200910398 九、發明說明: 【發明所屬之技術領域】 本發明係與布料或皮革有關,特別是指一種具有多數感應 區之布料來形《子化的基本功能,如關、開關陣列(swkch matrix 0Γ鍵盤),壓力或張力感測器、信號產生器、信 傳輸器、固定電阻、固定電容,或可變電阻、可變電容,這^ 都是利用傳統服飾設計扣眼的方法,施工容易、生產方便,^ 如有壞掉,使用者自己容易修補,就如同傳統的方式,即用^ 統的方法可達到電子化布料或服飾的效果。 【先前技術】 電子按鍵開關已普遍被應用於所有電子裝置上,傳統之按 鍵開關,例如用於電視遙控器或行動電話之薄膜式電路,均需 被裝設於-外殼之中’由於該外殼通常不具有撓性,無法隨著 使用者之肢體動作彎折變形,且該外殼通常體積較大,因此攜 帶上十分不便,且容易妨礙使用者動作。 傳導性材料整合在布料或皮革中來產生電子化的技術很 多,例如在開關上,先前的技術美國7145432需要三層來達成, 美國6642467利用上、下兩層導電材質,且中間夾者彈性材料 來達成電子化開關,美國65966955則是利用拉鍊的方式,無法 使用在常用的服飾,且壞了使用者無法自己修,常用外衣上;若 在一般内衣内褲上,則不能為大眾所接收,中國大陸Cni6663〇8 所示之開關則為上、下兩層所形成,但不易與布料整合成一體, 外觀和傳統不一樣。 至於信號或電流傳輸器在美國6927693為三層結構,且開 關乃夾在二層中,生產上特別且不像一般服飾,美國7154〇71 200910398 中間也要二層結構,實施不易。 美國4237886及6970731所說均利用母子釦的方式,用久 容易脫落。 最後美國6210771所示,本身可為開關或信號或電流傳輪 器,但其結構為兩件式,且當switch matrix開關陣列,易有錯 誤信號產生,其專利尚可設計為被動元件,但中間均要有布料, 當再使用時如流汗,容祕致非料㈣變成有料性,此篇 的設計也可_力變化,但無法提餘力變化(伽in gauge)。 為了改善上述所述情形,我門利用傳統服飾上就存在的配 件’將傳導性材料整合在祕導性布料或皮革的腳,就可以 達到上述所有的要求,同時又可增加其它的功能。 【發明内容】 、鑑於上述缺失,本發明之主要目的在於提供一種具有分離 感應區之布料’係可與使用者所穿著之布料或皮革結合為— 體,方便使用者攜帶,且不致妨礙使用者作出任何肢體動作者 優點都適用傳統的服飾設計方法,施卫容易、生產方便、假如 有壞掉谷易自己修補或替換,同時可客製化。 為達則揭目的’本發明之具有分離感應區之布料係包含有 -第-層以及-延伸部,該第—層係具有傳導性材料的至少一 應區’以及非導電性材料之—不感應區位於該第一感應 伸部係具有一配件,以及至少—連接線連接該配 卩上形成有"""第二感應區與該第—層第—感應區之 位置對應就可以產生多功能的電子化產品。例如可當作開關, 3 Ϊ 2=力或張力感測器(—η g,) ’信號產生器,信號 „,固定電阻固、定電容、固定電感,可變電阻、 可電合、可變電感,速度偵測器,加速度偵測器及姿態變化 200910398 =成:=::在皮=:__子零件與 【實施方式】 、為更了解本發明之構造及特點所在,跡町十七較佳實施 例並配合圖示說明如下,其中. 第圖係本發明第—較佳實施例之正視圖; 第二圖係本發明第—較佳實闕之細部結構側視圖; 第一圖係本發明第二較佳實施例之側視圖 第四圖係本發明第三較佳實施例之側視圖 第五圖係本發明第四較佳實施例之側視圖 第/、圖係本發_五較佳實齡彳之側視圖 第七圖係本發明第六較佳實施例之側視圖 第八圖係本發明第七較佳實施例之立體圖 第九圖係本發明第人較佳實施例之立體圖 第十圖係本發明第九較佳實施例之侧視圖; 第十圖係本發明第十較佳實施例之側視圖; 第十二圖係、本發明第十—較佳實施例之正視圖 第十三圖係本發明第十二較佳實施例之正視圖 第十四圖係本發明第十三較佳實關之正視圖 第十五圖係本發明第十吨佳實施例之正視圖 第十六圖係本發明第十五較佳實施例之立體圖 第十七圖係本發十六較佳實補之正視圖 第十八圖係本發明第十七較佳實施例之正視圖。 有八==一:及第二圖’本發明第-較佳實施例所提供之具 有刀離感應區之布料1G,係包含有 200910398 一控制電路192以及一輸出器194。 品該第—層12之頂面係包含有多數第一感應區13、一不感應 區14以及一參考區15,該等第一感應區13及該參考區15均可 導電_1_可由丨.料電_及導電纖維藉由—紡織製程(T咖^ L〇CeSS)共同纺織而成,例如針織(knitting),平織(weaving)或其 二,田製程’ 2.導電金屬片嵌住或黏住或縫在第_層12而形成; 或疋3.藉由將導電細線縫人該第—層12而形^或是4.於該第 。層12上塗佈或貼覆導電物質而形成;或者5.原先就是一片導 電:料再職貼、纺織或魔鬼鱗方式固在第—層12上,該等 第—感應區13係呈矩陣排列且貫穿該第—層12,該不感應區14 :、、位於為等第—感應區13之間及周圍’可由非導電纖維纺織而 ^或疋由皮革所製成,該參考區15係與該第—感應區13分離。 别述之非導電纖維例如可採用棉、麻、尼龍等,而該導電纖維例 如可用多分子導電纖維’導電金屬纖維,不錄鋼纖維與非導電纖 維忍纺而成’其中導電纖維的比例由丨到綱%,或是不導電纖 維上塗布或摻入導電物質而形成。 該等延伸部16各具有一配件17以及一連接線18,該配件 係呈球狀或柱狀或角錐狀或碟狀,且可受壓變形,且任一配件 17之表面均形成有三條環狀H紐172每—環狀代表一 電阻值’該等第二感應區172係可導電,且同樣可由1.非導電纖 維及導電纖維藉由—纺織製程(Textile ΡΠ)_)感應共同纺織而 成配件17,例如針織(knitting),平織(weaving)或其它適當製程; 2_導電金屬#嵌住雜住或縫在配件n *雜;或是3.藉由將導 電細線縫人該配件17而形成;或是4.於該配件17上塗佈或貼覆 導電物質而形成;或者5·縣就是__片導電布料再用黏貼、纺織 200910398 或魔鬼粘等方式固在配件17上,該第二感應區172係與該第一 層12之第一感應區13位置對應,該連接線18係由三股導電細 線182代表三個不同的電阻質與一粗線184代表傳輸線共同編織 而成,其一端係與該配件17連接’另端則與該第一層12之非導 電區I4連接配件本身可含有高密度材質如金屬或玻螭使配件垂 向地心方向,該等延伸部16之連接線18係與該等第二感應區 電性連接’且該等延伸部係遠離該第一層12之參考區15。 該控制電路192係固設於該第一層12因設的方式可為母子 扣的方式,控制電路可為一印刷電路板或一積體電路,該控制電 路192係與該第一層12之第一感應區13以及該參考區15電性 連接’並透過該等連接線18之導電細線182與該等配件17之第 二感應區172電性連接,藉此,當使用者將其一該配件17朝該 第一層12擠壓時或第一層布料12被拉扯時,受壓之配件17上 之第二感應區172將與所對應之第一感應區13接觸,而使該第 一感應區13、該第二感應區172及該控制電路192形成迴路。在 不受外力的作用下,配件17與第一感應區13只有受重力的影響 故由配件17與感應區13形成迴路的情形可了解使用者的姿勢變 化。 該輸出器194係與該控制電路21電性連接,且可有—無線 訊號發射H,當使用者按壓不同位置之配件17時或拉扯不同位 置的布料12時,該控制電路192即可根據受力位置之不同,而 命令該輸出器194發出各種不同之訊號。 、另夕卜,該控制電路192亦可包含有一電阻計,可用以量測該 迴路之電阻值,當使时所施加之壓力处力愈大時,該配件^ 可藉由受力變形’使得同—配件17上愈多條第二感應區Μ以 200910398 愈緊密之方式鱼兮笛—V. 感應區13貼接在一起,此時該迴路之電 。此時第一感應區13與配件I7就形成一可變電阻,為 電阻和導通之接魅而 a 一 積呈反比;該控制電路192亦内建一電阻閾 * “電阻4所測得之電阻值低於該電㈣值時,該控制電路 β才P 7 4輪出H 22輪m反之,當該迴路之電阻值高於 、、閾值夺_控制電路192則不作任何反應,藉以避免誤觸 k就成為開關的魏。若製成_就像keybGani,使帛者使用的 感覺和傳、’錢%或手機按鍵她,有壓回的感覺。另外因為外在 麼力或張力的不同產生不同的電阻變化故可為壓力或張力感測 器(strain gauge) $田奴導電細線182分別獨立與控制電路192電性連接時, 故田外力愈大接通的迴路愈多,同樣控制電路192可因不同情形 而命令該輸㈣194發出各種不同之訊號,故可當信號產生器、 開關、壓力感測器或張力感測器(straingange)。 該第-層12之參考區15係與該第一層12之第一感應區i3 及狀伸。卩16分離’因此當該具有分離感應區之布料iq於正常 使用時’該參考區15應不致與該第—、第二感應區Am接觸 而形成迴路’然而’―旦該參考區15與該第-感應區13或該第 -感應區172形成迴路時或其它參考i 155形成迴路。該控制電 路21將立即切斷與該第_感應區^及該第二感應區m之電性 連心’以避免漏電而使制者遭受電擊。洲原理若第—層u 内的各感應區若形成迴路或延伸部16的各感颜形成迴路,如 雨水或流㈣影響使料靖電源,⑽免錯誤信號產生,同時 向使用者發出信號。 經由上述結構,該具有分離感應區之布料 10可被製成衣物 200910398 被使用者穿在身上,並可作為一家電遙控器來使用,使用者可藉 由按壓該第二層16之不同位置,而使該輸出器194發出各種不 同之無線訊號,來控制電視機轉台、喇队音量大小聲或空調之升 溫及降溫等等;由於該具有分離感應區之布料1〇係與使用者所 穿著之布料或皮革結合為一體,因此可方便使用者攜帶,且不致 妨礙使用者進行任何肢體動作。 此外’該第一層12可製成内衣被使用者穿在身上,並將該 延伸部16置於該第一層12外側,藉由按壓不同位置之配件17 即可使不用位置之第一感應區13與使用者皮膚受測處接觸,該 具有分離感應區之布料10即可用以量測人體心電圖或提供 TENS或保暖衣所須之電流。即感應區13本身除具有開關的功能 且同時可為信號或電流傳輸器,一方面可傳導生理訊號另一方面 也可提供外界電流或信號到此用者。 另外,亦可將該具有分離感應區之布料10置於腋下,使得 使用者可藉由將上臂緊貼胸侧來使電路導通;且該輸出器194可 為一 LED指示燈、一八或一薄型顯示面板’而可於電路導通 時發出光線、聲音或顯示受壓位置。 該具有分離感應區之布料10於結構上,其實亦具有多種變 化’請再參閱第三圖,本發明第二較佳實施例所提供之具有分離 感應區之布料10a’與前述實施例所提供者大致相同,其不同點 僅在於’其第一層12a之第一感應區13a僅形成於該第一層i2a 表面,而非貫穿該第一層12a,且任一延伸部16a均包含有二連 接線18a連接配件17a及第一層12a,以便將該配件i7a固定於 特定位置上,此時内外打摺皆不會短路,因為感應區均在兩者之 間’故減少錯誤的情形產生。若配件17不可變形,則配件17本 11 200910398 身就是一被動電阻元件,其電阻值固定不變。另外,亦可如第四 圖所示’於第一層12b之一側形成一凹槽121b供配件17b容置, 其第一感應區13b係形成於該第一層12b相對於該配件17b之另 側,且其位置與該凹槽121b對應,由於第一、第二感應區i3b,172b 均可導電,故可共同形成一電容,而控制電路192b可包含有一 電容計以便量測由該第一、第二感應區13b,172b所形成之電容 值’藉此’該控制電路192b可根據該第一、第二感應區13b,172b 之相對接近或遠離所導致之電容值變化,來控制輸出器194b發 出訊號。相同道理第一、第二感應區13b、172b若都不可變形, 且固定沒有位移時,一被動電容元件就產生,其中電容值和兩感 應區的距離呈反比,和感應區的面積呈正比,故可設計不同的電 容元件。若有可變形如配件17b可變形則產生一可變電容。同時 電容值變化相對第一感應區和第二感應區的距離變化相關,在多 久時間内產生電容值變化就可得到兩感應區之相對的速度及加 速度,故可得速度及加速度感測器。 亦可第五圖所示,將延伸部16c配件17c之形狀大小設計成 與第一層12c凹槽121c對應,藉此,當該配件17c完全容置於 »亥凹槽121c時’該具有分離感應區之布料1〇c表面係維持平坦, 以增加美觀’此外’該第—層12e之第一感應區…係位於該第 一層12c内部。 凊再參閱第六圖,本發明第五較佳實施例所提供之具有分離 感應區之布料刚與别述實施例所提供者大致相同,其不同點僅 在於,其第-層12d上係形成有-凸面123d,且該第一層12d 係具有多數環狀之第_感應區別形成於該凸面咖上,其配 件17d整體均由導電材料所製成且形成該延伸部_4第二感應 12 200910398 區17d’該配件17d並具有一凹面174b而可與該凸面123d貼接。 請再參閱第七圖,本發明第六較佳實施例所提供之具有分離 感應區之布料10e與前述實施例所提供者大致相同,其不同點僅 在於,其第一層12e之第一感應區i3e係位於凹槽121e内側壁 面,且配件17e之第二感應區i72e係呈半球形,其控制電路(圖 未示)及輸出器(圖未示)可置於配件上’而利用連接線與第一 感應區電性相通。 請再參閱第八圖,本發明第七較佳實施例所提供之具有分離 感應區之布料10f與前述實施例所提供者大致相同,其不同點僅 在於,其第一層12f係具有一穿孔125f,而該第一層12f之第一 感應區13f係藉由將導電細線車縫於該穿孔12f之孔緣而形成, 故第一層12f受外力拉扯或配件往穿孔壓時,第一、第二感應區 相對的接觸位置不同而產生不同的電阻值訊號。若導電之感應區 在穿孔内層,即穿孔之孔緣為非導電布料,或是穿孔之孔緣為導 電材質,但配件導電材質在配件的内層,即配件外層為非導電材 質,則在外力的變化下可產生電容值的變化。 