TW201118536A - An electronic device having an automatic cover-lifting function - Google Patents

An electronic device having an automatic cover-lifting function Download PDF

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Publication number
TW201118536A
TW201118536A TW98140241A TW98140241A TW201118536A TW 201118536 A TW201118536 A TW 201118536A TW 98140241 A TW98140241 A TW 98140241A TW 98140241 A TW98140241 A TW 98140241A TW 201118536 A TW201118536 A TW 201118536A
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Taiwan
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microcontroller
electronic device
inductive
control signal
open position
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TW98140241A
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Chinese (zh)
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Chen-Tung Ho
Sheng-Jui Wu
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Inventec Corp
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Priority to TW98140241A priority Critical patent/TW201118536A/en
Publication of TW201118536A publication Critical patent/TW201118536A/en

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Abstract

An electronic device having an automatic cover-lifting function includes a first body, a second body, a sensing driving module, an activating element and a locking element. The first body has a micro control electrically connecting to the sensing driving module and the locking element. The second body is pivoted on the first body and connected with the activating eiement. The micro controller activates the activating element to make the second body rotate to a open position in response to a control signal sent from the sensing driving module.

Description

201118536 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種電子裝置,且特別是有關於一種具有感應 式掀盘功能的電子裝置。 【先前技術】 一般習知的筆記型電腦構造為具有一機體及一樞接於機體的 螢幕,且螢幕能相對於此機體做向下翻轉而收合平躺於此機體, 或螢幕相對機體向上翻轉而立於機體上。 一般筆記型電腦所使用的鎖扣裝置為位於螢幕上的一_^勾和 位於機體的一·扣槽,筆記型電腦在收合狀態時是將卡勾扣合在 卡扣槽内,且此卡勾需要使用者自行開啟。另外,此種筆記型電 腦在使用時需要使用者自行將平躺在機體上的螢幕向上扳動翻 轉,因此造成筆記型電腦在使用上不夠便利。 再者’筆記型電腦在資訊安全的管理上…般是使用密碼的 方式來為個人資概鎖碼賴,但是此種錢密碼的方式很容易 被有心人士所破解,進而造成難以預料的損失。 根據上述_,習知技術提出—種掀蓋式電子裝置,此掀蓋 式電子裝置包括-機體…螢幕及—開合限位機構,且機體與榮 幕相樞接。其巾,開合聽機構包括設置在螢幕的—柱件以及設 置在機體的-干涉倾—_件。_此開合限位裝置能令榮幕 相對於機_轉而自動展使用狀態。但是,此—掀蓋式電子 農置並未對個人資料的保密上多加倾,反而讓有心、人士可更方 201118536 • 便的竊取_裝置内部的機密資料。 因此’另有一習知技術提出一種筆記型電腦的電子式安全開 财式。此方式係為使时操作—個位於機體—側的按鍵盤处 輸入且錄㈣,再將此登錄密碼與記憶元件内對應的登錄密石馬做 比對。接著傳遞控制訊號至鎖扣健來解除鎖扣褒置,並傳送— 開機訊號給一控制元件使電腦開機。 、 然而’上_筆麵電腦之電子式安全_方式卻無法令筆 •記型電腦的螢幕自動掀開,因此使用者於解鎖動作完成後,賴 再自灯掀起躲至開啟位置’方可清楚峨相絲,造成在使 用上不夠人性化的問題。 【發明内容】 蓉於以上關題,本發明在於提供__種具有感應式掀蓋功能 的電子裝置,藉以解決習用技術之筆記型電腦資料安全的保密性 不佳,以及筆記型電腦的螢幕無法自動掀起,因而造成使用上不 鲁夠人性化等問題。 本發明提出一種具有感應式掀蓋功能的電子裝置,其包括有 一第一本體、一第二本體、一感應驅動模組、一致動元件及一鎖 扣組件。其中,第一本體内部電性設置有一微控制器,第二本體 係與第一本體相樞接,且第二本體相對於第一本體於一閉合位置 及一開啟位置之間柩轉。感應驅動模組電性連接於微控制器,且 感應驅動模組具有至少一個感應區,當感應區被觸發時,感應驅 動才吴組傳遞一控制訊號至微控制器。致動元件連接於第二本體, 201118536 用以驅動第二本體相對第一本體枢轉至開啟位置。鎖扣組件電性 連接於微控制器,用於令第二本體保持於閉合位置,且微控制哭 根據感應驅動模組所發出的控制訊號以致動鎖扣組件,令第二本 體藉由致動元件的驅動而樞轉至開啟位置。 在本發明之一實施例中,上述的感應式掀蓋功能的電子裝 置,其中更包括有一電源供應元件,係分別電性連接微控制器及 感應驅動模組。 在本發明之一實施例中,上述的感應驅動模組可為一電容式 觸控板或是一電阻式觸控板。 在本發明之一實施例+,上述的感應驅動模組係可為一紅外 線感應器或是一雷射感應器。 在本發明之一實施例t,上述的致動元件可為至少一步進馬 達,係電性連接於微控制器,且步進馬達係連接於第二本體,微 控制器根據控制訊號以致動步進馬達,令步進馬達驅動第二本體 樞轉至開啟位置。 在本發明之一實施例中,上述致動元件可為至少一扭力彈 簧,係連接於第一本體及第二本體,用以驅動二本體樞轉至開啟 位置。 在本發明之一實施例_,上述具有感應式掀蓋功能的電子裝 置可包括-語音接收元件,係電性連接於微控,語音接收元 件用以接收-語音訊號並傳遞至微控彻,以令微㈣驗動鎖 扣組件。 201118536 在本發明之一實施例中,上述具有感應式掀蓋功能的電子裝 置,其中微控制器係先接收控制訊號,再接收語音訊號,微控制 器根據控制訊號及語音訊號以致動鎖扣組件。 在本發明之一實施例中,上述具有感應式掀蓋功能的電子裝 置其中微控制益係先接收語音訊號,再接收控制訊號,微控制 器根據語音訊號及控制訊號以致動鎖扣板件。 在本發明之一實施例中,上述的鎖扣組件可包括有一電磁閥 開關、一卡鉤及一扣孔,電磁閥開關係電性連接於微控制器,卡 勾位於第二本體並與電磁閥開關相連接’扣孔位於第一本體並用 以與卡勾相扣合,微控制器根據控制訊號以致動電磁閥開關,令 電磁閥開關帶動卡勾而脫離扣孔。 本發明所揭露之具有感應式掀蓋功能的電子裝置,係利用感 應驅動做以输方式輸人密碼,__扣組件_扣狀態, 並在解除鎖扣㈣後_連接於第二本體的_元件驅動第二本 體相對第-本體娜至開啟位置。本發縣通膽碼認證後方可 解鎖並且自_啟電腦上蓋^ ^有感應式掀蓋魏的電子裝置 係能同時兼具筆記型電腦資料安錄密及筆記㈣腦上蓋自動掀 起之功能。 —以上關於本發明内容之說明及以下之實施方式之說明係用以 示範與解釋本發明之精神與,下文特舉較佳的實施例,並且 配合所付賦,提供本發明之補_請範圍更進—步之解釋。 【實施方式】 201118536 根據本發明所揭露之具有感應式掀蓋功能的電子裝置,包括 但不侷限於筆記型魏、平板電腦、超便攜電腦⑼如m〇b.le Pe_al _puter , UMPC)、個人數位助理(pe_ai Assistant,PDA)等掀蓋式電腦裝置,但並不以此為限。於以下本 發明的詳細說明中,將以筆記型電腦做為本發明之最佳實施例。 然而所附圖式僅提供參考與說明用,並非用以限制本發明。 .第1圖及第2圖所示為本發明第一實施例之具有感應式掀蓋 力月b的電子裝置之立體示意圖。本發明第一實施例之電子裝置1 有第本體1〇、一第二本體2〇、一感應驅動模組3〇〇、一 鎖扣組件1GG及-步進 2GG。本發明所述之第-本體1〇為筆 記型電腦的主機’其内部電性設置有—微控制器働及電路總成 (圖中未示)’藉以正常的執行電子裝置丨之預設功能。本發明所述 之第二本體2〇係為筆記型電腦的電腦螢幕,係樞接於第一本體1〇 上表面的側邊上,其樞接手段為樞孔與樞軸的配合(圖中未示), 以達到第二本體2〇可相對於第—本體1G樞轉之目的,因此第二 本體20相對於第一本體1〇於一閉合位置及一開啟位置之間柩轉。 鎖扣組件100包括一卡勾11〇、一滑槽14〇、一電磁閥開關12〇 和扣孔130。其中,卡勾110、滑槽140與電磁閥開關120設置 於第本體10 ’而扣孔13〇設置於第二本體2〇。