1377895 六、發明說明: 【發明所屬之技術領域】 本發明有關於一種輸入裝置,且特別是有關於一種可 動式觸控模組及應用其的電子裝置。 【先前技術】 隨著科技的進步,筆記型電腦、行動通訊裝置以及影 音播放裝置等電子裝置已成為人們日常生活中不可或缺 的工具。另外,隨著市場的不斷發展,消費者不僅重視電 子裝置的功能性,設計與產品型態更是影響消費者購買的 主要因素。 以筆記型電腦為例,目前的筆記型電腦通常設置觸控 板以替代滑鼠。然而,現有的觸控板通常固定於筆記型電 腦的主體,不僅無法提供新穎獨特的設計以展現個人風 格,而且無法為使用者提供例如移動或者旋轉的直覺性操 作。此外,當筆記型電腦的顯示螢幕不夠大時,使用者往 往需要上下左右移動頁面以進行完整的瀏覽。然而,目前 的觸控板無法便捷地完成上述操作。 【發明内容】 本發明的目的在於提供一種可動式觸控模組及應用 其的電子裝置,以改善現有技術的缺失。 本發明提出一種可動式觸控模組,設置於主體。可動 式觸控模組包括第一可動件、第二可動件、觸控單元、至 1377895 少四個移動感應元件以及至少兩個旋轉感應元件。第一可 動件設置於主體且相對於主體於平面上為可旋轉。第二可 動件設置於第一可動件且相對於第一可動件可沿第一方 向移動。觸控單元設置於第二可動件且相對於第二可動件 可沿第二方向移動。移動感應元件以及旋轉感應元件固定 於主體。當第一可動件於平面上旋轉時,第一可動件觸發 該些旋轉感應元件的其中之一。當第二可動件沿第一方向 移動時,第二可動件觸發該些移動感應元件的其中之一。 當觸控單元沿第二方向移動時,觸控單元觸發該些移動感 應元件的其中之一。 本發明還提出一種電子裝置,包括主體以及可動式觸 控模組。可動式觸控模組設置於主體且包括第一可動件、 第二可動件、觸控單元、至少四個移動感應元件以及至少 兩個旋轉感應元件。第一可動件設置於主體且相對於主體 於平面上為可旋轉。第二可動件設置於第一可動件且相對 於第一可動件可沿第一方向移動。觸控單元設置於第二可 動件且相對於第二可動件可沿第二方向移動。移動感應元 件以及旋轉感應元件固定於主體。當第一可動件於平面上 旋轉時,第一可動件觸發該些旋轉感應元件的其中之一。 當第二可動件沿第一方向移動時,第二可動件觸發該些移 動感應元件的其中之一。當觸控單元沿第二方向移動時, 觸控單元觸發該些移動感應元件的其中之一。 本發明提供之可動式觸控模組的第一可動件相對於 主體於平面上為可旋轉,第二可動件相對於第一可動件可 5 1377895 沿第一方向移動,且觸控單元相對於第二可動件可沿第二 方向移動。藉此,使用者可通過操作觸控單元沿第二方向 移動或帶動第二可動件沿第一方向移動以觸發不同的移 動感應元件。此外,使用者還可通過操作觸控單元帶動第 一可動件沿此平面旋轉以觸發不同的旋轉感應元件,藉以 實現各種功能。如此,本發明提供之可動式觸控模組及應 用其的電子裝置不僅提供了新穎獨特的設計而且提供了 更便捷高效的操作方式。 為讓本發明的上述和其它目的、特徵和優點能更明顯 易懂,下文特舉較佳實施例,並配合附圖,作詳細說明如 下。 【實施方式】 圖1所示為根據本發明之一較佳實施例之電子裝置的 示意圖。圖2所示為根據本發明之一較佳實施例之電子裝 置的局部俯視圖。圖3所示為根據本發明之一較佳實施例 之電子裝置的局部分解示意圖。請一倂參考圖1、圖2及 圖3。本實施例所提供之電子裝置l·包括主體10以及可動 式觸控模組12。 於本實施例中,電子裝置1為筆記型電腦。然而,本 發明並不限定於此。於其它實施例中,電子裝置1亦可為 行動通訊裝置或影音播放裝置等其它電子裝置。 於本實施例中,可動式觸控模組12設置於主體10。 主體10包括殼體100、電路板102以及多個彈性件104。 1377895 電路板102以及彈性件104設置於殼體1〇〇。可動式觸控 模組12包括第一可動件121、第二可動件122、觸控單^ 120、四個移動感應元件126、兩個旋轉感應元件以及 兩個按壓開關129。 於本實拖例中,第一可動件121設置於主體1〇且相 對於主體10於一平面上為可旋轉。於此,上述平面設置 為電路板102所在平面。然而,本發明對此不作任何限制。 於實際應用時,可根據需要設置第一可動件121相對於主 體10為可旋轉的平面。 ' 於本實施例中,第二可動件122設置於第一可動件121 且相對於第一可動件121可沿第一方向D1移動。觸控單 元120設置於第二可動件122且相對於第二可動件丨22可 沿第二方向D2移動。於此,第一方向D1與第二方向D2 平行於第一可動件121相對於主體1〇為可旋轉的平面(於 本實施例中,即為電路板102所在平面),且第一方向D1 垂直碎苐一方向D2。然而,本發明對此不作任何限制。於 實際應用時,可根據需要將第一方向D1與第二方向D2 設置成其它角度(例如,60_度)。 此外’於本實施例中,移動感應元件126、旋轉感應 元件128以及按壓開關129例如可通過表面貼裝技術 (surface mount Technology,SMT)固定於電路板 1〇2。 其中,兩個移動感應元件126沿第一方向D1設置,另外 兩個移動感應元件126沿第二方向D2設置。 於本實施例中,觸控單元120、第二可動件122、第 7 ^/7895 可動件121以及電路板102的組裝方向垂直於第一可動 艮121相對於主體1〇為可旋轉的平面(於本實施例中, I為電路板1〇2所在平面)。具體而言,觸控單元HQ、第 一可動件122以及第一可動件121層疊設置於電路板 的上方。電路板102例如可藉由螺絲固定於殼體丨⑻的底 部(未圖示)。 " 於本實施例中,主體1〇的殼體1〇〇即為筆記型電腦 的外殼。第一可動件121、第二可動件122以及觸控:元 120層叠設置於殼體1〇〇。具體而言,如圖3戶斤示,殼體 100具有一容置區1〇〇〇,其可呈凹陷狀。容置區1〇〇〇 於容置第-可動件121、第二可動件12 一 ⑽。容置區麵内設置—第一開口讓以 ,口 10G2。錢,本發明並不限定於此。於其它實施例中, 谷置區1000内亦可僅設置一個開口。 於本貫施例中,第一可動件121設置於裳 声铱 κ π 、罘〜開口 1001 處,弟一可動件121可通過第一開口 1〇〇1 所名承;#絲 ^ ,咕 &電路板102 所在千面㈣。其中,第-開口腕的形人 動件121的形狀且大於第一可動件121,.藉: 元120及第二可動件122的移動對第一可動件 工, 響。此外,多個彈性件1〇4分別設置於第二門121產生影 固定於電路板102的兩個按壓開關129分別汗〇 1002處。 口 1002並位於彈性件1〇4的下方。於此,主出於第二開 四個彈性件刚,且彈性件1〇4為與殼體題10設置有 彈片。然而,本發明並不限定彈性件1〇4 〜體成型的 的數目(例如, 1377895 可為兩個)與類型(例如,可為彈簧)。 於本實施例中,觸控單元120覆蓋兩個按壓開關129。 藉此,使用者可按壓觸控單元120的相應位置以觸發對應 的按壓開關129。此外,當使用者釋放觸控單元120時, 可藉由設置於殼體100上的彈性件104將觸控單元120推 回初始位置。其中,本發明對按壓開關129的位置不作任 何限定。如圖2所示,兩個按壓開關129的位置例如可對 應於觸控單元120的左右兩側。兩個按壓開關129相當於 現有筆記型電腦觸控區周圍的左右按鍵。換言之,本實施 例提供之可動式觸控模組12結合有左右按鍵的功能。 圖4A與圖4B所示為根據本發明之一較佳實施例之可 動式觸控模組12的局部組裝示意圖。請一倂參考圖2、圖 3、圖4A及圖4B。其中,為清楚地說明可動式觸控模組 12的結構,圖4A與圖4B所示為圖2中可動式觸控模組 12的仰視圖。此外,圖4A中僅繪示觸控單元120、第二 可動件122以及沿第二方向D2設置的兩個移動感應元件 126。圖4B中僅繪示觸控單元120、第二可動件122、第 一可動件121以及沿第一方向D1設置的兩個移動感應元 件 126。 於本實施例中,觸控單元120呈矩形。然而,本發明 並不限定於此。於實際應用中,可根據需要設置不同形狀 的觸控單元(例如可為圓形或者糖圓形)。 於本實施例中,觸控單元120包括觸控板外殼1201、 觸控板1202以及觸控板保護蓋1203。觸控板1202以及觸 1377895 控板保護蓋1203層疊設置於觸控板外殼1201内,且觸控 板保護蓋1203設置於第二可動件122。具體而言,如圖 4A及圖4B所示,觸控板外殼Π01具有三個外凸的側壁 1205,且該些侧壁上設置有多個擋止塊1206。觸控板1202 以及觸控板保護蓋1203可依次經由觸控板外殼1201上未 設置外凸側壁的一侧裝入觸控板外殼1201内。此外,藉 由側壁1205上的擋止塊1206對觸控板保護蓋1203的凹 陷部1208的擋止作用可將觸控板1202及觸控板保護蓋 1203定位於觸控板外殼1201内。 於本實施例中,觸控板1202可通過軟排線(FFC)連 接電子裝置的主機板或電路板,以實現現有觸控板的功 能。例如,觸控板1202可感應使用者的手指於觸控板外 殼1201上的移動以控制勞幕上光標的移動。於此,觸控 板保護蓋1203設置有開口 1209以供軟排線通過。