五、新型說明: 【新型所屬之技術領域】 剛 本創作一種鎖的操作機構,是指-種具有圓柱型鎖 與管形鎖功能賴的操作機構,該鎖_側鎖體可利用 壓按操作元件閉鎖、旋轉握把解鎖或旋轉操作元件啟、 閉鎖,該鎖的外側鎖體可利用料旋轉柱塞做啟、閉鎖 〇 【先前技術】 [0002] 按習用的管形鎖的内側鎖體的閉鎖方式是以旋紐轉 動-角度以達制鎖或解鎖的操作,此旋轉旋紐的操作 ,在使用上,對某些殘障人士甚感不便,故一般場所遂 普遍使用圓柱型鎖具(喇八鎖),因圓柱型鎖具的内側 鎖體的閉鎖方式為壓按操作元件的操作方式,但圓:柱型 鎖具的構造係較為複雜,售價成本較高,有鏗於此本創 作遂設計一具有圓枉型鎖與管形鎖功能的鎖具。 [0003] 雖然,美國專利581 6086、6623053與7934754三案 亦已揭露壓按按鈕的管形鎖,以壓按操作元件的方式控 制鎖體的閉鎖構造,但是這三件專利所揭露的結構並不 具有旋轉錄起驅動柱塞做啟、閉鎖的功能。 【新型内容】 [0004] 有鑑於此,本創作的主要目的係提供一種鎖的操作 機構,是指一種具有圓柱型鎖與管形鎖功能的鎖的操作 機構,該鎖的内側鎖體可利用壓按操作元件閉鎖、旋轉 握把解鎖或旋轉操作元件啟、閉鎖,該鎖的外側鎖體可 利用鑰匙旋轉柱塞做啟、閉鎖。 1012020981-0 10120634^單編號Α01ίη 第3頁/共38頁 [0005]M441009 本創作的次要目的係提供一種鎖的操作機構具有構 造簡單與組裝容易。 [0006] 本創作一種鎖的操作機構,係包括:一套盤,具有 一中心孔與至少一凹槽,該套盤,並界定·一轴線;一管 狀元件,可活裝於該套盤的中心孔;一桿件,穿設該管 狀元件,該桿件具有一末端;一鎖套,安裝於該管狀元 件的一端,該鎖套,具有一可轉動的柱塞,該柱塞末端 軸向形成一第一容室,並連通一第二容室;一離合元件 ,安裝於該桿件上,該離合元件具有至少一卡塊,該離 合元件可接受該桿件沿軸線方向位移的操作,使該離合 元件可沿該軸線的第一位置移動到第二位置,當該離合 元件位於第一位置時,該離合元件的卡塊不嚙合該套盤 的凹槽,此時該桿件的末端部份位於該第二容室内,當 該離合元件位於第二位置時,該離合元件的卡塊嚙合該 套盤的凹槽,此時該桿件的末端部份嵌入該第一容室内 【實施方式】 [0007] 由下列較佳具體實施例之詳細說明,以及後附之申 請專利範圍及附圖,將會使本創作之諸多目的,特徵及 優點獲得更清楚且瞭解。 [0008] 如第一圖至第二十圖所示,為本創作第一具體實施 例的鎖,該鎖係包括:一第一鎖體1、一第二鎖體2與一 鎖閂3,該第一鎖體1係可連接該第二鎖體2與該鎖閂3, 以安裝於一門板4上,該第一鎖體1與該第二鎖體2可操作 該鎖閂3,其中該第一鎖體1,包括: 1012063#單魏删1 第4頁/共38頁 1012020981-0 M441009 [0009] 如第二圖所示,一套盤π,為一盤狀體,並界定一 轴線5,該套盤Π中央具有一中心孔lu,該中心孔ιη 連通兩隔開徑向設置的凹槽112,且該套盤丨丨的盤底具有 兩隔開設置軸向延伸的支承螺母113。 [0010] 一管狀元件12,可活裝於該套盤丨丨的中心孔U1,該 管狀元件12的中間端活裝一可橫向移動的定位件121可與 一第一把手13相連接,且該管狀元件12的一端部份可容 置一鎖套10,又該鎖套10部份可容置於該第一把手13中 • ’該管狀元件12另一端具有四個延伸部122可分別穿設一 第一扭力回復機構14的轉動座141所具有的四個孔1411 ,用以將該管狀元件12與第一扭力回復機構η產生連動 ’使s亥第一把手13轉動一角位移後,受該第一扭力回復 機構14的扭力彈簧142作用復歸原位,且該管狀元件12的 管壁上鄰近該四個延伸部122的位置形成兩隔開設置的長 槽 123。 [0011] • 如第二圖與第三圖所示’一驅動管15,係為一方管 部份151連接一筒狀部份152,該筒狀部份152的内周壁 徑向向内延伸兩隔開設置的卡合部153,並於該筒狀部份 152的.周壁的末端軸向形成兩隔開設置的凹槽丨55,該卡 合部153與該凹槽155相隔約90度,該方管部份151與該 筒狀部份152的結合處形成四個間隔設置的凹部154 (第 三圖中僅示其二)與兩隔開設置的孔157 (第三圖中僅示 其一)。 [0012] 如第一圖、第二圖與第四圖所示,一桿件16,可穿 設該軀動管15的筒狀部份152與方管部份151 .,該桿件丄6 10120634^^^ A〇101 第5頁/共38頁 1012020981-0 M441009 的側邊位置延伸具有兩個隔開設置的控制部164、四個隔 開設置的嚙合部161 (本創作為一缺口)、兩個隔開設置 的止檔部163、四個隔開設置的撥動部166 (圖中僅示其 二)與四個隔開設置的被推動部165 (圖中僅示其二), 該桿件16可位於沿該軸線5的第一位置(操作元件21未被 壓按的位置)與第二位置(操作元件21已被壓按的位置 )之間移動或該桿件16可繞該轴線5的第一角位置(操作 元件21未被旋轉的角位置)與第二角位置(操作元件21 已被旋轉一預定角度的角位置)之間轉動;該椁件16具 有末端162 ’ 6玄末知162的鄰近處具有兩隔開設置的被 推部167 ’該桿件16的末端162可適時連接於該鎖套, 另一端連接於一安裝於該第二鎖體2的操作元件21 ^ [0013] 如第二圖與第八圖所示,該離合元件19,具有一通 孔191可套设於該桿件16,該離合元件19中央鄰近位形成 兩隔開設置的淺位193與兩隔開設置的深位194,該兩淺 位193與該兩深位194之間具有兩隔開設置的斜面195與 兩個隔開設置的被撥動面196,該淺位193與該深位194 可接受該桿件16的控制部164的操作,又該離合元件19的 周緣徑向延伸兩隔開設置的卡塊1 9 2。 [0014] 如第二圖所示,一第一彈簧158位於該離合元件19與 該管狀元件12的定位件121之間,一端支承於該離合元件 19,另一端支承於該管狀元件12的定位件121,以偏壓該 離合元件19。 [0015] 如第二圖、第六圖與第七圖所示’該鎖套1〇,可容 置於該管狀元件12内,該鎖套1〇具有一可轉動的柱塞1〇1 1012020981-0 10120634产單编號A〇1〇l 第6頁/共38頁 M441009 ’該柱塞un末端102具有一第一容室,本創作為一一字 形孔1 022與一第二容室,本創作為一八字形孔1〇21,該 一字形礼1022與該人字形孔1〇21相連通,並於該八字形 孔1021的周圍形成四個間隔設置的推部1〇23,該一字形 孔1 022的周圍形成兩隔開設置的驅動部1〇24,該桿件“ 位於第-位置時,該桿件16的末端162插置於該柱塞ι〇ι 的八字形孔1021,當該桿件16位於第二位置時,該桿件 16的末端162可嵌入該柱塞101的一字形孔1〇22 ,或當該 桿件16位於第一角位置時,該桿件16的控制部164鄰靠於 該離合元件19的深位194,同時該桿件16的末端162插置 於該柱塞101的八字形孔1〇21,又當該桿件16位於第二 角位置時,該桿件16的控制部164鄰靠於該離合元件19的 淺位193,同時該桿件16的末端162亦插置於該柱塞1〇1 的八字形孔1021,該柱塞i〇i可接受鑰匙1〇3的帶動,使 該柱塞101的八字形孔1〇21的推部1023或一字形孔1〇22 的驅動部1024可適時地推動該桿件16的被推部丨。 [0016] 如第二圖與第五圖所示,一定位元件17為一彈性元 件,該定位元件17具有兩隔開設置的卡合部17ι、一通孔 173與四個隔開設置的嚙合部丨72 (本創作為一止逆部) ,當該定位元件17的通孔173套設於該桿件16上,該定位 元件17的四個嚙合部172分別與該桿件16的四個嚙合部 161相嚙合,可限制該定位元件17相對於該桿件16做移動 或旋轉,且該定位元件17可鄰靠於該桿件16的止擋部163 ,以穩定該定位元件17防止偏擺產生。 [0017] 如第二圖與第九圖所示,一解鎖元件156,可容置於 10120634# 單編號 A0101 第7頁/共38頁 1012020981-0 M441009 該驅動管15的筒狀部份152内,該解鎖元件156具有一中 心孔1561,該中心孔1561可接受該桿件16的穿設,該解 鎖元件156的一面具有四個間隔設置的凸部1562,可分別 與該驅動管15的筒狀部份152的四個凹部154相嚙合,該 解鎖元件156的周圍轴向延伸兩隔開設置的凸起1564 ,可 分別嵌入該驅動管15的筒狀部份152的兩孔157,該解鎖 元件156的另一面具有四個隔開設置的推動部1 563,該四 個推動部1563可分別適時的推動該桿件16的四個被推動 部165,其中該解鎖元件156與該驅動管15亦可以一體成 型的方式被製造。 · [0018] 如第二圖所示,一第二彈簧174位於該解鎖元件156 與該定位元件17之間,一端支承於該解鎖元件156,另一 端支承於該定位元件17 ;上述各元件組合後,形成該第 一鎖體1。 [0019] 如第一圖所示,一第二鎖體2具有該操作元件21、一 第二把手22、一第二扭力回復機構(圖中未示出)…等 ,而該第二鎖體2除了該操作元件21外大致為習有構造, 故於此不再贅述。 [0020] 如第一圖所示,一鎖閂3可被兩螺釘3 5鎖固於該門板 4侧邊,使該鎖閂3容置於鎖閂安裝孔42,該鎖閂3具有一 方管置入孔32及兩隔開設置的支承螺母置入孔33,前揭 s玄第一鎖體1的驅動管π的方管部份151可穿設該門板4的 鎖體安裝孔41與方管置入孔32再連接該第二鎖體2,可用 以驅動該鎖閂3内部的驅動裝置(圖中未示出)以連動該 鎖閂頭31,同時該套盤n的兩支承螺母113可分別穿設該 10120634产單编號 A0101 第8頁/共38頁 1012020981-0 M441009 門板4的鎖體安裝孔41與該鎖閂3的兩支承螺母置入孔33 ’且對正該第二鎖體2的兩孔23,並接受兩螺絲24的鎖固 ,將該第一鎖體1、該第二鎖體2與該鎖閂3固定於門板4 上,此時該第一鎖體1的桿件16可連接該第二鎖體2的操 作元件21。 如第一圖至第十三圖所示,整體組合後,當欲從第 二鎖體2的操作元件21壓按閉鎖時,壓按該第二鎖體2的 操作元件21,推動該桿件16,進而推動該離合元件19, 使該離合元件19從第一位置(如第十圖與第十一圖)移 動到第二位置(如第十二圖與第十三圖),此時該桿件 16的末端162會由位於該柱塞1〇 1的末端1〇2的八字形孔 1021移動到該鎖套101的末端1〇2的一字形孔1〇22,使該 、桿件16上的定位元件17的兩卡合部171分別順著該驅動管 15的兩卡合部153的斜面上滑過後,該定位元件Η的兩卡 合部171分別卡合於該驅動管15的兩卡合部153,由於該 離合元件19的兩卡塊192可分別位於該管狀元件12的兩長 槽123上滑動,故此時該離合元件19的兩卡塊192分別從 原先容置於該驅動管.15的兩凹槽155的位置移動到容置於 該套盤11的兩凹槽112的位置,如此即可限制該管狀元件 12相對於該套盤u的轉動,亦即無法轉動該第一鎖體】的 第一把手13,此狀態為閉鎖狀態。 如第一圖至第十五圖所示,當要解鎖時有兩種方式 ,一種為以第二鎖體2的第二把手22解鎖,另一種為以第 一鎖體1的鑰匙103解鎖,其中第一種解鎖方式:為轉動 該第二鎖體2的第二把手22,會間接帶動該驅動管15相對 10120634^^^^ Α0101 第 9 頁 / 共 38 頁 1012020981-0 M441009 於該桿件16轉動一角位移,使該驅動管15的兩卡合部153 相對於該定位元件17的兩卡合部171由卡合的位置(如第 十四圖)移動到不卡合的位置,此時該離合元件19受到 該第一彈簧158的偏壓從第二位置(如第十二圖與第十三 圖)移動到鄰近第一位置(如第十圖與第十一圖),由 於該離合元件19的兩卡塊192可分別位於該管狀元件12的 兩長槽123上滑動,該離合元件19的兩卡塊192分別從容 置於該套盤11的兩凹槽112的位置移動到容置於該驅動管 15的琦狀部份152的邊緣位置,待該第二鎖體£的第二把 手22與該驅動管15受到該第二鎖體2的第二扭力回復機構 (圖中未示出)的作用回到未操作的位置時,此時該離 合元件19的兩卡塊192分別進一步移動到容置於該驅動管 15的兩凹槽155的第一位置,而該離合元件19的兩卡塊 192分別與該套盤11的兩凹槽112產生分離,即轉動該第 一鎖體1的第一把手13時,該管狀元件12會與該套盤"產 生一轉動角度,此為解鎖狀態。 [0023] 第二種解鎖方式:為將正確鑰匙1〇3插置於柱塞1〇1 ,轉動柱塞101,由於該桿件16的末端162嵌入該柱塞 101末端102的一字形孔1022關係,所以當該柱塞1〇1轉 動時,該一字形孔1022的驅動部1024會推動該桿件16的 被推部167,使該桿件16轉動一角位移,使該定位元件17 的兩卡合部1 71相對於該驅動管15的兩卡合部153由卡合 的位置(如第十四圖)移動到不卡合的位置(如第十五 圖),此時該離合元件19受到該第一彈簧158的偏壓從第 二位置(如第十二圖與第十三圖)移動到第一位置(如 i〇12〇63#^ ^ ^ ^ + ^ 1012020981-0 M441009 分別位於該管狀元件12的兩長槽123上滑動,該離合元件 19的兩卡塊192分別從容置於該套盤11的兩凹槽丨12的位 置移動到谷置於該獎動管15的兩凹槽155的位置,使該離 合元件19的兩卡塊192分別與該套盤11的兩凹槽U2產生 分離,即轉動該第一鎖體1的第一把手13時,該管狀元件 12會與該套盤11產生一轉動角度,此為解鎖狀態。 [0024] 如第一圖至第十一圖、第十六圖與第十七圖所示, 當欲從第二鎖體2的操作元件21旋轉閉鎖或從第一鎖體1 的鎖套10用錄匙103旋轉閉鎖時,僅要旋轉該第二鎖體2 的操作元件21驅動該桿件16或旋轉插置於第一鎖體1的鎖 套10的鑰匙103操作該柱塞101,使該柱塞1〇1的八字形 孔1021的推部1 023推動該桿件16的被推部167,使該桿 件1 6轉動,該桿件1 6的兩控制部1 64分別由位於該離合元 件19的兩深位194的位置(如第十圖與第十一圖)順著斜 面195移動到位於兩淺位193的位置(如第十六圖與第十 七圖),同時該離合元件19會朝軸向,向該套盤11的方 向移動一距離,使該離合元件19的兩卡塊192分別由不鼓 入該套盤11的兩凹槽112的位置(如第十圖與第十一圖) 移動到嵌入該套盤11的兩凹槽112的位置(如第十六圖與 第十七圖),此時由於該離合元件19的兩卡塊192會分別 卡合該管狀元件12的兩長槽123與該套盤11的兩凹槽112 ’以限制該管狀元件12相對於該套盤11轉動,相對地該 第一把手13、該第一扭力回復機構14及該驅動管15亦受 到限制,無法轉動,即形成閉鎖狀態。 [0025] 若要對第一鎖體1進行解鎖,以上述的相反方向用操 1〇12〇634户單編號 A01〇1 第11頁/共38頁 1012020981-0 M441009 作元件21旋轉一角度帶動該桿件16或用鑰匙1〇3操作鎖套 10的柱塞101叙轉一角度,使該柱塞ιοί的八字形孔ίου 的推部1 023推動該桿件16的被推部167,使該桿件16轉 動,該桿件16的兩控制部164分別由位於該離合元件19的 兩淺位193的位置(如第十六圖與第十七圖)移動到位於 兩深位194的位置(如第十圖與第十一圖),此時該離合 元件19軸向遠離該套盤11的方向移動一距離,並受到第 一彈簧158的偏壓,使該離合元件19的兩卡塊192分別由 嵌入該套盤11的兩凹槽112的位置(如第十六圖與第十七 圖),移動到容置於該驅動管15的兩凹槽155的位置,而 鲁 離合元件19的兩卡塊192分別與該套盤丨丨的兩凹槽112產 生分離,即轉動該第一鎖體1的第一把手13時,該管狀元 件12會與該套盤11產生一轉動角度,此為解鎖狀態,此 時若繼續轉動鑰匙103,該桿件16的撥動面166會推動該 離合元件19的被撥動面196,進而該離合元件19的卡塊 192會藉由該驅動管15的凹槽155驅動該驅動管15,使該 驅動管15帶動該鎖閂3的鎖閂頭31作撤收。 剛 如第-圖至第十-圖、第十六圖至第十九圖所示, 鲁 若要以第二把手22進行解鎖,轉動第二把手22 ,使該驅 動管15帶動該解鎖元件156,該解鎖元件156的四個推動 部1 563會分別推動該桿件16的四個被推動部165 ,使該 桿件16轉動,該桿件16的兩控制部164分別由位於該離合 兀件19的兩淺位193的位置(如第十六圖與第十七圖)移 動到位於兩深位194的位置(如第十圖與第十一圖),此 時該離合元件19會軸向遠離該套盤u的方向移動一距離 〇 ,並欠到第一彈簧158的偏壓,使該離合元件19的兩卡塊 10120634#單編號Α0101 第12頁/共38頁 ’ 1012020981-0 M441009 M2,分別由嵌入該套盤丨丨的兩凹槽112的位置(如第十 ”圖與第十七圖),移動到容置於該驅動管15的筒狀部 份152的邊緣位置,待該第二鎖體2的第二把手22與該驅 動管15受到一安裝於該第二鎖體2的第二扭力回復機構( 圖中未示出)的作用回到未操作的位置時,此時離合元 件19的兩卡塊192分別進一步會移動到容置於該驅動管15 的兩凹槽155的位置,而該離合元件19的兩卡塊192分別 與該套盤11的兩凹槽112產生分離,即轉動該第一鎖體1 的第一把手13時,該管狀元件12會與該套盤丨丨產生一轉 動角度,此為解鎖狀態。 如第二十圖所示,本創作的第二實施例係將第一具 體實施例的鎖套1〇變更為該鎖套1〇,,其中該鎖套1〇, 的柱塞101’的末端1〇2,僅成形一一字形孔1〇22,,如 此僅要將第一具體實施例中的該第二彈簧174與該解鎖元 件156刪除,則可形成另—不同功能的鎖具,亦即當該桿 件16接受該操作元件21的壓按操作,使該桿件16與該離 合元件19可沿該軸線5由第一位置移動到第二位置,即產 生閉鎖功能,旋轉正確鑰匙103轉動柱塞1〇1,驅動該桿 件16或轉動外側把手22驅動該驅動管15即可解鎖,上述 構造特徵已有詳述,於此不再贅述。 如第二十圖所示,本創作第三具體實施例係將第一 具體實施例的鎖套10變更為該鎖套10” ,其中該鎖套1〇 的柱塞101的末端102”僅成形一八形字孔1021” , 如此僅要將第一具體實施例中的該定位元件17刪除則 可形成又一不同功能的鎖具,亦即當該桿件16接受該操 1〇12_产單編號A〇101 第13頁/共38頁 1012020981-0 M441009 作元件21的旋轉操作,該桿件16可繞該軸線5由該桿件16 的控制部164鄰靠該離合元件19的深位1 94的位置移動到 位於該桿件16的控制部164鄰靠該離合元件19的淺位193 的位置,即產生閉鎖功能,如此以正確鑰匙103轉動柱塞 10”驅動該桿件16或轉動外侧把手22驅動該驅動管15與 該解鎖元件156,使該桿件16繞該軸線5,由該桿件16的 控制部1 64鄰靠該離合元件19的淺位1 93的位置移動到位 於該桿件1 6的控制部1 64鄰靠該離合元件1 9的深位1 94的 位置,即可解鎖。 [0029] 本創作亦可將第一具體實施例的鎖套10刪除更換一 衛洛用可緊急開門旋鈕,該旋鈕一側具有一字槽,另一 側連接一加長的桿件,如此該離合元件19亦需做變更為 離合元件中央鄰近位形成兩隔開設置的淺位與兩隔開設 置的深位,該兩淺位與該兩深位之間具有四個隔開設置 的斜面,亦即第一具體實施例的被撥動面157變更為斜面 ,此即可應用於衛浴鎖。 [0030] 惟上述本創作實施例各節,僅為本創作之諸較佳可 · 行實施例而已,非為用以限定本創作之實施,大凡依據 下列申請專利範圍所述之構造特徵及其精神而為之等效 性替換或修改,皆應包含在本創作專利範圍之範疇。 【圖式簡單說明】 [0031] 第一圖:係本創作的第一具體實施例,顯示第一鎖體、 第二鎖體、鎖閂與門板立體分解圖。 [0032] 第二圖:係本創作的第一具體實施例,顯示第一鎖體的 立體分解圖。 10120634#單编號 Α〇1(Π 第14頁/共38頁 1012020981-0 M441009 [0033] 第三圖:係本創作的第一具體實施例,顯示驅動管的立 體圖。 [0034] 第四圖:係本創作的第一具體實施例,顯示桿件的立體 圖。 [0035] 第五圖:係本創作的第一具體實施例,顯示定位元件的 立體圖。 [0036] 第六圖:係本創作的第一具體實施例,顯示鎖套的立體 圖。 [0037] 第七圖:係本創作的第一具體實施例,顯示第六圖7-7剖 面線的剖面示意圖。 [0038] 第八圖:係本創作的第一具體實施例,顯示離合元件的 立體圖。 [0039] 第九.圖:係本創作的第一具體實施例,顯示解鎖元件的 立體圖。 [0040] 第十圖:係本創作的第一具體實施例,顯示桿件位於未 被推動的第一位置或未被旋轉的第一角位置的解鎖狀態 ,第一鎖體的剖面示意圖。 [0041] 第十一圖:係本創作的第一具體實施例,顯示桿件位於 未被推動的第一位置或未被旋轉的第一角位置的解鎖狀 態,第一鎖體的另一剖面示意圖。 [0042] 第十二圖:係本創作的第一具體實施例,顯示桿件位於 被推動後的第二位置的閉鎖狀態,第一鎖體的剖面示意 圖。 1012063#單編號 A〇101 第15頁/共38頁 1012020981-0 M441009 [0043] 第十三圖:係本創作的第一具體實施例,顯示桿件位於 被推動後的第二位置的閉鎖狀態,第一鎖體的另一剖面 示意圖。 [0044] 第十四圖:係本創作的第一具體實施例,顯示第一鎖體 的桿件與驅動管未被轉動的狀態,管狀元件、驅動管、 桿件與定位元件的局部示意圖。 [0045] 第十五圖:係本創作的第一具體實施例,顯示第一鎖體 的桿件被轉動一角度,驅動管未被轉動的狀態,管狀元 件、驅動管、桿件與定位元件的剖面示意圖。 鲁 [0046] 第十六圖:係本創作的第一具體實施例,顯示桿件位於 被旋轉後的第二角位置的閉鎖狀態,第一鎖體的剖面示 意圖。 [0047] 第十七圖:係本創作的第一具體實施例,顯示桿件位於 被旋轉後的第二角位置的閉鎖狀態,第一鎖體的另一剖 面示意圖。 [0048] 第十八圖:係本創作的第一具體實施例,顯示第一鎖體 · 的桿件、驅動管與解鎖元件未被轉動的狀態,管狀元件 、驅動管、桿件、第二彈簧與解鎖元件的剖面示意圖。 [0049] 第十九圖:係本創作的第一具體實施例,顯示第一鎖體 的驅動管與解鎖元件帶動桿件旋轉一角位移的狀態,管 狀元件、驅動管、桿件、第二彈簧與解鎖元件的剖面示 意圖。 [0050] 第二十圖:係本創作的第一、第二及第三具體實施例, 1012020981-0 顯示第一鎖體差異部份的立體分解圖。 10120634^^^ A〇101 ^ 16 1 ^ 38 1 M44.1009 【主要元件符號說明】 [0051] 1 第一鎖體 10 鎖套 [0052] 10’ 鎖套 10,’ 鎖套 [0053] 101 柱塞 101, 柱塞 [0054] 10Γ 柱塞 102 末端 [0055] 102, 末端 102 ” Jr xtU 1 [0056] 1021 八字形孔 102Γ ’’ 八字形孔 [0057] 1022 一字形孔 1 022, '一字形孔 [0058] 1023 推部 1024 驅動部 [0059] 103 鑰匙 11 套盤 [0060] 111 中心孔 112 凹槽 [0061] 113 支承螺母 12 管狀元件 [0062] 121 定位件 122 延伸部 [0063] 123 長槽 13 第一把手 [0064] 14 第一扭力回復機構 141 轉動座 [0065] 1411 孔 142 扭力彈簧 [0066] 15 驅動管 151 方管部份 [0067] 152 筒狀部份 153 卡合部 [0068] 154 凹部 155 凹槽 [0069] 156 解鎖元件 1561 中心孔 表單編號 A0101 第17頁/共38頁 1012020981-0 M441009 [0070] 1562 凸部 1563 推動部 [0071] 1564 凸起 157 [0072] 158 第一彈簧 16 桿件 [0073] 161 嚙合部 162 末端 [0074] 163 止檔部 164 控制部 [0075] 165 被推動部 166 撥動面 [0076] 167 被推部 17 定位元件 ί [0077] 171 卡合部 172 嚙合部 [0078] 173 通孔 174 第二彈簧 [0079] 19 離合元件 191 通孔 [0080] 192 卡塊 193 淺位 [0081] 194 深位 195 斜面 [0082] 196 被撥動面 2 第二鎖體 | [0083] 21 操作元件 22 第二把手 [0084] 23 孔 24 螺絲 [0085] 3 鎖閂 31 鎖閂頭 [0086] 32 方管置入孔 33 支承螺母置入孔 [0087] 35 螺釘 4 門板 [0088] 41 鎖體安裝孔 42 鎖閂安裝孔 [0089] 5 軸線 1012063#^^^ A0101 第18頁/共38頁 1012020981-0V. New type description: [New technical field] The original operating mechanism of a lock refers to an operating mechanism with a cylindrical lock and a tubular lock function. The lock _ side lock can be pressed. The component is locked, the rotary grip is unlocked or the rotary operating element is opened and closed, and the outer lock body of the lock can be opened and closed by the rotary plunger of the material. [Prior Art] [0002] The inner lock body of the conventional tubular lock is used. The locking method is a rotation-angle of the knob to achieve the lock or unlock operation. The operation of the rotary knob is inconvenient for some disabled people in use, so the cylindrical lock is generally used in general places. Lock), because the locking mode of the inner lock body of the cylindrical lock is the operation mode of pressing the operation component, but the circle: the structure of the column lock is more