電磁閥開關12〇 與微控制器400紐相接’且卡勾11()與電磁_關12Q相連接。 請繼續參閱第1圖及第2圖,感應驅動模組3〇〇係設置於第 一本體10的殼體外部,且感應驅動模組3〇〇係與微控制器4〇〇電 201118536 . 性連接。在本發明之第一實施例中,感應驅動模組300可為一電 容式觸控板、一電阻式觸控板、但並不以此為限,且感應驅動模 组300預設有複數個感應區34〇。值得注意的是,本實施例之感應 驅動模組300具有3個感應區34〇,然熟悉此項技術者,亦可將感 應驅動模組300劃分為單一個或是多個感應區34〇,以簡化或是複 雜化輸入密碼。依照所需要的安全層級來劃分感應區的數量,故 並不以本實施例所揭露之感應區數量為限。 • 電源供應元件(effective controller)420電性設置於第一本體 内部’在本實施财係為一電源管理晶片。此電源供應元件. 係電性連接於微控制器4〇〇和感應驅動模組3〇〇。電源供應元件 42〇之功能在於當具有感應式掀蓋功能的電子裝置丨處於低電源 待機狀核顧狀S時時,提供電源給為微控制器和感應驅 動模組300。 步進馬達200設置於第一本體1〇的樞軸内部,係做為致動元 _中用且此步進馬達2〇〇與微控制器4〇〇電性連接。步進馬達 20(M系連接於該第二本體2〇,並且步進馬達雇藉▲微控制器働 而概動’令帛二本體2G闕合位置及開触置之間轉。 3A圖及第3B圖所示分別為本發明第-實顯之具有感應 气掀蓋功月匕的電子裝置在收合狀態時鎖扣組件鎖丄和鎖扣組件解 鎖之局部剖面圖。當電子裝置1處於低電源待機狀態,且第二本 於閉D位置(即第二本體蓋合於第_本體上)時電源控制元件 420仍持續提供電源給微控制器400和感應驅動模組300。當使用 201118536 者在操作此感應驅動模組300時,係觸碰感應驅動模也獅上面 的多個感應區340。此時,感顧受到觸碰而傳送至少一個觸 發控制訊號至微控制器,且微控制器彻會依據其内建的每一 塊感應區340的觸碰次數和觸碰順序與使用者的觸碰每一塊感應 區340的觸碰次數和觸碰順序相比對。當使用者輸入之觸碰次數 和觸碰順序與微控制器働内建觸碰次數和觸碰順序比對正確 時,微控制器即致動電子裝置i的電源供應器(圖中未示),並 令此電子裝置i開機。且電源供應器係供電給電磁閥開關12〇和 步進馬達娜此微控制器彻係傳送—開關控制訊號至電磁闕開 關12〇。此電磁閥開關120係帶動卡勾11〇使卡勾ιι〇於滑槽14〇 均動-段距離後,令此切⑽係脫離此扣孔13()。此時微控制 器4〇0係傳4 4達控制訊號至步進馬達.此馬達控制訊號致 使此步進馬達触猶。步進馬達係帶動第二本體Μ, 使第一本體20相對於第一本體樞轉一角度到達開啟位置。而且, 當使用者輸入的觸發控制訊號與微控制器4〇〇内建的觸發控制訊 號比對不補時,此微控繼係不傳送_㈣訊號至電磁 間開關120 ’且亦不傳送馬達控制訊號至步進馬達2〇〇。在本實施 例其匕實施方式中,微控彻彻並不致動電子裝置丨的電源供 應器(圖+未示)且電子裝置!亦不關。電磁綱關12()和步進馬 達00係由電源供應元件(effective c〇n^〇uer)42〇供給電源。 第4圖所示為本發明第二實施例之具有感應式掀蓋功能的電 子裝置之立體示意圖。在本發_第二實施射除了包括上述第 201118536 . —貫施例的電子裝置1外,更包括有-語音接收元件320。其中, 語音接收元件320係電性連接於微控制器4〇〇,並由電源供應元件 420供應電源。當使用者在操作語音接收元件32〇或觸碰感應驅動 模組300時,此語音接收元件32〇或觸碰感應驅動模組3〇〇係傳 送一語音訊號或一觸發控制訊號至微控制器4〇〇。微控制器4〇〇 依據其内建的語音訊號或觸發控制訊號與語音接收元件32〇或觸 碰感應驅動模組300所傳送的語音訊號或觸發控制訊號相比對。 • 當使用者輸入的語音訊號或觸發控制訊號與微控制器400内建的 5吾音訊號或觸發控制訊號相符合時,微控制器4〇〇即致動電子裝 置1的電源供應器(圖中未示),並令電子裝置i執行開機動作。且 電源供應器係供電給電磁閥開關12〇和步進馬達2〇〇。此微控制器 400係傳送一開關控制訊號至電磁閥開關120。此電磁閥開關120 係帶動卡勾110使卡勾11〇於滑槽14〇上滑動一段距離後,令此 卡勾100係脫離此扣孔13〇。此時,微控制器4〇〇係傳送一馬達控 鲁制訊號至步進馬達2〇〇,此馬達控制訊號致使此步進馬達2〇〇開始 運作。步進馬達200係帶動第二本體20,使第二本體2〇 “對於第 本體樞轉一角度到達開啟位置。當使用者輸入的語音訊號或觸 發控制訊號與微控制器4〇〇内建的語音訊號或觸發控制訊號比對 不相符時,此微控制器400係不傳送開關控制訊號至電磁閥開關 120 ’且亦不傳送馬達控制訊號至步進馬達200。在本實施例其它 實施方式中,微控制器400並不致動電子裝置1的電源供應器(圖 中未不)且電子裝置1亦不開機。電磁閥開關120和步進馬達2〇〇 11 201118536 係由電源供應元件(effective contr〇ller)420供給電源。 在本發明之第二實施例中,係將控制器4〇〇設定為必須先接 收觸碰感應驅動模組300的觸發控制訊號,再接收語音接收元件 320的語音訊號方可解鎖的作動順序。詳細來說,微控制器 係根據觸碰感應驅動模組300的觸發控制訊號及語音接收元件 320的語音訊號來致動鎖扣組件1〇〇。並且微控制器4〇〇係傳送一 馬達控制訊號使步進馬達2〇〇開始運作。步進馬達2〇〇係帶動第 一本體20’使第二本體20相對於第一本體樞轉一角度到達開啟位 置。 或者疋’將微控制器400設定為必須先接收語音接收元件 的"。s訊號,再接收觸碰感應驅動模組3〇〇的觸發控制訊號方可 f鎖的作動順序。詳細來說,微控繼4⑻係根據觸碰感應驅動 模組300的控制訊號及語音接收元件32〇的語音訊號來致動鎖扣 ”且件100。微控制器400係、傳送一馬達控制訊號使步進馬達細 開始運作。步進馬達2〇〇係帶動第二本體2〇,使第二本體2〇相對 於第一本體樞轉一角度到達開啟位置。 第5圖所不為本發明第三實施例之具有感應式掀蓋功能的電 子裝置在展開使用狀態敝體示意圖。在本實施射,電子裝置! 動元件可為-扭力彈簧21〇。此扭力彈菁训設置於極轴内 部’連接第一主體10與第二主體20。並且於鎖扣組件 100在未鎖 才。狀I時扭力彈簧21〇常態給予第二主體一扭力令第二本體 樞轉至開啟位置。當使用者輸入的語音訊號或觸發控制訊號與微 12 201118536 控制裔400内建的語音訊號或觸發控制訊號相符合時,微控制器 400係開啟此具有感應式掀蓋功能的電子裝置1並傳送一開關控 制訊號至電磁閥開關12〇。此電磁閥開關12〇係帶動卡勾11〇使卡 勾110於滑槽140上滑動一段距離後’令此卡勾100係脫離此扣 孔130。當卡勾卿脫離扣孔13〇後,第二本體即不受外力的限定 而可自由的自閉合位置脫離,而此時扭力彈簧21〇即給予扭力至 第二本體20,以帶動第二本體2〇相對於第一本體樞轉一角度到達 ® 開啟位置。另外,本發明第一實施例之致動元件亦可由步進馬達 200替換成扭力彈簧21〇。 本發明所揭露之具有感應式掀蓋功能的電子裝置,係利用感 應驅動模組以觸控方式輸入密碼。此密碼經過微控制器認證通過 後係解除鎖扣組件之鎖扣,並傳送一馬達控制訊號至步進馬達係 以驅動第二本體相對第一本體樞轉至開啟位置。本發明於通過密 碼認證後係能解鎖並經由步進馬達自動開啟電腦上蓋。此具有感 鲁應式掀蓋功能的電子裝置係能同時兼具筆記型電腦資料安全保密 及華§己型電腦上蓋自動掀起之功能。 雖然本發明之實施例揭露如上所述,然其並非用以限定本發 明,任何熟習此技藝者,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,因此本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】 第1圖所示為本發明第一實施例之具有感應式掀蓋功能的電 13 201118536 子裝置在使周狀態之立體示意圖。 第2圖所示為本發明第一實施例之具有感應式掀蓋功能 子裝置在收合狀態之立體示意圖。 第3A圖所示為本發明第一實施例之具有感應式掀蓋功能的 電子裝置在收合狀態時鎖扣組件鎖上之局部剖面圖。 第3B断示為本發明第一實施例之具有感應式掀蓋 功能的 電子裝置在鎖扣組件解鎖之局部剖面圖。 第4 ®所TF為本發_二實施例之具有感應式掀蓋功能的電 子裝置在使用狀態之立體示意圖。 第5圖所不為本發明第三實施例之具有感應式掀蓋功能的電 子裝置在使用狀態之立體示意圖。 【主要元件符號說明】 1 ··電子裝置 10 : 第一本體 20 : 第二本體 100 :鎖扣組件 110 :卡勾 120 :電磁閥開關 130 :扣孔 140 :滑槽 200 :步進馬達 210 :扭力彈簧 201118536 300 :感應驅動模組 320 :語音接收元件 340 :感應區 400 :微控制器 420 :電源供應元件201118536 VI. Description of the Invention: [Technical Field] The present invention relates to an electronic device, and more particularly to an electronic device having an inductive pan function. [Prior Art] A conventional notebook computer is configured to have a body and a screen pivoted to the body, and the screen can be flipped down relative to the body to be folded flat on the body, or the screen is upwardly opposed to the body. Flip and stand on the body. The locking device used in the general notebook computer is a _^ hook on the screen and a deduction slot on the body. When the notebook is in the folded state, the hook is fastened in the buckle