•M314822 捌、新型說明 λ 【新型所屬之技術領域】 / 本創作制於-觀㈣置,尤其 於筆記型電腦之小型照明裝置。 、種可权置 【先前技術】 電子產品已為普遍之用品。電 能,通常設計有操作按鍵。當在 達成其功 晚外出使用時,便益法分 ί不足㈣所’或是夜 用上的不便。 因而造成使 電子產品以筆記型電腦為例,先前 電腦上加裝小型照明裝W的古T另社掌 顳^ ^ 式,以解決光線不足的問 4然而,先則技術之小型照明裝置存在著許多問題。 梦署t:來說:<先前技術之小型照明裝置,有的係將照明 二於電彳自上’其照明裝置無法隱藏或僅可部份隱藏 於電腦忒體中,因此影響電腦的整體外觀。 另外先鈿技術中亦有可隱藏於電腦中之小型照明裝 置使用時,小型照明裝置的結構開啟與控制發光體 的發冗係為兩個獨立的動作,使用者需分別操作,因而造 成使用上的不便。 因此’有必要提供一種小型照明裝置,以改善先前技 術所存在的問題。 【新型内容】 5 M314822 本創作之目的係在提供一種可設置於筆記型電腦之小 ,型照明裝置。 • 本創作之另一目的係在提供一種具有小型照明裝置之 ★ 筆記型電腦。 本創作之小型照明裝置係可設置於筆記型電腦,筆記 型電腦包括容置槽。小型照明裝置包括主體與發光體。其 中,主體可容置於容置槽,發光體係容置於主體内。主體 具有關閉狀態與開啟狀態,於關閉狀態時,主體完全容置 •於容置槽内,於開啟狀態時,主體之至少一部份位於容置 槽外。於關閉狀態時,發光體不發亮,於開啟狀態時,發 光體呈電流導通狀態而發亮。 為達成上述之另一目的,本創作之筆記型電腦包括容 置槽與小型照明裝置。小型照明裝置可設置於容置槽。小 型照明裝置包括主體與發光體。其中,主體可容置於容置 槽,發光體係容置於主體内。主體具有關閉狀態與開啟狀 態,於關閉狀態時,主體完全容置於容置槽内,於開啟狀 • 態時,主體之至少一部份位於容置槽外。於關閉狀態時, 發光體不發亮,於開啟狀態時,發光體呈電流導通狀態而 發亮。 〜 本創作之小型照明裝置可供照亮如鍵盤等裝置,用以 辅助使用者操作筆記型電腦等電子裝置。由於本創作構造 新穎,能提供產業上利用,且確有增進功效,故依法申請 新型專利。 【實施方式】 6 M314822 為能讓^ 較佳1體參貝審查委員能更瞭解本劊作之技術内容,特舉 〃 耳施例說明如下。 慑炸圖。1考圖1係本創作小型照明装置之第一實施例之 90。筆記型創作之小型照明裝置1係可設置於筆記型電腦 固部92、第電腦9〇包括容置槽91,容置槽91周圍包括卡 小型昭明梦—導體93 ’以及旋轉轴容置部94。本創作之 容置:容置Γ包括主體2與發光體3〇。其中’主體2可 啟狀態時,㈢91,主體2具有關閉狀態與開啟狀態,於開 包括滑動/體2之至少—部份位於容置槽91外。主體2 性元件6〇 1 ί〇、旋轉結構2〇、第二導體4卜42、第一彈 其中’以及第二彈性元件70。 狀係與卡©f動塊1G包括卡固件η,相件11之位置與形 舉例來說,^92相配合,可使卡固件11卡固於卡固部92。 成使卡固件^Γϊ11可為卡勾。惟如4的是,只要能達 固部92亦;Li卡固部92相互卡合的目的,卡固件11和卡 ^ 4其他可相互卡固之構件。 彈性元可容置於容置槽9卜旋轉結構20包括第- 容置孔24,、#21、旋轉軸22、第一彈性元件抵擂部23、 讲叙祕以及支持部5〇。滑動塊10可連結於旋轉結構20, ^ 1〇可在旋轉結構2〇上滑動。滑動塊10滑動之目的 在=固件U脫離相物之相位置。旋轉軸22可先穿 入谷置孔24中’再將旋轉軸22容置於旋轉轴容置部94,藉 由旋轉軸22可使旋轉結構20部份旋轉至容置槽91外。 7 M314822 第二彈性元件70的兩端分別連接滑動塊10與旋轉結構 ,20,第二彈性元件70用以回復滑動塊10與旋轉結構20之間 .的相對滑動量。 • 發光體30提供照明光源,連結於旋轉結構20之支持部 50。舉例來說,發光體30可為LED燈。 第二導體41、42可為二卡固件,連結於旋轉結構20之 支持部50。二卡固件之間係有一間隙,其間隙小於第一導 體93之寬度。第二導體41、42可經由旋轉結構20的帶動而 籲 旋轉,使得第二導體41、42經旋轉特定角度後接觸到第一 導體93。惟須注意的是,旋轉結構20亦可不包括支持部50, 此時發光體30與第二導體41、42係直接連接於旋轉結構2〇。 第一彈性元件60用以產生使旋轉結構20旋轉所需之彈 力。第一彈性元件60包括二末端61、二環狀端63與一細長 端62。二末端61可容置於第一彈性元件容置部21,環狀端 63可套於旋轉軸22之兩端。第一彈性元件6〇之細長端62與 第一彈性元件抵播部23相互配合,可使細長端62恰可抵擔 • 於第一彈性元件抵擋部23。惟須注意的是,於本實施例中, 第一彈性元件60、第一彈性元件容置部21與第—彈性元件 抵擔部23的結構僅為舉例,只要能使第一彈性元件產生 使旋轉結構20旋轉所需彈力之其他相配合之結構,皆應為 本創作所應包括之範圍。 每一第二導體41、42分別連結電線80。連接第二導體 42之電線80另一端連接電源(圖未示),連接第二導體Μ之 電線80另一端連接發光體30,發光體3〇另連接電線8〇至電 源。因此,當旋轉結構20旋轉一特定角度時,可使第二導 8 M314822 體41、42接觸到第一導體93。此時,電線8〇、第一導體93、 第二導體41、42、發光體30,以及電源之間構成迴路,發 光體30因而呈電流導通狀態而發亮。 惟須注意的是,第二導體41、42不限於兩個,亦可僅 為一個。此外,電線80與第二導體41、42、發光體30連接 方式亦非僅限於上述方式,只要能使電線8〇、第一導體93、 第二導體41、42、發光體3〇,以及電源之間構成迴路,亦 可為其他連接方式。 接著請參考圖2,係本創作小型照明裝置之第一實施例 於關閉狀態之立體透視圖。於關閉狀態時,卡固件11卡固 於卡固部92。小型照明裝置1可完全收藏於筆記型電腦90 之容置槽91中,因此於不使用之收藏狀態時完全不佔空 間,不會影響筆記型電腦9〇之整體外觀。 請參考圖3,係本創作小型照明裝置之第一實施例於關 閉狀悲之剖視圖。因第二彈性元件7〇的彈力帶動滑動塊 10 ’使第二彈性元件70持續提供使滑動塊1〇往下方移動的 力量’可使卡固件11 一直保持在與卡固部92相互卡合之位 置。此時’第一彈性元件60所產生之旋轉方向的彈力因卡 固部92的阻擒,無法使旋轉結構2〇旋轉至容置槽91外,因 此整個小型照明裝置1即可穩定地容置於筆記型電腦90之 容置槽91中。因為第二導體41與第一導體93之間並無接 觸,所以發光體30内並無電流導通,因此發光體30不會發 亮。 請參考圖4係本創作小型照明裝置之第一實施例於開 啟過程之剖視圖。此時,使用者將滑動塊丨〇往上推開(如圖 9 * M314822 4之箭頭所示),使得卡固件u脫離與卡固部%之卡固位 -置。此時,第-彈性元件60所產生之旋轉方向的彈力因無 ..卡固部92的阻擋,第一彈性元件60便可開始釋放其彈力, .帶動旋轉結構2〇旋轉。因為第二導體41與第—導^93之間 並無接觸,所以發光體30内並無電流導通,因此發光體30〇 不會發亮。 請參考圖5係本創作小型照明裝置之第一實施例於開 啟狀態之剖視圖。此時,第一彈性元件6〇所產生之旋轉方 •向的彈力,使旋轉結構20之一部份旋轉至容置槽“外。旋 轉結構20所能旋轉之角度係介於30度至5〇度之^。於旋轉 結構20旋轉至容置槽91外的同時,第二導體41接觸到第一 導體93,使發光體30呈電流導通狀態而發亮。由於第二導 體41接觸到第一導體93後’旋轉結構2〇無法繼續旋轉,因 此,第一導體93除導通作用外,另可限制旋轉結構2〇之旋 轉角度。本創作即可以藉由單一步驟即可同時達成將小型 照明裝置1彈出與發亮的目的。 _ 請參考圖6係本創作小型照明裝置之第二實施例之爆 炸圖。本創作之小型照明裝置100係可設置於筆記型電腦。 小型照明裝置100包括主體2a與發光體130。其中,主體2a 可容置於筆記型電腦99b之容置槽910(如圖15所示),主體 2a具有關閉狀態與開啟狀態,於開啟狀態時,主體2a之至 少一部份位於容置槽910外。主體2a包括基座160、卡固件 170、第二容置部150,以及開關140。 •M314822 基座160包括第一容置部161。於本實施例中,第一容 、置部161呈中空管狀體,第一容置部161内部形成第一容置 .空間163。第一容置部161之内侧包括凸出部162。 ‘ 卡固件170可為彈片,其固定於基座160。卡固件170 包括卡固端171,於本實施例中,卡固端171係利用卡固件 170所折疊而成之V字型結構。 第二容置部150容置於第一容置空間163,第二容置部 150可在第一容置空間163滑動。第二容置部150内部形成第 ® 二容置空間154。第二容置部150包括兩個呈長方形之定位 孔15卜152,定位孔15卜152係與卡固端171相配合,可使 卡固端171卡固於定位孔151或定位孔152。當卡固端171卡 固於定位孔151時,第二容置部150完全收納於第一容置空 間163,當卡固端171卡固於定位孔152時,第二容置部150 向上凸出於第一容置部161之外。第二容置部150形成開口 端155,開口端155之位置係朝向所需照明之方向。 發光體130與開關140容置於第二容置部150内,發光體 • 130之照明方向與開關140之按鈕方向係朝向開口端155。發 光體130提供照明光源,舉例來說,發光體no可為LED燈。 開關140係與發光體130電性連結,開關140係可控制發光體 130之電流導通狀態。當卡固端171卡固於定位孔丨52時,恰 可使第一容置部161之凸出部162抵頂於開關140,使開關 140往其内部按壓。於本實施例中,開關14〇往其内部按壓 的動作可使發光體130呈電流導通狀態而發亮。 接著請參考圖7,係本創作小型照明裝置之第二實施例 於關閉狀態之立體圖。