201243666 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種觸控顯示器整合裝置。 【先前技術】 從顯示器技術之發展趨勢,觸控功能逐漸成為顯示螢幕的 必備要件,然而如何依據不同的使用環境,選擇最適合的觸控 技術整合於顯示器中’亦成為重要課題,尤其是將各種觸控面 板技術整合於顯示器中,亦為觸控及顯示技術之開發重點之 —〇 各種觸控技術之應用原理大不相同,但各種類型有它的優 缺點。其中,電阻式觸控技術,透過壓力再經由阻抗值的差異 算出物體位置’可以使用手、鉛筆、信用卡、木棒…等觸控媒 W均可操作’但易受磨損,不適合公共場所使用。電容式觸控 技術,除輕輕觸摸即可感應外,又可進行多點觸控,使用方便 且面板的磨損較少,電容式觸控技術需要使用手指等導電物體 作為觸控媒介。電磁式觸控技術,使用天線板及相對應的電磁 筆,利用線圈產生磁場變化,藉由天線產生之電流變化計算位 置,雖可精確地決定觸控位置,缺點是沒有電磁筆,完全無法 操作。 所以’已有業者提出藉由組合不同的觸控技術於各種應用 裝置之解決方案,以彌補單一觸控技術的缺點。然而,例如於 3 201243666 令華民國專利公告魏TW2咖期巾,揭露整合電容式與 電阻式的1 &式觸控裝置’但是其第一電極圖型與第二電極圖 型之間的空間為空氣,空氣介質可料致電容式觸控感應不 良。又,針對各種應用場合,僅是整合電容式與電阻式觸控技 術’仍有不符合需求的情形,例如在不接觸觸控農置時,電容 式觸控技術無法滿足偵測各種手勢、影像等的需求。 【發明内容】 繁於上述之發明背景’為了符合產業上之要求,本發明之 目的之一在於提供一種觸控顯示器整合裝置,整合光學式、電 容式、電阻式及電磁式觸控面板於一液晶面板上,使裝置隨應 用的需求提供不同程度及準確度的觸控。 本發明之目的之—在於提供—御触示H整合裝置,可 解决下述問題.⑴電容式面板無法支援一般接觸物(非導體 物質)當成觸控條件的問題;⑵電阻式面板,必須用力觸壓 其表面當成觸控條件的問題;⑴電磁式面板,必須使用電磁 感應筆當成觸控條件的問題(當觸控筆不見時,電磁板就失 坆);(4)紅外線式(或光學式)多點觸控時常侧不準確的 問題’藉由上述其他面板技術整合,作為功能性增強的系統整 合。 為了達到上述目的,根據本發明—實施例提供一種觸控顯 示器整合裝置,包括:-液晶顯示模組、—電容及電阻複合式 觸控感測模組、-光學式觸控感測及一電磁式觸控戌測模 201243666 組。磁a日顯不模組,具有—顯示側以及—背面側,該背面側 與該顯示謝目對向。魏_附她制模組,具有 第表面及第一表面,以該第二表面鄰接該液晶顯示模組 之該顯示側。該轉式觸控感峨組,設置於該第-表面。該 電磁式觸城聰組,包含—感應天線板,_應天線板設置 於該背面側。藉由整合控_電容及餘複合式觸控感測模 組、光學式觸贿峨組及該電喊應式觸控感測模組 ,以達 成該觸控顯示器整合裝置的準確觸控。 上述電容及電阻複合式觸控感測模組包含:-第-基板, 具有該第-表面及-第三表面;—第二基板,具有—第四表面 及-第五表面,其中該第四表面與該第—基板的第三表面相對 向’於該第二基板與該第—基板之間構成—第―空間,該第一 空間中包含複數絕緣球;—第—電極層,形成於該第三表面 上’具有-第-圖型;—第二電極層,形成於該第四表面上, 具有-第二圖型;以及—第三電極層,形成於該第五表面上而 構成該電容及電阻複合式觸控感測模組之該第二表面,具有一 第三圖型;其中,藉由該第一電極層、該複數絕緣球及該第二 電極層的構成,進行一電阻式感測,藉由該第一電極層與一觸 控物體之間的電容,進行一電容式感測,使該電容及電阻複合 式觸控感測模組兼具電阻式感測及電容式感測的功能。 於一實施例,該電容及電阻複合式觸控感測模組更包含— 液態介電層’設置於該第一基板與該第二基板之間,其中該液 201243666 私”電層包含一液態介電材料’電阻式感測係利用該第一電極 層、該複數絕緣球、該液態介電層及該第二電極層的構成進行。 於—實施例’該光學式觸控感測模組為一紅外線影像式觸 控感測模紐^ 根據本發明另一實施例提供一種觸控顯示器整合裝置,包 括.液晶顯示模組、上述電容及電阻複合式觸控感測模組及 上述電磁式觸控感測模組。 又,根據本發明另一實施例提供一種觸控顯示器整合裝 置,包括:一液晶顯示模組、上述電容及電阻複合式觸控感測 模組及上述光學式觸控感測模組。 綜上所述,根據本發明的觸控顯示器整合裝置,針對應用 耘式的特點,分別藉由不同的觸控感測技術,使用不同的觸控 方法,達到執行應用程式之最佳化。此外,根據本發明的觸控 顯示器整合裝置,可應用於例如公共場所(自動報到機;201243666 VI. Description of the Invention: [Technical Field] The present invention relates to a touch display integrated device. [Prior Art] From the development trend of display technology, touch function has gradually become an essential requirement for display screens. However, how to select the most suitable touch technology to integrate into the display according to different usage environments has become an important issue, especially The integration of various touch panel technologies into displays has also focused on the development of touch and display technologies. The application principles of various touch technologies are quite different, but various types have their advantages and disadvantages. Among them, the resistive touch technology calculates the position of the object through the pressure and the difference in the impedance value. It can be operated by touch media such as hand, pencil, credit card, wooden stick, etc., but it is susceptible to wear and is not suitable for use in public places. Capacitive touch technology can be multi-touch in addition to light touch, easy to use and less wear on the panel. Capacitive touch technology requires conductive objects such as fingers as the touch medium. The electromagnetic touch technology uses an antenna board and a corresponding electromagnetic pen to generate a magnetic field change by using a coil, and calculates a position by a current change generated by the antenna. Although the touch position can be accurately determined, the disadvantage is that there is no electromagnetic pen and it is completely inoperable. . Therefore, the prior art has proposed