201118824 WPV7 JI-C400-0881 31792twf.doc/n 六、發明說明: 【發明所屬之技術領域】 本發明是有關於一種顯示模組,且特別是有關於—種 具有較薄厚度與較佳顯示品質的顯示模組。 【先前技術】 電子紙最初發展於钱,其純是透過帶電顆 生的電泳現象’而達成顯示之目的。由於這類的顯 ^ ^於水氣餘氣較為敏感,且水氣與氧氣容易損害 中不坐。m此’通常在電子紙顯*面板的後續封裝製程 樞取提供—細彡成雜水氧層的—基板或阻水氧 ’再透過一光學膠或雙面膠將此基板貼附於電 氣宝了面板上’以確保電子紙顯示面板不易被水氣與氧 子3而’貼附於電子紙顯示面板上的基板會造成電 電子:的厚度增加,而使用光轉或雙面賴會使 • -ί:面板與此基板之間產生空隙,進而提高電子紙 頌不裝置整體的反射率損失。 ㉟把门电 擴二==電!紙顯示裝置的顯示品質以及 子紙顯Γ'巳 亦θ增加杉色濾光片以及觸控面板於電 過光总=板上。,然而,彩色渡光片以及觸控面板亦須透 來::或雙面膠來貼附於電子紙顯示裝置上。如此〆 時更顯示裝置也同樣有整體反射率損失的問題,同 '衣_度増加與較低製程良率等問題。 201118824 WP9711-C400-0881 31792twf.doc/n 【發明内容】 本發明提供一種顯示模組,其可減少基板的使用數 量,具有較薄的厚度。 本發明亦提供一種顯示模組,其可避免使用光學膠或 雙面膠,具有較佳的顯示品質。 本發明提出一種顯示模組,其包括一電子紙基板、一 第一基板以及多個膜層。電子紙基板具有一共用電極層。 第一基板配置於電子紙基板上。膜層配置於第一基板上, 其中共用電極層、第—基板以及膜層緊密疊置。 ^ 基於上述,本發明的顯示模組中,硬塗層、阻氣層、 衫色濾光臈層以及第一觸控電極層、第二觸控電極層至少 其中一者可以整合於同一個基板中。此外,如此—來,不 需使用額外貼關方式,即可將硬塗層、阻氣層、彩色遽 光膜層以及觸控面板配置於電子紙基板上。換言之,本發 明之顯示模嫌了具有彩色化顯示功能與觸控^能的設^ 外,亦可有效降低顯示模組的反射率損失,以使顯二组 具有較佳的顯示品質。 ‘、/、、/ 為讓本發明之上述待徵和優點能更明顯易懂, 舉實施例,並配合所附圖式作詳細說明如下。 、 【實施方式】 板 、:^發:种,顯轉㈣包括1子纸基 201118824 WP9711-C400-0881 31792t\vf.doc/n 第-基,上。特別是’共用電極層、第—基板以及多個膜 層緊岔豐置,且共用電極層以及多個膜層可利用成膜 或其他相_製程而製作於第-基板上,也就是說,、^ 共用電極層以及多㈣層整合於—個基板巾,因* 用額外貼關方式,可減少基板的使用數量,錢顯=模 組具有較_厚度。在此必須說明的是,在此所述之: =的意思是指共用電極層、第—基板與多個膜層之^ 構層。在本發明之實施例中,多個膜層可例如 選自硬塗層、阻氣層、抗反射層、彩色濾光層、第一觸控 電極層以及第二觸控面電極層中至少其中兩者。以下將利 用多個不狀實施例來分別且詳細說明顯示模組的設計。 阌。!上發明第—實施例之一種顯示模組的剖面示意 ‘ΎϋΙΛ’本實施例之顯示模組101包括—電子紙 ' Η ϋ控電極層142、—第二觸控電極層144、 電及一第一基板162。在本實施例中, -八要疋由一電路基板122、一晝素電極層 声、多個微杯結構128以及“共用電極 輪成。晝素電極層124與微杯結構128皆配置於 而妓2上’且顯示介質126填充於微杯結構128内’ 而/、用電極層130配置於微杯結構128上。 材枓兄’第—基板162的材質可以是玻璃、高分子 力=才料或是無機複合材料等,其例如為塑膠、 極層130、第一觸控電極層142以及第二 1層144例如是由透明導電材質所構成,其例如為 201118824 WP9711-C400-0881 31792twf.doc/n 銦錫氧化物或是銦鋅氧化物。 第一觸控電極層142配置於電子紙基板12〇上。第二 觸控電極層144配置於電子紙基板12〇上,且第一觸控電 極層142位於第一觸控電極層144與共用電極層之 間电子紙基板120的共用電極層130、第一觸控電極層 142以及第二觸控電極層144彼此電性絕緣。彩色濾光膜 層150配置於電子紙基板12〇上,其中電子紙基板12〇的 共用電極層130、第一觸控電極層142與第二觸控電極層 144至少其中之一直接接觸彩色濾光膜層15〇。第一基板 162配置於電子紙基板120上,其中電子紙基板12〇的共 用電極層130、第一觸控電極層142、第二觸控電極層144 與彩色濾光膜層150至少其中之一直接接觸第一基板162。 在本實施例中’顯示模組101還包括一第二基板164 以及多個間隙物166。第一基板162位於第二基板164以 及電子紙基板120之間。間隙物166、第一觸控電極層142 以及第二觸控電極層144配置於第一基板162與第二基板 164之間,且間隙物166配置於第一觸控電極層142與第 二觸控電極層144之間。第一基板162、第二基板164、間 隙物166、第一觸控電極層142以及第二觸控電極層144 可構成一電阻式觸控面板。 詳言之,製作本實施例的顯示模組101時,彩色濾光 膜層150、第一觸控電極層142以及共用電極層130例如 是先後地形成於第一基板162相對的兩側。因此,第一基 板162的一側依序配置了彩色濾光膜層150以及第一觸控 201118824 wry/ll-C400-0881 31792twf.doc/n 電極層142,且第一觸控電極層142直接接觸彩色爐光膜 層150。另外,共用電柘層13〇直接配置於第—基板 的另二側。如此-來,本實施例不需額外增加使^基板來 形成這些膜層。此外,本實施例更不需要使用光學膠或雙 面將彩色渡光膜層150以及電阻式觸控面板配置於電子紙 基板120上。因此,本實施例之顯示模組1〇1除了具有較 佳的衫色化顯示功能及觸控功能外,亦具有較薄的厚度。 料,由於本實施例不f使用光轉或雙面膠,因此除了 可有效降低顯示模組1〇丨的製程難度與良率損失外,亦可 避免於電子紙基板120、彩色濾光膜層15〇及電阻式觸控 面板之間產生空氣層。換言之,本實施例可避免空氣層戶^ 造成之整體反射率損失增加的問題,進而可提高顯示模組 101的顯示品質。 、 圖2為本發明第二實施例之一種顯示模組的剖面示意 圖。請參考® 2,圖2之顯示模組1〇2與圖1之顯示模組 101/相似,惟二者主要差異之處在於:圖2之顯示模組 鲁^^色濾光膜;| 150是位於共用電極層13G與第一基板 162之間。詳細而言’在本實施例中,電子紙基板—的 共用電極層130 S直接接觸彩色濾光膜層15〇,而第一觸 控電極層142以及彩色濾、細層15G直接接觸第一基板 162如此一來,不需額外增加使用基板以及光學膠或雙面 膠即可將彩色濾、光膜層150、第一觸控電極層142以及第 ,觸控電極層144配置於電子紙基板12〇上。因此,本實 施例之顯示模組1〇2的設計除了可具有較薄的厚度外,亦 201118824 WP9711-C400-0881 31792twf.doc/n 可避免光學膠或雙面膠所造成 度與良率損失等問題。 ㈢σ反射率損失、製程難 圖3為本發明第三實施例 同。士主灸去闰q同2 種顯示模組的剖面示意 圖。凊參考圖3,圖3之顯示模紐 1Π1 S ^ 4α /μ ΛΑ - .4- 犋、、且103與圖1之顯示模組 於.顯且f二者之構成元件的主要差異在 =顯,組⑽不具有間隙物166,且顯示模組1〇3更 包括一弟一絕緣層172。 在本實施例中,第-基板⑹位於顯示模組1〇3的最 外層。第-基板162上依序地配置有第一觸控電極層142、 彩色濾光膜層150、第二觸控電極層144、第一絕緣層172 以及共用電極層130。彩色濾、光朗15()可視為第一觸控201118824 WPV7 JI-C400-0881 31792twf.doc/n VI. Description of the Invention: [Technical Field] The present invention relates to a display module, and in particular to a thinner thickness and better display quality Display module. [Prior Art] Electronic paper was originally developed for money, and it was purely through the electrophoresis phenomenon of charged particles. Because this kind of display is sensitive to moisture and gas, and moisture and oxygen are easy to damage. m This is usually provided in the subsequent packaging process of the electronic paper display panel. - Substrate or water-blocking oxygen - and then attach the substrate to the electric treasure through an optical glue or double-sided tape. On the panel, to ensure that the electronic paper display panel is not easily attached to the electronic paper display panel by the moisture and oxygen 3, the thickness of the electro-electronics is increased, and the use of light or double-sided will cause - ί: A gap is formed between the panel and the substrate, thereby improving the reflectance loss of the electronic paper cassette as a whole. 35 door expansion 2 == electricity! The display quality of the paper display device and the paper display Γ ' 巳 also θ increase the sap filter and the touch panel on the total light = board. However, the color light-emitting film and the touch panel must also be attached to the electronic paper display device by means of:: or double-sided tape. In this case, the display device also has the problem of overall reflectance loss, which is the same as the problem of 'clothing_degree increase and lower process yield. 