M430021 五、新型說明: 【新型所屬之技術領域】 本創作係有關於一種觸控感測裝置,特別是有關於一 種具有對位用之接合標記的觸控感測裝置。 【先前技術】 在習知觸控感測裝置製程中,觸控面板和軟性印刷電 路板的接合過程通常可以藉由例如電荷耦合元件(Charge φ Coupled Device,CCD)來抓取設置於觸控面板和軟性印刷 電路板上的接合標記以進行對位。 然而,以單板觸控面板之觸控感測裝置舉例來講’由 於遮光層(Mask Layer)是直接設置於觸控面板上,因此將無 法使用電荷熬合元件來進行觸控面板和軟性印刷電路板之 間的對位。請參考第1圖,為習知觸控感測裝置的接合示 意圖,其是以***圖的方式來繪製,以便於說明觸控感測 裝置的各元件之間的位置關係。如第1圖所示,觸控面板 * 120具有相對設置的正面142和背面144,並且觸控面板 120的背面144的部分區域設置有遮光層122,以做為一遮 光區,通常遮光層122是設置於觸控面板120的邊緣區域, 用來遮蔽與隱藏設置在觸控面板120周邊的導電線路。而 觸控面板120的接合標記128則是進一步設置在遮光層122 上。 另外,軟性印刷電路板130具有相對設置的接合面132 和非接合面134,其中接合面132是面對觸控面板120的 遮光層122。而軟性印刷電路板130的接合標記138是設 M430021 置於接合面132上’且面對觸控面板120的接合標記128 此外’觸控面板120與軟性印刷電路板丨3〇再藉由羝 彼此接合。 曰々> 126 如此一來,假設欲從觸控面板〗2〇的正面142(方向 進行對位,觸控面板120的接合標記128和軟性印刷電5^) 板130的接合標記138會因為遮光層122阻擋而無法用肉 眼或用電荷耦合元件(CCD)來進行對位。另外,若欲從軟 性印刷電路板130的非接合面134(方向140)進行對位,^ 因為軟性印刷電路板130的材質通常為半透明,而目前的 電荷耦合元件(CCD)無法穿過半透明材質來分辨出觸控面 板120的接合標記128,因此亦只能用肉眼來進行手動對 位,無法用電荷耦合元件(CCD)進行對位。 由此可見’習知若有需要在遮光層的位置進行對位接 合的觸控感測裝置’其製程將因精確度不足而降低觸控感 測裝置的可靠度。因此,有必要尋求一種新的觸控感測裝 置之對位設計,以期改善或避免上述的問題。 【新型内容】 有鑑於此’本創作在觸控感測裝置的接合標記 (bonding mark)上進行標記位置的改良設計,使得觸控面板 之接合標記及軟性印刷電路板之接合標記之間具有對位關 係’而得以簡單透過光學檢測裝置或肉眼來加以對位,進 而增強對位精準度而提升觸控感測裝置的可靠度。 本創作一實施例提供一種觸控感測裝置,包括一觸控 面板,包括一第一接合標記;一軟性印刷電路板,具有一 m43〇〇2i 觸控面板接合的接合面和—麵合面,上述軟性印 电板,包括-第二接合標記,設置於上述非接合面, 並且上述第二接合# 91 # 係。 払6己與上迷弟一接合標記形成一對位關 藉此,本創作之觸控感測裝置在製程上除了更 動設計用來提供給光學感測裝置自 確度、辦㈣人迦」 外更可提高對位精 良率。曰口的可靠度而提升觸控感測裝置的生產 【實施方式】 以下各實施例在圖式或說明書描述中’相似或相同之 :=使用相同之圖號。且在圖式中,實施例之形狀或 疋厚度可擴大’並以簡化或是方便標示。再者,圖式中 各兀件將分職述’而圖中铸示或描述之元件 屬技術領域中具有通常知識者所知的形式。 本創作實施例所提供的觸控感測裝置可例如是搭配— 種直接將-遮光層(Mask Layer)設置於觸控面板上的 觸控面板、雙板觸控面板、混合式(Hybdd)觸控面板等 此並無加以限制。其中’所謂的雙板觸控面板即是包含— 保護用基板(CoVer Lens)及一觸控基板;而所謂的單板觸押 面板即是賴控制電極直接形成於鱗隸板上,夢Z 省去雙板觸控面板中的觸控基板。而為了方便說明,二 的實施例將皆以單板觸控面板來進行舉例說明。 5 M430021 請參考第2圖,為本創作之觸控感測裝置的實施例上 視示意圖。如圖所示,本實施例之觸控感測裝置5〇〇包含 一觸控面板200及一軟性印刷電路板(FPc)300。其中,觸 控面板200包括一第一接合標記208,軟性印刷電路板3〇〇 則具有一與觸控面板200接合的接合面(圖未示)及一非接 合面304,並且軟性印刷電路板300更包括一第二接合標 記308。其中,第一接合標記308是設置於非接合面304 並與第一接合標δ己208形成一對位關係。更具體來講,第 二接合標記308是以對齊於軟性印刷電路板3〇〇的側邊邊 緣之態樣來設置於非接合面304上。 觸控面板200更包括一可視區204、一環繞可視區204 的遮光區202、一接合區(Bonding Area)206及一終端導線 介面212。在實際設計上,遮光區202可例如是透過塗佈 一遮光層於觸控面板200之基板所形成,並且接合區206 是設置於遮光區202内’而所謂的接合區206是定義為觸 控面板200用來與軟性印刷電路板300接合的區域。再 者,第一接合標記208及終端導線介面212則是進一步設 置於接合區206内。 承上所述,本實施例觸控感測裝置在製程上得以不受 _控面板200上的遮光區202影響,而利用設置於軟性印 %電路板300之非接合面304上的第二接合標記3〇8來與 咬薏於觸控面板200上的第一接合標記208進行對位。其 中,第一接合標記208及第二接合標記308的形狀及數量 教非為本創作實施例所限制。本說明書所揭露之實施例中 的第一接合標記208及第二接合標記308的形狀及數量是 M430021 相互對應,形狀是例如為L型,而數量則是採成對設計, 並以左右鏡射的方式來對稱設置,藉以更能確保前、後、 左、右位置的對位精4度。當然,除上述的L型之外,第 一接合標記208及第二接合標記308更可設計為T型、十 字型等形狀。 請再參考第3圖,為第2圖的A部分的局部放大圖。 由第3圖更可清楚看到,當軟性印刷電路板300接合於觸 控面板200時,由於軟性印刷電路板300的第二接合標記 • 208是設計在非接合面304上,因此製程上可以透過光學 檢測裝置(如:電荷耦合元件(CCD))或肉眼來從第2圖之上 視圖的視角進行對位,以利用原本已設置於遮光區202内 預設位置的第一接合標記208來做為第二接合標記308的 前、後、左、右的對位基準。其中,由於本實施例的第一 接合標記208及第二接合標記308皆是設計為L型,因此 第二接合標記308會與部分的第一接合標記208形成重疊。 以下再分別針對本創作實施例的觸控面板200及軟性 ® 印刷電路板300做進一步的揭露說明。 第4圖為本創作實施例之觸控面板200的上視圖,用 來揭示觸控面板200的背面設計態樣,所謂的背面也就 是實際使用時非使用者所接觸的表面。如第4圖所示, 柵狀的終端導線介面212是設置於接合區206内,用來做 為觸控面板200對外的電性連接介面。另外,本實施例成 對設計的第一接合標記208則是以左右鏡射的方式來對稱 設置於終端導線介面212的左右兩外側,並分別與終端導 線介面212相隔一距離。而由於成對的第一接合標記208 7 M430021 為左右鏡射關係,因此設置於圖右側之第一接合標記2〇8 為L型,而設置於圖左側之第一接合標記2〇8為反L型。 第5圖為第4圖的接合區206的局部放大圖。如第5 圖所示,第一接合標記208具有一第一基部216和至少兩 個第一延伸部214、218。其中,所述的兩個第一延伸部 214 218的一端分別連接第一基部216的兩相鄰侧邊,且 另-端分別沿不同方向延伸’以形成所謂的L型之標記態 樣。具體來說’第—延伸部214例如沿垂直方向延伸,而 第-延伸部218例如沿水平方向延伸,並賴形成的第一 延伸部214、218具有寬度W1和長度u。 睛同時參考第6a圖及第 • ^ /4 Μ个君|]作一 f絲 性=電路板3⑻的接合面3(^非接合面3〇4的 =:本:施例之軟性印刷電路板3〇〇可例如由高分子 的接^面^2構成。