200812807 九、發明說明: 【發明所屬之技術領域】 本發明係關於-種觸控面板,_是關於控面板組裝結構。 【先前技術】 觸控顯示H是在齡面板上峡―Μ難面板,蚊方式包括 壓片及黏膠。以壓片將觸控面板壓緊固定賴示面板上的方式易造成觸控 面板變形,且顯示面滅面板間容祕錢,在職過財也容易發 生位移,另外當面板尺找變時’更需要精改模,其雜錄差及成本 較黏膠固定方式高。 請參閱第-圖及第二圖,習知之黏膠固定方式係利用一兩面各有一層 雙面膠12、12,线刪(p。·) 1G,—咖罐硫16,另 -面黏貼於顯示面板18上。然當觸控面板16與顯示面板Μ之間有粒子進 入或其他需要紅時,岐熟練之錄人員也需要㈣分鐘才能拆卸 一片觸控面板’錄f造成面板16破碎,即奴採料祕,拆卸過 程也還是具有相侧難度,且異物容諸未_之球進人造成污毕。 【發明内容】 以可輕易分開觸控 本I明之-目的係在提供一種觸控面板組裝結構, 面板。 本發明之P目_在提供麵板組裝結構,拆祕面板上不 易留有殘膠’並可避免_板於拆卸過財受損使_板 安裝使用。 5 200812807 本發明之再一目的係在提供一種 觸控面板組裝結構,具有隔熱效果, 可延長緩衝材料的老化時間與壽命。 ^明之又-目的係在提供1觸控面板組裝結構,透過調整緩衝材 料之厚度,可滿足不同機種中,觸控面板與顯示面板間間距的要求。 膜,上述目的,本發明之觸扣板喊結獅包域數長條薄 ^ ▲ 卿吨之-邊齡,另—面係與顯示面 板之-邊黏合,且長條薄膜係突出於觸控面板外。 本發明並提出另一組裝結構, 一 觸及顯示面板間具有—第一緩 f科層及—弟二_料層,射第—緩衝材_沿著_板之一 邊以具有第二雜之__控面姉合,第二緩衝㈣層之絲處轉 —㈣材料層之光面處則以具有—第-黏性之黏膠黏合,第二緩衝材料芦 糾一面係沿著顯示面板之—邊以具有第二黏性之黏膠鋪示面板黏合。曰 黏性係高於第-祕。另外第—緩衝材料層之光面處與第二緩衝材料 e之光面處間更可_互減合方式岐,取代前述實施辦之具有一第 ~黏性黏膠。 底下藉由具體實施例配合_的圖式詳加㈣,當更容歸解本發明 之目的、技術内容、特點及其所達成之功效。 【實施方式】 明參考第二圖’本發明第一實施例之觸控面板組裝結構,用於將一觸 控面板2G眺於-顯示器之顯示面板22上,觸控面板組裝結構包含一長 條薄膜24、第-緩衝材料層28及第二緩衝材料層32。 6 200812807 長條薄膜24設於觸控面板20與顯示面板22之間,觸控面板可為音波 式觸控面板、電阻式觸控面板與電容式觸控面板,長條薄膜%之材^為 —細聚_,《薄膜的拉伸強度可達到⑽百萬帕(_,斷 裂伸長率為·,熱收縮率僅為丨_ 2%。且長條薄膜%之長度須使兑可* 出於觸控面板20外㈣公釐,突出部分平時可向下貼於顯示面板22 Z 本實施例中’於顯示面板22之四邊各設置_長條薄膜^(如第四圖)。第一 緩衝材料層28設於長條薄膜24與觸控面板2〇之間。第二緩衝材·犯 设於長條薄賴與顯示面板22之間。長條薄㈣的—面以具有第一黏性 之黏膠26鄕-_麵28齡,卜_㈣—紐之另一祕 說與第二緩衝材料層32黏合;第一緩衝材料層沈與第二緩衝材料層犯 齡別以具有第二黏性之黏膠30、3〇,與觸控面板2〇及顯示面板22黏合。 且第二黏性係高於第一黏性。 請參閱第四圖’於面板拆卸時只要拉住長條薄膜%之突出部分,將長 條_ 24自面板_繼錄㈣四叙長賴%補離後,即 可輕鬆取下顯涵板22’由卿26、26, _較轉㈣,的黏性 低’故可輕易職面板2_示面板22分離,且拆卸日林易產生殘勝, 亚可避免觸控面板20於拆卸過裎中受損,使觸控面板2〇可以重覆安裝使 用,且聚醋薄膜具有-定的隔熱致果,可延長緩衝材料層28、%的老化時 間與壽命。 如第五圖所示,本發明第二實施例之觸控面板組裝結構係將第二緩衝 材抖層28省略’而僅使用第_緩_料層沈、長條薄㈣及黏膠㈣、 7 200812807 30 其中第一緩衝材料層28可設置於觸控面板20與長條薄瞑24之間,或 顯示面板22與長條薄膜24之間。以第一緩衝材料層28設置於觸控面板扣 與長條薄膜24之間為例,第—緩衝材料層28之―面__沉與長條薄 膜24黏合’另—面利用黏膠30與觸控面板20,長條薄獏24利用黏膠26, 與顯示面板22黏合;如第六圖所示,本發明第三實施例之觸控面板組裝結 構係將第-緩贿料層28及第二緩騎料層28都省略,*僅使用長條薄 膜24以及具有第一黏性之黏膠26、26,,長條薄膜24之—面利用黏膠 26與觸控面板2〇黏合,另一面利用黏膠划’與顯示面板&黏合。/ 第二及第三實施例之拆卸方式與第一實施例相同,係將長條薄膜%自 觸控面板2G與顯示面板22 Μ㈣後即可糊取下赌面板2 薄物峨㈣’ 職她,勸且力,二= Μ拉出的過軸賴單㈣力’可有贼軌往拆卸時_體黏力使觸控 面板20無法輕易分開且無處施力之缺點。 ,請參閱第七圖’本發明第四實施例之觸控面板組裝結構,其不使用長 條薄膜,且包含第一緩衝材料層28及第二緩衝材料層32,第一緩衝材料層 =係沿著觸控面板2()之—邊以具有第二黏性之黏㈣與觸控面板2〇黏 ^其光面賴職32之响姆,並哪第二黏性之黏 :點合,而第二緩衝材料層32之另—面則沿著顯示面板四之一邊以具 1二黏性之黏膠30’與顯示面板22黏合。拆卸過程中,係利用黏膠邪 一性’使觸控面板2Q藉由左右推移即可輕易與顯示面板四分離。另外 1衝材料層28與第二緩衝材料層32之間更可採用靜電吸附方式黏 200812807 a ’同樣也可達到易於拆卸的效果。 為了避免第四實施例巾第—緩衝材料層28與第二_材料層%間的 黏著力不夠’而使觸控面板2G於使用時脫落或滑動,黏膠26可採用粗糙 黏附材質’或者可在第-緩衝材料層28及第二緩衝材料層32相對之表面 卡&的鋸齒狀結構,而黏膠26係塗佈於据齒狀結構上(如第八 圖所不),或疋在第一緩衝材料層28及第二緩衝材料層32相對之表面上分 別开/成至>-凸起及對應之至少—凹槽,突起與凹槽可為條列或陣列狀排 列,而黏膠26係塗佈於第一緩衝材料層28與第二緩衝材料層32間(如第 九圖所示),藉以增加二緩衝材料層間的摩擦阻力,以避免觸控面板如於 使用時脫落或滑動。 、 明參閱第十圖,本發明第五實關之觸控面板組裝結構係不使用黏膠 % ’而於第-緩衝材料層28及第二緩衝材料層32之光面處形成凸起如 槽’使其互相嵌合明加二緩衝材料層_摩擦阻力,以避免滑動達到穩 固功能,其巾凸起細槽柯設計為其他可提供雜阻力之實施態樣,= 如第十一圖所示之鋸齒狀。 | 另外,可透過娜緩衝材料層厚度,可滿足㈣機射,觸控面_ 顯示面板關距的要求。而她於習知觸控面板組裝結構,本發明增加1 薄膜與-緩衝材料層’並_不_性之轉使觸控面板易於騎°了 同時更可姻拆卸後無娜及不損傷馳面板的優點。 p 以上所述係藉由實施例說明本發明之特點,其目的在使熟習該技術 能暸解本發明之内容並據讀施,而非限定本發明之專觀圍,故,術者 凡其 9 200812807 他未脫離本發明所揭示之精神所完成之等效修飾或修^ 所述之申請專利範圍中。 〆,仍應包含在以τ 【圖式簡單說明】 圖 第一圖習知觸控面板組裝結構之側視圖 第二圖沿第一圖之Α-Α,線之剖面 第十一圖 弟三圖本發明第—實關之糖面她裝結構之剖面圖 相圖本發明第-實施例之面板拆卸過程之示意圖 ^圖本發明第二實關之觸控面她裝結構之剖面圖 圖本發明第三實施例之觸控面板喊結構之剖面圖 七圖本發_四實施例之觸控邮_結構之剖面圖 从八圖本發四實施例之—緩衝材料層之剖面圖。 =圖本發明第四實施例之另―緩衝材料層之剖面圖。 圖本發明第五實施例之觸控面板組褒結構之剖面圖 本發明第五實施例之另1衝材料層之剖面圖 【主要元件符號說明】 W緩衝材質 12雙面膠 12’雙面膠 16觸控面板 1 β顯示面板 2Q觸控面板 10 200812807 22顯示面板 24長條薄膜 26黏膠 26’黏膠 28第一緩衝材料層 30黏膠 30’黏膠 32第二緩衝材料層200812807 IX. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD OF THE INVENTION The present invention relates to a touch panel, and relates to a control panel assembly structure. [Prior Art] The touch display H is a gorge-difficult panel on the age panel, and the mosquito method includes a tablet and a glue. The method of pressing the touch panel on the display panel by pressing the tablet is easy to cause the touch panel to be deformed, and the display surface is sealed between the panels, and the casualty is also prone to displacement, and when the panel ruler is changed, Need to fine-tune the mold, its miscellaneous recording and cost is higher than the adhesive fixing method. Please refer to the first figure and the second figure. The conventional method of fixing the adhesive is to use a layer of double-sided tape 12 and 12 on one side and two sides. The line is deleted (p.·) 1G, the coffee pot is sulfur 16, and the other side is adhered to On the display panel 18. However, when there is particle entry between the touch panel 16 and the display panel, or other need for red, the skilled person also needs (four) minutes to disassemble a touch panel, which causes the panel 16 to be broken, that is, the slave is secret. The disassembly process also has the difficulty of the phase side, and the foreign matter is not allowed to enter the person. SUMMARY OF THE INVENTION The present invention is directed to providing a touch panel assembly structure, a panel. According to the present invention, in the provision of the panel assembly structure, it is not easy to leave residual glue on the panel, and it is possible to prevent the board from being installed and used. 5 200812807 A further object of the present invention is to provide a touch panel assembly structure having a heat insulating effect, which can prolong the aging time and life of the cushioning material. ^ 明之又- The purpose is to provide a touch panel assembly structure, by adjusting the thickness of the buffer material, to meet the requirements of the spacing between the touch panel and the display panel in different models. Membrane, the above purpose, the contact plate of the present invention shouts a lion bag with a long strip of thin ^ ▲ qing ton - the edge of the age, the other - the surface and the display panel - edge bonding, and the long film is protruding from the touch Outside the panel. The invention also proposes another assembly structure, which has a first slow f-layer and a second-level layer between the touch display panels, and the first-buffer material _ along one side of the _ board has a second miscellaneous __ The control surface is twisted, and the second buffer (four) layer is rotated. (4) The smooth surface of the material layer is bonded with a first-viscous adhesive, and the second cushioning material is along the side of the display panel. The adhesive panel is bonded with a second adhesive.曰 The viscous system is higher than the first secret. In addition, the smooth surface of the first buffer material layer and the smooth surface of the second buffer material e can be mutually reduced, and the first embodiment has a first adhesive. The purpose of the present invention, the technical content, the features and the effects achieved by the present invention are further explained by the detailed description of the specific embodiment. The touch panel assembly structure of the first embodiment of the present invention is used to attach a touch panel 2G to the display panel 22 of the display. The touch panel assembly structure includes a strip. The film 24, the first buffer material layer 28 and the second buffer material layer 32. 