五、新型說明: 【新型所屬之技術領域】 本創作是有關於一種觸控翻 -種顯示品質良好_控_^& U,且特別是有關於 【先前技術】 隨著顯示技術的成熟,gf千# # [ 4不咨廣泛被應用在人類曰常 生活的各種領域之中。尤其是,近二 功能與顯示功能加以整合’使得_、帝 乂 :觸控 χ.^ „ 使侍人類與電子裝置之間的操 更加簡化’制者不須透過鍵盤或滑鼠即可利用觸 控方式進行操作以執行各項指令。 習知的觸控顯示模組是將觸控面板與顯示面板整 合。觸控硫大致可區分為電阻式、電容式、紅外線式及 超音波式等難面板,其巾以電阻式觸控面板與電容式觸 控面板為最常見的產品。而電容式觸控面板由於具有可多 點觸控的雜’可提供更人性化的操作模式而使得電容式 觸控面板逐漸受到市場的青睞。 然而’由於電容式觸控面板上通常會利用金屬走線來 連接多個觸控電極或觸控墊,因此,當使用者在使用由電 容式觸控面板與顯示面板整合而成的觸控顯示模組時,觸 控顯示模组的顯示畫面容易受到干擾。這是因為電容式觸 控面板中的金屬走線會反射光線,造成使用者看到許多微 免的條紋。特別是,當觸控顯示模組顯示較暗的晝面時, 顯示晝面受到影響的程度相當明顯。 M381122 【新塑内容】 本創作提供一種觸控顯示模組,其具有良好的顯示品 質。 本創作提出一種觸控顯示模組,其包括顯示面板、觸 控面板以及光調節片。顯示面板具有上表面以及下表面。 觸控面板配置於顯示面板的上表面上。光調節片配置於觸 控面板遠離顯示面板的一側。當光線經由光調節片進入觸 控顯示模組中時,觸控面板反射部分光線以形成反射光 線’而光調節片用以抑制此反射光線以及此光線至少一者 穿過此光調郎片的穿透率。 在本創作之一實施例中,上述觸控顯示模組更包括下 偏光片’配置於顯示面板的下表面上。 在本創作之一實施例中,上述光調節片為一上偏光 片° 在本創作之一實施例中,上述光調節片為抗反射片。 在本創作之一實施例中,上述觸控面板包括基板、多 條第一感測串列以及多條第二感測串列。多條第—感測串 列配置於基板上並彼此平行,而各第_感測串列包括多個 ,一感測墊以及多個第一連接線。多條第一連接線平行於 第一方向並串接多個第一感測墊。多條第二感測串列配置 於基板上並彼此平行,而各第二感測串列包括多個第二感 測塾以及多個第二連接線。多條第二連接線平行於一第二 方向亚串接多個第二感測墊。多個第一感測墊與多個第二 感測墊共平面,而多條第一連接線電性絕緣於多條第二連 接線。 在,作之一貝靶例中’上述觸控面板更包括介電 曰位於第一連接線與第二連接線之間,以使第__ 電性絕緣於第二連接線。 使弟連接線 在本創作之-實施例中,上述第一 線的材質為金屬。 ^ ^ ㈣ΐί創狀Γ實施财,上述雛面缺包括多條訊 ^串歹^。別連接至多條第—感測串列以及多條第二感 在本創作之—實施例巾,上賴控顯示模組更包括保 覆片,配置於光調節片遠離觸控面板之一側。 在本創作之-實施例中,上述觸控顯示模組更包括光 ’’、相對於顯示面板的下表面而設置。 在賴叙-實施例巾,上賴示面板包括液晶顯示 板、電漿顯示面板或有機電激發光顯示面板。 本創作提出又提出-種觸控顯示模組,包括顯示面 板、觸控面板、抗反射片、下偏光片以及上偏光片。顯示 面板具有上表面以及下表面。觸控面板配置於顯示面板的 上表面上。抗反射片配置於觸控面板遠離顯示面板的一 側。下偏光片配置於顯示面板的該表面上 於顯示面板的上表面上,且上偏光片位於顯示== 面板之間。 本創作提出再提出一種觸控顯示模組,包括顯示面 板、觸控面板以及上偏W。顯示面板具有上表面以及下 M381122 表面。觸控面板配置於顯示面板的上表面上。 置於觸控面板遠離顯示面板的一側。 偏光片配 基於上述,本創作的觸控顯示模組設置有〃 :ί Γ1由外界入射的入射光線與::控面 板反射的反射先射至少—者的穿透率’使得反射光線的 党度減少。如此-來’制者在歸顯示畫面時比較不會 看到條紋產生。 曰 為讓本創作之上述特徵和優點能更明顯易懂,下文特 舉實施例,並配合所附圖式作詳細說明如下。 、 【實施方式】 圖1為本創作一實施例之一種觸控顯示模組的示意 圖。圖2為本創作一實施例之一種觸控顯示模組中觸控^ 板的上視示意圖。圖3為圖2中沿Α-Α,線的剖面示意圖。 請參照圖卜圖2與圖3,觸控顯示模組200包括顯示面板 210 '觸控面板220以及光調節片230。 顯示面板210具有上表面212以及下表面214。在本 實施例中,顯示面板210例如是液晶顯示面板,但本創作 不限於此。在其他的實施例中,顯示面板21〇也可以採用 電漿顯示面板、有機電激發光顯示面板或其他的顯示面板。 此外,本實施例的顯示面板210為液晶顯示面板。因 此為了進行顯示’本實施例的觸控顯示模組200還包括下 偏光片240、上偏光片250以及光源270。下偏光片240 配置於顯示面板210的下表面214上,而上偏光片250配 置於顯示面板的上表面上,且上偏光片250位於_ -品此 21〇與觸控面板220之間。另外,光源270相對於顯示面 板210的下表面214而設置。光源270例如可採用燈^戋 是發光二極體作為顯示光源。值得一提的是,為了觸 控顯示模組200中的元件’觸控顯示模組2〇〇更包括保蠖 片260。保護片260配置於光調節片230遠離觸控面板'22〇 之一側,而在本實施例中,保護片260的材質例如是塑膠 或玻璃。 / 觸控面板220配置於顯示面板210的上表面212上。 如圖2與圖3所示,觸控面板220包括基板222、多條第 一感測串列224以及多條第二感測串列226。多條第一感 測串列224配置於基板222上並彼此平行,而多條第二感 測串列226配置於基板222上並彼此平行。 各第一感測串列224包括多個第一感測墊224a以及 多個第一連接線224b。多條第一連接線224b平行於第一 方向D1並串接多個第一感測塾224a。各第二感測串列226 包括多個第二感測墊226a以及多個第二連接線226b。多 條第二連接線226b平行於第二方向D2並串接多個第二感 測墊226a。多個第一感測墊224a與多個第二感測墊226a 共平面’而多條第一連接線224b電性絕緣於多條第二連接 線 226b。 觸控面板220更包括介電層PV,位於第一連接線224b 與第二連接線226b之間,以使第一連接線224b電性絕緣 於第二連接線226b。此外,觸控面板220還包括多條訊號 M381122 傳輸線228,分別連接至多條第一感測串列224以及多條 第二感測串列226。在本實施例中,第二連接線226b的材 質以及訊號傳輸線228的材質例如為金屬,且訊號傳輸線 公8例如是與第二連接線226b同時形成於基板222上。 舉例來說,當光線L經由光調節片230進入觸控顯示 模組200中時’觸控面板220中的金屬導線(例如第二連接 線226b與訊號傳輸線228)會反射部分光線l以形成反射 光線R。顯示面板210顯示晝面時,反射光線r的存在將 另使用者看到許多亮紋。尤其是’顯示畫面越暗時亮紋越 是明顯。因此,本實施例將光調節片230配置於觸控面板 220遠離顯示面板210的一側。並且,光調節片23〇例如 為抗反射片。此時,光調節片230可防止反射光線r射出 觸控顯示模組200。如此一來,當使用者在觀賞觸控顯示 模組200所顯示的晝面時’使用者不會看到被觸控面板22〇 反射的反射光線R所產生的條紋。換言之,觸控顯示模組 200可具有良好的顯示品質。 圖4為本創作另一實施例之一種觸控顯示模組的示意 圖。請參照圖4,觸控顯示模組300所具有的構件大致上 與觸控顯示模組200相同’其中相同的構件以相同的標號 表示,以下不再重述。 觸控顯示模組300與觸控顯示模組200的主要不同之 處在於’光調節片330為上偏光片。換句話說,圖4所繪 示的實施例是將原本放置在顯示面板210與觸控面板220 之間的上偏光片250(如圖1所示),改成放置在觸控面板 M381122 220遠離顯示面板2l〇的一側。 