如第以圖所示,軟性印刷電路板3〇〇 得以H 刷電路板細接合於觸控面板細時, 連接終端導線介面212。其中,電信腳位介 m電材料所構成。而如$ 6b圖所示 二 5又计的第二接合標記308同樣為成對 : 鏡射的方式來對稱設置。此外,朗:以左右 之間的間距是對應於第4圖所示C標記308 208之間的間距。 攻對的弟一接合標記 #再參考幻圖,為第6b圖的” 如第7圖所示,第 /刀的局部放大圖< 接口 m〇8包含一第二基部316和 M430021 至少兩個第二延伸部314、318。i中,%a ^ ^ 、 所述的兩個第二延 伸部314、318的一端分別連接第二基部 丞。丨3丨6的兩相鄰側 邊,且另-端分別沿不同方向延伸,以形成所謂的l型之 標記態樣。具體來說’第二延伸部314例如沿垂直方向延 伸,而第二延伸部分318例如沿水平方向延伸。其中,沿 垂直方向延伸的第二延伸部314是延伸對齊於軟性印刷^ 路板300的侧邊邊緣324 ;而左右兩個沿水平方向延伸的 第二延伸部318則分別延伸至對齊於軟性印刷電路板3〇〇 的側邊邊緣326、328,並且所形成的第二延伸部314、318 具有寬度W2及長度L2。 在設計上,本實施例之第二延伸部314、318的寬度 W2是設計等於第5圖所示之第一延伸部分214、218的寬 度W1,並且第一延伸部214、218的長度L1是大於第二 延伸部314、318的長度L2,使得在第二基部316的形狀 大小等於第一基部216的形狀大小之條件下,部分的第一 φ 延伸部214、218能在軟性印刷電路板300接合於觸控面板 200時顯露於軟性印刷電路板3〇〇之外而達到提供對位基 準的目的。具體來講,第二接合標記308的第二延伸部 314(垂直延伸)與第一接合標記2〇8的第一延伸部214(垂直 延伸)是做為左右對位的接合標記,而第二接合標記308的 第二延伸部分318(水平延伸)與第一接合標記208的第一延 伸部分218(水平延伸)是做為上下對位的接合標記。 此外’在本創作的一實施例中,可如第6a圖所示,選 擇性地在軟性印刷電路板300的接合面3〇2上進一步設置 一第二接合標記408。其中,第三接合標記408是設計對 9 M430021 應於軟性印刷電路板300的非接合面304上的第二接合標 記308的至少一部分。本創作並無加以限制第三接合標記 408的形狀、大小及數量,只要當軟性印刷電路版300與 觸控面板200進行接合時,第三接合標記408可進一步用 來對位於觸控面板200的第一接合標記208即可,通常是 用來進一步提供給肉眼對位時所需的對位基準。 本實施例的第三接合標記408是簡單設計為對應於第 二接合標記308的第二基部316的形狀、大小及數量。因 此,就接合後的整體觸控感測裝置500來看,第一接合標 記208的第一基部216、第二接合標記308的第二基部316 及第三接合標記408會完全重疊,並且在架構上,第三接 合標記408與第一接合標記208會因而形成疊置。 再者,在本創作的另一實施例中,所謂的L型接合標 記更可稍加變形,請參考第8圖,為本創作觸控感測裝置 的接合標記的另一實施例上視示意圖。如圖所示,本實施 例中的第一接合標記208e及第二接合標記308e的形狀及 數量同樣是相互對應,其形狀是例如設計為雙重L型。如 此一來,在本實施例中,設置於觸控面板200上的第一接 合標記208e同樣可以與設置於軟性印刷電路板300之非貼 合面304上的第二接合標記308e形成一對位關係,而達到 前、後、左、右的精確對位。 另外,圖8的實施例更可進一步於軟性印刷電路板300 之貼合面(圖未標示)上設置一第三接合標記408e,其設計 態樣如前述實施例所述,在此不再加以贅述。藉以在軟性 印刷電路板300接合於觸控面板200時,進一步提供對位 料30021 於第—接合標記208e的對位基準。 本創作實施例進一步提供一種觸控感測裝置的製造方 法由於本貫施例是例如基於第3、5及7圖的實施例態樣 來進行製造方法的說明,因此有關觸控面板2〇〇及軟性印 刷電路板300的詳細架構就不再加以贅述。首先,提供一 觸控面板200及一軟性印刷電路板3〇〇,其中觸控面板2〇〇 包括一第一接合標記208 ’而軟性印刷電路板300具有一 春與觸控面板200接合的接合面302和一非接合面304,並 且軟性印刷電路板300更包括一設置於非接合面304的第 二接合標記308。 接著’從軟性印刷電路板300的非接合面304的視角 進行一對位製程,以利用第一接合標記208來做為第二接 合標記308的對位基準。由於本實施例的第一接合標記208 的第一延伸部214、218的長度是分別大於第二接合標記 308的第二延伸部314、318,因此第二接合標記3〇8將與 φ 部分的第一接合標記2〇8重疊,並得以形成對位關係。 最後’根據第一接合標記208及第二接合標記308之 間的對位來進行一接合製程,用以將軟性印刷電路板300 的接合面3〇2接合於觸控面板200。綜上所述,本創作透 過觸控面板和軟性印刷電路板上的接合標記(bonding mark) 的设计改良,在軟性印刷電路板接合於觸控面板的製程 上,不僅可以方便利用肉眼來進行對位,更可利用電荷耦 合几件(CCD)來進行全自動的對位接合製程。更重要的 疋’對於將軟性印刷電路板接合於具有遮光區的觸控面板 的製程上’更可因本創作的軟性印刷電路板的接合標記是 M430021 設置於軟性印刷電路板的非接合面i,因㈣位上不合受 到遮光區的阻礙,而仍可利用電_合元件來自動對= ,置在觸控面板上的接合標記。整體而言,本創作可以提 兩生產效率、降低生產成本及增強接合製程 升觸控感測裝置的生產良率。 f玍而故 雖然本創作已以較佳實施例揭露如上,然其 限定本創作’任何所屬技術領域中具“ 不脫離本創作之精神和範圍内, 〇識者,在M430021 V. New description: [New technical field] The present invention relates to a touch sensing device, and more particularly to a touch sensing device having an alignment mark for alignment. [Prior Art] In the conventional touch sensing device process, the bonding process of the touch panel and the flexible printed circuit board can usually be grasped and disposed on the touch panel by, for example, a charge coupled device (CCD). And the bonding marks on the flexible printed circuit board to align. However, in the touch sensing device of the single-panel touch panel, for example, since the Mask layer is directly disposed on the touch panel, the charge-bonding component cannot be used for the touch panel and the flexible printing. The alignment between the boards. Please refer to FIG. 1 , which is a schematic view of a conventional touch sensing device, which is drawn in an exploded manner to illustrate the positional