201110855 1 υ. iW 31706twf.doc/n 六、發明說明: 【發明所屬之技術領域】 本發明是有關於一種推鈕,且特別是有關於一種具有 移動穩定性的推紐及應用此推紐的推名丑纟士構。 【先前技術】201110855 1 υ. iW 31706twf.doc/n VI. Description of the Invention: [Technical Field] The present invention relates to a push button, and more particularly to a push button with mobile stability and the application of the push button The name is ugly. [Prior Art]
圖1為習知一種推鈕結構的示意圖,而圖2為圖j之 推鈕的立體示意圖。請同時參考圖丨及圖2,在習知的推 鈕結構100中,推鈕110的卡鉤112會對應卡合在機殼120 ^開口 m巾’且推钮no可以相對機殼⑽移動,進而 帶動使用此推紐結構⑽之電子裝置的⑽(iatch)機構作 動0 然而 推鈕110僅靠卡鉤112與機殼丨20組裝在一 田使用者推移推紐11〇時,因機殼上並未設置擒 二,助推紐11〇的移動’所以當推紐⑽相對機殼⑽ 知動%’触⑽會晃動,並無法順利地滑動。 【發明内容】 士。本發峨供-種杨,其可以翻地在—機殼上移動 本發明提供一 時晃動的問題。 種推紐結構’其改善減在機殼上移動 電子裝置之一機 此機殼具有多個 本矣明&出一種推紐,適於配設於— 殼上,以解除電子裝置之4件的限位, 201110855 31706twf.doc/n 導引槽’而推名丑具有一本體以及多個凸出結構,其中推紐 的本體配置於機殼上,且推叙的凸出結構對應位於導引槽 中。 在本發明之推叙的一實施例中,上述之凸出結構為長 方形的柱體。 在本發明之推紐的一實施例中,上述之凸出結構互相 平行設置。 在本發明之推鈕的一實施例中,上述之本體具有一第 一卡合,,而機殼具有一第二卡合部,且第一卡合部對應 卡合於第二卡合部中。此第一卡合部為一卡鉤,而第二卡 合部為一開口。 本發明另提出一種推鈕結構,包括一機殼以及一推 紐。機设具有多個導引槽,而推知配置於機殼上,此推紐 具有一本體以及多個凸出結構,其中本體承靠於機殼上, 而凸出結構對應位於導引槽令,推移推鈕時,凸出機構於 導引槽中滑動。 在本發明之推鈕結構的一實施例中,上述之凸出結構 為長方形的柱體。 在本發明之推鈕結構的一實施例中,上述之凸出結構 互相平行設置。 在本發明之推鈕結構的一實施例中,上述之本體具有 一第一·^合部,而機殼具有一第二卡合部,且第一 ^^合部 對應卡合於第二卡合部中 此第一卡合部為一卡鉤,而第 一卡合部為一開口。 201110855 090410. TW 3J706twf.doc/n 在本發明之推紐結構的 記型電腦的機殼。 K她例1f上述之機忒為華 基於上述’本發明之推鈕具 紐組裝在機殼上時,凸出、有凸出,、°構且在將此推 ,^ 凸出、,、口構對應設置在機殼的導引槽 1糾目對機殼移動時細的移動穩定性。 j U之上述特徵和優點能更明顯雜,下文特 舉只_ ’並配合所附圖式作詳細說明如下。Fig. 1 is a schematic view showing a push button structure of the prior art, and Fig. 2 is a perspective view showing the push button of Fig. j. Referring to FIG. 2 and FIG. 2, in the conventional push button structure 100, the hook 112 of the push button 110 is correspondingly engaged with the opening 120 of the casing 120 and the push button no can move relative to the casing (10). Further, the (10) (iatch) mechanism of the electronic device using the push button structure (10) is actuated. However, the push button 110 is assembled only by the hook 112 and the casing 20 in a field when the user pushes the button 11 because of the casing. There is no setting for the second, and the movement of the booster 11〇 is so 'when the push button (10) is relative to the case (10), the %' touch (10) will shake and cannot slide smoothly. SUMMARY OF THE INVENTION The present invention provides a seed that can be turned over on the casing. The present invention provides a problem of temporary swaying. A push-button structure that improves and reduces one of the mobile electronic devices on the casing. The casing has a plurality of buttons and a push button, which is adapted to be disposed on the casing to release 4 pieces of the electronic device. The limit, 201110855 31706twf.doc/n guide groove 'and the name ugly has a body and a plurality of protruding structures, wherein the body of the push button is arranged on the casing, and the protruding structure of the push is correspondingly located In the slot. In an embodiment of the present invention, the protruding structure is a rectangular cylinder. In an embodiment of the push button of the present invention, the protruding structures are disposed in parallel with each other. In an embodiment of the push button of the present invention, the body has a first engagement, and the casing has a second engagement portion, and the first engagement portion is correspondingly engaged with the second engagement portion. . The first engaging portion is a hook and the second engaging portion is an opening. The invention further provides