M409481 五、新型說明: 【新型所屬之技術領域】 板 本創作是一種觸控面板, 特別是指一種複合式觸控面 【先前技術】M409481 V. New description: [New technical field] The board is a touch panel, especially a composite touch surface. [Prior Art]
目前常見的觸控面板包含電容式觸控面板,電容式觸 控面板主要是在—基板下表面形成感應電極,當使用者輕 觸土板上表面時’因人體帶有電荷’人體與感應電極之間 產生電容變化,前揭電容的變化透過連接於感應電極的信 號線而輸出至一卷丨3» ., 以主㈣h,控制器即可計算出觸碰點的位 置。 „在某些工作場所中,例如無塵室的工作環境,操作人 貝曰帶手因手套係絕緣材質,操作人員身上的電荷與 :容式觸控面板相隔絕,即無法在觸控面板上產生電容的 化無法達到觸控的目的;若要達到觸控的目的必須 先將手套取下’造成操作上的不方便。 、 【新型内容】 本創作的主要目的是提供一種複合式觸控面板,希望 善當電荷無法傳遞到電容式觸控面板時,則觸控面板無 達到觸控的效果,造成使用上的不便。 為達前揭目的,本創作所採用的技術手段是提供一種 複合式觸控面板,其包含有: 3 M409481 一電阻式觸控面板,其包含: 一基板; 一下導電層,形成在該基板上方; 上導電層’設置在該下導電層之上,且該上導 電層與該下導電層兩者之間形成一間隙;及 一間隙子層,具有複數個間隙子,係分佈在前述 間隙内部;以及 一電容式觸控面板,其包含: 一第一基板,其上表面係形成一第一線路層,且 該第一基板下表面利用一膠層而與該電阻式觸控面 板的上導電層相貼合; 一第二基板,其下表面形成一第二線路層,該第 二線路層係朝向該第一線路層; 一絕緣膠層,設於該第一線路層與該第二線路層 之間,以黏合該第一線路層與該第二線路層;及 一保護層,係設置在該第二基板的表面。 藉本創作之設計,若操作人員直接以手碰觸本創作, 因首先接觸的是電容式觸控面板,人體電荷可傳遞至電容 式觸控面板,使電容式觸控面板產生電容變化;若操作人 員間接(如戴手套)碰觸本創作,雖然電容式觸控面板未接 收電2,該電阻式觸控面板仍因受到壓力而可產生電位變 化,則揭電容或電位變化的信號由控制器接收,控制器即 可偵測出觸碰點的位置;是以,相較於先前技術本創作 避免當電荷無法傳遞到電容式觸控面板時,即無法進行觸 控作業,本創作使用上較為便利。 Μ4ϋ^4δ1 【實施方式】 >考圖1所7F ’係本創作的較佳實施例本創作包 含有一電阻式觸控 板10及一電容式觸控面板20,該電 容式觸控面板20係利用一职弟 1〇上 用膠層30黏著在該電阻式觸控板 該電阻式觸控& # 板10包含有一透明基板11、一下導 電層12、一間隙子層13及一上導電層”。 該下導電層12係形成在該透明基板11上方。 該上導電層係利用一雙面移13〇黏合在該下導電 層12上方,該雙面膠13〇係設置在上導電層^與下導電 層12的周邊,上導電層14與下導電層12兩者之間形成 有一間隙140。 該間隙子層13係具有複數個間隙子131,該⑪間隙子 131分佈在前述間隙14〇内部而將上導電層μ與下導電 層1 2隔開。 第二線路層24、一第二基 該電容式觸控面板2G包含有-第-基板21、-第一 線路層22、一絕緣膠層23、 板25及一保護層26。 該第基板21上表面係形成該第'線路層22,該電 容式觸控面板20係以第一基拓 货乂弟基板21下表面利用該膠層30 而與該電阻式觸控面板1〇的上连番 J上等電層14相貼合;其中該 第一基板21可為薄膜基板,該第_ ^ 線路層22可為氧化銦 錫(ITO)線路層。 該第二基板25的下表面形成該第二線路層24,令第 5 M409481 二線路層24朝向該第一線路層22,並使該第一線路層22 與該第二線路層24之間設有該絕緣膠層23,使該第一線 路層22與該第二線路層24相互貼合,並避免第一線路層 22與第二線路層24電性接觸;其中該第二線路層24可 為氧化銦錫(丨TO)線路層,該第二基板25可為薄膜基板。 該保護層26係設置在該第二基板25的表面。 當操作人員徒手觸壓本創作時,首先接觸的部份為電 容式觸控面板20,因人體帶有電荷,可在第一線路層22 與該第二線路層24之間產生電容變化,該電容的變化由一 電連接該兩線路層22、24控制器谓測出,即可計算出觸碰 點的位置。 當操作人員戴手套間接觸壓本創作時,縱使人體電荷 被隔離,無法對電容式肋面板2Q產生制,操作人員仍 可施以壓力’致使電阻式觸控面板】"的上、下導電層At present, the common touch panel includes a capacitive touch panel. The capacitive touch panel mainly forms an inductive electrode on the lower surface of the substrate. When the user touches the surface of the soil board, the human body and the sensing electrode are charged by the human body. A change in capacitance occurs. The change in the front capacitor is output to a roll of 丨3» through a signal line connected to the sense electrode. With the main (four)h, the controller can calculate the position of the touch point. „In some workplaces, such as the clean room working environment, the operator’s beggars are insulated by the gloves, and the electric charge on the operator is isolated from the capacitive touch panel, ie it cannot be on the touch panel. The generation of the capacitor cannot achieve the purpose of the touch; if the touch is required, the glove must be removed first. This causes inconvenience in operation. [New content] The main purpose of the creation is to provide a composite touch panel. In the hope that when the charge cannot be transmitted to the capacitive touch panel, the touch panel does not reach the touch effect, resulting in inconvenience in use. To achieve the goal, the technical means adopted by the creation is to provide a composite type. The touch panel includes: 3 M409481 a resistive touch panel, comprising: a substrate; a lower conductive layer formed on the substrate; an upper conductive