M341887 八、新型說明: 【新型所屬之技術領域】 本創作係為—種減音按键結構 裝有緩衝件以減少噪音之按鍵結構。關種文 【先前技術】 人铺、’有著各式各樣的電子產品為人所用,而 /各樣的介面與電子產品進行溝通,諸如按 /月 '、觸控板、手寫板等等,而隨著感測技術以及人 技術的i展’人眼視線的移動也可為控制與輸入方 式的種。然而’在日常生活卜按鍵仍是最普遍的人機 對洁模式’除了電腦鍵盤之外,辦公室裡的影印機、洗衣 機、微波爐、手機等的操作方式大多都是通過按鍵進行。 現今’電腦的輸入方式係以敲擊鍵盤輔以控制滑鼠或觸控 板為主軸。 首先’請參閱圖一,該圖係為習知技術之按鍵結構示 意圖。如圖一所示,一電子裝置丨係具有一殼體11、一基 板12以及二按鍵結構10a、1〇b。按鍵結構i〇a係包括一 開關元件14a以及一按鍵部13a,按鍵結構10b係包括一 開關元件14b以及一按鍵部13b,按,該圖中電子裝置1 係以一筆記型電腦之觸控板按鍵部分結構為例,且基板12 係為一電路板。 開關元件14a、14b係設於基板12之上表面,按鍵部 5 M341887 13a、13b係分別設於按鍵開口 11〇a、u〇b,且外露於殼體 11,按鍵部13a、13b係分別設於按鍵開口 11〇a、11〇b, 且外i备於设體11,按鍵部13a、13b並具有一彈姓恢復力, 當按壓按鍵部13a、13b之上表面時,按鍵部13a、13b之 下表面係觸動開關元件14a、14b,當結束按壓施力時,按 鍵部13a、13b可藉由彈性恢復力彈回歸位。 然而,在致動按鍵結構l〇a、l〇b時,總伴隨著相當擾 人的致動音,尋其聲音來源,係為開關元件14a、14b内部 結構所致。然而,因開關元件14a、14b種類各異,其内部 結構致動之噪音成因也有所不同。以下僅舉觸摸開關為 例’探究效動噪音成音。按,現今觸摸開關係廣泛應用於 消費性電子產品,諸如桌上型電腦、筆記型電腦(用於觸 控板按鍵、熱鍵等)、電腦週邊裝置(如顯示器按鍵、滑 鼠按鍵等)以及影音裝置等。 請參閱圖二。該圖係為一開關元件14結構示意圖。 如圖二所示,一開關元件14係包括一鍵帽141、一金屬片 142以及一底座143,底座143又具有一第一電極151以 及二第二電極152a、152b,金屬片142係為一圓形頂蓋導 電片’並覆於底座143之内側底部,而鍵帽141係設於金 屬片142之上方。 接著,請參閱圖三A、圖三B,該二圖係為圖二之開 關元件14剖面示意圖。如圖三A所示,係開關元件14尚 未被致動之情形,而第一電極151與第二電極152a、152b 6 M341887 並未導通;如圖三B所示,係開關元件14被致動之情形, 鍵帽141受一外力向下作動,此時,鍵帽141之下緣即向 金屬片142之頂端施力使金屬片142變形,進而導通第一 電極151以及第二電極152a、152b ;當鍵帽141上表面之 施力移除後,金屬片142即受一彈性恢復力回復原圓形頂 蓋的形狀,而鍵帽141亦彈回歸位。 開關元件14的致動嗓音即源自金屬片142的變形過 程,又附加以電子裝置1之内部係一密閉空間,請參照圖 一,而上述會產生致動噪音的開關元件14又位於此密閉 空間中,如此一來即形成了音箱效應,進一步地放大此一 聲響。 上述開關元件14之致動噪音在筆記型電腦以及滑鼠 等電子產品中尤為明顯,因電腦及其週邊裝置係為現代人 工作及休閒不可或缺之設備,輸入與點選動作通常係透過 致動按鍵,使用者及週遭人士常為此一致動噪音所困擾。 是以,如何運用材料以及各種結構,以減低甚至消除 此一致動按鍵之ϋ喿音,讓使用者及週邊人士在使用電子裝 置時,能夠不為按鍵噪音所擾,實係設計人員所經常思及 之課題。 【新型内容】 本創作之主要目的係為提供一種減音按鍵結構,其可 以有效減低按鍵致動噪音,俾令使用者不為按鍵噪音所 M341887 擾。 為達上述目的,本創作係提供一種減音按鍵結構,包 括一鍵帽;一底板,設置於該鍵帽之下方;一支撐結構, 設置於該鍵帽與該底板之間,且分別與該鍵帽與該底板相 連接,使得該鍵帽可相對該底板做上下運動;一薄膜電路 板,設置於該底板上;一彈性體,設置於該薄膜電路板上; 以及一緩衝件,設置於該支撐結構與該底板之間。 又為達上述目的,本創作更提供一種減音按鍵結構, 包括複數個鍵帽;一底板,設置於該鍵帽之下方;複數個 支撐結構,設置於該等鍵帽與該底板之間,且分別與該等 鍵帽與該底板相連接,使得該等鍵帽可相對該底板做上下 運動;一薄膜電路板,設置於該底板上;複數個彈性體, %置於該薄膜電路板上;以及複數個緩衝件,設置於該等 支樓結構與該底板之間。 、為使貴審查委員對於本創作之結構目的和功效有 更進一步之了解與認同,茲配合圖示詳細說明如後。 【實施方式】 以下將參照隨附之圖式來描述本創作為達成目的所 用的技術手段與功效,而以下圖式所列舉之實施例僅為 助說明,以利貴審查委員暸解,但本案之技術手段迷 限於所列舉圖式。 請參見圖四,其係為本創作減音按鍵結構之立體分解 8 M341887 圖。本創作減音按鍵結構包括一鍵帽4〇 41、一薄膜電路板42,以及一底板幻, 剪刀 ,A 巧听屯吩低〜,μ久一低板43,龙—式結構 440 構41係由一第一支架410與一第二支架^中該剪刀式結 底板43之上係放置薄膜電路板42,該$ 4U/接而成。該 有電路開關420,該薄膜電路板42上填電路板42上設 41,該剪刀式結構41之上再放置鍵帽=放置剪刀式結^ 關420之切換,該薄膜電路板42與該鏈為便於電路開 一彈性體44,該彈性體44係置於該電路=40之間更設有 過該剪刀式結構41,該剪刀式結構4^分另開關420上且穿 板43相連接,故該鍵帽40可相對該底板I、鏠帽40及底 不同於習知技術的是,該剪刀式钟上下運動。 間係設置有一缓衝件440,於圖四中哕41與底板43之 性體44 ( Rubber Dome圓頂橡膠)之被、440係為彈 係與該彈性體44係為一體成形。 且忒緩衝件 Η ^二見圖五#係為本創作減音按鍵結構之剖面 =::五表示鍵帽40被按下時之狀況;當鍵帽4〇被按^ /守,刀式結構41係會先接觸到緩衝件44〇,故鍵帽4〇 在下之衝力會先被緩衝件440吸收,因此可減少敲擊鍵帽 40時之ϋ喿音。 ^圖六係為本創作減音按鍵結構之剖面圖,其係顯示一 、交化例’為便於示意,係省略剪刀式結構、彈性體與電路 板。於圖六中,減音按鍵結構6係於鍵帽60及底板62間 更"又有一連接桿61 (link bar)以作為平衡用,該連接桿 M341887 61係用於平衡較大型之按鍵,使其被下壓時能均衡下降 (例如電腦键盤之空白件),而緩衝件63則設置於底板63 之上且位於平衡桿61之下,因此當鍵帽60被按下時,連 接桿61係會先接觸到緩衝件63,使得鍵帽60往下之衝力 會先被缓衝件63吸收,因此可減少敲擊鍵帽60時之噪音。 如此,由於本創作之按鍵結構係具有設置於連接機構 與底板間之緩衝件,故能有效減少噪音;又,由於該缓衝 件能與彈性體在製造時一體成形,故不會增加整體鍵盤之 厚度,為此技術領域中極具競爭力之產品。 、 唯以上所述者,僅為本創作之最佳實施態樣爾,當不 能以之限定本創作所實施之範圍。即大凡依本創作申請專 利範圍所作之均等變化與修飾,皆應仍屬於本創作專利涵 蓋之範圍内,謹請貴審查委員明鑑,並祈惠准,是所至 禱。 