201118824 WP9711-C400-0881 31792twf.doc/n SUMMARY OF THE INVENTION The present invention provides a display module that can reduce the number of substrates used and has a relatively thin thickness. The invention also provides a display module which can avoid the use of optical glue or double-sided tape and has better display quality. The invention provides a display module comprising an electronic paper substrate, a first substrate and a plurality of film layers. The electronic paper substrate has a common electrode layer. The first substrate is disposed on the electronic paper substrate. The film layer is disposed on the first substrate, wherein the common electrode layer, the first substrate, and the film layer are closely stacked. According to the above, in the display module of the present invention, at least one of the hard coat layer, the gas barrier layer, the shirt color filter layer, the first touch electrode layer and the second touch electrode layer may be integrated on the same substrate. in. In addition, the hard coat layer, the gas barrier layer, the color thin film layer, and the touch panel can be disposed on the electronic paper substrate without using an additional bonding method. In other words, the display mode of the present invention is suspected of having a color display function and a touch control function, and can also effectively reduce the reflectance loss of the display module, so that the display group has better display quality. </ RTI> </ RTI> </ RTI> </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; [Embodiment] Board,: ^ hair: species, display (four) including 1 sub-paper base 201118824 WP9711-C400-0881 31792t\vf.doc/n first-base, on. In particular, the 'common electrode layer, the first substrate, and the plurality of film layers are closely packed, and the common electrode layer and the plurality of film layers can be formed on the first substrate by film formation or other phase processes, that is, , ^ The common electrode layer and the multi-(four) layer are integrated in one substrate towel, because the use of the extra-sticking method can reduce the number of substrates used, and the display has a thickness of _. It must be noted herein that the term "=" means a common electrode layer, a first substrate, and a plurality of film layers. In an embodiment of the invention, the plurality of film layers may be selected, for example, from at least one of a hard coat layer, a gas barrier layer, an anti-reflection layer, a color filter layer, a first touch electrode layer, and a second touch surface electrode layer. Both. The design of the display module will be separately and in detail described below using a plurality of different embodiments. Hey. ! The display module 101 of the present embodiment includes an electronic paper Η ϋ control electrode layer 142, a second touch electrode layer 144, an electric and a first A substrate 162. In this embodiment, a circuit board 122, a halogen electrode layer sound, a plurality of microcup structures 128, and a "common electrode wheel are formed. The halogen electrode layer 124 and the microcup structure 128 are disposed.妓2' and the display medium 126 is filled in the microcup structure 128', and the electrode layer 130 is disposed on the microcup structure 128. The material of the material 第's substrate 162 may be glass, polymer force = only For example, the plastic material, the electrode layer 130, the first touch electrode layer 142, and the second layer 144 are made of a transparent conductive material, for example, 201118824 WP9711-C400-0881 31792twf. Doc/n Indium tin oxide or indium zinc oxide. The first touch electrode layer 142 is disposed on the electronic paper substrate 12, and the second touch electrode layer 144 is disposed on the electronic paper substrate 12, and the first touch The control electrode layer 142 is located between the first touch electrode layer 144 and the common electrode layer, and the common electrode layer 130, the first touch electrode layer 142 and the second touch electrode layer 144 of the electronic paper substrate 120 are electrically insulated from each other. The photo film layer 150 is disposed on the electronic paper substrate 12, wherein At least one of the common electrode layer 130, the first touch electrode layer 142 and the second touch electrode layer 144 of the sub-paper substrate 12 directly contacts the color filter layer 15A. The first substrate 162 is disposed on the electronic paper substrate 120. In the above, at least one of the common electrode layer 130, the first touch electrode layer 142, the second touch electrode layer 144 and the color filter layer 150 of the electronic paper