer, and the material of the first packaging component includes a plastic substrate and a polysiloxane. Then, the first packaging component is covered with the second packaging component, and the material of the second packaging component is an opaque material. According to a preferred embodiment of the present invention, the optical sheet may be a polarizing plate, a pair of sunglasses, or other optical elements including an adhesive layer. Moreover, in addition to a single optical sheet, the packaging combination of the present invention can also be used to pack a plurality of optical sheets. The plastic substrate is selected from one of the groups consisting of polyethylene and polyethylene terephthalate, and the reset percentage of polysiloxane and plastic substrate is less than 5%, and the preferred weight percentage is Must be less than three percent. The first packaging component can be a packaging bag, packaging paper, box, box 200523566 or other forms of packaging components, and the second ^ / u ^ ^ P-piece is an aluminum bag or other opaque Packaging components, such as packaging 7 When the first packaging component is used to cover the container t, dagger phase 4. In addition, when a plurality of optical sheets are covered, a cymbal sheet can be added between the optical sheet and the optical sheet to reduce the damage on the surface of the optical sheet. The static electricity can also be added to the material of the first—packaging part. Antistatic material to prevent the first packaging component and electricity from damaging the optical sheet. "3 ^ The present invention uses a packaging group with two packaging components: a traditional packaging combination of 4 packaging components 4 ~ a ^ L · ^ 乂 That is, the cost and increase the production yield t efficiency Γ is used to cover the optical sheet -Packaging component, whose material contains polysiloxane, which makes its inner surface become thinner. It can reduce the light emission when the thin plate is in contact. Therefore, it is simple and does not require delicate operation when it is in contact with Optics 2: Packaging Method: However, it can improve the yield of the packaging process, and can also save manpower during packaging and more easily introduce automated packaging processes. [Embodiment] The present invention replaces the traditional packaging with three: packaging components with a packaging combination with two packaging components Combination of 'to save costs and improve production yield quality: the material of packaging parts that are in contact with the optical sheet ..' "The weight of polysiloxane is $ 100% to reduce the friction coefficient of the packaging surface, so Improved the situation that the glue layer material was contaminated by the package and contaminated the optical sheet. Figure 2α shows a schematic diagram of a preferred embodiment according to the present invention 200523566, Figure 2B shows a schematic diagram according to another preferred embodiment of the present invention, and Figure 2C shows the above two preferred embodiments. Flowchart of packing steps' Please refer to Figures 2A, 2B and 2C for the following descriptions. Please refer to FIG. 2A. In this preferred embodiment, the first packaging component is a packaging bag 212a, the optical sheet is a polarizing plate ι2, and the second packaging component is an opaque aluminum bag 222. . First, the polarizing plate 102 is packaged in the packaging bag 212a (step 232), and then the packaging bag 212a containing the polarizing plate 102 is packaged in the aluminum bag 222 (step 234), so that the polarizing plate 102 can be packaged. Please refer to FIG. 2B. In this preferred embodiment, the first packaging component is a wrapping paper 2 1 2b 'and the optical sheet is a polarizing plate 1 〇2, and the second packaging component is an opaque name bag. 222. First, the polarizing plate 102 is wrapped with the wrapping paper 212b along the dotted line (step 232), and then the wrapping paper 212b with the polarizing plate 102 is wrapped with the aluminum bag 222 (step 234), so that the polarizing plate 102 can be packaged. The embodiments of FIGS. 2A and 2B illustrate that the first packaging component in the present invention may take various forms, such as the packaging bag of FIG. 2A or the packaging paper of FIG. 2B, etc. The wrapped bag is convenient for the packaging of large-size optical sheets, and is easy to introduce into the automated packaging process. ^ In addition to being used to package a single optical sheet, the packaging combination of the present invention can also be used to