於關閉狀態時,卡固端171卡固於定 11 M314822 位孔151,小型照明裝置100可完全收藏於筆記型電腦中, ^因此於不使用之收藏狀態時完全不佔空間,不會影響筆記 ~ .型電腦之整體外觀。 • 接著請參考圖8,圖8係本創作小型照明裝置之第二實 施例於開啟狀態之立體圖。於開啟狀態時,卡固端171卡固 於定位孔152,第二容置部150向上凸出於第一容置部161 之外,使發光體130露出。同時,當第二容置部150向上伸 出於第一容置部161之外時,第一容置部161之凸出部162 籲 接觸開關140(如圖6所示)並往其内部按壓,使發光體130呈 電流導通狀態而發亮。 請參考圖9係本創作小型照明裝置之第三實施例之爆 炸圖。本創作之小型照明裝置l〇〇a係可設置於筆記型電 腦。小型照明裝置100a包括主體2b與發光體130a。其中, 主體2b可容置於筆記型電腦99c之容置槽910a(如圖16所 示),主體2b具有關閉狀態與開啟狀態,於開啟狀態時,主 體2b之至少一部份位於容置槽910a外。主體2b包括基座 φ 160a、第二容置部150a、開關140a、第三彈性元件190,以 及按鈕180。本實施例與第二實施例不同的是,於第二實施 例中’係直接藉由使用者的力量移動第二容置部至開啟狀 態,而於第三實施例中則利用第三彈性元件190與按鈕18〇 將第二容置部150a彈出至開啟狀態。 基座160a包括第一容置部161a,第一容置部161a包括 凸出部162a,第一容置部161a内部形成第一容置空間 163a。第二容置部150a容置於第一容置空間163a,第二容 置部150a内部形成第二容置空間154a。第二容置部15〇&包 12 M314822 括槽157。開關140a容置於第二容置空間154a,開關140a係 、與發光體130a電性連結,開關140a係可控制發光體13(^之 ’-電流導通狀態。 第三彈性元件190兩端分別連結於基座160a與第二容 置部150a,第三彈性元件19〇用以產生使第二容置部15如向 外側移動所需之力量。按鈕180連結於基座160a,按鈕180 包括卡固端181,卡固端181於槽157内移動,卡固端181位 瞻於槽157内之位置包括第一位置158與第二位置159,當第二 容置部l5〇a於關閉狀態時,卡固端181卡固於第一位置 158 ’ ^弟二容置部bOa於開啟狀態時,卡固端Mi卡固於 第二位置159。 其中,發光體130a係容置於第二容置空間154a。於關 閉狀態時,藉由按壓按鈕180使第二容置部l5〇a與基座16〇a 相對移動後呈開啟狀態時,卡固端181卡固於第二位置 159,凸出部162a接觸開關140a,使得發光體13〇&呈電流導 通狀態而發亮。 •請參考圖10係本創作小型照明裝置之第三實施例於關 閉狀態之立體圖。於關閉狀態時,卡固端181卡固於第一位 置158,小型照明裝置100a可完全收藏於筆記型電腦中,因 此於不使用之收藏狀態時完全不佔空間,不會影響筆記型 電腦之整體外觀。 圖11係本創作小型照明裝置之第三實施例於開啟狀態 之立體圖。經按壓按鈕180後,第三彈性元件19〇釋放其彈 力’因而帶動第二容置部150a至開啟狀態。於開啟狀態時, 卡固端181卡固於第二位置159,第二容置部i5〇a向上凸出 13 M314822 於第一容置部161a之外,使發光體130a露出。同時,當第 -二容置部150a向上伸出於第一容置部161a之外時,第一容 • _ 置部161a之凸出部162a接觸開關140a(如圖9所示)並往其内 • 部按壓,使發光體130a呈電流導通狀態而發亮。 接著請一併參考圖12與圖13,關於本創作小型照明裝 置之第四實施例。圖12係本創作小型照明裝置之第四實施 例於關閉狀態之示意圖,圖13係本創作小型照明裝置之第 四實施例於開啟狀態之示意圖。小型照明裝置200包括主體 • 210、發光體220與開關230。其中,發光體220容置於主體 210内,開關230位於主體210上,開關230凸出於主體210 外。其中,小型照明裝置200之主體210可容置於筆記型電 腦99d之容置槽920(如圖17所示),主體210具有關閉狀態與 開啟狀態,於開啟狀態時,主體210之至少一部份位於容置 槽920外。 如圖12所示,當主體210於關閉狀態時,容置槽未接觸 開關230,因此發光體不發亮。於本實施例中,係藉由使用 φ 者本身的施力,將主體210從關閉狀態旋轉至開啟狀態。如 圖13所示,當主體210於開啟狀態時,開關230之位置恰可 接觸於容置槽920,使得發光體220呈電流導通狀態而發亮。 接著請參考圖14至圖17,係本創作之筆記型電腦99a、 99b、99c、99d之示意圖。其中,小型照明裝置1、1 〇〇、1 〇〇a、 200在筆記型電腦99a、99b、99c、99d的位置不限於如圖14 至圖17所示之筆記型電腦銀幕上方的中央位置,可視實際 需要設計於不同位置。另外,小型照明裝置、100a安裝 於筆記型電腦之方式,舉例來說,可使用卡合方式將小型 M314822 照明裝置100、10〇a卡固於筆記型電腦99b、99e。由於本 作之筆記型電腦99a、99b、99c、99d所容置之小型照明裝 -置1、100、100a、200相同於前述之第—至四實施例因此 • 不再贊述。 综上所陳,本創作無論就目的、手段及功效,在在均 顯示其週異於習知技術之特徵。惟須注意,上述實施例僅 為例示性說明本創作之原理及其功效,而非用於限制本創 鲁作之範圍。任何熟於此項技藝之人士均可在不違背本創作 之技術原理及精神下,對實施例作修改與變化。本創作之 權利保護範圍應如後述之申請專利範圍所述。 【圖式簡單說明】 圖1係本創作小型照明裝置之第一實施例之爆炸圖。 圖2係本創作小型照明裝置之第一實施例於關閉狀態之立 體透視圖。 圖3係本創作小型照明裝置之第一實施例於關閉狀態之剖 春視圖。 圖4係本創作小型照明裝置之第一實施例於開啟過程之剖 視圖。 圖5係本創作小型照明裝置之第一實施例於開啟狀態之剖 視圖。 圖6係本創作小型照明裝置之第二實施例之爆炸圖。 圖7係本創作小型照明裝置之第二實施例於關閉狀態之立 體圖。 15 M314822 •=本創作小型照明裝置之第二實施例於開啟 .型照明裝置之第三實施例之爆炸圖。 =係本創作小型照明裝置之第三實施例於關閉狀態之立 =系本創作小型照明裳置之第三實施例於開啟狀態之立 • =2係本創作小型照明裝置之第四實施例於_狀態之示 思圖。 f 13係本創作小型照明裝置之第四實施例於開啟狀態之示 意圖。 圖14係本創作之筆記型電腦之第一實施例示意圖。 圖15係本創作之筆記型電腦之第二實施例示意圖。 圖16係本創作之筆記型電腦之第三實施例示意圖。 圖17係本創作之筆記型電腦之第四實施例示意圖。 【元件代表符號說明】 小型照明裝置i、1〇〇、1〇〇a、200 主體2、2a、2b、210 滑動塊10 卡固件11 旋轉結構20 第一彈性元件容置部21 旋轉轴22 第一彈性元件抵擋部23 容置孔24 發光體30、13〇、130a、220 第二導體41、42 支持部50 M314822 第一彈性元件60 末端61 細長端62 環狀端63 第二彈性元件70 電線80 容置槽91、910、910a、920• M314822 捌, new description λ [New technical field] / This creation is based on - (4), especially for small-sized lighting devices for notebook computers. , the kind of power can be placed [prior art] Electronic products have become a universal item. Electric energy, usually designed with operating buttons. When you use it to get out of your work late, you can't get enough of it (4) or the inconvenience of night use. Therefore, the electronic product is made into a notebook computer. For example, the old T-small device with a small lighting device was installed on the computer to solve the problem of insufficient light. However, the small lighting device of the prior art exists. many questions. Dream Department t: To say: <Small technology of the prior art, some of the lighting will be used in the lighting device. The lighting device cannot be hidden or can only be partially hidden in the computer body, thus affecting the overall computer. Exterior. In addition, when the small-sized lighting device that can be hidden in the computer is used in the prior art, the structure of the small lighting device is turned on and the