relationship between the components of the touch sensing device. As shown in FIG. 1 , the touch panel* 120 has a front surface 142 and a back surface 144 opposite to each other, and a partial area of the back surface 144 of the touch panel 120 is provided with a light shielding layer 122 as a light shielding area. It is disposed on an edge region of the touch panel 120 for shielding and hiding the conductive lines disposed around the touch panel 120. The bonding mark 128 of the touch panel 120 is further disposed on the light shielding layer 122. In addition, the flexible printed circuit board 130 has oppositely disposed bonding faces 132 and non-joining faces 134, wherein the bonding faces 132 are the light shielding layers 122 facing the touch panel 120. The bonding mark 138 of the flexible printed circuit board 130 is disposed on the bonding surface 132 of the M430021 and the bonding mark 128 facing the touch panel 120. In addition, the 'touch panel 120 and the flexible printed circuit board 丨3 〇 Engage.曰々> 126 As such, it is assumed that the front side 142 of the touch panel 211 (alignment in the direction, the joint mark 128 of the touch panel 120, and the flexible printed circuit 5) The light shielding layer 122 is blocked from being aligned by the naked eye or by a charge coupled device (CCD). In addition, if the non-joining surface 134 (direction 140) of the flexible printed circuit board 130 is to be aligned, the material of the flexible printed circuit board 130 is generally translucent, and the current charge coupled device (CCD) cannot pass through the translucent portion. The material distinguishes the bonding mark 128 of the touch panel 120, and therefore can only be manually aligned by the naked eye, and cannot be aligned by a charge coupled device (CCD). Thus, it can be seen that the conventional touch sensing device that needs to be in position to be aligned at the position of the light shielding layer will reduce the reliability of the touch sensing device due to insufficient precision. Therefore, it is necessary to seek a new touch sensing device alignment design to improve or avoid the above problems. [New content] In view of the improved design of the marking position on the bonding mark of the touch sensing device, the bonding mark of the touch panel and the bonding mark of the flexible printed circuit board have a pair The position relationship 'is easily aligned by the optical detecting device or the naked eye, thereby enhancing the alignment accuracy and improving the reliability of the touch sensing device. An embodiment of the present invention provides a touch sensing device including a touch panel including a first bonding mark, and a flexible printed circuit board having a bonding surface of the m43〇〇2i touch panel and a face-to-face The flexible printed circuit board includes a second bonding mark disposed on the non-joining surface, and the second bonding #91#.