M4116.15 五、新型說明: 【新型所屬之技術領域】 [0001] 本創作是關於一種觸控模組總成,特別是關於一種光學 式的觸控模組總成。 【先前技術】 [0002] 近年來,由於平面顯示器的製造成本顯著地降低,因此 平面顯示器已逐漸成為家庭電視及電腦用螢幕的主流。 此外,因為平面顯示器較傳統上使用陰極射線管 (Cathode Ray Tube,CRT)的電視更加輕、薄,因此, 在火車站、醫院、便利商店或電影院等公共場所,都可 以發現越來越多的平面顯示器,該平面顯示器不但可用 於訊息的顯示’還可用於廣告的目的,其商業上的應用 可說是越來越廣泛。 [0003] 隨著人們對電子設備或平面顯示器在功能上的要求曰趨 多樣化,其相關的科技研發、製造技術也跟著的日新月 異。例如,觸控螢幕(Touch Screen)的需求,可以讓人 們方便操作電腦 '手機、音響、冰箱或其他電子設備; 藉由其螢幕顯示與螢幕按壓操控的方式,人們就可以捨 棄複雜的鍵盤、按鍵操作,透過螢幕清楚標示的圖案與 人性化的介面來同時達到顯示與觸控操作的目的。 [0004] 目前大尺吋觸控螢幕(一般而言大於lo.i吋為大尺寸)逐 漸以光學式觸控來取代傳統的電阻式及電容式觸方式。 然而,光學式的觸控模組所需的元件較多,如果工廠生 產線上的作業人員訓練不良或精神不佳,常常容易在組 裝該觸控模組時,發生錯誤安裝的狀況,導致重新組裝 表單編號A0101 第3頁/共25頁 M411615 [0005] [0006] [0007] [0008] [0009] 100年07月19日接正替換頁 的頻率大幅提昇,影響工時與成本。 因此,如何將降低光學觸控功能的顯示器結構之工時與 成本,使觸控模組具有「防呆」的功能,這是本領域具 有通常知識者努力的目標。 【新型内容】 本創作主要目的在於使觸控模組具有「防呆」的功能, 用以降低工廠生產線上錯誤安裝的機率’進而降低顯示 器結構的製造工時與成本》 為了逹成上述目的,本創作提供一種觸控模組總成,該 觸控模組總成包括有一透明板、至少一燈源模組及至少 一光學感測器,該燈源模組為長轴型結構,且可垂直軸 向而射出光線,該燈源模組射出的多條光線構成一光投 射面,該光學感測器設置於該燈源模組軸向端部之處, 且可即時地拍攝該光投射面周邊的不透光物體,該透明 板平行該光投射面且鄰接於該燈源模組周邊;其特徵在 於:該透明板的外表塗覆有至少一塗色區塊,該燈源模 組位於該塗色區塊周邊而相對應設置。 藉此,本創作之觸控模組總成,利用塗色區塊或對位結 構來防止工廠作業人員錯誤安裝的狀況,進而降低生產 製造的工時與成本,具有「防呆」的功效,非常實用。 為使熟悉該項技藝人士瞭解本創作之目的、特徵及功效 ’茲藉由下述具體實施例,並配合所附之圈式,對本創 作詳加說明如後。 【實施方式】 表單編號A0101 第4頁/共25頁 [0010] 100年07月19日 請參閱圖1A,圖1A所繪示為本創作觸控模組總成之第一 只方(2·例的應用示意圖。如圖1A所示’一具有觸控功能的 顯示益結構1 ’其包括有一前框11、液晶面板15、一觸控 模組總成13 ' —背光模組14及一背板12。其中,該背光 模組14係由一光學膜片144、一導光板142、一反射膜片 143、一可見光燈源141所組成。該可見光燈源141用以 發射出可見光的光線,使該光線向右投射至該導光板142 内部’然後,透過該導光板142將光線導引向上,使光線 依序經過該光學膜片144後,進入該液晶面板15,以作為 該液晶面板15的背光源。因此人們從該液晶面板15的外 側(即圖1A的上方)即可看見該液晶面板15所顯示的影像 視訊畫面。該導光板142的目的在於導引光線,使射入的 可見光光線均勻地由該導光板142的上表面(即俗稱的「 出光面」)射出。該光學膜片144可以是擴散膜或增亮膜 。擴散膜的目的在於將光線均勻地擴散混光,增亮膜的 目的在於將擴散混光後的光線收斂聚集,使其在出光視 角上具有較佳的光強度。該反射膜片143的目的在於將往 下射出該導光板142的殘餘光線再度反射回該導光板142 内,增加光線能量的回收利用率》 [0011] 在本實施例中’該背光模組14的可見光燈源141係設置於 該背光模組14的側邊,用以將光線投射至該背光模組14 的導光板142内部,因此俗稱「側邊式」。當然,在其他 實施例中,該背光模組還可以是「直下式」的》 此外,該前框11設置於該液晶面板15上方外側周邊,該 觸控模組總成13設置於該前框11與該液晶面板15之間, 表單編號A0101 第5頁/共25頁 [0012] M411615 ____ Ί50ϊ〇7月19日梭正_頁 該背光模組14設置於該液晶面板15異於該觸控模組總成 13的一側面’也就是說,該觸控模組總成13位於該液晶 面板15的上面,該背光模組14設置於該液晶面板15的下 面。該背板12設置於該背光模組14的反射膜片143外側面 (亦即該顯示器結構的最下方);如此,該前框11與該背 板12分別上下地將該觸控模組總成13、液晶面板15、背 光模組14夾持、包覆並固定在内,用以保護該顯示器結 構1内部的元件,避免分離、脫落》 [0013] 請再同時參閱圖1Α的放大圖與圓1Β,圖1Β所繪示為本創 作第一實施例的燈源模組與透明板的結合示意圖《如圖 所示,該觸控模組總成13包括有一透明板133、一光學感 測器132及兩燈源模組131。該燈源模組131由一燈罩 1311及一導光條1312所組成,該燈罩1311圍繞包覆於該 導光條1312之軸向的側邊’因此,藉由該燈罩1311對光 線的反射與該導光條1312對光線的導引,即可使該燈源 模組131垂直轴向而以水平的方向射出光線。另外,為了 改善習知製造安裝的缺點,本創作係在該透明板133上設 置防呆的結構。該透明板133上面包括有一對位結構1331 ,該對位結構1331上塗覆有一塗色區塊1336,該塗色區 塊1336具有顏色,該燈源模組131位於該對位結構1331 與該塗色區塊1336周邊,且該對位結構1331、塗色區塊 1 3 3 6係同時與該燈源模組131呈上下相對應;此外,該對 位結構1331、塗色區塊1336係與該燈罩1311的輪廓外形 相似’均為長方形的結構,因此,當該燈源模組丨31與該 對位結構1331、塗色區塊1336接觸鄰靠時,該燈源模組 131即可與該對位結構1331、塗色區塊1 336相接而契合 表單編號Α0101 第6頁/共25頁 M411615 100年07月19日按正替換頁 ;亦即將該燈罩1311往下移動,即可使該燈源模組131的 燈罩1311與該透明板133的對位結構1331互相契合而耦 接,藉以達到校準定位的目的《該燈源模組131與該對位 結構1331上下互相對準耦接後,即如圖1B所示,該燈罩 1311的下緣可完全填滿、補平該對位結構1331,並將該 塗色區塊1 336遮住;如此,該導光條1312所射出的光線 即可以完全平貼於該透明板133的上表面,不會被其他結 構所阻擋。在本實施例中,該對位結構1331係凹入該透 明板133,該塗色區塊1336係塗覆於該對位結構1331上 ,且,該塗色區塊1336係可透過墨水、印刷、鍍層等方 式而為之。藉此,工廠作業人員在組裝該顯示器結構1時 ,即可透過該塗色區塊1336的顏色顯示,而得知正確的 組裝位置,減少錯誤安裝的機率,進而降低製造、組裝 的工時與成本。 [0014] 請再同時參閱圖1C,圖1C所繪示為本創作觸控模組總成 之觸控感測示意圖。如圖1C所示,左上方的兩個光學感 測器132及兩個燈源模組131依序相接,下方的光學感測 器132則連接一燈源模組131。如圖1A所示,每一燈源模 組131均為長轴型結構,且設置於該前框π與該透明板 133之間。每一光學感測器132均設置於該燈源模組131 的轴向端部之處,且該光學感測器132係利用其一側而與 該燈源模組131固定相接。另外,多個光學感測器1 32可 分別視需求而設置於該透明板133的兩相對應之角落,或 分別設置於該透明板1 3 3的同一側邊之角落。該透明板 133係鄰接於該燈源模組131的周邊下方之處◊如圖1(:所 示’左方與上方的兩個燈源模組131係分別設置於該透明 表單編號A0101 第7頁/共25頁 M411615 100年07月19日修正_頁 板133垂直的兩側邊,因此上側邊的燈源模組131其軸向 係呈左右方向設置,而其光線則垂直該轴向而朝下射出 :左側邊的燈源模組131其軸向係呈上下方向設置,.而其 光線則垂直該軸向而朝右射出;下方的燈源模組131則位 於該透明板133的下側邊,所以該燈源模組131其軸向係 呈左右方向設置,而其光線則垂直該軸向而朝上射出。 故,左側邊的燈源模組131所射出的光線會分別與上側邊 、下側邊的燈源模組131射出的光線垂直。每一燈源模組 131射出的多條光線會構成一光投射面(未標號)。將該些 燈源模組131設置於該透明板133的上側邊、下側邊與左 側邊,則上、下侧邊的燈源模組131其光投射面係為上下 方向的投射,左侧邊的燈源模組131其光投射面係由左往 右投射。而且,上、下側邊、左側邊的燈源模組131所射 出的多條光線均與該透明板133平行;也就是說,該些光 投射面與該透明板133互呈平行。