200947295 ' 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種多視窗操作介 2關於—種在電子設備平台上提面= 【先前技術】 目前的電子設備平台大都提供單—的螢幕操作 力能,當用戶使用某一項特定的功能時,: ❹ 幕r視窗進行切換,來顯示該項功二 蛍綦操作視窗,當用戶佶用χ __ 幕操作視窗進行切換,從而顯_ 1此時,則需要對螢 視窗。自進仃刀換從而顯不另一項功能的螢幕操作 然而,虽用戶需要同時啟用多項 =控卿-一山咖一 統申,在執行監控程序過程 工系 則無法在榮幕操作視窗上二功能時, 〇作視;,通常需在主程序的 丄其他視窗,用戶需反復地在複數不同的摔 =r切換,使吻 方法本發月之目的係在於提供—種多視窗操作介面顯示 乍介面顯示方法,包括以下步驟: 包括一讀取模組和—顯示模組;^操作介面程式 6 200947295 該讀取模組讀取顧千墓 組,該顯示模組根據預先:;’並傳送給該顯示模 率藉由顯示卡在顯=先:置數顯示區域的顯示比 )牡頸不幕上顯不複數區域視窗大小 在各區域視窗内顯示功能單元進行操作。 卜龜該=齒操作介面顯示方法’可以在電子設備平么 【實施方式】 項力“作’使操作極為方便。 Ο Ο 視窗:以建立在可編程控制器監控系統上的多 3 法為例,㊣中顯示多視窗的設備為 第丁顯-「祕該顯不幕100被劃分成複數區域視窗’包括 及第四顯示區域118 22ΐ114、第三顯示區域116 大小,另外用^ 按疋比率劃分各區域視窗的 方式改變區域禎脔沾制八單3拖拽視®等輸入 各頻干3 : 率。例如,按預定比率劃分 谷頌不£域大小時,設顯示幕1〇〇 圖元高度的顯干F々丹有m圖兀寬度和n 系,㈣圖1所示的巧直角坐標 不幕的左上角被設置座標為(〇, G),而右下角 被设置座標為( ), 窗面積的比率劃分為^ 二四顯示區域的區域視 窗的/上备為 以計算出各個區域視 標。工 上π、右上角座標、左下角座標及右下角座 了 一個多視窗顯 100的四個區域 以某程式的功能 一。延樣,在顯示幕1〇〇上對用戶提供 示區域,可以讓用戶進一步藉由顯示幕、 視窗同時操作多項功能。多項功能可以 7 200947295 表項、按紐、圖示或標籤等表示,每一項功能稱為一個 功此單元’被啟動的功能單元就會出現此功能單元的預 設操作介面。四個區域視窗建立好之後,則多項功能單 元就以樹形結構在每個區域視窗内顯示,其樹形結構顯 示的大小按照最小區域視窗的大小在每個區域視窗内顯 示然後滑鼠點擊每個區域視窗内所需顯示的功能單 元,選中的功能單元的操作介面就顯示在該區域視窗 内。例如要將某一項功能單元的操作介面顯示在第一顯 ❹示區域112内,則滑鼠點擊第一顯示區域内的功能單 几後,將此功能單元的預設操作介面與第一顯示區域M2 比較’若兩者的大小不相等’則將前者的大小 =為第-顯示區域112的大小進行顯示,若兩者的大小 =顯Π進行調整’直接將此功能單元的預設操作 ;丨面顯不在第一顯示區域112内。 請參阅圖2,多視窗操作介 視窗操作介面程式勘、外方Μ理圖包括多 Λ及顯示區域212,其中多視H/丨面 208、顯示卡训 ❹模紐209、插作介面程式200包括讀取 葬由顯又模組2〇4及顯示模組206。讀取模组202 猎由顯不卡驅動程式與顯示卡21〇 _ 區域212的大小,另外讀取模挺202 ^ k顯示 面細的指令,例如__ 作介 指令。當功能單元的預設操作介面開=擊=/操作 就將功能單元的預設操作介面比較模組204 行比#,翻-描▲ 兴顯不區域212的大、推 灯比較’顯不模組2〇6根據 町幻、進 元的操作介面大小,向顯示卡^較的結果調整功能單 4動雈式發送顯示指令, 8 200947295 ο .進而由顯示卡210控制顯示區域212進 顯示區域212可以是整個顯示幕區域或者是圖;: 一區域視窗。 〒的某 清再參阅圖3,該多視窗操作介面顯 下步驟·· 〜巴祜Μ 步驟S10,該可編程控制器的監控系統啟動時 多視窗操作介面程式200 ; 、汗啟 步驟S20,讀取模組202讀取顯示幕1〇〇大小,並 〇 送給顯示模組206,顯示模組2〇6根據預先設置的複數 不區域的比率藉由顯示卡21〇調整顯示的 複數區域視窗大小; 上顯不的 步驟S30,功能單元顯示於各區域視窗内; 步驟S40,外部操作介面2〇8發送滑鼠點擊選中的某 一區域視窗内的功能單元事件到讀取模組2〇2 ; 步驟S50比較模組204比較此功能單元的預設操作 介面與其所在區域視窗的大小; ❹ 步驟S 6 0,若此功能單元的預設操作介面的大小與此 區域視窗的大小不相等,則顯示模組2〇6將功能單元的 預設操作介面的大小調整為區域視窗的大小,調整後的 功能單元的操作介面在區域視窗内顯示; 步驟S70,若此功能單元的預設操作介面的大小與此 區域視窗的大小相等,則功能單元的預設操作介面藉由 顯不模組206 ’進而由顯示卡21〇控制直接顯示於對應的 區域視窗中。 如果用戶要執行另一功能單元,可在另一區域視窗 9 200947295 .内點選另一功能單元’重複執行步驟S40〜S70即可。 、本發明的多視窗操作介面顯示方法’可為用戶提供 少視窗的操作介面’讓用戶藉由複數視窗同時操作電^ =備平台上的多項功能’使用戶更方便及快速地進 作0 、 綜上所述,本發明符合發明專利要件,爰依法提出專 利申請。惟’以上所述者僅為本發明之較佳實施例舉凡 熟悉本案技藝之人士,在爰依本發明精神所作之等效修飾 ❹或變化,皆應涵蓋於以下之申請專利範圍内。 【圖式簡單說明】 圖1係本發明多視窗操作介面顯示方法的較佳實施方 式的區域視窗框圖。 圖2係本發明多視窗操作介面顯示方法的較佳實施方 式的原理圖。 圖3係本發明多視窗操作介面顯示方法的較佳實施方 式的流程圖。 【主要元件符號說明】 顯示幕 100 第一顯示區域 112 第二顯示區域 114 第三顯示區域 116 第四顯示區域 118 視窗操作介面程式 200 讀取模組 202 比較模組 204 顯示模組 206 外部操作介面 208 顯示卡 210 顯示區域 212200947295 ' IX, invention description: [Technical field of invention] The present invention relates to a multi-window operation interface 2 on the surface of an electronic device platform = [Prior Art] Most electronic device platforms currently provide a single screen Operating power, when the user uses a certain function, the screen is switched to display the function window. When the user uses the ___ screen operation window to switch, the display _ 1 At this point, you need to click on the window. However, although the user needs to enable multiple times at the same time, the controller must be enabled at the same time, and the system can not be used in the window of the window. At the time, it is usually necessary to view the other windows in the main program. The user needs to repeatedly switch between different numbers in the plural, so that the purpose of the kiss method is to provide a multi-window operation interface display interface. The display method comprises the following steps: including a reading module and a display module; ^ operating interface program 6 200947295 The reading module reads the Gu Qian tomb group, and the display module is transmitted according to the pre-: The display modulus is displayed by the display unit in the display area of the display area. The display area of the display area is displayed in the window of each area.