substrate 12 is directly in contact with the first substrate 162. In the example, the display module 101 further includes a second substrate 164 and a plurality of spacers 166. The first substrate 162 is located between the second substrate 164 and the electronic paper substrate 120. The spacers 166, the first touch electrode layer 142, and The second touch electrode layer 144 is disposed between the first substrate 162 and the second substrate 164, and the spacer 166 is disposed between the first touch electrode layer 142 and the second touch electrode layer 144. The first substrate 162, The second substrate 164, the spacers 166, the first touch electrode layer 142, and the second touch electrode layer 144 can form a resistive touch panel. In detail, when the display module 101 of the embodiment is fabricated, the color filter The photo film layer 150, the first touch electrode layer 142, and The electrode layer 130 is sequentially formed on opposite sides of the first substrate 162. Therefore, one side of the first substrate 162 is sequentially disposed with the color filter layer 150 and the first touch 201118824 wry/ll-C400- 0881 31792twf.doc/n electrode layer 142, and the first touch electrode layer 142 directly contacts the color furnace film layer 150. In addition, the common electrode layer 13〇 is directly disposed on the other side of the first substrate. This embodiment does not require additional addition of the substrate to form these film layers. In addition, in this embodiment, it is not necessary to dispose the color light-transmitting film layer 150 and the resistive touch panel on the electronic paper substrate 120 by using optical glue or both surfaces. Therefore, the display module 1〇1 of the present embodiment has a thinner thickness in addition to a better shirt color display function and a touch function. Therefore, since the embodiment does not use the light-transfer or double-sided tape, in addition to effectively reducing the process difficulty and yield loss of the display module 1 , it can also be avoided in the electronic paper substrate 120 and the color filter layer. An air layer is created between the 15" and the resistive touch panel. In other words, the present embodiment can avoid the problem of an increase in the overall reflectance loss caused by the air layer, thereby improving the display quality of the display module 101. 2 is a schematic cross-sectional view showing a display module according to a second embodiment of the present invention. Please refer to ® 2, the display module 1〇2 of Figure 2 is similar to the display module 101/ of Figure 1, but the main difference between the two is: the display module of Figure 2 is a color filter film; | 150 It is located between the common electrode layer 13G and the first substrate 162. In detail, in the present embodiment, the common electrode layer 130 S of the electronic paper substrate directly contacts the color filter film layer 15 , and the first touch electrode layer 142 and the color filter and the fine layer 15G directly contact the first substrate. In this way, the color filter, the photo film layer 150, the first touch electrode layer 142, and the first touch electrode layer 144 are disposed on the electronic paper substrate 12 without additional use of the substrate and the optical glue or the double-sided tape. 〇上. Therefore, in addition to the thinner thickness of the display module 1〇2 of the present embodiment, 201118824 WP9711-C400-0881 31792twf.doc/n can avoid the loss of degree and yield caused by optical glue or double-sided tape. And other issues. (III) σ reflectance loss and process difficulty Fig. 3 is the same as the third embodiment of the present invention. The schematic diagram of the profile of the two types of display modules.凊 Referring to FIG. 3, the main difference between the components of the display module 1Π1 S ^ 4α /μ ΛΑ - .4- 犋, and 103 and the display module of FIG. 1 is shown in the display panel. The group (10) does not have the spacer 166, and the display module 1〇3 further includes a brother-insulation layer 172. In the present embodiment, the first substrate (6) is located at the outermost layer of the display module 1〇3. The first touch electrode layer 142, the color filter film layer 150, the second touch electrode layer 144, the first insulating layer 172, and the common electrode layer 130 are sequentially disposed on the first substrate 162. Color filter, Guanglang 15 () can be regarded as the first touch