complicated, and the selling cost is higher, which is contrary to this design. A lock with a round lock and a tubular lock. [0003] Although, in U.S. Patent Nos. 5,158,086, 6,623,053 and 7,734,754, the tubular lock of the push button has been disclosed, and the lock structure of the lock body is controlled by pressing the operating element, but the structures disclosed in the three patents are It does not have the function of rotating the recording and driving the plunger to open and close. [New content] [0004] In view of this, the main purpose of the present invention is to provide a lock operating mechanism, which is an operating mechanism of a lock having a cylindrical lock and a tubular lock function, and the inner lock body of the lock can be utilized. Pressing the operating element to lock, rotating the grip to unlock or rotating the operating element to open and close, the outer lock body of the lock can be opened and closed by the key rotating plunger. 1012020981-0 10120634^单编号Α01ίη Page 3 of 38 [0005] M441009 The secondary purpose of this creation is to provide a lock operating mechanism that is simple to construct and easy to assemble. [0006] The present invention relates to a lock operating mechanism, comprising: a set of discs having a central hole and at least one recess, the set, and defining an axis; a tubular member removably mounted on the set a central member; a rod member penetrating the tubular member, the rod member having an end; a lock sleeve mounted to one end of the tubular member, the lock sleeve having a rotatable plunger, the plunger end shaft Forming a first chamber and connecting a second chamber; a clutch member mounted on the rod, the clutch member having at least one block, the clutch member being operable to displace the rod in the axial direction Causing the clutch member to move along the first position of the axis to the second position, and when the clutch member is in the first position, the block of the clutch member does not engage the groove of the sleeve, at which time the member of the member The end portion is located in the second chamber. When the clutch member is in the second position, the latch member of the clutch member engages the recess of the sleeve, and the end portion of the rod is embedded in the first chamber. Embodiments [0007] The following are preferred Detailed description of the embodiments, and the appended patenting application, and the drawings, will make many other objects, features and advantages of the present Creation and a clearer understanding. [0008] As shown in the first to twentieth diagrams, in the first embodiment of the present invention, the lock system includes: a first lock body 1, a second lock body 2 and a latch 3, The first lock body 1 can connect the second lock body 2 and the latch 3 to be mounted on a door panel 4, and the first lock body 1 and the