在圖4所緣示的實施例中,當光線L經由光調節片33〇 進入觸控顯不模組_中時,光調節片现會過濾部分光 線L,使得通過光調節片330而進入觸控顯示模組3〇〇中 的光線L的壳度衰減。由於光線l在通過光調節片33〇後 的亮度會衰減’甚至衰減為原本光線L亮度的一半或更 少,因此,文到觸控面板220反射所形成的反射光線R明 顯地減弱。相較於未配置有光調節片330的設計,本實施 例的反射光線R的亮度大幅地降低。 簡言之’當使用者在觀賞觸控顯示模組3〇〇所顯示的 晝面時’由於反射光線R的亮度大幅衰減,因此使用者不 易見到顯示晝面中的條紋。 圖5為本創作又一實施例之一種觸控顯示模組的示意 圖。請參照圖5,觸控顯示模組400所具有的構件大致上 與觸控顯示模組200相同’其中相同的構件以相同的標號 表示,以下不再重述。 觸控顯示模組400與觸控顯示模組200的主要不同之 處在於顯示面板410為有機電激發光顯示面板或是電漿顯 示面板等自發光形式的顯示面板。 在圖5所繪示的實施例中,觸控顯示模組400所使用 的顯示面板410為自發光的顯示面板,因此觸控顯示模組 400不需設置觸控顯示模組200所使用的下偏光板240、上 偏光板250以及光源270。此外,由於觸控顯示模組400 具有光調節片230,其中光調節片230例如為抗反射片, 9 M381122 因此觸控顯示模組400可具有良好的顯示效果。 圖6為本創作再一實施例之一種觸控顯示模組的示意 圖。請參照圖6,觸控顯示模組500所具有的構件大致上 與觸控顯不模組4〇〇相同’其中相同的構件以相同的標號 表示,以下不再重述。 觸控顯示模組500與觸控顯示模組400的主要不同之 處在於光調節片530為偏光片。換句話說,觸控顯示模組 500可藉由光調節片530來降低光線L穿過光調節片230 的比例’使得光線L在通過光調節片530後的亮度會衰 減’甚至為原亮度的一半。因此,一但觸控面板220反射 光線L而形成反射光線R,反射光線R的亮度也隨之衰 減。相較於未配置有光調節片53〇的設計,本實施例的反 射光線R的亮度大幅地降低。簡言之,觸控顯示模組5〇〇 可藉由光調節片530的設置來大幅改善顯示晝面中的條紋 現象。 在上述的實施例中,觸控顯示模組200、300、400或 500内設置有光調節片230 ' 330或530。當光線L經由光 調節片230進入觸控顯示模組200、300、400或500中時, 觸控面板220反射部分光線L以形成反射光線R,而光調 節片230、330或530用以抑制反射光線R以及光線L至 少一者穿過光調節片230的穿透率。 簡言之,由於反射光線R或光線L的亮度受到光調節 片230所抑制,因此使用者在觀賞觸控顯示模組200、300、 400或500所提供的顯示畫面時,比較不會看到習知技術 ^81122 所提及的條紋。即便觸控顯示模組200、300、400或500 顯示較暗的畫面時,使用者也不容易見到條紋。值得一提 的是,凡是可以抑制反射光線R或光線L的膜片都可以作 .為本發明所述的光調節片230、330或530。因此,上述實 施例中所述的偏光片、抗反射片僅是舉例說明之用,而非 將光調節片限定於此。V. New description: [New technology field] This creation is about a kind of touch-turning type. The display quality is good_control_^& U, and especially related to [prior art] With the maturity of display technology, Gf千## [4] is widely used in various fields of human life. In particular, the integration of the second function and the display function makes _, 帝乂: touch χ.^ „ to simplify the operation between the human and the electronic device. The maker can use the keyboard without touching the keyboard or the mouse. The control mode is operated to execute various commands. The conventional touch display module integrates the touch panel and the display panel. The touch sulfur can be roughly classified into a resistive type, a capacitive type, an infrared type, and an ultrasonic type. The touch-sensitive touch panel and the capacitive touch panel are the most common products, and the capacitive touch panel has a multi-touch type that can provide a more user-friendly operation mode and make the capacitive touch The control panel is gradually favored by the market. However, since the capacitive touch panel usually uses metal traces to connect multiple touch electrodes or touch pads, when the user is using the capacitive touch panel and display When the touch display module is integrated into the panel, the display screen of the touch display module is susceptible to interference. This is because the metal traces in the capacitive touch panel reflect light and cause use. Seeing a lot of micro-stripes. Especially when the touch display module shows a darker face, the degree of influence on the display face is quite obvious. M381122 [New Plastic Content] This creation provides a touch display module. The present invention provides a touch display module including a display panel, a touch panel, and a light adjustment sheet. The display panel has an upper surface and a lower surface. The touch panel is disposed on the upper surface of the display panel. The light adjustment sheet is disposed on a side of the touch panel away