package a plurality of optical sheets. Moreover, the present invention provides a more suitable type of assembly for multiple pieces of optical sheets stacked together. In the following, the embodiments shown in FIGS. 3A to 3D are used to describe the embodiments of the various types of packaging components in the present invention and their packaging methods. Fig. 3A is a schematic diagram showing a preferred embodiment of the present invention. In this preferred embodiment, the first packaging component is a packaging bag 212a 'and the plurality of optical sheets 302 are multiple polarizing plates 102 stacked together, and the second packaging component is an opaque substrate. Bag as. First, a plurality of optical sheets 3202 are packed in a packaging bag 212a (step 232), and then a packaging bag 212 & (step 234) containing a plurality of optical sheets 302 is packed in an aluminum bag 222, so that the packaging can be completed. . Fig. 3B is a schematic diagram showing another preferred embodiment of the present invention. In this preferred embodiment, the first packaging component is a wrapping paper 212b, and the plurality of optical sheets 302 are multiple polarizing plates 102 stacked together, and the second packaging component is opaque aluminum. Bag 222. First, the wrapping paper 212b is folded along the dotted line to cover the plurality of optical sheets 3202 (step 232), and then the aluminum bag 222 is used to wrap the wrapping paper 2 12b that has been coated with the plurality of optical sheets 3202 (step 234). The packaging is complete. In addition, spacers 304 may be added to the surfaces of both sides of the plurality of optical thin plates 30 to reduce the surface damage of the two polarizing plates 100 located at the outermost layer. Figure 3C is a schematic diagram showing another preferred embodiment of the present invention. In this preferred embodiment, the first packaging component is a packaging box 306, and the plurality of optical sheets 302 are multiple polarizing plates 102 stacked together, and the first packaging component is opaque Of aluminum bags 222. First, a plurality of optical sheets 3202 are loaded in the packaging box 306 (step 232), and then the packaging box 306 in which the plurality of optical sheets 302 are loaded is packed in an aluminum bag 222 (step 200523566 #step 234), so that the packaging can be completed. In addition, spacers 304 can be added to the surfaces of both sides of the plurality of optical thin plates 302 to reduce surface damage of the two polarizing plates 102 located at the outermost layer. Figure 3D is a schematic diagram showing another preferred embodiment of the present invention. In this preferred embodiment, the first packaging component is a packaging box 308, the plurality of optical sheets 312 are multiple polarizing plates 102 stacked together, and the second packaging component is an opaque aluminum bag 222 . First load and cover multiple optics with packaging phase 3 08. Sheet 3 12 (step 232), and then pack aluminum box 222 with packing box 308 (step 234) loaded with multiple optical sheets 312. Finish packaging. Furthermore, spacers 304 may be added to the surfaces of the two optical thin plates 3 and 2 respectively to reduce the surface damage of the two polarizing plates 2 in the outermost layer. In addition, in the present invention, the manner in which the plurality of optical sheets are stacked and loaded into the first packaging component may be changed according to the process or requirements. For example, the plurality of optical sheets 302 in FIG. 3C are stacked and packed into the packaging box 306 in parallel, or In the 3D image, a plurality of optical sheets 312 are stacked vertically and packed into a packing box 308 in a medium packing manner. In addition, the optical sheet having a glue layer may be a polarizing plate, a sunglasses, or other optical elements containing a glue layer. Furthermore, the present invention covers the optical sheet with a first packaging member made of a plastic substrate and a polysiloxane. The "polysiloxane can make the inner surface of this first packaging member smoother" and makes it easier to connect with the optical sheet. The adhesive layer material contained in the optical sheet will not be taken out during contact. The plastic substrate can be made of polyethylene (Polyethlene, PE), polyethylene terephthalate (PET), poly 12 200523566 polyamide (nylon), or other plastic materials, of which polyethylene and polymer Diethyl terephthalate is inexpensive and is therefore a better choice for the plastic substrate of the present invention.