在較佳實施例中,該燈 源模組131係藉由發光二極趙(Light Emitting Diode ,LED)發射紅外線(Infrared)頻段的不可見光,使不可 見光垂直該燈源模組131的轴向而射出。該透明板133的 材質可為玻璃、壓克力、塑膠、樹脂或其他透明材質的 高分子聚合物。在其他實施例中,該燈源模組131也可以 是藉由冷陰極螢光燈管(Cold Cathode Fluc^eseent Lamps,CCFL)來射出光線。 [0015]該光學感測器132係設置於該前框ii内部的透明板角 落之處,用以即時地拍攝該光投射面周邊的不透光物體 :一般而言,當人們使用該顯示器結構1時,通常會藉由 人的手指HI、H2、H3來達到觸控的目標,因此,如圊lc 表單編號A0101 第8頁/共25頁 M4116.15 100年07月19日核正替換頁 所示,本實施例的不透光物體為人的手指HI、H2、H3, 該手指HI、H2、H3所按壓的位置分別為觸控點PI、P2、 P3。藉由光學感測的方式,即可用以偵測人的手指H1、 H2、H3的位置,進而得到該觸控點PI、P2、P3的位移變 化、速度變化,並用以控制、操作其他電子設備(未繪示 )的軟體或硬體;在此,其感測的原理為:a.利用該光學 感測器132即時地拍攝該透明板133周邊的光投射面,b. 人的手指HI、H2、H3因為不可透光性而產生光線阻斷的 遮斷效應,以及c.兩燈源模組131的光線投射方向互相垂 直;所以,即可由該光學感測器132偵測得到該觸控點P1 、P2、P3其相對應的縱座標與橫座標。因此,不論手指 HI、H2、H3移到該透明板133上的任何一位置,均可被 偵測到。 [0016] 本創作還有其他實施例。請參閱圖2,圖2所繪示為本創 作第二實施例的燈源模組與透明板的結合示意圖。如圖2 所示,該對位結構2331係為方形柱狀結構,且凸出於該 透明板233的上表面,該塗色區塊2336係塗覆於該對位結 構2331的上面,因此工廠的組裝作業人員即可透過該塗 色區塊2336的顏色辨識,而正確地將該燈源模組231安裝 設置於該對位結構2331、塗色區塊2336的左邊,使該燈 罩2311的下緣對齊該對位結構2331,藉以達到校準定位 的目的。還有,該燈罩2311的下緣對齊該對位結構2331 的上表面,可使該燈源模組231所射出的光線不會被其他 結構所阻擋。 [0017] 請同時參閱圖3A與圖3B,圖3A所繪示為本創作第三實施 表單編號A0101 第9頁/共25頁 M411615 1100年07月19日接正春換頁 例的燈源模組與透明板的結合示意圖,圖3B所繪示為本 創作第二實施例的觸控模組總成之俯視圖。如圖3A與圖 3B所不’該透明板333上方的對位結構3331係為兩凸出 的圓弧點狀結構;在該些對位結構3331的左右兩邊分別 各設置有一長條狀的塗色區塊3336,因此,兩塗色區塊 3336係位於該對位結構3331的周邊^該燈罩3311的下側 面則包括有兩個圓柱狀的耦合結構3311A ,每一耦合結構 3311A均凹入該燈罩3311,且分別與一對位結構3331相 對應而可互相契合。如此,工廠的組裝人員透過兩塗色 區塊3336的顏色辯識’將該燈源模組331往下移動時,即 "T使母對位結構3331即可進入一鶴合結構3311A之内 而互相契合、連接。當契合、連接之後,該燈源模組331 與兩塗色區塊3336係互相接觸鄰靠於該塗色區塊3336的 周邊外緣之處。 [0018] 請參閱圖4,圖4所繪示為本創作第四實施例的燈源模組 與透明板的結合示意圖《如圖4所示,該對位結構4 3 31係 位於该透明板433的上面’且其截面呈銀齒狀β在多個對 位結構4331的左右兩邊分別各設置有一長條狀的塗色區 塊4336 ’因此兩塗色區塊4336係分別與該對位結構4331 緊密相鄰。該燈源模組431的燈罩4311下方包括有多個搞 合結構4311Α,多個耦合結構4311Α的外形輪廓與該些對 位結構4331相似、對應且可互相契合,因此工廠的作業 人員亦可藉由鋸齒狀的對位結構4331與耦合結構43ηΑ 來實施校準安裝。 [0019] 請參閱圖5,圖5所繪示為本創作第五實施例的燈源模組 表單編號Α0101 第丨0頁/共25頁 M411615 100年D7fl 19日艇 與透明板的結合示意圖》如圖5所示,該對位結構5331亦 位於該透明板533的上面’且其截面呈弧線的波浪狀,該 塗色區塊5336則塗佈於該對位結構5331上。該燈源模組 531的燈罩5311下方則包括有多個耦合結構53nA,多個 耦合結構5311A的外形輪廓亦與該些對位結構5331相似 、對應且可互相契合》 [0020] 請參閱圖6,圖6所繪示為本創作第六實施例的燈源模組 與透明板的結合示意圖。如圖6所示,該對位結構6331凸 出於該透明板633的上表面,—塗色區塊6336塗覆於該對 位結構6331之上,另一塗色區塊6336則塗覆於該對位結 構6331右邊的透明板633上方;如此,工廠的組裝作業人 員即可透過兩塗色區塊6336的顏色辯識,而將該燈源模 組631安裝設置於該對位結構6331的右邊,使該燈源模組 631與該對位結構633丨緊密對齊相接,藉以達到校準定位 的目的。 [0021] 藉此,塗色區塊的顏色與該對位結構的凹凸結構,目的 均在於定位、辅助安裝。在較佳實施例中,該塗色區塊 係與該對位結構互相獨立,因此,本創作的觸控模組總 成苛以僅在該透明板上塗覆該塗色區塊,或僅設置該對 位結耩;亦即’"塗色區塊"與"對位結構"是互相獨立的 結構,炎不衝突,可同時存在,也可單獨設置。如此, 塗色區塊或對位結構兩者均可達到防呆的效果。 [0022] 綜上所述,本創作之觸控模組總成及其使用的顯示器結 構,利用塗色區塊或對位結構來防止工廠作業人員錯誤 安裝的狀況,進而降低生產製造的工時與成本,具有「 表單编號A0101 笫11頁/共25頁 M411615 100年07月19日核正 防呆」的功效,非常實用。 [0023] 雖然本創作已以具體實施例揭露如上,然其所揭露的具 體實施例並非用以限定本創作,任何熟悉此技藝者,在 不脫離本創作之精神和範圍内,當可作各種之更動與潤 飾,其所作之更動與潤飾皆屬於本創作之範疇,本創作 之保護範圍當視後附之申請專利範圍所界定者為準。 【圊式簡單說明】 [0024] 圖1 Α所繪示為本創作觸控模組總成之第一實施例的應用 示意圖。 [0025] 圖1B所繪示為本創作第一實施例的燈源模組與透明板的 結合示意圖。 [0026] 圖1C所繪示為本創作觸控模組總成之觸控感測示意圖。 [0027] 圖2所繪示為本創作第二實施例的燈源模組與透明板的結 合示意圖。 [0028] 圖3 A所繪示為本創作第三實施例的燈源模組與透明板的 結合示意圖。 [0029] 圖3B所繪示為本創作第三實施例的觸控模組總成之俯視 圖。 [0030] 圊4所繪示為本創作第四實施例的燈源模組與透明板的結 合示意圖。 [0031] 圖5所繪示為本創作第五實施例的燈源模組與透明板的結 合示意圊。 [0032] 圖6所繪示為本創作第六實施例的燈源模組與透明板的結 表單編號A0101 第12頁/共25頁 M4116.15 100年07月19日核正替換頁 合示意圖。 【主要元件符號說明】 [0033] 1 :顯示器結構 [0034] 11 :前框 [0035] 12 :背板 [0036] 13 :觸控模組總成 [0037] 131、231、331、431、531、631 :燈源模組 [0038] 1311、2311、3311、4311、5311 :燈罩 [0039] 3311A、4311A、5311A :耦合結構 [0040] 1312 :導光條 [0041] 132 :光學感測器 [0042] 133、233、333、433、533、633 :透明板 [0043] 1331 、 2331 、 3331 、 433卜 5331 、 6331 : 對位結構 [0044] 1336 、 2336 、 3336 、 4336 、 5336 、 6336 : 塗色區塊 [0045] 14 :背光模組 [0046] 141 :可見光燈源 [0047] 142 :導光板 [0048] 143 :反射膜片 [0049] 144 :光學膜片 [0050] 1 5 :液晶面板 表單编號A0101 第13頁/共25頁 100年07月19日修正_頁 M411615 [0051] HI、H2、H3 :手指 [0052] PI、P2、P3 :觸控點 表單編號A0101 第14頁/共25頁M4116.15 V. New Description: [New Technology Field] [0001] This creation is about a touch module assembly, especially an optical touch module assembly. [Prior Art] [0002] In recent years, since the manufacturing cost of a flat panel