hair-emitting body of the control illuminator is two independent actions, and the user needs to operate separately, thereby causing use. Inconvenience. Therefore, it is necessary to provide a small lighting device to improve the problems of the prior art. [New Content] 5 M314822 The purpose of this creation is to provide a small, type of lighting device that can be set up in a notebook computer. • Another purpose of this creation is to provide a notebook computer with a small lighting device. The small lighting device of this creation can be set in a notebook computer, and the notebook computer includes a receiving slot. The small lighting device includes a body and an illuminator. The main body can be accommodated in the accommodating groove, and the illuminating system is accommodated in the main body. The main body has a closed state and an open state. When the main body is closed, the main body is completely accommodated in the receiving slot. When the main body is in the open state, at least a part of the main body is located outside the receiving slot. In the off state, the illuminator does not illuminate, and in the on state, the illuminator is illuminated in a current conducting state. To achieve the above other objectives, the notebook of the present invention includes a storage slot and a small lighting device. The small lighting device can be disposed in the accommodating groove. The small lighting device includes a body and an illuminator. The main body can be accommodated in the accommodating groove, and the illuminating system is accommodated in the main body. The main body has a closed state and an open state. When the main body is closed, the main body is completely accommodated in the accommodating groove. When the open state is present, at least a part of the main body is located outside the accommodating groove. In the off state, the illuminator does not illuminate, and in the on state, the illuminator is in a current conducting state and illuminates. ~ The small lighting device of this creation can be used to illuminate devices such as keyboards to assist users in operating electronic devices such as notebook computers. Because the creation structure is novel, it can provide industrial use, and it has improved efficiency, so it applies for a new type of patent according to law. [Embodiment] 6 M314822 In order to make the better one body ginseng review committee can better understand the technical content of this work, the specific examples are as follows.慑 图 。. 1 Figure 1 is a 90th embodiment of the first embodiment of the compact lighting device. The small-sized lighting device 1 of the notebook type can be disposed on the notebook computer 92, the computer 9 includes a receiving slot 91, and the receiving slot 91 includes a card small dreaming conductor-conductor 93' and a rotating shaft receiving portion 94. . The accommodating of this creation: the housing Γ includes the main body 2 and the illuminator 3 〇. When the main body 2 is in the open state, (c) 91, the main body 2 has a closed state and an open state, and at least a part of the slide/body 2 is located outside the accommodating groove 91. The main body 2 element 6 〇 1 〇 , the rotating structure 2 〇, the second conductor 4 b 42, the first bullet, and the second elastic element 70. The system and the card member 1G include the fastener η, and the position and shape of the phase member 11 cooperate with each other, for example, to secure the fastener 11 to the fastening portion 92. The card firmware ^11 can be a hook. However, as for the purpose of 4, as long as the solid portion 92 can be secured; the Li-clamping portion 92 is engaged with each other, the fastener 11 and the card 4 can be mutually clamped. The elastic element can be accommodated in the accommodating groove 9. The rotating structure 20 includes a first accommodating hole 24, a #21, a rotating shaft 22, a first elastic member abutting portion 23, a narration, and a supporting portion 5A. The sliding block 10 can be coupled to the rotating structure 20, and the sliding member can slide on the rotating structure 2A. The purpose of the sliding block 10 sliding is at the position of the phase where the firmware U is detached from the phase. The rotating shaft 22 can be inserted into the valley hole 24 and the rotating shaft 22 can be accommodated in the rotating shaft receiving portion 94. The rotating shaft 22 can partially rotate the rotating structure 20 to the outside of the receiving groove 91. 