【圖式簡單說明】 圖一係為習知技術之按鍵結構示意圖; 圖二係為習知技術之關關結構、示意圖; 圖二A係為圖二之剖面不意圖; 圖三B係為圖二之剖面示意圖; 圖四係為本創作減音按鍵結構之立體分解圖; 圖五係為本創作減音按鍵結構之剖面圖;以及 圖六係為本創作減音按鍵結構之剖面圖,其係顯示一變化 M341887 例。 【主要元件符號說明】 I- 電子裝置 6-減音按鍵結構 1 Oa-按鍵結構 10b-按鍵結構 II- 殼體 12-基板 13 a-按鍵部 13b-按鍵部 14-開關元件 14a-開關元件 14b-開關元件 40- 鍵帽 41- 剪刀式結構 42- 薄膜電路板 43- 底板 44- 彈性體 60- 鍵帽 61- 連接桿 62- 底板 63- 緩衝件 M341887 110a-按鍵開口 110b-按鍵開口 141- 鍵帽 142- 金屬片 143- 底座 151-第一電極 152a-第二電極 152b-第二電極 410- 第一支架 411- 第二支架 420-電路開關 440-緩衝件M341887 VIII. New description: [New technical field] This creation is a kind of sound reduction button structure. The button structure with buffer to reduce noise. Guan Wenwen [Prior Art] People shop, 'has a wide variety of electronic products for people to use, and / various interfaces to communicate with electronic products, such as press / month', touchpad, tablet, etc. With the sensing technology and the development of human technology, the movement of the human eye can also be a kind of control and input mode. However, in daily life, the button is still the most common man-machine cleaning mode. In addition to the computer keyboard, most of the operations of photocopiers, washing machines, microwave ovens, and mobile phones in the office are performed by buttons. Today's computer input method is based on tapping the keyboard with the control mouse or touchpad as the main axis. First, please refer to FIG. 1, which is a schematic diagram of a button structure of the prior art. As shown in Figure 1, an electronic device has a housing 11, a substrate 12, and two button structures 10a, 1b. The button structure i〇a includes a switching element 14a and a button portion 13a. The button structure 10b includes a switching element 14b and a button portion 13b. The electronic device 1 in the figure is a touch panel of a notebook computer. The structure of the button portion is taken as an example, and the substrate 12 is a circuit board. The switching elements 14a and 14b are disposed on the upper surface of the substrate 12. The button portions 5 M341887 13a and 13b are respectively disposed on the button openings 11〇a and u〇b, and are exposed to the casing 11, and the button portions 13a and 13b are respectively provided. The button openings 11a, 11b, and the outer portion are provided in the body 11, and the button portions 13a, 13b have a regenerative force. When the upper surfaces of the button portions 13a, 13b are pressed, the button portions 13a, 13b The lower surface touches the switching elements 14a, 14b, and when the pressing force is applied, the key portions 13a, 13b can be returned to the position by the elastic restoring force. However, when the button structures l〇a, l〇b are actuated, the sound source is always accompanied by a relatively disturbing actuating sound, which is caused by the internal structure of the switching elements 14a, 14b. However, due to the various types of switching elements 14a, 14b, the cause of the noise generated by the internal structure is also different. In the following, only the touch switch is taken as an example to explore the effect of noise noise. Press, today's touch-open relationship is widely used in consumer