201019215 九、發明說明: 【發明所屬之技術領域】 ' 本發明涉及行動終端,尤其涉及一種帶有屏幕顯示的行 動終端及其顯示晝面的方法。 【先前技術】 目前,個人數位助理與手機整合的電子產品,已相當普 及且使用率較高。利用該電子產品做為個人的隨身秘書,可 以幫助使用者記錄朋友或商業夥伴的通訊錄、行程計劃、備 ❿忘錄,亦可用作翻譯機、計算器及手機,給使用者帶來諸多 便利,成為生活中不可或缺的一部分。 然,多數電子產品的顯示均為單一方向的,例如豎立顯 示,當使用者將電子產品由原豎立握持轉向橫向握持時,使 用者需傾斜頭部,以觀看晝面,不僅不易看清晝面内容,也 會造成使用者的不適。 【發明内容】 有鑑於此,需提供一種行動終端,其顯示晝面會隨行動 ◎ 終端的旋轉而進行相應旋轉。 此外,還需提供一種顯示畫面的方法。 一種行動終端,用於顯示晝面,包括第一儲存模組、資 料讀取模組、第二儲存模組、顯示模組、偵測模組、晝面刷 新判斷模組及晝面刷新模組。第一儲存模組用於儲存該行動 終端之複數顯示狀態下之顯示晝面及複數座標資料與資源 文檔,該等資源文檔包括對應顯示狀態下顯示晝面之文檔名 及儲存路徑。資料讀取模組用於在該行動終端開機時,從該 7 201019215 第一儲存模組讀取該行動終端之該等座標資料與資源文 檔。第二儲存模組用於儲存該資料讀取模組讀取之該行動終 -端之該等座標資料與資源文檔。顯示模組用於顯示畫面。偵 •測模組用於偵測該行動終端之旋轉角度。晝面刷新判斷模組 用於根據該旋轉角度判斷是否刷新該顯示模組當前顯示之 晝面,及當需刷新該顯示模組當前顯示之晝面時,產生介面 改變事件。晝面刷新模組用於接收該介面改變事件,從該第 二儲存模組讀取對應的座標資料與資源文檔,根據該資源文 ❹檔從第一儲存模組讀取對應的顯示晝面,產生刷新命令,及 發送該刷新命令及讀取的對應的座標資料與顯示晝面至該 顯示模組,驅動該顯示模組顯示與該座標資料與顯示畫面對 應的晝面。 一種顯示晝面的方法,用於行動終端中,該行動終端預 設有複數座標資料與資源文檔,該顯示畫面的方法包括:該 行動終端開機;從該行動終端之第一儲存模組讀取該行動終 端之該等座標資料與資源文檔,並儲存至該行動終端之第二 儲存模組;顯示初始晝面;偵測該行動終端之旋轉角度;根 據該旋轉角度判斷是否需刷新當前顯示之初始畫面;若需刷 新當前顯示之初始晝面時,產生介面改變事件;接收該介面 改變事件,從該第二儲存模組讀取對應的座標資料與資源文 檔,根據該資源文檔從第一儲存模組讀取對應的顯示晝面, 產生刷新命令,及發送該刷新命令及讀取的對應的座標資料 與顯示晝面至顯示模組;及顯示與該座標資料與顯示晝面對 201019215 【實施方式】 參閱圖1,所示為本發明一實施方式中行動終端10之模 • 組圖。行動終端10用於顯示晝面,其顯示之晝面可隨行動 ' 終端10的旋轉而進行相應的旋轉,以便於用戶觀看,然不 論行動終端10之旋轉角度如何,其僅有橫向顯示及縱向顯 示兩種顯示狀態。在本實施方式中,行動終端10包括行動 電話、數位個人助理等。在本實施方式中,行動終端包括第 一儲存模組100、用戶介面任務模組120、偵測模組130、第 ❿二儲存模組140及顯示模組150。 第一儲存模組100用於儲存行動終端10之複數顯示狀 態下之顯示晝面及複數座標資料與資源文檔,該等資源文檔 包括對應顯示狀態下顯示晝面之文檔名及儲存路徑。第一儲 存模組100可在不加電的情況下長時間儲存資料,在本實施 方式中,第一儲存模組100包括閃速儲存器(Flash Memory)。在本實施方式中,該等顯示狀態包括橫向顯示狀 態與縱向顯示狀態,該等座標資料與資源文檔包括橫向顯示 〇 狀態與縱向顯示狀態的座標資料與資源文檔,該等顯示晝面 包括行動終端10不同工作狀態之顯示晝面,該等工作狀態 包括待機狀態、通話狀態、電話薄瀏覽狀態等。在本實施方 式中,行動終端10開機時的默認顯示方式為縱向顯示狀態。 顯示模組150用於顯示晝面,包括顯示驅動器1500、顯 示器1510及顯示緩存1520。顯示器1510用於顯示畫面。顯 示驅動器1500用於驅動顯示器1510。顯示緩存1520用於暫 存顯示器1510當前顯示之晝面對應的座標資料及顯示晝面。 9 201019215 偵測模組130用於偵測行動終端10之旋轉角度。通常 狀況下,用戶均竪直使用行動終端10,但因某些需要,用戶 可能旋轉行動終端10,偵測模組130偵測行動終端10之旋 轉角度,以在旋轉到一定角度時,使行動終端10之顯示畫 面也相應旋轉,方便用戶觀看。在本實施方式中,偵測模組 130為3維加速度感測器,例如美國ADI公司的ADXL330 晶片。 用戶介面任務模組(User Interface Task) 120用於進行 ©用介面處理,包括資料讀取模組1200、畫面刷新判斷模組 1210及畫面刷新模組1220。 資料讀取模組1200用於在行動終端1〇開機時,從第一 儲存模組1〇〇讀取該行動終端1〇之該等座標資料與資源文 播’並儲存至第二儲存模組14〇。 第一儲存模組140用於儲存資料讀取模組12〇〇 行動終端10之該等座標資料與資源文播。第二儲存模組 在行祕端1G加電的情況下料 、々^ =彻。在本實施方式中,第二健存 二構特行動終端1G之該以 其中-個樹的所有分支包括橫向顯 ; 資源文構,另-個樹的所有分支包括縱向顯; 料與資源文檔。 ,不狀也、之座稽 行動齡心_貞龍組130 _ = :!〇的旋轉角度判斷是否刷新顯示模組15二 畫面’及當需刷新顯示模組⑽當前顯示之畫面;前 201019215 生並發送介面改變事件至畫面刷新模組1220。在本實施方式 中,介面改變事件包括行動終端10的旋轉角度。 ' 在本實施方式中,晝面刷新判斷模組1210以45度為限 •判斷是否需刷新顯示模組150當前顯示之晝面。例如,若行 動終端10開始為直立擺放,若其旋轉角度大於0度而小於 等於45度或大於等於315度而小於等於360度,晝面刷新 判斷模組1210判斷不需刷新當前顯示之晝面;若旋轉角度 大於45度而小於等於135度,晝面刷新判斷模組1210判斷 ❿需刷新當前顯示之晝面,且刷新後之晝面為旋轉90度之晝 面;若旋轉角度大於135度而小於等於225度,晝面刷新判 斷模組1210判斷需刷新當前顯示之畫面,且刷新後之畫面 為旋轉180度之晝面;若旋轉角度大於225度而小於等於315 度,畫面刷新判斷模組1210判斷需刷新當前顯示之畫面, 且刷新後之畫面為旋轉270度之晝面。在本發明之其它實施 方式中,亦可根據實際需要設定為其它角度,例如,僅旋轉 到90、180、270度時才進行旋轉。 ❹ 晝面刷新模組1220用於接收該介面改變事件,從第二 儲存模組140讀取對應的座標資料與資源文檔,根據該資源 文檔讀取對應的顯示畫面,產生刷新命令,及發送該刷新命 令及讀取的對應的座標資料與顯示晝面至顯示模組150,使 顯示模組150顯示與該座標資料與顯示晝面對應的晝面。晝 面刷新模組1220還用於根據該介面改變事件所包括之行動 終端10之旋轉角度設定狀態變量,並根據該狀態變量從第 二儲存模組140讀取對應的座標資料與資源文檔。在本實施 11 201019215 方式中,該刷新命令包括該狀態變量,該狀態變量代表該行 動終端10的旋轉狀態。 仍以上述舉例為例,若行動終端10開始為直立擺放, ’若其旋轉角度大於0度而小於等於45度或大於等於315度 而小於等於360度,狀態變量均為〇;若行動終端1〇旋轉角 度大於45度而小於等於135度,晝面刷新模組1220設定狀 態變量為1,代表刷新後之晝面為旋轉90度之晝面;若旋轉 角度大於135度而小於等於225度’畫面刷新模組1220設 ❺定狀態變量為2’代表刷新後之畫面為旋轉度之晝面; 若旋轉角度大於225度而小於等於315度,晝面刷新模組 1220設定狀態變量為3,代表刷新後之晝面為旋轉27〇度之 晝面,其中0度與180度之晝面為縱向顯示之畫面,9〇度與 270度之畫面為橫向顯示之晝面。 