M321127 八、新型說明: 【新型所屬之技術領域】 本創作係有關一種鍵盤之結構改良,尤針對按鍵部份 的相關構造加以改良,旨在提供一種能夠使按鍵上下運動 更為順暢,提高按鍵上升速度,並且能夠獲得較佳觸感之 鍵盤結構。 【先前技術】 如第一圖及第二圖所示,係為一般個人電腦之鍵盤及 其上按鍵之結構剖視圖;其中,鍵盤本體1上係設有若干 插座10用以供按鍵20之插置,而在相對應於按鍵20之 下位處則設有一電路板30,並在電路板30與按鍵20之 間設有一可受按鍵20之壓抵而使電路板30所對應之電路 接點31導通之彈性耦接體40。 其中,插座10形成有用以導引按鍵20上下動作之插 槽11,至於按鍵20則配合形成有一可穿入插槽之壓抵柱 21,以及防止按鍵20鬆脫之卡鉤板23 ;又,在整體鍵盤 的設計當中,係包括有方形按鍵以及長形的按鍵,由於長 形的按鍵受力點有可能在其按鍵中心點以外的位置,因此 長形的按鍵多另外在相對應於壓抵件的兩侧設有圓導柱 22,由圓導柱22輔助引導按鍵20上下運動,使按鍵的上 下運動具有基本的順暢度。 其彈性耦接體40則為一呈倒置之凹杯狀殼體,在其 殼體内部頂點設有一耦接凸點41,主要利用凹杯邊緣與 5 M321127M321127 VIII. New Description: [New Technology Field] This creation is about the improvement of the structure of a keyboard, especially for the related structure of the button part. It aims to provide a smoother up and down movement of the button and increase the key up. Speed and the keyboard structure for better tactile sensation. [Prior Art] As shown in the first figure and the second figure, it is a structural sectional view of a keyboard of a general personal computer and a button thereon; wherein the keyboard body 1 is provided with a plurality of sockets 10 for inserting the keys 20 A circuit board 30 is disposed at a position corresponding to the lower side of the button 20, and a circuit contact 31 corresponding to the circuit board 30 is electrically connected between the circuit board 30 and the button 20 to be electrically connected. The elastic coupling body 40. Wherein, the socket 10 forms a slot 11 for guiding the button 20 to move up and down, and the button 20 is matched to form a pressing column 21 which can be inserted into the slot, and a hook plate 23 for preventing the button 20 from being loosened; In the design of the overall keyboard, there are square buttons and long buttons. Since the buttons of the long buttons may have positions outside the center point of the buttons, the buttons of the long shape are correspondingly pressed. The two sides of the piece are provided with a circular guide column 22, and the circular guide column 22 assists the guide button 20 to move up and down, so that the up and down movement of the button has basic smoothness. The elastic coupling body 40 is an inverted concave cup-shaped casing, and a coupling bump 41 is arranged at the inner end of the casing, mainly using the concave cup edge and 5 M321127.
電路板30接觸,達到支撐按鍵20之作用,並且當按鍵 20受到使用者之壓觸而向下動作時,如第三圖所示,其 ^ 彈性耦接體40即受按鍵20之觸壓而壓縮變形,並且使耦 接凸點41與電路板30之電路接點31相接觸,進而構成 ’ 該電路接點31之導通,始能夠發出該按鍵20所對應之訊 '號。 , 又,當使用者釋放對按鍵2 0之壓觸時,其彈性搞接 體40即可利用本身的彈性作用而回復至原形,除了將按 ®鍵20推頂回復到上升狀態之外,其耦接凸點41亦與電路 板30之電路接點31相脫離,進而中止訊號之發出。 在上述習有的按鍵構造當中,由於彈性耦接體40僅 •靠著其凹杯邊緣與電路板30接觸,當彈性耦接體40受按 鍵20之壓觸而壓縮變形時,事實上彈性耦接體40的凹杯 邊緣已先產生搓移,並且向外擴張;換言之,當操作者釋 放按鍵20時,其彈性耦接體40必須在凹杯邊緣向内縮回 之後才能夠進一步恢復到未壓縮之前的原形,因此嚴重拖 _延按鍵20的上升速度,進而影響整體鍵盤之操控性。 - 再者,一般鍵盤當中亦普遍設有如第三圖所示俗稱 “空白鍵”之按鍵20,空白鍵的寬度更為寬廣,因此並 須在進一步在該按鍵20與鍵盤本體1之間設置一個门型 拉桿50,用以平衡該鍵盤20兩端的作用力;原則上,门 型拉桿50之主體係軸設在按鍵20的本體上,门型拉桿 50的兩端則至少延伸到按鍵20兩侧的圓導柱22處,並 且彎折成為與主體平行的鉤抵部51,以利用鉤抵部51跨 M321127 入鍵盤1本體上所對應的鉤部lu當中,使在按鍵2^ 升下降的過程當申,其门型拉上 能夠相對與按鍵2。以及鍵般二=公及鉤抵部51 正常上下運動。彳及鍵七本…轉動,使按鍵20得以 折而】:,,的门型拉桿5〇係由單-桿徑的桿體所青 利成切使主體兩端的構型以及鉤抵部的型體能夠川頁 r 5。门型拉桿5。