電容式觸控面板。第一絕緣層172則位於共用電極層13〇 與弟一觸控電極層144之間以提供適當的電性絕緣之作 用。 以下為將利用多個不同之實施例來分別說明具有電 容式觸控功能之顯示模組104〜109的設計。 圖4為本發明第四實施例之一種顯示模組的剖面示意 圖。請參考圖4,圖4之顯示模組1〇4與圖3之顯示模組 103相似,惟二者主要差異之處在於:圖4之顯示模組1〇4 更包括一第二絕緣層174以及彩色濾光膜層150的配置位 置不同,其中第二絕緣層174配置於第一觸控電極層142 與第二觸控電極層144之間,而彩色濾光膜層150位於第 一基板162與第一觸控電極層142之間。 201118824 W^y7ll-C400-0881 31792twf.doc/n 圖5為本發明第五實施例之一麵示模組的剖面示意 圖。請參考圖5,圖5之顯示模組105與圖3之顯示模組 103相似,惟二者主要差異之處在於:圖5之顯示模組1〇5 更包括一位於顯示模組1〇5的最外層之保護層18〇,且第 一基板162兩側的膜層配置順序不同。在本實施例中,彩 色濾光膜層150、第二觸控電極層144、第一絕緣層172 以及共用電極層130依序地配置於第一基板162的一側, 而第一觸控電極層142與保護層180則配置於第一基板 162的另一側。如此一來,顯示模組1〇5可以在一個第一 基板162上整合觸控及濾光的元件設計而達到節省基板使 用數量的功效。 圖6為本發明第六實施例之一種顯示模組的剖面示意 圖。凊參考圖6,圖6之顯示模組ι〇6與圖5之顯示模組 105相似,惟二者主要差異之處在於:圖6之顯示模組1〇6 之於色濾、光膜層150是位於第一觸控電極142與第一基板 162之間,藉此達到節省基板使用量及省略貼附製程的需 求。 圖7為本發明第七貫施例之一種顯示模組的剖面示意 圖。请麥考圖7 ’圖7之顯示模組1〇7與圖5之顯示模組 105相似,惟二者差異之處在於:圖7之顯示模組1〇7之 第一基板162位於第一觸控電極層142與第二觸控電極層 144之間。彩色濾光膜層15〇則位於保護層18〇與第一觸 控電極層142之間。 圖8為本發明第八實施例之一種顯示模組的剖面示意 201118824 WP9711-C400-0881 31792twf.doc/n 圖。請參考圖8 5圖8之顯示模組log與圖3之顯示模組 103相似,惟二者差異之處在於:圖8之第一絕緣層192 配置於彩色濾光膜層150與共用電極層13〇之間,而第二 絕緣層194配置於第一觸控電極層142與第二觸控電極芦 144之間。特別是,彩色濾光膜層150位於第二觸控電才^ 層144與第一絕緣層192之間。具體而言,第一觸控電極 層142、弟一絶緣層194、弟二觸控電極層144、彩色滤光 膜層150、第一絕緣層192以及共用電極層13〇依序地皆 形成於第一基板162的一側表面上。這樣的設計可以減少 基板的使用量並且可不需進行貼附製程以將顯示、觸控及 多彩化的元件整合於顯示模組108中。 圖9為本發明第九實施例之一種顯示模組的剖面示意 圖。請參考圖9,圖9之顯示模組1〇9與圖7之顯示模組 107相似’惟二者差異之處在於:圖9之彩色濾光膜声15〇 是位於第二觸控電極層144以及第一絕緣層之間S。 整體而s,上述多個實施例的整合設計可減少基板的 使用數量以及無需進行貼附製程,而可有效降低顯示模組 101〜109的反射率損失與製程難度,以使顯示模組ι(η〜 1〇9具有較佳的顯示品質與製程良率。此外,本實施例之 顯示模組101〜109具有較薄的厚度,同時亦具有二佳的彩 色化顯示功能以及觸控功能。 土圖10為本發明第十實施例之一種顯示模組的剖面示 意圖。請參考圖10,在本實施例中,顯示模組2〇1包括一 電子紙基板220、一硬塗層240、一阻氣層250以及一第一 201118824 WP9711-C400-088I 31792tw£doc/n 基板262。在本實施例中,電子紙基板22〇的結構如同電 子紙基板120的結構,可參考上述之說明,於此不再贅述。 硬塗層240配置於電子紙基板22〇上,可用來增加整 體顯示模組201的硬度(hardness)。阻氣層250配置於 電子紙基板220上,且阻氣層250位於硬塗層240與第— 基板262之間’用以杜絕水氣與氧氣進入顯示模組2〇1内。 第一基板262位於電子紙基板220上方,其中阻氣層250 以及第一基板262位於電子紙基板220與硬塗層240之 間。在此,第一基板262的材質可包括玻璃、塑膠、有機 複合材料或無機複合材料。 本實施例之顯示模組201不需使用光學膠或雙面膠即 可將硬塗層240與阻氣層250形成於第一基板262上〔無 須額外使用其他基板承載硬塗層24〇以及阻氣層25〇以& 顯示模組201具有較薄的厚度。因此,可避免承載硬塗層 240與阻氣層250所用的基板與電子紙基板22〇之間產^ 空隙,以提尚顯示模組201的反射率以及製程良率。 一圖11為本發明第十一實施例之一種顯示模組的剖面 示意圖。請參考圖11,圖n之顯示模組202與圖1〇之顯 示模組201相似,惟二者主要差異之處在於:圖1〇之顯示 模組201更包括一抗反射層272且硬塗層24〇與阻氣層2別 的配置位置不同。抗反射層272配置於硬塗層240上,以 有效減少光線反射對顯示模組202所造成的不良影響。共 用電極層230以及阻氣層250形成於第一基板262θ的二 側,而硬塗層240以及抗反射層272形成於第一基板262Capacitive touch panel. The first insulating layer 172 is located between the common electrode layer 13 and the touch electrode layer 144 to provide appropriate electrical insulation. The following is a description of the design of display modules 104-109 having capacitive touch functions, respectively, using a plurality of different embodiments. Figure 4 is a cross-sectional view showing a display module in accordance with a fourth embodiment of the present invention. Referring to FIG. 4, the display module 1〇4 of FIG. 4 is similar to the display module 103 of FIG. 3, but the main difference is that the display module 1〇4 of FIG. 4 further includes a second insulating layer 174. The color filter layer 150 is disposed between the first touch electrode layer 142 and the second touch electrode layer 144, and the color filter layer 150 is located on the first substrate 162. And the first touch electrode layer 142. 201118824 W^y7ll-C400-0881 31792twf.doc/n FIG. 5 is a cross-sectional view showing a module of the fifth embodiment of the present invention. Please refer to FIG. 5. The display module 105 of FIG. 5 is similar to the display module 103 of FIG. 3, but the main difference is that the display module 1〇5 of FIG. 5 further includes a display module 1〇5. The outermost protective layer 18 〇 and the film layers on both sides of the first substrate 162 are arranged in different order. In this embodiment, the color filter layer 150, the second touch electrode layer 144, the first insulating layer 172, and the common electrode layer 130 are sequentially disposed on one side of the first substrate 162, and the first touch electrode The layer 142 and the protective layer 180 are disposed on the other side of the first substrate 162. In this way, the display module 1〇5 can integrate the touch and filter component design on a first substrate 162 to save the number of substrates. Figure 6 is a cross-sectional view showing a display module in accordance with a sixth embodiment of the present invention. Referring to FIG. 6, the display module 〇6 of FIG. 6 is similar to the display module 105 of FIG. 5, but the main difference between the two is that the display module 1〇6 of FIG. 6 is applied to the color filter and the light film layer. 150 is located between the first touch electrode 142 and the first substrate 162, thereby achieving the need to save the substrate usage and omitting the attaching process. Figure 7 is a cross-sectional view showing a display module of a seventh embodiment of the present invention. Please note that the display module 1〇7 of FIG. 7 is similar to the display module 105 of FIG. 5, but the difference is that the first substrate 162 of the display module 1〇7 of FIG. 7 is located at the first The touch electrode layer 142 is between the touch electrode layer 142 and the second touch electrode layer 144. The color filter film layer 15 is located between the protective layer 18A and the first touch electrode layer 142. FIG. 8 is a cross-sectional view of a display module according to an eighth embodiment of the present invention. 