顯不驅動器15 00還用於·垃ja- 〇 I a 巾力接故刷新命令,根據狀態變量 對當前顯示之晝面之座標重新映射 ^ μ 啊哄射’並根據顯示緩存1520 〇所暫存之晝面刷賴組122〇所發狀錢資料與顯示畫 面’形成新的畫面並發送至顯示器mo顯示。在本實施方 式中,若行動終端10直立放置眸,拥一 π 从置呀,顯不器1510當前顯示之 晝面為24GD2G,若狀態變量由Q變為i,顯示驅動器· 將當前顯示之晝面之座標(0,32〇)重新映射為(〇,〇),座標 (〇,〇)重新映射為座標(物,;若狀態變量由〇變為2, 顯示驅動II 15GG將當前顯示之晝面之座標(24G,32〇)重新 映射為(〇,〇),錢(ο’ο)重新映射為座標(24G,32〇);若 狀態變量由0變為3,顯示驅動器15〇〇將當前顯示之畫面之 201019215 座標(240,0 )重新映射為座標(0,0 ),座標(0,0 )重新映 射為座標(〇,240)。 ' 圖2所示為本發明一實施方式中行動終端10顯示畫面 •的方法,其可使行動終端10之顯示晝面隨行動終端10的旋 轉進行相應的旋轉,便於用戶觀看。首先,在步驟S200,行 動終端10開機。在步驟S202,資料讀取模組1200從行動終 端10之第一儲存模組100讀取行動終端10之複數座標資料 與資源文檔,並儲存至行動終端10之第二儲存模組140。在 ❿步驟S204,顯示模組150顯示初始晝面。在步驟S206,行 動終端10被旋轉,偵測模組130偵測行動終端10之旋轉角 度。 在步驟S208,刷新判斷模組1210根據該旋轉角度判斷 是否需刷新當前顯示之初始晝面。若不需刷新當前顯示之初 始晝面,則回到步驟S204,顯示模組150繼續顯示當前初始 晝面。 若需刷新當前顯示之初始晝面時,在步驟S210,畫面刷 ❹ 新判斷模組1210產生並發送介面改變事件至行動終端10之 晝面刷新模組1220。在本實施方式中,介面改變事件包括行 動終端10之旋轉角度。 在步驟S212,晝面刷新模組1220接收該介面改變事 件,從第二儲存模組140讀取對應的座標資料與資源文檔, 根據該資源文檔從第一儲存模組100讀取對應的顯示晝面, 產生刷新命令,及發送該刷新命令及讀取的對應的座標資料 與顯示晝面至顯示模組150。在本實施方式中,在步驟S212 13 201019215 中,畫面刷新模組1220還根據介面改變事件設定狀態變量, 並根據該狀態變量從第二儲存模組14〇讀取對應的座標資料 與資源文檔,並儲存對應的座標資源與顯示畫面至顯示模組 150之顯示緩存i520,及發送該刷新命令至顯示模組150之 顯示驅動器1500。在本實施方式中,狀態變量代表行動終端 10的旋轉狀態,刷新命令包括狀態變量。 在步驟S214,顧示模組150顯示與該座標資料與顯示畫 面對應的晝面。在本實施方式中,顯示驅動器15〇根據狀態 ©變量對當前顯示之晝面之座標重新映射,並根據顯示緩存 1520所暫存之晝面刷新模組122〇所發送之座標資料與顯示 畫面,形成新的畫面並發送至顯示模組15〇之顯示器151〇 7、如此,行動終端完成畫面的自動旋轉。 發明的行動終端10及其顯示畫面的方法,經由設定 二及縱向顯不狀態之顯示晝面及座標資料與資源文槽,可 終端10旋轉時’讀取對應的座標資料及顯示晝面, ® I開機:的相應旋轉’便於用戶觀看。此外,行動終端10 第1儲/由第—儲存触下餘财料與㈣文播至 模::T140,從而在行動終端10旋轉時,從第二儲存 應的座標資料及資源文播,並咖 快,可^儲存模組⑽調用相應的顯示畫面,處理速度較 用戶的觀=動終端10旋轉時畫面顯示的速度,不會影響 综上所述’本發明符合發㈣利要件, 申請。掩 —μ ’…,爰依法提出專利 以上所述者僅為本發明之較佳實施例,舉凡熟悉 14 201019215 本案技藝之人士,在爰依本案發明精神所作之等效修飾或變 化,皆應包含於以下之申請專利範圍内。 '【圖式簡單說明】 •圖1為本發明一實施方式中行動終端之模組圖。 圖2為本發明一實施方式中顯示晝面之流程圖。 【主要元件符號說明】 行動終端 10 第一儲存模組 100 用戶介面任務模組 120 資料讀取模組 1200 晝面刷新判斷模組 1210 晝面刷新模組 1220 偵測模組 130 第二儲存模組 140 顯示模組 150 顯示驅動器 1500 顯示器 1510 顯示緩存 1520 15201019215 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a mobile terminal, and more particularly to a mobile terminal with a screen display and a method of displaying the same. [Prior Art] At present, electronic products integrated with personal digital assistants and mobile phones are quite popular and have a high usage rate. Using this electronic product as a personal portable secretary can help users to record contacts, travel plans, and memorandums of friends or business partners. It can also be used as a translator, calculator, and mobile phone. Convenience becomes an indispensable part of life. However, most electronic products are displayed in a single direction, such as an upright display. When the user turns the electronic product from the original standing to the lateral position, the user needs to tilt the head to view the face, which is not easy to see. The content of the face will also cause discomfort to the user. SUMMARY OF THE INVENTION In view of the above, it is desirable to provide a mobile terminal that displays a face that rotates in response to the rotation of the action ◎ terminal. In addition, it is necessary to provide a method of displaying a picture. A mobile terminal for displaying a side surface, comprising a first storage module, a data reading module, a second storage module, a display module, a detection