from the display panel. When the light enters the touch display module through the light adjustment sheet, the touch panel reflects part of the light to form reflected light, and the light adjustment sheet is used to suppress In one embodiment of the present invention, the touch display module further includes a lower polarizer disposed on a lower surface of the display panel. In one embodiment of the present invention, the light-adjusting sheet is an upper polarizer. In one embodiment of the present invention, the light-adjusting sheet is an anti-reflection sheet. In one embodiment, the touch panel includes a substrate, a plurality of first sensing series, and a plurality of second sensing series. The plurality of sensing-series are arranged on the substrate and parallel to each other, and each The first sensing series includes a plurality of sensing pads and a plurality of first connecting lines. The plurality of first connecting lines are parallel to the first direction and are connected in series with the plurality of first sensing pads. The serially arranged on the substrate and parallel to each other, and each of the second sensing series includes a plurality of second sensing turns and a plurality of second connecting lines. The plurality of second connecting lines are connected in parallel with a second direction. a second sensing pad. The plurality of first sensing pads are coplanar with the plurality of second sensing pads, and the plurality of first connecting wires are electrically insulated from the plurality of second connecting lines. In the example, the touch panel further includes a dielectric raft between the first connecting line and the second connecting line, so that the first __ is electrically insulated from the second connecting line. The splicing line is in the present embodiment - an embodiment The material of the first line is metal. ^ ^ (4) ΐ 创 创 创 Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Do not connect to a plurality of first-sensing series and a plurality of second senses. In the present invention, the control display module further includes a protective sheet disposed on one side of the light-adjusting sheet away from the touch panel. In an embodiment of the present invention, the touch display module further includes light '' disposed relative to a lower surface of the display panel. In the Lai's-implemented towel, the display panel includes a liquid crystal display panel, a plasma display panel, or an organic electroluminescent display panel. The present invention proposes a touch display module including a display panel, a touch panel, an anti-reflection sheet, a lower polarizer, and an upper polarizer. The display panel has an upper surface and a lower surface. The touch panel is disposed on the upper surface of the display panel. The anti-reflection sheet is disposed on a side of the touch panel away from the display panel. The lower polarizer is disposed on the surface of the display panel on the upper surface of the display panel, and the upper polarizer is located between the display == panels. The present invention proposes a touch display module, which includes a display panel, a touch panel, and an upper bias W. The display panel has an upper surface and a lower M381122 surface. The touch panel is disposed on an upper surface of the display panel. Place the