2〇m\%39 六、發艰說啤: I·發明所屬之技術領威 1 [0001]本發明係有關一種雙觸控輸入模式的指令操控方法,尤 ♦曰種應用於雙觸控輸入模式並且以兩觸控工具同時進 行觸控的指令操控方法。 [先前技術] 剛隨著時代科技的進步,為了提高人類的生0質,電子 裝置的設計也愈趨於人性化,使人們操作電孑裝置可以 0 更為便利、簡易。近年來電子裝置最重大的變革之-應 屬輸入方式的改變,從傳統的鍵盤、按㈣關等輸入方 式,逐漸轉變為以手指觸控或使用電子筆來書寫、畫圖 作為新的輸人方式,不但可簡彳b按鍵置,並 且可以讓使用者在操作上更為直接且快速,|這種觸控 的輸入方式已廣泛應用於各種電子裝置上 ,如行動電話 、PDA、GPS、手寫板等。 圃且馳裝置依據_的方式列,而有不㈣類型,例 ◎ 如電容式觸控板是利用手錢導,趙"及取微小的電流, 以分析出觸摸的位置,且電容式觸控板屬於相對座標; 另外,例如電磁式觸控板是透過電磁筆發射訊號,當接 近天線板(即觸控板)時因磁場發生變化,系統可因此定 位接觸點’且電磁式觸控板屬於絕對座標,觸控板上的 位置可與顯示器上的位置相對應。 傳統的觸控輸入方式受限於觸控裝置的結構,僅能提供 單一接觸點偵測的功能,而支援最簡單的操控,即單一 觸控點來實現指令操控,但在相關業者持續研發下,觸 099129809 表單編號A0101 第3頁/共21頁 0992052239-0 [0004] 201211839 控裝置已不再有單一接觸點感測的限制問題,並且提出 了多點觸控的架構,多點觸控功能可使很多指令的操作 變得更加容易,例如,瀏覽和選擇選項、手寫和數據輸 入、螢幕排列和縮放、圖片選取和移動。 [0005] 目前現有的多點觸控技術中,請參閱美國US 7469381專 利案所示,此專利案係揭露了多點觸控的技術,可在游 標區上以兩指進行操作,並根據兩觸控點的相對位置、 運動軌跡等,來執行特殊指令,例如移動手指以加大兩 觸控點之間的距離時,螢幕上的畫面則進行放大指令; 兩觸控點之間的距離縮短時,則進行縮小指令;兩觸控 點同方向旋轉時,畫面進行旋轉指令。另外,在美國US 201 0/0031202 以及US 20 10/0031203 中亦提出 了多點 觸控的技術,應用在觸控桌面上,可提供多人多點進行 觸控操作,透過觸控點的不同以及觸控+勢的不同,定 義出不同的觸控指令。 [0006] 上述專利案雖揭露了多點觸控的技術,以不同的手勢、 觸控方法執行特殊指令,但無論單點觸控或多點觸控都 是應用於單一觸控輸入模式,對於操作指令越來越多的 情況下,導致觸控操作的手勢不足,無法對應各種操作 指令,所以,單一觸控輸入模式下的操作方式變得相當 有限,將無法提供使用者完整的指令操作;且上述專利 案都是應用在觸控螢幕上,在螢幕尺寸不斷增加的情況 下,使用者必須貼近在大尺寸的觸控螢幕上進行大動作 的移動以及操作,造成操作上的不便。 【發明内容】 099129809 表單編號A0101 第4頁/共21頁 0992052239-0 201211839 IWUli 本發明的主要目的,在於提出一種雙觸控輸入模式的指 令操控方法,讓使用者在雙觸控輸入模式下,具有更多 元且便利的指令操控方式。 [0008] 為達上述目的,本發明提出一種雙觸控輸入模式的指令 操控方法,包括一準備步驟,係提供一具有觸控區的觸 控裝置,且該觸控裝置具備兩不同觸控輸入方式的第一 觸控模式與第二觸控模式;一第一觸控步驟,透過一對 應該第一觸控模式的第一觸控工具壓觸該觸控區的某一 ^ 位置,並固定於所壓觸的位置;以及,一第二觸控步驟 〇 ,於該第一觸控工具壓觸該觸控區的狀態下,另外透過 一對應該第二觸控模式的第二觸控工具於該觸控區上產 生觸控動作,而執行特定指令。 [0009] 本發明的具體實施態樣中,該第一觸控步驟與該第二觸 控步驟可為單點觸控(SingleTouch)或多點觸控 (Multi-Touch),根據多點觸控的觸控點數目決定所執 行的指令;而該第二觸控步驟的觸控動作可為點擊或滑 〇 動,依據不同觸控動作執行不同指令,甚至可根據滑動 的轨跡決定所執行的指令。 【實施方式】 [0010] 有關本發明之詳細說明及技術内容,現就配合圖式說明 如下: [0011] 請參閱「圖1及圖2」所示,本發明係為一種雙觸控輸入 模式的指令操控方法,其主要包括一準備步驟S10、一第 一觸控步驟S20以及一第二觸控步驟S30 ;首先,進行該 準備步驟S10,係提供一設有觸控區11的觸控手寫板10, 099129809 表單編號A0101 第5頁/共21頁 201211839 °玄觸控手寫板10係—應用於電腦設備如桌上型電腦或筆 °己型電腦等’並具備兩不同觸控輸人方式的第-觸控模 式與第二觸控模式,該第一觸控模式與該第二觸控模式 係為電容式觸控模式、電磁式觸控模式,且該第一觸控 模式與该第二觸控模式分別具有相應的第一觸控工具與 第一觸控工具,當應用於前述電容式觸控模式與電磁式 觸控模式’該第-馳工具與該第二馳工具係為使用 者手指12、觸控筆13。 [〇〇12]接著,進行該第一觸控步驟S20與讓第二觸控步驟S3〇, 在圖2的實施例中’苐一觸控模式為電容式觸控模式其 對應的第一觸控工具為手指12,而第二觸控模式為電磁 式觸控模式,其對應的第二觸控工具為觸控筆13,且該 第一觸控步驟S20與該第二觸控步驟53〇均為單點觸控 (Single Touch);該第一觸控步驟S2〇先利用單支手 指12壓觸該觸控手寫板10上觸控區丨丨的某一位置以選 取顯不器20中的圖片;然後,該第二觸辁步驟S3〇中, 於手指12壓觸該觸控區11的狀態了,再以觸控筆13於詨 觸控區11上產生觸控動作而執行特定指令,例如以觸控 筆13點擊觸控區11,藉此執行複製指令,以複製出手指 12所選取的圖片21。 [0013]該第二觸控步驟S30中的觸控動作除了可為點擊之外,古亥 觸控動作亦可為滑動’且透過不同的觸控動作來執行不 同的指令,例如「圖3」所示,以單支手指12壓觸該觸控 區11選取圖片21後’並以觸控筆13在該觸控區η上向右 直線滑動,可將所點選的圖片21由顯示器20中左側的第 099129809 表單編號Α0101 第6頁/共21頁 0992052239-0 201211839 -位置向右方拖矣移動至顯示器2〇,右侧第二位置。且 第二觸控步驟S30中根據不同的滑動軌跡,更可定義出不 同的4曰7如圖4」所示,同樣以手指12愿觸該觸控區 11選取圖片2卜但職筆13在觸魏n上以曲線滑動1 例如畫圓’則可將所選取的圖片21進行旋轉的動作。 [0014] Ο 此外本發明的第-觸控步驟S2G與第二觸控步驟⑽除 了均為單點觸控以外,更可應用於多點觸控 (Multi-Touch)的電容式觸控模式中,例如,第一觸控 步驟S2G採用多點觸控,輯第二_步·3()維持單點 觸控’並根據多闕控_賴數目決定所執行的指令 ,如「圖5」所示,以雙指14觸該觸控區丨丨選取圖片21, 再以該觸控筆13產生滑動觸控,而啟動切割圖片21的指 令’依照該觸控筆13滑動的軌跡,將原本雙指14所點選 的圖片21切割為第一部分211與第二部分212。 [0015] 〇 剛述的各實施例中,都是以電容式觸控模式作為第一觸 控模式,而電磁式觸控模式作為第二觸控模式,也就是 先以手礼12壓觸點選,再以觸控筆13觸控點擊或滑動以 執行指令。本發明中,更可將電磁式觸控模式作為第一 觸控模式,而電容式觸控模式作為第二觸控模式,如「 圖6」所示,第一觸控步驟S2〇與第二觸控步驟S3〇均為單 點觸控,先以觸控筆13壓觸該觸控區u,並點選顯示器 20上的圖片21,再以單支手指12於該觸控區丨丨向上直線 滑動而進行放大的指令,使所點選的圖片21放大為圖片 22。亦可使用不同的滑動軌跡執行不同指令,或者如广 圖7」所示,觸控筆13壓觸該觸控區u,並點選顯示器2〇 099129809 表單編號A0101 第7頁/共21頁 0992052239-0 201211839 上的圖片21,單支手指12於該觸控區11產生向右的滑動 軌跡,而可於圖片21下方拉出工具列23,以便點選後對 圖片21進行編輯。另外,該第一觸控步驟S20可為單點壓 觸(SingleTouch),而該第二觸控步驟S30為多點觸控 (Multi-Touch),如「圖8-1至圖8-2」所示,觸控筆 13壓觸該觸控區11後,再以雙指14於該觸控區11向上滑 動,藉此將顯示器20的全部畫面向上移動,而達到捲軸 的功能。 [0016] 綜上所述,本發明主要係先提供一觸控手寫板10,該觸 控手寫板10具有一觸控區11,並具備兩不同觸控輸入方 式的第一觸控模式與第二觸控模式,再以一對應該第一 觸控模式的第一觸控工具壓觸固定於該觸控區11的某一 位置,且於該第一觸控工具壓觸該觸控區11的狀態下, 最後透過一對應該第二觸控模式的第二觸控工具於該觸 控區11上產生觸控動作,而執行特定指令;如此一來, 藉由兩觸控工具同時在兩觸控模式下操作,便能執行特 定指令,以提升雙觸控輸入模式的觸控手寫板其使用上 的便利性,且本發明係以觸控手寫板10實施,面對尺寸 大型化的螢幕,可遠距離的在該觸控手寫板10上操作, 不會造成操作上的不便,且可搭配不同的觸控輸入模式 ,如電容式及電磁式,兼顧相對座標指令以及絕對座標 指令的操作。 [0017] 上述僅為本發明的較佳實施例而已,並非用來限定本發 明之實施範圍,即凡依本發明申請專利範圍之内容所為 的等效變化與修飾,皆應為本發明之技術範疇。 099129809 表單編號A0101 第8頁/共21頁 0992052239-0 201211839 【圖式簡單說明】 [0018] 圖1,係為本發明的方塊示意圖。 [0019] 圖2,係為本發明的操控狀態示意圖(一)。 [0020] 圖3,係為本發明的操控狀態示意圖(二)。 [0021] 圖4,係為本發明的操控狀態示意圖(三)。 [0022] 圖5,係為本發明的操控狀態示意圖(四)。 [0023] 圖6,係為本發明的操控狀態示意圖(五)。 Ο [0024] 圖7,係為本發明的操控狀態示意圖(六)。 [0025] 圖8-1至圖8-2,係為本發明的操控狀態示意圖(七)。 【主要元件符號說明】 [0026] 10..............觸控手寫板 [0027] 11..............觸控區 [0028] 12..............手指 ❹ [0029] 13..............觸控筆 [0030] 14..............雙指 [0031] 20..............顯示器 [0032] 21..............圖片 [0033] 211.............第一部分 [0034] 212.............第二部分 [0035] 22..............圖片 099129809 表單編號A0101 第9頁/共21頁 0992052239-0 201211839 工具列 準備步驟 第一觸控步驟 第二觸控步驟 [0036] 23 · [0037] SI 0 [0038] S20 [0039] S30 0992052239-0 099129809 表單編號A0101 第10頁/共21頁2〇m\%39 VI. Difficult to talk about beer: I. The technology of the invention belongs to the leader 1 [0001] The present invention relates to a dual touch input mode command manipulation method, especially for dual touch input The mode and the two-touch tool simultaneously perform the command manipulation method of the touch. [Prior Art] Just as the technology of the times has progressed, in order to improve the quality of human beings, the design of electronic devices has become more and more humanized, making it easier and easier for people to operate electric devices. In recent years, the most significant change of electronic devices - should be the change of input methods, from the traditional keyboard, press (four) off and other input methods, gradually changed to finger touch or use electronic pen to write, draw as a new way of input Not only can the b button be set, but also make the user more direct and fast in operation. | This touch input method has been widely used in various electronic devices, such as mobile phones, PDA, GPS, and tablet. Wait.圃 驰 装置 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 如 如 如 如 如 如 如 如 如 如 如 如 如The control board is a relative coordinate; in addition, for example, an electromagnetic touch panel transmits a signal through an electromagnetic pen, and when the antenna plate (ie, the touch panel) is approached, the system can position the contact point and the electromagnetic touch panel changes due to a change in the magnetic field. It is an absolute coordinate and the position on the touchpad can correspond to the position on the display. The traditional touch input method is limited by the structure of the touch device, and can only provide a single touch point detection function, and supports the simplest control, that is, a single touch point to realize command manipulation, but the related industry continues to develop. , Touch 099129809 Form No. A0101 Page 3 / Total 21 Page 0992052239-0 [0004] The 201211839 control device no longer has the limitation of single touch point sensing, and proposes a multi-touch architecture, multi-touch function It makes it easier to manipulate many commands, such as browsing and selection options, handwriting and data entry, screen alignment and scaling, image selection, and movement. [0005] In the current multi-touch technology, please refer to the US 7469381 patent case, which discloses a multi-touch technology, which can be operated by two fingers on the cursor area, and according to two The relative