的桿捏將受到限制,導致η型杈 二㈣強度降低,無法確實維持按鍵2〇的平衡;= η型本1^須具備基本強度的限制, 的難度,而且如,,增加彎折加工 使得Π型拉;p 5n二? 僅能夠呈現單純的直桿狀’ 附册—二日人鍵盤本體1的鉤持效果不佳。 同内徑:小之上述其圓導柱22與插槽11係形成不 面積較大,故圓導柱22與插槽11接觸 生摩擦,導致按鍵20的^ 個圓周之接觸,容易產 獲得較佳的觸感 下運動較不順暢,而且無法 【新型内容】 本創作之主| θ ^ „ 動更為順暢,提高按鍵上^在提供==使按鍵上下運 之鍵盤結構m描目^度n⑶獲得較佳觸感 部向外擴張變形的方式^主要係以限制彈性⑽妾體基 以及,令按鍵之门式,’k而按鍵上升的速度。 里拉桿桿徑逐漸朝向主體的兩端漸 M321127 卞牛/ 、、、侣使Π型拉桿的主體具有足夠的結構強度’而且讓门型 拉桿主體兩端的構型得以順利彎折成型,甚至於可以進_ 步將Π型拉桿的鉤抵部尾端彎折 一鉤起,以增加门型拉桿 與鍵盤主體之裝配穩定度。 再者’可在鍵盤主體上設有供按鍵插設的矩形導槽, 並且在每一個矩形導槽當中設有若干個凹槽,其按鍵則相 對應設有伸入凹槽的壓抵件及略成半月形之空心凸件,冬 然其壓抵件亦可以為四個邊角向外凸出—弧狀凸出部白田勺 卑二大幅縮減壓抵件及空心凸件與凹槽的接觸面 _低杈鍵與鍵盤主體之摩擦作用,使按 為順暢,進而讓操作者獲致健之_。 下運動車乂 效··與上述既有習知技術相比較’本創作係具有下列功 本創作係採用將複數轉 -個彈性基材上,或是個別 ,⑯成型在同 每—個彈性#/ 電路板上的方式,限制 丨U坪f玍耦接體基部向外擴張 耦接體恢復原形的速度,藉 ,口此可以加快彈性 體鍵盤具有較佳之操控性升按鍵上升的速度,使整 2·本創作中的门型拉桿舰 度’可以確實維持按鍵的平衡。夠的結構強 ::創作中的门型拉桿的鉤 成—鉤起,確實可以有效提升丨毛^進步弓折升/ 4·本創作中用以引導按鍵拉桿裝配之穩定度。 略呈半月狀的構H 運動的空心凸件係為 /、㈢相配合時,可以大幅縮減其與 M321127 £ |?年1 凹槽的接觸面積,有效降低按鍵與鍵盤主體之摩擦作用, : 使按鍵上下運動較為順暢,進而讓操作者獲致較佳之觸 ' 感。 5.本創作中用以壓觸彈性耦接體壓縮的壓抵件係為 四個邊角向外凸出一弧狀凸出部的構型,與凹槽相配合 •時,可以大幅縮減其與凹槽的接觸面積,有效降低按鍵與 -鍵盤主體之摩擦作用,使按鍵上下運動較為順暢,進而讓 操作者獲致較佳之觸感。 【實施方式】 本創作之特點,可參閱本案圖式及實施例之詳細說明 而獲得清楚地瞭解。 本創作「鍵盤之按鍵構造」旨在提供一種能夠使按鍵 上下運動更為順暢,提高按鍵上升速度,以及能夠獲得較 佳觸感之鍵盤結構;如第四圖、第五圖(A)及第五圖(B) 所示,整體鍵盤按鍵之基本結構組成,係至少包含有: • 複數個插座10,係排設於鍵盤主體1上以供按鍵20 - 之插置,其插座10具有一矩形導槽12,於矩形導槽12 的區域内設有至少一個凹槽13,於實施時該凹槽13係可 以為圓形或矩形,而插座10係可供正方形或長形的按鍵 20插置。 複數個相對應套入插座10的按鍵20,其可以為具方 形或長形鍵帽24的的構型,其鍵帽24的下方係設有一個 壓抵件25,主要由鍵帽24受操作者之壓觸而朝向鍵盤主 M321127The circuit board 30 is in contact with the support button 20, and when the button 20 is pressed downward by the user's pressure, as shown in the third figure, the elastic coupling body 40 is pressed by the button 20. The compression deformation is performed, and the coupling bump 41 is brought into contact with the circuit contact 31 of the circuit board 30, thereby forming the conduction of the circuit contact 31, and the signal corresponding to the button 20 can be issued. Moreover, when the user releases the pressure contact of the button 20, the elastic engaging body 40 can return to the original shape by utilizing its own elastic action, except that the pressing of the ® key 20 is restored to the ascending state, The coupling bump 41 is also disengaged from the circuit contact 31 of the circuit board 30, thereby suspending the signal. In the above-mentioned conventional button configuration, since the elastic coupling body 40 only contacts the circuit board 30 against the edge of the concave cup, when the elastic coupling body 40 is compressed and deformed by the pressing of the button 20, the elastic coupling is actually The edge of the concave cup of the body 40 has first been displaced and expanded outward; in other words, when the operator releases the button 20, the elastic coupling body 40 must be retracted inwardly after the edge of the concave cup can be further restored to the The original shape before compression, so the drag speed of the button 20 is seriously dragged, thereby affecting the handling of the overall keyboard. - In addition, the general keyboard also has a button 20 commonly referred to as a "blank button" as shown in the