201022884 —------9684twf.doc/n 六、發明說明: 【發明所屬之技術領域】 本發明是有關於〜種電腦,且特別是有關於一種可攜 式電腦。 【先前技術】201022884 —------9684twf.doc/n VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a computer, and more particularly to a portable computer. [Prior Art]
❹ ^ 一般而言’可攜式電腦在未被使用時會進入休眠狀 態’以節省電源的消耗。在此以折疊式的筆記型電腦為例, 其具有上、下兩機體’並且上、下機體之間是適於相互開 啟及相互蓋合的。因此’便可利用將上、下機體之間的蓋 合動作來決定可攜式電腦是否進入休眠狀態。 /專統上上、下機體之間的角度是靠感測器與永久磁鐵 的搭配而達成。感測器與永久磁鐵分別配置於筆記型電腦 的上下機體’當將上機體蓋上而使上下機體之間的夹角小 於-臨界角時’感測H便會感制磁場強度而驅動筆記型 電腦進入休眠狀態。 然而,在製造筆記型電腦時,即使是元件供應商所提 供的同一批感測器或永久磁鐵之間也會存有相當的變異 量,因此每-台筆記型制在組裝完錢的休目^度也會 有-定的偏差量。當此偏差量大至需要進行調校或更 件時’就必須將筆記型電腦整機拆卸。此舉造成生產線 品質管控的_度增加’組裝過程中的調校流程複雜 化’並且造成組裝人員的諸。再者’每—位使 於 筆記型電腦的使用習慣不盡相同’因此筆記型電二 休眠角度無法符合每-位使用者的需要’這也會影響使二 201022884 „oc/n 者對此筆記型電腦的接受程度。 【發明内容】 本發明提供一種可攜式電腦,其具有設定介面及角度 感應模組。 本發明提出一種可攜式電腦,包括一第一機體、一第 二機體、一設定介面以及一角度感應模組。可攜式電腦可 執行一特定功能。第二機體樞接於第一機體的—側。設定 參 介面用以提供使用者設定—臨界值。角度感應模組電性耦 接於没定介面,且角度感應模組用以感測第一機體與第二 機體的一夾角。當角度感應模組偵測到的夹角小於臨界值 時,角度感應模組產生一事件以執行特定功能。 於本發明之一實施例中,可攜式電腦包含作業系統, 作業系統供執行上述特定功能,當角度感應模組偵測到的 夹角小於臨界值時,角度感應模組產生一事件,作業系統 執行特定功能。 ’、’、 • 基於上述,由於本發明之可攜式電腦具有設定介面及 角度感應模組,因此使用者可設定其所需要機體之間夹角 的臨界值。當機體之間的夾角小於臨界值時,角度感應模 組便會產生一事件以執行一特定功能。 為讓本發明之上述特徵和優點能更明顯易懂,下文特 舉實施例,並配合所附圖式作詳細說明如下。 【實施方式】 圖1是本發明一實施例之可攜式電腦的示意圖。圖2 疋圖1之可攜式電腦的系統方塊圖。請同時參考圖1及圖 y684twf.doc/n 201022884❹ ^ Generally speaking, the portable computer goes into a sleep state when it is not in use to save power consumption. In this case, a folding notebook computer is exemplified, which has upper and lower bodies' and the upper and lower bodies are adapted to be opened and closed to each other. Therefore, it is possible to determine whether the portable computer is in a sleep state by using a cover operation between the upper and lower bodies. / The angle between the upper and lower body is achieved by the combination of the sensor and the permanent magnet. The sensor and the permanent magnet are respectively disposed on the upper and lower body of the notebook computer. When the upper body is covered and the angle between the upper and lower bodies is less than the -critical angle, the sense H senses the magnetic field strength and drives the notebook. The computer goes to sleep. However, when manufacturing a notebook computer, even if there is a considerable amount of variation between the same sensor or permanent magnet provided by the component supplier, each of the notebook models is assembled with money. ^ degrees will also have a certain amount of deviation. When the amount of deviation is large enough to require adjustment or more, the notebook must be removed. This has resulted in an increase in the quality control of the production line, which complicates the adjustment process during the assembly process and causes assembly personnel. In addition, 'every bit makes the notebook computer use habits differently' so the notebook type sleep angle cannot meet the needs of each user'. This will also affect the two 201022884 „oc/n The invention provides a portable computer with a setting interface and an angle sensing module. The invention provides a portable computer, comprising a first body, a second body, and a The interface and the angle sensing module are arranged. The portable computer can perform a specific function. The second body is pivotally connected to the side of the first body. The setting interface is used to provide a user setting - a threshold value. The angle sensing module is configured to sense an angle between the first body and the second body. When the angle detected by the angle sensing module is less than a critical value, the angle sensing module generates a The event is to perform a specific function. In one embodiment of the present invention, the portable computer includes an operating system for performing the above specific functions, and the clip detected by the angle sensing module When the angle is less than the threshold, the angle sensing module generates an