1251783 九、發明說明: 【發明所屬之技術領域】 本發明係有關-種電容式觸控板,特別是關於—種具 有定位與觸感功能的電容式觸控板。 【先前技術】 目前的電容式觸控板,大都是平面式設計,當使用者 以手指在上面滑動時’並不容易控制手指的位置及所移動 的距離,此種情形在電容式觸控板操作於捲軸功能 (scroll fuW)時尤為明顯。電容式觸控板操作於捲 軸功能時,係在電容摘控板上選取—垂直或—水平區域 做為捲軸的滑動區域’藉由手指在該滑動區域滑 電容式觸控板上的感應發生變化產生感應變 ,送給應用軟體進行處理’達成垂直或水平轴捲:的:見 象’但其所產生的問題在於手指在平面柄電容式觸 上滑動’因每個使用者的手指大小或其指力的不同,並不 易控制移動的距離且缺乏滑動的觸感,因而無法精確達到 所想要捲動的範圍,而必須靠者—步—步慢慢移動來達到 想要的範圍’造成使用上的不便。因此,若能使電容式觸 控板操作於捲軸功能時能輕易控制手指移動的距離並且 具有滑動的觸感,將使得電容式觸控板的捲軸功能更易於 操作且讓使用者更容易接受。 、 因此,一種具有定位與觸感功能的電容式觸控板,乃 為所冀。 1251783 【發明内容】 本發明的主要目的,在於提出一種具有定位與觸感功 能的電容式觸控板。 根據本發明,一種具有定位與觸感功能的電容式觸控 板包括多個間隔式突起結構位於捲軸功能區,以及該捲軸 功能區具有許多定位點,每一定位點對應一個突起結構, 其中,該突起結構係供手指滑動產生一定位訊號以及提供 一滾動觸感。 根據本發明,一種具有定位與觸感功能的電容式觸控 板包括多個間隔式凹槽結構位於捲軸功能區,以及該捲軸 功能區具有許多定位點,每一定位點對應一個凹槽結構, 其中,該凹槽結構係供手指滑動產生一定位訊號以及提供 一滾動觸感。 【實施方式】 第一圖係本發明的電容式觸控板捲軸功能區12的示 意圖,第二圖係第一圖的側視圖,同時參考第一圖及第二 圖說明如下,捲軸功能區12上具有多個間隔式突起結構 14,在捲轴功能區12上包含多個定位點16,每一個定位 點16對應一個間隔式突起結構14,當手指在捲軸功能區 12上滑動,滑到間隔式突起結構14時,加強面板12上 的感應變化,再根據手指滑動所造成的感應變化值,送出 訊號給應用軟體,達成垂直或水平軸捲動的目的。再者, I251783 離'曰::ί —個突起結構14即對應一個定位點16的距 區12且古Γ明顯感覺到手指滑動的距離,使得捲軸功能 14時,將導^功能,因此,每當使指滑過一個突起結構 方向軟體朝包括上、下、左、右其中之一個 且St 精確達到使用者所想要捲動的範圍, 滑動時,;^ _,4讓使帛相手録純魏區12上 有相同於滾輪滾動的觸感。 第=另—在捲軸魏㈣間隔式突起結構如 32—上呈有;:’其側視_所示,在捲轴功能區 能區= ί突起結構私,以增加手指在楼轴功 亦可如第;二位有 捲 四圖Β;廊圖所示或方形剖面輪麻如第三圖Β及第 所示。V不同大小的面積如第三圖Α及第四圖八 五圖=本發Γ ’ —在捲細能區的_式㈣結構如第 圖A所不,其側視圖如第五圖B所示 第 ^ ^ 54,, fa1 ^ ;;;^ ;2 4,、有與之前所述的間隔式突起結 :籌 =據^_處理上’當手指滑到間隔式凹槽^感 減少捲轴功此區52上的感應變化,再㈣ 、 成的感應變化值’送出訊號給應用軟體,達::造 轴捲動的目的。其中間隔式凹槽結構具有弧形或方ί = 1251783 面輪廓且包括不同大小的面積。 以上對於本發明之較佳實施例所作的敘述係為闡明 之目的,而無纽定本發明精確地為所揭露的形式,基於 以上的教導或從本發明的實施例學習而作修改或變化是 可能的’實施例係為解說本發明的原理以及讓熟習該項技 術者以各種實施例湘本發明在實際應用上*選擇及敛 述’本發明的技術思想企圖由以下的中請專利範圍及其 等來決定。 ^ 【圖式簡單說明】 對於熟習本技藝之人士而言,從以下所作的詳細救述 配合伴隨的圖式,本發明將能夠更清楚地被瞭解,其上述 及其他目的及優點將會變得更明顯,其中·· 第一圖係本發明的電容式觸控板捲軸功能區的 Μ. λ ^ 第二圖係第一圖的侧視圖; 第二圖A係根據本發明另一在捲軸功能區的間隔 起結構示意圖; 圖; 在捲軸功能區的間隔式突 第三圖B係第三圖A的側視 第四圖A係根據本發明又一 起結構示意圖; 第四圖β係第四圖A的側視圖; 第五圖A係根據本發明在捲軸功能區的間隔式凹槽結 構示意圖;以及 g 1251783 第五圖B係第五圖A的侧視圖 【主要元件符號說明】 12捲軸功能區 14間隔式突起結構 16定位點 3 2捲轴功能區 34間隔式突起結構 52捲軸功能區 54間隔式凹槽結構 91251783 IX. Description of the Invention: [Technical Field] The present invention relates to a capacitive touch panel, and more particularly to a capacitive touch panel having a positioning and tactile function. [Prior Art] The current capacitive touch panels are mostly flat design. When the user slides with the finger, it is not easy to control the position of the finger and the distance moved. This is the case in the capacitive touch panel. This is especially true when operating on the scroll function (scroll fuW). When the capacitive touch panel operates on the reel function, it is selected on the capacitive pick-up panel—the vertical or horizontal area is used as the sliding area of the reel. The change of the finger on the sliding capacitive touch panel in the sliding area changes. Inductive change, sent to the application software for processing 'achieve vertical or horizontal axis roll: see 'but' but the problem is that the finger slides on the flat handle capacitive touch' because of the size of each user's finger or The difference in finger force is not easy to control the distance of movement and lacks the sliding touch, so it is impossible to accurately reach the range of the desired scrolling, but must rely on the person-step-step slowly moving to reach the desired range. Inconvenience. Therefore, if the capacitive touch panel can be easily operated to control the distance of finger movement and has a sliding touch when operating the reel function, the reel function of the capacitive touch panel can be made easier to operate and more acceptable to the user. Therefore, a capacitive touch panel with positioning and touch function is what it is. 1251783 SUMMARY OF THE INVENTION A primary object of the present invention is to provide a capacitive touch panel having positioning and tactile functions. According to the present invention, a capacitive touch panel having a positioning and tactile function includes a plurality of spaced protrusion structures in a reel function area, and the reel function area has a plurality of positioning points, each of which corresponds to a protruding structure, wherein The protruding structure is for the finger to slide to generate a positioning signal and to provide a rolling touch. According to the present invention, a capacitive touch panel having a positioning and tactile function includes a plurality of spaced groove structures in a reel function area, and the reel function area has a plurality