然而, 本發明對此不作任何限定。 於本實施例中,如圖4A所示,觸控板保護蓋1203的 背面設置有第一連接部12〇4。第二可·動件122具有第二連 接部1222。觸控板保護蓋1203的第一連接部1204沿第二 方向D2可移動地連接第二可動件122的第二連接部 1222 ’且第一連接部12〇4相對於第二連接部1222沿第一 方向D1為固定的。如此,不僅觸控單元120可相對於第 二可動件122沿第二方向D2移動,且在第二可動件122 沿第一方向D1移動時,亦可帶動觸控單元12〇沿第一方 向D1同步移動。換言之,使用者可通過操作觸控單元120 丄〇//糾5 使知'第二可動件122沿第一方向D1移動。 於本實施例令,觸控板保護蓋1203的第一递枝 為凸坡,铱 卜 钱部12〇4 、求 山弟二可動件122的第二連接部1222為凹槽, =凸塊嵌入上述凹槽中。然而,本發明並不限定於^上 其匕實施例_,觸控板保護蓋12〇3的第一連 於 如可為〇〇搞》 钱4 1204例 為凸Π:弟二可動件122的第二連接部吻例如可 尾或者,亦可不設置此第一連接部1204, 控板保護蓋 1203設置為沿第二方向,D2在第二可二固 122的相應結構(例如為凹槽或滑軌)中移動。 件 ,於本實施例中,如圖4B所示,第二可動件m2 面設置有第三連接部1223,第一可動件121具有第四連^ 口Ρ1214。第二可動件122的第三連接部1223沿第一方向 可移動地連接第—可動件121的第四連接部⑵4,且 第三連接部相對於第四連接部沿第二方向D2為固定的。 如此,使用者可通過操作觸控單元12〇使得第二可動件122 相對於第-可動件121沿第一方向m移動。並且,在第 一可動件121旋轉時,亦可帶動觸控單元12〇與第二可動 件122同步旋轉。換言之’使用者可通過操作觸控單元12〇 使得第一可動件121旋轉。藉此,觸控單元12〇、第二可 動件122以及第可動件121既可實現相互之間的移動又 可實現整體的旋轉。 於本實施例中,第二可動件122的第三連接部1223 為凸塊’第一可動件121的第四連接部1214為凹槽,上 述凸塊嵌入上述凹槽中。然而,本發明並不限定於此。於 11 其它實施例中,第二可動件122的^ 可為凹槽,第〆可動件121的第四弟三連接部1223例如 凸塊。或者,亦可錢置此第三連1214例如可為 二可動件m設置為沿第一方向⑴部1223 ’而將整個第 才目應結構(例如為凹槽或滑軌)_移=第一可動件121的 於本實施例中,如圖4 A所示, 沿第二方向D2設置於第二可動件二個移動感應元件126 的外侧。如圖4B所示’另外兩二2 —方向Di分別設置於動,兀件126沿| 的内侧。 的第四連接部 於本實施例中,如圖4B所示 有主體部1210以万不/ 弟可動件该 U以二個旋轉觸發部12心旋轅,枣戽 二8凸出於主體部121。的相 ,勢部 ,旋轉觸發部⑽的數目及敦置位置。二〜, 乃同D2的中心線的上方。 21沿 卜本發明對移動感應元件— % 的設置位署π , 半 乍任何限定。於其它實施例中,移動礞28 一 6 ’、可不沿第一方向D1或第二方向D2設置,^巍元 疋的角度,只要其位於觸控單元12G及第二可動兔移 的移動路棱上即可。相應地,旋轉感應it件128亦Ά n置’只要其位於第—可動件i2i的旋轉路 Μ 同 C 即卞Γ 面 厅不為根據本發明之一較佳實施例之可動 ° 杈組12的旋轉示意圖。以下詳細說明可動式觸:鵠糙 12 12 1377895 於本實施例中,當使用者操作觸控單元120沿第一方 向D1移動時,由於觸控單元12〇與第二可動件122於第 一方向D1上為固定的,因此’觸控單元12〇會帶動第二 可動件122沿第一方向D1移動。此時’第二可動件122 的第三連接部1223 (凸邋)會於第一可動件121的第四連 接部1214 (凹槽)内沿第一方向di移動,從而觸發相應 的移動感應元件126。 具體而言’如圖2及圖4B所示,當使用者操作觸控 單元120於第一方向D1上向上移動時,第二可動件122 的第三連接部1223會觸發位於其上側的移動感應元件 126,從而控制電子裝置執行相應的功能(例如,上移圖 片或調高音量)。此外,於本實施例中,移動感應元件126 為具有彈性的開關。因此,當使用者釋放觸控單元12〇後, 移動感應元件126可自動恢復同時亦可將第二可動件122 及觸控單元120推回至初始位置。然而,本發明並不限定 於此。於實際應用中,可根據需要設置彈性元件用於復位 第二可動件122。 於本實施例中,當使用者操作觸控單元120旋轉時, 由於觸控單元12〇、第二可動件122以及第一可動件 可以作為整體一起旋轉,因此,觸控單元12〇會帶動第一 可動件121於電路板1〇2所在平面上旋轉。 具,而言,於本實施例中,如圖5所示,當使用者操 作觸控單元120順時針旋轉時,觸控單元12〇會帶動第一 可動件121於電路板102所在平面上順時針旋^。此時: 1377895 第一可動件121左侧的旋轉觸發部1218會接觸並觸發位 於其一側的旋轉感應元件128,從而控制電子裝置執行相 應的功能(例如,順時針旋轉圖片或者打開某個程式)。 於此,旋轉感應元件128為具有彈性的開關。當使用者釋 • 放觸控單元120後,旋轉感應元件128可自動恢復同時亦 可將第一可動件121推回至初始位置。然而,本發明並不 限定於此。於實際應用中,亦可於旋轉感應元件128的周 圍設置彈片等彈性元件用於復位第一可動件121。 • 另外,於本實施例中,可動式觸控模組12亦具有左 右按鍵的功能。如圖2所示,使用者可按壓觸控單元120 以觸發其所覆蓋的按壓開關129。觸控單元120可藉由彈 性件104的彈性作用回復至初始位置。 '綜上所述,本實施例所提供之可動式觸控模組的第一 可動件相對於主體於一平面上為可旋轉,第二可動件相對 於第一可動件可沿第一方向移動,而且觸控單元相對於第 二可動件可沿第二方向移動。藉此,使用者可通過操作觸 • 控單元沿第二方向移動或帶動第二可動件沿第一方向移 動以觸發不同的移動感應元件。此外,使用者還可通過操 作觸控單元帶動第一可動件沿此平面旋轉以觸發不同的 旋轉感應元件,藉以實現各種功能。此外,本實施例提供 之可動式觸控模組亦結合有左右按鍵功能。如此,本發明 提供之可動式觸控模組及應用其的電子裝置不僅提供了 新穎獨特的設計而且提供了更便捷高效的操作方式。 雖然本發明已以較佳實施例揭露如上,然其並非用以 15 1377895 限定本發明,任何所屬技術領域中具有通常知識者,在不 脫離本發明的精神和範圍内,當可作些許的更動與潤飾, 因此本發明的保護範圍當視申請專利範圍所界定者為準。 【圖式簡單說明】 圖1所示為根據本發明之一較佳實施例之電子裝置的 示意圖。 圖2所示為根據本發明之一較佳實施例之電子裝置的 局部俯視圖。 圖3所示為根據本發明之一較佳實施例之電子裝置的 局部分解示意圖。 圖4A與圖4B所示為根據本發明之一較佳實施例之可 動式觸控模組的局部組裝示意圖。 圖5所示為根據本發明之一較佳實施例之可動式觸控 模組的旋轉示意圖。 【主要元件符號說明】 1 電子裝置 10 主體 100 殼體 1000 容置區 1001 第一開口 1002 第二開口 102 電路板 104 彈性件 12 可動式觸控模組 120 觸控單元 1201 觸控板外殼 1202 觸控板 1203 觸控板保護蓋 1204 第一連接部 16 1377895 1205 側壁 1206 擋止塊 1208 凹陷咅P 1209 開口 121 第一可動件 1210 主體部 1214 第四連接部 1218 旋轉觸發部 122 第二可動件 1222 第二連接部 1223 第三連接部 126 移動感應元件 128 旋轉感應元件 129 按壓開關 D1 第一方向 D2 第二方向 171377895 VI. Description of the Invention: [Technical Field] The present invention relates to an input device, and more particularly to a movable touch module and an electronic device using the same. [Prior Art] With the advancement of technology, electronic devices such as notebook computers, mobile communication devices, and video playback devices have become indispensable tools in people's daily lives. In addition, with the continuous development of the market, consumers not only pay attention to the functionality of electronic devices, but also design and product types are the main factors