module, a kneading refresh determination module, and a kneading refresh module . The first storage module is configured to store the display surface and the plurality of coordinate data and resource documents in the plural display state of the mobile terminal, and the resource documents include the document name and the storage path of the display surface corresponding to the display state. The data reading module is configured to read the coordinate data and the resource document of the mobile terminal from the first storage module of the 7 201019215 when the mobile terminal is powered on. The second storage module is configured to store the coordinate data and the resource document of the action terminal end read by the data reading module. The display module is used to display the screen. The detection module is used to detect the rotation angle of the mobile terminal. The face refreshing determination module is configured to determine whether to refresh the currently displayed face of the display module according to the rotation angle, and generate an interface change event when the face currently displayed by the display module needs to be refreshed. The face refreshing module is configured to receive the interface change event, read the corresponding coordinate data and the resource document from the second storage module, and read the corresponding display face from the first storage module according to the resource file. A refresh command is generated, and the refresh command and the corresponding coordinate data and the read surface are sent to the display module, and the display module is driven to display a face corresponding to the coordinate data and the display screen. A method for displaying a facet is used in a mobile terminal. The mobile terminal is pre-configured with a plurality of coordinate data and a resource document. The method for displaying the image includes: the mobile terminal is powered on; and the first storage module is read from the mobile terminal. The coordinate data and the resource file of the mobile terminal are stored in the second storage module of the mobile terminal; the initial surface is displayed; the rotation angle of the mobile terminal is detected; and the current display is determined according to the rotation angle. An initial screen; if the initial display of the current display is to be refreshed, an interface change event is generated; and the interface change event is received, and the corresponding coordinate data and the resource document are read from the second storage module, and the first storage is performed according to the resource file. The module reads the corresponding display surface, generates a refresh command, and sends the refresh command and the corresponding coordinate data and the display surface to the display module; and the display and the coordinate data and display face 201019215. Modes Referring to Figure 1, there is shown a block diagram of a mobile terminal 10 in accordance with an embodiment of the present invention. The mobile terminal 10 is used to display the kneading surface, and the displayed kneading surface can be rotated correspondingly according to the rotation of the action terminal 10 for the user to watch, but regardless of the