7 M314822 Both ends of the second elastic member 70 are respectively connected with the sliding block 10 and the rotating structure 20, and the second elastic member 70 is used for restoring the relative sliding amount between the sliding block 10 and the rotating structure 20. • The illuminator 30 provides an illumination source that is coupled to the support portion 50 of the rotating structure 20. For example, illuminator 30 can be an LED light. The second conductors 41, 42 may be two-card fasteners coupled to the support portion 50 of the rotating structure 20. There is a gap between the two card fasteners, and the gap is smaller than the width of the first conductor 93. The second conductors 41, 42 are rotatable via the rotation of the rotating structure 20 such that the second conductors 41, 42 are contacted to the first conductor 93 after being rotated by a particular angle. It should be noted that the rotating structure 20 may not include the supporting portion 50. At this time, the illuminating body 30 and the second conductors 41 and 42 are directly connected to the rotating structure 2 〇. The first resilient member 60 is used to create the spring force required to rotate the rotating structure 20. The first resilient member 60 includes two ends 61, two annular ends 63 and an elongated end 62. The two ends 61 are accommodated in the first elastic member accommodating portion 21, and the annular end 63 is sleeved on both ends of the rotating shaft 22. The elongated end 62 of the first elastic member 6 is engaged with the first elastic member abutting portion 23 so that the elongated end 62 can be properly received by the first elastic member resisting portion 23. It should be noted that, in this embodiment, the structures of the first elastic member 60, the first elastic member accommodating portion 21 and the first elastic member absorbing portion 23 are merely exemplified, as long as the first elastic member can be made The other matching structures of the required elastic force for rotating the rotating structure 20 should be included in the scope of the creation. Each of the second conductors 41, 42 is connected to the electric wire 80, respectively. The other end of the electric wire 80 connected to the second conductor 42 is connected to a power source (not shown), and the other end of the electric wire 80 connected to the second conductor is connected to the illuminant 30, and the illuminant 3 is connected to the electric wire 8 to the power source. Therefore, when the rotary structure 20 is rotated by a specific angle, the second guide 8 M314822 body 41, 42 can be brought into contact with the first conductor 93. At this time, a loop is formed between the electric wire 8〇, the first conductor 93, the second conductors 41 and 42, the illuminant 30, and the power source, and the light-emitting body 30 is turned on in a current conducting state. It should be noted that the second conductors 41, 42 are not limited to two, and may be only one. Further, the manner in which the electric wires 80 are connected to the second conductors 41 and 42 and the illuminator 30 is not limited to the above, as long as the electric wires 8 〇, the first conductor 93, the second conductors 41 and 42, the illuminators 3 〇, and the power source can be used. The circuit is formed between the other, and other connection methods are also possible. Referring next to Fig. 2, a perspective view of the first embodiment of the compact lighting device of the present invention is shown in a closed state. In the closed state, the fastener 11 is locked to the trim portion 92. The small illuminating device 1 can be completely stored in the accommodating slot 91 of the notebook computer 90, so that it does not occupy space at all when it is not in use, and does not affect the overall appearance of the