electronics, such as desktop computers, notebook computers (for touchpad buttons, hotkeys, etc.), computer peripherals (such as display buttons, mouse buttons, etc.) Audio and video equipment, etc. Please refer to Figure 2. This figure is a schematic structural view of a switching element 14. As shown in FIG. 2, a switching element 14 includes a key cap 141, a metal piece 142, and a base 143. The base 143 has a first electrode 151 and two second electrodes 152a and 152b. The metal piece 142 is a The circular cap conductive sheet 'overlies the inner bottom of the base 143, and the key cap 141 is disposed above the metal piece 142. Next, please refer to FIG. 3A and FIG. 3B, which are schematic cross-sectional views of the switching element 14 of FIG. As shown in FIG. 3A, the switching element 14 is not activated, and the first electrode 151 and the second electrode 152a, 152b 6 M341887 are not turned on; as shown in FIG. 3B, the switching element 14 is actuated. In this case, the key cap 141 is actuated downward by an external force. At this time, the lower edge of the key cap 141 applies a force to the top end of the metal piece 142 to deform the metal piece 142, thereby turning on the first electrode 151 and the second electrode 152a, 152b. When the force applied to the upper surface of the keycap 141 is removed, the metal piece 142 is restored to the shape of the original circular top cover by an elastic restoring force, and the key cap 141 is also returned to the position. The actuating noise of the switching element 14 is derived from the deformation process of the metal piece 142, and is attached to the internal space of the electronic device 1 to be a closed space. Referring to FIG. 1, the above-mentioned switching element 14 which generates the actuating noise is located here again. In the space, the speaker effect is formed in this way, and the sound is further amplified. The actuation noise of the above-mentioned switching element 14 is particularly obvious in electronic products such as notebook computers and mouse, because the computer and its peripheral devices are indispensable devices for modern work and leisure, and the input and click actions are usually transmitted through With the push of a button, the user and the people around him often have trouble with this noise. Therefore, how to use materials and various structures to reduce or even eliminate the sound of this consistent button, so that users and surrounding people can not be disturbed by button noise when using electronic devices, and the designers of the real system often think And the subject. [New Content] The main purpose of this creation is to provide a sound-reducing button structure that can effectively reduce the key-acting noise and prevent the user from disturbing the button noise M341887. In order to achieve the above object, the present invention provides a sound reduction button structure, including a key cap; a bottom plate disposed under the key cap; a support structure disposed between the key cap and the bottom plate, and respectively The key cap is connected to the bottom plate