third figure. The width of the blank button is wider, and therefore a further setting between the button 20 and the keyboard body 1 is required. The door type lever 50 is used to balance the force of the two ends of the keyboard 20; in principle, the main shaft of the door type lever 50 is disposed on the body of the button 20, and both ends of the door type rod 50 extend at least to both sides of the button 20. At the circular guide post 22, and bent into a hook abutting portion 51 parallel to the main body, the hook abutting portion 51 is inserted into the corresponding hook portion lu on the body of the keyboard 1 by the hook abutting portion 51, so that the button 2 is raised and lowered. When Shen, its door type can be pulled relative to button 2. And the key like two = male and hook abutment 51 normal up and down movement.彳 and the keys seven... rotate, so that the button 20 can be folded]:,, the door type tie rod 5 is cut from the single-rod diameter rod to cut the configuration of the two ends of the main body and the type of the hook abutting portion The body is able to pass the page r 5 . Door type lever 5. The pinching of the rod will be limited, resulting in a decrease in the strength of the n-type 杈2 (4), and it is impossible to maintain the balance of the button 2〇; = η-type 1^ must have the limitation of the basic strength, and, for example, increase the bending process Π type pull; p 5n two? It can only present a simple straight rod shape. Attachment - The hook effect of the two-day keyboard body 1 is not good. The same inner diameter: the smaller one of the above-mentioned circular guide post 22 and the slot 11 is formed without a large area, so the circular guide post 22 is in contact with the slot 11 to generate friction, which leads to the contact of the circumference of the button 20, which is easy to produce. Good touch under the movement is not smooth, and can not [new content] The main body of this creation | θ ^ „ move more smoothly, improve the button on the ^ provide == make the button up and down the keyboard structure m description ^ degrees (3) The way to obtain a better outward deformation and deformation of the haptic portion is mainly to limit the elasticity (10) 妾 body base and the speed of the button door type, 'k and the button is raised. The diameter of the riddle rod gradually becomes toward the both ends of the main body M321127 The yak/,,, and the bristles of the 拉-type tie rod have sufficient structural strength' and the configuration of the two ends of the door-type tie rod body can be smoothly bent, and even the hook of the 拉-shaped rod can be pushed into the tail. The end is bent and hooked to increase the assembly stability of the door type lever and the keyboard body. Further, a rectangular guide groove for inserting a button may be provided on the keyboard main body, and a plurality of rectangular guide grooves are provided in each of the rectangular guide grooves. a groove, the corresponding button There is a pressing member extending into the groove and a hollow convex member