M415402 五、新型說明: 【新型所屬之技術領域】 本創作是有關於一種按鍵及應用其之鍵盤,且特別是 有關於一種薄型化之按鍵及應用其之鍵盤。 【先前技術】 一般供使用者操作而常用的輸入裝置包括鍵盤、觸控 板及滑鼠。以鍵盤來說,鍵盤包括數個按鍵且分別對應到 φ 不同的字元或符號。當使用者按壓按鍵時,對應該按鍵之 字元或符號的訊號係會輸入至電子產品中。目前的按鍵大 多包括鍵帽、剪刀腳結構及基板。剪刀腳結構配置在基板 與鍵帽之間,以支撐鍵帽且讓鍵帽可相對於基板垂直地位 移。然而,剪刀腳結構的結構複雜,使得按鍵在製造及組 裝的難度高且時間長。此外,在鍵盤薄型化的趨勢下,剪 刀腳結構的結構往往難以符合此一需求。因此,如何提供 一種可簡化結構,且符合薄型化需求的按鍵,乃為相關業 • 者努力之課題之一。 【新型内容】 本創作有關於一種按键及應用其之鍵盤,其透過框 件、彈性體與鍵帽之配合來簡化結構,且符合薄型化的需 求。 根據本創作之第一方面,提出一種按鍵,用以配置於 一底件上。按鍵包括一框件、一彈性體及一鍵帽。框件位 於底件上,且具有一貫穿槽體。彈性體位於底件上。彈性 3 槽體的位置,可移動地輕接於框 :貝穿槽體内。鍵帽抵接於彈性體上。 根據本創作之第二方面,提出一種鍵盤,包括_ 數個按鍵。此些按鍵配置於底件上。各按鍵包括一框 、-彈性體及-鍵帽。框件位於底件上,且具有一貫 ^體。彈性體位於底件上。彈性體的位置對應於貫穿槽體 =位置。鍵帽可移動_接於框件,且位於貫穿槽 鍵帽抵接於彈性體上。 姓輿^ 了對本創作之上述及其他方面有更佳的暸解,下文 特舉實施例,並配合所_式,作詳細說明如下: 【實施方式】 第一實施例 繪-第1圖、第2A圖、第2B圖及第3圖,第1圖 創作第—實施例之鍵盤的示意圖圖输 圖汾亍盤之其中一個按鍵的框件的示意圖,第2B 且i 3s給::之鍵盤之其中一個按鍵的鍵帽的示意圖, Hr1圖中之鍵盤之其甲—個按鍵的側視圖。 底件⑴及數個按鍵i3G。此些㈣ 彈性體133月 上。各按鍵130包括一框件13卜一 且有鍵帽135。框件131位於底件11〇上,且 性體131卜彈性體133位於底件110上, 可孩包 置對應於貫穿槽體131h的位置。鍵帽 135抿Γ輕接於框件131,且位於貫穿槽體131h内£ 抵接於彈性體133上。 M415402 當使用者往_z方向按壓鍵帽135時,鍵帽135係相 對於框件131朝向-z方向移動而致使彈性體133形變。當 使用者停止按壓鍵帽135時,彈性體〗33係藉由自身的彈 力而往+z方向推抵鍵帽135,使得鍵帽135恢復到初始位 置。如此一來,由於按鍵13〇在z方向上之移動並無需使 用到剪刀腳結構,因此按鍵13〇的厚度可減少,以符合現 下薄型化的需求。 於本實施例中,框件131與鍵帽135之其中一者(例 如是鍵帽135)具有開放式凹口 i35h ,且框件131與鍵帽 135之另一者(例如是框件131)具有凸柱131c。此處係 以鍵帽135具有三個開放式凹口 135h且框件131具有三 個凸柱131c為例說明。此三個凸柱131c係分別穿越此三 個開放式凹口 135h’以避免鍵帽135在2方向以外之方向 位移。此外,為了進一步減少使用者按壓鍵帽135時鍵帽 135有翹起的情況,此三個開放式凹口 13比分別位於鍵帽 135的相異側邊,且此三個凸柱131c分別位於框件131的 相異側邊0 另外,明參照第4圖,其綠示第1圖中之鍵盤的其中 -個按鍵的爆炸圖。為了清楚地示意出元件的位置,料 之π件係未繪示於第4圖中。本實施例之底件11〇具有兩 個限位結構111。此兩個限位結構lu彼此相對,且各具 有一穿越口 iiih。按鍵130更包括一輔助結構137,且輔 助結構137具有一门形桿137a、一第一桿137M及一第二 桿137b2。门形桿137a樞接於鍵帽135。第一桿137Μ及 第二桿137b2自η形桿137a之兩端朝向彼此延伸,且分 5 M415402 別穿越兩個限位結構lu之穿越口 1Uh。如此一來當按 ,130係為長形的結構時’因鍵帽135被使用者按壓而可 能魅起或不穩的情況係可避免。 雖然本貫施例係以開放式凹口及凸柱的數量係為三 個且刀魏於相異侧邊為例’然而此技術領域巾具有通常 失識者應明瞭’只要至少兩個開放式凹口位於相異之侧邊 且至v兩個凸柱位於相異之側邊應即可達到減少鍵帽咖 麵起的情況。也就是說,開放式凹口及凸柱的數量及位置 係可依據需求再做調整錢變。再者,職式凹口亦可位 於忙件i凸柱亦可位於鍵帽,以讓鍵帽及框件彼此間可 穩口地&位。另外’各個按鍵13{)之樞件131可例如是相 互連接且一體成型。 第二實施例 請參照第5圖及第6圖,第5圖繪示根據本創作第二 實施例之鍵帽的示意圖,且第6圖繪示具有第5圖中之鍵 帽的按鍵的侧視圖。 相較於第一實施例’本實施例之按鍵23〇的鍵帽235 的結構不同。進一步來說’鍵帽235係具有封閉式貫口 235h ’使得框件131之凸柱i3ic係穿越鍵帽235之封閉 式貫口 235h’以避免鍵帽235在z方向以外之方向位移的 情況。由於本實施例之按鍵230的結構及配置類似於第一 實施例之按鍵130的結構及配置,因此按鍵230係可具有 類似於按鍵130的優點。 M415402 根據本創作上述實施例之按鍵及應用其之鍵盤,其透 過框件、彈性體與鍵帽之配合來簡化結構,且符合薄型化 的需求。如此一來,根據本創作上述實施例之按鍵或應用 其之鍵盤之製造複雜度可降低且成本可減少,以增加市場 競爭力。 綜上所述,雖然本創作已以實施例揭露如上,然其並 非用以限定本創作。本創作所屬技術領域中具有通常知識 者,在不脫離本創作之精神和範圍内,當可作各種之更動 • 與潤飾。因此,本創作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圖繪示根據本創作第一實施例之鍵盤的示意圖。 第2A圖繪示第1圖中之鍵盤之其中一個按鍵的框件 的示意圖。 第2B圖繪示第1圖中之鍵盤之其中一個按鍵的鍵帽 φ 的示意圖。 第3圖繪示第1圖中之鍵盤之其中一個按鍵的側視 圖。 第4圖繪示第1圖中之鍵盤的其中一個按鍵的爆炸 圖。 第5圖繪示根據本創作第二實施例之鍵帽的示意圖。 第6圖繪示具有第5圖中之鍵帽的按鍵的側視圖。 【主要元件符號說明】 7 M415402 100 :鍵盤 110 :底件 111 :限位結構 lllh :穿越口 130、230 :按鍵 131 :框件 131c :凸柱 131h :貫穿槽體 133 :彈性體 135、235 :鍵帽 135h :開放式凹口 137 :輔助結構 137a :门形桿 137M :第一桿 137b2 :第二桿 235h :封閉式貫口M415402 V. New description: [New technical field] This creation is about a kind of button and keyboard for applying it, and especially relates to a thin button and a keyboard for applying the same. [Prior Art] Input devices commonly used for user operations include a keyboard, a touch panel, and a mouse. In the case of a keyboard, the keyboard includes a number of keys and corresponds to different characters or symbols of φ, respectively. When the user presses the button, the signal corresponding to the character or symbol of the button is input to the electronic product. Most of the current buttons include a keycap, a scissor foot structure, and a substrate. The scissor foot structure is disposed between the substrate and the keycap to support the keycap and allow the keycap to be vertically displaced relative to the substrate. However, the structure of the scissor foot structure is complicated, making the buttons difficult and long to manufacture and assemble. In addition, in the trend of thinning the keyboard, the structure of the cutter foot structure is often difficult to meet this requirement. Therefore, how to provide a button that simplifies the structure and meets the requirements for thinning is one of the