a push button structure comprising a casing and a push button. The machine is provided with a plurality of guiding slots, and is inferred to be disposed on the casing. The pushing button has a body and a plurality of protruding structures, wherein the body bears against the casing, and the protruding structure corresponds to the guiding groove. When the push button is pushed, the protruding mechanism slides in the guide groove. In an embodiment of the push button structure of the present invention, the protruding structure is a rectangular cylinder. In an embodiment of the push button structure of the present invention, the above-mentioned projecting structures are disposed in parallel with each other. In an embodiment of the push button structure of the present invention, the body has a first engaging portion, and the casing has a second engaging portion, and the first engaging portion is correspondingly engaged with the second card. The first engaging portion of the joint is a hook, and the first engaging portion is an opening. 201110855 090410. TW 3J706twf.doc/n The casing of the notebook computer in the push-button structure of the present invention. K, Example 1f, the above-mentioned machine is based on the above-mentioned 'the push button of the present invention is assembled on the casing, protruding, protruding, and constructing, and pushing, ^ protruding, and mouth The structure corresponds to the movement stability of the guide groove 1 provided in the casing to correct the movement of the casing. The above features and advantages of j U can be more apparent, and the following description is only _ ′ and will be described in detail with reference to the drawings.
【實施方式】 圖3為本發明一實施例之推叙結構的示意圖、圖4為 圖3之推紐的立體示意圖。請同時參考圖3及圖4,推钮 結構200包括一機殼21〇以及—推鈕22〇。機殼21〇具有 多個導引槽212,而推鈕220配置於機殼21〇上,此推鈕 220具有一本體222以及多個凸出結構224,其中本體222 承靠於機殼210上,而凸出結構224對應位於導引槽212 中。當推移推鈕220時,凸出機構224於導引槽212中滑 動’且推鈕220相對機殼210穩固地滑動。 承上述’本實施例中,機殼210為筆記型電腦的機殼, 但並不以此為限。推鈕220的凸出結構224為長方形的柱 體,且這些凸出結構224互相平行設置。此外,推鈕.220 之本體222具有一第一卡合部222a,且機殼210具有一第 二卡合部214,且第一卡合部222a對應卡合在第二卡合部 214中,其中第一·^合部222a為卡鉤,而第二卡合部214 為開口,且此開口與導引槽212連通。 201110855 uy^iu.iW 31706twf.doc/n 當使用者推移推紐22〇時,推钮22〇的第—卡合部 l2ia在第二卡合部214中移動,且減22G會相對機殼21〇 :月動’進而帶動裝設於筆記型電腦之機殼射摘機構,之 ,例如使問鎖機構推開設置於筆記型電腦之機殼上的門 盍:特別的是,凸出結構224會在導引槽212中滑動,其 中導引槽212的寬度wl與凸出結構224的寬度w2大致相 同,所以凸出結構224會受到導引槽212的槽壁限制,使 推鈕220在相對機殼210滑動時,導引槽212的槽壁夾住 凸出結構224 ’推鈕220便不會於方向m上相對機殼21〇 晃動。如此一來,推鈕22〇相對機殼21〇的滑動較習知更 為順利與平穩。 综上所述,於本發明之推鈕以及應用此推鈕的推鈕結 構中,使推鈕具有凸出結構,再與機殼的導引槽相配合, 可以增加推在丑相對機殼移動時的穩定性,改善習知因為機 设沒有設置擋牆而使得習知的推鈕相對機殼滑動時會左右 晃動的問題。 θ 雖然本發明已以實施例揭露如上,然其並非用以限定 本發明,任何所屬技術領域中具有通常知識者,在不脫離 =發明之精神和範圍内,當可作些許之更動與潤飾,故本 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】 圖1為習知—種推钮結構的示意圖。 圖2為圖1之推纽的立體示意圖。 201110855 wyuHiu. jTW 31706twf.doc/n 圖3為本發明一實施例之推鈕結構的示意圖。 圖4為圖3之推鈕的立體示意圖。 【主要元件符號說明】 100、200 :推鈕結構 110、220 :推鈕 112 :卡鉤 120、210 :機殼 _ 122 :開口 212 :導引槽 214 :第二卡合部 222 :本體 222a :第一卡合部 224 :凸出結構 wl :導引槽的寬度 w2 :凸出結構的寬度 • D1 :方向[Embodiment] Fig. 3 is a schematic view showing a derivation structure according to an embodiment of the present invention, and Fig. 4 is a perspective view showing a push button of Fig. 3. Referring to FIG. 3 and FIG. 4 simultaneously, the push button structure 200 includes a casing 21 〇 and a push button 22 〇. The casing 21 has a plurality of guiding slots 212, and the push button 220 is disposed on the casing 21, the push button 220 has a body 222 and a plurality of protruding structures 224, wherein the body 222 bears against the casing 