払6 has formed a pair of positions with the upper buddy, and the touch sensing device of the present invention is designed to provide the optical sensing device with self-determination, and the (4) person is added. Can improve the alignment accuracy. Enhancing the production of the touch sensing device by the reliability of the mouthpiece [Embodiment] The following embodiments are similar or identical in the drawings or the description of the specification: = The same figure number is used. Also, in the drawings, the shape or thickness of the embodiment may be enlarged' and simplified or conveniently labeled. Furthermore, the components in the drawings will be described as separate and the components that are shown or described in the drawings are in the form known to those of ordinary skill in the art. The touch sensing device provided in the present embodiment can be, for example, a touch panel, a dual-layer touch panel, a hybrid (Hybdd) touch that directly sets a Mask layer on the touch panel. The control panel and the like are not limited. The so-called double-plate touch panel includes a protective substrate (CoVer Lens) and a touch substrate; and the so-called single-plate touch panel is a control electrode directly formed on the scale plate, the dream Z province Go to the touch substrate in the dual-panel touch panel. For convenience of description, the second embodiment will be exemplified by a single-plate touch panel. 5 M430021 Please refer to FIG. 2, which is a schematic top view of an embodiment of the touch sensing device of the present invention. As shown in the figure, the touch sensing device 5 of the present embodiment includes a touch panel 200 and a flexible printed circuit board (FPc) 300. The touch panel 200 includes a first bonding mark 208, and the flexible printed circuit board 3 has a bonding surface (not shown) and a non-bonding surface 304 bonded to the touch panel 200, and the flexible printed circuit board The 300 further includes a second engagement mark 308. The first bonding mark 308 is disposed on the non-joining surface 304 and forms a one-way relationship with the first bonding mark δ 208 . More specifically, the second bonding mark 308 is provided on the non-joining surface 304 in a state of being aligned with the side edges of the flexible printed circuit board 3A. The touch panel 200 further includes a visible area 204, a light blocking area 202 surrounding the visible area 204, a bonding area 206, and a terminal wire interface 212. In actual design, the light-shielding region 202 can be formed, for example, by coating a light-shielding layer on the substrate of the touch panel 200, and the bonding region 206 is disposed in the light-shielding region 202. The so-called bonding region 206 is defined as a touch. The area in which the panel 200 is used to engage the flexible printed circuit board 300. Furthermore, the first bond mark 208 and the terminal wire interface 212 are further disposed within the land 206. As described above, the touch sensing device of the present embodiment is not affected by the light blocking region 202 on the control panel 200, and the second bonding disposed on the non-bonding surface 304 of the flexible printed circuit board 300 is utilized. The mark 3〇8 is aligned with the first joint mark 208 that is bitten on the touch panel 200. The shape and number of the first bonding mark 208 and the second bonding mark 308 are not limited by the present embodiment. The shape and number of the first joint mark 208 and the second joint mark 308 in the embodiment disclosed in the present specification are M430021 corresponding to each other, the shape is, for example, an L shape, and the number is a paired design, and the left and right mirrors are shot. The way to set the symmetry is to ensure that the alignment