to solve the shortcomings of single touch technology by combining different touch technologies in various application devices. However, for example, 3 201243666, the Republic of China patent publication Wei TW2 coffee towel, reveals the integrated capacitive and resistive 1 & type touch device 'but the space between the first electrode pattern and the second electrode pattern For air, the air medium can cause poor capacitive touch sensing. Moreover, for various applications, only the integrated capacitive and resistive touch technologies are still inconsistent with the demand. For example, when the touch-free farm is not touched, the capacitive touch technology cannot satisfy various gestures and images. Waiting for the demand. SUMMARY OF THE INVENTION In order to meet the requirements of the industry, one of the objects of the present invention is to provide a touch display integrated device that integrates an optical, capacitive, resistive, and electromagnetic touch panel. On the LCD panel, the device provides different degrees of accuracy and touch with the needs of the application. The object of the present invention is to provide a touch-sensitive H integrated device, which can solve the following problems: (1) The capacitive panel cannot support the general contact (non-conductor material) as a touch condition; (2) the resistive panel must be forced Touching the surface as a touch condition; (1) Electromagnetic panel, the electromagnetic induction pen must be used as a touch condition (the electromagnetic board fails when the stylus is missing); (4) Infrared (or optical) The problem of inaccurate side-by-side multi-touch is 'integrated with other panel technologies as a functionally enhanced system integration. In order to achieve the above object, an integrated display device for a touch display according to the present invention includes: a liquid crystal display module, a capacitive and resistive composite touch sensing module, an optical touch sensing, and an electromagnetic Touch test module 201243666 group. The magnetic a day display module has a display side and a back side, and the back side is opposite to the display. The invention has a first surface and a first surface, and the second surface is adjacent to the display side of the liquid crystal display module. The rotary touch sensing group is disposed on the first surface. The electromagnetic touch city Cong group includes an induction antenna board, and the _ antenna plate is disposed on the back side. The integrated touch-capacitor and the residual composite touch sensing module, the optical touch-sensitive bridging group and the electric shouting touch sensing module are used to achieve accurate touch of the touch display integrated device. The capacitive and resistive composite touch sensing module comprises: a first substrate having the first surface and a third surface; and a second substrate having a fourth surface and a fifth surface, wherein the fourth The surface is opposite to the third surface of the first substrate, and the first space is formed between the second substrate and the first substrate. The first space includes a plurality of insulating balls. The first electrode layer is formed on the surface. a third surface having a second electrode layer formed on the fourth surface and having a second pattern; and a third electrode layer formed on the fifth surface to constitute the The second surface of the capacitive touch-sensing touch sensing module has a third pattern; wherein a resistor is formed by the first electrode layer, the plurality of insulating balls, and the second