slot, and this The hook needs to be opened by the user. In addition, such a notebook computer requires the user to flip the screen lying on the body upwards, which makes the notebook computer inconvenient to use. Furthermore, the notebook computer is used in the management of information security. It is a method of using a password to lock the individual account. However, the method of such a password is easily cracked by a person with a heart, and thus causes unpredictable losses. According to the above, a conventional clamshell electronic device is provided by the prior art. The clamshell electronic device includes a body, a screen, and an opening and closing mechanism, and the body is pivotally connected to the glory. The towel, the opening and closing mechanism includes a column member disposed on the screen and an interference penetrating member disposed on the body. _ This opening and closing limit device can make the honor screen automatically use the state relative to the machine. However, this---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- Therefore, another conventional technique proposes an electronic safe-opening type of a notebook computer. In this way, the time-operation is performed by pressing the keyboard on the side of the body and recording (4), and then the login password is compared with the corresponding login stone in the memory component. Then pass the control signal to the lock button to release the lock device and transmit - the power-on signal to a control component to turn the computer on. However, the 'electronic security _ method of the upper _ pen-face computer can't make the screen of the pen-type computer automatically open, so after the user completes the unlocking action, he can hide from the light to the open position. The 峨 phase silk, causing the problem of not being humanized in use. SUMMARY OF THE INVENTION In the above, the present invention provides an electronic device having an inductive clamshell function, thereby solving the problem of poor security of the security of the notebook computer data of the conventional technology, and the screen of the notebook computer cannot be provided. It is automatically picked up, which causes problems such as unsatisfactory use of humanity. The invention provides an electronic device having an inductive flip function, comprising a first body, a second body, an inductive driving module, an actuating element and a latching assembly. The first body is electrically disposed with a microcontroller, the second body is pivotally connected to the first body, and the second body is twisted relative to the first body between a closed position and an open position. The inductive driving module is electrically connected to the microcontroller, and the inductive driving module has at least one sensing area. When the sensing area is triggered, the inductive driving group transmits a control signal to the microcontroller. The actuating element is coupled to the second body, and the 201118536 is configured to drive the second body to pivot relative to the first body to the open position. The latching component is electrically connected to the microcontroller for holding the second body in the closed position, and the micro-controlling is based on the control signal sent by the inductive driving module to actuate the latching component, so that the second body is actuated The component is driven to pivot to the open position. In an embodiment of the present invention, the inductive flip-top function electronic device further includes a power supply component electrically connected to the microcontroller and the inductive drive module. In an embodiment of the invention, the inductive driving module can be a capacitive touch panel or a resistive touch panel. In an embodiment of the present invention, the inductive driving module can be an infrared sensor or a laser sensor. In an embodiment t of the present invention, the actuating component may be at least one stepping motor electrically connected to the microcontroller, and the stepping motor is connected to the second body, and the microcontroller controls the signal according to the control step. The motor is advanced to cause the stepper motor to drive the second body to pivot to the open position. In an embodiment of the invention, the actuating element may be at least one torsion spring coupled to the first body and the second body for driving the two bodies