position of the touch point, the motion track, etc., to execute special instructions, such as moving the finger to increase the distance between the two touch points, the screen on the screen is zoomed in; the distance between the two touch points is shortened When the two touch points are rotated in the same direction, the screen is rotated. In addition, multi-touch technology is also proposed in US 201 0/0031202 and US 20 10/0031203, which can be applied to a touch desktop to provide multi-person multi-touch operation through different touch points. And the difference between the touch + potential, define different touch commands. [0006] Although the above patent discloses a multi-touch technology, special instructions are executed by different gestures and touch methods, but whether single touch or multi-touch is applied to a single touch input mode, In the case of more and more operation commands, the gestures causing the touch operation are insufficient, and the various operation commands cannot be corresponding. Therefore, the operation mode in the single touch input mode becomes quite limited, and the user's complete instruction operation cannot be provided; Moreover, the above patents are all applied to the touch screen. In the case of increasing screen size, the user must be close to the large-sized touch screen to perform large movements and operations, resulting in operational inconvenience. SUMMARY OF THE INVENTION 099129809 Form No. A0101 Page 4 / Total 21 Page 0992052239-0 201211839 IWUli The main purpose of the present invention is to provide a dual touch input mode command manipulation method, allowing the user to enter the dual touch input mode. More and more convenient command manipulation. [0008] In order to achieve the above object, the present invention provides a dual touch input mode command control method, including a preparation step, providing a touch device having a touch area, and the touch device has two different touch inputs. a first touch mode and a second touch mode; a first touch step of pressing a certain touch position of the touch area by a first touch tool that should be in the first touch mode, and fixing And a second touch step, in the state in which the first touch tool is pressed against the touch area, and through a pair of second touch tools that should be in the second touch mode A touch action is generated on the touch area to execute a specific command. In the specific implementation of the present invention, the first touch step and the second touch step may be single touch or multi-touch, according to multi-touch. The number of touch points determines the executed command; and the touch action of the second touch step can be click or slide, perform different commands according to different touch actions, and even determine the executed according to the sliding track. instruction. [Embodiment] [0010] The detailed description and technical contents of the present invention will now be described with reference to the following figures: [0011] Please refer to "FIG. 1 and FIG. 2", the present invention is a dual touch input mode. The command control method includes a preparation step S10, a first touch step S20, and a second touch step S30. First, the preparation step S10 is performed to provide a touch handwriting provided with the touch area 11. Board 10, 099129809 Form No. A0101 Page 5 / Total 21 Pages 201211839 ° Xuan touch tablet 10 series - used in computer equipment such as desktop computers or pens, etc. and has two different touch input methods The first touch mode and the second touch mode are a capacitive