rotation angle of the mobile terminal 10, it has only the horizontal display and the vertical direction. Two display states are displayed. In the present embodiment, the mobile terminal 10 includes a mobile phone, a digital personal assistant, and the like. In this embodiment, the mobile terminal includes a first storage module 100, a user interface task module 120, a detection module 130, a second storage module 140, and a display module 150. The first storage module 100 is configured to store the display surface and the plurality of coordinate data and the resource document in the plural display state of the mobile terminal 10, and the resource documents include the document name and the storage path of the display surface in the corresponding display state. The first storage module 100 can store data for a long time without power. In this embodiment, the first storage module 100 includes a flash memory. In this embodiment, the display states include a horizontal display state and a vertical display state, and the coordinate data and the resource document include a coordinate data and a resource document of the horizontal display state and the vertical display state, and the display surfaces include the mobile terminal. 10 display of different working states, such as standby state, call state, phone book browsing state, and the like. In the present embodiment, the default display mode when the mobile terminal 10 is powered on is the portrait display state. The display module 150 is used to display the top surface, and includes a display driver 1500, a display 1510, and a display buffer 1520. The display 1510 is for displaying a picture. Display driver 1500 is used to drive display 1510. The display buffer 1520 is used to temporarily store the coordinate data and the display face corresponding to the face currently displayed on the display 1510. 9 201019215 The detection module 130 is configured to detect the rotation angle of the mobile terminal 10. Under normal circumstances, the user uses the mobile terminal 10 vertically, but the user may rotate the mobile terminal 10 due to some needs, and the detection module 130 detects the rotation angle of the mobile terminal 10 to make the action when rotating to a certain angle. The display screen of the terminal 10 is also rotated correspondingly for the convenience of the user. In this embodiment, the detection module 130 is a 3-dimensional acceleration sensor, such as the ADXL330 chip of Analog Devices, Inc., USA. The User Interface Task 120 is used for the interface processing, including the data reading module 1200, the screen refresh determining module 1210, and the screen refreshing module 1220. The data reading module 1200 is configured to read the coordinate data and the resource text of the mobile terminal 1 from the first storage module 1 when the mobile terminal 1 is powered on, and store the data in the second storage module. 