to pivot to the open position. In an embodiment of the present invention, the electronic device having the inductive flip function may include a voice receiving component electrically connected to the micro control, and the voice receiving component is configured to receive the voice signal and transmit the signal to the micro control. In order to make the micro (four) check the lock assembly. In an embodiment of the present invention, the electronic device having the inductive flip function, wherein the microcontroller receives the control signal and then receives the voice signal, and the microcontroller activates the lock component according to the control signal and the voice signal. . In an embodiment of the invention, the electronic device having the inductive flip function has a function of receiving a voice signal and receiving a control signal, and the micro controller activates the lock plate according to the voice signal and the control signal. In an embodiment of the present invention, the lock assembly may include a solenoid valve switch, a hook and a buckle hole, and the electromagnetic valve is electrically connected to the microcontroller, and the hook is located on the second body and is electromagnetic The valve switch is connected to the first body and is for engaging with the hook. The microcontroller activates the solenoid valve switch according to the control signal, so that the solenoid valve switch drives the hook to separate from the buckle hole. The electronic device with the inductive flip function disclosed in the present invention uses the induction drive to input the password by the input mode, the __ buckle component _ buckle state, and after the lock (4) is released, the _ is connected to the second body _ The component drives the second body relative to the first body to the open position. This county can only be unlocked and can be unlocked from the computer. ^The electronic device with inductive cover Wei can also have the functions of notebook computer data and notes (4). The description of the present invention and the following description of the embodiments of the present invention are intended to exemplify and explain the spirit of the present invention. More advanced - step interpretation. [Embodiment] 201118536 An electronic device with an inductive flip function according to the present invention includes, but is not limited to, a notebook type, a tablet computer, an ultra-portable computer (9) such as m〇b.le Pe_al _puter, UMPC), and an individual. A cover computer device such as a pe_ai Assistant (PDA), but not limited to this. In the following detailed description of the invention, a notebook computer will be considered as a preferred embodiment of the invention. The drawings are to be considered as illustrative and not restrictive. Fig. 1 and Fig. 2 are perspective views showing an electronic device having an inductive type of capping force b according to the first embodiment of the present invention. The electronic device 1 of the first embodiment of the present invention has a first body 1 , a second body 2 , an inductive driving module 3 , a latching component 1GG and a step 2GG. The first body of the present invention is a host computer of a notebook computer, which is internally provided with a micro-controller and a circuit assembly (not shown) to enable a preset function of a normal execution electronic device. . The second body 2 of the present invention is a computer screen of a notebook computer, which is pivotally connected to a side of the upper surface of the first body 1 , and the pivoting means is a cooperation of the pivot hole and the pivot (in the figure) Not shown), to achieve the purpose of pivoting the second body 2 relative to the first body 1G, so that the second body 20 is twisted relative to the first body 1 between a closed position and an open position. The latch assembly 100 includes a hook 11 〇, a chute 14 〇, a solenoid valve switch 12 〇, and a buttonhole 130. The hook 110, the chute 140 and the solenoid valve switch 120 are disposed on the first body 10 ′ and the button hole 13 〇 is disposed on the second body 2 〇. The solenoid valve switch 12A is connected to the microcontroller 400 New' and the hook 11 () is connected to the electromagnetic_off 12Q. Please refer to FIG. 1 and FIG. 2 , the inductive driving module 3 is disposed outside the casing of the first body 10 , and the inductive driving module 3 is connected