請再參閱第九圖,本發明第八較佳實施例所提供之具有分離 感應區之布料l〇g係包含有一第一層12g、一延伸部l6g、一控 制電路192g及一輸出件194g,該第一層12g之第一感應區i3g 係呈環狀,該延伸部l6g係包含有一西己件17g,以及一連接線% 連接該配件17g及該第-層12g之不感應區14g,該配件ng上 之第二感應區mg係由磁性材料所製成,該連接件18g係不導 電’藉此’當該配件17g接近或遠離該第—層12g時,該配件l7g 之第二感應區172g可使該環狀之第一感應區13g產生感應電動 勢,該控制電路192g可偵測該感應電動勢,並根據該感應電動 13 200910398 * 7該輪出件194g發出訊號,配件17g的第二感應區 §可由導電纖維環繞而成一金屬線圈,藉由連接件lSg通 F田-件17g接近或遠離第一層%時可使用環狀之第一感應 品3g產生感應電動勢。電感值和線_數平方呈正比,和每一 -杜積呈正比’和螺絲管長度呈反比,故可設不同的被動電感 70件於配件上 月再彡閱第十圖,本發明第九較佳實制所提供之具有分離 感應區之布料20包含有一第一層22、一延伸部25、一第二層四、 一控制電路(圖未示)以及—輸出_未示)。該延伸部25之連接 線27係由導電纖維所製成,且連接該配件26及該第二層29,該 控制電路同樣係經由該連接線27而與該配件%之第二感應區 262電性連接’此外,該延伸部25更包含有一不導電之補強線 28分別連接該配件26及該第二層29,使得該配件26可更穩固 地固定於該第二層29上。 咕再參閱第十-圖’本發明第十較佳實施例所提供之具有分 離感應區之布料3G與前述第九較佳實關所提供者大致相同, 其不同點僅在於,其配件36係藉由連接線37縫於第二層%。 經由上述結構’製造者可分別將第—層32及第二層%分別 製成内褲及外褲供使用者穿在身上,並將第―、第二感應區 33,362置於接近使用者腹部處,藉此,使用者即可藉由大口吸氣 及腹部施力’而使該第-感應區33及該第二感應區如緊密貼 合,從而使該迴路之電阻值降低,或得到不同的電阻值,進而使 輸出器發出訊號,相同的原理也可得龍容值或電感值的改變而 使輸出器發出訊號。 另外,該第一層32亦可舖設於座椅,而該第二層%製成上 200910398 衣或外褲供使用者穿麵上,藉此 39則可製成上衣或外褲供慢性病:面= 翻身,或是得知患者是否自床上墜落^時間長短來適時為患者 基於本《明之精神,該具有分軸顧之於 實也具有多種變化,現、、…構上其 例所提㈣料-較佳實施 ^§(ΒΑ-) 控制電路(圖未示)以及-輸出 _未不),該第-層42係具有—穿孔42ι、多數導電細線43 以及一不感應區44,該等導電細線43係車縫於該穿孔421孔緣, 且形成該第-層42之第—感應區43,該等第—感顧Μ係彼此 分離,該不感應區44係形成於該等第一感應區43周圍;該延伸 部45則係具有—配件46以及二連接線π,該崎#係為一知 知且由絕緣材質所製成,紐扣上可有控制電路或輸出器在其中且 與連接線相通’且藉由該二連接線47縫於該第二層49,該二連 接線47係由導電材料所製成,且係形成該延伸部Μ之第二感應 區47,該二連接線47並穿置於該第一層42之穿孔421,該第— 層42係位於該配件46與該第二層49之間;藉此,使用者可相 對拉扯該第一層42或該第二層49的鈕釦46,使該第二層49帶 動該鈕釦46而沿該穿孔421進行移動,藉由該連接線47與不同 位置之第一感應區43接觸,該控制電路即可來控制該輸出器發 出各種訊號即為一訊號產生器。 現請參閱第十三圖,本發明第十二較佳實施例所提供之具有 分離感應區之布料50與前述第十一較佳實施例所提供者大致相 15 200910398 同,同樣包含有一第一層52、—延伸部55、1二層59、—控 制電路(圖未扑X及-輸㈣旧以),其㈣點在於,該第一 層52之第-感應區53係概呈圓形,且與穿孔521之間具有一預 定距離,而該延伸部55之配件56則由導電材料所製成,且同樣 為-妙56 ’且偏彡成辆伸部55之第二錢區% ;藉此,使 用者可施力使該她56傾斜並接觸該第—層Μ之第一感應區 53。相同地右帛層52之感應區,在内層或紐知%的導電材料 與第層52之感應區53接觸的那一面,有一絕緣的材質如歸 包住,則使用者施力於她财產生電容值的變化。 請再參閱第切圖’本發㈣十三_實_所提供之具有 分離感應區之树6G與前述第十—難實闕所提供者大致相 同’其不同點僅在於,其延伸部65更包含有—頂蓋68設於配件 66,該配件66係㈣電材料所製奴係為—她%,該配件的 並形成該延伸部65之第二感應區66,該頂蓋68則由絕緣材質所 製成’以避免使用者因直接接觸該配件66而觸電,頂蓋上可存 有1C、感測器、電阻、電容、電感、放大器、LED、天線、♦八、 麥克風、4電子零件而其接腳與配件的連接線相通。 請再參閱第十五圖,本發明第十四較佳實施例所提供之具有 分離感應區之布料70與前述較佳實施例所提供者大致相同,同 第二層79、一控制電路(圖 樣具有一第一層72、一延伸部75 未示)以及一輸出器(圖未示),該第一層72係具有—穿孔721以 及一第一感應區73,該第一感應區73係藉由將導電細線車縫於 該穿孔721周圍而形成,該延伸部75之連接線77係由導電材質 所製成,且形成第二感應區77,該配件76係由絕緣材質所製成, 藉由該第二感應區77之移動,該第一、第二感應區73,77所形成 200910398 之電容大小係可被改變’該控制電路 ’該控制電路即可根據該電容之變化而控200910398 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to cloth or leather, and more particularly to a fabric having a plurality of sensing regions to shape the basic functions of the sub-segment, such as a switch and a switch array (swkch matrix 0Γ) Keyboard), pressure or tension sensor, signal generator, signal transmitter, fixed resistor, fixed capacitor, or variable resistor, variable capacitor, which are all methods of designing buttonholes in traditional clothing, easy to construct and easy to produce. , ^ If it is broken, the user can easily repair it, just like the traditional way, that is, the method of electronic system can achieve the effect of electronic cloth or clothing. [Prior Art] Electronic pushbutton switches have been widely used in all electronic devices. Traditional pushbutton switches, such as film-type circuits for TV remote controls or mobile phones, need to be installed in the housing - due to the housing Usually, it is not flexible, and cannot be bent and deformed according to the movement of the user's limbs, and the outer casing is usually bulky, so it is very inconvenient to carry and easily hinders the user's movement. There are many technologies for integrating conductive materials into cloth or leather to produce electronic products. For example, on the switch, the previous technology of the United States 7145432 requires three layers to achieve, the United States 6642467 uses two layers of conductive materials, and the middle of the elastic material To achieve the electronic switch, the United States 65,966,955 is the use of zipper, can not be used in the usual clothing, and the user can not repair their own, commonly used outerwear; if in general underwear, it can not be received by the public, The switch shown in Cni6663〇8 in mainland China is formed by the upper and lower layers, but it is not easy to integrate with the fabric, and the appearance is different from the traditional one. As for the signal or current transmitter in the United States, the 6927769 is a three-layer structure, and the switch is sandwiched in the second layer. The production is special and unlike the general clothing. The US 7154〇71 200910398 also has a two-layer structure in the middle, which is not easy to implement. The United States 4237886 and 6697731 said that the mother and child buckles are used, and they are easy to fall off for a long time. Finally, as shown in US 6210771, it can be a switch or a signal or current wheel, but its structure is two-piece. When the switch matrix switch array is prone to error signals, its patent can be designed as a passive component, but in the middle. All have to have fabrics, such as sweating when used again, the secret is not expected (four) become material, the design of this article can also change, but can not improve the residual force (gain gauge). In order to improve the above-mentioned situation, our door can achieve all of the above requirements by adding the conductive material on the traditional clothing to the foot of the secret fabric or leather, and at the same time add other functions. SUMMARY OF THE INVENTION In view of the above-mentioned deficiencies, the main object of the present invention is to provide a fabric having a separate sensing zone that can be combined with a cloth or leather worn by a user to facilitate carrying by the user without hindering the user. The advantages of making any physical actor are applicable to traditional fashion design methods. It is easy to defend and easy to produce. If it is damaged, it can be repaired or replaced by itself. At the same time, it can be customized. For the purpose of the