201229840 六、發明說明: 【發明所屬之技術領域】 本發明關於一種應用於一觸控面板上實施多點觸控操作之多點 觸控配件。 【先前技術】201229840 VI. Description of the Invention: [Technical Field] The present invention relates to a multi-touch accessory for applying a multi-touch operation on a touch panel. [Prior Art]
Ik著觸控技術的持續發展,多點觸控技術已成為發展趨勢。多 點觸控技賴發者賴發時,Μ自己的手指進行觸控操作,缺雙 手原則至多提供十個觸控點,無法再擴充,若欲同步操作儀器時, 開發者可提供的難簡更少,且錢_麵聽作不便。此外, 進行多難點平行軸時,觸控點之間距㈣人體操作姿勢 的限制而難以維持不變,造成觸控操作穩紐不佳。 ι發明内容】 鑑於先前技術中的問題,本發明 觸控配件,應用於一觸控面板上實施 在於提供-把 改變該多點觸控配件之觸控件之門距$ ‘作。使用者可袭 控操作,解決先前技射多亀操作不==定物 問題。 使及操作穩定性不佳 不發明之多點觸控配件包含—連接件、 觸控件。該第-觸控件連接於該連接件。該 201229840 ,於=接件,使得該第—觸控件與該第二觸控件間之間距能被改 受。其中,财接件可鋪作贿該第—觸控件及該第 該間距同時觸碰該觸控面板。 1干乂 =,使用者细該多點觸控配件而得以單—手指操作該連接 ’實知多點觸控操作;此外,於同—次觸控件移動的過程中,觸 控件均能保持不㈣觸控件_,故可輕易地實現穩定的平行軌 ,。進-步地’本發明之多點觸控配件可更包含更多的觸控件,以 貫現更多觸控點的觸控操作,並且這些觸控點不以直線排列為限, 故能增加該多點觸控配件產生之難點多樣化。 關於本發明之優點與精神可以藉由以下的發明詳述及所附 得到進一步的瞭解。 【實施方式】 。月多閱第1圖,其為根據本發明之一較佳實施例之多點觸控配 件1之分解圖。多點觸控配件丨包含—連接件12、二觸控件M。每 個觸控件14包含一觸控部142及一螺絲144。連接件12上形成 有導槽結構122 ’每-個觸控件14設置於導槽結構122中,並藉 由其螺絲144可調整地固定於連接件12上,故觸控件14間之間距 124可輕易調整;其中間距124係以觸控部142之中心為基準定義。 5t參閱第2圖’其為多點觸控配件1之使詩意®。使用者僅 201229840 以單一手指操作多點觸控配件1之連接件12以使觸控件14之觸押 部M2以間距124㈤時觸碰觸控面板2,即可產生二條平行的觸控工 執跡於先刖技術中’若欲產生兩線觸控軌跡,則需二隻手指同時 觸碰觸控面板並拖胁誠顧巾,手指間難制不易,曰其產 生之二條馳輪之平行度姐;反之,_本發明之多點觸抑配 件卜使用者則可僅以單-手指即可實現高平行度之觸控軌跡;·此 尚增加使用者啊麟其他儀II之方便性。此外,當伽者同時操 作多個本發明之多點觸控配件丨時,即可產生更多的觸控執跡,突 破人體十隻手指的限制。 叫參閱第3圖,其為根據本發明之一實施例之多點觸控配件3 面圖。多點觸控配件3與多點觸控配件】之結構大致相同,惟 ^點觸控配件3尚包含-線性調整件16,例如螺絲,其包含一操作 =162及與操作部162連接之—調整部164。調整部⑹旋鎖於連 7 12上並伸入導槽結構122中且緊抵觸控件Μ,操作部162則 出於連接件12外。藉此,使用者得旋轉操作部162以改變觸控件 ;導槽'纟。構122中之位置’進而達到精確定位觸控件14之目的。 ㈣疋’於實作上,依觸控件14結構設計的不同,調整部 得緊抵觸控部142或螺、絲144 ;又,此二觸控件Μ不以設計相 201229840 _整件17,其包含—操作部172及與操作部 Π4。調整部164其 之㉚整部 者得_作部m以_控件14於_構^ 調整部觸控件丨4之目的。補充說明的是,當 不々疋轉時,觸控件14亦益法 即可藉由控制調整部174之作動以達到二控== 螺絲144㈣略。此外,件14之難設計不以相同為必要。 =閱第5圖,其為根據本發明之另—實施例之多闕控 局H面之俯視圖。於多简控配件3、4之結射,主要 牛:、17沿導槽結構122之延伸方向定位觸控件14,多 =位螺㈣之定位㈣沿垂直於導槽結構⑵之延伸方向之= =控件14之凹洞1422卡合,財現定_控件Μ的目的。· 2的是,當定位螺絲18提供之定位力量足以細酬摔作時 ^力時,螺_亦可省略。另外,為增加觸控件Μ 的%疋性,觸控部142伸入導槽鈇槿士 於™—更:== :件14位置調整的穩定性;或將兩側定位螺絲18交錯設置,⑽ =位,數量。再概日崎,於實作 _ 8亦可設置在觸控件14中,在導槽結構⑵内之糊壁則形成 201229840 疋位凹洞,此同樣具有如前述般的定位效果。 請參閱第6圖’其為根據本發明之另一較佳具體實施例之多點 觸控配件6之剖面圖。多點觸控配件6與多點觸控配件β同之處 在於多點觸控配件5包含第三個觸控件15,同樣地包含一觸控部152 及-螺絲154並可調整地蚊於連接件12,使得觸控件15與另兩 個觸控件14卩㈣距126號被崎;觀,制者能操作連接件 12以使此三侧控件14、15 _觸碰魅面板2,財施三點觸控 刼作。於前述各實施例中,關於觸控件14調整、定位之說明,於多 點觸控配件6之觸控件14、15之結射有可翻者,亦有適用,不 再贅述。此外’於實作上,本發明之錄觸控配件可配置有多個 控件’不再贅述。 於前述實施财’導槽結構122係呈直線形,觸控件Μ、Μ 亦隨之呈直線排列,但本發明不以此為限。請參閱第7圖,並為相 據本發明之-實補之連接件12之俯,射觸控件…^ 虛線繪示。於本實施例中,導槽結構122呈弧形,故觸控件14、15 則沿弧線。又,請參_ 8圖,其為根據本發明之另—實施 之連接件12之俯視圖’其中觸控件14、15以虛線綠示。於本^ 例中,連接件12之導槽結構123呈樹枝狀,此時觸控件 呈不規則分佈。於前述各實施例中,_難件14、ΐ5調整、—可 之說明,於此可賴者,亦有_,不再魏。 疋位 201229840 補充說明的是’於實作上,前述各實施例中之導槽結構122、 123邏輯上得由數個獨立滑槽組合而成,例如第丨圖中的導槽結構 122改由兩個較短的滑槽,呈直線排列,用以分別導引一個觸控件 14;此結構仍能發揮固定、調整觸控件14之功能。另外,於前述各 實施例中,觸控件14、15之觸控部142、152係-柱狀物,均具有 相同之柱徑,惟於實作上,每—個觸控部142、152之柱徑可不相同, 可用以模擬使用者每根手指於觸控面板2上不同的接觸面積。此 外’觸控件14、15可直接以金屬材料製成,或是其表面塗佈一層導 電材料’以具有導電魏,利於電容式難面板簡控操作。 於則述各實施例中,觸控件14、15於連接件12上之定位主要 藉由導槽結構122、123實現,但本發财以此為限。請參閱第9 圖,其為根據本發明之另一較佳具體實施例之多點觸控配件7之刊 面圖。多點觸控配件7之連接件72上形成有複數個定位孔722 /多 點觸控配件7之觸控件74包含一觸控部742及-固定部744,觸控 件74藉由固定部744選擇地插入定位孔722其中之一以達到固定於 j接件72上之目的。於本實施例中,固定部%與定位孔则藉 Γ螺紋結構連接,但本翻糾此秘,例如直接抓軸過赦 合的方式連接固定部744與定位孔722亦可。 補充說明的是,”述各實施例中,觸控件ΐ4、Μ均係相對連 ^件U可調整,但本發明不以此為限。例如,其中—個觸控㈣ 或係直接固定於連接件12上,其相對於連接件U之位置係不 201229840 變,但仍可難調整其他觸控件14、15連接於連接件η上的 :獲續需_控件14、15的分佈姻樣能實現前述各實施例之 =。^結構中,因該直接固定於連如2上之觸控件 =其相對連接件12之位置,故其無需設置於導槽結細 双肀,不待贅述。 相較於先前技術,使用者利用本發明之多點觸控配件,以單一 手指操作其連接件,即可實施二觸控點或更多觸控點的觸控㈣, 進而能克服基於人體手指限制的十個觸控點限制;又,使用者能藉 由施髮本發明之多點觸控配件,輕糾產生穩定的平行的觸控=曰 跡。