201118824 WP9711-C400-0881 31792twf.doc/n. The display module log of FIG. 8 is similar to the display module 103 of FIG. 3, but the difference is that the first insulating layer 192 of FIG. 8 is disposed on the color filter layer 150 and the common electrode layer. The second insulating layer 194 is disposed between the first touch electrode layer 142 and the second touch electrode reed 144. In particular, the color filter film layer 150 is located between the second touch control layer 144 and the first insulating layer 192. Specifically, the first touch electrode layer 142, the first insulating layer 194, the second touch electrode layer 144, the color filter layer 150, the first insulating layer 192, and the common electrode layer 13 are sequentially formed on One side surface of the first substrate 162. Such a design can reduce the amount of substrate used and eliminate the need for an attach process to integrate display, touch, and colorful components into display module 108. Figure 9 is a cross-sectional view showing a display module in accordance with a ninth embodiment of the present invention. Please refer to FIG. 9. The display module 1〇9 of FIG. 9 is similar to the display module 107 of FIG. 7. The difference between the two is that the color filter film 15 of FIG. 9 is located on the second touch electrode layer. 144 and S between the first insulating layers. Overall, the integrated design of the above embodiments can reduce the number of substrates used and eliminate the need for attaching processes, and can effectively reduce the reflectivity loss and process difficulty of the display modules 101 to 109, so that the display module ι ( The display modules 101 to 109 of the present embodiment have a relatively thin thickness, and also have two good color display functions and touch functions. 10 is a cross-sectional view of a display module according to a tenth embodiment of the present invention. Referring to FIG. 10, in the embodiment, the display module 2〇1 includes an electronic paper substrate 220, a hard coating layer 240, and a resistor. The gas layer 250 and a first 201118824 WP9711-C400-088I 31792 tw doc/n substrate 262. In the present embodiment, the structure of the electronic paper substrate 22 is similar to that of the electronic paper substrate 120, and reference may be made to the above description. The hard coat layer 240 is disposed on the electronic paper substrate 22, and can be used to increase the hardness of the overall display module 201. The gas barrier layer 250 is disposed on the electronic paper substrate 220, and the gas barrier layer 250 is located on the hard Coating 240 and — The substrate 262 is used to prevent moisture and oxygen from entering the display module 2〇1. The first substrate 262 is located above the electronic paper substrate 220, wherein the gas barrier layer 250 and the first substrate 262 are located on the electronic paper substrate 220 and hard. The material of the first substrate 262 may include glass, plastic, organic composite material or inorganic composite material. The display module 201 of the embodiment can be hardened without using optical glue or double-sided tape. The coating layer 240 and the gas barrier layer 250 are formed on the first substrate 262 (the additional substrate is not required to carry the hard coating layer 24 and the gas barrier layer 25 is used to < the display module 201 has a thin thickness. Therefore, it can be avoided The gap between the substrate for carrying the hard coat layer 240 and the gas barrier layer 250 and the electronic paper substrate 22 is increased to improve the reflectivity of the display module 201 and the process yield. FIG. 11 is an eleventh embodiment of the present invention. For example, a display module 202 of FIG. 1 is similar to the display module 201 of FIG. 1 , but the main difference between the two is that the display module 201 of FIG. 1 . Further including an anti-reflection layer 272 and a hard coat layer 24 The anti-reflection layer 272 is disposed on the hard coating layer 240 to effectively reduce the adverse effect of the light reflection on the display module 202. The common electrode layer 230 and the gas barrier layer 250 are formed on The two sides of the first substrate 262θ, and the hard coat layer 240 and the anti-reflection layer 272 are formed on the first substrate 262