invention, the fabric having the separation sensing zone of the present invention comprises a -layer and an extension, the first layer having at least one of the conductive material and the non-conductive material - not inductive The region is located at the first inductive portion and has an accessory, and at least, the connection line is formed on the pair, and the second sensing region is formed corresponding to the position of the first layer-sensing region. A versatile electronic product. For example, it can be used as a switch, 3 Ϊ 2=force or tension sensor (—η g,) 'signal generator, signal „, fixed resistor, fixed capacitor, fixed inductor, variable resistor, electrically connectable, variable Inductance, speed detector, acceleration detector and attitude change 200910398=成:=::in the skin=:__sub-parts and [embodiment], in order to better understand the structure and characteristics of the present invention, BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view of a first preferred embodiment of the present invention; and a second side is a side view of a detailed structure of the first preferred embodiment of the present invention; 4 is a side view of a third preferred embodiment of the present invention. FIG. 5 is a side view of a fourth preferred embodiment of the present invention. A side view of a fifth preferred embodiment of the present invention is a side view of a sixth preferred embodiment of the present invention. The eighth embodiment of the present invention is a perspective view of a seventh preferred embodiment of the present invention. 10 is a side view of a ninth preferred embodiment of the present invention; A side view of a tenth preferred embodiment; a twelfth view of a tenth preferred embodiment of the present invention; a thirteenth view of the twelfth preferred embodiment of the present invention Fifteenth preferred embodiment of the present invention is a front view of the tenth preferred embodiment of the present invention. FIG. 16 is a front view of a seventeenth preferred embodiment of the present invention. There are eight == one: and the second figure 'the preferred embodiment of the present invention provides The cloth 1G of the knife is separated from the sensing area by a 200910398 control circuit 192 and an output 194. The top surface of the first layer 12 includes a plurality of first sensing regions 13, a non-sensing region 14, and a reference region. 15. The first sensing region 13 and the reference region 15 can both be electrically conductive. _ can be woven together by a conductive material and a conductive fiber by a textile process (T coffee ^ L〇CeSS), such as knitting ( Knitting), weaving or its two, the field process ' 2. The conductive metal piece is embedded or stuck or sewn on the _ layer 12 Or 疋3. Formed by sewing the conductive thin wire to the first layer 12 or 4. Applying or coating the conductive material on the first layer 12; or 5. Originally a piece of conductive material: The re-posting, textile or devil scales are fixed on the first layer 12, and the first sensing regions 13 are arranged in a matrix and run through the first layer 12, and the non-sensing area 14 is located at the first level. The area between and around the area 13 may be woven by non-conductive fibers or made of leather, and the reference area 15 is separated from the first sensing area 13. The non-conductive fibers such as cotton, hemp, and nylon may be used. Etc., and the conductive fiber can be, for example, a multi-molecular conductive fiber 'conductive metal fiber, which is not woven with non-conductive fiber and non-conductive fiber. The ratio of the conductive fiber is from 丨 to %, or coated or blended on the non-conductive fiber. Formed by entering a conductive material. The extensions 16 each have a fitting 17 and a connecting line 18 which is spherical or columnar or pyramidal or dish-shaped and can be deformed under pressure, and the surface of any of the fittings 17 is formed with three rings. Each of the H-shaped 172s represents a resistance value. The second sensing regions 172 are electrically conductive, and can also be inductively woven by a non-conductive fiber and a conductive fiber by a textile process (Textile ΡΠ). As an accessory 17, such as knitting, weaving or other suitable process; 2_conductive metal # embedded or sewn in the fitting n * miscellaneous; or 3. by sewing the conductive thin wire to the fitting 17 And forming; or 4. forming or coating a conductive substance on the accessory 17; or 5· County is a __ piece of conductive cloth and then attached to the accessory 17 by means of adhesive, textile 200910398 or devil glue, etc. The second sensing region 172 corresponds to the position of the first sensing region 13 of the first layer 12. The connecting wire 18 is formed by three conductive thin wires 182 representing three different resistive materials and a thick wire 184 representing the transmission line. One end is connected to the fitting 17 'the other end is connected to the first layer 12 The non-conducting area I4 connection fitting itself may contain a high-density material such as a metal or a glass raft so that the fitting is vertically centered, and the connecting line 18 of the extending portions 16 is electrically connected to the second sensing regions' and these The extension is remote from the reference zone 15 of the first layer 12. The control circuit 192 is fixed to the first layer 12 in a manner that can be a mother button. The control circuit can be a printed circuit board or an integrated circuit. The control circuit 192 is connected to the first layer 12 The first sensing area 13 and the reference area 15 are electrically connected to each other and electrically connected to the second sensing area 172 of the accessories 17 through the conductive thin wires 182 of the connecting lines 18, thereby being used by the user. When the fitting 