此外,本發明之乡._她件之触件不 能增加其產生之觸控點分佈之多樣化。 W為限故 以上所述僅為本發明之較佳實施例,凡依本發明申請專利範圍 所做之均等變化與修飾,皆應屬本發明之涵蓋範圍。 【圖式簡單說明】 第1圖為根據本發明之一較佳實施例之多點觸控配件之分解圖。 第2圖為多點觸控配件之使用示意圖。 第3圖為根據本發明之一實施例之多點觸控配件之剖面圖。 第4圖為根據本發明之另一實施例之多點觸控配件之剖面圖。 第5圖為根據本發明之另一實施例之多點觸控配件局部剖面之俯視 201229840 第6圖為根據本發明之另一較佳具體實施例之多點觸控配件之剖面 圖。 第7圖為根據本發明之一實施例之連接件之俯視圖。 第8圖為根據本發明之另一實施例之連接件之俯視圖。 第9圖為根據本發明之另一較佳具體實施例之多點觸控配件之剖面 圖。 φ 【主要元件符號說明】 1 ' 3'4'5、6、7多點觸控配件 14、15、74觸控件 18 定位螺絲 124、126 間距 144、154 螺絲 164、174 調整部 744 固定部 1424 部分 2 觸控面板 12、72連接件 16、17線性調整件 122、123 導槽結構 142'152、742 觸控部 162 > 172 操作部 • 722定位孔 1422 凹洞 11With the continuous development of touch technology, multi-touch technology has become a development trend. Multi-touch technology relies on the sender's finger to perform touch operation. The lack of two-handed principle provides at most ten touch points, which cannot be expanded. If you want to operate the instrument synchronously, the developer can provide difficulties. Jane is less, and money _ face is inconvenient. In addition, when the parallel axis is difficult, the distance between the touch points is limited (4) and the posture of the human body is difficult to maintain, resulting in poor touch operation. In view of the problems in the prior art, the touch accessory of the present invention is applied to a touch panel to provide a gate distance of a touch member for changing the multi-touch accessory. The user can control the operation and solve the problem of the previous technical multi-turn operation. Poor operation and operation stability The multi-touch accessories not invented include - connectors and touch elements. The first touch member is coupled to the connector. The 201229840 is connected to the connector so that the distance between the first touch member and the second touch member can be changed. Wherein, the financial component can be paved for the first touch-touch and the first spacing simultaneously touches the touch panel. 1Cool==The user can use the multi-touch accessory to single-finger the connection to realize the multi-touch operation; in addition, during the movement of the same-touch, the touch can be kept (4) The touch element _, so that a stable parallel rail can be easily realized. The multi-touch accessory of the present invention can further include more touch components to achieve more touch operation of the touch points, and the touch points are not limited by the linear arrangement, so that the touch points can be increased. The multi-touch accessories generate a variety of difficulties. The advantages and spirit of the present invention will be further understood from the following detailed description of the invention. [Embodiment] More often, FIG. 1 is an exploded view of a multi-touch assembly 1 in accordance with a preferred embodiment of the present invention. The multi-touch accessory includes a connecting member 12 and two touch members M. Each of the touch members 14 includes a touch portion 142 and a screw 144. The connecting member 12 is formed with a guiding structure 122. Each of the touch members 14 is disposed in the guiding structure 122, and is fixedly fixed to the connecting member 12 by screws 144. Therefore, the distance between the touch members 14 is 124. The adjustment is easily made; wherein the spacing 124 is defined based on the center of the touch portion 142. 