M41.6105 五、新型說明: 【新型所屬之技術領域】 本創作係有關於一種觸碰結構及觸控面板,尤指一種 具有天線功能的觸碰結構及觸控面板。 【先前技術】 現今的觸控技術因不需額外配置滑鼠、按鈕或方向鍵 ’故已廣泛運用於各式電子裝置作為其輸入的方式,以達 到產輕涛化的趨勢。換言之,隨著資訊家電產品的興起 ,月^控面板(touchpand)漸漸取代舊有以鍵盤、滑鼠與資訊 產品溝通的方式,觸控面板技術提供了-套人性化的介面 。般使用者操作電腦或電子產品時,可以變得更直接 、j單、生動、有趣。且觸控面板的應用範圍廣闊,包括 可扣式的通訊與資訊產品(如個人數位助理pDA等 /商業用錢、醫療掛號系統、監控系統、資訊導覽系統 以及辅助教學系統等,由於其操作簡易,因而增加了消 者使用的方便性。 買 一般而言’觸控面板依感測原理來分類可大致 電阻式、電容式、壓電式、紅外線與超音波式。其中㈣ 2控:板係在玻璃表面鍍有透明導電材料膜做為:: =,Γ配合玻璃四周的金屬導線,以傳輪訊號至外部軟 ,或更板上的積體電路(IC),上述結構稱之為觸碰成測哭 Se職)。若再進一步貼附外部電路板及最 ; 其完成品則稱為觸控面板。使用時破璃表面4 ,均句電場,當使用者以指尖觸控麵表面時,手指= 琢間因靜電反應而產生電容的變化,根據 輸入點位置的座標。 匕貝!月匕疋位 3/17 【新型内容】 本創作實施例在於提供一種具有天線功能的 構及觸控面板,其可應胁任何具有觸控功能的麵 ’以進行無線訊號的收發動作。 幾t 本創作實施例提供一種具有天線功能的觸碰鉍 觸控面板,其巾上述具有天線魏_控面板包括:〜及 控單元、-基板單it及-天線單^,且基板單元與 , π可組合成上述具有天線功能_碰結構。其巾,觸^ π具有至少-觸控模組。基板單元的上表面為—供外== 石亚以操控觸控模組義碰表面,其巾基板單元具有至少— 透明基板,透縣減有至少_透明部及至少 =且與透明部相互結合之⑽明部,透明部的上表面為」 影像硯^域,且賴明部的上表面為—非影像觀看區域 。天線早元具有至少—設置於透日錄板上或透明基板内的 天線幸田,、、.。構’其巾天線輪射結構被佈局以形成—具有至 > 一預疋彳呆作頻帶的天線輻射結構圖案。 、’τ'上所述,本創作實施例所提供的觸碰結構及觸控面 板j可透過”“至少一設置於透明基板上或透明基板内的 天”’ 5射、’Ό構的料,以使得本創作的觸碰結構與觸控 面應用於任何具有觸控功能的電子裝置,以進行無線 訊號的收發動作。 '^能更進-步瞭解本創作之特徵及技術内容,請參 血關本創作之詳細說明與附81,然賴附81式僅提 用,並非用來對本創作加以限制者。 【貫施方式】 . 〔第一實施例〕 4/17 請參閱ffi 1A至圖1D所示,本創作第—實施例提供一 種具有天線功能的觸控面板z,其可應用於任何具有觸批 功能的電子裝置,例如圖1A所示的手機p。上述具= 線功能的觸控面板2包括··—觸控單^ i、—基板單元^ 及一天線單元3 ’其巾基板單元2與天線單元3可組 一具有天線功能的觸碰結構s。 其令,觸控單元1具有至少一觸控模組10,並可提供 給使用者-預定的觸控式輸入功能。舉例來說,: 1〇依感測原理來麵可大致區分為電阻式、電容式、壓帝 式、紅外線與超音波式,以電容控模組為例,复可】 _表面财透日辑電材料酿為㈣導線,再配合玻璃 =周的金屬料,以傳輸訊號至外部軟板或硬板上的積體 丹有 土 ,7L 一的上表面為—觸碰表面2〇〇,立 例如:ΐ用者的手指(如圖1A所示)或任何的觸控 韋)末觸石亚,以透過間接的方式來操控觸控模組10。 早凡2具有至少—透明基板20,透明基板20具有至 透月。P 2〇A及至少—圍繞透明部2〇A且與透明 互f合(例如以—體成型的方式結合)之非透明部卿= 明邛2GA的上表面為—影像觀看 ⑻a ,的上表面為一非影像觀看區域跡換言之非= 觸透明部20A的影像觀看==:(亦即接 控模組1〇來進行操控。成·Α肖使用者即可對觸 另外,天線單元3具有至少·一設置於透明基板2 的天線輕雜構3G,其巾天線輻射結構3Q被佈局以形成 M416105 丹有至少 來說,依據不“的天線輻射結構圖案A。舉例 透光天線或一不透光天^ 天線輻射結構30可以為一 置於非透明部2GB的非μ此外,天線輻射結構3〇可設 2具有-用於覆蓋天線:二看區域_上’基板單元 透明保護層2】的上表面㈣;f %的透明保護層21,f· 表面彡⑽基板則上表錢、側 3〇可透過導電執跡以跡31 '且天線輻射結構 方的無賴組w。 —位於朗基板2〇下 勺杯ΓΙ兄’如圖lc與圖]D所示,本創作可更進一步 电性連接於導電執跡^與無線模組%之間的導電 、、、°構4,其具有—導電殼體4Q、—容置於導電殼體40内 的弹性元件41及-連接於彈性元件41的—末端之活動元 件42由圖中可知’當活動元件42被按壓前(如圖π所 示)’活動元件42可被限位於一第一位置上;當活動元件 42被按壓後(如圖1D所示),活動元件42可被限位於一第 二位置。因此,經由導電結構4可彈性地電性接觸於導電 執跡31與無線模組W之間的設計’以使得天線輻射結構 30可與無線模組W相互配合來進行無線訊號的收發動作 〔第二實施例〕 請參閱圖2所示,本創作第二實施例提供—種具有夭 線功能的觸控面板Z,其包括:一觸控單元j、一基板岸 元2及一天線單元3。由·圖2與圖1B的比較可知,本創^ 第二實施例與第一實施例最大的不同在於:在第二實施你 6/17 M416105 中,非透明部观具有至少1孔2⑽及-填充於穿孔 2⑽内的導電體2〇2B,且天線輕射結構%可透過導電體 2〇』而宅J1連接至一位於适明基板下方的無線模組W 。例如,第二實施例亦可將苐—實施例的導電結構4(如圖 1C與圖1D所示)電性接觸於導電體202B的底端與無線模 、、旦W之間以使彳于天線轉射結構3〇可與無線模組W相互 配合來進行無線訊號的收發動作。 〔第三實施例〕M41.6105 V. New Description: [New Technology Field] This creation is about a touch structure and touch panel, especially a touch structure with an antenna function and a touch panel. [Prior Art] Today's touch technology has been widely used in various electronic devices as its input because it does not require additional mouse, button or arrow keys, so as to achieve a trend of lightening. In other words, with the rise of information appliances, touchpand has gradually replaced the old way of communicating with keyboards, mice and information products. Touch panel technology provides a user-friendly interface. When a user operates a computer or an electronic product, it can become more direct, simple, vivid, and interesting. And the touch panel has a wide range of applications, including button-type communication and information products (such as personal digital assistant pDA / commercial money, medical registration system, monitoring system, information navigation system and auxiliary