touch panel on the side away from the display panel. The polarizer is based on the above, and the touch display module of the present invention is provided with 〃 :ί Γ1 incident light incident from the outside and :: reflection reflected by the control panel, at least the transmittance of the person's cut back. In this way, the producer will not see the occurrence of streaks when the screen is displayed. The above described features and advantages of the present invention will become more apparent from the following description. [Embodiment] FIG. 1 is a schematic view of a touch display module according to an embodiment of the present invention. 2 is a top plan view of a touch panel in a touch display module according to an embodiment of the present invention. Figure 3 is a cross-sectional view of the line taken along line Α-Α in Figure 2. Referring to FIG. 2 and FIG. 3 , the touch display module 200 includes a display panel 210 'the touch panel 220 and the light adjustment sheet 230 . The display panel 210 has an upper surface 212 and a lower surface 214. In the present embodiment, the display panel 210 is, for example, a liquid crystal display panel, but the present creation is not limited thereto. In other embodiments, the display panel 21A may also employ a plasma display panel, an organic electroluminescent display panel, or other display panel. In addition, the display panel 210 of the present embodiment is a liquid crystal display panel. Therefore, the touch display module 200 of the present embodiment further includes a lower polarizer 240, an upper polarizer 250, and a light source 270. The lower polarizer 240 is disposed on the lower surface 214 of the display panel 210, and the upper polarizer 250 is disposed on the upper surface of the display panel, and the upper polarizer 250 is located between the backlight and the touch panel 220. Additionally, light source 270 is disposed relative to lower surface 214 of display panel 210. The light source 270 can be, for example, a light-emitting diode as a display light source. It is worth mentioning that in order to touch the component in the display module 200, the touch display module 2 further includes a security sheet 260. The protective sheet 260 is disposed on one side of the light-adjusting sheet 230 away from the touch panel '22'. In the embodiment, the material of the protective sheet 260 is, for example, plastic or glass. The touch panel 220 is disposed on the upper surface 212 of the display panel 210. As shown in FIG. 2 and FIG. 3, the touch panel 220 includes a substrate 222, a plurality of first sensing series 224, and a plurality of second sensing series 226. The plurality of first sensing series 224 are disposed on the substrate 222 and parallel to each other, and the plurality of second sensing series 226 are disposed on the substrate 222 and parallel to each other. Each of the first sensing series 224 includes a plurality of first sensing pads 224a and a plurality of first connecting lines 224b. The plurality of first connecting lines 224b are parallel to the first direction D1 and are connected in series to the plurality of first sensing turns 224a. Each of the second sensing series 226 includes a plurality of second sensing pads 226a and a plurality of second connecting lines 226b. The plurality of second connecting lines 226b are parallel