of positioning points, each of which corresponds to a groove structure. The groove structure is configured for the finger to slide to generate a positioning signal and provide a rolling touch. [Embodiment] The first figure is a schematic view of the capacitive touch panel reel function area 12 of the present invention, and the second drawing is a side view of the first figure, while referring to the first figure and the second figure, the reel function area 12 is as follows. There are a plurality of spaced protrusion structures 14 on the reel function area 12 including a plurality of positioning points 16, each of which corresponds to a spaced protrusion structure 14, which slides to the space when the finger slides on the reel function area 12. When the protrusion structure 14 is used, the induction change on the panel 12 is strengthened, and then the signal is sent to the application software according to the value of the induction change caused by the sliding of the finger to achieve the purpose of scrolling the vertical or horizontal axis. Furthermore, I251783 is from '曰::ί—a protruding structure 14 corresponding to the distance zone 12 of an locating point 16 and the ancient cymbal clearly senses the distance of the finger sliding, so that when the reel function is 14, the function will be guided, therefore, each When the finger is slid over a protruding structure, the software body is oriented to include one of the upper, lower, left, and right sides, and St accurately reaches the range that the user wants to scroll, and when sliding, ^ _, 4 allows the 帛 phase to record pure The Wei District 12 has the same tactile feel as the scrolling of the wheel. The other = in the reel Wei (four) spaced protrusion structure such as 32 - on;; 'its side view _, in the reel function area energy area = ί protrusion structure private, to increase the finger in the floor axis can also For example, the second place has a volume of four figures; the gallery diagram or the square section of the wheel is as shown in the third figure and the first. The area of V different size is as shown in the third figure and the fourth figure 八五图=本发Γ' - the structure of the _ (4) in the thin energy zone is as shown in Figure A, and its side view is as shown in the fifth figure B. The first ^ ^ 54, fa1 ^ ;;; ^ ; 2 4, has the spacer protrusions described above: raise = according to ^_ on the 'when the finger slides to the spacer groove ^ sense to reduce the scroll work The change in the induction on this area 52, and then (4), the induced change value of the 'send signal to the application software, to:: the purpose of the axis to roll. Wherein the spacer groove structure has an arc or square ί = 1251783 plane profile and includes different sized areas. The above description of the preferred embodiments of the present invention is intended to be illustrative, and the present invention is not intended to be limited to the disclosed form. It is possible to make modifications or variations based on the above teachings or learning from the embodiments of the present invention. The embodiments are intended to illustrate the principles of the present invention and to enable those skilled in the art to select and cite the technical idea of the present invention in various practical applications. Wait until you decide. BRIEF DESCRIPTION OF THE DRAWINGS [0009] The present invention will be more clearly understood from the following detailed description, taken in conjunction with the accompanying drawings. More specifically, the first figure is the functional area of the capacitive touch panel reel of the present invention. λ ^ The second figure is a side view of the first figure; the second figure A is another reel function according to the present invention. Schematic diagram of the spacing of the zones; Figure; the spacing of the reels in the reel functional zone. Figure B is a side view of the third drawing A. Figure 4 is a schematic view of the structure according to the present invention; A side view of A; FIG. 5 is a schematic view of a spacer groove structure in a reel functional area according to the present invention; and g 1251783 fifth figure B is a side view of the fifth figure A [main element symbol description] 12 reel function area 14 spacer protrusion structure 16 positioning point 3 2 reel function area 34 spacer protrusion structure 52 reel function area 54 spacer groove structure 9