17 is pressed toward the first layer 12 or the first layer of fabric 12 is pulled, the second sensing zone 172 on the pressed component 17 will contact the corresponding first sensing zone 13 to make the first The sensing area 13, the second sensing area 172, and the control circuit 192 form a loop. Under the action of external force, the fitting 17 and the first sensing zone 13 are only affected by the gravity, so that the fitting 17 and the sensing zone 13 form a loop to understand the user's posture change. The output device 194 is electrically connected to the control circuit 21, and may have a wireless signal emission H. When the user presses the accessory 17 at a different position or pulls the cloth 12 at a different position, the control circuit 192 can be The force position is different and the output 194 is commanded to emit a variety of different signals. In addition, the control circuit 192 can also include a resistance meter, which can be used to measure the resistance value of the circuit. When the force applied by the pressure is increased, the component can be deformed by force. The same - the more the second sensing area on the accessory 17, the more closely the way to the 200910398 fish whistle - V. The sensing area 13 is attached together, at this time the circuit is powered. At this time, the first sensing area 13 and the accessory I7 form a variable resistor, which is inversely proportional to the resistance and the conduction inductance; the control circuit 192 also has a built-in resistance threshold * "resistance measured by the resistor 4 When the value is lower than the value of the electric (four), the control circuit β only pulls the H 22 round m. In contrast, when the resistance value of the loop is higher than the threshold value, the control circuit 192 does not react to avoid accidental touch. k becomes the switch's Wei. If it is made _ just like keybGani, it makes the sensation of using the sensation and transmission, 'money% or cell phone button her, has the feeling of pressing back. In addition, because the external force or tension is different The resistance change can be a pressure or a tension gauge. When the Tiannu conductive thin wire 182 is electrically connected to the control circuit 192, respectively, the more the external force is connected, the more the control circuit 192 can be The command (4) 194 sends different signals according to different situations, so it can be used as a signal generator, a switch, a pressure sensor or a strain gauge. The reference layer 15 of the first layer 12 is associated with the first The first sensing area i3 of the layer 12 and the shape extension. 卩16 Separation 'so when the fabric iq with the separation sensing zone is in normal use', the reference zone 15 should not contact the first and second sensing zones Am to form a loop 'however' the reference zone 15 and the first - When the sensing region 13 or the first sensing region 172 forms a loop or other reference i 155 forms a loop, the control circuit 21 will immediately cut off the electrical connection with the first sensing region and the second sensing region m. Avoid leakage and cause electric shock to the manufacturer. If the sensing area in the first layer u forms a loop or the various aspects of the extension 16 form a loop, such as rain or flow (4) affects the power supply, (10) error-free signal And generating a signal to the user at the same time. Through the above structure, the fabric 10 having the separated sensing area can be made into the clothing 200910398 and worn by the user, and can be used as an electric remote controller, and the user can press The different positions of the second layer 16 enable the output device 194 to emit various wireless signals to control the TV turntable, the sound volume of the racquet or the temperature rise and fall of the air conditioner, etc.; The fabric 1 is integrated with the fabric or leather worn by the user, so that it can be carried by the user without hindering the user from performing any physical movements. In addition, the first layer 12 can be made into underwear by the user. On the body, the extension portion 16 is placed outside the first layer 12, and the first sensing area 13 of the unused position is brought into contact with the measured portion of the user's skin by pressing the accessory 17 at different positions, which has a separation induction The fabric 10 of the area can be used to measure the electrocardiogram of the human body or provide the current required for the TENS or the warm clothing. The sensing area 13 itself has the function of a switch and can also be a signal or current transmitter, on the one hand, the physiological signal can be transmitted Aspects can also provide external current or signals to the user. In addition, the fabric 10 having the separated sensing area can also be placed under the arm, so that the user can make the circuit conductive by pressing the upper arm to the chest side; and the output 194 can be an LED indicator, one or eight. A thin display panel' can emit light, sound or display a pressed position when the circuit is turned on. The fabric 10 having the separation sensing zone has a plurality of variations in structure. Please refer to the third drawing. The fabric 10a' having the separation sensing zone provided by the second preferred embodiment of the present invention is provided by the foregoing embodiment. The difference is only the same, except that the first sensing region 13a of the first layer 12a is formed only on the surface of the first layer i2a instead of the first layer 12a, and any of the extending portions 16a includes two The connecting wire 18a connects the fitting 17a and the first layer 12a to fix the fitting i7a at a specific position, and at this time, the inner and outer folds are not short-circuited because the sensing regions are both in