1361367 八、發明說明: 【發明所屬之技術領域】 本發明係有關於一種多軸平衡觸控按鍵所構成之 鍵盤裝置,此尤指一種具有按壓穩定性之觸控按鍵所 構成之鍵盤裝置’以供使用者不論按壓觸控按鍵上之 任何位置,都能保持按壓之穩定性,有效防止按壓觸 鲁麟鍵時發生搖晃現象,藉以達到鍵盤裝置能正確輸 出信號者。 【先前技術】 電腦賴的進步,對人們生活的涵蓋性日益擴 大,而且各種新式的輸入方式不斷的被研發(如語音 輸入、手寫辨識輸入··等),其中最符合人類需求的 • 輸入介面’還是以電腦鍵盤為主,並由複數個按鍵所 組成’而其結構係在一鍵帽的底部中央設一鍵柱以按 壓-導電橡膠’使該導電橡膠與薄膜電路接通,以作 為訊號之傳遞’惟在快速鍵人按鍵時,有時因使用者 ,、按到鍵巾目之邊緣或側角,常使鍵柱無法順利下壓按 通電路’而未能正確執行輸入操作,為解決上述問題, 業界亦提出不少方案,例如我國專利第八五二〇五二 5 八二號(下稱前案),其係利用交叉方式分別連接該鍵 帽之四個端點,以解決習式所發生之缺失。 雖說該前案可避免鍵盤其按鍵按壓時,會有鍵帽 按壓不當的情況產生,但因其構件十分繁雜,造成生 產上諸多不便,再者複數個按鍵之組件繁多其良率亦 大幅降低β ‘ 再者,按鍵的結構也因觸控板的廣泛使用,帶來 了相當的方便性,而在使用功能不斷的增加中,觸控 式的按鍵上其觸控板的使用面積也隨著增加;然而在 觸控板下转作動元件未必作好軸顧置,使得而 按壓該觸控板上的每-個不同按舰的感應力道,卻 存在著按壓獨勻的問題,特暇在觸控板面積加大 後按壓時會產生搖晃的情況,而廣為人所垢病者。 【發明内容】 采討上述習式的缺失,本案發明人發現其最大原 因’乃在按壓時觸控板下方的作動元件,其支樓下壓 力道的配置不均勻所致,魏於此,於是本案發明人 乃提出-種多軸平衡觸控按鍵所構成之_裝置的構 心藉以解決習式所存缺失,即本發明之目的係在提 供-種多軸平衡觸控按鍵所構成之_裝置,該鍵盤 裝置係包3至少一個以上之觸控按鍵,該觸控按鍵係 由-具有觸控板之減平板、—接_關、—底座及 複數個平衡π件所組成,該複數個平衡元件係設於該 按愿平板與底座之間,以均分觸健鍵的總重量, 其中: 該按壓平板,其底面設有複數個之第-限位元 件,其係以兩個不同軸向排列,且每一軸向各設有至 少一第一限位元件; 該接觸開關,係常態推頂該按壓平面之底面; 該底座,其上設有複數個之第二限位元件,其係 以兩個不同軸向排列,且每一軸向各設有至少一第二 限位元件; 該複數個平衡元件,係分布在二呈不同的軸向 上,其母一平衡元件為一呈门形之元件,其上端之長 桿與末端之突出端各自卡銜於該第一限位元件與第二 限位元件中,而該第一、二限位元件中至少有一具有 水平溝槽,以供該平衡元件作平行於該按壓平板的滑 移,可均勻分布下壓力道,俾使按壓該觸控按鍵上任 何位置,都能保持穩定垂直上下,以完全觸動接觸開 關作動,藉此達到按叙穩定性,有效防止按壓時發 生搖晃現象’續保鍵盤裝置能正確輸出信號者。 上述本發明乃利用複數個平衡元件,係呈現多轴 向之分布制,使該觸魏上所設置之複數個按霍 區,無論使用者按壓該觸控按紐其觸控板上之任一位 置之按舰’均能使整個按壓平板獲得均勻支樓下壓 之力道’而呈現穩定垂直上下作動,特能有效解決習 弋斤存之缺《纟其對於觸按按叙其觸控板為大面積 時,其按壓操作更能發揮防止搖晃現.象之產生者。 上述本發明之觸控板,其上區分為複數個按壓 區’每-按舰係操控不同之輪出信號,以作為電子 裝置(如電腦)其祕所定義之字元意義的執行,即 按愿該觸控按紐其觸控板上的每一接壓區時,即會正 確觸動該觸關,並代表;^錢被輸出。 又上述本發明之複數個平衡元件,其係以雙轴向 分布而呈十字形交叉排列’且其交又處之二平衡元件 中至少有-平衡元件具有至少一凹部,使各平衡元件 知以在同一平面上作動,且不相互干擾。 又上述本發明之複數個平衡元件,其係以雙軸向 分布而呈L字形排列。 又上述本發明之複數個平衡元件’其係以雙軸向 分布而呈#子形排列。 又上述本發明之複數個平衡元件,其係以雙軸向 分布而呈Η字形排列。 又上述本發明之按壓平板,其底面所設之複數個 第-限位元件巾,敍少有―為定財槽,其具有一 凹入之限位部,以供該平衡元件其長桿卡銜其内,並 作為其旋轉作動之限位者。 又上述本發明之按壓平板其底面所設之複數個第 限位元件巾,係至少有—為滑移卡槽,其具有一水 平溝槽,以供該平衡元件其突出端卡銜其内並作滑移 作動者。 又上述本發明之底座,其上所設之複數個第二限 位元件中’係至少有-為定點卡槽,其具有一凹入之 限位部’以供該平衡元件其長桿卡銜其内,並作為其 旋轉作動之限位者。 又上述本發明之底座,其上所設之複數個第二限 位元件令,係至少有一為滑移卡槽,其具有-水平溝 槽,以供該平衡元件其突出端卡銜其内並作滑移作動 者。 上述本發明之多軸平衡觸控按鍵所構成之鍵盤裝 置,其中該複數個平衡元件中,至少有兩個平衡元件 係相互交又且以不同軸向排列,其中—個平衡元件, 以其上端長桿卡銜於該底座之第二限位元件,其末端 之突出端卡銜於該按壓平板下方之第—限位元件,另 -個平衡7G件以其上端長桿卡銜於該按壓平板下方之 第-限位元件’其末端之突出端卡銜於底座之第一限 位元件,藉以避免活動時之交互干擾。 上述本發明之平衡元件,其係由金屬條所製成(如 鐵絲等)’藉以增強平衡元件的剛性。 【實施方式】 請參閱第一、二、三、四圖所示,本發明其鍵盤 裝置E,係由至少一個以上之觸控按鍵E1所構成, 該觸控按鍵E1係由一具觸控板1 i之按壓平板工、 -接觸開關3、-底座4及複數個平衡元件2所組 成,該複數個平衡元件2係設於該按壓平板工與底座 4之間,其中: 該按壓平板1,其觸控板^上區分為複數個按 壓區111 ’而該按壓平板1其底面i 2設有複數個 之第-限位元件1 3 ’並以兩個不_的、γ排列, 旦每-軸向X、Υ各設有至少—第—限位元件丄3 ; 上述本發明之觸控板11 ’其上區分為複數個按壓區 111’每-按壓區111係操控不同之輸出信號, 以作為電子裝置(如電腦)其系統所定義之字元意義 的執行,例如第一圖所示每一按壓區i丄丄代表不同 的字元意義,故當按壓該按壓平板1其觸控板i工上 的不同按壓區1 1 1時,即會觸動該接觸開關3,此 即表示不同信號被輸出。 該接觸開關3,係一彈性元件而具有一彈性壓迫 空間3 0,其頂部31常態推頂該按壓平板丄之底面 12並使其向上,且該接觸開關3係為一按壓開關; 該底座4,其上設有複數個之第二限位元件4 1,其係以兩個不同軸向X、Y排列,每一軸向χ、 Υ各設有至少一第二限位元件4工; 該複數個平衡元件2,係分布在二呈不同的軸向 11 1361367 X、YJl ’其每—平航件2係-呈π字形之元件, 其上端之铸21縣端之如端自卡銜於該 第一限位元件Γ3與第二限位元件41_,而該第 -限位7C件13、4lf至少有—具有水平溝槽 1 乂供該平衡兀件2作平行於該按>1平板1的滑 移; 藉由以上元件之組成’利用該平衡元件2之長桿 2 1卡銜於該㈣平板i其底面i 2之第—限位元件 13其末端之突出端2 2則卡銜於該底座4之第二 限位元件41,並呈雙軸向χ、γ之分布,當手指下 壓時(如第四圖所示),該按壓平板1會隨之下壓該接 觸開關3及該平衡元件2,使各平衡元件2呈傾斜, • 且因該第二限位元件41係為一滑移卡槽Β,其具有 -水平溝槽Β1 ’以供該突出端2 2可於其内作滑移 作動,再者該複數個之平衡元件2係呈雙軸向χ、γ 分布,使得整個按壓平板i之力道,可均勻分布下壓 力道’而使用者手指施壓於該按壓平板1時,不論按 壓位置為何’皆能使該按壓平板1保持穩定的垂直上 下按壓該接觸開關3,且不會發生搖晃現象,以達到 12 1361367 鍵盤裝置E能正確輸出信號之作動者;而當手指下壓 力道消失,該接觸開關3不再受外力作用,因其係一 彈性元件具有回復原來形狀之彈力,且其頂部31會 常態推頂該按壓平板1向上回位(如第三圖所示)。 上述本發明之複數個平衡元件2,其係以雙軸向 X、Y分布而呈十字形交叉排列,且其交叉處之二平 衡元件2中至少有一平衡元件具有至少一凹部23, 使各平衡元件2得以在同_平面上作動,而不相互干 擾(如第一、二、三、四圖所示)。 又上述本發明之按壓平板i,其底面丄2所設之 複數個第-雜元件i 3巾,敍少有—狀點卡槽 A其具有-凹入之限位部ai,以供該平衡元件2其 長矛干2 1卡銜其内,並作為其旋轉作動之限位者。 又上述本發明之底座4,其上所設之複數個第二 限位元件41中’至少有—為滑移卡槽B,其具有一 水平溝槽B1 ’以供該平衡元件其突出端2 2卡銜其 内並作滑移作動者。 