event, and the operating system performs a specific function. ', ', • Based on the above, since the portable computer of the present invention has a setting interface and an angle sensing module, the user can set The critical value of the angle between the bodies is required. When the angle between the bodies is less than the critical value, the angle sensing module generates an event to perform a specific function. To make the above features and advantages of the present invention more obvious BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a portable computer according to an embodiment of the present invention. FIG. 2 is a portable computer of FIG. System block diagram. Please also refer to Figure 1 and Figure y684twf.doc/n 201022884
2,本實施例的可攜式電腦1〇〇包括一第一機體11〇、一第 二機體120、一作業系統13〇、一角度感應模組14〇以及一 設定介面15〇。第二機體12〇樞接於第一機體11〇的一側, 以使第二機體120相對於第一機體u〇轉動。作業系統13〇 供可攜式電腦100執行一特定功能。設定介面15〇用以提 供使用者設定一臨界值。角度感應模組14〇電性耦接於設 定介面150,用以感測第一機體n〇與第二機體12〇的一 夾角0。當角度感應模組14〇感測到此夾角0小於臨界值 時此角度感應模組14〇產生一事件(£vent),作業系統 130即執行此特定功能。 ,、 在^發明實施例之可攜式電腦100中,使用者可依據 使用習慣而在設定介面14〇中設定兩機體11g、12()的爽角 61 ^臨界值’當炎肖Θ小於此臨界值時,肢感應模組140 能藉此產生-事件而作㈣統執行—特定功能。因此,本 發明之可攜式電腦100在使用上具有較高的自主性 度。 圖3是圖1之可攜式電腦的局部剖面圖 '請同時參考 圖1及圖3,在本實施例中,可攜式電腦1〇〇例如為筆纪 型電腦,而第一機體110與第二機體是筆纪型電 腦的系統主機與螢幕。第—機體1H)具有-_ 112,而 Π!2?框接於此轉轴112 ’以使第二機體120相對 於笫一機體110旋轉。 再者,角度感應模組140包括—可變電阻142、一 磁鐵I44以及一磁感測H M6。可變電阻⑷電性連接於 5 201022884,84twfdoc/n 電磁鐵144與設定介面150之間。電磁鐵144配置於第一 機體110,而磁感測器146例如是霍爾感測器(Hallsens〇r) 則配置於第二機體120。 在此,本發明並未限定電磁鐵144與磁感測器146配 置於第一機體110與第二機體120之位置,設計者可依據 可攜式電腦100的内部空間而予以改變。在本實施例中, 電磁鐵144配置於第一機體11〇且鄰近於轉軸112。磁感 • 測器M6則配置在第二機體120且鄰近於轉轴112,以使 可攜式電腦100的兩機體11〇、120闔上時’磁感測器146 與電磁鐵144位於彼此相對的位置。 —在本實施例中,設定介面15〇為機械式控制的旋紐, 其經由可變電阻I42而電性連接至電磁鐵⑷。此舉讓使 用者能藉由此旋鈕控制可變電阻142以調整通過可變電阻 142的電流。進而調整電磁鐵144的磁力強度以設定兩 機體之炎角0的臨界值。其中當使用者藉由旋紐而增 磁鐵144的磁力強度時,即代表夾角θ的臨界值增加。據 此’使用者使用旋紐可以調整臨界值的大小。因此, 二機,120相對於第一機體11〇旋轉,且其間的夹角:小 於此臨界值時’感測H㈣會感測到電磁鐵⑷的磁力強 度,此角度感應且M〇便會產生一事件例如是一反 息,以呼叫作業系統執行特定功能。 在此說明作業系統的工作模式s〇、待機模式(卿咖 toRAM) S1以及休眠模式(suspendt〇disk) S2。在工作模 式S0中’所有裝置皆被開啟,各裝置處於正常工作。在待機 201022884 ^ …jn9684twf.d〇c/n 模式si下,可攜式電腦100將作業系統13〇及應用程式(未 2不)的操作狀態儲存至記憶體(树示),且記憶體仍繼續 :電。在休眠模式S2下,可攜式電腦1〇〇將作業系統⑽及 應用程式的操作狀態儲存至非揮發性記憶體例如是硬碟(未繪 不)〇 9 者所實關巾,#機_夾肖0小於使用 ^ =咖界值時,作㈣統⑽接受肢感應模組14〇 事件的呼叫而執行特定功能。在此,作業系統130 仃的特定功能例如是使可攜式電腦1〇〇進入待機 」或休眠模< S2 ’藉以在不使用可攜式電腦1〇〇時 亦可此特定功能的範圍’此特定功能 1 的其他功能,例如藉由兩機體 宾疮々a日1不同的夹角0而觸發不同使用環境下的螢幕 冗又’或7C作為魏域魏的進階 疋本發明另一實施例的系統方塊圖。請參考圖4, 在本實施例的可攜式電腦1GGa中,設定介面15Ga例如是 包含於作«統m中的—電源管理程式。當可攜式電腦 l〇〇a處於作業系統請之工作模式%時,者可執行 (execute)此鶴相財轉由設定介面咖設定或更改臨 界值。 201022884 -------9684twf.doc/n 舉例來說,使用者可點選此程式之設定介面丨50a中所列 選項如「設定」,並在進入此程式之設定介面15〇a後’點選 如「设疋角度」一欄’此時使用者得以經由此程式設定臨界值。 接者’此程式接收上述之臨界值並登錄(L〇g)至作聿系統13〇 之登錄檔(Registry)中。在此,此程式可為作業系統13〇之常駐 程式(Runtimeprogram) ’於使用者完成臨界值設定後,此程式 可縮小至系統臣圖示(Tray icon)中。 〇 當第二機體12〇與第一機體11〇的夾角0小於臨界值 時’則角度感應模組140產生一事件以呼叫作業系統13〇執行 特定功能。此特定功能可為使可攜式電腦100a進入待機模式 S1、休眠模式S2或是執行可攜式電腦的其他功能,這些模式 已於上述實施例中說明,在此便不再贅述。 綜上所述,本發明之可攜式電腦藉由設定介面及角 度感應模組而可調整二機體之間夾角的臨界值。因此於製 〇 以可攜式電腦時能藉此調整每一台可攜是電腦的兩機體之 間夾角的差異量,使可攜式電腦於出廠時的品質具有一致 性。另外,使用者更可依不同的使用習慣與使用環境而對 可攜式電腦的兩機體設定不同的夾角及其欲觸發的功能。 口此本發明之可攜式電腦在製造上較為方便,並且在使 用上能讓使用者具有更高的自主性。 雖然本發明已以實施例揭露如上,然其並非用以限定 本^明,任何所屬技術領域中具有通常知識者,在不脫離 本發明之精神和範圍内,當可作些許之更動與潤飾,故本 8 y684twf.doc/n 201022884 發明之保護範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 圖1是本發明一實施例之可攜式電腦的示意圖。 圖2是圖1之可攜式電腦的系統方塊圖。 圖3是圖1之可攜式電腦的局部剖面圖。 圖4是本發明另一實施例的系統方塊圖。 【主要元件符號說明】 100、100a :可攜式電腦 110 :第一機體 112 :轉轴 120 :第二機體 130 :作業系統 140 :角度感應模組 142 :可變電阻 144 :電磁鐵 146 :磁感測器 150、150a :設定介面 Θ :夹角2. The portable computer 1 of the present embodiment includes a first body 11A, a second body 120, an operating system 13A, an angle sensing module 14A, and a setting interface 15A. The second body 12 is pivotally connected to one side of the first body 11〇 to rotate the second body 120 relative to the first body u〇. The operating system 13 is for the portable computer 100 to perform a specific function. The setting interface 15 is used to provide a threshold for the user to