14〇. The first storage module 140 is configured to store the coordinate data and the resource text of the data reading module 12 行动 the mobile terminal 10. The second storage module is 料^ = in the case where the line 1G is powered on. In the present embodiment, the second health-care mobile terminal 1G includes all of the branches of the tree including the horizontal display; the resource culture, and all the branches of the other tree include the vertical display; the resource and the resource document. , 不 也 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 And sending an interface change event to the screen refresh module 1220. In the present embodiment, the interface change event includes the rotation angle of the mobile terminal 10. In the present embodiment, the face refresh determination module 1210 is limited to 45 degrees. • It is determined whether the face currently displayed by the display module 150 needs to be refreshed. For example, if the mobile terminal 10 is initially placed upright, if the rotation angle is greater than 0 degrees and less than or equal to 45 degrees or greater than or equal to 315 degrees and less than or equal to 360 degrees, the face refresh determination module 1210 determines that the current display is not required to be refreshed. If the rotation angle is greater than 45 degrees and less than or equal to 135 degrees, the face refresh determination module 1210 determines that the currently displayed face is not refreshed, and the refreshed face is rotated 90 degrees; if the rotation angle is greater than 135 The degree is less than or equal to 225 degrees, and the face refresh determination module 1210 determines that the currently displayed picture needs to be refreshed, and the refreshed picture is rotated 180 degrees; if the rotation angle is greater than 225 degrees and less than or equal to 315 degrees, the screen refresh judgment The module 1210 determines that the currently displayed screen needs to be refreshed, and the refreshed picture is rotated 270 degrees. In other embodiments of the present invention, other angles may be set according to actual needs, for example, only when rotated to 90, 180, or 270 degrees. The face refreshing module 1220 is configured to receive the interface change event, read the corresponding coordinate data and the resource document from the second storage module 140, read the corresponding display image according to the resource file, generate a refresh command, and send the The refresh command and the read corresponding coordinate data and the display face are displayed to the display module 150, so that the display module 150 displays the face corresponding to the coordinate data and the display face. The surface refresh module 1220 is further configured to set a state variable according to the rotation angle of the mobile terminal 10 included in the interface change event, and read the corresponding coordinate data and the resource document from the second storage module 140 according to the state variable. In the embodiment 11 201019215, the refresh command includes the state variable, which represents the rotation state of the action terminal 10. Still taking the above example as an example, if the mobile terminal 10 starts to stand upright, 'if the rotation angle is greater than 0 degrees and less than or equal to 45 degrees or greater than or equal to 315 degrees and less than or equal to 360 degrees, the state variable is 〇; 1〇 The rotation angle is greater than 45 degrees and less than or equal to 135 degrees. The kneading refresh module 1220 sets the state variable to 