如第五圖所示,係本發明之第二實施例,其中該 按壓平板1其底面12所設之複數個第—限位元件丄 13 ’係以兩個不同軸向X、丫分布呈L字形之排列, 以供對應複數個之平衡元件2其上端長桿21卡銜於 該複數個第-限位元件13 +之定點卡槽a,且該接 觸開關3 f態推勸該賊平幻之底面i 2,而該 平衡元件2兩側之突出端2 2則卡銜於該底座4其複 數個第二限位元件41中之滑移卡槽B,並受按壓而 在該滑移卡槽B之水平構槽B i内作前後滑移作動 (如第六、七圖所示),其作動如同上述實施例一般, 藉此可達湖肋複數辦衡元件2作雙軸向滑移, 以均句分布下壓力道,而簡該按壓平板1穩定的垂 直上下,以觸動該接觸開關3者。 如第八、九、十圖所示,係本發明之第三實施例, 其中該按壓平板1其底面12所設之第-限位元件工 3 ’係為-滑移卡槽b,其具有—水平溝槽b丄,以 仵J其末端之突出端2 2卡銜其丨 並作滑動作動者,而該底座4其上所設之第二限位; 件41 ’係為-定點卡槽A,其具有—凹人之限位名 A1,以供該平衡元件2其上端之長桿21卡齡 内,並作為其旋轉作動之限位者,#此以均分該· 1361367 按鍵E1的總重量;此外,該複數個之第一限位元件 1 3及複數個之第二限位元件4 1係以^向 X、Y排列,以供對應複數個之平衡元件2交叉呈乙 字形分布,該平衡元件2並受按―作前後滑·移,其 作動如同上述實施例-般,可__該複數個 平衡元件2作雙軸向滑移,並明勻分布下壓力道, 而保持該按壓平板1敎_直上下,明動該接觸 開關3。 如第十-、十二、十三圖所示,係本發明之第四 實施例’其中該按壓平板1底面i 2設有複數個之第 -P艮位元件1 3,而此複數㈣—限位元件i 3中係 包含-個以上之定位卡槽歧—個以上之滑移卡槽 B ’並對應底座4設有複數個之第二限位元件々I, 而此複數個第二限位元件4 i中係包含—個以上之定 位卡槽A及-個以上之滑移卡槽B,並以兩個不同轴 向X、Y分布’該複數個平衡元件2呈[字形排列卡 銜於該第…二限位元件13、41,其作動如同上 述各實施例—般,藉此可達_職複數個平衡元件 2作雙轴向/f移,明勻分布下壓力道而保持該按 15 壓平板1穩定的垂直上下作動,以觸動該接觸開關3 者。 如第十四、十五、十六圖所示,係本發明之第五 實施例,其中該按壓平板1底面12設有複數個之第 一限位元件13,而此第一限位元件13係包含一個 以上之定位卡槽A及一個以上之滑移卡槽B,並對應 該底座4設有之複數個之第二限位元件41,而此第 二限位元件41係包含一個以上之定點卡槽A及一個 以上之滑移卡槽B ’並以兩個不同轴向X、γ分布, 以供與其對應之三個平衡元件2係呈Η字形排列,其 作動如同上述各實施例一般,藉此可達到利用該複數 個平衡元件2作雙軸向滑移,以均勻分布下壓力道, 而保持該按壓平板1穩定的垂直上下作動,以觸動該 接觸開關3者。 如第十七、十八、十九圖所示,係本發明之第六 實施例,其中該按壓平板1之底面i 2設有複數個之 第一限位元件13,而此複數個第一限位元件13係 包含一個以上之定位卡槽A,以及對應該底座4設有 複數個第二限位元件41,而此複數個第二限定元件 1361367 .4 1係包含一個以上之滑移卡槽B,並以兩個不同軸 向X、γ分布呈井字形之排列,以供對應複數個之平 衡元件2卡銜,並以雙軸向X、γ分布呈#字形交又排 列’且其交又處之複數個平衡元件2中至少有一平衡 兀件2具有複數個個凹部2 3,以避免作動時相互干 擾,且受按壓作前後滑移作動;其作動如同上述各實 施例一般,藉此可達到利用該複數個平衡元件2作雙 轴向滑移,以均勻分布下壓力道,而保持該按壓平板 1穩定的垂直上下作動,以觸動該接觸開關3者。 如第一十、二十一、二十二圖所示,係本發明之 第七實施例,其中該按壓平板i之底面i 2設有複數 個之第一限位元件13,而此複數個第一限位元件工 3係包含一個以上之定點卡槽A及一個以上之滑移卡 槽B,以及對應該底座4設有複數個第二限位元件4 1,而此複數個第二限定元件4 i係包含一個以上之 定點卡槽A及一個以上之滑移卡槽B,並以兩個不同 轴向X、Y呈井字形之排列,以供對應複數個之平衡 元件2卡銜作動;其作動如同上述各實施例一般,藉 此可達到利用該複數個平衡元件2作雙軸向滑移,以 17 均勻分布下壓力道,而保持該按壓平板1穩定的垂直 上下作動,以觸動該接觸開關3者。 綜上所述’藉由本發明之結構精簡、組裝方便,更 可確保按鍵能穩定垂直按壓接_關,且按壓不同位置 可產生不同輸出城’而取代傳統鍵盤的功能者因此 本發明特具實㈣步效益,特能簡決f式所存之缺失 者。 在本發明内容中所提出之具體實施例僅用以方便 說明本發明之技抽容,而非將本發鴨義地限制於上 述實施例,在不超出本發明之精神與下述之申請專利範 圍的情泥下’所作的麵變化實施,仍屬於本創作之範 圍。 【圖式簡單說明】 第一圖,係本發明鍵盤裝置平面圖。 第二圖,係本發明立體分解圖。 第三圖,係本發明作動剖面圖(―)。 第四圖,係本發明作動剖面圖(二)。 第五圖,係本發明第二實施例立體分解圖。 第六圖,係本發明第二實施例其作動剖面圖(一)。 第七圖’係本發明帛二實施例其作動剖面圖(二)。 第八圖’係本發明第三實施例立體分解圖。 1361367 第九圖,係本發明第三實施例其作動剖面圖(一)。 第十圖,係本發明第三實施例其作動剖面圖(二)。 第十一圖,係本發明第四實施例立體分解圖。 第十二圖,係本發明第四實施例其作動剖面圖(一)。 第十三圖,係本發明第四實施例其作動剖面圖(二)。 第十四圖,係本發明第五實施例立體分解圖。1361367 VIII. Description of the Invention: [Technical Field] The present invention relates to a keyboard device composed of a multi-axis balanced touch button, and more particularly to a keyboard device having a touch-sensitive touch button The user can maintain the stability of the pressing regardless of pressing any position on the touch button, and effectively prevents the shaking phenomenon when the button is pressed, so that the keyboard device can correctly output the signal. [Prior Art] The advancement of computers has increased the coverage of people's lives, and various new input methods have been continuously developed (such as voice input, handwriting recognition input, etc.), among which the input interface is most suitable for human needs. 'It is still based on a computer keyboard and consists of a plurality of buttons' and its structure is provided with a key column at the bottom of the bottom of a keycap to press-conductive rubber' to connect the conductive rubber to the film circuit as a signal. The transmission 'only when the button is pressed, sometimes due to the user, pressing to the edge or side angle of the key towel, often the key column can not be pressed down smoothly to press the circuit 'and failed to perform the input operation correctly, To solve the above problems, the industry has also proposed a number of programs, such