subjects of the related industry. [New content] This creation relates to a button and a keyboard for applying the same, which simplifies the structure through the cooperation of the frame, the elastic body and the key cap, and meets the requirements of thinning. According to a first aspect of the present invention, a button is provided for being disposed on a chassis. The button includes a frame member, an elastic body and a keycap. The frame member is located on the base member and has a through slot. The elastomer is located on the base member. The position of the elastic 3 groove is movably lightly connected to the frame: the shell penetrates the groove. The key cap abuts on the elastomer. According to a second aspect of the present invention, a keyboard is provided comprising _ a plurality of buttons. These buttons are arranged on the base member. Each button includes a frame, an elastomer and a keycap. The frame member is located on the bottom member and has a consistent body. The elastomer is located on the base member. The position of the elastomer corresponds to the through slot = position. The key cap is movable _ to the frame member and is located on the through-hole key cap abutting the elastic body. The surname 舆^ has a better understanding of the above and other aspects of the present creation. The following specific embodiments, together with the formula, are described in detail as follows: [Embodiment] The first embodiment is drawn - Figure 1, 2A Figure 2, Figure 2B and Figure 3, Figure 1 is a schematic diagram of the keyboard of the first embodiment of the present invention. Figure 2B and i 3s give: A schematic view of a keycap of a button, a side view of a key of a keyboard in the Hr1 diagram. The bottom piece (1) and several buttons i3G. These (iv) elastomers are on 133 months. Each of the keys 130 includes a frame member 13 and a key cap 135. The frame member 131 is located on the bottom member 11A, and the elastic body 133 is located on the bottom member 110, and the child can be placed corresponding to the position of the through-hole body 131h. The key cap 135 is lightly connected to the frame member 131 and is located in the through-hole body 131h to abut against the elastic body 133. M415402 When the user presses the keycap 135 in the _z direction, the keycap 135 moves toward the -z direction relative to the frame member 131 to cause the elastic body 133 to deform. When the user stops pressing the keycap 135, the elastic body 33 is pushed against the keycap 135 in the +z direction by its own elastic force, so that the keycap 135 returns to the initial position. As a result, since the movement of the button 13 z in the z direction does not require the use of the scissor foot structure, the thickness of the button 13 可 can be reduced to meet the demand for the current thinning. In the present embodiment, one of the frame member 131 and the key cap 135 (for example, the key cap 135) has an open recess i35h, and the other of the frame member 131 and the key cap 135 (for example, the frame member 131) There is a stud 131c. Here, the key cap 135 has three open recesses 135h and the frame member 131 has three studs 131c as an example. The three studs 131c pass through the three open recesses 135h', respectively, to prevent the keycap 135 from being displaced in directions other than the two directions. In addition, in order to further reduce the case where the key cap 135 is lifted when the user presses the keycap 135, the three open recesses 13 are respectively located on different sides of the keycap 135, and the three studs 131c are respectively located. The different side 0 of the frame member 131. In addition, referring to FIG. 4, the green image shows the explosion of one of the keys of the keyboard in FIG. In order to clearly show the position of the component, the π component of the material is not shown in Fig. 4. The bottom member 11A of this embodiment has two limiting structures 111. The two limiting structures lu are opposite each other and each