1, representing the kneading surface after the refreshing kneading surface is 90 degrees; if the rotation angle is greater than 135 degrees and less than or equal to 225 degrees The picture refresh module 1220 sets the state variable to 2' to represent the refreshed picture as the face of the rotation; if the rotation angle is greater than 225 degrees and less than or equal to 315 degrees, the face refresh module 1220 sets the state variable to 3, The face after the refresh is the face of the rotation of 27 degrees, wherein the face of 0 degrees and 180 degrees is the picture of the vertical display, and the picture of 9 degrees and 270 degrees is the face of the horizontal display. The display driver 15 00 is also used to refresh the command, and remap the coordinates of the currently displayed face according to the state variable, and temporarily store it according to the display buffer 1520. After that, the money data and the display screen of the group 122 are formed to form a new screen and sent to the display mo for display. In the present embodiment, if the mobile terminal 10 is placed upright, the π is set, and the display currently displayed by the display 1510 is 24GD2G. If the state variable is changed from Q to i, the display driver will display the current display. The coordinates of the face (0,32〇) are remapped to (〇,〇), and the coordinates (〇,〇) are remapped to coordinates (object,; if the state variable changes from 〇 to 2, the display drive II 15GG will be displayed now) The coordinates of the face (24G, 32〇) are remapped to (〇, 〇), the money (ο'ο) is remapped to coordinates (24G, 32〇); if the state variable is changed from 0 to 3, the display driver 15〇〇 The 201019215 coordinates (240,0) of the currently displayed picture are remapped to coordinates (0,0), and the coordinates (0,0) are remapped to coordinates (〇,240). ' Figure 2 shows an embodiment of the present invention. The mobile terminal 10 displays a method of the screen, which can cause the display surface of the mobile terminal 10 to rotate correspondingly with the rotation of the mobile terminal 10 for the user to view. First, in step S200, the mobile terminal 10 is powered on. In step S202, the data is displayed. The reading module 1200 reads the action end from the first storage module 100 of the mobile terminal 10 10 of the plurality of coordinate data and resource files are stored in the second storage module 140 of the mobile terminal 10. In step S204, the display module 150 displays the initial facet. In step S206, the mobile terminal 10 is rotated, and the detection mode is detected. The group 130 detects the rotation angle of the mobile terminal 10. In step S208, the refresh determination module 1210 determines whether the initial display of the current display needs to be refreshed according to the rotation angle. If the initial display of the current display is not required to be refreshed, the process returns to the step. S204, the display module 150 continues to display the current initial face. If the initial facet of the current display needs to be refreshed, the screen brushing new determination module 1210 generates and sends an interface change event to the face refresh of the mobile terminal 10 in step S210. The module 1220. In this