display has been remarkably lowered, a flat panel display has gradually become the mainstream of home televisions and computer screens. In addition, because flat-panel displays are lighter and thinner than TVs that traditionally use cathode ray tubes (CRTs), more and more can be found in public places such as train stations, hospitals, convenience stores, or movie theaters. The flat panel display, which can be used not only for the display of messages, but also for advertising purposes, is becoming more and more widely used in commercial applications. [0003] As people's functional requirements for electronic devices or flat-panel displays become more diverse, their related technology research and development and manufacturing technologies are also changing with each passing day. For example, the need for a touch screen allows people to easily operate a computer 'phone, stereo, refrigerator or other electronic device; with its screen display and screen press control, people can abandon complex keyboards and buttons Operation, through the clearly marked pattern on the screen and the user-friendly interface to achieve the purpose of display and touch operation. [0004] At present, large-size touch screens (generally larger than lo.i吋) are gradually replacing the traditional resistive and capacitive touch modes with optical touch. However, the optical touch module requires many components. If the operator on the factory production line is poorly trained or in poor spirit, it is often easy to install the touch module, and the wrong installation situation occurs, resulting in reassembly. Form No. A0101 Page 3 of 25 M411615 [0005] [0006] [0008] [0009] On July 19, 100, the frequency of replacement pages was greatly increased, affecting working hours and costs. Therefore, how to reduce the man-hour and cost of the display structure of the optical touch function, and the touch module has the function of "anti-dwelling", which is an objective of those skilled in the art. [New Content] The main purpose of this creation is to make the touch module have a "anti-dwelling" function to reduce the probability of erroneous installation on the factory production line, thereby reducing the manufacturing man-hours and costs of the display structure. The present invention provides a touch module assembly. The touch module assembly includes a transparent plate, at least one light source module, and at least one optical sensor. The light source module has a long axis structure and can be The light is emitted in a vertical direction, and the plurality of light rays emitted from the light source module form a light projection surface. The optical sensor is disposed at an axial end of the light source module, and the light projection can be taken instantaneously. An opaque object surrounding the surface, the transparent plate is parallel to the light projection surface and adjacent to the periphery of the light source module; and the outer surface of the transparent plate is coated with at least one coloring block, the light source module Located at the periphery of the coloring block and correspondingly set. In this way, the touch module assembly of the present invention utilizes the coloring block or the alignment structure to prevent the factory operator from being erroneously installed, thereby reducing the man-hours and costs of manufacturing, and having the effect of "preventing". Very practical. In order to familiarize the person skilled in the art with the purpose, features and effects of the present invention, the present invention will be described in detail by the following specific embodiments and with the accompanying circle. [Embodiment] Form No. A0101 Page 4 of 25 [0010] Please refer to FIG. 1A for July 19, 100, and FIG. 1A shows the first party of the creative touch module assembly (2· A schematic