electrode layer Sensing, a capacitive sensing is performed by the capacitance between the first electrode layer and a touch object, so that the capacitive and resistive composite touch sensing module has both resistive sensing and capacitive Sensing function. In one embodiment, the capacitive and resistive composite touch sensing module further includes a liquid dielectric layer disposed between the first substrate and the second substrate, wherein the liquid 201243666 private "electric layer" comprises a liquid The dielectric material 'resistance sensing system is performed by using the first electrode layer, the plurality of insulating balls, the liquid dielectric layer and the second electrode layer. The optical touch sensing module of the embodiment According to another embodiment of the present invention, a touch display integrated device includes: a liquid crystal display module, the above-mentioned capacitor and resistance composite touch sensing module, and the above electromagnetic type The touch sensing module further includes a touch display integrated device, including: a liquid crystal display module, the capacitive and resistive composite touch sensing module, and the optical touch The sensing module is integrated. According to the touch display integrated device of the present invention, different touch sensing technologies are used to implement the touch sensing method. Further, according to the present invention is integrated touch display device of the Optimizer, it may be applied, for example in public places (automatic report machine;
Kiosk)、自動提款機(ATM)、導覽系統、教學環境等各種應 用領域。 【實施方式】 有關本發明之刖述及其他技術内容、特點與功效,在以下 配合參考圖式之一較佳實施例的詳細說明中,將可清楚的呈 現。以下實施例中所提到的方向用語,例如:上、下、左、右、 前或後等,僅是參考附加圖式的方向。因此,使用的方向用語 是用來說明並非用來限制本發明。圖示中,相同的元件係以相 201243666 同的符號表示。 第-圖表示根據本發明第一實施例之觸控顯示器整合裝 置之示意®。根據本發明第-實關之顯示器整合裝置, 包含:液晶顯示模組姻、電容及電阻複合式觸控感測模組 200、光學式觸控制模組及電磁式觸控感峨組侧。 液晶顯示模组300,具有顯示侧3〇1以及背面側3〇2,該背面 側3〇2與該顯示側3〇1柄對向。電容及電阻複合式觸控感測模 組綱’具有第一表面201及第二表面2〇2,以該第二表面2〇2 鄰接該液晶顯示模組之該顯示側3〇1。光學式觸控感測模組 100 ’設置於該第一表面201。電磁式觸控感測模組4㈨包含 -感應天線板,該感應天線板設置於該背面側3G2。藉由整合 控制該電容及電阻複合式觸控感職組·、辟式觸控感測 杈組100 &該電磁感應式觸控感測模組400,以達成該觸控顯 示器整合裝置的準確觸控。 •於-實施例,同時參考本發明人等之多功能觸控模組之台 智申請案,上述電容及電阻複合式觸控感賴組包含:一第一 基板’具有該第-表面及-第三表面;一第二基板,具有一第 四表面及-第五表面,其中該第四表面與該第一基板的第三表 面相對向’於該第二基板與該第—基板之間構成—第一空間, 該第一空間中包含複數絕緣球;一苐一電極層,形成於該第三 表面上,具有-第一圖型;一第二電極層,形成於該第四表面 上’具有-第二圖型;以及—第三電極層,形成於該第五表面 201243666 上而構成該電容及電阻複合式觸控感測模組之該第二表面’且 有一第三圖型;其中,藉+ 八 g由对—ι極層、該複數絕緣球及該 鮮^ 物—電阻式_,藉由該第—電極層與 一觸控物體之間的電容,進行-電容式感測,使該電容及電阻 複合式觸控細驗兼她糊及電蝴測的功能。 於一貫施例,該電容及電阻複合式觸控感測模組更包含一 液態介電層,設置於該第—基板與該第二基板之間,其中該液 態介電層包含-液態介電材料,電阻式__職第一電極 層、該複數絕緣球、魏態介電層及該第二電極層的構成進 行。》亥液悲介電材料例如為苯等。 於κ把例,光學式觸控感測模組1〇〇為一紅外線影像式 觸控感測模組,例如第二圖表示根據本發明一實施例之光學式 觸控感職1W _,射雛X_TX及概γ_τχ為紅外 線二極體(IR LED),複數X-RX及複數Y—RX為CMOS感 應裝置(互補式金騎化物半導體感驗置;CMOS se_), 複數紅外線二極體作為閃光燈源,在一定週期内循序閃光,曝 光時間例如為50微秒’照射在物體上再藉由CMOS感應裝置 操取’錯此決定物體的座標。 第五圖至第七圖分別表示使用非導體、導體及電磁感應筆 作為觸控齡時’第—騎示_㈣示器整合裝置之判斷方 法 如第五圖所示,使用非導體作為觸控媒介的情況,接近光 201243666 學掃晦區鱗’職關斷制絲柄娜職組刚。當 距離更接近,但未碰_,由於騎導體,電容式觸控感應^ 曰進仃’朗料體補t容及她複合摘紐測模組,系 統判斷使用光學式输細或電阻式觸控感測。 如第六圖所示,使用導體作為觸控媒介的情況,接近光學 掃猫區域m統觸使用光學式觸控感測模組KK)。當距 離更接近’但未碰_,由於為導體D斷使用光學式觸 控感測或電容式觸控感測,直到導體碰觸電容及 控感測模組,系統判斷使用光學式或電阻式或 測。 電阻複合式觸 電容式觸控感 如第七圖所示,使用電磁感應筆作為觸控媒介的情況,接 近光學掃_域時’難關斷使用辟式或電磁式觸控感 測。當距離更接近’但未碰觸時,但未碰觸時,系統判斷使用 光學式觸控感測或電磁式觸控感測,直到導體碰觸電容及電阻 複合式觸控感測模組,系統判斷使用光學式或電阻式或電磁式 觸控感測。 此外’第三圖表示根據本發明第二實施例之觸控顯示器整 合裝置之示意圖。根據本發明第二實施例之觸控顯示器整人f 置’包含:液晶顯示模組300、電容及電阻複合式觸控感測模 組200及光學式觸控感測模組100,其中該電容及電阻複人式 觸控感測模組200係與第一實施例之電容及電阻複合式觸控 感測模組200相同’該光學式觸控感測模組100係與第—實施 201243666 例之光學式觸控感測模組100相同。 再者’第四圖表示根據本發明第三實施例之觸控顯示器整 合裝置之示意圖。根據本發明第三實施例之觸控顯示器整合带 置’包含·液晶顯示模組300、電容及電阻複合式觸控感測模 組200及電磁式觸控感測模組4〇〇,其中該電容及電阻複合式 觸控感測模組200係與第一實施例之電容及電阻複合式觸控 感測模組200相同’該電磁式觸控感測模組4〇〇係與第一實施 例之電磁式觸控感測模組400相同。 