龟龟 The = tooth operation interface display method 'can be used in electronic equipment flats 【Embodiment】 Item force “Do” makes the operation very convenient. Ο 视窗 Window: Take the multi-method built on the programmable controller monitoring system as an example The device that displays the multi-window in the middle is the first display - "the secret is not divided into multiple area windows" and the fourth display area 118 22 ΐ 114, the third display area 116 size, and is divided by the ratio of ^ 疋The way of changing the area of each area window is to change the frequency of the input of each of the three channels. For example, when the valley size is not divided by the predetermined ratio, the height of the display screen is set to 1 The sufficiency of the 々 々 有 has a m 兀 width and n series, (d) the top left corner of the coincident coordinates shown in Figure 1 is set to the coordinates (〇, G), and the lower right corner is set to the coordinates ( ), window The ratio of the area is divided into ^ 2 display area of the area window / is prepared to calculate the area of each area. The upper π, the upper right corner coordinate, the lower left corner coordinate and the lower right corner have a multi-window display 100 The function of a certain program By extending the sample, the user is provided with a display area on the display screen, which allows the user to further operate multiple functions simultaneously through the display screen and the window. A plurality of functions can be expressed by 7 200947295 items, buttons, icons or labels, etc. A function called this unit is the function unit that is activated. The default operation interface of this function unit appears. After the four area windows are created, the multiple function units are in a tree structure in each area window. Display, the size of the tree structure display is displayed in each area window according to the size of the minimum area window, and then the mouse clicks on the function unit to be displayed in each area window, and the operation interface of the selected function unit is displayed in the In the area window, for example, if the operation interface of a certain function unit is displayed in the first display area 112, the mouse clicks on the function list in the first display area, and the preset operation interface of the function unit is Compared with the first display area M2, 'if the sizes of the two are not equal', the size of the former = the size of the first display area 112, if two The size of the display = display is adjusted to directly 'preset the operation of this functional unit; the face is not in the first display area 112. Please refer to Figure 2, multi-window operation window operation interface program mapping, foreign texture map The multi-view and display area 212 is included, wherein the multi-view H/face 208, the display card training module 209, and the plug-in interface program 200 include a read-and-snake module 2〇4 and a display module 206. The module 202 hunts the size of the display card 21〇_ area 212 by the display card driver, and additionally reads the command of the display surface with a thin surface of 202^k, for example, __ as a medium