set. The angle sensing module 14 is electrically coupled to the setting interface 150 for sensing an angle 0 between the first body n〇 and the second body 12〇. When the angle sensing module 14 〇 senses that the angle 0 is less than the threshold value, the angle sensing module 14 generates an event, and the operating system 130 performs the specific function. In the portable computer 100 of the embodiment of the invention, the user can set the refreshing angle of the two bodies 11g, 12() 61 ^ threshold value in the setting interface 14 依据 according to the usage habits. At the critical value, the limb sensing module 140 can thereby perform a (four) system-specific function. Therefore, the portable computer 100 of the present invention has a high degree of autonomy in use. 3 is a partial cross-sectional view of the portable computer of FIG. 1 . Please refer to FIG. 1 and FIG. 3 simultaneously. In this embodiment, the portable computer 1 is, for example, a pen-type computer, and the first body 110 is The second body is the system host and screen of the pen-type computer. The first body 1H) has -_112, and the Π!2? is coupled to the rotating shaft 112' to rotate the second body 120 relative to the first body 110. Furthermore, the angle sensing module 140 includes a variable resistor 142, a magnet I44, and a magnetic sensing H M6. The variable resistor (4) is electrically connected between 5 201022884, the 84twfdoc/n electromagnet 144 and the setting interface 150. The electromagnet 144 is disposed on the first body 110, and the magnetic sensor 146 is disposed in the second body 120, for example, as a Hall sensor. Here, the present invention does not limit the position of the electromagnet 144 and the magnetic sensor 146 to the first body 110 and the second body 120, and the designer can change according to the internal space of the portable computer 100. In this embodiment, the electromagnet 144 is disposed on the first body 11 邻近 and adjacent to the rotating shaft 112. The magnetic sensor Detector M6 is disposed on the second body 120 and adjacent to the rotating shaft 112, so that the magnetic sensors 146 and the electromagnet 144 are located opposite each other when the two bodies 11 〇, 120 可 of the portable computer 100 are mounted. s position. - In the present embodiment, the setting interface 15 is a mechanically controlled knob that is electrically connected to the electromagnet (4) via a variable resistor I42. This allows the user to control the variable resistor 142 by this knob to adjust the current through the variable resistor 142. Further, the magnetic strength of the electromagnet 144 is adjusted to set a critical value of the inflammatory angle 0 of the two bodies. When the user increases the magnetic strength of the magnet 144 by the knob, the critical value representing the angle θ increases. According to this, the user can adjust the threshold value by using the knob. Therefore, the two machines 120 are rotated relative to the first body 11 and the angle between them is less than the critical value. 'Sense H (four) senses the magnetic strength of the electromagnet (4), and the angle is induced and M〇 is generated. An event, for example, is a response to the call to the operating system to perform a particular function. Here, the operating mode s〇 of the operating system, the standby mode (clear to RAM) S1, and the sleep mode (suspendt〇disk) S2 are described. In the operating mode S0, all devices are turned on and the devices are in normal operation. In standby 201022884 ^ ... jn9684twf.d〇c/n mode si, the portable computer 100 stores the operating state of the operating system 13 and the application (not 2) to the memory (tree), and the memory remains Continue: electricity. In the sleep mode S2, the portable computer 1 stores the operating state of the operating system (10) and the application to a non-volatile