as China Patent No. 85 2 552 5 8.2 (hereinafter referred to as the previous case), which uses the crossover method to connect the four end points of the keycap respectively to solve The absence of the habit. Although the former case can avoid the situation that the key cap is improperly pressed when the keyboard is pressed, the component is very complicated, which causes inconvenience in production, and the components of the plurality of buttons are greatly reduced in yield. In addition, the structure of the buttons is also quite convenient due to the wide use of the touchpad. In the ever-increasing use of functions, the use area of the touchpad on the touch-sensitive buttons is also increasing. However, under the touchpad, the rotating component may not be properly positioned, so that pressing each of the different sensing forces of the touchpad has the problem of pressing the uniform, especially in the touch. When the area of the board is increased, it will be shaken when pressed, and it is widely used. SUMMARY OF THE INVENTION In view of the lack of the above-mentioned formula, the inventor of the present invention found that the biggest reason is that the actuating element under the touchpad is pressed, and the arrangement of the pressure channel under the branch is uneven, so here, The inventor of the present invention has proposed a configuration of a multi-axis balanced touch button to solve the problem of the conventional method, that is, the object of the present invention is to provide a multi-axis balanced touch button. The keyboard device is a package 3 comprising at least one touch button, the touch button is composed of a touch panel, a touch panel, a base, and a plurality of balanced π components, and the plurality of balance components The utility model is disposed between the wishing plate and the base to divide the total weight of the touch key, wherein: the pressing plate has a plurality of first-restricting elements on the bottom surface thereof, which are arranged in two different axial directions. And each of the axial directions is provided with at least one first limiting component; the contact switch is normally pushed to push the bottom surface of the pressing plane; the base is provided with a plurality of second limiting components thereon, which are Two different axial alignments, and Each of the axial directions is provided with at least one second limiting element; the plurality of balancing elements are distributed in two different axial directions, and the mother-balancing element is a gate-shaped element, and the upper end of the rod and the end The protruding ends are respectively locked in the first limiting component and the second limiting component, and at least one of the first and second limiting components has a horizontal groove for the balancing component to be parallel to the pressing plate Sliding, evenly distributing the lower pressure channel, so that any position on the touch button can be pressed to maintain a stable vertical up and down, so as to fully touch the contact switch, thereby achieving the stability of the reference, effectively preventing the shaking phenomenon when pressing 'Renewal keyboard device can output the signal correctly. The above-mentioned invention utilizes a plurality of balancing elements, which are presented in a multi-axial distribution system, so that the plurality of pressing zones provided on the touch panel are pressed by the user, regardless of whether the user presses the touch button or any of the touchpads thereof. The location of the ship's 'can make the entire pressing plate get the force of the uniform support down