to the microcontroller 4 201118536 . connection. In the first embodiment of the present invention, the inductive driving module 300 can be a capacitive touch panel and a resistive touch panel, but not limited thereto, and the inductive driving module 300 is pre-configured with a plurality of The sensing area is 34〇. It should be noted that the inductive driving module 300 of the embodiment has three sensing areas 34〇. However, those skilled in the art can also divide the inductive driving module 300 into a single one or multiple sensing areas 34〇. To simplify or complicate the input of passwords. The number of sensing regions is divided according to the required security level, so it is not limited to the number of sensing regions disclosed in this embodiment. • The effective controller 420 is electrically disposed inside the first body. In this embodiment, the system is a power management chip. The power supply component is electrically connected to the microcontroller 4〇〇 and the inductive driving module 3〇〇. The function of the power supply component 42 is to provide power to the microcontroller and the inductive drive module 300 when the electronic device having the inductive flip function is in the low power standby mode. The stepping motor 200 is disposed inside the pivot of the first body 1 , and is used as an actuating element _ and the stepping motor 2 〇〇 is electrically connected to the microcontroller 4 . The stepping motor 20 (the M system is connected to the second body 2〇, and the stepping motor employs the ▲microcontroller 概 to move the ' 帛 帛 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 FIG. 3B is a partial cross-sectional view showing the unlocking of the lock assembly lock and the lock assembly of the electronic device having the induction gas capping function in the first state of the present invention. The power supply control component 420 continues to provide power to the microcontroller 400 and the inductive drive module 300 when the second power supply is in the standby state and the second is in the closed D position (ie, the second body is attached to the first body). When using the 201118536 When the inductive driving module 300 is operated, the sensing area is touched by a plurality of sensing areas 340 on the lion. At this time, the touch is transmitted to transmit at least one trigger control signal to the microcontroller, and the micro control is performed. The device will compare the number of touches and the touch sequence of each touch sensing area 340 according to the number of touches and the touch sequence of each built-in sensing area 340. When the user inputs the touch Touch times and touch sequence and microcontroller built-in touch When the number of times and the touch sequence are correct, the microcontroller activates the power supply of the electronic device i (not shown) and activates the electronic device i. The power supply supplies power to the solenoid valve switch 12〇. And the stepping motor, the microcontroller transmits the switch-control signal to the electromagnetic switch 12〇. The solenoid valve switch 120 drives the hook 11〇 to make the hook ιι 〇 滑 滑 〇 〇 〇 〇 〇 〇 So that the cut (10) is released from the buckle hole 13 (). At this time, the microcontroller 4 〇 0 transmits the control signal to the stepping motor. The motor control signal causes the stepping motor to touch the stepping motor. The second body 带 is driven to pivot the first body 20 relative to the first body to an open position. Moreover, when the trigger control signal input by the user is compared with the built-in trigger control signal of the microcontroller 4 In the case of the stop timing, the micro-control relay does not transmit the _(four) signal to the electromagnetic switch 120' and does not transmit the motor control signal to the stepping motor 2〇〇. In the embodiment of the embodiment, the micro-control is not performed. Power supply of the electronic device (Figure + not shown) and electricity The device does not turn off. The electromagnetic profile 12 () and the stepping motor 00 are supplied with power from a power supply element 42. Figure 4 shows a second embodiment of the present invention. A perspective view of an electronic device having an inductive flip function. In addition to the electronic device 1 including the above-mentioned embodiment, the second embodiment includes a voice receiving component 320. The voice receiving component