notebook computer. Referring to Fig. 3, a cross-sectional view of the first embodiment of the compact lighting device of the present invention is shown in a closed state. Because the elastic force of the second elastic member 7 带 drives the sliding block 10 ′ to continuously provide the second elastic member 70 with the force of moving the sliding block 1 下方 downward, the fastener 11 can be kept engaged with the locking portion 92 at all times. position. At this time, the elastic force in the rotational direction generated by the first elastic member 60 cannot be rotated outside the accommodating groove 91 due to the obstruction of the trim portion 92, so that the entire small illuminating device 1 can be stably accommodated. In the receiving slot 91 of the notebook computer 90. Since there is no contact between the second conductor 41 and the first conductor 93, no current is conducted in the illuminator 30, so that the illuminator 30 does not illuminate. Referring to Figure 4, a cross-sectional view of the first embodiment of the present compact lighting device is shown in the opening process. At this time, the user pushes the slider block upward (as shown by the arrow in Fig. 9 * M314822 4), so that the card firmware u is disengaged from the card retaining portion. At this time, the elastic force in the rotational direction generated by the first elastic member 60 is blocked by the locking portion 92, and the first elastic member 60 can start to release its elastic force, and the rotating structure 2 is rotated. Since there is no contact between the second conductor 41 and the first guide 93, no current is conducted in the illuminator 30, so that the illuminator 30 不会 does not illuminate. Referring to Figure 5, a cross-sectional view of the first embodiment of the compact lighting device of the present invention is shown in an open state. At this time, the elastic force of the rotation direction of the first elastic member 6 , causes one part of the rotating structure 20 to rotate to the accommodating groove. The angle of rotation of the rotating structure 20 is between 30 degrees and 5 degrees. When the rotating structure 20 is rotated outside the accommodating groove 91, the second conductor 41 contacts the first conductor 93, and the illuminant 30 is illuminated in a current conducting state. Since the second conductor 41 is in contact with the first conductor 41 After the conductor 93, the rotating structure 2〇 cannot continue to rotate. Therefore, in addition to the conduction function, the first conductor 93 can limit the rotation angle of the rotating structure 2〇. This creation can achieve small illumination at the same time by a single step. The device 1 is popped up and illuminated. _ Please refer to Fig. 6 is an exploded view of the second embodiment of the present compact lighting device. The small lighting device 100 of the present invention can be disposed on a notebook computer. The small lighting device 100 includes a main body. 2a and the illuminator 130. The main body 2a can be accommodated in the accommodating slot 910 of the notebook computer 99b (as shown in FIG. 15), the main body 2a has a closed state and an open state, and at the open state, at least one of the main body 2a Partial position The main body 2a includes a base 160, a fastener 170, a second receiving portion 150, and a switch 140. The M314822 base 160 includes a first receiving portion 161. In this embodiment, the first receiving portion The first portion 161 has a first receiving space 163. The inner side of the first receiving portion 161 includes a protruding portion 162. The fastener 170 can be a spring piece that is fixed to The pedestal 160 includes a locking end 171. In the embodiment, the fastening end 171 is a V-shaped structure folded by the fastening member 170. The second accommodating portion 150 is accommodated in the first capacity. The second accommodating portion 150 is slidable in the first accommodating space 163. The second accommodating portion 150 defines a second accommodating space 154. The second accommodating portion 150 includes two rectangular positioning holes. 