综上所述’根據本發明的觸控顯示器整合裝置,可解決下 述問題:(1)電容式面板無法支援一般接觸物(非導體物質) 當成觸控條件的問題;(2)電阻式面板,必須用力觸壓其表面 當成觸控條件的問題;(3)電磁式面板,必須使用電磁感應筆 當成觸控條件的問題(當觸控筆不見時,電磁板就失效);⑷ 紅外線式(絲學式)纽觸控时細彳不準摘問題,藉由 上述其他面板技術整合,作為功能性增強的系統整合。根據本 發明的觸控顯示器整合裝置,針對應贿式的特點,分別藉由 不同的觸控感測技術’使用不同的觸控方法,達到執行應用程 式之最佳化。此外,根據本發明的觸控顯示器整合裝置,可應 用於例如公共場所(自動報到機;心朴自動提款機(ATM)、 導覽系統、教學環境等各種應用領域。 以上雖以特定實施例說明本發明,但並不因此限定本發明 之觀圍’只要不脫離本發明之要旨,熟悉本技藝者瞭解在不脫 201243666 的任一貫施例_請專利翻不須達成本發明所揭露之= 點或特點。此外,摘要部分和_是用__ 文件搜寻Μ ’麟絲關本發明之糊範圍。 【圖式簡單說明】 第一圖表示根據本發明第—實施例之觸控顯示器整合裝置之 不意圖。 第二圖表示根據本發明-實施例之光學式觸控感測模組之示 意圖。 第三圖表示根據本發明第二實施例之觸控顯示器 整合裝置之 不意圖。 第四圖表7F根據本發明第三實施例之觸控顯示器整合裝置之 示意圖。 第五圖表示使用料體作為崎媒介時,根據本發明一實施例 之觸控顯示器整合裝置之_方法流程圖。 第/、圖表不使用導體作為觸控媒介時,根據本發明一實施例之 觸控顯示器整合裝置之判斷方法流程圖。 第七圖表示觀f _縣作為觸㈣介時,根據本發明一實 施例之觸控顯示器整合裝置之判斷方法流程圖。 【主要元件符號說明】 100 :光學式觸控感測模組 201243666 200 :電容及電阻複合式觸控感測模組 300 :液晶顯示模組 400 :電磁式觸控感測模組 201 :第一表面 202 :第二表面 301 :顯示側 302 :背面側Kiosk), automatic teller machines (ATMs), navigation systems, teaching environments, and more. DETAILED DESCRIPTION OF THE INVENTION The detailed description of the preferred embodiments of the present invention will be apparent from The directional terms mentioned in the following embodiments, such as up, down, left, right, front or back, etc., are only directions referring to the additional drawings. Therefore, the directional terminology used is intended to be illustrative of the invention. In the figure, the same components are denoted by the same symbols as the 201243666. The first figure shows a schematic view of a touch display integrated device according to a first embodiment of the present invention. The display integration device according to the first embodiment of the present invention comprises: a liquid crystal display module, a capacitive and resistive composite touch sensing module 200, an optical touch control module, and an electromagnetic touch sensing group side. The liquid crystal display module 300 has a display side 3〇1 and a back side 3〇2, and the back side 3〇2 faces the display side 3〇1 handle. The capacitive and resistive composite touch sensing module has a first surface 201 and a second surface 2〇2, and the second surface 2〇2 is adjacent to the display side 3〇1 of the liquid crystal display module. The optical touch sensing module 100 ′ is disposed on the first surface 201 . The electromagnetic touch sensing module 4 (9) includes an inductive antenna board disposed on the back side 3G2. By integrating and controlling the capacitive and resistive composite touch sensing group, the touch sensing sensor group 100 & the electromagnetic inductive touch sensing module 400, to achieve the accuracy of the touch display integrated device Touch. In the embodiment of the present invention, the capacitive and resistive composite touch sensing group includes: a first substrate having the first surface and a third surface; a second substrate having a fourth surface and a fifth surface, wherein the fourth surface is opposite to the third surface of the first substrate and formed between the second substrate and the first substrate a first space, the first space comprising a plurality of insulating balls; an electrode layer formed on the third surface, having a first pattern; and a second electrode layer formed on the fourth surface Having a second pattern; and a third electrode layer formed on the fifth surface 201243666 to form the second surface of the capacitive and resistive hybrid touch sensing module and having a third pattern; , by means of the capacitance between the first electrode layer and a touch object, by means of the capacitor between the first electrode layer and the touch object, by