embodiment, the interface change event includes the rotation angle of the mobile terminal 10. In step S212, the face refresh module 1220 receives the interface change event, and reads the corresponding coordinate data from the second storage module 140. And the resource document, reading the corresponding display surface from the first storage module 100 according to the resource document, generating a refresh command, and transmitting the refresh command and the read Corresponding coordinate data and display face to display module 150. In this embodiment, in step S212 13 201019215, the screen refresh module 1220 also sets a state variable according to the interface change event, and stores from the second according to the state variable. The module 14 reads the corresponding coordinate data and the resource file, and stores the corresponding coordinate resource and display screen to the display buffer i520 of the display module 150, and sends the refresh command to the display driver 1500 of the display module 150. In an embodiment, the state variable represents the rotational state of the mobile terminal 10 and the refresh command includes a state variable. In step S214, the mode module 150 displays the face corresponding to the coordinate data and the display screen. In this embodiment, the display driver 15 remapping the coordinates of the currently displayed face according to the state © variable, and according to the coordinate data and the display image sent by the face refresh module 122 暂 temporarily stored in the display buffer 1520, A new screen is formed and sent to the display 151〇7 of the display module 15 such that the mobile terminal completes the automatic rotation of the screen. The mobile terminal 10 and the method for displaying the same according to the present invention can display the corresponding coordinate data and display surface when the terminal 10 rotates by setting the display surface of the second and vertical display states and the coordinate data and the resource slot. I boot: the corresponding rotation 'for user convenience. In addition, the mobile terminal 10 first storage/by the first storage touches the remaining materials and (4) the text broadcast to the modulo::T140, so that when the mobile terminal 10 rotates, the second storage should be recorded and the resources are broadcasted, and The coffee bar can save the storage module (10) to call the corresponding display screen. The processing speed is faster than the user's view. The speed of the screen display when the mobile terminal 10 rotates does not affect the above-mentioned invention. Covering - μ '..., 爰 提出 提出 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 以上 2010 2010 It is within the scope of the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a mobile terminal according to an embodiment of the present invention. 2 is a flow chart showing a facet according to an embodiment of the present invention. [Main component symbol description] Mobile terminal 10 First storage module 100 User interface task module 120 Data reading module 1200 Kneading refresh determination module 1210 Kneading refresh module 1220 Detection module 130 Second storage module 140 Display Module 150 Display Driver 1500 Display 1510 Display Cache 1520 15