of the front, back, left and right positions is 4 degrees. Of course, in addition to the above-described L-shape, the first bonding mark 208 and the second bonding mark 308 can be designed in a T-shape or a cross-shaped shape. Please refer to FIG. 3 again, which is a partial enlarged view of part A of FIG. 2 . As is more clearly seen from FIG. 3, when the flexible printed circuit board 300 is bonded to the touch panel 200, since the second bonding mark 208 of the flexible printed circuit board 300 is designed on the non-joining surface 304, the process can be Alignment is performed from an angle of view of the top view of FIG. 2 by an optical detecting device (eg, a charge coupled device (CCD)) or a naked eye to utilize a first bonding mark 208 that has been disposed at a preset position in the light blocking region 202. As the alignment reference of the front, rear, left, and right of the second bonding mark 308. Wherein, since the first bonding mark 208 and the second bonding mark 308 of the embodiment are both designed to be L-shaped, the second bonding mark 308 may overlap with a portion of the first bonding mark 208. Further, the touch panel 200 and the soft ® printed circuit board 300 of the present embodiment will be further disclosed below. FIG. 4 is a top view of the touch panel 200 of the present embodiment for revealing the back design of the touch panel 200. The so-called back surface is the surface that is not touched by the user in actual use. As shown in FIG. 4, the gate-shaped terminal wire interface 212 is disposed in the bonding area 206 and serves as an external electrical connection interface of the touch panel 200. In addition, the first bonding marks 208 of the pair designed in the present embodiment are symmetrically disposed on the left and right outer sides of the terminal wire interface 212 in a left-right mirroring manner, and are respectively spaced apart from the terminal wire interface 212 by a distance. Since the paired first joint marks 208 7 M430021 are in a left-right mirror relationship, the first joint mark 2〇8 disposed on the right side of the figure is L-shaped, and the first joint mark 2〇8 disposed on the left side of the figure is reversed. L type. Fig. 5 is a partial enlarged view of the land 206 of Fig. 4. As shown in Fig. 5, the first joint mark 208 has a first base portion 216 and at least two first extension portions 214, 218. Wherein, one end of the two first extending portions 214 218 are respectively connected to two adjacent sides of the first base portion 216, and the other ends are respectively extended in different directions to form a so-called L-shaped marking state. Specifically, the 'first extension portion 214 extends, for example, in the vertical direction, and the first extension portion 218 extends, for example, in the horizontal direction, and the first extension portions 214, 218 formed by the first extension portions 214, 218 have a width W1 and a length u. At the same time, refer to the 6th figure and the ^^ /4 Μ 君 |] for a f-filament = the joint surface 3 of the circuit board 3 (8) (^ non-joining surface 3 〇 4 =: this: soft printed circuit board of the example 3〇〇 can be formed, for example, by a polymer interface 2. As shown in the figure, the flexible printed circuit board 3 is connected to the terminal wire interface 212 by the H-brush circuit board being finely