Γ 5: T 11 201118824 WP9711-C400-0881 31792twf.doc/n 相對的另一側。如此一來,無須額外增加使用基板以及光 學膠或雙面膠即可將抗反射層272、硬塗層24〇以及阻氣 層250配置於電子紙基板220上。因此,顯示模組2〇2可 具有較薄的厚度與較佳的顯示品質。此外,在此必須說明 的是,此處之第一基板262例如是一三乙酸纖維素 (triacetyl cellulose,TAC )材質的基板。 —立圖If為本發明第十二實施例之—種顯示模組的剖面 示思圖。请參考圖12,圖12顯示模組203與圖π之顯示 模組202相似,惟二者主要差異之處在於:圖12之顯示模 組期更包括-彩色濾、光膜層28〇,位於第一基板262與 阻氣層250之間,而阻氣層25〇位於彩色濾光膜層與 共用電極層230之間。因此,顯示模組2〇3可具有較薄的 ^度與較佳的顯示品質,並藉由彩色濾光膜層28()使顯示 模組203具有彩色化顯示功能。 -立圖13為本發明第十三實施例之一種顯示模組的剖面 不思圖。請參考圖13,圖13顯示模組204與圖12之顯亍 模組203相似,惟二者主要差異之處在於:圖13之顯示、模 f 204的第一基板262兩側的膜層配置順序不同。詳細而 二,阻氣層25〇位於第一基板262與彩色濾光膜層· 曰 1 ’且彩色遽光膜層280位於阻氣層⑽與共用電極層23〇 圖14為本發明第十四實施例之一種顯 不意圖。請參考圖Μ,圖Η顯示模組2〇5與圖13 =面 模組204相似,惟二者主要差異之處在於:圖14之顯^ 201118824 WP97U-C400-0881 31792twf.doc/n 組205更包括一抗污層274,配置於抗反射層272上,可 用以防止外界汙染物附著於抗反射層272上。 圖15為本發明第十五實施例之一種顯示模組的剖面 示意圖。請參考圖15,圖15之顯示模組206與圖13之顯 示模組204相似,惟二者主要差異之處在於:圖15之顯示 模組206更包括一第一觸控電極層292以及一第二觸控電 極層294,其中第一觸控電極層292、.第二觸控電極層2舛 以及共用電極層230彼此電性絶緣。 詳細而言,本實施例之顯示模組2〇6還包括一第二基 板264與多個間隙物266。第一觸控電極層292位於間隙 物266與抗反射層272之間,第二觸控電極層294位於間 隙物266與第二基板264之間,且第二基板264位於顯示 模組206的最外層。第一基板262、第二基板264、間隙物 266、第一觸控電極層292以及第二觸控電極294可構成一 電阻式觸控面板。因此,第一基板262的一側依序配置了 硬塗層240、抗反射層272以及第一觸控電極層292,且第 —觸控電極層292直接接觸抗反射層272。另外,阻氣層 250、彩色濾光膜層280以及共用電極層23〇依序配置於第 -基板202的另-側。如此—來,電阻式觸控面板無須額 外增加使用基板以及光學膠或雙面膠即可配置於電子紙基 板220上。因此,本實施例之顯示模組2〇6除了可具有彩 色化顯示功能外,亦具有觸控功能以及較薄的厚度了 —圖16為本發明第十六實施例之一種顯示模組的剖面 示意圖。請參考圖16,圖16之顯示模組2〇7與圖15之顯Γ 5: T 11 201118824 WP9711-C400-0881 31792twf.doc/n The opposite side. In this way, the anti-reflection layer 272, the hard coat layer 24, and the gas barrier layer 250 can be disposed on the electronic paper substrate 220 without additionally using a substrate and an optical adhesive or a double-sided tape. Therefore, the display module 2〇2 can have a thinner thickness and better display quality. In addition, it should be noted here that the first substrate 262 herein is, for example, a substrate made of triacetyl cellulose (TAC). - Figure If is a cross-sectional view of a display module of the twelfth embodiment of the present invention. Referring to FIG. 12, FIG. 12 shows that the module 203 is similar to the display module 202 of FIG. π, but the main difference between the two is that the display module of FIG. 12 further includes a color filter and a photo film layer 28〇. The first substrate 262 is between the gas barrier layer 250 and the gas barrier layer 25 is located between the color filter layer and the common electrode layer 230. Therefore, the display module 2〇3 can have a thinner degree and better display quality, and the display module 203 has a colorized display function by the color filter layer 28(). - Figure 13 is a cross-sectional view of a display module in accordance with a thirteenth embodiment of the present invention. Please refer to FIG. 13. FIG. 13 shows that the module 204 is similar to the display module 203 of FIG. 12, but the main difference between the two is that the film layer configuration on both sides of the first substrate 262 of the modulo f 204 is shown in FIG. The order is different. In detail, the gas barrier layer 25 is located on the first substrate 262 and the color filter layer 曰1' and the color light film layer 280 is located on the gas barrier layer (10) and the common electrode layer 23. FIG. 14 is the fourteenth embodiment of the present invention. One of the embodiments is not intended. Please refer to the figure Μ, the figure shows that the module 2〇5 is similar to the figure 13=face module 204, but the main difference between the two is: Figure 14 shows ^ 201118824 WP97U-C400-0881 31792twf.doc/n group 205 Further, an anti-staining layer 274 is disposed on the anti-reflective layer 272 to prevent external contaminants from adhering to the anti-reflective layer 272. Figure 15 is a cross-sectional view showing a display module of a fifteenth embodiment of the present invention. Referring to FIG. 15 , the display module 206 of FIG. 15 is similar to the display module 204 of FIG. 13 , but the main difference is that the display module 206 of FIG. 15 further includes a first touch electrode layer 292 and a The second touch electrode layer 294 , wherein the first touch electrode layer 292 , the second touch electrode layer 2 , and the common electrode layer 230 are electrically insulated from each other. In detail, the display module 2〇6 of the embodiment further includes a second substrate 264 and a plurality of spacers 266. The first touch electrode layer 292 is located between the spacer 266 and the anti-reflective layer 272, the second touch electrode layer 294 is located between the spacer 266 and the second substrate 264, and the second substrate 264 is located at the most of the display module 206. Outer layer. The first substrate 262, the second substrate 264, the spacers 266, the first touch electrode layer 292, and the second touch electrode 294 can constitute a resistive touch panel. Therefore, one side of the first substrate 262 is sequentially provided with the hard coat layer 