which is slightly half-moon shaped. In winter, the pressing member can also protrude outward from the four corners - the arc-shaped convex portion is white and the second is greatly reduced and reduced. The contact surface between the piece and the hollow convex piece and the groove _ the friction between the low key and the keyboard main body makes the pressing smooth, and the operator gets the health _. The lower sports car is effective and the above-mentioned conventional technology Compared with the 'creation system', the following works are created by using a plurality of flexible substrates, or individual, 16 formed on the same elastic_/ circuit board, limiting the U ping The base of the body expands outward to expand the coupling body to restore the original shape speed, so that the mouth can speed up the elastic keyboard with better controllability, and the speed of the button rises, so that the door type lever in the creation can be sure Maintain the balance of the buttons. Enough structure is strong:: The hook of the door type lever in the creation - hook up, can effectively improve the bristles ^ improve the bow and fold / 4 · The stability of the button pull rod assembly used in this creation The semi-moon-shaped H-shaped hollow convex part is /, (3) When matching, the contact area with the M321127 £ |? 1 groove can be greatly reduced, and the friction between the button and the keyboard body can be effectively reduced, so that the button moves up and down smoothly, thereby allowing the operator to obtain a better touch. Sense. 5. The pressing member for compressing the elastic coupling body in this creation is a configuration in which four corners protrude outward from an arc-shaped projection, and when matched with the groove, The contact area with the groove is greatly reduced, and the friction between the button and the keyboard body is effectively reduced, so that the button moves up and down smoothly, thereby allowing the operator to obtain a better touch. [Embodiment] The characteristics of the creation can be referred to the case. The drawings and the detailed description of the embodiments are clearly understood. The creation of the "keyboard structure of the keyboard" aims to provide a keyboard structure that can make the keys move up and down more smoothly, increase the speed of the keys, and obtain a better touch. As shown in the fourth figure, the fifth figure (A) and the fifth figure (B), the basic structure of the overall keyboard button comprises at least: • a plurality of sockets 10, which are arranged The keyboard body 1 is provided with a button 20 - and the socket 10 has a rectangular guide groove 12 , and at least one groove 13 is provided in the area of the rectangular guide groove 12 . The shape or rectangle is used, and the socket 10 is for the square or elongated button 20 to be inserted. A plurality of buttons 20 correspondingly inserted into the socket 10 may be in the form of a square or elongated keycap 24, and a pressing member 25 is disposed under the keycap 24, and is mainly operated by the keycap 24. The pressure of the person is facing the keyboard main M321127