teaching system, etc. due to its operation Simple, thus increasing the convenience of the consumer. In general, the touch panel can be roughly classified into resistive, capacitive, piezoelectric, infrared and ultrasonic based on the sensing principle. (4) 2 control: board The surface of the glass is coated with a transparent conductive material film as:: =, Γ with the metal wire around the glass, to transmit the signal to the external soft, or the integrated circuit (IC) on the board, the above structure is called touch Touched into the test crying Se job). If you attach the external circuit board and the most, the finished product is called the touch panel. When used, the glass surface 4 is a uniform electric field. When the user touches the surface with the fingertip, the finger = the change in capacitance due to the electrostatic reaction, according to the coordinates of the input point position.匕 ! 匕疋 匕疋 匕疋 / / / 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 . The present invention provides a touch-sensitive touch panel having an antenna function, and the above-mentioned antenna-control panel includes: a control unit, a substrate single and an antenna unit, and a substrate unit and π can be combined into the above-described antenna function-touch structure. Its towel, touch π has at least a touch module. The upper surface of the substrate unit is - for external == Shiya to control the touch surface of the touch module, the substrate unit of the towel has at least - a transparent substrate, and at least the transparent portion and at least the transparent portion are combined with the transparent portion. In the (10) bright part, the upper surface of the transparent portion is the "image" field, and the upper surface of the ram portion is a non-image viewing area. The antenna has an antenna at least - an antenna set on a through-drum or a transparent substrate, Koda, , , . The structure of the antenna antenna is arranged to form an antenna radiation structure pattern having a pre-dip band. The touch structure and the touch panel j provided by the present embodiment can transmit "at least one day on the transparent substrate or in the transparent substrate". In order to make the touch structure and touch surface of the present application be applied to any electronic device with touch function for wireless signal transmission and reception. '^ can further understand the characteristics and technical content of the creation, please refer to The detailed description of the creation of the blood and the attached 81, but the application of the 81 is only used, not to limit the creation of this creation. [Comprehensive application]. [First Embodiment] 4/17 Please refer to ffi 1A to As shown in FIG. 1D, the first embodiment of the present invention provides a touch panel z having an antenna function, which can be applied to any electronic device having a touch trigger function, such as the mobile phone p shown in FIG. 1A. The control panel 2 includes a touch panel, a substrate unit, and an antenna unit 3, and the substrate unit 2 and the antenna unit 3 can be combined with a touch structure s having an antenna function. 1 has at least one touch module 10 and can be provided for use - Pre-determined touch input function. For example,: 1 〇 According to the sensing principle, the surface can be roughly divided into resistive, capacitive, embossed, infrared and ultrasonic, taking the capacitor control module as an example. , _ _ surface _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - Touch the surface 2〇〇, for example: the user's finger (as shown in Figure 1A) or any touch-up) to touch the stone to control the touch module 10 in an indirect manner. 