second lock body 2 can operate the latch 3, wherein The first lock body 1 includes: 1012063#单魏除1 4th page/38 pages 1012020981-0 M441009 [0009] As shown in the second figure, a set of disks π is a disk-shaped body and defines a An axis 5, the center of the set has a central hole lu, the central hole ι is connected to two radially spaced grooves 112, and the bottom of the set has two axially extending supports Nut 113. [0010] a tubular member 12 is detachably attached to the central hole U1 of the sleeve, and the intermediate end of the tubular member 12 is coupled to a laterally movable positioning member 121 to be coupled to a first handle 13 and One end portion of the tubular member 12 can accommodate a lock sleeve 10, and the lock sleeve portion 10 can be received in the first handle 13. The other end of the tubular member 12 has four extension portions 122 that can be respectively disposed. The four holes 1411 of the rotating seat 141 of the first torsion restoring mechanism 14 are used for interlocking the tubular element 12 with the first torsion restoring mechanism η. The torsion spring 142 of the torsion recovery mechanism 14 acts to return to the original position, and the position of the tubular member 12 adjacent to the four extensions 122 forms two spaced apart elongated slots 123. [0011] As shown in the second and third figures, a drive tube 15 is connected to a tubular portion 151, and the inner peripheral wall of the cylindrical portion 152 extends radially inwardly. An engaging portion 153 is disposed at a distance, and two spaced-apart grooves 55 are formed axially at an end of the peripheral wall of the cylindrical portion 152. The engaging portion 153 is spaced apart from the groove 155 by about 90 degrees. The junction of the square tube portion 151 and the cylindrical portion 152 forms four spaced apart recesses 154 (only two of which are shown in the third figure) and two spaced apart apertures 157 (only shown in the third figure) One). [0012] As shown in the first, second and fourth figures, a rod member 16 can pass through the cylindrical portion 152 of the body tube 15 and the square tube portion 151. The rod member 丄 6 10120634^^^ A〇101 Page 5 of 38 1012020981-0 The position of the side of the M441009 extends with two spaced apart control portions 164 and four spaced apart engagement portions 161 (this is a notch) Two spaced apart stop portions 163, four spaced apart dial portions 166 (only two of which are shown) and four spaced apart pushed portions 165 (only two of which are shown), The rod member 16 can be located between a first position along the axis 5 (a position where the operating member 21 is not pressed) and a second position (a position at which the operating member 21 has been pressed) or the rod member 16 can be wound The first angular position of the axis 5 (the angular position at which