diagram of an application, as shown in FIG. 1A, a display structure 1 having a touch function includes a front frame 11, a liquid crystal panel 15, a touch module assembly 13', a backlight module 14, and a back The backlight module 14 is composed of an optical film 144, a light guide plate 142, a reflective film 143, and a visible light source 141. The visible light source 141 is used to emit visible light. The light is projected to the right inside the light guide plate 142. Then, the light is guided upward through the light guide plate 142, and the light is sequentially passed through the optical film 144 to enter the liquid crystal panel 15 as the liquid crystal panel 15 . Therefore, the image video screen displayed by the liquid crystal panel 15 can be seen from the outside of the liquid crystal panel 15 (ie, above the FIG. 1A). The purpose of the light guide plate 142 is to guide the light to make the incident visible light. The light is evenly distributed from the upper surface of the light guide plate 142 (ie, The optical film 144 can be a diffusion film or a brightness enhancement film. The purpose of the diffusion film is to uniformly diffuse and mix the light. The purpose of the brightness enhancement film is to converge the light after diffusion and light mixing. The light is collected to have a better light intensity at the light-emitting viewing angle. The purpose of the reflective film 143 is to reflect the residual light that is emitted downward from the light guide plate 142 back into the light guide plate 142, thereby increasing the recovery of light energy. In the present embodiment, the visible light source 141 of the backlight module 14 is disposed on the side of the backlight module 14 for projecting light into the light guide plate 142 of the backlight module 14 . The backlight module can also be "straight down". In other embodiments, the front frame 11 is disposed on the outer periphery of the liquid crystal panel 15. 13 is disposed between the front frame 11 and the liquid crystal panel 15, form number A0101, page 5, total 25 pages [0012] M411615 ____ Ί 50 ϊ〇 July 19 shuttle _ page The backlight module 14 is disposed on the liquid crystal Panel 15 is different from the total touch module The backlight module 14 is disposed on the lower surface of the liquid crystal panel 15. The backlight module 14 is disposed on the backlight module. The outer side of the reflective film 143 of the 14 (ie, the bottom of the display structure); thus, the front frame 11 and the back plate 12 respectively upper and lower the touch module assembly 13, the liquid crystal panel 15, the backlight module 14 clamped, covered and fixed to protect the components inside the structure 1 of the display to avoid separation and falling off [0013] Please refer to the enlarged view and circle 1 of Figure 1 at the same time, Figure 1Β As shown in the figure, the touch module assembly 13 includes a transparent plate 133, an optical sensor 132 and two light source modules 131. The light source module 131 is composed of a lamp cover 1311 and a light guide bar 1312. The lamp cover 1311 surrounds a side edge of the light guide bar 1312. Therefore, the light is reflected by the lamp cover 1311. The light guiding strip 1312 guides the light so that the light source module 131 emits light in a vertical direction and in a horizontal direction. Further, in order to improve the disadvantages of the conventional manufacturing and mounting, the present invention is provided with a foolproof structure on the transparent plate 133. The transparent plate 133 includes a pair of bit structures 1331. The alignment structure 1331 is coated with a coloring block 1336. The coloring block 1336 has a color. The light source module 131 is located at the alignment structure 1331 and the coating. The color block 1336 