2 having at least a transparent substrate 20 having a transparent substrate 20, P 2 〇 A, and at least - a non-transparent portion surrounding the transparent portion 2A and combined with the transparent (for example, in a body-formed manner) = The upper surface of the alum 2GA is - image viewing (8)a, the upper surface is a non-image viewing area trace, in other words, the image of the transparent portion 20A is viewed ==: (ie, the control module 1 is operated to control. · The user can touch the antenna, and the antenna unit 3 has at least one antenna disposed on the transparent substrate 2 Hybrid 3G, its towel antenna radiating structure 3Q is laid out to form M416105. At least, according to the antenna radiation structure pattern A. For example, a light transmitting antenna or an opaque antenna ^ antenna radiating structure 30 can be a In addition to the non-transparent portion 2GB of non-μ, the antenna radiating structure 3 can be provided with 2 - for covering the antenna: the second surface - the upper substrate (transparent protective layer 2) of the upper surface (four); f% of the transparent protective layer 21 , f · surface 彡 (10) substrate on the surface of the money, the side 3 〇 can be transmitted through the conductive trace to trace 31 'and the antenna radiation structure of the rogue group w. - located on the Lang substrate 2 勺 under the spoon cup ΓΙ brother' Figure lc and As shown in Fig. D, the creation can be further electrically connected to the conductive, and the structure 4 between the conductive trace and the wireless module, which has a conductive housing 4Q, which is housed in the conductive housing. The elastic member 41 in 40 and the movable member 42 connected to the end of the elastic member 41 are known from the figure 'Before the movable member 42 is pressed (as shown in FIG. π), the movable member 42 can be limited to a first Positionally; when the movable element 42 is pressed (as shown in FIG. 1D), the movable element 42 can Limit is at a second position. Therefore, the conductive structure 4 can elastically electrically contact the design between the conductive trace 31 and the wireless module W to enable the antenna radiating structure 30 to cooperate with the wireless module W to perform wireless signal transmission and reception operations. The second embodiment of the present invention provides a touch panel Z having a twisting function, comprising: a touch unit j, a substrate bank 2 and an antenna unit 3. It can be seen from the comparison between FIG. 2 and FIG. 1B that the second embodiment differs from the first embodiment in that: in the second implementation of your 6/17 M416105, the non-transparent portion has at least 1 hole 2 (10) and - The conductor 2 2B is filled in the through hole 2 (10), and the antenna light-emitting structure % is transmitted through the conductor 2 and the house J1 is connected to a wireless module W located under the appropriate substrate. For example, the second embodiment can also electrically contact the conductive structure 4 (shown in FIG. 1C and FIG. 1D) of the first embodiment to the bottom end of the electrical conductor 202B and the wireless module, and the W, so as to The antenna rotating structure 3 can cooperate with the wireless module W to perform wireless signal transmission and reception. [Third embodiment]