layer disposed on the lower conductive layer, and the upper conductive layer Forming a gap between the layer and the lower conductive layer; and a gap sub-layer having a plurality of spacers distributed inside the gap; and a capacitive touch surface The first substrate has a first circuit layer formed on the upper surface thereof, and the lower surface of the first substrate is adhered to the upper conductive layer of the resistive touch panel by a glue layer; a substrate having a second circuit layer formed on the lower surface thereof, the second circuit layer facing the first circuit layer; an insulating adhesive layer disposed between the first circuit layer and the second circuit layer for bonding the first layer a circuit layer and the second circuit layer; and a protective layer are disposed on the surface of the second substrate. By the design of the creation, if the operator touches the creation directly with the hand, the first contact is a capacitive touch. The control panel, the body charge can be transmitted to the capacitive touch panel, causing the capacitive touch panel to produce a capacitance change; if the operator touches the creation indirectly (such as wearing a glove), although the capacitive touch panel does not receive the power 2, the The resistive touch panel can still generate a potential change due to the pressure, and the signal that changes the capacitance or the potential is received by the controller, and the controller can detect the position of the touch point; Creation avoidance When the charge cannot be transmitted to the capacitive touch panel, the touch operation cannot be performed, and the creation is convenient. Μ4ϋ^4δ1 [Embodiment] > 7F of the figure 1 is a preferred embodiment of the present invention The creation includes a resistive touch panel 10 and a capacitive touch panel 20, and the capacitive touch panel 20 is adhered to the resistive touch panel by a layer of adhesive 30 on a resistive touch panel. &#板10 includes a transparent substrate 11, a lower conductive layer 12, a gap sub-layer 13 and an upper conductive layer. The lower conductive layer 12 is formed over the transparent substrate 11. The upper conductive layer is bonded to the lower conductive layer 12 by a double-sided tape 13 which is disposed on the periphery of the upper conductive layer and the lower conductive layer 12, and the upper conductive layer 14 and the lower conductive layer 12 A gap 140 is formed between the two. The gap sub-layer 13 has a plurality of spacers 131 which are distributed inside the gap 14A to separate the upper conductive layer μ from the lower conductive layer 12. The second circuit layer 24 and the second substrate comprise a first substrate 21, a first circuit layer 22, an insulating layer 23, a plate 25 and a protective layer 26. The first circuit layer 22 is formed on the upper surface of the first substrate 21, and the capacitive touch panel 20 is formed on the lower surface of the first substrate substrate 21 by using the adhesive layer 30 and the resistive touch panel 1 The upper substrate J is laminated with the isoelectric layer 14; wherein the first substrate 21 can be a thin film substrate, and the first wiring layer 22 can be an indium tin oxide (ITO) wiring layer. The second circuit layer 25 is formed on the lower surface of the second substrate 25 such that the fifth M409481 second