15 152, the positioning hole 15 152 is matched with the fastening end 171, so that the fastening end 171 can be fastened to the positioning hole 151 or the positioning hole 152. When the fastening end 171 is fixed to the positioning hole 151, the second The accommodating portion 150 is completely received in the first accommodating space 163. When the cining end 171 is fastened to the positioning hole 152, the second accommodating portion 150 is upward. The second accommodating portion 150 is formed in the second accommodating portion 161. The second accommodating portion 150 is formed in the direction of the desired illumination. The illuminant 130 and the switch 140 are received in the second accommodating portion 150. The illumination direction of the illuminator 130 and the button direction of the switch 140 are directed toward the open end 155. The illuminant 130 provides an illumination source, for example, the illuminant no can be an LED lamp. The switch 140 is electrically connected to the illuminator 130. The switch 140 can control the current conduction state of the illuminator 130. When the fastening end 171 is fastened to the positioning hole 52, the protruding portion 162 of the first accommodating portion 161 can be brought against the switch 140, so that the switch 140 presses inside. In the present embodiment, the action of pressing the switch 14 to the inside thereof causes the illuminator 130 to be illuminated in a current conducting state. Next, please refer to Fig. 7, which is a perspective view of the second embodiment of the present compact lighting device in a closed state. In the closed state, the fastening end 171 is fixed in the fixed 11 M314822 position hole 151, and the small lighting device 100 can be completely stored in the notebook computer, so that the space is not occupied when the unused storage state is used, and the note is not affected. ~ The overall appearance of the computer. • Referring next to Fig. 8, Fig. 8 is a perspective view showing the second embodiment of the small lighting device of the present invention in an open state. In the open state, the fastening end 171 is fastened to the positioning hole 152, and the second receiving portion 150 protrudes upward from the first receiving portion 161 to expose the illuminator 130. Meanwhile, when the second accommodating portion 150 protrudes upward from the first accommodating portion 161, the protruding portion 162 of the first accommodating portion 161 contacts the switch 140 (as shown in FIG. 6) and presses inside thereof. The illuminator 130 is illuminated in a current conducting state. Please refer to Fig. 9 for the exploded view of the third embodiment of the present compact lighting device. The small lighting device l〇〇a of the present invention can be set in a notebook computer. The small illumination device 100a includes a main body 2b and an illuminant 130a. The main body 2b can be placed in the receiving slot 910a of the notebook computer 99c (as shown in FIG. 16), and the main body 2b has a closed state and an open state. In the open state, at least a portion of the main body 2b is located in the receiving slot. Outside 910a. The main body 2b includes a base φ 160a, a second accommodating portion 150a, a switch 140a, a third elastic member 190, and a button 180. This embodiment differs from the second embodiment in that, in the second embodiment, the second housing is moved directly by the user's force to the open state, and in the third embodiment, the third elastic component is utilized. The 190 and the button 18 弹出 eject the second housing portion 150a to the open state. The pedestal 160a includes a first accommodating portion 161a. The first accommodating portion 161a includes a protruding portion 162a. The first accommodating portion 161a defines a first accommodating space 163a. The second accommodating portion 150a is received in the first accommodating space 163a, and the second accommodating portion 150a is formed in the second accommodating portion 150a. The second housing portion 15 & package 12 M314822 includes a slot 157. The switch 140a is housed in the second accommodating space 154a, and the switch 140a is electrically