5月务閱圖3所示,本創作第三實施例提供一種具有天 線功摘觸控峨z,其包括:_觸控單元】、—基板單 元2及一天線單元3。由圖3與圖m的比較可知,本創作 第三實施例與第-實施例最大的不同在於:在第三實施例 中,天線單7L 3具有至少一形成於非透明部2〇B的下表面 203上之天線耦合結構32,且天線輻射結構%與天線耦 合結構32相互耦合,且天線耦合結構32電性連接至―、位 於透明基板20下方的無賴組w。例如,第三實 可將第一實施例的導電結構4(如圖lc與圖1D所示 接觸於天線耦合結構32與無線模組w之間,以使彳日甩 ,結構3G可與無線模組w相互配合來進行無 收發動作。 〔第四實施例〕 請參閱圖4所示,本創作第四實施例提供—種具 線功能的觸控面板Z,其包括:一觸控單元〗、—二^ 疋2及一天線單元3。由圖4與圖1B的比較可知,本到作 第四實施例與第一實施例最大的不同在於:在第四者於例 中’天線輻射結構30可設置於非透明部20B的下表 7/17 M416105 上,天線輕射結構jO可直接電性連接至·一位於透明美板 20下方的無線模组W,且天線輻射結構3〇的上表面即為 觸碰表面200。例如,第四實施例亦可將第一實施例的導 電結構4(如圖1C與圖1D所示)直接電性接觸於天線輻射 結構30與無線模組W之間,以使得天線輻射結構3〇可與 無線模組W可直接相互配合來進行無線訊號的收發動作 。再者,第四實施例亦可選擇性成形透明保護層21X(如圖 1B所示)於透明基板20的上表面或省略透明保護層的製作 請參閱圖5所示’本創作第五實施例提供—種具有天 線功能的觸控面板Z,其包括:—觸控單元!、—美板單 元2及一天線單元3。由圖5與圖1B的比較可知,^ : =五實施=與第-實施例最大的不同在於:在第五實 中,透明基板20具有至少―第—透明基板2(),與至少— 置於第-透明基板20,上的第二透明基板2Q,,i 二 板20,與第二透明基板,:間 、▲早兀3具有至少—啊成形於第—透明其姑 2〇,的上表面2(Π、側表面2〇2及 透月基板 ’且天線輕射結構3〇可透過導 G3〜電軌跡31 位於第-透明基板,4的:連接至- 施例亦可將第一容 、’ 例如,第五實 收互配合來進行== 8/17 M416105 層的製作。 〔第六實施例〕 請參閲圖6所示,本創作第六實施例提供一種具有天 線功能的觸控面板Z,其包括:一觸控單元1、一基板單 元2及一天線單元3。由圖6與圖5的比較可知,本創作 第六實施例與第五實施例最大的不同在於:在第六實施例 中,第一透明基板20’具有至少一穿孔201B及一填充於穿 孔201B内的導電體202B,且天線輻射結構30可透過導 電體202B而電性連接至一位於第一透明基板20’下方的無 線模組W。例如,第六實施例亦可將第一實施例的導電結 構4(如圖1C與圖1D所示)電性接觸於導電體202B的底端 與無線模組W之間,以使得天線輻射結構30可與無線模 組W相互配合來進行無線訊號的收發動作。 〔第七實施例〕 請參閱圖7所示,本創作第七實施例提供一種具有天 線功能的觸控面板Z,其包括:一觸控單元1、一基板單 元2及一天線單元3。由圖7與圖5的比較可知,本創作 第七實施例與第五實施例最大的不同在於:在第七實施例 中,天線單元3具有至少一形成於第一透明基板20’的下 表面203上之天線耦合結構32,且天線輻射結構30與天 線耦合結構32相互耦合,且天線耦合結構32電性連接至 一位於第一透明基板20’下方的無線模組W。例如,第七 實施例亦可將第一實施例的導電結構4(如圖1C與圖1D所 示)電性接觸於天線耦合結構32與無線模組W之間,以使 得天線輻射結構30可與無線模組W相互配合來進行無線 訊號的收發動作。 9/17 〔實_的可能功效〕 多示户斤;丄、 板,其可沪=,本創作實施例所提供的觸碰結構及觸控面 天線轄射少—設置於透雜板上或透明基板内的 面板可雁―的設計’以使得本料賴碰結構與觸控 "、'任何具有觸控功能的電子裝置,以進行無線 訊號的收發動作。 以上所述僅為本創作之較佳可行實施例,非因此侷限 本創作之專利施圍,故舉凡運用本創作說明書及圖式内容 所為之專效技術變化,均包含於本創作之範圍内。 【圖式簡單說明】 圖1A為本創作具有天線功能的觸控面板的第一實施例應 用於手機的上視示意圖; 圖]B為本創作具有天線功能的觸控面板的第一實施例的 側視剖面示意圖; 圖1C為本創作具有天線功能的觸控面板的第一實施例所 使用的導電結構被按壓前的部分剖面示意圖; 圖1D為本創作具有天線功能的觸控面板的第一實施例所 使用的導電結構被按壓後的部分剖面示意圖; 圖2為本創作具有天線功能的觸控面板的第二實施例的側 視剖面示意圖; 圖3為本創作具有天線功能的觸控面板的第三實施例的側 視剖面示意圖; 圖4為本創作具有天線功能的觸控面板的第四實施例的側 視剖面示意圖; 圖5為本創作具有天線功能的觸控面板的第五貫施例的側 視剖面示意圖; 10/17 M416105 圖6為本創作具有天線功能的觸控面板的第六實施例的側 視剖面示意圖;以及 圖7為本創作具有天線功能的觸控面板的第七實施例的側 視别面不意圖c 【主要元件符號說明】As shown in FIG. 3, the third embodiment of the present invention provides an antenna function, which includes: a touch unit, a substrate unit 2, and an antenna unit 3. It can be seen from the comparison between FIG. 3 and FIG. 3 that the third embodiment of the present invention differs greatly from the first embodiment in that, in the third embodiment, the antenna unit 7L 3 has at least one formed under the non-transparent portion 2〇B. The antenna coupling structure 32 on the surface 203, and the antenna radiation structure % and the antenna coupling structure 32 are coupled to each other, and the antenna coupling structure 32 is electrically connected to the rogue group w below the transparent substrate 20. For example, in the third embodiment, the conductive structure 4 of the first embodiment can be contacted between the antenna coupling structure 32 and the wireless module w as shown in FIG. 1c and FIG. 1D, so that the structure 3G can be combined with the wireless module. The fourth embodiment of the present invention provides a touch panel Z with a line function, which includes: a touch unit, - 2 疋 2 and an antenna unit 3. As can be seen from the comparison of Fig. 4 