affecting consumer purchases. Taking a notebook computer as an example, current notebook computers usually have a touchpad instead of a mouse. However, existing touch panels are typically fixed to the body of a notebook computer, and not only do not provide a novel and unique design to reveal a personal style, but also provide an intuitive operation such as movement or rotation for the user. In addition, when the display screen of the notebook computer is not large enough, the user often needs to move the page up and down or left and right for a complete browsing. However, current touch panels cannot easily do this. SUMMARY OF THE INVENTION It is an object of the present invention to provide a movable touch module and an electronic device using the same to improve the lack of the prior art. The invention provides a movable touch module disposed on a main body. The movable touch module includes a first movable member, a second movable member, a touch unit, four moving sensing elements to 1377895, and at least two rotating sensing elements. The first movable member is disposed to the main body and is rotatable relative to the main body in a plane. The second movable member is disposed on the first movable member and movable relative to the first movable member in the first direction. The touch unit is disposed on the second movable member and movable relative to the second movable member in the second direction. The motion sensing element and the rotation sensing element are fixed to the main body. The first movable member triggers one of the rotation sensing elements when the first movable member rotates on a plane. When the second movable member moves in the first direction, the second movable member triggers one of the motion sensing elements. When the touch unit moves in the second direction, the touch unit triggers one of the moving sensing elements. The invention also provides an electronic device comprising a body and a movable touch control module. The movable touch module is disposed on the main body and includes a first movable member, a second movable member, a touch unit, at least four motion sensing elements, and at least two rotation sensing elements. The first movable member is disposed to the main body and is rotatable relative to the main body in a plane. The second movable member is disposed on the first movable member and movable relative to the first movable member in the first direction. The touch unit is disposed on the second movable member and movable in the second direction relative to the second movable member. The motion sensing element and the rotation sensing element are fixed to the body. The first movable member triggers one of the rotation sensing elements when the first movable member rotates on a plane. When the second movable member moves in the first direction, the second movable member triggers one of the moving sensing elements. When the touch unit moves in the second direction, the touch unit triggers one of the motion sensing elements. The first movable member of the movable touch module of the present invention is rotatable relative to the main body on a plane, and the second movable member is movable in a first direction relative to the first movable member 5 1377895, and the touch unit is opposite to the touch unit The second movable member is movable in the second direction. Thereby, the user can move in the second direction by operating the touch unit or drive the second movable member to move in the first direction to trigger different moving sensing elements. In addition, the user can also operate the touch unit to rotate the first movable member along the plane to trigger different rotation sensing elements, thereby implementing various functions. Thus, the movable touch module and the electronic device using the same provided by the present invention not only provide a novel and unique design but also provide a more convenient and efficient operation mode. The above and other objects, features, and advantages of the present invention will become more apparent and understood by the appended claims [Embodiment] FIG. 1 is a schematic view showing an electronic device according to a preferred embodiment of the present invention. 