the pressure' and present a stable vertical up and down action, which can effectively solve the problem of the 弋 弋 纟 纟 纟 对于 对于 对于 触 触 触 触 触 触When the area is large, the pressing operation can be used to prevent the shaking of the image. The touch panel of the present invention is divided into a plurality of pressing areas for each of the control signals of the ship system to perform the function of the characters defined by the secrets of the electronic device (such as a computer), that is, pressing It is hoped that when the touch button is pressed in each of the touch panels, the touch will be correctly touched and represented; Further, in the above-mentioned plurality of balancing elements of the present invention, which are arranged in a cross shape by a biaxial distribution, and at least one of the two balancing elements of the intersection has at least one concave portion, so that the respective balancing elements are known. Actuate on the same plane and do not interfere with each other. Further, in the above-described plurality of balance elements of the present invention, they are arranged in an L-shape in a biaxial distribution. Further, the plurality of balancing elements of the present invention described above are arranged in a bimodal shape in a biaxial distribution. Further, the plurality of balance members of the present invention are arranged in a U-shape in a biaxial distribution. Further, in the pressing plate of the present invention, the plurality of first-restricted component towels provided on the bottom surface thereof have a "definite", and have a concave limiting portion for the long-term card of the balancing component. Within the title, and as the limiter of its rotation. Further, the plurality of the first limit member wipers provided on the bottom surface of the press plate of the present invention have at least a sliding card slot having a horizontal groove for the protruding end of the balance member to be engaged therein. As a slipper. Further, in the above-mentioned base of the present invention, the plurality of second limiting members are provided with at least a fixed-point card slot having a concave limiting portion for the long-term locking of the balancing member. It is also the limiter of its rotation. Further, in the above-mentioned base of the present invention, the plurality of second limiting members are provided, at least one of which is a sliding card slot having a horizontal groove for the protruding end of the balancing member to be engaged therein. As a slipper. The keyboard device of the multi-axis balanced touch button of the present invention, wherein at least two of the plurality of balancing elements are mutually intersected and arranged in different axial directions, wherein the balancing element is at the upper end thereof The long rod is engaged with the second limiting element of the base, the protruding end of the end is engaged with the first limiting element below the pressing plate, and the other balanced 7G piece is locked with the upper end of the pressing plate. The protruding end of the lower-first limiting element's end is engaged with the first limiting element of the base to avoid interaction interference during the activity. The above-described balancing member of the present invention is made of a metal strip (e.g., wire, etc.) to enhance the rigidity of the balancing member. [Embodiment] Please refer to the first, second, third and fourth figures. The keyboard device E of the present invention is composed of at least one touch button E1, and the touch button E1 is composed of a touch panel. a pressing panel, a contact switch 3, a base 4, and