means of the ι pole layer, the plurality of insulating balls and the fresh material-resistive _, Make this capacitor and resistor composite touch test and her paste and electric butterfly test functionIn a conventional embodiment, the capacitive and resistive composite touch sensing module further includes a liquid dielectric layer disposed between the first substrate and the second substrate, wherein the liquid dielectric layer comprises a liquid dielectric The material, the resistive type, the first electrode layer, the plurality of insulating balls, the Wei dielectric layer, and the second electrode layer are formed. 》Hei liquid sad dielectric material is, for example, benzene. For example, the optical touch sensing module 1 is an infrared image type touch sensing module. For example, the second figure shows an optical touch sensor 1W _ according to an embodiment of the invention. The young X_TX and the general γ_τχ are infrared diodes (IR LEDs), the complex X-RX and the complex Y-RX are CMOS sensing devices (complementary gold riding semiconductor sensing devices; CMOS se_), complex infrared diodes as flash lamps The source, in a certain period of time, flashes sequentially, and the exposure time is, for example, 50 microseconds 'irradiated on the object and then manipulated by the CMOS sensing device to determine the coordinates of the object. The fifth to seventh figures respectively show the judging method of using the non-conductor, the conductor and the electromagnetic induction pen as the 'first-riding__4' indicator integrated device when the touch age is as shown in the fifth figure, using the non-conductor as the touch The situation of the media, close to the light 201243666 learned brooms in the area of the scales. When the distance is closer, but it does not touch _, because of the riding conductor, the capacitive touch sensor ^ 曰 仃 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗 朗Control sensing. As shown in the sixth figure, in the case where a conductor is used as the touch medium, the optical touch sensing module KK is used in proximity to the optical scanning area. When the distance is closer to 'but not touched _, because the optical touch sensing or capacitive touch sensing is used for the conductor D, until the conductor touches the capacitance and controls the sensing module, the system judges to use optical or resistive Or test. Resistive composite touch capacitive touch As shown in the seventh figure, when the electromagnetic sensor pen is used as the touch medium, it is difficult to turn off the use of electromagnetic or electromagnetic touch sensing when it is close to the optical scan. When the distance is closer to 'but not touched, but not touched, the system judges to use optical touch sensing or electromagnetic touch sensing until the conductor touches the capacitive and resistive composite touch sensing module. The system determines whether to use optical or resistive or electromagnetic touch sensing. Further, the third diagram shows a schematic diagram of a touch display integration device according to a second embodiment of the present invention. The touch display device of the second embodiment of the present invention includes: a liquid crystal display module 300, a capacitive and resistive composite touch sensing module 200, and an optical touch sensing module 100, wherein the capacitor And the resistance complex human touch sensing module 200 is the same as the capacitive and resistive composite touch sensing module 200 of the first embodiment. The optical touch sensing module 100 and the first implementation 201243666 