6 200812807 The strip film 24 is disposed between the touch panel 20 and the display panel 22. The touch panel can be an acoustic wave touch panel, a resistive touch panel and a capacitive touch panel, and the long film is made of material. - Fine _, "The tensile strength of the film can reach (10) MPa (_, elongation at break, · heat shrinkage is only 丨 _ 2%. And the length of the long film must be made * The outer surface of the touch panel 20 is four (4) mm, and the protruding portion can be attached to the display panel 22 in a normal manner. In this embodiment, 'the long film ^ (such as the fourth figure) is disposed on each of the four sides of the display panel 22. The first buffer material The layer 28 is disposed between the elongated film 24 and the touch panel 2A. The second buffer material is disposed between the strip and the display panel 22. The long (4) surface has a first viscosity. Adhesive 26鄕-_face 28 years old, Bu_(4)-News is said to be bonded to the second cushioning material layer 32; the first cushioning material layer and the second cushioning material layer are of a second viscosity The adhesives 30, 3 are bonded to the touch panel 2A and the display panel 22. The second adhesive system is higher than the first adhesive. Please refer to the fourth figure When disassembling, just pull the protruding part of the long film, and then remove the long _ 24 from the panel _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Compared with (4), the viscosity is low, so it is easy to separate the panel 2_ display panel 22, and the disassembly of the Japanese forest is easy to produce a disability, and the touch panel 20 can be prevented from being damaged in the disassembly, so that the touch panel 2 is The crucible can be repeatedly installed and used, and the polyester film has a certain thermal insulation effect, which can prolong the aging time and life of the buffer material layer 28. The second embodiment shows the touch of the second embodiment of the present invention. The panel assembly structure omits the second buffer material shaking layer 28 and uses only the first layer, the thin layer (four), and the adhesive layer (4), 7 200812807 30, wherein the first buffer material layer 28 can be disposed on the touch panel. The first buffer material layer 28 is disposed between the touch panel buckle and the long film 24 as an example, and the first buffer material layer is disposed between the display panel 22 and the long film 24. 28-face __Sink and long film 24 bonding 'other surface using adhesive 30 and touch panel 20, long thin 貘 24 using adhesive 26, bonding with the display panel 22; as shown in the sixth figure, the touch panel assembly structure of the third embodiment of the present invention omits the first-brake layer 28 and the second slow-feed layer 28, *only used The strip film 24 and the adhesives 26 and 26 having the first adhesiveness, the surface of the long film 24 is adhered to the touch panel 2 by the adhesive 26, and the other side is adhered to the display panel & The second and third embodiments are disassembled in the same manner as in the first embodiment, and the long film % is removed from the touch panel 2G and the display panel 22 (4), and then the gambling panel 2 thin object 四 (4) is employed. , persuasion and force, two = Μ pull out the axis of the single (four) force 'can be thief rail to dismantle _ body adhesion so that the touch panel 20 can not be easily separated and nowhere to force the shortcomings. Referring to FIG. 7 , a touch panel assembly structure according to a fourth embodiment of the present invention, which does not use a long film, and includes a first buffer material layer 28 and a second buffer material layer 32, and the first buffer material layer=system Along the side of the touch panel 2 () with a second adhesive bond (four) and the touch panel 2 ^ 其 其 其 其 其 其 其 其 32 , , , , , , , , , , , , , , , , , , , , , , The other surface of the second buffer material layer 32 is adhered to the display panel 22 with a two-adhesive adhesive 30' along one side of the display panel. During the disassembly process, the touch panel 2Q is easily