a plurality of balancing elements 2, the plurality of balancing elements 2 being disposed between the pressing plate and the base 4, wherein: the pressing plate 1, The touch panel is divided into a plurality of pressing areas 111', and the bottom surface i 2 of the pressing plate 1 is provided with a plurality of first-restricted elements 1 3 ' and arranged in two γ, γ, each - The axial X and the cymbal are each provided with at least a first - limiting element 丄 3; the above-mentioned touch panel 11 ′ of the present invention is divided into a plurality of pressing regions 111 ′ each of the pressing regions 111 to control different output signals, As an electronic device (such as a computer), the execution of the meaning of the character defined by the system, for example, each pressing area i 所示 represents a different character meaning as shown in the first figure, so when pressing the pressing plate 1 its touch panel i When the different pressing zones of the work are 1 1 1 , the contact switch 3 is touched, which means different The signal is output. The contact switch 3 is an elastic element and has an elastic pressing space 30. The top 31 normally pushes the bottom surface 12 of the pressing plate and pushes it upward, and the contact switch 3 is a push switch; a plurality of second limiting elements 4 1 are arranged thereon, which are arranged in two different axial directions X and Y, and each of the axial χ and Υ is provided with at least one second limiting component 4; A plurality of balance elements 2 are distributed in two different axial directions 11 1361367 X, YJl 'each element of the voyage 2 series - π-shaped, and the upper end of the cast 21 county end is self-engaging The first limiting member Γ3 and the second limiting member 41_, and the first-limiting 7C member 13 and 4lf have at least a horizontal groove 1 乂 for the balancing member 2 to be parallel to the pressing plate 1 Slip of 1; by the composition of the above elements 'the long rod 2 1 of the balancing element 2 is engaged with the first end of the bottom surface i 2 of the (four) flat plate i - the protruding end 2 of the limiting element 13 is latched The second limiting member 41 of the base 4 has a biaxial χ, γ distribution, and when the finger is pressed down (as shown in the fourth figure), the pressing is flat. 1 will then press the contact switch 3 and the balancing element 2 to tilt the balancing elements 2, and because the second limiting element 41 is a sliding card slot, it has a horizontal groove Β1 'For the protruding end 2 2 to be slidably actuated therein, and the plurality of balancing elements 2 are biaxially χ, γ distributed, so that the entire pressing plate i can force the lower pressure channel uniformly. 'When the user's finger presses the pressing plate 1 , regardless of the pressing position, the pressing plate 1 can stably hold the contact switch 3 vertically up and down, and the shaking phenomenon does not occur to reach the 12 1361367 keyboard device. E can correctly output the actuator of the signal; and when the pressure channel disappears under the finger, the contact switch 3 is no longer subjected to an external force, because the elastic element has an elastic force that restores the original shape, and the top 31 thereof normally pushes the press. Plate 1 is back up (as shown in the third figure). The above plurality of balancing elements 2 of the present invention are arranged in a cross shape in a biaxial X, Y distribution, and at least one of the balancing elements 2 at the intersection thereof has at least one concave portion 23 for balance The elements 2 are able to act on the same plane without