2 is a partial top plan view of an electronic device in accordance with a preferred embodiment of the present invention. Figure 3 is a partially exploded perspective view of an electronic device in accordance with a preferred embodiment of the present invention. Please refer to Figure 1, Figure 2 and Figure 3. The electronic device 1· provided in this embodiment includes a main body 10 and a movable touch module 12. In the embodiment, the electronic device 1 is a notebook computer. However, the present invention is not limited to this. In other embodiments, the electronic device 1 can also be other electronic devices such as a mobile communication device or a video playback device. In the embodiment, the movable touch module 12 is disposed on the main body 10 . The main body 10 includes a housing 100, a circuit board 102, and a plurality of elastic members 104. 1377895 The circuit board 102 and the elastic member 104 are disposed in the housing 1〇〇. The movable touch module 12 includes a first movable member 121, a second movable member 122, a touch unit 120, four motion sensing elements 126, two rotation sensing elements, and two pressing switches 129. In the present example, the first movable member 121 is disposed on the main body 1 and is rotatable on a plane with respect to the main body 10. Here, the above plane is set to the plane in which the circuit board 102 is located. However, the present invention does not impose any limitation on this. In practical applications, the first movable member 121 can be set to be rotatable relative to the main body 10 as needed. In the present embodiment, the second movable member 122 is disposed on the first movable member 121 and movable relative to the first movable member 121 in the first direction D1. The touch unit 120 is disposed on the second movable member 122 and movable relative to the second movable member 22 in the second direction D2. Herein, the first direction D1 and the second direction D2 are parallel to the plane in which the first movable member 121 is rotatable relative to the main body 1 (in the present embodiment, the plane of the circuit board 102), and the first direction D1 Vertically breaks a direction D2. However, the present invention does not impose any limitation on this. In practical applications, the first direction D1 and the second direction D2 may be set to other angles (for example, 60 degrees) as needed. Further, in the present embodiment, the motion sensing element 126, the rotation sensing element 128, and the push switch 129 can be fixed to the circuit board 1〇2, for example, by surface mount technology (SMT). Therein, two motion sensing elements 126 are disposed along the first direction D1, and the other two motion sensing elements 126 are disposed along the second direction D2. In this embodiment, the assembly direction of the touch unit 120, the second movable member 122, the 7th/y-7895 movable member 121, and the circuit board 102 is perpendicular to a plane in which the first movable jaw 121 is rotatable relative to the main body 1 ( In the embodiment, I is the plane of the circuit board 1〇2). Specifically, the touch unit HQ, the first movable member 122, and the first movable member 121 are stacked on top of the circuit board. The circuit board 102 can be fixed to the bottom (not shown) of the casing (8) by screws, for example. " In this embodiment, the housing 1 of the main body 1 is the outer casing of the notebook computer. The first movable member 