to the second direction D2 and are connected in series to the plurality of second sensing pads 226a. The plurality of first sensing pads 224a are coplanar with the plurality of second sensing pads 226a and the plurality of first connecting lines 224b are electrically insulated from the plurality of second connecting lines 226b. The touch panel 220 further includes a dielectric layer PV between the first connection line 224b and the second connection line 226b to electrically insulate the first connection line 224b from the second connection line 226b. In addition, the touch panel 220 further includes a plurality of signal M381122 transmission lines 228 connected to the plurality of first sensing series 224 and the plurality of second sensing series 226, respectively. In this embodiment, the material of the second connecting line 226b and the material of the signal transmission line 228 are, for example, metal, and the signal transmission line 8 is formed on the substrate 222 at the same time as the second connecting line 226b. For example, when the light L enters the touch display module 200 via the light regulating sheet 230, the metal wires in the touch panel 220 (for example, the second connecting line 226b and the signal transmission line 228) reflect part of the light 1 to form a reflection. Ray R. When the display panel 210 displays the facet, the presence of the reflected ray r will cause the user to see a number of bright lines. In particular, the darker the display is, the more pronounced the highlights are. Therefore, in this embodiment, the light adjustment sheet 230 is disposed on a side of the touch panel 220 away from the display panel 210. Further, the light regulating sheet 23 is, for example, an anti-reflection sheet. At this time, the light adjusting sheet 230 can prevent the reflected light r from being emitted from the touch display module 200. In this way, when the user views the face displayed by the touch display module 200, the user does not see the streaks generated by the reflected light R reflected by the touch panel 22〇. In other words, the touch display module 200 can have good display quality. FIG. 4 is a schematic diagram of a touch display module according to another embodiment of the present invention. Referring to FIG. 4, the components of the touch display module 300 are substantially the same as those of the touch display module 200. The same components are denoted by the same reference numerals and will not be described again. The main difference between the touch display module 300 and the touch display module 200 is that the light adjustment sheet 330 is an upper polarizer. In other words, the embodiment shown in FIG. 4 is to place the upper polarizer 250 (shown in FIG. 1 ) originally placed between the display panel 210 and the touch panel 220, and is placed away from the touch panel M381122 220. One side of the display panel 2l〇. In the embodiment shown in FIG. 4, when the light L enters the touch display module _ via the light adjustment sheet 33, the light adjustment sheet now filters part of the light L, so that the light is passed through the light adjustment sheet 330. The shell of the light L in the display module 3 is attenuated. Since the brightness of the light 1 after passing through the light regulating sheet 33 is attenuated or even attenuated to half or