and Fig. 1B, the greatest difference between the fourth embodiment and the first embodiment is that in the fourth embodiment, the antenna radiating structure 30 It can be disposed on the following table 7/17 M416105 of the non-transparent portion 20B, and the antenna light-emitting structure jO can be directly electrically connected to a wireless module W located under the transparent color plate 20, and the upper surface of the antenna radiating structure 3〇 That is, the touch surface 200. For example, the fourth embodiment can also directly electrically contact the conductive structure 4 of the first embodiment (as shown in FIG. 1C and FIG. 1D) between the antenna radiating structure 30 and the wireless module W. So that the antenna radiating structure 3 can be directly matched with the wireless module W to perform no The fourth embodiment can also selectively form the transparent protective layer 21X (as shown in FIG. 1B) on the upper surface of the transparent substrate 20 or omit the transparent protective layer. Please refer to FIG. The fifth embodiment of the present invention provides a touch panel Z having an antenna function, which includes: a touch unit!, a US board unit 2, and an antenna unit 3. As can be seen from a comparison between FIG. 5 and FIG. 1B, ^: = five implementations = the greatest difference from the first embodiment is that in the fifth embodiment, the transparent substrate 20 has at least a "first transparent substrate 2", and at least - a second transparent layer disposed on the first transparent substrate 20 The substrate 2Q, i, the second plate 20, and the second transparent substrate, and the ▲, the early 兀3 have at least ah, formed on the first surface of the first transparent surface 2 (Π, side surface 2〇2 and The moon substrate 'and the antenna light-emitting structure 3 〇 can be transmitted through the G3 to the electric trajectory 31 on the first transparent substrate, 4: connected to - the example can also perform the first capacity, for example, the fifth implementation == 8/17 M416105 layer fabrication. [Sixth embodiment] Referring to FIG. 6, the sixth embodiment of the present invention provides A touch panel Z having an antenna function includes: a touch unit 1, a substrate unit 2, and an antenna unit 3. As can be seen from a comparison between FIG. 6 and FIG. 5, the sixth embodiment and the fifth embodiment of the present invention The maximum difference is that in the sixth embodiment, the first transparent substrate 20' has at least one through hole 201B and a conductive body 202B filled in the through hole 201B, and the antenna radiating structure 30 is electrically connected to the conductive body 202B. A wireless module W located under the first transparent substrate 20'. For example, the sixth embodiment can also electrically contact the conductive structure 4 of the first embodiment (as shown in FIG. 1C and FIG. 1D) to the electrical conductor 202B. The bottom end is connected to the wireless module W such that the antenna radiating structure 30 can cooperate with the wireless module W to perform the wireless signal transmitting and receiving operation. [Seventh Embodiment] Referring to FIG. 7, a seventh embodiment of the present invention provides a touch panel Z having an antenna function, including a touch unit 1, a substrate unit 2, and an antenna unit 3. 