體1下方運動,並曰 彈性搞接體40 ^經由㈣件25頂抵電路板30上^ 之矯變形。 万的 一組電路; 每一個按鍵20相#/相對應設在按鍵2G下位處,其在歲 點31。 +應的位置設有屬於特定訊號的電路^妾 接體主對應與電路接點3!配置的彈性華馬 點係設有一耦接凸、、、王倒置之凹杯狀殼體,其殼體内部頂 形,並且在其耦接點41 ’主要受按鍵20的頂抵而壓縮變 的情況下,構成診^點41觸及電路板3〇之電路接點31 鍵20所對應之訊^路接點31之導通,始能夠發出該按 係分別:將彈;:耦第六圖所示的實施例當中, 在同-個彈性基材 個彈性辆接體40基部向外以:不)的方式’限制每- 輕接體4◦恢復利二擴張交形,因此可以加快彈性 使敕雕跡 的錢,料提升按鍵上升的速度, 使正肢鍵盤具有較佳之操控性。 按鍵圖所不的貫施例當中,按鍵20係為一長形的 ^,料鍵2〇係在鍵帽24的中心下方設有—個壓抵件 =之之Γ,另外在相對應於壓抵件25的兩側設有略成半月 ίΓΓ件26’由空心凸件26辅助引導按鍵20上下 带二if 動具有基本的順暢度,故其矩 八㈢㈣配合形成有三個凹槽13,以供按鍵2〇的 10 M321127 壓抵件25及兩個空心凸件26伸入所對應之凹槽13中; 於實施時,壓抵件25係可以呈圓柱狀,並且在其中央設 有呈十字型的壓抵部251,如第五圖(A )、第五圖(B ) 及第/、圖所示,能夠使壓抵件25與彈性耗接體4〇獲得較 佳的接觸效果。 另外’矩形導槽12係在其中兩個位於外侧的凹槽1 内壁面形成有一凸塊14,其空心凸件26則相對應設有# 凸,14構成扣持作用的凸扣27;請同時配合參照第四環 f第七圖所示,纟空心凸件26係在其外側之壁面分则 口又有—溝槽261,此二溝槽261間則形成一彈片271, 凸扣27即設在彈片271的底緣,以當空心凸件%伸入正 2 13中之後,可以透過凸扣27與凸塊14所構成的扣相 乍用限制按鍵20不致於任意脫落,並且由空心凸件2( ^助引導按鍵2〇上下運動,使按鍵20的上下運動具有基 的順暢度;尤其,請同時參閱第六圖所示,其空心凸件 敕^凹槽13之_配合最多係形成5個點狀接觸,而非 了们工心凸件26外緣的表面接觸,因此可以大幅发 1槽13的接觸面積,有效降低 " 之摩擦作用,使按鍵20上下運動私兔丨以日/、運瓜主1 者獲致較佳之觸残。 滅概,進而讓操作 當^ ’其按鍵2G亦可以為第人圖所示的方形 ^八圖:示的實施例當中’按鍵20係只有在鍵帽 的I: —個壓抵件25’而矩形導槽12内則相 又有—個凹槽13’因此在該凹槽U之内壁面亦形The lower side of the body 1 is moved, and the elastic engaging body 40 is pressed against the correcting deformation of the circuit board 30 via the (four) member 25. A group of circuits; each button 20 phase #/ is correspondingly located at the lower position of the button 2G, which is at the age 31. + The position of the circuit is provided with a signal belonging to a specific signal. The main body of the connector is connected to the circuit contact 3. The elastic horse point of the configuration is provided with a concave cup-shaped housing with a coupling convex, and the king is inverted. The internal top shape, and in the case where the coupling point 41' is mainly compressed by the top of the button 20, the communication node 41 contacts the circuit board 31 of the circuit board 3 When the point 31 is turned on, the button can be issued separately: the bullet; in the embodiment shown in the sixth figure, in the same manner, the base of the elastic substrate of the same elastic substrate is outwardly: 'Limiting each - the light body 4 ◦ restores the second expansion of the cross shape, so it can speed up the flexibility to make the money of the sculpt, and it is expected to increase the speed of the button rise, so that the right limb keyboard has better handling. In the embodiment of the key map, the button 20 is an elongated shape, and the material key 2 is provided under the center of the key cap 24 with a pressing member = the other, corresponding to the pressure The two sides of the abutting member 25 are provided with a slightly half-moon member 26', and the hollow protruding member 26 assists the guiding button 20 to have a basic smoothness. Therefore, the eight (3) and (four) moments of the engaging member are formed with three grooves 13 for The 10 M321127 pressing member 25 and the two hollow protruding members 26 of the button 2 are inserted into the corresponding