本發明之特徵亦包含聚矽氧烷與塑膠基材間的重量 百分比。依照本發明之實施例,聚矽氧烷與塑膠基材之重 量百分比係小於百分之五,而較佳重量百分比則必須小於 百分之三。以下以本發明之測試實驗的結果數據,來說明 本發明的確可以減少偏光板在包裝部件内被污染的機率。 在此測試實驗中,光學薄板為15吋偏光板,第一包 裝部件為包裝紙’第二包裝部件為結袋,其中包裝紙分為 無摻入聚石夕氧烧,以及分別摻入重量百分比為1%、2%及 3%聚石夕氧烷之四種包裝紙。_般來說,若包裝部件帶出 偏光板内含之膠合層材料,則此膠合層材料會在偏光板之 端面形成小白點狀的污染,小白點數目越多,則表示偏光 板受摩擦的情形越嚴重。The feature of the present invention also includes the weight percentage between the polysiloxane and the plastic substrate. According to the embodiment of the present invention, the weight percentage of the polysiloxane and the plastic substrate is less than 5%, and the preferred weight percentage must be less than 3%. In the following, the results of the test experiments of the present invention are used to illustrate that the present invention can indeed reduce the probability that the polarizing plate is contaminated in the packaging component. In this test experiment, the optical sheet is a 15-inch polarizing plate, and the first packaging component is a wrapping paper. The second packaging component is a knotting bag. The packaging paper is divided into non-doped polystyrene and oxy-fired, and weight percentages. Four kinds of wrapping papers of 1%, 2% and 3% polysiloxane. _ In general, if the packaging component brings out the glue layer material contained in the polarizing plate, this glue layer material will form small white dot-like pollution on the end face of the polarizing plate. The larger the number of small white points, it means that the polarizing plate is affected. The more severe the situation of friction.
偏光板先經過洗淨與除塵等包裝前的標準準備程 序,然後,與第2B圖之實施例π , ^ 趨轟“ ^例相同,先以包裝紙延虛線 接邊包覆偏光板,然後再以鋁袋包 / 衣包▲已包覆偏光板之包裝 、、、。表一係依序列舉出無摻入聚夕氧 旦 κ /乳反以及分別摻入重 里百^刀比為1%、2%及3%聚矽氧 板之,山二a丄,^ < 四種包裝紙在偏光 板之…生小白點的數目,以說明本發明之實施效果。 13 200523566 表一.不同重量百分比之包裝紙在偏光板端面產生小 白點的數目。 量百分比(%) 0 1 2 ---------1 3 _目(個) 23 8 3 4 與未摻入聚矽氧烷之小白點 _匕值(%) 100 35 13 17 ^由表一可知,與偏光板接觸之包裝紙在摻入聚矽氧烷 後,其帶出偏光板内含之膠合層材料而對偏光板造成污 的機率確實降低許多。依照本發明之其他實施例,不同的 塑膠基材中摻入聚石夕氧烧的較佳重量百分比當視 材與製程不同而作變化,梦A / 土 卜N向作支化,然其摻入的上限係約百分之五 έΓ λ 此外’聚矽氧烷 抗靜電能力。缺而,為了更右㈣/ μ 一㈣部件的 為了更有效地加強其抗靜電能力,本 *更k供在第一包裝部件之材質 ;咸例如…之抗靜電劑,使本發明之包裝::: 產生的靜電所破壞。“止先學薄板被包裝部件内 值知注意的是,本發明之精 之包農部件之中摻…氧院,以降低=學薄板 本發明的變化跡㈣其他各種 結合成-複合包裝部件或是將第二包裝部件 包裝部件改變成材質 200523566 為染色塑膠且内含聚碎稾掠夕、悉 ☆ K /虱沉之不透先包裝部件等應用方 式,皆應包含於本發明之精神與範圍之中。 雖然本發明已以一較佳實施例揭露如上,然其並非用 以限定本發明,任何熟習此技藝者,在不脫離本發明之精 神和範圍内,當可作各種之更動與潤飾,因此本發明之保 護範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 為讓本發明之上述和其他目的、特徵、和優點能更明 α易tt下文特舉一較佳實施例,並配合所附圖式,作詳 細說明如下: 第1A圖係繪示偏光板的一種傳統包裝方式; 第1B圖係繪示第1A圖之傳統包裝方式的流程圖; 第2A圖係繪示依照本發明之一較佳實施例的示意 圖; 第2B圖係繪示依照本發明之另一較佳實施例的示意 圖; 第2C圖則為本發明之之包裝步驟的流程圖; 第3A圖係繪示依照本發明之一較佳實施例的示意 rci · 圖, 第3B圖係繪示依照本發明之另一較佳實施例的示意 圖; 第3C圖係繪示依照本發明之另一較佳實施例的示意 15 200523566 圖;以及 第3D圖係繪示依照本發明之另一較佳實施例的示意 圖0 【元件代表符號簡單說明】 102 : 偏光板 112、 114 :離形紙 122 : 鋁袋 132、 134 :步驟 212a :包裝袋 212b :包裝紙 222 : 鋁袋 232 > 234 :步驟 302 : 複數個光學薄 板 304 : 墊片 306 : 包裝盒 308 : 包裝箱 312 : 複數個光學薄 板The polarizing plate first goes through the standard preparation procedures before cleaning and dust removal, and then is the same as the example π in the figure 2B. Packed in aluminum bags / bags. ▲ The polarized plates have been packaged. Table 1 shows in sequence the non-doped polyoxodan kappa / milk-reflection and the heavy-duty knives. The knife ratio is 1%, 2 % And 3% polysilicone board, Shan Er a 丄, ^ < The number of small white dots of four kinds of wrapping paper in polarizing plate to illustrate the effect of the present invention. 