such that the key cap can move up and down relative to the bottom plate; a thin film circuit board is disposed on the bottom plate; an elastic body is disposed on the thin film circuit board; and a buffering member is disposed on the bottom plate The support structure is between the bottom plate. In order to achieve the above purpose, the present invention further provides a sound reduction button structure, including a plurality of key caps; a bottom plate disposed under the key cap; a plurality of support structures disposed between the key caps and the bottom plate, And respectively connected to the bottom plate and the bottom plate, so that the key caps can move up and down relative to the bottom plate; a thin film circuit board disposed on the bottom plate; a plurality of elastic bodies, % are placed on the thin film circuit board And a plurality of buffer members disposed between the branch structure and the bottom plate. In order to enable your review committee to have a better understanding and recognition of the structural purpose and efficacy of this creation, please refer to the detailed description of the illustration as follows. [Embodiment] The technical means and effects of the present invention for achieving the purpose will be described below with reference to the accompanying drawings, and the embodiments listed in the following drawings are merely for explanation, so that the reviewing committee members understand, but the technology of the present invention Means of the game are limited to the listed schema. Please refer to Figure 4, which is a three-dimensional decomposition of the creation of the sound reduction button structure 8 M341887. The creation of the sound reduction button structure comprises a keycap 4〇41, a thin film circuit board 42, and a bottom plate illusion, scissors, A 屯 屯 低 〜 , 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 The thin circuit board 42 is placed on the first bracket 410 and the second bracket, and the thin circuit board 42 is placed on the second substrate. The circuit board 420 is provided with a circuit board 42 on which the circuit board 42 is placed. The scissor structure 41 is further placed with a key cap = the switch of the scissors type switch 420, and the film circuit board 42 and the chain are connected. In order to facilitate the opening of an elastic body 44, the elastic body 44 is disposed between the circuit=40 and further disposed on the scissors structure 41. The scissors structure 4 is connected to the other switch 420 and connected through the plate 43. Therefore, the keycap 40 is different from the bottom plate I, the cap 40 and the bottom, which is different from the prior art, and the scissors bell moves up and down. A buffer member 440 is provided in the middle, and in the fourth embodiment, the 哕41 and the bottom plate 43 of the body 44 (Rubber Dome) are formed, and the 440 system is integrally formed with the elastic body 44.