recesses 13; in practice, the pressing member 25 can be cylindrical and has a cross shape at the center thereof. As shown in FIG. 5(A), FIG. 5(B) and FIG. 3, the pressing portion 251 can obtain a better contact effect between the pressing member 25 and the elastic consumable body 4b. In addition, the rectangular guide groove 12 is formed with a bump 14 on the inner wall surface of the groove 1 on the outer side, and the hollow protrusion 26 is correspondingly provided with a convex portion, and 14 constitutes a latching buckle 27; Referring to the seventh ring f shown in the seventh figure, the hollow convex member 26 has a groove 261 formed on the outer wall surface thereof, and a spring piece 271 is formed between the two grooves 261, and the convex buckle 27 is provided. At the bottom edge of the elastic piece 271, after the hollow convex piece % protrudes into the positive 2 13 , the buckle button 21 and the convex block 14 can be used to prevent the button 20 from falling off arbitrarily, and the hollow convex piece is 2 ( ^ Help guide button 2 〇 up and down movement, so that the up and down movement of the button 20 has a smoothness of the base; in particular, please also refer to the sixth figure, the hollow convex member 凹槽 ^ groove 13 _ fit up to form 5 The point contact, instead of the surface contact of the outer edge of the workpiece 26, can greatly increase the contact area of the slot 13 and effectively reduce the friction effect of the button 20 to move the button up and down. The owner of the melon master has been given a better touch. The generalization, and then let the operation be ^ 'the button 2G also It can be a square figure shown in the figure of the first figure: in the embodiment shown, the button 20 is only in the key cap I: one pressing member 25' and the rectangular channel 12 has a groove in the phase 13' Therefore, the inner wall of the groove U is also shaped
M321127 有凸塊14;另外,該壓抵件25的四個邊角係向外凸出一 弧狀凸出部28,壓抵件25外侧之壁面分別破設有二溝槽 ,261,此二溝槽261間則形成一彈片271,同樣的在彈片 271的底緣形成有凸扣27,在壓抵件25伸入凹槽13之 ' 後,可透過凸扣27與凸塊14之卡持作用,使按鍵20得 -以快速卡固於插座10中而不致於任意脫落;尤其,壓抵 -件25係透過各凸出部28與凹槽13接觸,如第九圖所示, 各凸出部28伸入凹槽13中最多形成8個點狀接觸,而非 籲整個壓抵件25外緣的表面接觸,因此可以大幅縮減其與 凹槽13的接觸面積,有效降低按鍵20與鍵盤主體1之摩 擦作用,使按鍵20上下運動較為順暢,進而讓操作者獲 致較佳之觸感。 再者,如第十圖所示,當按鍵20係為長度更長的“空 白鍵”時,其係進一步在該按鍵20與鍵盤本體1之間設 置一個门型拉桿5 0,用以平衡該鍵盤2 0兩端的作用力; 原則上,Π型拉桿50之主體係軸設在按鍵20的本體上, •门型拉桿50的兩端則至少延伸到按鍵20兩侧的空心凸件 • 26處,並且彎折成為與主體平行的鉤抵部51,以利用鉤 抵部51跨入鍵盤1本體上所對應的鉤部12當中,使在按 鍵20上升下降的過程當中,其门型拉桿50的主體以及鉤 抵部51能夠相對與按鍵20以及鍵盤本體1轉動,使按鍵 20得以正常上下運動。 如第十一圖(A)及第十一圖(B)所示,本創作主 要係令按鍵20之门型拉桿50桿徑逐漸朝向主體的兩端漸The M321127 has a bump 14; in addition, the four corners of the pressing member 25 project outwardly from an arc-shaped projection 28, and the wall surface of the pressing member 25 is respectively broken with two grooves, 261, and the second A spring piece 271 is formed between the grooves 261. Similarly, a buckle 27 is formed on the bottom edge of the elastic piece 271. After the pressing member 25 extends into the groove 13, it can be engaged with the protrusion 14 and the protrusion 14. The function of the button 20 is