between, so that the error is reduced. If the accessory 17 is not deformable, the accessory 17 is a passive resistance component whose resistance value is fixed. In addition, as shown in FIG. 4, a groove 121b may be formed on one side of the first layer 12b for receiving the fitting 17b, and the first sensing region 13b is formed on the first layer 12b relative to the fitting 17b. The other side, and its position corresponds to the recess 121b. Since the first and second sensing regions i3b, 172b are both conductive, a capacitor can be formed together, and the control circuit 192b can include a capacitance meter for measuring 1. The capacitance value formed by the second sensing regions 13b, 172b is 'by this'. The control circuit 192b can control the output according to the change of the capacitance value caused by the relatively close or distant proximity of the first and second sensing regions 13b, 172b. The device 194b sends a signal. In the same way, if the first and second sensing regions 13b and 172b are both non-deformable and fixed without displacement, a passive capacitive component is generated, wherein the capacitance value is inversely proportional to the distance between the two sensing regions, and is proportional to the area of the sensing region. Therefore, different capacitive components can be designed. A variable capacitor is produced if it is deformable such that the fitting 17b is deformable. At the same time, the change of the capacitance value is related to the change of the distance between the first sensing area and the second sensing area, and the relative speed and acceleration of the two sensing areas can be obtained by generating a change in the capacitance value for a long time, so that the speed and acceleration sensor can be obtained. As can also be shown in the fifth figure, the extension portion 16c is shaped to correspond to the groove 121c of the first layer 12c, whereby the fitting 17c is completely accommodated when it is completely accommodated. The surface of the fabric 1 〇c of the sensing area is kept flat to increase the appearance. In addition, the first sensing area of the first layer 12e is located inside the first layer 12c. Referring to the sixth figure, the fabric having the separation sensing zone provided by the fifth preferred embodiment of the present invention is substantially the same as that provided by the other embodiments, except that the first layer 12d is formed. a convex surface 123d, and the first layer 12d has a plurality of annular shapes formed on the convex surface coffee, and the fitting 17d is entirely made of a conductive material and forms the extending portion_4 second sensing 12 200910398 Zone 17d' the fitting 17d has a concave surface 174b and is attachable to the convex surface 123d. Referring to the seventh figure, the fabric 10e having the separated sensing area provided by the sixth preferred embodiment of the present invention is substantially the same as that provided by the foregoing embodiment, and differs only in the first sensing of the first layer 12e. The area i3e is located on the inner side surface of the recess 121e, and the second sensing area i72e of the fitting 17e is hemispherical, and the control circuit (not shown) and the outputter (not shown) can be placed on the accessory' and the connecting line is utilized. It is electrically connected to the first sensing region. Referring to FIG. 8 again, the fabric 10f having the separation sensing zone provided by the seventh preferred embodiment of the present invention is substantially the same as that provided by the foregoing embodiment, except that the first layer 12f has a perforation. 125f, and the first sensing region 13f of the first layer 12f is formed by sewing a conductive thin wire to the edge of the hole of the through hole 12f, so that the first layer 12f is pulled by an external force or the fitting is pressed against the perforation, first, The second sensing area has different contact positions to generate different resistance value signals. If the conductive sensing area is in the inner layer of the perforation, that is, the hole edge of the perforation is non-conductive cloth, or the hole edge of the perforation is a conductive material, but the conductive material of the fitting is in the inner layer of the fitting, that is, the outer layer of the fitting is non-conductive material, then the external force is Changes in capacitance can occur as a function of change. Referring to FIG. 9 again, the fabric having the separation sensing zone provided by the eighth preferred embodiment of the present invention includes a first layer 12g, an extension portion l6g, a control circuit 192g, and an output member 194g. The first sensing area i3g of the first layer 12g is annular, the extending portion 16g includes a west piece 17g, and a connecting line % connects the fitting 17g and the non-sensing area 14g of the first layer 12g. The second sensing area mg on the accessory ng is made of a magnetic material, and the connecting piece 18g is non-conductive 'by this'. When the fitting 17g approaches or moves away from the first layer 12g, the second sensing area of the fitting l7g 172g can generate an induced electromotive force in the first sensing region 13g of the ring, the control circuit 192g can detect the induced electromotive force, and send a signal according to the inductive electric motor 13 200910398 * 7 , the second sensing of the accessory 17g The region § can be surrounded by a conductive fiber to form a metal coil, and the induced electromotive force can be generated by using the first inductor 3g of the ring when the connecting member lSg approaches or moves away from the first layer. The inductance value is proportional to the square _ number squared, and is proportional to each-du product and inversely proportional to the length of the screw tube. Therefore, 70 