240, the anti-reflection layer 272, and the first touch electrode layer 292, and the first touch electrode layer 292 directly contacts the anti-reflection layer 272. Further, the gas barrier layer 250, the color filter layer 280, and the common electrode layer 23 are sequentially disposed on the other side of the first substrate 202. In this way, the resistive touch panel can be disposed on the electronic paper substrate 220 without additional use of the substrate and the optical glue or double-sided tape. Therefore, the display module 2〇6 of the present embodiment has a touch function and a thin thickness in addition to the color display function. FIG. 16 is a cross section of a display module according to the sixteenth embodiment of the present invention. schematic diagram. Please refer to FIG. 16, the display module 2〇7 of FIG. 16 and the display of FIG.
13 201118824 WP9711-C400-0881 31792twf.doc/n 示模組206相似’惟二者主要差異之處在於:圖之顯示 模組207更包括一抗污層274,其中抗污層274配置於'第 二基板264上,用以防止外界汙染物附著於第二基板264 上。 圖17為本發明第十七實施例之一種顯示模組的剖面 示意圖。請參考圖17,圖17之顯示模組208與圖15之顯 不模組206相似,惟二者主要差異之處在於:圖17之顯示 模組208是採用電容式的觸控面板設計,且其第一基板262 是採用玻璃基板或塑膠基板。詳細而言,在本實施例中, 第一觸控電極層292位於硬塗層24〇與第一基板262之 間,第一觸控電極層294位於第一基板262與阻氣層250 之間。第一觸控電極層292、第二觸控電極層294以及第 —基板262可構成一電容式顯示面板。如此一來,電容式 觸控面板無須額外增加使用基板以及光學膠或雙面膠即可 配置於電子紙基板220上。因此,本實施例之顯示模組208 除了可具有較佳的彩色化顯示功能外,亦具有觸控功能以 及較薄的厚度。 圖18為本發明第十八實施例之一種顯示模組的剖面 不意圖。請參考圖18,圖18之顯示模組209與圖17之顯 不模組208相似’惟二者主要差異之處在於:圖18之顯示 模組209更包括一抗污層274與一絕緣層276,其中抗污 層274配置於抗反射層272上,而絕緣層276配置於第二 觸控電極層294與阻氣層250之間。 值得一提的是,本發明並不限定電子紙基板120、220 14 201118824 WP9711-C400-088 丨 31792tw£d〇c/n 的形態,雖然此處所提及的電子紙基板12〇、22〇具體化包 括電路基板122、222、晝素電極層I%、、顯示介質 126、226、微杯結構128、228以及共用電極層13〇、23〇。 但,於其他表繪不的實施例中,電子紙基板亦可更包括一 對向晝素電極層、-對向顯示介質、多個對向微杯結構以 及-對向共用電極層。其中,對向晝素電極層、對向顯示 介質、對向微杯結構以及對向共用電極層配置於電路基板 之另一側。也就是說,電子紙基板可為雙面的設計。由於 電子紙基板可為雙面之設計,因此本領域的技術人員當可 參照前述實施例的說明,依據實際需求’而選用前述構件, 於電路基板之另一側上配置上述之膜層,以達到所需的技 術效果。 間s之’本實施例之共用電極層230、硬塗層240以 及阻氣層250皆形成於第一基板262上。因此,無須再額 外增加使用基板以及光學膠或雙面膠,可有效減少顯示模 組2〇1〜209的厚度以及降低整體反射率損失。此外,由於 本實施例可直接於第一基板262上形成彩色濾光膜片,因 匕本只知例之顯示模組203〜209可具有較佳的彩色彳匕顯 示功旎。再者,本實施例亦可直接於第一基板262上形成 電阻式觸控面板或電容式觸控面板,如此一來,本實施例 之顯示模組2〇6〜209可具有觸控功能。 ^ 综上所述,本發明因採用電子紙基板的共用電極層、 第—觸控電極層與第二觸控電極層至少其中之一直接接觸 彩色濾光膜層。電子紙基板的共用電極層 '第一觸控電極 15 201118824 WP97H-C4〇〇-〇881 3Π92^〇〇/η ^ ^觸控電極層鄉色遽域層至少其巾之一直接接 Μ雔土板。如此—來’不需額外增加使用基板以及光學 ,或又㈣,即可將耗濾光縣、第—觸控電極層以及 控電極層配置於電子紙基板上。換言之,本發明之 組除了具有彩色化顯示魏與觸控功能的設計外, 降低顯示模組的反射率損失,以使顯示模組具有 Ϊ 品f。此外,本發明亦可使制電極層、硬塗13 201118824 WP9711-C400-0881 31792twf.doc/n The display module 206 is similar 'but the main difference is that the display module 207 of the figure further includes an anti-fouling layer 274, wherein the anti-fouling layer 274 is disposed in the ' The two substrates 264 are configured to prevent external contaminants from adhering to the second substrate 264. Figure 17 is a cross-sectional view showing a display module in accordance with a seventeenth embodiment of the present invention. Referring to FIG. 17, the display module 208 of FIG. 17 is similar to the display module 206 of FIG. 15, but the main difference is that the display module 208 of FIG. 17 is a capacitive touch panel design, and The first substrate 262 is a glass substrate or a plastic substrate. In detail, in the embodiment, the first touch electrode layer 292 is located between the hard coat layer 24 〇 and the first substrate 262 , and the first touch electrode layer 294 is located between the first substrate 262 and the gas barrier layer 250 . . The first touch electrode layer 292, the second touch electrode layer 294, and the first substrate 262 can constitute a capacitive display panel. In this way, the capacitive touch panel can be disposed on the electronic paper substrate 220 without additional use of the substrate and the optical adhesive or the double-sided adhesive. Therefore, the display module 208 of the present embodiment has a touch function and a thin thickness in addition to a better color display function. Figure 18 is a cross-sectional view showing a display module of an eighteenth embodiment of the present invention. Referring to FIG. 18, the display module 209 of FIG. 18 is similar to the display module 208 of FIG. 17, but the main difference is that the display module 209 of FIG. 18 further includes an anti-fouling layer 274 and an insulating layer. 