210. The protruding structure 224 is correspondingly located in the guiding groove 212. When the push button 220 is pushed, the projection mechanism 224 slides in the guide groove 212 and the push button 220 slides stably with respect to the casing 210. In the above embodiment, the casing 210 is a casing of a notebook computer, but is not limited thereto. The protruding structure 224 of the push button 220 is a rectangular cylinder, and the protruding structures 224 are disposed in parallel with each other. In addition, the body 222 of the push button 220 has a first engaging portion 222a, and the casing 210 has a second engaging portion 214, and the first engaging portion 222a is correspondingly engaged with the second engaging portion 214. The first engaging portion 222a is a hook, and the second engaging portion 214 is an opening, and the opening is in communication with the guiding slot 212. 201110855 uy^iu.iW 31706twf.doc/n When the user pushes the button 22, the first engaging portion l2ia of the push button 22〇 moves in the second engaging portion 214, and the 22G is reduced relative to the casing 21 〇: Moonlight' then drives the housing picking mechanism mounted on the notebook computer, for example, to cause the lock mechanism to push the sill placed on the casing of the notebook computer: in particular, the protruding structure 224 The sliding groove 212 is slid in the guiding groove 212, wherein the width w1 of the guiding groove 212 is substantially the same as the width w2 of the protruding structure 224, so that the protruding structure 224 is restricted by the groove wall of the guiding groove 212, so that the push button 220 is opposite. When the casing 210 slides, the groove wall of the guiding groove 212 clamps the protruding structure 224 'the push button 220 does not sway relative to the casing 21 in the direction m. As a result, the sliding of the push button 22 〇 relative to the casing 21 is smoother and smoother than conventionally. In summary, in the push button of the present invention and the push button structure using the push button, the push button has a protruding structure, and then cooperates with the guiding groove of the casing, so as to increase the movement in the ugly relative casing. The stability of the time, the improvement of the conventional problem, because the machine is not provided with a retaining wall, so that the conventional push button will swing to the left and right when sliding relative to the casing. The present invention has been disclosed in the above embodiments, but it is not intended to limit the invention, and any one of ordinary skill in the art may make some modifications and refinements without departing from the spirit and scope of the invention. Therefore, the scope of the invention is defined by the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a conventional push button structure. 2 is a perspective view of the push button of FIG. 1. 201110855 wyuHiu. jTW 31706twf.doc/n FIG. 3 is a schematic diagram of a push button structure according to an embodiment of the present invention. 4 is a perspective view of the push button of FIG. 3. [Main component symbol description] 100, 200: push button structure 110, 220: push button 112: hook 120, 210: casing _ 122: opening 212: guiding groove 214: second engaging portion 222: body 222a: First engaging portion 224: protruding structure w1: width w2 of the guiding groove: width of the protruding structure • D1: direction