fastened to the socket 10 without being detached arbitrarily; in particular, the pressing member 25 is in contact with the groove 13 through the respective projections 28, as shown in the ninth figure, each convex The outlet portion 28 extends into the recess 13 to form a maximum of eight point contacts instead of the surface contact of the outer edge of the entire pressing member 25, so that the contact area with the recess 13 can be greatly reduced, and the button 20 and the keyboard are effectively reduced. The friction of the main body 1 makes the button 20 move up and down relatively smoothly, thereby allowing the operator to obtain a better touch. Furthermore, as shown in the tenth figure, when the button 20 is a "blank key" having a longer length, it further provides a door type lever 50 between the button 20 and the keyboard body 1 for balancing the button. The force of the two ends of the keyboard 20; In principle, the main system shaft of the 拉-type pull rod 50 is disposed on the body of the button 20, and the two ends of the door type rod 50 extend at least to the hollow protrusions on both sides of the button 20. And bending into a hook abutting portion 51 parallel to the main body to straddle the hook portion 12 corresponding to the main body of the keyboard 1 by the hook abutting portion 51, so that the door type lever 50 is in the process of ascending and descending the button 20 The main body and the hook abutting portion 51 are rotatable relative to the button 20 and the keyboard body 1, so that the button 20 can be normally moved up and down. As shown in Figure 11 (A) and Figure 11 (B), this creation mainly causes the door-type lever 50 of the button 20 to gradually tap toward the ends of the main body.
M321127 縮(如圖所示之a>b>c>d),使门型拉桿50的主體具有足夠 的結構強度,而且讓门型拉桿50主體兩端的構型得以順利 ^ 彎折成型,甚至於可以進一步將门型拉桿50的鉤抵部51 尾端彎折一鉤起52 (如第十一圖(Α)所示),或如第十 " 一圖(Β )所示,鉤抵部51尾端之鉤起52延伸至门型拉桿 5 0處,也可將該鉤起5 2與门型拉桿5 0固接,以增加门型拉 、桿50與鍵盤主體之裝配穩定度。 藉由上述之結構設計,確實可以加快彈性耦接體恢復 ®原形的速度,藉以提升按鍵上升的速度,使整體鍵盤具有 較佳之操控性,而且使按鍵之Π型拉桿主體兩端的構型得 以順利彎折成型,以及增加门型拉桿與鍵盤主體之裝配穩 定度。 本創作之技術内容及技術特點巳揭示如上,然而熟悉 本項技術之人士仍可能基於本創作之揭示而作各種不背 離本案創作精神之替換及修飾。因此,本創作之保護範圍 應不限於實施例所揭示者,而應包括各種不背離本創作之 替換及修飾’並為以下之申請專利範圍所涵盖。 【圖式簡單說明】 第一圖係為習用鍵盤之按鍵結構分解圖。。 第二圖係為習用按鍵之結構剖視圖。 第三圖係為按鍵之習用门型拉桿結構示意圖。 第四圖係為本創作第一實施例之鍵盤按鍵分解圖。 第五圖(A)係為本創作第一實施例之按鍵結構剖視圖。 13 M321127 丨时月f日$正1 ^iwja 第五圖(B )係為本創作第一每 第六圖係為本創作第二實施例( 第七本創作第1施例當中按;之= 結構剖視圖。 二“凸柱k/f面 第八圖係為本創作第 第九圖係為本創作第 剖視圖。 二實施例之鍵盤按鍵分解圖。 三實施例中按鍵之壓抵件斷面結構M321127 is reduced (as shown in the figure a>b>c>d), so that the main body of the door type tie rod 50 has sufficient structural strength, and the configuration of the two ends of the body of the door type tie rod 50 can be smoothly bent and formed, even The tail end of the hook abutting portion 51 of the door type tie rod 50 may be further bent by a hook 52 (as shown in FIG. 11 (Α)), or as shown in the tenth " The hook end 52 of the 51 end extends to the door type lever 50, and the hook 5 2 can also be fixed to the door type rod 50 to increase the assembly stability of the door type pull, the rod 50 and the keyboard body. With