interfering with one another (as shown in the first, second, third and fourth figures). Further, in the pressing plate i of the present invention, the plurality of the first-hetero-components i 3 provided on the bottom surface 丄2, the singular-shaped card slot A has a recessed portion ai for the balance The element 2 has its spears 2 1 inside the card and acts as a limiter for its rotation. Further, in the above-mentioned base 4 of the present invention, the plurality of second limiting members 41 disposed thereon are 'at least--the sliding slot B, which has a horizontal groove B1' for the protruding end of the balancing member 2 2 card inside and act as a slipper. As shown in the fifth embodiment, the second embodiment of the present invention, wherein the plurality of first-restricted elements 丄13' of the bottom surface 12 of the pressing plate 1 are distributed in two different axial directions X and 呈Arranging the glyphs for the corresponding plurality of balance elements 2, the upper end long rod 21 is engaged with the fixed number of the first-limit position elements 13 +, and the contact switch 3 f state urges the thief to The bottom surface i 2 , and the protruding end 2 2 on both sides of the balancing element 2 are engaged with the sliding card slot B of the plurality of second limiting elements 41 of the base 4, and are pressed on the sliding card The horizontal groove groove B i of the groove B is used for the back and forth sliding action (as shown in the sixth and seventh figures), and the actuation is as in the above embodiment, thereby achieving the biaxial sliding of the lake rib complex balance element 2 The pressure channel is distributed in a uniform sentence, and the vertical vertical up and down of the flat plate 1 is pressed to touch the contact switch 3. As shown in the eighth, ninth, and tenth drawings, in the third embodiment of the present invention, the first-restricted component 3' of the bottom plate 12 of the pressing plate 1 is a slip-slot card b, which has - the horizontal groove b丄, with the protruding end 2 of the end of the 仵J snapping its 丨 and acting as a sliding action, and the base 4 is provided with a second limit thereon; the piece 41' is a fixed-point card slot A, which has a recessed person's limit name A1, for the long rod 21 of the upper end of the balance element 2 to be within the age of the card, and as a limiter of its rotation action, this is equally divided by the 1361367 button E1 The total weight; in addition, the plurality of first limiting elements 13 and the plurality of second limiting elements 4 1 are arranged in the direction of X and Y, so that the plurality of balanced elements 2 are intersected in a zigzag distribution. The balance element 2 is subjected to "sliding back and forth", and the operation is as in the above embodiment, and the plurality of balance elements 2 can be biaxially slipped and uniformly distributed under the pressure path while maintaining The pressing plate is vertically aligned to move the contact switch 3. As shown in the tenth, twelfth, and thirteenth drawings, in the fourth embodiment of the present invention, wherein the bottom surface i 2 of the pressing plate 1 is provided with a plurality of the first-P-clamping elements 13 and the plural (four)- The limiting component i 3 includes more than one positioning card slot--one or more sliding card slots B' and corresponding to the base 4 is provided with a plurality of second limiting components 々I, and the plurality of second limiting limits The bit element 4 i includes more than one positioning card slot A and more than one sliding card slot B, and is distributed in