is peripherally disposed, and the alignment structure 1331 and the coloring block 1 3 3 6 are simultaneously corresponding to the light source module 131; further, the alignment structure 1331 and the coloring block 1336 are The outline of the lamp cover 1311 is similar to that of a rectangular structure. Therefore, when the light source module 丨 31 is in contact with the alignment structure 1331 and the coloring block 1336, the light source module 131 can be The alignment structure 1331 and the coloring block 1 336 are connected to each other and conform to the form number Α0101. Page 6/25 pages M411615 On July 19, 100, the replacement page is pressed; that is, the lamp cover 1311 is moved downward, so that The lamp cover 1311 of the light source module 131 and the alignment structure 1331 of the transparent plate 133 are coupled to each other to be coupled to each other for the purpose of calibration positioning. The light source module 131 and the alignment structure 1331 are vertically coupled to each other. After that, as shown in FIG. 1B, the lower edge of the lamp cover 1311 can be completely filled and filled. The alignment structure 1331 occludes the coloring block 1 336; thus, the light emitted by the light guiding strip 1312 can be completely flat on the upper surface of the transparent plate 133 without being blocked by other structures. In this embodiment, the alignment structure 1331 is recessed into the transparent plate 133, the coloring block 1336 is coated on the alignment structure 1331, and the coloring block 1336 is permeable to ink and printed. , plating and other methods. Thereby, when assembling the display structure 1, the factory operator can display the color of the coloring block 1336 to know the correct assembly position, thereby reducing the probability of erroneous installation, thereby reducing the man-hours of manufacturing and assembly. cost. [0014] Please refer to FIG. 1C at the same time. FIG. 1C is a schematic diagram of touch sensing of the creative touch module assembly. As shown in FIG. 1C, the two optical sensors 132 and the two light source modules 131 are connected in sequence, and the lower optical sensor 132 is connected to a light source module 131. As shown in FIG. 1A, each of the light source modules 131 is of a long axis type and is disposed between the front frame π and the transparent plate 133. Each of the optical sensors 132 is disposed at an axial end of the light source module 131, and the optical sensor 132 is fixedly coupled to the light source module 131 by using one side thereof. In addition, a plurality of optical sensors 1 32 may be respectively disposed at two corresponding corners of the transparent plate 133 as needed, or respectively disposed at corners of the same side of the transparent plate 133. The transparent plate 133 is adjacent to the lower portion of the periphery of the light source module 131. As shown in FIG. 1 (the left and the upper two light source modules 131 are respectively disposed on the transparent form No. A0101. Page / Total 25 pages M411615 100 July 19th revised _ page 133 vertical sides, so the upper side of the light source module 131 its axial direction is set in the left and right direction, and its light is perpendicular to the axial direction And the light source module 131 on the left side is disposed in the vertical direction, and the light is perpendicular to the axial direction and is emitted to the right; the lower light source module 131 is located on the transparent plate 133. The lower side of the light source module 131 is disposed in the left-right direction, and the light is emitted perpendicularly to the axial direction. Therefore, the light emitted by the light source module 131 on the left side is respectively The light emitted by the light source module 131 on the upper side