M309705 八、新型說明: 【新型所屬之技術領域】 一種具有筆記型電 本創作係關於一種開關結構,尤指 月®之開關結構。 【先前技術】 眾所週知’在使用筆記型電腦時,第一步驟係先推移 没於筆記型電腦前方之推紐開關,即可開啓筆記型電腦以 進行操作,請參閱第,係為習知技術之筆記型 電月=關結構之結構示意圖,如圖所示,於該筆記型電腦 之上蓋30具有操作桿3卜推紐開目32及一與該操作桿 連接之彈簧33,該操作桿31具有卡勾311,於該筆記型 電腦之底座40具有與該卡勾311相對應之勾槽41,俾利 用該卡勾311與該勾槽41之互相機械結合,以將該筆記 !電恥之上盍30與該底座40卡合,而該推鈕開關犯係 設置於該上蓋20之邊緣側,故欲閉合該上蓋3〇時,推動 •該推鈕開關32’以帶動該操作桿31,並令該彈簧33處於 .伸長之狀態時,使該卡勾311與該勾槽41相互卡合,進 而令該上蓋30與該底座40處於卡合關閉狀態。欲當要打 開該上蓋30時,即推動該推鈕開關32,以令該操作桿31 移動一適當距離,使該卡勾311脫離該勾槽41,令該上 盍30與該底座40相互脫離,該彈簧32使該操作桿31 被推移並釋放後可自動回位。 如上所述’筆記型電腦可以利用卡勾與卡槽組合的開 關結構得以卡合上蓋部分與底座部分,然而,習知技術所 5 19863 M309705 ,達成之功效係通過獨立一套推鈕仏⑽…塑料模具與該閉 鎖(latch)組合,需要於該上蓋預留推鈕之位孔,且該推 鈕與忒閉鎖之組合會因無法準確配合而造成鬆動搖晃,因 此,大大地浪費了材料成本與人工成本。 因此,如何克服先前描述習知技術所揭露之各種缺 點,以提升筆記型電腦之品質,f已成為目«界所亟待 克服之課題。 【新型内容】 鑒於上述習知技術之缺點,本創作之一目的係在於提 ^種解決因操作部與卡扣部無法配合產生鬆動搖晃問 題之筆記型電腦開關結構。 本創作之另目的係提供一種可降低生產成本之筆 記型電腦開關結構。 為達到上述及其他目的,本創作係提供一種 腦開關結構,係具有第—單元及第二單元,該第一單元: ^有扣σ件及開孔,該扣合件係'包括滑動本體、操作部、 :定部及卡扣部’而該第二單元係具有被扣合件,俾該扣 合^該被扣合件相扣合,令該第_單元與該第二= 扣合固定。 干儿相 p Γ Γ動本體係設於該第—單元上,而該操作部係設於 =動本虹,域應剌—單 外露,該第-單元,藉以推動該滑動本體。… 、、骨動=疋部係可配合彈性件,並設置於該第—單元及該 4本體之間’俾當推動該操作部時,令該滑動本體朝^ 19863 6 M309705 该第一單元之扣合件及該第二單元之被扣合件之扣合方 向彈壓,藉以令該扣合件及該被扣合件相互合固定: :該卡扣部係設於該滑動本體上,俾當該滑動本體藉 由該彈性件朝向該扣合件及該被扣合件之扣合方向彈壓曰 時,令該卡扣部與該第二單元之被扣合件相互扣合固^, 以達到開關卡合固定之功效。 本創作之筆記型電腦開關結構主要係由於該操作 部、該卡扣部與該滑動主體為一體成型,並不需要如習知 技術之需要於該第-單元上預留操作部之位孔等情況,以 降低生產成本以及降低因該操作部與該卡扣部無法配合 而產生鬆動搖晃之問題,且該操作部係設置於該第一單口元 之正面開孔處,使其操作方便。 【實施方式】 以下係藉由特定的具體實例說明本創作之實施方 式’熟悉此技藝之人士可由本說明書所揭示之内容輕易地 瞭解本創作之其他優點與功效。補作亦可藉由其他 的具體實例加以施行或應用,本說明書中的各項細節亦可 基於不同觀點與應用’在不㈣本創作之精 修飾與變更。 m 請參閱第2圖’係本創作筆記型電腦開關結構之結構 不意圖’如圖所示,該筆記型電腦開關結構係具有第 兀10及第二單元20,該第一單元10係具有扣合件^ 開孔12,該扣合件11係包括滑動本體11卜操作部112、 固定部113及卡扣部114,而該第二單元20係具有被扣 19863 7 M309705 合件21,俾該扣合件11與該被扣合件21相扣合,令該 第一單元10與該第二單元20相扣合固定,其中,該滑動 本體111、該操作部112、該固定部n3及該卡扣部ιΐ4 可為一體成型,而該第一單元10係可為筆記型電腦之蓋 體’該第二單元20係可為筆記型電腦之本體。 該滑動本體111係設於該第一單元u上,而該操作 部112係設於該滑動本體111上,並對應該第一單元^ 〇 之開孔12,以令該操作部112外露於該第一單元丨〇,藉 以推動該滑動本體111,其中,該開孔12為設於該第一9 單元10之正面開孔,且該開孔丨2之尺寸大於該操作部 112之大小尺寸,俾供該操作部112具有足夠之空間移動 =作,該操作部112係可設有至少一凸條,用以增加推動 =之摩擦作用力,且該操作部112之材質係可為塑料材 貝以防止推動過程中因碰撞而產生損壞電腦之第一單元 之問題。 〇該固定部U3係可配合彈性件13,並設置於該第一 f元10及該滑動本體lu之間,俾當推動該操作部112 時,令該滑動本體111朝向該第一單元10之扣合件n 及孩第一單元2〇之被扣合件2i之扣合方向彈壓,其中, 口疋。卩113係可為卡勾31,用以連接該彈性件13,利 用該彈性件13對該滑動本體1Π之彈性回復力,藉以令 才δ件11及該被扣合件12相互合固定。 而該卡扣部丨14係設於該滑動本體111上,俾當該滑 動本體111藉由該彈性件13朝向該扣合件11及該被扣合 8 19863 M309705 二21之扣合方向彈壓時,令該卡扣部m與該第-單元 20之被扣合件21相互扣合固 乐一早兀 嗖於兮、、典叙太辨^ ”十,該卡扣部114係 口又於该π動本體111之兩端,並與該 且該被扣合件21係為凹槽, I °。、相對應, 卡勾之形狀係可為三角形,矩^ 口114為卡勾,該 矩形或梯形之結構,以佴告尨 =Γ112,令該滑動本體⑴藉由該彈性件;;: 二〜件11及该被扣合件21之扣合方 固定之功效。 “牛2丨中,以達到開關卡合 請參閱第3Α及3Β圖,伤盘士 a a # 構之實施態樣示意圖,如4:本創料記型電腦開關結 ,入 > 亥圖所不,當推動該操作部112 ㈡滑:本體⑴朝向該第一單元1〇之扣合^及該 Η之件21之相反之扣合方向(如第3Α 圖之刖頭Α)移動,俾使與該滑動本體iu連接之彈性件 =生伸展形變’同時帶動該滑動本體111之卡扣部114 20之Si令該扣合件11之卡扣部114脫離該第二單元 =t':俾可自該第二單元20(筆記型電腦之 -丁開5亥弟-早兀10(筆記型電腦之蓋體)。 一抑同樣地’當要關閉該第-單元10時,只需下壓該第 早兀10 ’由於該卡扣部114上具有一斜坡,該卡扣部 =對該被扣合件210進行擠壓,令該滑動本體lu朝向 =弟:單元10之扣合件11及該第二單元20之被扣合件 ir、扣合方向移動―適當距離,當該卡扣部 兀王進入5亥被扣合件21後’再藉由與該滑動本體⑴連 19863 9 M309705 接之彈[生件13之彈性回復力,俾使該滑動本體⑴朝向 ,該扣合件11及該被扣合件21之扣合方向(如第3β圖之箭 頭B)彈壓,以將該卡扣冑114與該被扣合件21相互卡合 固定’以達到該第-單元10與該第二單元2〇相扣合固定。 本創作之筆&己型電腦開關結構與習知技術之不同係 在於該操作冑112、該卡扣冑114與該滑動主體U1係為 體成型,並不需要如習知技術之需要於該第一單元上 10預留操作部112之位孔等情況,並可降低生產成本以 及降低因該操作部112與該卡扣部114無法配合而產生鬆 動搖晃之問題,且該操作部112係設置於該第一單元ι〇 之正面開孔處,使其操作方便。 上述實施例僅例示性說明本創作之原理及其功效,而 非用於限制本創作。任何熟習此項技藝之人士均可在不違 2本創作之精神及範疇下,對上述實施例進行修飾與改 變。因此,本創作之權利保護範圍,應如後述之申請專利 範圍所列。 、【圖式簡單說明】 第1A及1B圖係為習知技術之筆記型電腦開關結構之 結構示意圖; 第2圖係為本創作筆記型電腦開關結構之結構示意 圖;以及 第3A及3B圖係為本創作筆記型電腦開關結構之實施 態樣示意圖。 ' 【主要元件符號說明】 19863 10 M309705 ;10 第一單元 ' 11 扣合件 111 滑動本體 112 操作部 113 固定部 114 卡勾部 12 開孔 ^ 13 彈性件 籲20 第二單元 21 被扣合件 30 上蓋 31 操作桿 311 卡勾 32 推紐開關 33 彈簧 -· 40 底座 、41 卡槽M309705 VIII. New description: [New technical field] A notebook-type notebook is about a switch structure, especially the switch structure of the Moon®. [Prior Art] It is well known that when using a notebook computer, the first step is to turn on the notebook switch in front of the notebook computer to open the notebook computer for operation. Please refer to the section, which is known as the prior art. A schematic diagram of the structure of the notebook type electric moon=off structure, as shown in the figure, the upper cover 30 of the notebook computer has an operating lever 3 and a spring 33 connected to the operating lever, the operating lever 31 has The hook 311 has a hook groove 41 corresponding to the hook 311 on the base 40 of the notebook computer, and the hook 311 and the hook groove 41 are mechanically coupled with each other to take the note! The push button 30 is engaged with the base 40, and the push button switch is disposed on the edge side of the upper cover 20, so when the upper cover 3 is closed, the push button switch 32' is pushed to drive the operating lever 31, and When the spring 33 is in the extended state, the hook 311 and the hook groove 41 are engaged with each other, and the upper cover 30 and the base 40 are brought into a closed state. When the upper cover 30 is to be opened, the push button switch 32 is pushed to move the operating lever 31 by an appropriate distance, so that the hook 311 is disengaged from the hook groove 41, and the upper cover 30 and the base 40 are separated from each other. The spring 32 automatically returns to the operating lever 31 after being pushed and released. As described above, the notebook computer can use the switch structure of the combination of the hook and the card slot to engage the upper cover portion and the base portion. However, the conventional technology 5 19863 M309705 achieves the effect of passing a separate push button 10 (10)... The plastic mold is combined with the latch, and the position of the push button is reserved on the upper cover, and the combination of the push button and the lock is loose and shaken due to the inability to accurately fit, thereby greatly wasting material cost and Labor cost. Therefore, how to overcome the various shortcomings disclosed in the prior art to improve the quality of the notebook computer has become a subject that needs to be overcome. [New content] In view of the above-mentioned shortcomings of the prior art, one of the aims of the present invention is to solve a notebook computer switch structure that solves the problem of looseness and shaking caused by the inability of the operation portion and the buckle portion to cooperate. Another object of this creation is to provide a notebook computer switch structure that reduces production costs. In order to achieve the above and other purposes, the present invention provides a brain switch structure having a first unit and a second unit, the first unit: ^ has a buckle σ member and an opening, and the fastening member includes a sliding body, The operation unit, the fixed portion and the buckle portion, and the second unit has a buckled member, and the buckled member is engaged with the buckle member, so that the first unit is fastened to the second unit . The dry phase p Γ Γ 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本..., the bone movement = the crotch portion can be matched with the elastic member, and is disposed between the first unit and the body 4. When the operation portion is pushed, the sliding body is oriented toward the ^19863 6 M309705. The fastening member and the fastening member of the second unit are biased in a fastening direction, so that the fastening member and the buckled member are fixed to each other: the buckle portion is attached to the sliding body, and the buckle is attached to the sliding body When the sliding body is biased toward the fastening direction