7 and FIG. 5, the seventh embodiment is different from the fifth embodiment in that the antenna unit 3 has at least one lower surface formed on the first transparent substrate 20' in the seventh embodiment. The antenna coupling structure 32 on the 203, and the antenna radiating structure 30 and the antenna coupling structure 32 are coupled to each other, and the antenna coupling structure 32 is electrically connected to a wireless module W located under the first transparent substrate 20'. For example, the seventh embodiment can also electrically connect the conductive structure 4 (shown in FIG. 1C and FIG. 1D ) of the first embodiment between the antenna coupling structure 32 and the wireless module W, so that the antenna radiating structure 30 can be The wireless module W cooperates with each other to perform a wireless signal transmission and reception operation. 9/17 [The possible effect of _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The panel in the transparent substrate can be designed to enable the structure and touch control, and any electronic device with touch function to perform wireless signal transmission and reception. The above descriptions are only for the preferred embodiments of the present invention. Therefore, the patents of this creation are not limited. Therefore, all the technical changes that are made by using this creation manual and the contents of the drawings are included in the scope of this creation. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a top view of a first embodiment of a touch panel having an antenna function applied to a mobile phone; FIG. 1B is a first embodiment of a touch panel having an antenna function. 1C is a schematic cross-sectional view of a first embodiment of a touch panel having an antenna function before being pressed; FIG. 1D is a first view of a touch panel having an antenna function. FIG. 2 is a side cross-sectional view showing a second embodiment of a touch panel having an antenna function; FIG. 3 is a schematic view showing a touch panel having an antenna function. 4 is a side cross-sectional view of a third embodiment of a touch panel having an antenna function; FIG. 5 is a fifth cross-sectional view of a touch panel having an antenna function; A side cross-sectional view of the embodiment; 10/17 M416105 FIG. 6 is a side cross-sectional view showing a sixth embodiment of the touch panel having the antenna function; and FIG. Side view of another surface of the touch panel of the seventh embodiment of the present authoring having an antenna function is not intended to main components [c] Description of Symbols
手機 P 觸控面板 Z 觸碰結構 S 觸控單元 1 觸控模組 10 基板單元 2 透明基板 20 第一透明基板 20, 第二透明基板 20,, 觸碰表面 200 上表面 201 側表面 202 下表面 203 透明部 20A 影像觀看區域 200A 非透明部 20B 非影像觀看區域 200B 穿孔 201B 導電體 202B 透明保護層 21 天線單元 3 天線韓射結構 30 * 天線輻射結構圖案 A 的導電執跡 31 11/17 M416105Mobile phone P touch panel Z touch structure S touch unit 1 touch module 10 substrate unit 2 transparent substrate 20 first transparent substrate 20, second transparent substrate 20, touch surface 200 upper surface 201 side surface 202 lower surface 203 Transparent portion 20A Image viewing area 200A Non-transparent portion 20B Non-image viewing area 200B Perforation 201B Conductor 202B Transparent protective layer 21 Antenna unit 3 Antenna Han structure 30 * Antenna radiation structure pattern A Conductive trace 31 11/17 M416105
天線编合結構 32 導電結構 4 導電殼體 40 彈性元件 41 活動元件 42 無線模組 W 12/17Antenna Fabrication Structure 32 Conductive Structure 4 Conductive Housing 40 Elastic Components 41 Active Components 42 Wireless Module W 12/17