separated from the display panel by using the adhesive property. In addition, between the layer 1 of the punching material and the layer of the second buffering material 32, the electrostatic adsorption method can be used for the adhesion of the layer 1212807 a ', and the effect of easy disassembly can also be achieved. In order to avoid the adhesive force between the second buffer layer 28 and the second material layer of the fourth embodiment is insufficient, and the touch panel 2G is detached or slid during use, the adhesive 26 may be made of a rough adhesive material or may be The surface of the first cushioning material layer 28 and the second cushioning material layer 32 are in a zigzag structure, and the adhesive 26 is applied to the toothed structure (as shown in the eighth figure), or The first buffer material layer 28 and the second buffer material layer 32 are respectively opened/formed to the surface of the opposite surface of the first buffer material layer 28 and the second buffer material layer 32, and the protrusions and the grooves may be arranged in a row or array, and the adhesion is The glue 26 is applied between the first buffer material layer 28 and the second buffer material layer 32 (as shown in FIG. 9 ), thereby increasing the frictional resistance between the two buffer material layers to prevent the touch panel from falling off during use or slide. Referring to FIG. 10, the fifth embodiment of the touch panel assembly structure of the present invention forms a protrusion such as a groove at the smooth surface of the first buffer material layer 28 and the second buffer material layer 32 without using the adhesive %'. 'Make them fit together and add two layers of cushioning material _ friction resistance to avoid sliding to achieve a stable function, and the towel raised groove is designed to provide other implementations that provide hybrid resistance, as shown in Figure 11. Jagged. In addition, the thickness of the cushioning material layer can be used to meet the requirements of (4) machine shooting, touch surface _ display panel clearance. In the conventional touch panel assembly structure, the invention adds 1 film and buffer material layer 'and _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The advantages. The above description of the present invention is made by way of examples, and the purpose of the present invention is to understand the present invention and to understand the scope of the present invention, and not to limit the scope of the present invention. 200812807 He does not depart from the scope of the invention as defined by the spirit of the present invention. 〆, should still be included in τ [Simple description of the figure] Figure 1 The side view of the conventional touch panel assembly structure The second picture is along the first picture Α-Α, the line profile of the eleventh figure BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a sugar-coated surface of a first embodiment of the present invention. FIG. 2 is a cross-sectional view of a second embodiment of the present invention. A cross-sectional view of a touch panel shouting structure of a third embodiment. FIG. 7 is a cross-sectional view of a touch material layer of a fourth embodiment. = A cross-sectional view of another buffer material layer in accordance with a fourth embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 5 is a cross-sectional view showing a structure of a touch panel of a fifth embodiment of the present invention. FIG. 16 touch panel 1 β display panel 2Q touch panel 10 200812807 22 display panel 24 strip film 26 adhesive 26 'adhesive 28 first buffer material layer 30 adhesive 30 'adhesive 32 second buffer material layer