and the lower side is perpendicular. The plurality of light beams emitted from each of the light source modules 131 form a light projection surface (not labeled). The light source modules 131 are disposed. On the upper side, the lower side, and the left side of the transparent plate 133, the upper and lower sides of the light source module 131 The projection surface is a projection in the up and down direction, and the light source surface of the light source module 131 on the left side is projected from left to right. Moreover, the plurality of light source modules 131 of the upper and lower sides and the left side are emitted. The light is parallel to the transparent plate 133; that is, the light projection surfaces are parallel to the transparent plate 133. In the preferred embodiment, the light source module 131 is illuminated by Light Emitting. The Diode (LED) emits invisible light in the infrared band, and the invisible light is emitted perpendicularly to the axial direction of the light source module 131. The transparent plate 133 may be made of glass, acrylic, plastic, resin or other transparent material. In other embodiments, the light source module 131 may also emit light by a cold cathode fluorescent lamp (CCFL). [0015] The optical sense The detector 132 is disposed at a corner of the transparent plate inside the front frame ii for instantly capturing an opaque object around the light projection surface: generally, when people use the display structure 1, they usually borrow Reached by human fingers HI, H2, H3 The target of the touch is therefore the opaque object of the present embodiment is the human finger HI, as shown in the 圊 lc form number A0101 page 8 / 25 pages M4116.15. H2, H3, the positions pressed by the fingers HI, H2, and H3 are touch points PI, P2, and P3, respectively, and can be used to detect the positions of the human fingers H1, H2, and H3 by optical sensing. Further, the displacement change and the speed change of the touch points PI, P2, and P3 are obtained, and the software or hardware for controlling and operating other electronic devices (not shown) is used; the principle of the sensing is: a. The optical sensor 132 instantaneously captures the light projection surface around the transparent plate 133, b. the human finger HI, H2, H3 has a light blocking effect due to opacity, and c. two light sources The light projection directions of the modules 131 are perpendicular to each other; therefore, the corresponding ordinates and abscissas of the touch points P1, P2, and P3 can be detected by the optical sensor 132. Therefore, any position where the fingers HI, H2, H3 are moved to the transparent plate 133 can be detected. [0016] There are other embodiments of the present creation. Please refer to FIG. 2. FIG. 2 is a schematic diagram showing the combination of the light source module and the transparent plate according to the second embodiment of the present invention. As shown in FIG. 2, the alignment structure 2331 is a square columnar structure and protrudes from the upper surface of the transparent plate 233. The coloring block 2336 is coated on the upper surface of the alignment structure 2331, so the factory The assembly operator can correct the color of the coloring block 2336, and correctly install the light source module 231 on the left side of the alignment structure 2331 and the coloring block 2336 to make the lamp cover 2311 The edge is aligned with the alignment structure 2331 for the purpose of calibration positioning. Moreover, the lower edge of the lamp cover 2311 is aligned with the upper surface of the alignment structure 2331, so that the light emitted by the light source module 231 is not blocked by other structures. [0017] Please refer to FIG. 3A and FIG. 3B at the same time, and FIG. 3A shows the light source module of the third