has a crossing iiih. The button 130 further includes an auxiliary structure 137, and the auxiliary structure 137 has a gate bar 137a, a first bar 137M and a second bar 137b2. The gate bar 137a is pivotally connected to the keycap 135. The first rod 137 Μ and the second rod 137 b2 extend from both ends of the n-shaped rod 137a toward each other, and the subdivision 1Uh of the two limiting structures lu is not divided into 5 M415402. In this case, when the 130 series is an elongated structure, the case where the key cap 135 is pressed by the user may be charmed or unstable. Although the present embodiment is based on the number of open recesses and studs, and the knives are different from the different sides, however, this technical field has a general dissatisfaction, as long as at least two open recesses. The mouth is located on the side of the different sides and the v-pillars on the opposite sides should be able to reduce the surface of the keycap. That is to say, the number and position of the open recesses and the studs can be adjusted according to the needs. Furthermore, the job recess can also be located on the busy member i or the key cap to allow the keycap and the frame member to be steadily & Further, the pivot members 131 of the respective buttons 13{) may be, for example, connected to each other and integrally formed. Referring to FIG. 5 and FIG. 6 , FIG. 5 is a schematic view of a key cap according to a second embodiment of the present invention, and FIG. 6 is a side view of the button having the key cap of FIG. 5 . view. The structure of the keycap 235 of the button 23 of the first embodiment is different from that of the first embodiment. Further, the keycap 235 has a closed port 235h' such that the boss i3ic of the frame member 131 passes through the closed port 235h' of the keycap 235 to prevent the keycap 235 from being displaced in the direction other than the z direction. Since the structure and configuration of the button 230 of the present embodiment is similar to the structure and configuration of the button 130 of the first embodiment, the button 230 can have advantages similar to the button 130. M415402 According to the keyboard of the above embodiment and the keyboard for applying the same, the structure is simplified by the cooperation of the frame member, the elastic body and the key cap, and the thinning requirement is met. As a result, the manufacturing complexity of the buttons or the keyboard to which the above embodiments are applied according to the present embodiment can be reduced and the cost can be reduced to increase market competitiveness. In summary, although the present invention has been disclosed above by way of example, it is not intended to limit the present invention. Those of ordinary skill in the art to which the present invention pertains may make various changes and refinements without departing from the spirit and scope of the present invention. Therefore, the scope of protection of this creation is subject to the definition of the patent application scope attached. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a keyboard according to a first embodiment of the present creation. Fig. 2A is a schematic view showing a frame of one of the keys of the keyboard in Fig. 1. FIG. 2B is a schematic diagram showing the key cap φ of one of the keys of the keyboard in FIG. 1. Figure 3 is a side elevational view of one of the keys of the keyboard of Figure 1. Figure 4 is an exploded view of one of the keys of the keyboard of Figure 1. Fig. 5 is a schematic view showing a keycap according to a second embodiment of the present invention. Fig. 6 is a side view showing the key having the key cap of Fig. 5. [Main component symbol description] 7 M415402 100: keyboard 110: bottom member 111: limit structure lllh: crossing port 130, 230: button 131: frame member 131c: boss 131h: through groove body 133: elastic body 135, 235: Key cap 135h: open recess 137: auxiliary structure 137a: gate rod 137M: first rod 137b2: second rod 235h: closed port