5t See Figure 2' for the multi-touch accessory 1 for Poetic®. The user only operates the connector 12 of the multi-touch accessory 1 with a single finger so that the contact portion M2 of the touch member 14 touches the touch panel 2 at a spacing of 124 (five), thereby generating two parallel touchers. In the first technology, if you want to create a two-line touch track, you need two fingers to touch the touch panel at the same time and drag the watch to care for the towel. It is difficult to make it between the fingers, and the two parallel sisters of the two wheels are produced. Conversely, the multi-touch component of the present invention can realize a high parallelism touch track with only a single finger; this also increases the convenience of the user II. In addition, when the gamma simultaneously operates a plurality of multi-touch accessories of the present invention, more touch executions can be generated, which breaks the limit of ten fingers of the human body. Referring to Figure 3, there is shown a top view of a multi-touch assembly in accordance with an embodiment of the present invention. The multi-touch accessory 3 and the multi-touch accessory have the same structure, but the touch-sensitive component 3 further includes a linear adjustment member 16, such as a screw, which includes an operation=162 and is connected to the operation portion 162. Adjustment unit 164. The adjusting portion (6) is screwed onto the connector 712 and protrudes into the guide groove structure 122 and abuts against the touch member Μ, and the operating portion 162 is outside the connecting member 12. Thereby, the user has to rotate the operation portion 162 to change the touch member; the guide groove 纟. The position in the structure 122 is further achieved for the purpose of accurately positioning the touch member 14. (4) In practice, depending on the structural design of the touch member 14, the adjustment portion is pressed against the touch portion 142 or the screw or the wire 144; and the two touch members are not designed to be 201229840 _ whole piece 17, which includes - an operation unit 172 and an operation unit Π4. The adjustment unit 164 has the entire portion of the control unit 164 for the purpose of adjusting the portion of the touch unit 丨4. It should be noted that when the button 14 is not rotated, the touch member 14 can also be controlled by the control unit 174 to achieve the second control == the screw 144 (four). In addition, the difficult design of the piece 14 is not necessary for the same. = Fig. 5 is a plan view of a H-face of a multi-turn control station according to another embodiment of the present invention. For the projection of the multiple control accessories 3, 4, the main cattle: 17, the positioning of the touch member 14 along the extending direction of the guide channel structure 122, the positioning of the multi-position screw (4) (four) along the direction perpendicular to the extension of the channel structure (2) = = The hole 1422 of the control 14 is engaged, and the purpose of the control is _ control. · 2, when the positioning screw 18 provides the positioning force enough to pay for the force, the screw _ can also be omitted. In addition, in order to increase the % flexibility of the touch element ,, the touch portion 142 extends into the guide groove gentleman to TM-more: ==: the stability of the position adjustment of the piece 14; or the two side positioning screws 18 are staggered, (10) = bit, quantity. In addition, the implementation of _ 8 can also be set in the touch member 14, the paste