of the fastening component and the fastening component, the buckle portion and the fastening component of the second component are fastened to each other to achieve The effect of the switch snapping and fixing. The notebook computer switch structure of the present invention is mainly formed because the operation portion, the buckle portion and the sliding body are integrally formed, and the position of the operation portion is not required to be reserved on the first unit as required by the prior art. In other cases, the production cost is reduced, and the problem that loosening and shaking occurs due to the inability of the operation portion to cooperate with the buckle portion is reduced, and the operation portion is disposed at the front opening of the first single-port unit, so that the operation is convenient. [Embodiment] The following describes the implementation of the present invention by a specific specific example. Those skilled in the art can easily understand other advantages and effects of the present invention by the contents disclosed in the present specification. Supplements may also be implemented or applied by other specific examples, and the details in this specification may also be based on different opinions and applications. m Please refer to Fig. 2 'The structure of the notebook switch structure is not intended to be as shown in the figure. The notebook switch structure has a 兀10 and a second unit 20, and the first unit 10 has a buckle The fastening member 11 includes a sliding body 11 , an operating portion 112 , a fixing portion 113 and a locking portion 114 , and the second unit 20 has a buckled 19863 7 M309705 fitting 21 . The fastening member 11 is engaged with the buckled member 21 to fasten and fix the first unit 10 and the second unit 20, wherein the sliding body 111, the operating portion 112, the fixing portion n3 and the The buckle portion ι 4 can be integrally formed, and the first unit 10 can be a cover of a notebook computer. The second unit 20 can be a body of a notebook computer. The sliding body 111 is disposed on the first unit u, and the operating portion 112 is disposed on the sliding body 111, and corresponds to the opening 12 of the first unit, so that the operating portion 112 is exposed to the The first unit 丨〇 is configured to push the sliding body 111, wherein the opening 12 is a front opening provided in the first 9 unit 10, and the size of the opening 丨2 is larger than the size of the operating portion 112. The operating portion 112 is provided with a sufficient space for the operation portion 112 to be provided with at least one ridge for increasing the frictional force of the push=, and the material of the operating portion 112 is a plastic material. In order to prevent damage to the first unit of the computer due to collision during the pushing process. The fixing portion U3 is adapted to be coupled to the elastic member 13 and disposed between the first f-element 10 and the sliding body lu. When the operating portion 112 is pushed, the sliding body 111 is oriented toward the first unit 10. The fastening piece n and the first unit 2 of the child are engaged in the fastening direction of the fastening piece 2i, wherein the mouth is smashed. The 卩113 is a hook 31 for connecting the elastic member 13, and the elastic restoring force of the elastic member 13 to the sliding body 1 is used, so that the δ member 11 and the engaged member 12 are fixed to each other. The latching portion 14 is disposed on the sliding body 111, and when the sliding body 111 is biased by the elastic member 13 toward the fastening member 11 and the engaged direction of the buckled 18 19863 M309705 21 , the buckle portion m and the buckled