276, wherein the anti-staining layer 274 is disposed on the anti-reflective layer 272, and the insulating layer 276 is disposed between the second touch electrode layer 294 and the gas barrier layer 250. It is worth mentioning that the present invention does not limit the form of the electronic paper substrate 120, 220 14 201118824 WP9711-C400-088 丨31792 twd dc/n, although the electronic paper substrate 12 〇, 22 此处 mentioned here The embodiment includes circuit boards 122, 222, a halogen electrode layer I%, display media 126, 226, microcup structures 128, 228, and common electrode layers 13A, 23A. However, in other embodiments, the electronic paper substrate may further include a pair of fluorene electrode layers, an opposite display medium, a plurality of opposing microcup structures, and a counter-common electrode layer. The opposite pixel layer, the opposite display medium, the opposite microcup structure, and the counter common electrode layer are disposed on the other side of the circuit board. That is to say, the electronic paper substrate can be a double-sided design. Since the electronic paper substrate can be a double-sided design, those skilled in the art can select the above-mentioned components according to the actual needs of the above-mentioned embodiments, and arrange the above-mentioned film layer on the other side of the circuit substrate. Achieve the desired technical effect. The common electrode layer 230, the hard coat layer 240, and the gas barrier layer 250 of this embodiment are formed on the first substrate 262. Therefore, it is not necessary to additionally increase the use of the substrate and the optical glue or the double-sided tape, which can effectively reduce the thickness of the display module 2〇1 to 209 and reduce the overall reflectance loss. In addition, since the color filter film can be formed directly on the first substrate 262 in this embodiment, the display modules 203 to 209 of the present invention can have a better color display function. Furthermore, the present embodiment can also form a resistive touch panel or a capacitive touch panel directly on the first substrate 262. Thus, the display modules 2〇6 to 209 of the embodiment can have a touch function. In summary, the present invention directly contacts the color filter layer by using at least one of the common electrode layer, the first touch electrode layer and the second touch electrode layer of the electronic paper substrate. The common electrode layer of the electronic paper substrate 'first touch electrode 15 201118824 WP97H-C4〇〇-〇881 3Π92^〇〇/η ^ ^The top layer of the touch electrode layer is at least one of the towels directly connected to the soil board. In this way, the filter-filtering county, the first touch electrode layer, and the control electrode layer can be disposed on the electronic paper substrate without additional use of the substrate and the optical, or (4). In other words, in addition to the design of the color display display and the touch function, the group of the present invention reduces the reflectance loss of the display module so that the display module has the defective product f. In addition, the present invention can also make the electrode layer and hard coat
阻乳層形成於第—基板上,以同時將共用電極層、 ^層以及阻氣層整合於相同的基板上。如此—來,可有 效提咼顯示模組的性能與可延長其壽命。 然本發明已以實關減如上,然其並非用以限定 本二月之技術領域中具有通常知識者,在不脫離 心^ ^内,當可作些許之更動與潤飾,故本 '之保濩乾圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 貫施例至第十八實施例The barrier layer is formed on the first substrate to simultaneously integrate the common electrode layer, the layer, and the gas barrier layer on the same substrate. In this way, the performance of the display module can be effectively improved and its life can be extended. However, the present invention has been reduced as above, but it is not intended to limit the ordinary knowledge in the technical field of this February, and it is possible to make some changes and refinements without departing from the heart. The scope of the patent application scope attached to the company is subject to the definition of patent application. [Simplified illustration of the drawings] From the example to the eighteenth embodiment
圖1至圖18為本發明之第一 之顯示模組的剖面示意圖。 【主要元件符號說明】 101〜109、201〜209 :顯示模組 12() ' 220 :電子紙基板 122 ' 222 :電路基板 124、224 :畫素電極層 16 201118824 WW/U-C400-0881 31792twf.doc/n 126、226 :顯示介質 128、228 :微杯結構 130、230 :共用電極層 142、292 :第一觸控電極層 144、294 :第二觸控電極層 150、280 :彩色濾光膜層 162、262 :第一基板 164、264 :第二基板 ® 166、266:間隙物 172、192 :第一絕緣層 174、194 :第二絕緣層 180 :保護層 240 :硬塗層 250 :阻氣層 272 :抗反射層 274 :抗污層 • 276 :絕緣層 Γ 1 171 to 18 are schematic cross-sectional views showing a first display module of the present invention. [Description of main component symbols] 101 to 109, 201 to 209: display module 12 () '220 : electronic paper substrate 122 ' 222 : circuit substrate 124, 224 : pixel electrode layer 16 201118824 WW/U-C400-0881 31792twf .doc/n 126, 226: display medium 128, 228: microcup structure 130, 230: common electrode layer 142, 292: first touch electrode layer 144, 294: second touch electrode layer 150, 280: color filter Light film layers 162, 262: first substrates 164, 264: second substrate ® 166, 266: spacers 172, 192: first insulating layer 174, 194: second insulating layer 180: protective layer 240: hard coat layer 250 : Gas barrier layer 272 : Anti-reflection layer 274 : Anti-fouling layer • 276 : Insulation layer Γ 1 17