connected to the illuminator 130a. The switch 140a controls the illuminant 13 (the current conduction state of the illuminator 13). In the base 160a and the second receiving portion 150a, the third elastic member 19 is configured to generate a force required to move the second receiving portion 15 outward. The button 180 is coupled to the base 160a, and the button 180 includes a hook. The first end 158 and the second position 159 are located at the position of the slot 157. The fixing end 181 is fastened to the first position 158'. When the second receiving portion bOa is in the open state, the locking end Mi is fastened to the second position 159. The illuminant 130a is placed in the second accommodating space. 154a. In the closed state, when the second receiving portion l5〇a is moved relative to the base 16〇a by pressing the button 180, the locking end 181 is locked in the second position 159, and the protruding portion is embossed. The switch 162a contacts the switch 140a, so that the illuminator 13〇& is illuminated in a current conducting state. • Please refer to FIG. A perspective view of the third embodiment of the present compact lighting device in a closed state. In the closed state, the locking end 181 is locked in the first position 158, and the small lighting device 100a can be completely stored in the notebook computer, so it is not used. The storage state does not occupy space at all, and does not affect the overall appearance of the notebook computer. Fig. 11 is a perspective view of the third embodiment of the small lighting device of the present invention in an open state. After pressing the button 180, the third elastic member 19〇 The second receiving portion 150a is released to the open state. In the open state, the locking end 181 is locked in the second position 159, and the second receiving portion i5〇a is protruded upwardly. 13 M314822 is in the first capacity. The illuminator 130a is exposed in addition to the portion 161a. At the same time, when the second-part accommodating portion 150a protrudes upward from the first accommodating portion 161a, the protruding portion 162a of the first _ _ _ _ The switch 140a (shown in FIG. 9) is pressed toward the inner portion thereof to illuminate the illuminator 130a in a current conducting state. Next, please refer to FIG. 12 and FIG. 13 together for the fourth implementation of the compact lighting device of the present invention. Example. Figure 12 is the book. A schematic diagram of a fourth embodiment of a small illuminating device in a closed state, and Fig. 13 is a schematic view of a fourth embodiment of the present compact illuminating device in an open state. The compact illuminating device 200 includes a main body 210, an illuminant 220 and a switch 230. The illuminant 220 is disposed in the main body 210, the switch 230 is located on the main body 210, and the switch 230 is protruded from the main body 210. The main body 210 of the small illuminating device 200 can be received in the accommodating slot 920 of the notebook computer 99d. As shown in FIG. 17 , the main body 210 has a closed state and an open state. In the open state, at least a portion of the main body 210 is located outside the accommodating groove 920 . As shown in Fig. 12, when the main body 210 is in the closed state, the accommodating groove does not contact the switch 230, so that the illuminator does not illuminate. In the present embodiment, the main body 210 is rotated from the closed state to the open state by the urging force of the φ itself. As shown in FIG. 13, when the main body 210 is in the open state, the position of the switch 230 is just in contact with the accommodating groove 920, so that the illuminant 220 is illuminated in a current conducting state. Next, please refer to FIG. 14 to FIG. 17, which are schematic diagrams of the notebook computers 99a, 99b, 99c, and 99d. The positions of the small-sized lighting devices 1, 1 〇〇, 1 〇〇a, and 200 in the notebook computers 99a, 99b, 99c, and 99d are not limited to the central positions above the screen of the notebook computer as shown in FIGS. 14 to 17. Designed in different locations depending on actual