121, the second movable member 122, and the touch: element 120 are stacked on the casing 1A. Specifically, as shown in FIG. 3, the housing 100 has an accommodating area 1 〇〇〇 which may be concave. The accommodating area 1 occupies the first movable member 121 and the second movable member 12 (10). The inside of the accommodating area is set - the first opening is made by the mouth 10G2. Money, the present invention is not limited to this. In other embodiments, only one opening may be provided in the valley region 1000. In the present embodiment, the first movable member 121 is disposed at the skirt 铱 κ π , 罘 〜 opening 1001, and the movable member 121 can be named through the first opening 1 〇〇 1; #丝^ , 咕 & The circuit board 102 is located on the thousand side (four). The shape of the movable member 121 of the first-opening wrist is larger than that of the first movable member 121. The movement of the element 120 and the second movable member 122 is loud to the first movable member. In addition, a plurality of elastic members 1〇4 are respectively disposed on the second door 121 to generate two pressing switches 129 respectively fixed to the circuit board 102 at the sweat 1002. The mouth 1002 is located below the elastic member 1〇4. Here, the main spring is the second elastic member, and the elastic member 1〇4 is provided with the elastic member of the housing 10. However, the present invention does not limit the number of elastic members 1 to 4 (for example, 1377895 may be two) and the type (for example, may be a spring). In this embodiment, the touch unit 120 covers the two push switches 129. Thereby, the user can press the corresponding position of the touch unit 120 to trigger the corresponding push switch 129. In addition, when the user releases the touch unit 120, the touch unit 120 can be pushed back to the initial position by the elastic member 104 disposed on the housing 100. Here, the present invention does not limit the position of the push switch 129. As shown in FIG. 2, the positions of the two push switches 129 can correspond to, for example, the left and right sides of the touch unit 120. The two push switches 129 are equivalent to the left and right buttons around the touch area of the existing notebook computer. In other words, the movable touch module 12 provided in this embodiment combines the functions of the left and right buttons. 4A and 4B are partial assembled views of a movable touch module 12 according to a preferred embodiment of the present invention. Please refer to FIG. 2, FIG. 3, FIG. 4A and FIG. 4B together. In order to clearly illustrate the structure of the movable touch module 12, FIGS. 4A and 4B are bottom views of the movable touch module 12 of FIG. In addition, only the touch unit 120, the second movable member 122, and the two moving sensing elements 126 disposed along the second direction D2 are illustrated in FIG. 4A. Only the touch unit 120, the second movable member 122, the first movable member 121, and the two moving sensing members 126 disposed along the first direction D1 are illustrated in FIG. 4B. In this embodiment, the touch unit 120 has a rectangular shape. However, the present invention is not limited to this. In practical applications, different shapes of touch units (for example, circular or sugar circles) can be set as needed. In the embodiment, the touch unit 120 includes a touch panel housing 1201 , a touch panel 1202 , and a touch panel protection cover 1203 . The touch panel 1202 and the touch panel protection cover 1203 are disposed in the touch panel housing 1201, and the touch panel protection cover 1203 is disposed on the second movable member 122. Specifically, as shown in FIGS. 4A and 4B, the touch panel housing Π01 has three convex side walls 1205, and a plurality of stoppers 1206 are disposed on the side walls. The touchpad 1202 and the touchpad