embodiment form No. A0101, page 9/25 pages, M411615, July 19, 1100, and the spring page. FIG. 3B is a top view of the touch module assembly of the second embodiment of the present invention. As shown in FIG. 3A and FIG. 3B, the alignment structure 3331 above the transparent plate 333 is a two-arc arc-shaped structure; and the left and right sides of the alignment structures 3331 are respectively provided with a long strip coating. Color block 3336, therefore, two coloring blocks 3336 are located at the periphery of the alignment structure 3331. The lower side of the lampshade 3311 includes two cylindrical coupling structures 3311A, and each coupling structure 3311A is recessed therein. The lampshade 3311 and the pair of bit structures 3331 respectively correspond to each other. In this way, the assembly personnel of the factory can recognize through the color of the two coloring blocks 3336 that when the light source module 331 is moved downward, the "T enables the female alignment structure 3331 to enter a crane structure 3311A. And they fit and connect with each other. After being engaged and connected, the light source module 331 and the two coloring blocks 3336 are in contact with each other adjacent to the peripheral edge of the coloring block 3336. [0018] Please refer to FIG. 4, which is a schematic diagram of the combination of the light source module and the transparent plate according to the fourth embodiment of the present invention. As shown in FIG. 4, the alignment structure 4 3 31 is located on the transparent plate. The upper surface of the 433 has a silver-toothed shape β. On the left and right sides of the plurality of alignment structures 4331, a strip-shaped coloring block 4336 is disposed, respectively. Therefore, the two coloring blocks 4336 are respectively associated with the alignment structure. 4331 is closely adjacent. The light source module 431 has a plurality of engaging structures 4311Α under the lamp cover 4311. The contours of the plurality of coupling structures 4311Α are similar to, corresponding to, and can be matched with the alignment structures 4331, so that the factory operator can also borrow The calibration mounting is performed by the zigzag alignment structure 4331 and the coupling structure 43ηΑ. [0019] Please refer to FIG. 5, which is a schematic diagram of the combination of the light source module form number Α0101 and the second page of the M411615 100 D7fl 19 day boat and the transparent board according to the fifth embodiment of the present invention. As shown in FIG. 5, the alignment structure 5331 is also located on the upper surface of the transparent plate 533 and has an arc shape in cross section. The coloring block 5336 is coated on the alignment structure 5331. A plurality of coupling structures 53nA are disposed under the lamp cover 5311 of the light source module 531. The contours of the plurality of coupling structures 5311A are similar to, corresponding to, and can be matched with the alignment structures 5331. [0020] Please refer to FIG. FIG. 6 is a schematic diagram showing the combination of the light source module and the transparent plate according to the sixth embodiment of the present invention. As shown in FIG. 6, the alignment structure 6331 protrudes from the upper surface of the transparent plate 633, the coloring block 6336 is applied over the alignment structure 6331, and the other coloring block 6336 is applied to The transparent structure 633 on the right side of the alignment structure 6331; thus, the assembly worker of the factory can identify the color of the two coloring blocks 6336, and the light source module 631 is installed on the alignment structure 6331. On the right side, the light source module 631 is closely aligned with the alignment structure 633 , to achieve the purpose of calibration