the operating element 21 is not rotated) and the second angular position (the angular position at which the operating member 21 has been rotated by a predetermined angle) are rotated; the jaw 16 has an end 162 The vicinity of the 6 Xuanzhizhi 162 has two spaced apart pushed portions 167. The end 162 of the rod member 16 can be connected to the lock sleeve at the right time, and the other end is connected to An operating element 21 mounted on the second lock body 2 ^ [0013] As shown in the second and eighth figures, the clutch element 19 has a through hole 191 that can be sleeved on the rod member 16, and the clutch member 19 The central adjacent position forms two spaced apart shallow positions 193 and two spaced apart deep positions 194. The two shallow positions 193 and the two deep positions 194 are provided with two spaced apart inclined faces 195 and two spaced apart The dial 196, the shallow position 193 and the deep position 194 can accept the operation of the control portion 164 of the lever member 16, and the peripheral edge of the clutch member 19 extends radially between the two spaced apart blocks 192. [0014] As shown in the second figure, a first spring 158 is located between the clutch member 19 and the positioning member 121 of the tubular member 12, one end of which is supported by the clutch member 19, and the other end of which is supported by the positioning of the tubular member 12. A member 121 to bias the clutch member 19. [0015] As shown in the second, sixth and seventh figures, the lock sleeve 1 can be accommodated in the tubular member 12, and the lock sleeve 1 has a rotatable plunger 1〇1 1012020981 -0 10120634Product No.A〇1〇l Page 6 of 38 M441009 'The plunger unend 102 has a first chamber, which is a one-shaped hole 1 022 and a second chamber. The present invention is a figure-eight hole 1〇21, and the inline shape 1022 communicates with the chevron hole 1〇21, and four spaced-shaped pushing portions 1〇23 are formed around the figure-shaped hole 1021. Two spaced apart driving portions 1 〇 24 are formed around the glyph holes 1 022. When the rod member is in the first position, the end 162 of the rod member 16 is inserted into the figure-shaped hole 1021 of the plunger ι〇ι, When the rod member 16 is in the second position, the end 162 of the rod member 16 can be embedded in the inline hole 1〇22 of the plunger 101, or when the rod member 16 is in the first angular position, the rod member 16 The control portion 164 abuts against the deep position 194 of the clutch member 19, while the end 162 of the rod member 16 is inserted into the figure-shaped hole 1〇21 of the plunger 101, and when the rod member 16 is at the second angular position. The control portion 164 of the rod member 16 abuts against the shallow position 193 of the clutch member 19, and the end 162 of the rod member 16 is also inserted into the