protective cover 1203 can be sequentially loaded into the touchpad housing 1201 via the side of the touchpad housing 1201 where the convex sidewalls are not provided. In addition, the blocking function of the recessed portion 1208 of the touch panel protection cover 1203 by the blocking block 1206 on the side wall 1205 can position the touch panel 1202 and the touch panel protection cover 1203 in the touch panel housing 1201. In this embodiment, the touch panel 1202 can be connected to the motherboard or circuit board of the electronic device through a flexible cable (FFC) to implement the functions of the existing touch panel. For example, the touchpad 1202 can sense the movement of the user's finger on the touchpad housing 1201 to control the movement of the cursor on the screen. Here, the touch panel protection cover 1203 is provided with an opening 1209 for the flexible cable to pass. However, the present invention is not limited thereto. In the present embodiment, as shown in FIG. 4A, the back surface of the touch panel protection cover 1203 is provided with a first connecting portion 12〇4. The second movable member 122 has a second connecting portion 1222. The first connecting portion 1204 of the touch panel protection cover 1203 is movably coupled to the second connecting portion 1222 ′ of the second movable member 122 along the second direction D2 and the first connecting portion 12〇4 is opposite to the second connecting portion 1222 One direction D1 is fixed. In this way, not only the touch unit 120 can move in the second direction D2 with respect to the second movable member 122, but also the touch unit 12 can be driven along the first direction D1 when the second movable member 122 moves along the first direction D1. Synchronous movement. In other words, the user can move the second movable member 122 in the first direction D1 by operating the touch unit 120. In the embodiment, the first branch of the touch panel protection cover 1203 is a convex slope, the second connecting portion 1222 of the movable member 122 is a groove, and the bump is embedded. In the above groove. However, the present invention is not limited to the embodiment _, the first connection of the touch panel protection cover 12 〇 3 is as if the 4 〇〇 钱 钱 钱 120 120 120 120 120 120 120 120 120 120 120 120 Π Π Π Π Π Π Π Π Π Π Π The second connecting portion kiss may be, for example, tailed, or may not be provided with the first connecting portion 1204, the control panel protective cover 1203 is disposed in the second direction, and the corresponding structure of the second securable member 122 (for example, a groove or a slip) Move in the rail). In this embodiment, as shown in FIG. 4B, the second movable member m2 is provided with a third connecting portion 1223, and the first movable member 121 has a fourth connecting port 1214. The third connecting portion 1223 of the second movable member 122 is movably coupled to the fourth connecting portion (2) 4 of the first movable member 121 in the first direction, and the third connecting portion is fixed in the second direction D2 with respect to the fourth connecting portion. . In this way, the user can move the second movable member 122 relative to the first movable member 121 in the first direction m by operating the touch unit 12 . Moreover, when the first movable member 121 rotates, the touch unit 12A can also be driven to rotate synchronously with the second movable member 122. In other words, the user can rotate the first movable member 121 by operating the touch unit 12A. Thereby, the touch unit 12A, the second movable member 122, and the movable member 121 can achieve mutual movement and overall rotation. In the embodiment, the third connecting portion 1223 of the second movable member 122 is a bump. The fourth connecting portion 1214 of the first movable member 121 is a