member 21 of the first unit 20 are fastened together with each other, and the buckle portion 114 is further 辨 ,, and the buckle portion 114 is further connected to the π The two ends of the moving body 111, and the fastened member 21 is a groove, I °. Correspondingly, the shape of the hook can be a triangle, and the cavity 114 is a hook, the rectangle or the trapezoid The structure is 佴 Γ Γ Γ , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , For the switch engagement, please refer to the 3rd and 3rd drawings, the schematic diagram of the implementation of the injury panel aa #, such as 4: the creation of the notebook type computer switch junction, into the > Haitu does not, when the operation unit 112 (2) Sliding: the body (1) is moved toward the first unit 1 扣 and the opposite direction of the 21 21 21 (such as the 刖 Α 第 Α Α Α Α Α Α Α Α Α 移动 移动 iu iu iu iu iu The elastic member=the extensional deformation ′′ simultaneously drives the buckle portion 114 of the sliding body 111 to make the buckle portion 114 of the fastening member 11 disengage from the second unit=t′: from the second unit 20 (note computer - Ding Kai 5 Haidi - early 兀 10 (note computer cover). Similarly, when you want to close the first unit 10, just press the first 兀 10 ' Since the buckle portion 114 has a slope, the buckle portion=squeeze the buckled member 210 so that the sliding body lu faces the button member 11 of the unit 10 and the second unit 20 The fastener ir and the fastening direction are moved to the appropriate distance. When the buckle portion enters the 5 hai buckled member 21, the hammer is attached to the sliding body (1) by the 19863 9 M309705. The elastic restoring force causes the sliding body (1) to face, and the fastening direction of the fastening member 11 and the buckled member 21 (such as the arrow B of the 3β figure) is pressed to the buckle 胄 114 and the quilt The fastening members 21 are engaged and fixed with each other to achieve the fastening and fixing of the first unit 10 and the second unit 2〇. The pen & type computer switch structure and the prior art The difference is that the operation 胄 112, the buckle 胄 114 and the sliding body U1 are integrally formed, and the position of the operation portion 112 is not required to be reserved on the first unit 10 as required by the prior art. In this case, the production cost can be reduced and the problem of loosening and shaking caused by the inability of the operating portion 112 to engage with the latching portion 114 can be reduced, and the operating portion 112 is disposed at the front opening of the first unit , The operation of the present invention is merely illustrative of the principles of the present invention and its effects, and is not intended to limit the present invention. Anyone who is familiar with the art can modify and change the above embodiments without departing from the spirit and scope of the creation. Therefore, the scope of protection of this creation should be as listed in the scope of the patent application described later. BRIEF DESCRIPTION OF THE DRAWINGS [Fig. 1A and 1B are schematic diagrams showing the structure of a notebook computer switch structure of the prior art; FIG. 2 is a schematic structural view of a notebook circuit structure of the author notebook; and Figs. 3A and 3B This is a schematic diagram of the implementation of the notebook structure of the notebook. ' [Main component symbol description] 19863 10 M309705 ;10 First unit ' 11 Fastener 111 Slide body 112 Operation part 113 Fixing part 114 Hook part 12 Opening hole 13 Elastic part call 20 Second unit 21 Fastened part 30 Upper cover 31 Operating lever 311 Hook 32 Push button switch 33 Spring - 40 base, 41 card slot