200949627 •九、發明說明: •【發明所屬之技術領域】 本發明係關於一種滑鼠及電腦系統。 【先前技術】 習知之滑鼠通常是透過設置於其上之滾輪來控制電 腦視窗之縱向滾動,或者是透過滑鼠左鍵點取視窗右側之 卷軸並上下拖動來實現縱向滾動,透過滑鼠左鍵點取視窗 下側之卷軸並左右拖動來實現橫向滾動。但習知之單滾輪 ❹滑鼠無法透過其滾輪來實現視窗之橫向滚動,而必須借助 滑鼠左鍵來實現,帶來操作上之不便。 【發明内容】 鑒於上述内容,有必要提供一種可控制電腦視窗縱 向和橫向滾動之滑鼠及電腦系統。 一種滑鼠,包括一第一滾輪、一第二滾輪、一移動感 應器、一位元組存儲模組和一訊號傳輸模組,該移動感應 器包括分別同第一滚輪和第二滾輪電性相連之兩編碼器及 ❹一識別單元,該第一滾輪和第二滾輪分別用以向移動感應 器上對應之編碼器輸入垂直滾動訊號和水平滾動訊號,該 編碼器用以將輸入之滾動訊號轉換為位元組資料,該位元 組資料經識別單元識別後輸出給位元組存儲模組,該位元 組存儲模組用以透過訊號傳輸模組將識別後之位元=資= 輸出給一電腦主機。 '' 一種電腦系統,包括一滑鼠和一電腦主機,該滑鼠包 括一第一滾輪、一第二滾輪、一移動感應器、一位元組= 儲模組和一訊號傳輸模組,該移動感應器包括分別同第: 6 200949627 ’滾輪和第二滾輪電性相連之兩編碼器及一識別單元,該電 -腦主機包括一位元組驅動模組、一垂直滚動驅動模組和一 水平滚動驅動模組,該第一滾輪和第二滚輪分別用以向移 動感應器上對應之編碼器輸入垂直滾動訊號和水平滚動訊 號,該編碼器將輸入之滾動訊號轉換為位元組資料,該位 元組資料經識別單元識別後輸出給位元組存儲模組,該位 7G組存儲模組透過訊號傳輸模組將識別後之位元組資料傳 送至該位元組驅動模組,該位元組驅動模組根據滾動訊號 〇選擇相應之滾動驅動模組驅動電腦中之視窗垂直滾動或水 平滚動。 相較習知技術,該滑鼠透過第一滚輪和第二滾輪分 別控制電腦中之視窗縱向滾動和橫向滚動,結構簡單,操 作方便。 ' 【實施方式】 請一併參照圖1和圖2,本發明滑鼠較佳實施方式9〇 包括一第一滚輪10、一第二滾輪20、一移動感應器30、 ❹一位元組存儲模組40和一訊號傳輸模組50。該訊號傳輸 模組50連接到一電腦主機1〇〇之位元組驅動模組⑼。 邊移動感應器30包括分別同第一滾輪10和第二滾輪 20電性相連之兩編碼器32及一識別單元%,該第一滾輪 10。和第二滾輪2〇分別用以向移動感應器3〇上對應之編 I器32輸入垂直滾動訊號和水平滾動訊號。該編碼器% 將,入之滾動訊號轉換為位元組資料,該位元組資料經識 別單元33識別後輸出給位元組存儲模組4〇。該位元組存 儲模組40透過訊號傳輸模組5〇將識別後之位元組資料傳 200949627 . · 送至位元組驅動模組60,該位元組驅動模組6〇根據滾動 -訊號選擇垂直滾動驅動模組7〇驅動電腦中之視窗垂直滾 動,或者選擇水平滾動驅動模組80驅動電腦中之視窗水 平滾動。其中,該訊號傳輸模組50包括串列介面或紅外 線發射接收器。 使用本發明之滑鼠控制電腦視窗滾動之工作過程是: 當滚動第-滾輪10時,其垂直滾動訊號經移動感應器3〇 上對,之編碼器32轉換為位元組資料,該位元組資料經 ❹識別單7G 33識別後輸出給位元組存儲模組4〇,該位元組 存儲模組仂透過訊號傳輸模組5〇將識別後之位元組資料 傳送至位元組驅動模組6〇,該位元組驅動模組6〇選擇垂 直滾動驅動模組70驅動電腦中之視窗垂直滚動。當滾動 第一滾輪20時’其水平滾動訊號經移動感應器3〇上對應 —編碼器32轉換為位元組資料,該位元組資料經識別單 疋33識別後輸出給位元組存儲模組4〇,該位元組存儲模 組40透過訊號傳輸模組5〇將識別後之位元組資料傳送至 ©位7〇組驅動模組60,該位元組驅動模組6〇選擇水平滚動 驅動模組80驅動電腦中之視窗水平滾動。 本發^之滑鼠透過第一滾輪和第二滾輪分別控制電 b中之視_垂直滾動和水平滾動,結構簡單,操作方便。 綜上所述,本發明符合發明專利要件,爰依法提出專 。惟,以上所述者僅為本發明之較佳實 熟悉本案技藝之人士^ 在爰依本發明精神所作之等效修飾 或變化,皆應涵蓋於以下之申請專利範圍内。 8 200949627 【圖式簡單說明】 圖1係本發明滑鼠較佳實施方式同電腦主機相連 方框圖。 圖2係本發明滑鼠較佳實施方式之示意圖。 【主要元件符號說明】 第二滾輪 20 編碼器 32 位元組存儲模組 40 位元組驅動模組 60 水平滾動驅動模組 80 電腦主機 100 第一滾輪 10 移動感應器 30 識別單元 33 ®訊號傳輸模組 5〇 垂直滾動驅動模組 70200949627 • Nine, invention description: • Technical field to which the invention pertains The present invention relates to a mouse and computer system. [Prior Art] The conventional mouse usually controls the vertical scrolling of the computer window through the scroll wheel disposed thereon, or the vertical scroll is obtained by dragging the scroll on the right side of the window and dragging it up and down through the left mouse button. Left click to take the scroll on the lower side of the window and drag left and right to achieve horizontal scrolling. However, the conventional single scroll wheel ❹ mouse cannot realize the horizontal scrolling of the window through its scroll wheel, but must be realized by the left mouse button, which brings inconvenience in operation. SUMMARY OF THE INVENTION In view of the above, it is necessary to provide a mouse and computer system that can control the vertical and horizontal scrolling of a computer window. A mouse includes a first roller, a second roller, a motion sensor, a tuple storage module, and a signal transmission module, the motion sensor including the first roller and the second roller respectively The two encoders and the first identification unit are respectively configured to input a vertical scrolling signal and a horizontal scrolling signal to the corresponding encoder on the motion sensor, and the encoder is configured to convert the input scrolling signal For the byte data, the byte data is identified by the identification unit and output to the byte storage module, and the byte storage module is configured to output the identified bit=== to the signal transmission module A computer host. a computer system comprising a mouse and a computer host, the mouse comprising a first wheel, a second wheel, a motion sensor, a tuple=storage module and a signal transmission module, The motion sensor includes two encoders and an identification unit electrically connected to the wheel: the second wheel and the second roller respectively, and the electric brain unit includes a one-piece driving module and a vertical scrolling driving module. a horizontal scrolling driving module, wherein the first roller and the second roller are respectively configured to input a vertical scrolling signal and a horizontal scrolling signal to a corresponding encoder on the motion sensor, and the encoder converts the input scrolling signal