the above structural design, it is possible to speed up the recovery of the elastic coupling body to the original shape, thereby increasing the speed at which the button is raised, so that the overall keyboard has better maneuverability, and the configuration of the two ends of the button body of the button is smoothly performed. Bending and forming, and increasing the assembly stability of the door type lever and the keyboard body. The technical content and technical features of the present invention are disclosed above, but those skilled in the art may still make various substitutions and modifications without departing from the spirit of the present invention based on the disclosure of the present invention. Therefore, the scope of the present invention should not be limited by the scope of the present invention, but should be included in the following claims. [Simple description of the drawing] The first figure is an exploded view of the key structure of the conventional keyboard. . The second figure is a structural cross-sectional view of a conventional button. The third figure is a schematic diagram of the structure of the conventional door type lever of the button. The fourth figure is an exploded view of the keyboard keys of the first embodiment of the present invention. Fig. 5(A) is a cross-sectional view showing the structure of the key of the first embodiment of the present invention. 13 M321127 丨时月日日$正1 ^iwja The fifth picture (B) is the first picture of this creation. The sixth picture is the second embodiment of the creation (in the seventh embodiment of the seventh creation; The cross-sectional view of the structure. The second figure of the k-f surface of the convex column is the ninth figure of the creation. The first section is the exploded view of the keyboard. The exploded view of the keyboard button of the second embodiment.
:十圖係為本創作第四實施例之鍵盤按鍵分解圖。 弟十圖(A)係為本創作第四實施例中门型 結構放大圖。 干艾尾立而 ^ | _ 圖(B)係為本創作第五實施例中门型拉 結構放大圖。 之尾端 【主要元件代表符號說明】 1鍵盤本體 1 〇插座 11插槽 111釣部 12矩形導槽 13凹槽 W凸塊 20按鍵 21壓抵柱 22圓導柱 14 M321127 23卡鉤板 c 24鍵帽· ^ 25壓抵件 251壓抵部 • 26空心凸件 261溝槽 > 27凸扣 271彈片 • 28凸出部 30電路板 31電路接點 4彈性基材 40彈性耦接體 41耦接凸點 50门型拉桿 51鉤抵部 春52鉤起The ten figure is an exploded view of the keyboard button of the fourth embodiment of the present invention. The tenth figure (A) is an enlarged view of the door type structure in the fourth embodiment of the present invention. The dry Aiwei stands and ^ | _ Figure (B) is an enlarged view of the door type pull structure in the fifth embodiment of the present creation. End [Main component representative symbol description] 1 Keyboard body 1 〇 Socket 11 slot 111 Fishing part 12 Rectangular guide groove 13 Groove W Bump 20 Button 21 Pressing post 22 Round guide post 14 M321127 23 Hook plate c 24 Key cap · ^ 25 pressing member 251 pressing portion • 26 hollow convex member 261 groove> 27 protruding button 271 elastic piece • 28 protruding portion 30 circuit board 31 circuit contact 4 elastic substrate 40 elastic coupling body 41 coupling Connecting the bump 50 door type lever 51 hook to the spring 52 hook