bonded to the touch panel. Wherein, the telecommunications pins are composed of m electrical materials, and the second bonding marks 308, as shown in the figure 6b, are also in pairs: mirrored to symmetrically set. In addition, Lang: between left and right The pitch is corresponding to the spacing between the C marks 308 208 shown in Fig. 4. The tapping of the pair of the first stitching mark # re-reference the phantom, as shown in Fig. 6", as shown in Fig. 7, the part of the / knife Enlarged view < Interface m〇8 includes a second base 316 and M430021 at least two second extensions 314, 318. In i, %a ^ ^, one end of the two second extensions 314, 318 respectively Two adjacent sides of the second base 丞. 丨3丨6 are connected, and the other ends are respectively extended in different directions to form a so-called l-type marking pattern. The second extension 314 extends, for example, in a vertical direction, and the second extension 318 extends, for example, in a horizontal direction. The second extension 314 extending in the vertical direction is extended and aligned with the flexible printed circuit board 300. The side edges 324; and the left and right two second extending portions 318 extending in the horizontal direction respectively extend to the side edges 326, 328 aligned with the flexible printed circuit board 3, and the second extension portion 314 is formed, 318 has a width W2 and a length L2. In design, the width W2 of the second extensions 314, 318 of the present embodiment is designed to be equal to the width W1 of the first extension portions 214, 218 shown in Fig. 5, and the first extension The length L1 of the portions 214, 218 is greater than the length L2 of the second extension portions 314, 318 such that a portion of the first φ extension portion 214, under the condition that the shape of the second base portion 316 is equal to the shape of the first base portion 216, 218 can be exposed outside the flexible printed circuit board 3 when the flexible printed circuit board 300 is bonded to the touch panel 200 to achieve the purpose of providing a registration reference. Specifically, the second extension 314 of the second bonding mark 308 ( The first extension 214 (vertically extending) with the first bonding mark 2〇8 is a bonding mark as a right and left alignment, and the second extending portion 318 (horizontal extension) of the second bonding mark 308 is first The first extension portion 218 (horizontal extension) of the bond mark 208 is an engagement mark that is aligned up and down. Further, in an embodiment of the present creation, as shown in Fig. 6a, selectively on a flexible printed circuit board A second bonding mark 408 is further disposed on the bonding surface 3〇2 of the 300. The third bonding mark 408 is designed to be at least 9 M430021 to the second bonding mark 308 on the non-bonding surface 304 of the flexible printed circuit board 300. portion. The shape, size and number of the third bonding marks 408 are not limited in this creation. When the flexible printed circuit board 300 is bonded to the touch panel 200, the third bonding marks 408 can be further used to face the touch panel 200. The first bond mark 208 is sufficient, and is typically used to provide the alignment reference required for the alignment of the naked eye. The third joint mark 408 of the present embodiment is simply designed