into a bit element The group data is identified by the identification unit and output to the byte storage module, and the 7G group storage module transmits the identified byte data to the byte drive mode through the signal transmission module. The group driving module selects the corresponding scrolling driving module to drive the vertical scrolling or horizontal scrolling of the window in the computer according to the scrolling signal. Compared with the prior art, the mouse controls the vertical scrolling and the horizontal scrolling of the window in the computer through the first roller and the second roller, respectively, and has a simple structure and convenient operation. [Embodiment] Referring to FIG. 1 and FIG. 2 together, a preferred embodiment of the mouse of the present invention includes a first roller 10, a second roller 20, a motion sensor 30, and a tuple storage. Module 40 and a signal transmission module 50. The signal transmission module 50 is connected to a byte drive module (9) of a computer host. The edge movement sensor 30 includes two encoders 32 electrically connected to the first roller 10 and the second roller 20, and an identification unit %, the first roller 10. And the second roller 2〇 is used to input a vertical scrolling signal and a horizontal scrolling signal to the corresponding encoder 32 of the motion sensor 3, respectively. The encoder % converts the incoming scroll signal into byte data, and the byte data is recognized by the identification unit 33 and output to the byte storage module 4〇. The byte storage module 40 transmits the identified byte data through the signal transmission module 5 to 200949627. · is sent to the byte driving module 60, and the byte driving module 6 is based on the scrolling-signal The vertical scrolling drive module 7 is selected to drive the vertical scrolling of the window in the computer, or the horizontal scrolling driving module 80 is selected to drive the horizontal scrolling of the window in the computer. The signal transmission module 50 includes a serial interface or an infrared transmission receiver. The working process of controlling the scrolling of the computer window by using the mouse of the present invention is: when the scroll wheel 10 is scrolled, the vertical scrolling signal is turned on by the moving sensor 3, and the encoder 32 is converted into the byte data. The tuple data is identified by the identification sheet 7G 33 and output to the byte storage module 4, and the byte storage module transmits the identified byte data to the byte through the signal transmission module 5 The driving module 6〇, the byte driving module 6〇 selects the vertical scrolling driving module 70 to drive the vertical scrolling of the window in the computer. When the first wheel 20 is scrolled, its horizontal scrolling signal is converted into byte data by the motion sensor 3, and the encoder data is recognized by the identification unit 33 and output to the byte storage mode. In the group 4, the byte storage module 40 transmits the identified byte data to the user group 7 drive module 60 through the signal transmission module 5, and the byte drive module 6 selects the level. The scrolling drive module 80 drives the horizontal scrolling of the window in the computer. The mouse of the present invention controls the visual vertical scroll and the horizontal scroll in the electric b through the first roller and the second roller respectively, and has a simple structure and convenient operation. In summary, the present invention complies with the requirements of the invention patent, and is specifically proposed according to law. However, the above-mentioned equivalents and modifications of the present invention are intended to be within the scope of the following claims. 8 200949627 [Simplified description of the drawings] Fig. 1 is a block diagram showing a preferred embodiment of the mouse of the present invention connected to a host computer. Figure 2 is a schematic illustration of a preferred embodiment of the mouse of the present invention. [Main component symbol description] Second wheel 20 Encoder 32-bit memory module 40-bit drive module 60 Horizontal scroll drive module 80 Computer host 100 First wheel 10 Motion sensor 30 Identification unit 33 ® Signal transmission Module 5〇 vertical scrolling drive module 70