wiring layer 24 faces the first wiring layer 22, and the first circuit layer 22 and the second wiring layer 24 are disposed. The first circuit layer 22 and the second circuit layer 24 are adhered to each other, and the first circuit layer 22 is electrically connected to the second circuit layer 24; wherein the second circuit layer 24 is The indium tin oxide (ITO) circuit layer, the second substrate 25 may be a film substrate. The protective layer 26 is disposed on the surface of the second substrate 25. When the operator touches the creation by hand, the first contact portion is the capacitive touch panel 20, and a capacitance change occurs between the first circuit layer 22 and the second circuit layer 24 due to the charge of the human body. The change in capacitance is measured by an electrical connection between the two circuit layers 22, 24, and the position of the touch point can be calculated. When the operator wears the contact between the gloves, even if the body charge is isolated, the capacitive rib panel 2Q cannot be produced, and the operator can still apply pressure to the upper and lower conductive layers of the resistive touch panel. Floor
12、14相接觸而產生電也缴各 L 电位憂化,此電位變化可由電連接 上、下導電層1 2 ' 14的控制哭诘⑴b 一番 的控制盗偵測出,藉此計算出觸碰點 的位置。 綜合以上所述,若握你Λ 3 .# ^ . 、人員徒手觸壓本創作時,人體 的電何可在電容式觸控面板2〇 在王%谷變化,電容轡化 的k號可被控制器偵測出,並、, θ ^ t具觸碰點的位置;若捶祚 人員戴手套間接地觸壓本創作時 v 中的上、下導電層由電阻式觸控面板10 相接觸而產生電位變化,電位 上、下導電& 12、14 出,並計算觸碰點的位置。 W信號可被控制器偵測 藉由本創作電阻式與電 令式觸控面板交疊之設計,盔12, 14 phase contact and electricity generation also pays each L potential worry, this potential change can be detected by electrically controlling the upper and lower conductive layer 1 2 '14 control cries (1) b some control thieves, thereby calculating the touch The location of the touch point. In summary, if you hold your hand 3 . # ^ ., when the staff touches the creation by hand, the electric power of the human body can be changed in the capacitive touch panel 2, and the k number of the capacitor can be changed. The controller detects that, and, θ ^ t has the position of the touch point; if the person indirectly touches the creation of the glove, the upper and lower conductive layers in the v are contacted by the resistive touch panel 10 A potential change is generated, and the potential is up and down conductive & 12, 14 out, and the position of the touch point is calculated. The W signal can be detected by the controller. The helmet is designed to overlap with the electronic touch panel.
4操作人員係直# &間接觸碰本創作, 電信號被控制器接收並計算出觸碰點的 【圖式簡單說明】 圖1 ··本創作之較佳實施例剖面示 【主要元件符號說明】 10電阻式觸控面板 12下導電層 130雙面膠 14上導電層 20電容式觸控面板 22第一線路層 24第二線路層 26保護層 11透明基板 13間隙子層 131間隙子 140間隙 21第一基板 23絕緣膠層 25第二基板 3〇膠層 皆可產生電信號,位置’達觸控的效 圖。 74 The operator is directly connected to the author, the electrical signal is received by the controller and the touch point is calculated [simple description of the drawing] Fig. 1 · The preferred embodiment of the present invention is shown in the section [main component symbol Description] 10 resistive touch panel 12 under conductive layer 130 double-sided tape 14 on conductive layer 20 capacitive touch panel 22 first circuit layer 24 second circuit layer 26 protective layer 11 transparent substrate 13 gap sub-layer 131 gap 140 The gap 21 of the first substrate 23, the insulating layer 25, the second substrate 3, and the silicone layer can generate an electrical signal, and the position is up to the touch effect. 7