忒 忒 Η 二 二 二 二 二 二 二 二 二 二 二 二 二 二 二 二 二 二 剖面 剖面 剖面 剖面 剖面 剖面 剖面 : : : : : : : : : : : : : : : : : : : : : The buffer member 44〇 is first contacted, so that the lowering force of the keycap 4〇 is first absorbed by the buffer member 440, so that the click sound when the keycap 40 is tapped can be reduced. Fig. 6 is a cross-sectional view of the structure of the reduced-key button of the present invention, which shows an example of the cross-section, which is omitted for convenience, and the scissors structure, the elastic body and the circuit board are omitted. In FIG. 6, the sound reduction button structure 6 is further connected between the keycap 60 and the bottom plate 62, and has a link bar 61 for balancing. The connecting rod M341887 61 is used to balance the larger buttons. When it is pressed down, it can be balancedly lowered (for example, a blank piece of a computer keyboard), and the cushioning member 63 is disposed above the bottom plate 63 and under the balance bar 61, so when the key cap 60 is pressed, the connecting rod The 61 series first comes into contact with the cushioning member 63, so that the downward force of the keycap 60 is first absorbed by the cushioning member 63, so that the noise when the keycap 60 is hit can be reduced. In this way, since the button structure of the present invention has a buffer member disposed between the connecting mechanism and the bottom plate, noise can be effectively reduced; and since the cushioning member can be integrally formed with the elastic body during manufacture, the integral keyboard is not added. The thickness is a very competitive product in this technical field. Only those mentioned above are only the best implementation of this creation, and it is not possible to limit the scope of this creation. That is, the equal changes and modifications made by Dafan according to the scope of patent application for this creation should still fall within the scope of this patent. I would like to ask your review committee to give a clear understanding and pray for it. It is the prayer. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic diagram of a button structure of a conventional technique; Fig. 2 is a related structure and schematic diagram of a conventional technique; Fig. 2A is a schematic view of Fig. 2; Fig. 3B is a diagram Figure 2 is a three-dimensional exploded view of the structure of the reduced sound button; Figure 5 is a sectional view of the structure of the reduced sound button; and Figure 6 is a sectional view of the structure of the reduced sound button. The system displays a change M341887. [Description of main component symbols] I-Electronic device 6-sound reduction button structure 1 Oa-key structure 10b-key structure II- Housing 12-substrate 13 a-button portion 13b-button portion 14-switching element 14a-switching element 14b - Switching element 40 - Key cap 41 - Scissor structure 42 - Thin film circuit board 43 - Base plate 44 - Elastomer 60 - Key cap 61 - Connecting rod 62 - Base plate 63 - Buffer member M341887 110a - Button opening 110b - Button opening 141- Key cap 142 - metal piece 143 - base 151 - first electrode 152a - second electrode 152b - second electrode 410 - first bracket 411 - second bracket 420 - circuit switch 440 - buffer