groove, and the bump is embedded in the groove. However, the invention is not limited thereto. In other embodiments, the second movable member 122 may be a recess, and the fourth third connecting portion 1223 of the second movable member 121 is, for example, a bump. Alternatively, the third connection 1214 may be disposed, for example, the second movable member m may be disposed along the first direction (1) portion 1223 ′ and the entire first configuration (for example, a groove or a slide rail) _ shift = first In the present embodiment, as shown in FIG. 4A, the movable member 121 is disposed on the outer side of the two movable sensing elements 126 of the second movable member in the second direction D2. As shown in Fig. 4B, the other two two-two directions Di are respectively disposed on the inner side of the magazine 126. In the present embodiment, as shown in FIG. 4B, the main body portion 1210 has a main body portion 1210. The U is rotated by the two rotation triggering portions 12, and the jujube 2 is protruded from the main body portion 121. . The phase, the potential, the number of rotation triggers (10) and the position of the Dun. Two ~, is the same as the center line of D2. 21 along the invention of the mobile sensing element -% setting π, half 乍 any limit. In other embodiments, the movement 礞 28 6 6 ′ may not be set along the first direction D1 or the second direction D2, and the angle of the 巍 疋 is as long as it is located at the movement path of the touch unit 12G and the second movable rabbit. Just go up. Correspondingly, the rotation sensing member 128 is also set to 'as long as it is located in the rotation path of the first movable member i2i and the C is not the movable portion 12 according to a preferred embodiment of the present invention. Rotate the schematic. The following is a detailed description of the movable touch: 12 12 1377895. In this embodiment, when the user operates the touch unit 120 to move in the first direction D1, the touch unit 12 and the second movable unit 122 are in the first direction. The D1 is fixed, so the touch unit 12 带 will move the second movable member 122 in the first direction D1. At this time, the third connecting portion 1223 (the tenon) of the second movable member 122 moves in the first direction di in the fourth connecting portion 1214 (groove) of the first movable member 121, thereby triggering the corresponding moving sensing element. 126. Specifically, as shown in FIG. 2 and FIG. 4B, when the user operates the touch unit 120 to move upward in the first direction D1, the third connecting portion 1223 of the second movable member 122 triggers the motion sensing on the upper side thereof. Element 126, thereby controlling the electronic device to perform a corresponding function (eg, moving up the picture or turning up the volume). Further, in the present embodiment, the motion sensing element 126 is a switch having elasticity. Therefore, after the user releases the touch unit 12, the motion sensing element 126 can automatically resume and the second movable member 122 and the touch unit 120 can be pushed back to the initial position. However, the invention is not limited thereto. In practical applications, an elastic member may be provided for resetting the second movable member 122 as needed. In this embodiment, when the user operates the touch unit 120 to rotate, since the touch unit 12〇, the second movable member 122, and the first movable member can rotate together as a whole, the touch unit 12〇 drives the first A movable member 121 rotates on the plane of the circuit board 1〇2. In this embodiment, as shown in FIG. 5, when the user operates the touch unit 120 to rotate clockwise, the touch unit 12 turns the first movable member 121 on the plane of the circuit board 102. The hour hand rotates ^. At this time: 1377895 The rotation triggering portion 