wall in the channel structure (2) forms a 201229840 凹 recess, which also has the positioning effect as described above. Please refer to Fig. 6 which is a cross-sectional view of a multi-touch assembly 6 in accordance with another preferred embodiment of the present invention. The multi-touch accessory 6 is the same as the multi-touch accessory β in that the multi-touch accessory 5 includes a third touch component 15 , which also includes a touch portion 152 and a screw 154 and can be adjusted to be connected by mosquitoes. The member 12 is such that the touch member 15 and the other two touch members 14 are separated from each other by the number 126; the manufacturer can operate the connector 12 to make the three-side control 14, 15 _ touch the charm panel 2, the financial three Touch the touch. In the foregoing embodiments, the description of the adjustment and positioning of the touch component 14 is applicable to the bumping of the touch components 14 and 15 of the multi-touch device 6, and is also applicable, and will not be described again. Further, in practice, the recorded touch accessory of the present invention can be configured with a plurality of controls', and will not be described again. In the foregoing implementation, the channel structure 122 is linear, and the touch elements Μ and Μ are also arranged in a straight line, but the invention is not limited thereto. Please refer to Fig. 7, and for the connection of the connector 12 of the present invention, the touch lens is shown by a dotted line. In this embodiment, the channel structure 122 is curved, so the touch members 14, 15 are along an arc. Further, please refer to Fig. 8 which is a plan view of the connector 12 according to another embodiment of the present invention. The touch members 14, 15 are shown in broken lines. In this example, the guiding structure 123 of the connecting member 12 is dendritic, and the touch members are irregularly distributed. In the foregoing embodiments, the _ difficult member 14, the ΐ5 adjustment, and the arbitrarily, the arbitrarily, there is also _, no longer Wei. 2012 201229840 It is added that, in practice, the channel structures 122, 123 in the foregoing embodiments are logically composed of a plurality of independent chutes, for example, the channel structure 122 in the second figure is modified by Two shorter chutes are arranged in a line for guiding a touch member 14 respectively; the structure can still function to fix and adjust the touch member 14. In addition, in the foregoing embodiments, the touch portions 142 and 152 of the touch members 14 and 15 have the same column diameter, but in practice, each of the touch portions 142 and 152 The column diameters may be different, and may be used to simulate different contact areas of each finger of the user on the touch panel 2. In addition, the touch members 14, 15 can be directly made of a metal material or coated with a conductive material on the surface to have a conductive Wei, which facilitates the capacitive operation of the panel. In the embodiments, the positioning of the touch members 14 and 15 on the connecting member 12 is mainly achieved by the guiding structure 122, 123, but the present invention is limited thereto. Please refer to FIG. 9, which is a pictorial view of a multi-touch accessory 7 in accordance with another preferred embodiment of the present invention. A plurality of positioning holes 722 are formed on the connecting