touch mode and an electromagnetic touch mode, and the first touch mode and the first touch mode The second touch mode has a corresponding first touch tool and a first touch tool respectively, and is applied to the capacitive touch mode and the electromagnetic touch mode, wherein the first and second tools are used. Finger 12, stylus 13. [12] Then, the first touch step S20 and the second touch step S3 are performed. In the embodiment of FIG. 2, the touch mode is the first touch corresponding to the capacitive touch mode. The control tool is the finger 12, and the second touch mode is the electromagnetic touch mode, and the corresponding second touch tool is the stylus pen 13, and the first touch step S20 and the second touch step 53〇 The first touch step S2 first presses a certain position of the touch area on the touch panel 10 with a single finger 12 to select the display unit 20 Then, in the second touch step S3, the finger 12 is pressed against the touch area 11, and then the touch pen 13 generates a touch action on the touch area 11 to execute a specific command. For example, the stylus 13 is clicked on the touch area 11, whereby a copy instruction is executed to copy the picture 21 selected by the finger 12. [0013] In addition to the click action in the second touch step S30, the Guhai touch action can also be a slide 'and perform different commands through different touch actions, such as "FIG. 3" As shown, after a single finger 12 is pressed against the touch area 11 and the picture 21 is selected, and the stylus 13 is linearly slid rightward on the touch area n, the selected picture 21 can be displayed in the display 20. No. 099129809 on the left Form No. 1010101 Page 6/Total 21 Page 0992052239-0 201211839 - Position to the right and drag to the display 2〇, the second position on the right. In the second touch step S30, according to different sliding trajectories, different 4曰7 can be defined as shown in FIG. 4′′, and the finger 12 is also required to touch the touch area 11 to select a picture 2 The action of rotating the selected picture 21 by sliding the curve 1 on the curve n, for example, drawing a circle. [0014] In addition to the single touch, the first touch step S2G and the second touch step (10) of the present invention are applicable to the multi-touch capacitive touch mode. For example, the first touch step S2G adopts multi-touch, and the second _step·3() maintains the single touch' and determines the executed instruction according to the number of multiple control, such as “FIG. 5”. In the display, the two fingers 14 are touched to the touch area, the picture 21 is selected, and the stylus 13 is used to generate the sliding touch, and the instruction to start cutting the picture 21 is based on the trajectory of the stylus 13 sliding, and the original double The picture 21 selected by the finger 14 is cut into a first portion 211 and a second portion 212. [0015] In each of the embodiments, the capacitive touch mode is used as the first touch mode, and the electromagnetic touch mode is used as the second touch mode, that is, the first 12 touch contacts are used. Then, touch or slide with the stylus 13 to execute the command. In the present invention, the electromagnetic touch mode can be used as the first touch mode, and the capacitive touch mode is used as the second touch mode, as shown in FIG. 6 , the first touch step S2 and the second touch step. The touch step S3 is a single touch. The touch pen 13 is first pressed against the touch area u, and the picture 21 on the display 20 is clicked, and then a single finger 12 is applied to the