1218 on the left side of the first movable member 121 contacts and triggers the rotation sensing element 128 on one side thereof, thereby controlling the electronic device to perform a corresponding function (for example, rotating the picture clockwise or opening a program) ). Here, the rotation sensing element 128 is a switch having elasticity. When the user releases the touch unit 120, the rotation sensing element 128 can automatically resume and the first movable member 121 can be pushed back to the initial position. However, the invention is not limited thereto. In an actual application, an elastic member such as a spring piece may be disposed around the rotation sensing element 128 for resetting the first movable member 121. In addition, in the embodiment, the movable touch module 12 also has the function of the left and right buttons. As shown in FIG. 2, the user can press the touch unit 120 to trigger the push switch 129 that it covers. The touch unit 120 can be restored to the initial position by the elastic action of the elastic member 104. In summary, the first movable member of the movable touch module provided in the embodiment is rotatable relative to the main body on a plane, and the second movable member is movable in the first direction relative to the first movable member. And the touch unit is movable in the second direction relative to the second movable member. Thereby, the user can move in the second direction or drive the second movable member to move in the first direction by operating the touch control unit to trigger different motion sensing elements. In addition, the user can also operate the touch unit to rotate the first movable member along the plane to trigger different rotation sensing elements, thereby implementing various functions. In addition, the movable touch module provided in this embodiment also incorporates a left and right button function. Thus, the movable touch module and the electronic device using the same provided by the present invention not only provide a novel and unique design but also provide a more convenient and efficient operation mode. Although the present invention has been disclosed in the above preferred embodiments, the present invention is not intended to be limited to the scope of the invention, and it is possible to make a few changes without departing from the spirit and scope of the invention. And the scope of protection of the present invention is defined by the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic illustration of an electronic device in accordance with a preferred embodiment of the present invention. 2 is a partial top plan view of an electronic device in accordance with a preferred embodiment of the present invention. Figure 3 is a partially exploded perspective view of an electronic device in accordance with a preferred embodiment of the present invention. 4A and 4B are partial assembled views of a movable touch module according to a preferred embodiment of the present invention. FIG. 5 is a schematic view showing the rotation of a movable touch module according to a preferred embodiment of the present invention. [Main component symbol description] 1 Electronic device 10 Main body 100 Housing 1000 accommodating area 1001 First opening 1002 Second opening 102 Circuit board 104 Elastic member 12 Movable touch module 120 Touch unit 1201 Touch panel housing 1202 Touch Control board 1203 touch panel protection cover 1204 first connection portion 16 1377895 1205 side wall 1206 stop block 1208 recess 咅 P 1209 opening 121 first movable member 1210 main body portion 1214 fourth connecting portion 1218 rotation trigger portion 122 second movable member 1222 Second connecting portion 1223 third connecting portion 126 moving sensing element 128 rotating sensing element 129 pressing switch D1 first direction D2 second direction 17