to correspond to the shape, size, and number of the second base portion 316 of the second joint mark 308. Therefore, in view of the integrated touch sensing device 500, the first base 216 of the first bonding mark 208, the second base 316 of the second bonding mark 308, and the third bonding mark 408 may completely overlap, and are in the architecture. Upper third bond mark 408 and first bond mark 208 will thus form an overlay. Furthermore, in another embodiment of the present invention, the so-called L-shaped bonding mark can be slightly deformed. Please refer to FIG. 8 , which is a schematic diagram of another embodiment of the bonding mark of the touch sensing device. . As shown in the figure, the shapes and the numbers of the first joint mark 208e and the second joint mark 308e in the present embodiment are also mutually corresponding, and the shape thereof is, for example, designed to be a double L shape. In this embodiment, the first bonding mark 208e disposed on the touch panel 200 can also form a pair of positions with the second bonding mark 308e disposed on the non-bonding surface 304 of the flexible printed circuit board 300. Relationship, and achieve the exact alignment of the front, back, left and right. In addition, the embodiment of FIG. 8 can further provide a third bonding mark 408e on the bonding surface (not shown) of the flexible printed circuit board 300, and the design aspect thereof is as described in the foregoing embodiment, and is not further described herein. Narration. Therefore, when the flexible printed circuit board 300 is bonded to the touch panel 200, the alignment reference of the alignment material 30021 to the first bonding mark 208e is further provided. The present invention further provides a method for manufacturing a touch sensing device. Since the present embodiment is a description of the manufacturing method based on the embodiment of FIGS. 3, 5, and 7, for example, the touch panel 2 The detailed architecture of the flexible printed circuit board 300 will not be described again. First, a touch panel 200 and a flexible printed circuit board 3 are provided. The touch panel 2 includes a first bonding mark 208 ′ and the flexible printed circuit board 300 has a spring bonding with the touch panel 200 . The face 302 and a non-joining face 304, and the flexible printed circuit board 300 further includes a second engagement mark 308 disposed on the non-engaging face 304. A one-way process is then performed from the perspective of the non-joining surface 304 of the flexible printed circuit board 300 to utilize the first bond mark 208 as the alignment reference for the second bond mark 308. Since the lengths of the first extensions 214, 218 of the first bonding marks 208 of the present embodiment are respectively greater than the second extensions 314, 318 of the second bonding marks 308, the second bonding marks 3 〇 8 will be the same as the φ portions The first bonding marks 2〇8 overlap and form a registration relationship. Finally, a bonding process is performed in accordance with the alignment between the first bonding mark 208 and the second bonding mark 308 for bonding the bonding surface 3〇2 of the flexible printed circuit board 300 to the touch panel 200. In summary, the design improves the design of the bonding mark on the touch panel and the flexible printed circuit board, and the flexible