touch area. The instruction for zooming in and out is enlarged, and the selected picture 21 is enlarged to the picture 22. Different commands can be executed using different sliding tracks, or as shown in FIG. 7", the stylus 13 presses the touch area u and selects the display 2〇099129809 Form No. A0101 Page 7 / 21 pages 0992052239 In the picture 21 on the 201211839, the single finger 12 generates a sliding track to the right in the touch area 11, and the tool column 23 can be pulled out under the picture 21 to edit the picture 21 after clicking. In addition, the first touch step S20 can be a single touch (SingleTouch), and the second touch step S30 is a multi-touch (Multi-Touch), such as "FIG. 8-1 to 8-2" As shown, after the stylus 13 presses the touch area 11, the two fingers 14 are slid upwards in the touch area 11, thereby moving all the screens of the display 20 upward to achieve the function of the reel. [0016] In summary, the present invention mainly provides a touch tablet 10 having a touch area 11 and having two touch modes of different touch input modes and a first touch mode. The second touch mode is fixed to a certain position of the touch area 11 by a first touch tool that is in the first touch mode, and the first touch tool is pressed against the touch area 11 Finally, a second touch tool that should be in the second touch mode is used to generate a touch action on the touch area 11 to execute a specific command; thus, the two touch tools are simultaneously in two In the touch mode, a specific command can be executed to improve the convenience of the touch tablet of the dual touch input mode, and the present invention is implemented by the touch tablet 10, and faces a large-sized screen. It can be operated on the touchpad 10 at a long distance without causing inconvenience in operation, and can be matched with different touch input modes, such as capacitive and electromagnetic, and the operation of relative coordinate commands and absolute coordinate commands. . The above is only the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, that is, the equivalent changes and modifications of the content of the patent application of the present invention should be the technology of the present invention. category. 099129809 Form No. A0101 Page 8 of 21 0992052239-0 201211839 [Simple Description of the Drawings] [0018] FIG. 1 is a block diagram of the present invention. 2 is a schematic diagram (1) of a control state of the present invention. [0020] FIG. 3 is a schematic diagram (2) of the control state of the present invention. [0021] FIG. 4 is a schematic diagram (3) of the control state of the present invention. [0022] FIG. 5 is a schematic diagram (4) of the control state of the present invention. [0023] FIG. 6 is a schematic diagram (5) of the control state of the present invention. [0024] FIG. 7 is a schematic diagram (6) of the control state of the present invention. 8-1 to 8-2 are schematic diagrams (7) of the control state of the present invention. [Main component symbol description] [0026] 10..............Touch tablet [0027] 11..............Touch area [ 0028] 12..............Finger ❹ [0029] 13.............. stylus [0030] 14... ........Double finger [0031] 20..............Display [0032] 21..............Picture [0033] ] 211.............The first part [0034] 212.............The second part [0035] 22......... .....Picture 099129809 Form No. A0101 Page 9/Total 21 Page 0992052239-0 201211839 Toolbar Preparation Steps First Touch Step Second Touch Step [0036] 23 · [0037] SI 0 [0038] S20 [ 0039] S30 0992052239-0 099129809 Form No. A0101 Page 10 of 21