13 200523566 Table 1. Different weight percentages The number of small white spots on the end of the polarizing plate of the wrapping paper. Percentage (%) 0 1 2 --------- 1 3 _ mesh (a) 23 8 3 4 Small white point _ dagger value (%) 100 35 13 17 ^ As can be seen from Table 1, after the packaging paper in contact with the polarizing plate is doped with polysiloxane, it takes out the glue layer material contained in the polarizing plate to polarize light. The probability of soiling by the board is indeed much reduced. According to other embodiments of the present invention, the preferred weight of polyoxygen sintered in different plastic substrates The percentage varies depending on the material and the process. Dream A / Tobu N is branched, but the upper limit of its incorporation is about 5%. In addition, the antistatic ability of polysiloxane is lacking. To the right of the components / μ In order to enhance its antistatic ability more effectively, this material is provided in the material of the first packaging component; for example, an antistatic agent such that the packaging of the present invention ::: It is destroyed by static electricity. "Only learn the internal value of the thin sheet by the packaging component. It is noted that the essence of the present invention is included in the farmer's component. Oxygen institute is used to reduce = learn thin sheet. The changes of the present invention ㈣ other various combinations into- Composite packaging parts or changing the packaging material of the second packaging part to the material 200523566 is dyed plastic and contains poly smashing materials, and the application methods such as ☆ K / opaque first packaging parts should be included in the present invention In the spirit and scope. Although the present invention has been disclosed as above with a preferred embodiment, it is not intended to limit the present invention. Any person skilled in the art can make various changes and decorations without departing from the spirit and scope of the present invention. The scope of protection of the invention shall be determined by the scope of the attached patent application. [Brief description of the drawings] In order to make the above and other objects, features, and advantages of the present invention clearer, a preferred embodiment is described below, and in conjunction with the attached drawings, the detailed description is as follows: FIG. 1A FIG. 1B is a traditional packaging method of polarizing plate; FIG. 1B is a flowchart illustrating the traditional packaging method of FIG. 1A; FIG. 2A is a schematic diagram illustrating a preferred embodiment according to the present invention; Figure 2C is a schematic diagram of another preferred embodiment of the present invention; Figure 2C is a flowchart of the packaging steps of the present invention; Figure 3A is a schematic rci according to a preferred embodiment of the present invention. Fig. 3B is a schematic diagram showing another preferred embodiment of the present invention; Fig. 3C is a schematic diagram showing another 200515566 according to another preferred embodiment of the present invention; and Fig. 3D is a diagram showing Schematic diagram of another preferred embodiment of the present invention 0 [Simple description of element representative symbols] 102: polarizing plates 112, 114: release paper 122: aluminum bags 132, 134: step 212a: packaging bag 212b: packaging paper 222: aluminum Bag 232 > 23 4: Step 302: Multiple optical sheets 304: Spacer 306: Packing box 308: Packing box 312: Multiple optical sheets
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