positioning. [0021] Thereby, the color of the coloring block and the concave and convex structure of the alignment structure are all aimed at positioning and auxiliary mounting. In a preferred embodiment, the coloring block is independent of the alignment structure. Therefore, the touch module assembly of the present invention is only required to apply the coloring block only on the transparent plate, or only set The contradiction; that is, the '"painting block" and "alignment structure" are independent structures, which are not conflicting, can exist at the same time, or can be set separately. In this way, both the coloring block or the alignment structure can achieve a foolproof effect. [0022] In summary, the touch module assembly of the present invention and the display structure thereof use the coloring block or the alignment structure to prevent the factory operator from being erroneously installed, thereby reducing the manufacturing man-hours. And the cost, with the form number A0101 笫 11 pages / a total of 25 pages M411615 100 years of July 19, the nuclear defense is very effective, very practical. [0023] While the present invention has been described above with respect to the specific embodiments, the specific embodiments disclosed herein are not intended to limit the present invention, and any one skilled in the art can make various kinds without departing from the spirit and scope of the present invention. The changes and retouchings of the changes and refinements are all within the scope of this creation. The scope of protection of this creation is subject to the definition of the patent application scope attached. [Brief Description] [0024] FIG. 1 is a schematic diagram showing the application of the first embodiment of the creation touch module assembly. 1B is a schematic view showing the combination of the light source module and the transparent plate according to the first embodiment of the present invention. FIG. 1C is a schematic diagram of touch sensing of the creative touch module assembly. 2 is a schematic diagram showing the combination of a light source module and a transparent plate according to a second embodiment of the present invention. 3A is a schematic view showing the combination of the light source module and the transparent plate according to the third embodiment of the present invention. 3B is a top plan view of the touch module assembly of the third embodiment of the present invention. [0030] FIG. 4 is a schematic diagram showing the combination of the light source module and the transparent plate of the fourth embodiment of the present invention. [0031] FIG. 5 is a schematic diagram showing a combination of a light source module and a transparent plate according to a fifth embodiment of the present invention. 6 is a diagram showing the junction form number of the light source module and the transparent plate of the sixth embodiment of the present invention. A0101 page 12/total 25 pages M4116.15 . [Description of main component symbols] [0033] 1 : Display structure [0034] 11 : Front frame [0035] 12 : Backplane [0036] 13 : Touch module assembly [0037] 131, 231, 331, 431, 531 631: Light source module [0038] 1311, 2311, 3311, 4311, 5311: lampshade [0039] 3311A, 4311A, 5311A: coupling structure [0040] 1312: light guide bar [0041] 132: optical sensor [ 0042] 133, 233, 333, 433, 533, 633: transparent plate [0043] 1331, 2331, 3331, 433, 5331, 6331: alignment structure [0044] 1336, 2336, 3336, 4336, 5336, 6336: painted Color block [0045] 14: backlight module [0046] 141: visible light source [0047] 142: light guide plate [0048] 143: reflective film [0049] 144: optical film [0050] 1 5 : liquid crystal panel Form No. A0101 Page 13 of 25 Page 100 July 19th Revision_Page M411615 [0051] HI, H2, H3: Finger [0052] PI, P2, P3: Touch Point Form No. A0101 Page 14/ 25 pages in total