The 320 series is electrically connected to the microcontroller 4, and is supplied with power by the power supply component 420. When the user operates the voice receiving component 32 or touches the inductive driving module 300, the voice receiving component 32 is touched or touched. The touch sensing module 3 transmits a voice signal or a trigger control signal to the microcontroller 4 . The microcontroller 4 相比 is compared with the voice signal or the trigger control signal transmitted by the voice receiving component 32 〇 or the touch sensing driver module 300 according to the built-in voice signal or the trigger control signal. • When the voice signal or the trigger control signal input by the user matches the 5 voice signal or the trigger control signal built in the microcontroller 400, the microcontroller 4 activates the power supply of the electronic device 1 (Fig. Not shown in the figure), and the electronic device i performs a power-on action. And the power supply is supplied to the solenoid valve switch 12A and the stepping motor 2'. The microcontroller 400 transmits a switch control signal to the solenoid valve switch 120. The solenoid valve switch 120 drives the hook 110 to slide the hook 11 on the chute 14 一段 to make the hook 100 detach from the buckle hole 13 〇. At this time, the microcontroller 4 transmits a motor control signal to the stepping motor 2, and the motor control signal causes the stepping motor 2 to start operating. The stepping motor 200 drives the second body 20 to cause the second body 2 to "pivot at an angle to the first body to reach the open position. When the user inputs a voice signal or triggers the control signal and the built-in microcontroller 4" When the voice signal or the trigger control signal does not match, the microcontroller 400 does not transmit the switch control signal to the solenoid valve switch 120' and does not transmit the motor control signal to the stepper motor 200. In other embodiments of this embodiment The microcontroller 400 does not actuate the power supply of the electronic device 1 (not shown) and the electronic device 1 does not turn on. The solenoid valve switch 120 and the stepping motor 2〇〇11 201118536 are powered by components (effective contr In the second embodiment of the present invention, the controller 4 is configured to receive the trigger control signal of the touch sensing driving module 300 before receiving the voice signal of the voice receiving component 320. The activation sequence can be unlocked. In detail, the microcontroller activates the lock according to the trigger control signal of the touch sensing driving module 300 and the voice signal of the voice receiving component 320. The component 1〇〇 and the microcontroller 4 transmits a motor control signal to cause the stepping motor 2 to start operating. The stepping motor 2 drives the first body 20' to make the second body 20 relative to the first The body pivots to an open position at an angle. Or 疋 'Set the microcontroller 400 to receive the ".s signal of the voice receiving component first, and then receive the trigger control signal of the touch sensitive driving module 3〇〇 The order of actuation of the lock. In detail, the micro-control 4 (8) activates the latch according to the control signal of the touch-sensing driving module 300 and the voice signal of the voice receiving component 32 。. The microcontroller 400 is coupled to transmit a motor control signal to cause the stepper motor to begin operation. The stepping motor 2 drives the second body 2〇 to pivot the second body 2〇 relative to the first body to an open position. Fig. 5 is a schematic view showing the body of the electronic device having the inductive flip function in the unfolded state of use according to the third embodiment of the present invention. In this implementation, the electronic device! The moving element can be a torsion spring 21 〇. The torsion is disposed in the inner portion of the pole shaft to connect the first body 10 and the second body 20. And the lock assembly 100 is unlocked. In the first state, the torsion spring 21 给予 normally gives the second body a torsion to pivot the second body to the open position. When the voice signal or the trigger control signal input by the user matches the voice signal or the trigger control signal built in the control system 400, the microcontroller 400 turns on the electronic device 1 with the inductive cover function and