memory such as a hard disk (not drawn) 〇9, which is a closed towel, #机_ When the clip 0 is smaller than the use of the ^ = coffee limit value, the (4) system (10) receives the call of the limb sensing module 14 〇 event to perform a specific function. Here, the specific function of the operating system 130 is, for example, to enable the portable computer to enter the standby mode or the sleep mode < S2 'to be used in the range of the specific function when the portable computer is not used. Other functions of this particular function 1, for example, triggering the screen redundancy in different usage environments by using the different angles of the two bodies of the binoculars, 1 or 7C as an advanced stage of Wei Weiwei, another implementation of the present invention. A system block diagram of an example. Referring to FIG. 4, in the portable computer 1GGa of the present embodiment, the setting interface 15Ga is, for example, a power management program included in the system. When the portable computer l〇〇a is in the operating mode % of the operating system, the executable can be set to set or change the critical value by setting the interface. 201022884 -------9684twf.doc/n For example, the user can click the option listed in the setting interface of the program, such as "Settings", and enter the setting interface of the program 15〇a. 'Click the "Setting angle" column to allow the user to set the threshold via this program. The program 'receives the above threshold value and logs in (L〇g) to the registry of the operating system 13〇. Here, the program can be reduced to the Tray icon after the user completes the threshold setting for the operating system 13's resident program (Runtimeprogram). 〇 When the angle 0 between the second body 12〇 and the first body 11〇 is less than the critical value, the angle sensing module 140 generates an event to call the operating system 13 to perform a specific function. This specific function may be used to enable the portable computer 100a to enter the standby mode S1, the sleep mode S2, or perform other functions of the portable computer. These modes have been described in the above embodiments, and will not be described herein. In summary, the portable computer of the present invention can adjust the critical value of the angle between the two bodies by setting the interface and the angle sensing module. Therefore, when the portable computer is used, the difference between the angles of the two bodies that can be carried by the computer can be adjusted, so that the quality of the portable computer at the factory is consistent. In addition, the user can set different angles and functions to be triggered on the two bodies of the portable computer according to different usage habits and usage environments. The portable computer of the present invention is more convenient to manufacture and can be used by the user to have higher autonomy. Although the present invention has been disclosed in the above embodiments, it is not intended to limit the scope of the invention, and it is possible to make some modifications and refinements without departing from the spirit and scope of the invention. Therefore, the scope of protection of this invention shall be subject to the definition of the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a portable computer according to an embodiment of the present invention. 2 is a system block diagram of the portable computer of FIG. 1. 3 is a partial cross-sectional view of the portable computer of FIG. 1. 4 is a block diagram of a system in accordance with another embodiment of the present invention. [Main component symbol description] 100, 100a: Portable computer 110: First body 112: Rotary shaft 120: Second body 130: Operating system 140: Angle sensing module 142: Variable resistance 144: Electromagnet 146: Magnetic Sensor 150, 150a: setting interface Θ : angle