two different axial directions X and Y. The plurality of balancing elements 2 are in a zigzag arrangement. The second limiting elements 13, 41 are actuated as in the above embodiments, thereby achieving a biaxial/f shifting of the plurality of balancing elements 2, and uniformly maintaining the pressure channel to maintain the Press the 15 flat plate 1 to stabilize the vertical up and down to touch the contact switch 3. The fifth embodiment of the present invention, wherein the bottom surface 12 of the pressing plate 1 is provided with a plurality of first limiting elements 13 and the first limiting element 13 is shown in FIG. The system includes more than one positioning card slot A and one or more sliding card slots B, and a plurality of second limiting elements 41 disposed on the base 4, and the second limiting element 41 includes more than one The fixed card slot A and the one or more sliding card slots B' are distributed in two different axial directions X and γ, so that the three balancing elements 2 corresponding thereto are arranged in a U shape, and the actuation is as in the above embodiments. Thereby, the plurality of balancing elements 2 can be biaxially slipped to evenly distribute the lower pressure channel, and the vertical vertical movement of the pressing plate 1 is maintained to activate the contact switch 3. As shown in the seventeenth, eighteenth and nineteenth embodiments, a sixth embodiment of the present invention, wherein the bottom surface i 2 of the pressing plate 1 is provided with a plurality of first limiting elements 13 and the plurality of first The limiting element 13 comprises more than one positioning card slot A, and a plurality of second limiting elements 41 are provided corresponding to the base 4, and the plurality of second defining elements 1361367.41 1 comprise more than one slip card The groove B is arranged in a well-shaped shape in two different axial X and γ distributions for the corresponding plurality of balancing elements 2 to be engaged, and is arranged in a zigzag shape in a biaxial X and γ distribution and At least one of the plurality of balancing elements 2 at the intersection is provided with a plurality of recesses 2 3 to avoid mutual interference during actuation, and is subjected to pressing for back and forth sliding; the actuation is as in the above embodiments. In this way, the plurality of balancing elements 2 can be biaxially slipped to uniformly distribute the lower pressure channel while maintaining the stable vertical up and down operation of the pressing plate 1 to activate the contact switch 3. The seventh embodiment of the present invention, wherein the bottom surface i 2 of the pressing plate i is provided with a plurality of first limiting elements 13 and the plurality of The first limiting component 3 includes more than one fixed card slot A and one or more sliding card slots B, and a plurality of second limiting components 4 1 corresponding to the base 4, and the plurality of second limiting The component 4 i includes more than one fixed-point card slot A and one or more sliding card slots B, and is arranged in a well-shaped shape in two different axial directions X and Y for the corresponding plurality of balancing elements 2 to be activated. The actuation is the same as the above embodiments, whereby the plurality of balancing elements 2 are used for biaxial sliding, and the lower pressure channel is evenly distributed by 17 to maintain the vertical vertical movement of the pressing plate 1 to be activated. The contact switch 3 is the same. In summary, the invention has the advantages of simple structure, convenient assembly, and ensuring