transmits A switch control signal to the solenoid valve switch 12A. The solenoid valve switch 12 is configured to drive the hook 11 to slide the hook 110 over the sliding slot 140 to cause the hook 100 to be disengaged from the buckle hole 130. After the hook is released from the buckle hole 13〇, the second body is freely detached from the closed position without being restricted by the external force, and at this time, the torsion spring 21〇 gives the torque to the second body 20 to drive the second body. 2〇 pivots at an angle relative to the first body to the ® open position. Further, the actuating member of the first embodiment of the present invention may be replaced with a stepping motor 200 instead of a torsion spring 21A. The electronic device with the inductive flip function disclosed in the present invention uses the inductive driving module to input a password in a touch manner. After the password is authenticated by the microcontroller, the latch of the latch assembly is released and a motor control signal is transmitted to the stepper motor to drive the second body to pivot relative to the first body to the open position. The invention can be unlocked after password authentication and automatically open the computer cover via a stepping motor. The electronic device with the function of the Luke-style lid can simultaneously have the functions of securing the confidentiality of the notebook computer and automatically lifting the cover of the computer. Although the embodiments of the present invention are disclosed above, it is not intended to limit the present invention, and those skilled in the art can make some modifications and retouchings without departing from the spirit and scope of the present invention. The scope of protection is subject to the definition of the scope of the patent application attached. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing the state of the electric power of the 2011 13536 sub-device having the inductive clamshell function according to the first embodiment of the present invention. Fig. 2 is a perspective view showing the state in which the inductive flip-top function device of the first embodiment of the present invention is in a folded state. Fig. 3A is a partial cross-sectional view showing the lock assembly of the electronic device having the inductive flip function in the folded state according to the first embodiment of the present invention. 3B is a partial cross-sectional view showing the unlocking of the lock assembly of the electronic device having the inductive flip function according to the first embodiment of the present invention. The fourth embodiment TF is a perspective view of the electronic device having the inductive flip function of the present invention in the second embodiment. Fig. 5 is a perspective view showing the electronic device having the inductive flip function in the state of use according to the third embodiment of the present invention. [Main component symbol description] 1 ··Electronic device 10: First body 20: Second body 100: Locking component 110: Hook 120: Solenoid valve switch 130: Buttonhole 140: Chute 200: Stepping motor 210: Torsion spring 201118536 300 : Inductive drive module 320 : voice receiving component 340 : sensing zone 400 : microcontroller 420 : power supply component

Claims (1)

201118536 七、申請專利範圍: 1.一種具有感應式掀蓋功能的電子裝置,包括: 一第一本體,其内部電性設置有一微控制器; -第二本體,係樞接於該第_本體,且第二本體相對於第一 本體於一閉合位置及一開啟位置之間樞轉; -感應驅動模組,魏性連接於該微控㈣,職應驅動模 組具有至少-感應區’當該感應區被觸發,該感應驅動模組傳遞 一控制訊號至該微控制器; 〃-致動元件,係連接於該第二本體,該致航件用以驅動該 第二本體相對該第一本體樞轉至該開啟位置;以及 一鎖扣組件,用於令該第二本體保持於該閉合位置,該鎖扣 組件係電性連接於該微控舰’且該微控㈣根據該控制訊號以 致動該鎖扣組件,令該第二本體藉由該致動元件的驅動而極轉至 該開啟位置。 .如明求項1所述之具有感應式掀蓋功能的電子裝置,其中更包括 有一電源供應元件,係分別電性連接該微控制器及該感應驅動 模組。 3. 如请求項1所述之具有感應式掀蓋功能的電子裝置,其中該感應 驅動模組係為一電容式觸控板或是一電阻式觸控板。 4. 如請求項1所述之具有感應式掀蓋功能的電子裝置,其中該感應 驅動模組係為一紅外線感應器或是一雷射感應器。 5. 如請求項1所述之具有感應式掀蓋功能的電子裝置,其中該致動 16 201118536 疋件係為至少一步進馬達’係電性連接於該微控制器,且該步 進馬達係連接於該第二本體,該微控制器根據該控制訊號以致 動該步進馬達’令該第二本體樞轉至該開啟位置。 6. 如凊求項1所述之具有感應式掀蓋功能的電子裝置,其中該致動 疋件為至少一扭力彈簧,係連接於該第一本體及該第二本體用 以驅動該第二本體枢轉至該開啟位置。 7. 如請求項1所述之具有感應式掀蓋功能的電子裝置,其中更包括 一語音接收元件,係電性連接於該微控制器,該語音接收元件 用以接收一語音訊號並傳遞至該微控制器,以令該微控制器致 動該鎖扣組件。 8. 如請求項7所述之具有感應式掀蓋功能的電子裝置,其中該微控 制器係先接收該控制訊號,再接收該語音訊號,該微控制器根 據該控制訊號及該語音訊號以致動該鎖扣組件。 9. 如請求項7所述之具有感應式掀蓋功能的電子裝置,其中該微控 制器係先接收該語音訊號,再接收該控制訊號,該微控制器根 據該語音訊號及該控制訊號以致動該鎖扣組件。 10. 如請求項1所述之具有感應式掀蓋功能的電子裝置,其中該鎖 扣組件包括有一電磁閥開關---^鉤及一扣孔,該電磁閥開關 係電性連接於該微控制器,該卡勾位於該第二本體並與該電磁 閥開關相連接,該扣孔位於該第一本體並用以與該卡勾相扣 合,該微控制器根據該控制訊號以致動該電磁閥開關,令該電 磁閥開關帶動該卡勾而脫離該扣孔。 