less of the brightness of the original light L, the reflected light R formed by the reflection to the touch panel 220 is significantly weakened. The brightness of the reflected light R of the present embodiment is greatly reduced as compared with the design in which the light regulating sheet 330 is not disposed. In short, when the user views the facet displayed by the touch display module 3', the brightness of the reflected light R is greatly attenuated, so that the user does not easily see the stripes in the face. FIG. 5 is a schematic diagram of a touch display module according to still another embodiment of the present invention. Referring to FIG. 5, the components of the touch display module 400 are substantially the same as those of the touch display module 200. The same components are denoted by the same reference numerals and will not be described again. The main difference between the touch display module 400 and the touch display module 200 is that the display panel 410 is a self-illuminating display panel such as an organic electroluminescent display panel or a plasma display panel. In the embodiment shown in FIG. 5 , the display panel 410 used by the touch display module 400 is a self-illuminating display panel. Therefore, the touch display module 400 does not need to be disposed under the touch display module 200 . The polarizing plate 240, the upper polarizing plate 250, and the light source 270. In addition, since the touch display module 400 has the light adjustment sheet 230, wherein the light adjustment sheet 230 is, for example, an anti-reflection sheet, 9 M381122, the touch display module 400 can have a good display effect. FIG. 6 is a schematic diagram of a touch display module according to still another embodiment of the present invention. Referring to FIG. 6, the components of the touch display module 500 are substantially the same as those of the touch display module. The same components are denoted by the same reference numerals and will not be described again. The main difference between the touch display module 500 and the touch display module 400 is that the light adjustment sheet 530 is a polarizer. In other words, the touch display module 500 can reduce the proportion of the light L passing through the light regulating sheet 230 by the light adjusting sheet 530, so that the brightness of the light L after passing through the light regulating sheet 530 is attenuated even by the original brightness. half. Therefore, once the touch panel 220 reflects the light L to form the reflected light R, the brightness of the reflected light R is also attenuated. The luminance of the reflected light ray R of the present embodiment is largely lowered as compared with the design in which the light regulating sheet 53 is not disposed. In short, the touch display module 5 can greatly improve the streaking phenomenon in the display pupil by the arrangement of the light adjustment sheet 530. In the above embodiment, the light control sheet 230' 330 or 530 is disposed in the touch display module 200, 300, 400 or 500. When the light L enters the touch display module 200, 300, 400 or 500 via the light regulating sheet 230, the touch panel 220 reflects part of the light L to form the reflected light R, and the light regulating sheet 230, 330 or 530 is used to suppress The transmittance of at least one of