different passive inductors can be set in the accessories. Preferably, the fabric 20 having the separate sensing regions is provided with a first layer 22, an extension portion 25, a second layer four, a control circuit (not shown), and an output_not shown. The connecting line 27 of the extending portion 25 is made of conductive fibers and is connected to the fitting 26 and the second layer 29. The control circuit is also electrically connected to the second sensing region 262 of the fitting via the connecting wire 27. In addition, the extension portion 25 further includes a non-conductive reinforcing wire 28 that connects the fitting 26 and the second layer 29 respectively, so that the fitting 26 can be more firmly fixed to the second layer 29. Referring to the tenth-figure, the fabric 3G having the separation sensing zone provided by the tenth preferred embodiment of the present invention is substantially the same as that provided by the ninth preferred embodiment, except that the accessory 36 is The second layer % is sewn by the connecting line 37. Through the above structure, the manufacturer can separately make the first layer 32 and the second layer % into the underwear and the outer pants for the user to wear on the body, and place the first and second sensing regions 33, 362 close to the user's abdomen. Therefore, the user can make the first sensing region 33 and the second sensing region closely adhere to each other by inhaling the abdomen and applying the force to the abdomen, thereby reducing the resistance value of the loop or obtaining a different one. The value of the resistor, which in turn causes the output to emit a signal, the same principle can also be used to change the value of the capacitor or the value of the inductor to cause the output to emit a signal. In addition, the first layer 32 can also be laid on the seat, and the second layer is made of 200910398 clothes or outer pants for the user to wear on the face, whereby 39 can be made into a jacket or a panty for chronic diseases: = Turn over, or know if the patient has fallen from the bed. The length of time is appropriate for the patient. Based on the spirit of the Ming Dynasty, there are many changes in the splitting of the real thing. Now, ... constitute the case (4) Preferably, the control circuit (not shown) and the output _ not present, the first layer 42 has a perforation 42 ι, a plurality of conductive thin wires 43 and a non-sensing region 44, the conductive The thin line 43 is sewn to the edge of the through hole 421, and the first sensing layer 43 of the first layer 42 is formed. The first sensing layer is separated from each other, and the non-sensing area 44 is formed on the first sensing. Around the area 43; the extension 45 has a fitting 46 and a second connecting line π, which is known and made of an insulating material, and the button may have a control circuit or an output device therein and connected thereto. The wires are connected to each other and are sewn to the second layer 49 by the two connecting wires 47. The two connecting wires 47 are made of a conductive material. And forming a second sensing region 47 of the extension portion, the two connecting wires 47 are inserted through the through hole 421 of the first layer 42, and the first layer 42 is located at the fitting 46 and the second layer 49. Thereby, the user can pull the button 46 of the first layer 42 or the second layer 49 relatively, so that the second layer 49 drives the button 46 to move along the through hole 421 by the connection. The line 47 is in contact with the first sensing area 43 at different positions, and the control circuit can control the output unit to emit various signals, that is, a signal generator. Referring to the thirteenth embodiment, the fabric 50 having the separation sensing zone provided by the twelfth preferred embodiment of the present invention is substantially the same as that provided by the eleventh preferred embodiment, and includes the first The layer 52, the extension portion 55, the first layer 59, the control circuit (the figure is not X and the (4) is old), and the (four) point is that the first sensing region 53 of the first layer 52 is substantially circular And having a predetermined distance from the through hole 521, and the fitting 56 of the extending portion 55 is made of a conductive material, and is also the same as the second money area of the stretched portion 55; Thereby, the user can apply force to tilt the female 56 and contact the first sensing zone 53 of the first layer. Similarly, the sensing area of the right sill layer 52, the inner layer or the side of the conductive material of the first layer 52 is in contact with the sensing area 53 of the first layer 52, and the insulating material is included in the packaging, and the user applies the power to her wealth. The change in capacitance value. Please refer to the second section "The present invention (4) thirteen_real_ provided by the tree 6G with the separation sensing area is substantially the same as the one provided by the aforementioned tenth - difficult to implement", the only difference is that the extension portion 65 is more The top cover 68 is provided on the fitting 66, and the fitting 66 is made of the electrical material, and the second sensing area 66 of the extending portion 65 is formed by the insulating material. Made of material 'to avoid the user's electric shock due to direct contact with the accessory 66, the top cover can contain 1C, sensor, resistor, capacitor, inductor, amplifier, LED, antenna, ♦ eight, microphone, 4 electronic parts The pin is connected to the connecting line of the accessory. Referring to FIG. 15 again, the fabric 70 having the separated sensing area provided by the fourteenth preferred embodiment of the present invention is substantially the same as that provided by the foregoing preferred embodiment, and the second layer 79 and a control circuit (pattern) There is a first layer 72, an extension portion 75 (not shown), and an output device (not shown). The first layer 72 has a through hole 721 and a first sensing area 73. The conductive wire is sewn around the through hole 721, and the connecting line 77 of the extending portion 75 is made of a conductive material, and forms a second sensing area 77. The fitting 76 is made of an insulating material. By the movement of the second sensing region 77, the capacitance of the first and second sensing regions 73, 77 formed by 200910398 can be changed. The control circuit can be controlled according to the change of the capacitance.