needs. Further, the small lighting device 100a is mounted on the notebook computer, for example, the small M314822 lighting device 100, 10A can be locked to the notebook computers 99b and 99e by the engagement method. Since the small-sized lighting devices 1, 100, 100a, and 200 accommodated in the notebook computers 99a, 99b, 99c, and 99d are the same as the above-described fourth to fourth embodiments, they are not described. In summary, this creation shows its characteristics different from conventional technology in terms of purpose, means and efficacy. It should be noted that the above embodiments are merely illustrative of the principles and functions of the present invention and are not intended to limit the scope of the invention. Any person skilled in the art can make modifications and changes to the embodiments without departing from the technical principles and spirit of the present invention. The scope of protection of this creation should be as described in the scope of the patent application described later. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exploded view of a first embodiment of the present compact lighting device. Fig. 2 is a perspective view of the first embodiment of the compact lighting device of the present invention in a closed state. Fig. 3 is a cross-sectional view showing the first embodiment of the compact lighting device of the present invention in a closed state. Figure 4 is a cross-sectional view showing the first embodiment of the compact lighting device of the present invention in an opening process. Figure 5 is a cross-sectional view showing the first embodiment of the compact lighting device of the present invention in an open state. Figure 6 is an exploded view of a second embodiment of the present compact lighting device. Fig. 7 is a perspective view showing the second embodiment of the compact lighting device of the present invention in a closed state. 15 M314822 • The second embodiment of the present compact lighting device is an exploded view of a third embodiment of the opening type lighting device. = The third embodiment of the present invention is in the closed state. The third embodiment of the present invention is in the open state. The second embodiment of the present novel lighting device is _ state of mind. f 13 is an illustration of the fourth embodiment of the present compact lighting device in an open state. Figure 14 is a schematic view showing a first embodiment of the notebook computer of the present invention. Figure 15 is a schematic view showing a second embodiment of the notebook computer of the present invention. Figure 16 is a schematic view showing a third embodiment of the notebook computer of the present invention. Figure 17 is a schematic view showing a fourth embodiment of the notebook computer of the present invention. [Description of Component Symbols] Small lighting device i, 1〇〇, 1〇〇a, 200 Main body 2, 2a, 2b, 210 Slide block 10 Fastener 11 Rotating structure 20 First elastic member accommodating portion 21 Rotary shaft 22 An elastic member resisting portion 23 accommodating hole 24 illuminant 30, 13A, 130a, 220 second conductor 41, 42 support portion 50 M314822 first elastic member 60 end 61 elongated end 62 annular end 63 second elastic member 70 electric wire 80 accommodating slots 91, 910, 910a, 920
卡固部92 旋轉軸容置部94 筆記型電腦90、99a、99b、 外蓋110 第二容置部150、150a 第一控制部153 開口端155 槽157 第二位置159 第一容置部161、161a 第一容置空間163、163a 卡固端17卜181 第三彈性元件190 第一導體93 第一彈性元件固定部95 99c 、 99d 開關 140、140a、230 定位孔151、152 第二容置空間154、154a 第二控制部156 第一位置158 基座 160、160a 凸出部162、162a 卡固件170 按鈕180 17Clamping portion 92 Rotary shaft accommodating portion 94 Notebook computer 90, 99a, 99b, outer cover 110 Second accommodating portion 150, 150a First control portion 153 Open end 155 Slot 157 Second position 159 First accommodating portion 161 161a first accommodating space 163, 163a splicing end 17 181 third elastic element 190 first conductor 93 first elastic element fixing part 95 99c, 99d switch 140, 140a, 230 positioning hole 151, 152 second accommodating Space 154, 154a second control portion 156 first position 158 base 160, 160a projection 162, 162a fastener 170 button 180 17