The optical touch sensing module 100 is the same. Further, the fourth diagram shows a schematic diagram of a touch display integration device according to a third embodiment of the present invention. According to the third embodiment of the present invention, the touch display integrated device includes a liquid crystal display module 300, a capacitive and resistive composite touch sensing module 200, and an electromagnetic touch sensing module 4 The capacitive and resistive composite touch sensing module 200 is the same as the capacitive and resistive composite touch sensing module 200 of the first embodiment. The electromagnetic touch sensing module 4 and the first implementation The electromagnetic touch sensing module 400 is the same. In summary, the touch display integrated device according to the present invention can solve the following problems: (1) the capacitive panel cannot support the general contact (non-conductor material) as a problem of touch conditions; (2) the resistive panel It is necessary to forcefully touch the surface as a touch condition; (3) The electromagnetic panel must use the electromagnetic induction pen as a touch condition (the electromagnetic board fails when the stylus is missing); (4) Infrared ( Silk-style) New touch is not allowed to pick the problem, through the integration of the other panel technologies mentioned above, as a functionally enhanced system integration. According to the touch display integrated device of the present invention, different touch sensing methods are used to optimize the execution application method according to the characteristics of the bribery type. In addition, the touch display integrated device according to the present invention can be applied to various application fields such as a public place (automatic check-in machine; a smart automatic teller machine (ATM), a navigation system, a teaching environment, etc. The present invention is not intended to limit the scope of the present invention as long as it does not depart from the gist of the present invention. Those skilled in the art will understand that it is not consistent with the application of 201243666. In addition, the summary section and _ are used to search for the range of pastes of the invention by the __ file. [Simplified illustration of the drawings] The first figure shows the touch display integration device according to the first embodiment of the present invention. The second figure shows a schematic diagram of an optical touch sensing module according to an embodiment of the present invention. The third figure shows the intention of the touch display integrated device according to the second embodiment of the present invention. 7F is a schematic diagram of a touch display integrated device according to a third embodiment of the present invention. The fifth figure shows a touch according to an embodiment of the present invention when a material body is used as a medium. A flow chart of a method for integrating a display device according to an embodiment of the present invention. The seventh figure shows a view of a method for judging a touch display integrated device according to an embodiment of the present invention. (4) A flow chart of a method for judging a touch display integrated device according to an embodiment of the present invention. [Main component symbol description] 100: Optical touch sensing module 201243666 200: Capacitive and resistive composite touch sensing Module 300: liquid crystal display module 400: electromagnetic touch sensing module 201: first surface 202: second surface 301: display side 302: back side