導通,配件切可有㈣IC、LED或天線結構 ,且有導線與連 接線87相接。 、明再參閱第十七圖’本發明第十六較佳實施例所提供之具有 刀離戌應區之布料9〇同樣具有—第—層%、二延伸部%、一第 一層"、—控制電路(圖未示)以及-輸出器(圖未示),該第-層 92係包含有二母扣件921各藉由三導電細線%縫至不感應區 94 ’該等母扣件921係由絕緣材料所製成,該等導電細線93係 形成該第—層92之3個第一感應區93,且電性連接至該控制電 路該一延伸部95各包含一配件96以及三連接線97,該配件 96係藉由該該等連接線97縫於該第二層99上,該配件96係為 一公扣件96且由絕緣材質所製成,該配件96可分離地固設於該 母扣件921,該等連接件97係形成該延伸部95之3個第二感應 區97,藉此,使用者可藉由扣合該等公扣件96及該等母扣件 921而使該等第一感應區93及該等第二感應區97接觸而導通 形成通路而有3個不同訊號或電流傳導;此外’該等公扣件95 及該等母扣件99之數目亦可為一個或二個以上,且該等公扣件 17 200910398 95於數目上亦可多於或少於該等母扣件99。 、清再參閱第十八圖,本發明第十七較佳實施綱提供之具有 分離感應區之布料9〇a係具有一第一層似、一延伸部物、一 第層"a、一控制電路(圖未示)以及一輸出器(圖未示),該第一 層92&係具有一卡勾93a,該卡勾93a係由導電材料所製成,且 胃、>成該第一層92a之第—感應區93a,該延伸部95a係具有一 配件96藉由-連接線97縫於該第二層撕,該配件%係由導電 材料所製成且形成該延伸部95a之第二感應區%a,該連接線97 r、由金屬所製成’藉此,該卡勾咖勾卡於該配件恤而形成迴 路0Conduction, accessories can be cut (4) IC, LED or antenna structure, and the wire is connected to the connection 87. Referring to FIG. 17, the fabric of the sixteenth preferred embodiment of the present invention having the knife-offering region has the same - the first layer %, the second extension portion %, and the first layer " a control circuit (not shown) and an output device (not shown), the first layer 92 includes two female fasteners 921 each sewn by three conductive thin wires % to the non-sensing zone 94' The piece 921 is made of an insulating material, and the conductive thin wires 93 form three first sensing regions 93 of the first layer 92, and are electrically connected to the control circuit. The extending portions 95 each include an accessory 96 and The three connecting wires 97 are sewed on the second layer 99 by the connecting wires 97. The fitting 96 is a male fastener 96 and is made of an insulating material. The fitting 96 is detachably The fasteners 921 are fixed to the third sensing regions 97 of the extending portion 95, whereby the user can fasten the male fasteners 96 and the female fasteners. The first sensing region 93 and the second sensing regions 97 are in contact with each other to form a path and have three different signals or current conduction; The number of the male fasteners 95 and the female fasteners 99 may also be one or more, and the male fasteners 17 200910398 95 may also be more or less than the female fasteners 99. Further, referring to the eighteenth aspect, the fabric 9A having the separation sensing zone provided by the seventeenth preferred embodiment of the present invention has a first layer, an extension, and a first layer "a, a a control circuit (not shown) and an output device (not shown), the first layer 92& has a hook 93a, the hook 93a is made of a conductive material, and the stomach, > a first sensing portion 93a of a layer 92a having an attachment 96 sewn to the second layer by a connecting wire 97, the fitting % being made of a conductive material and forming the extending portion 95a The second sensing area %a, the connecting line 97 r is made of metal 'by this, the hook hook is stuck on the accessory shirt to form a loop 0
基於本發明之精神’該具有分誠應區之布料其實也具有多 =變化’例如該控制電路内亦可内建時關值(例如3秒鐘),當 該第-、第二感應區導通之時間高於此時間閾值時,該控制電路 才命令该輸出ϋ發出訊號’藉以避免誤觸感應區上可顯示功能圖 案’如在糾口或配件上,舉凡此等易於思及之種種 本發明之帽料W 請參閱第十九圖’配件或紐知動本身可為一軟鐵心所製 」,左右各有兩組匝數不同的線圈100a、100b纏繞,則可形成 〜變壓器。 【圖式簡單說明】 第一圖係本發明第一較佳實施例之正視圖; 第二圖係本發明第—較佳實施例之細部結構側視圖; 第三圖係本發明第二較佳實施例之側視圖; 第四圖係本發明第三較佳實施例之側視圖; 第五圖係本發明第四較佳實施例之側視圖; 200910398 第’、圖係本發明第五較佳實施例之側視圖; 第七圖係本發明第六較佳實施例之侧視圖; 第八圖係本發明第七較佳實施例之立體圖; 第九圖係本發明第人較佳實施例之立體圖; 第十圖係本㈣第九較佳實關之側視圖; 第十-圖係本發明第十較佳實施例之側視圖; 第十一圖係本發明第十一較佳實施例之正視圖; 第十二圖係本發明第十二較佳實施例之正視圖; 第十四圖係本發明第十三較佳實施例之正視圖; 第十五圖係本發明第十四較佳實施例之正視圖; 第十六圖係本發明第十五較佳實施例之立體圖; 第十七圖係本發明第十六較佳實施例之正視圖; 第十八圖係本發明第十七較佳實施例之正視圖; 第十九圖係本發明第十八較佳實施例之正視圖。 【主要元件符號說明】 ίο具有分離感應區之布料 12第一層 13第一感應區 14不感應區 15參考區 16延伸部 17配件 155參考區 172第二感應區 18連接線 182導電細線 184粗線 192控制電路 194輸出器 14a不感應區 172a第二感應區 l〇a具有分離感應區之布料 12a第一層 13a第一感應區 16a延伸部 17a配件 19 200910398 18a連接線 l〇b具有分離感應區之布料 12b第一層 121b凹槽 14b不感應區 16b延伸部 172b第二感應區192b控制電路 13b第一感應區 17b配件 194b輸出器 l〇c具有分離感應區之布料 12c第一層 121c凹槽 14c不感應區 16c延伸部 172c第二感應區18c連接線 13c第一感應區 17c配件 10d具有分離感應區之布料 12d第一層 123d凸面 14d不感應區 16d延伸部 174d凸面 18d連接線 13d第一感應區 17d配件(第二感應區) l〇e具有分離感應區之布料 12e第一層 121e凹槽 14e不感應區 16e延伸部 172e第二感應區18e連接線 13e第一感應區 17e配件 l〇f具有分離感應區之布料 12f第一層 125f穿孔 14f不感應區 16f延伸部 13f第一感應區 17f配件 20 200910398 172f第二感應區18f連接線 10g具有分離感應區之布料 12g第一層 125g穿孔 13g第一感應區 14g不感應區 16g延伸部 17g配件 172g第二感應區18g連接線 192g控制電路 194g輸出器 20具有分離感應區之布料 22第一層 23第一感應區 24不感應區 25延伸部 26配件 262第二感應區 27連接線 28補強線 29第二層 30具有分離感應區之布料 32第一層 33第一感應區 34不感應區 35延伸部 36配件 362第二感應區 37連接線 39第二層 40具有分離感應區之布料 42第一層 421穿孔 44不感應區 43第一感應區(導電細線) 45延伸部 46配件(紐知) 47第二感應區(連接線)49第二層 50具有分離感應區之布料 52第一層 521穿孔 53第一感應區 21 200910398 54不感應區 55延伸部 56配件(第二感應區) 57連接線 59第二層 60具有分離感應區之布料 62第一層 621穿孔 63第一感應區 64不感應區 65延伸部 66配件(第二感應區) 67連接線 68頂蓋 69第二層 70具有分離感應區之布料 72第一層 721穿孔 73第一感應區 74不感應區 75延伸部 76配件 77連接線(第二感應區) 79第二層 80具有分離感應區之布料 82第一層 83第一感應區(扣環)84不感應區 85延伸部 86配件 87連接線 89第二層 93第一感應區(扣環) 96配件(母扣件) 99第二層 90具有分離感應區之布料 92第一層 921母扣件 94不感應區 95延伸部 97連接線(第二感應區) 90a具有分離感應區之布料 92a第一層 93a第一感應區(卡勾)94a不感應區 22 200910398 95a延伸部 96a配件(第二感應區)97a連接線 99a第二層 100a軟鐵心所製成之線圈 100b軟鐵心所製成之線圈 100c配件(紐知) 23According to the spirit of the present invention, the fabric having the distribution area has a plurality of changes, for example, the control circuit can also be built-in (for example, 3 seconds), when the first and second sensing areas are turned on. When the time is