printed circuit board is bonded to the touch panel, which is convenient for the naked eye. In place, a charge-coupling couple (CCD) can be used to perform a fully automated alignment process. More importantly, 'for the process of bonding a flexible printed circuit board to a touch panel having a light-shielding area', the bonding mark of the flexible printed circuit board created by the present invention is M430021, which is disposed on the non-joining surface of the flexible printed circuit board. Because the (four) position is not obstructed by the light-shielding area, the electric-shielding element can still be used to automatically mark the joint mark placed on the touch panel. Overall, the creation can increase production efficiency, reduce production costs, and enhance the production yield of the touch-sensing device. Although the present invention has been disclosed in the above preferred embodiments, it is intended to limit the present invention to any of the technical fields that do not depart from the spirit and scope of the present invention.
此本創作之保護_當視後附之^ ^㈣’因 為準。 τ叫專利乾圍所界定者 12 M430021 【圖式簡單說明】 第1圖為習知觸控感測裝置的接合示意圖。 第2圖為本創作之觸控感測裝置的實施例上視示意圖。 第3圖為第2圖的A部分的局部放大圖。 第4圖為本創作實施例之觸控面板的上視圖。 第5圖為第4圖的接合區的局部放大圖。 第6a圖為本創作一實施例之軟性印刷電路㈣非接合 面上視圖。 上視f圖為本創作—實施例之軟性印刷電路板的接合面 第7圖為第6b圖的B部分的局部放大圖。 第8圖為本創作之觸控感測裝置的接 施例上視示意圖。 ^曰]另一貫 【主要元件符號說明】 120〜觸控面板; 122〜遮光層; 126〜黏膠; 128、138〜接合標記; 130〜軟性印刷電路板; 132〜接合面; 134〜非接合面; 140、150〜方向; 142〜正面; 144〜背面; M430021 200〜觸控面板; 202〜遮光區; 204〜可視區, 206〜接合區; 208〜第一接合標記; 212〜終端導線介面; 214、218〜第一延伸部; 216〜第一基部; 300〜軟性印刷電路板; 302〜接合面; 304〜非接合面; 308〜第二接合標記; 312〜電信腳位介面; 314、318〜第二延伸部; 316〜第二基部; 324、326、328〜側邊邊緣; 408、408e〜第三接合標記; 500〜觸控感測裝置; LI、L2〜長度;The protection of this creation _ is attached to ^ ^ (four)' as the standard. τ is defined as the patent dry circumference. 12 M430021 [Simple description of the drawing] Fig. 1 is a schematic diagram of the engagement of the conventional touch sensing device. FIG. 2 is a schematic top view of an embodiment of the touch sensing device of the present invention. Fig. 3 is a partially enlarged view of a portion A of Fig. 2; 4 is a top view of the touch panel of the present embodiment. Fig. 5 is a partially enlarged view of the joint area of Fig. 4. Fig. 6a is a view showing a non-joined surface of a flexible printed circuit (4) according to an embodiment of the present invention. Fig. 7 is a partially enlarged view of a portion B of Fig. 6b. Fig. 7 is a view showing a joint surface of a flexible printed circuit board of the present invention. Fig. 8 is a top plan view showing an embodiment of the touch sensing device of the present invention. ^曰] Another [main component symbol description] 120~ touch panel; 122~ light shielding layer; 126~ adhesive; 128, 138~ bonding mark; 130~soft printed circuit board; 132~ joint surface; 134~ non-joined 140; 150~ direction; 142~ front; 144~ back; M430021 200~ touch panel; 202~ shading area; 204~visible area, 206~ junction area; 208~first bonding mark; 212~ terminal wire interface 214, 218~first extension; 216~first base; 300~soft printed circuit board; 302~joining surface; 304~non-joining surface; 308~second bonding mark; 312~telecommunication pin interface; 314, 318~second extension portion; 316~second base portion; 324, 326, 328~ side edge; 408, 408e~ third joint mark; 500~ touch sensing device; LI, L2~ length;
Wl、W2〜寬度。 14Wl, W2 ~ width. 14