member 72 of the multi-touch device 7 . The touch device 74 of the multi-touch device 7 includes a touch portion 742 and a fixing portion 744. The touch device 74 is selected by the fixing portion 744. One of the positioning holes 722 is inserted into the positioning hole 722 for the purpose of being fixed to the j-piece 72. In this embodiment, the fixing portion % and the positioning hole are connected by a threaded structure, but the fixing portion 744 and the positioning hole 722 may be connected by directly grasping the shaft. It is to be noted that, in each of the embodiments, the touch elements ΐ4 and Μ are adjustable relative to each other, but the invention is not limited thereto. For example, one touch (four) or directly connected to the connection The position of the member 12 relative to the connecting member U is not 201229840, but it is still difficult to adjust the other touch members 14, 15 connected to the connecting member η: the distribution of the required _ control 14, 15 can be realized In the structure of the foregoing embodiments, since the touch member directly attached to the connection member 2 has a position opposite to the connector member 12, it does not need to be disposed in the guide groove to form a double-twisted pair, which will not be described. In the prior art, the user can perform the touch of two touch points or more touch points by using the multi-touch accessory of the present invention to operate the connector with a single finger, thereby overcoming the ten-based finger restriction. Touch point limitation; in addition, the user can apply a multi-touch accessory of the present invention to lightly generate a stable parallel touch=smoke. In addition, the home of the present invention. It is not possible to increase the diversity of the distribution of touch points that it generates. For the preferred embodiment of the present invention, the equivalent changes and modifications made to the scope of the present invention should be within the scope of the present invention. [Simplified Schematic] FIG. 1 is a comparison of the present invention. An exploded view of a multi-touch assembly of a preferred embodiment. Figure 2 is a schematic view of the use of a multi-touch accessory. Figure 3 is a cross-sectional view of a multi-touch assembly according to an embodiment of the present invention. FIG. 5 is a cross-sectional view of a multi-touch assembly according to another embodiment of the present invention. FIG. 5 is a partial cross-sectional view of a multi-touch assembly according to another embodiment of the present invention. 201229840. FIG. 6 is a view of the present invention. A cross-sectional view of a multi-touch assembly of another preferred embodiment. Fig. 7 is a plan view of a connector according to an embodiment of the present invention. Fig. 8 is a view of a connector according to another embodiment of the present invention. Figure 9 is a cross-sectional view of a multi-touch assembly according to another preferred embodiment of the present invention. φ [Major component symbol description] 1 '3'4'5, 6, 7 multi-touch accessories 14, 15, 74 touch parts 18 positioning screws 124, 126 144, 154 screws 164, 174 adjustment portion 744 fixing portion 1424 portion 2 touch panel 12, 72 connector 16, 17 linear adjustment member 122, 123 guide groove structure 142' 152, 742 touch portion 162 > 172 operation portion • 722 positioning hole 1422 recess 11