higher than the time threshold, the control circuit commands the output to emit a signal 'to avoid accidentally touching the displayable functional pattern on the sensing area', such as in the rectification or accessories, and the present invention is easy to think about. Cap W Please refer to the nineteenth figure 'Fittings or New Zealand's own can be made of a soft iron core'. The two sets of coils 100a and 100b with different numbers of turns are wound around each other to form a transformer. BRIEF DESCRIPTION OF THE DRAWINGS The first drawing is a front view of a first preferred embodiment of the present invention; the second drawing is a side view of a detailed structure of the first preferred embodiment of the present invention; 4 is a side view of a third preferred embodiment of the present invention; and a fifth side is a side view of a fourth preferred embodiment of the present invention; 200910398 is a fifth preferred embodiment of the present invention. The seventh embodiment is a side view of a sixth preferred embodiment of the present invention; the eighth embodiment is a perspective view of a seventh preferred embodiment of the present invention; and the ninth embodiment is a preferred embodiment of the present invention. 10 is a side view of a ninth preferred embodiment of the present invention; a tenth-figure is a side view of a tenth preferred embodiment of the present invention; and an eleventh preferred embodiment of the eleventh preferred embodiment of the present invention 12 is a front view of a twelfth preferred embodiment of the present invention; a fourteenth preferred embodiment of the thirteenth preferred embodiment of the present invention; Front view of a preferred embodiment; Fig. 16 is a perspective view of a fifteenth preferred embodiment of the present invention Figure 17 is a front view of a sixteenth preferred embodiment of the present invention; Figure 18 is a front view of a seventeenth preferred embodiment of the present invention; and a nineteenth preferred embodiment of the present invention The front view. [Main component symbol description] ίο Cloth with separate sensing area 12 First layer 13 First sensing area 14 Non-sensing area 15 Reference area 16 Extension 17 Fitting 155 Reference area 172 Second sensing area 18 Connecting line 182 Conductive thin line 184 thick Line 192 control circuit 194 output 14a non-sensing area 172a second sensing area l〇a has a separate sensing area of the cloth 12a first layer 13a first sensing area 16a extension 17a fitting 19 200910398 18a connecting line l〇b has separate induction Zone cloth 12b first layer 121b groove 14b non-sensing zone 16b extension 172b second sensing zone 192b control circuit 13b first sensing zone 17b fitting 194b outputr lc has fabric 12c separating the sensing zone first layer 121c concave Slot 14c non-sensing zone 16c extension 172c second sensing zone 18c connecting wire 13c first sensing zone 17c fitting 10d fabric having separated sensing zone 12d first layer 123d convex surface 14d non-sensing zone 16d extension 174d convex surface 18d connecting wire 13d A sensing area 17d accessory (second sensing area) l〇e has a fabric 12e separating the sensing area, a first layer 121e, a recess 14e, a non-sensing area 16e, an extension 172e, a second sensing area 18e, a connecting line 13e The first sensing area 17e is provided with a fabric 12f having a separate sensing area, a first layer 125f, a perforation 14f, a non-sensing area 16f, an extension 13f, a first sensing area, 17f, an accessory 20, 200910398, 172f, a second sensing area 18f, a connecting line 10g having a separate sensing area. Cloth 12g first layer 125g perforation 13g first sensing area 14g non-sensing area 16g extension part 17g fitting 172g second sensing area 18g connecting line 192g control circuit 194g outputter 20 having the separation sensing area of the cloth 22 first layer 23 first Sensing area 24 non-sensing area 25 extension part 26 fitting 262 second sensing area 27 connecting line 28 reinforcing line 29 second layer 30 having separated sensing area cloth 32 first layer 33 first sensing area 34 non-sensing area 35 extending portion 36 Fitting 362 second sensing zone 37 connecting wire 39 second layer 40 having separated sensing zone cloth 42 first layer 421 perforation 44 non-sensing zone 43 first sensing zone (conductive thin wire) 45 extension 46 fitting (new knowledge) 47 Second sensing area (connecting line) 49 second layer 50 has a fabric separating the sensing area 52 first layer 521 perforation 53 first sensing area 21 200910398 54 non-sensing area 55 extension 56 fittings (second Area 57) The second layer 60 of the connecting line 59 has the fabric of the separated sensing area 62. The first layer 621 is perforated 63. The first sensing area 64 is not the sensing area 65. The extension 66 fitting (the second sensing area) 67 the connecting line 68 the top cover 69 The second layer 70 has a fabric 72 for separating the sensing regions. The first layer 721 is perforated 73. The first sensing region 74 is not sensing region 75. The extending portion 76 is an accessory 77 connecting wire (second sensing region). The second layer 80 has a fabric separating the sensing regions. 82 first layer 83 first sensing area (fastening ring) 84 non-sensing area 85 extension part 86 fitting 87 connecting line 89 second layer 93 first sensing area (fastening ring) 96 fitting (female fastener) 99 second layer 90 Cloth 92 with separate sensing zone first layer 921 female fastener 94 non-sensing zone 95 extension 97 connecting wire (second sensing zone) 90a having a fabric 92a separating the sensing zone first layer 93a first sensing zone (snap) 94a non-sensing area 22 200910398 95a extension part 96a fitting (second sensing area) 97a connecting line 99a second layer 100a soft core made of coil 100b soft core made of coil 100c fittings (new knowledge) 23