17201118536 VII. Patent application scope: 1. An electronic device with an inductive flip function, comprising: a first body electrically disposed internally with a microcontroller; - a second body pivotally connected to the first body And the second body pivots relative to the first body between a closed position and an open position; the induction drive module is connected to the micro control (4), and the service drive module has at least a sensing area The sensing area is triggered, the inductive driving module transmits a control signal to the microcontroller; the 〃-actuating element is connected to the second body, and the voyage is used to drive the second body relative to the first The body pivots to the open position; and a latch assembly for holding the second body in the closed position, the latch assembly is electrically connected to the micro-control ship' and the micro-control (4) is based on the control signal The latch assembly is actuated to cause the second body to be rotated to the open position by the actuation of the actuating member. An electronic device having an inductive flip function according to claim 1, further comprising a power supply component electrically connected to the microcontroller and the inductive drive module. 3. The electronic device having the inductive flip function as claimed in claim 1, wherein the inductive driving module is a capacitive touch panel or a resistive touch panel. 4. The electronic device having the inductive flip function described in claim 1, wherein the inductive driving module is an infrared sensor or a laser sensor. 5. The electronic device having the inductive flip function according to claim 1, wherein the actuating 16 201118536 element is at least one stepping motor is electrically connected to the microcontroller, and the stepping motor is Connected to the second body, the microcontroller activates the stepping motor to pivot the second body to the open position according to the control signal. 6. The electronic device of claim 1, wherein the actuating element is at least one torsion spring coupled to the first body and the second body for driving the second The body pivots to the open position. 7. The electronic device with the inductive flip function described in claim 1, further comprising a voice receiving component electrically connected to the microcontroller, the voice receiving component for receiving a voice signal and transmitting to The microcontroller is configured to cause the microcontroller to actuate the latch assembly. 8. The electronic device of claim 7, wherein the microcontroller receives the control signal and receives the voice signal, the microcontroller according to the control signal and the voice signal. Move the lock assembly. 9. The electronic device of claim 7, wherein the microcontroller first receives the voice signal and then receives the control signal, and the microcontroller is based on the voice signal and the control signal. Move the lock assembly. 10. The electronic device with the inductive flip function of claim 1, wherein the latch assembly comprises a solenoid valve switch----hook and a buttonhole, the solenoid valve is electrically connected to the micro-switch. a controller, the hook is located on the second body and connected to the electromagnetic valve switch, the buckle hole is located in the first body and is configured to be engaged with the hook, and the microcontroller activates the electromagnetic according to the control signal The valve switch causes the solenoid valve switch to drive the hook out of the buckle hole. 17
TW98140241A 2009-11-25 2009-11-25 An electronic device having an automatic cover-lifting function TW201118536A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI493322B (en) * 2013-03-11 2015-07-21 Acer Inc Detachable keyboard cover, tablet computer, and operating and control method for tablet computer
TWI583291B (en) * 2014-07-04 2017-05-11 緯創資通股份有限公司 An electronic device with a touch screen
TWI800980B (en) * 2021-11-12 2023-05-01 宏碁股份有限公司 Electronic device

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI493322B (en) * 2013-03-11 2015-07-21 Acer Inc Detachable keyboard cover, tablet computer, and operating and control method for tablet computer
TWI583291B (en) * 2014-07-04 2017-05-11 緯創資通股份有限公司 An electronic device with a touch screen
TWI800980B (en) * 2021-11-12 2023-05-01 宏碁股份有限公司 Electronic device

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