the reflected light R and the light L passing through the light regulating sheet 230. In short, since the brightness of the reflected light R or the light L is suppressed by the light regulating sheet 230, the user does not see the display screen provided by the touch display module 200, 300, 400 or 500. The stripe mentioned in the conventional technique ^81122. Even if the touch display module 200, 300, 400 or 500 displays a darker picture, the user does not easily see the streaks. It is worth mentioning that any diaphragm that can suppress the reflected light R or the light L can be used as the light regulating sheet 230, 330 or 530 of the present invention. Therefore, the polarizer and the anti-reflection sheet described in the above embodiments are merely illustrative, and the light-adjusting sheet is not limited thereto.
Jl rf\ ί十口y㈣ϋ卿^卜俱多且tp設置有Jl rf\ ί ten mouth y (four) ϋ ^ ^ ^ ^ ^ ^ ^ ^ ^
片,可抑制光線或反射光線通過光調節片的穿透率,因】 可改善使用者在觀看顯示畫面時看到條紋的現象。換 之,本創作的觸控顯示模組可具有良好的顯示效果。、 雖然本創作已以實施例揭露如上,然其並非用以限 本創作,任何所屬技術領域中具有通常知識者, 範圍内,當可作些許之更動與潤飾,故 創作之賴關當視後附之巾請專利範圍所界定者為準 【圖式簡單說明】The film can suppress the transmittance of light or reflected light passing through the light regulating sheet, which can improve the user to see the streaks when viewing the display screen. In other words, the touch display module of the present invention can have a good display effect. Although the present invention has been disclosed in the above embodiments, it is not intended to limit the creation of the present invention. Anyone who has the usual knowledge in the technical field may make some changes and refinements within the scope of the creation. Attached to the towel, please define the scope of the patent [simplified description]
觸控顯示模組的示意 控顯示模組中觸控面 圖1為本創作一實施例之一種 圖。 圖2為本創作一實施例之一種觸 板的上視示意圖。 圖3為圖2中沿A-A,線的剖面示意圖。 圖4為本創作另—實施例之—示模組的示意 圖5為本創作又—實施例之1觸軸稍組的示意 11 M381122 圖。 圖6為本創作再一實施例之一種觸控顯示模組的示意 圖。 【主要元件符號說明】 200、300、400、500 :觸控顯示模組 210、410 :顯示面板 212 :上表面 214 :下表面 220 :觸控面板 222 :基板 224 :第一感測串列 224a :第一感測墊 224b :第一連接線 226 :第二感測串列 226a :第二感測墊 226b :第二連接線 228 :訊號傳輸線 230、330、530 :光調節片 240 :下偏光片 250 :上偏光片 260 :保護片 270 :光源 A-A,:線 M381122 D1 :第一方向 D2 :第二方向 L :光線 PV :介電層 R :反射光線The touch surface of the touch display module is shown in Fig. 1. Fig. 1 is a view of an embodiment of the present invention. Fig. 2 is a top plan view showing a touch panel according to an embodiment of the present invention. Figure 3 is a cross-sectional view taken along line A-A of Figure 2; Fig. 4 is a schematic view of a module of the present invention. Fig. 5 is a schematic view of a set of 11 M381122 of a set of touch axes of the present invention. FIG. 6 is a schematic diagram of a touch display module according to still another embodiment of the present invention. [Main component symbol description] 200, 300, 400, 500: touch display module 210, 410: display panel 212: upper surface 214: lower surface 220: touch panel 222: substrate 224: first sensing series 224a The first sensing pad 224b: the first connecting line 226: the second sensing series 226a: the second sensing pad 226b: the second connecting line 228: the signal transmission line 230, 330, 530: the light regulating sheet 240: the lower polarizing Sheet 250: upper polarizer 260: protective sheet 270: light source AA, line M381122 D1: first direction D2: second direction L: light PV: dielectric layer R: reflected light