that the button can stably press the vertical pressing and closing, and pressing different positions to generate different output cities instead of the traditional keyboard. (4) Step-by-step benefits, and the special ability to make sure that the missing ones exist. The specific embodiments of the present invention are intended to be illustrative only, and not to limit the scope of the present invention to the above embodiments, without departing from the spirit of the invention and the following claims. The implementation of the face changes made by the scope of the situation is still within the scope of this creation. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a plan view of a keyboard device of the present invention. The second figure is a perspective exploded view of the present invention. The third figure is an actuating sectional view (-) of the present invention. The fourth figure is a cross-sectional view (2) of the present invention. Figure 5 is a perspective exploded view of a second embodiment of the present invention. Fig. 6 is a cross-sectional view (1) of the second embodiment of the present invention. The seventh drawing is a cross-sectional view (2) of the second embodiment of the present invention. The eighth figure is an exploded perspective view of a third embodiment of the present invention. 1361367 Fig. 9 is a cross-sectional view (1) of the third embodiment of the present invention. Figure 10 is a cross-sectional view (2) of the third embodiment of the present invention. Figure 11 is a perspective exploded view of a fourth embodiment of the present invention. Figure 12 is a cross-sectional view (I) of the fourth embodiment of the present invention. Figure 13 is a cross-sectional view (2) of the fourth embodiment of the present invention. Figure 14 is a perspective exploded view of a fifth embodiment of the present invention.
第十五圖,係本發明第五實施例其作動剖面圖(一)。 第十六圖,係本發明第五實施例其作動剖面圖(二)。 第十七圖,係本發明第六實施例立體分解圖。 第十八圖,係本發明第六實施例其作動剖面圖(一)。 第十九圖,係本發明第六實施例其作動剖面圖(二)。 第二十圖,係本發明第七實施例立體分解圖。 第二十一圖,係本發明第七實施例其作動剖面圖(一)。 第二十二圖,係本發明第七實施例其作動刳面圖(二)。 【主要元件符號說明】 E.....鍵盤裝置Fig. 15 is a cross-sectional view (1) of the fifth embodiment of the present invention. Figure 16 is a cross-sectional view (2) of the fifth embodiment of the present invention. Figure 17 is a perspective exploded view of a sixth embodiment of the present invention. Figure 18 is a cross-sectional view (1) of the sixth embodiment of the present invention. Figure 19 is a cross-sectional view (2) of the sixth embodiment of the present invention. Figure 20 is a perspective exploded view of a seventh embodiment of the present invention. The twenty-first embodiment is a cross-sectional view (1) of the seventh embodiment of the present invention. A twenty-second figure is a diagram (2) of the operation of the seventh embodiment of the present invention. [Main component symbol description] E..... keyboard device
E1 ....觸控按鍵 1.....按壓平板 1 1 · · · ·觸控板 111 ••按壓區 1 2 · · . ·底面 1 3 · · . ·第一限位元件 1361367E1 .... Touch button 1.....Press the flat panel 1 1 · · · · Touch panel 111 •• Pressing area 1 2 · · · ·Bottom 1 3 · · · ·First limit element 1361367
2 ·… •該平衡元件 2 1··· •長桿 2 2··· •突出端 2 3··· •凹部 3 ·… •接觸開關 3 0··· •彈性壓迫空間 3 1··· •頂部 4 .… •底座 4 1··· •第二限位元件 X、Y · · •軸向 A · · · · •定點卡槽 A 1 · · · •限位部 B · · · · •滑移卡槽 B 1 · · · •水平溝槽 202 ·... • The balance element 2 1··· • Long rod 2 2··· • Projection end 2 3··· • Recessed part 3 ·... • Contact switch 3 0··· • Elastic compression space 3 1··· • Top 4 .... • Base 4 1··· • Second stop element X, Y · · • Axial A · · · · • Fixed point slot A 1 · · · • Limiting part B · · · · • Slip card slot B 1 · · · • Horizontal groove 20