instruction. When the function unit is preset operation interface Open = hit = / operation will be the functional unit's preset operation interface comparison module 204 line ratio #, flip-draw ▲ show no area 212 large, push light comparison 'display module 2 〇 6 according to the town, The size of the operation interface of the incoming element is adjusted to the function of the display card. The function display 4 sends a display command, 8 200947295. Further, the display area 212 is controlled by the display card 210. The display area 212 can be the entire display area or Figure;: A regional window. Referring to FIG. 3, the multi-window operation interface shows the steps of step S10. The monitoring system of the programmable controller starts the multi-window operation interface program 200; and the sweat starts step S20. The reading module 202 reads the size of the display screen and sends it to the display module 206. The display module 2〇6 adjusts the displayed plurality of area windows by the display card 21〇 according to the preset ratio of the plurality of areas. In step S30, the function unit is displayed in each area window; in step S40, the external operation interface 2〇8 sends a mouse to click on the function unit event in the selected area window to the reading module 2〇 2; Step S50 compare module 204 compares the preset operation interface of the functional unit with the size of the window of the area in which it is located; ❹ Step S 60, if the size of the preset operation interface of the functional unit is not equal to the size of the window in the area, The display module 2〇6 adjusts the size of the preset operation interface of the function unit to the size of the area window, and the operation interface of the adjusted function unit is displayed in the area window; Step S70, if the function unit is pre- If the size of the operation interface is equal to the size of the window in the area, the preset operation interface of the function unit is directly displayed in the corresponding area window by the display module 206' and then by the display card 21〇. If the user wants to execute another functional unit, step S40 to S70 may be repeatedly performed by clicking another functional unit in another area window 9 200947295. The multi-window operation interface display method of the present invention can provide the user with a small window operation interface 'allowing the user to operate multiple functions on the platform at the same time by multiple windows' to make the user more convenient and quick to enter 0, In summary, the present invention complies with the requirements of the invention patent and submits a patent application according to law. And the equivalents of the present invention are intended to be included in the following claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram of a region window of a preferred embodiment of the multi-window operation interface display method of the present invention. Figure 2 is a schematic diagram of a preferred embodiment of the multi-window operating interface display method of the present invention. Fig. 3 is a flow chart showing a preferred embodiment of the multi-window operation interface display method of the present invention. [Main component symbol description] Display screen 100 First display area 112 Second display area 114 Third display area 116 Fourth display area 118 Window operation interface program 200 Read module 202 Comparison module 204 Display module 206 External operation interface 208 display card 210 display area 212