figure-shaped hole 1021 of the plunger 1〇1. i can receive the driving of the key 1〇3 so that the pushing portion 1023 of the figure-shaped hole 1〇21 of the plunger 101 or the driving portion 1024 of the inline hole 1〇22 can push the pushed portion of the rod member 16 in a timely manner. [0016] As shown in the second and fifth figures, a positioning member 17 is an elastic member, and the positioning member 17 has two spaced apart engaging portions 17i, a through hole 173 and four spaced engagements. The portion 72 of the positioning member 17 is sleeved on the rod member 16, and the four engaging portions 172 of the positioning member 17 are respectively associated with the four members of the rod member 16. The engaging portion 161 is engaged to restrict movement or rotation of the positioning member 17 relative to the rod member 16, and the positioning member 17 can abut against the stopping portion 163 of the rod member 16 to stabilize the positioning member 17 from being biased. [0017] As shown in the second and ninth figures, an unlocking element 156 can be accommodated in 10120634# single number A0101 page 7 / total 38 pages 1 012020981-0 M441009 In the cylindrical portion 152 of the drive tube 15, the unlocking member 156 has a central hole 1561 which can receive the passage of the rod member 16 having one side on one side of the unlocking member 156. The protrusions 1562 are respectively engaged with the four recesses 154 of the cylindrical portion 152 of the drive tube 15, and the periphery of the unlocking member 156 extends axially with two spaced protrusions 1564, respectively, which can be embedded in the drive Two holes 157 of the cylindrical portion 152 of the tube 15, the other side of the unlocking member 156 has four spaced apart pushing portions 1 563, which can respectively push the four members of the rod member 16 in time The pushed portion 165, wherein the unlocking member 156 and the driving tube 15 are also integrally formed. [0018] As shown in the second figure, a second spring 174 is located between the unlocking element 156 and the positioning element 17, one end is supported by the unlocking element 156, and the other end is supported by the positioning element 17; Thereafter, the first lock body 1 is formed. [0019] As shown in the first figure, a second lock body 2 has the operating element 21, a second handle 22, a second torque recovery mechanism (not shown), etc., and the second lock body 2 is generally a conventional structure except for the operating element 21, and thus will not be described again. [0020] As shown in the first figure, a latch 3 can be locked to the side of the door panel 4 by two screws 35, so that the latch 3 is received in the latch mounting hole 42, the latch 3 has one tube The insertion hole 32 and the two spaced apart support nut insertion holes 33 allow the square tube portion 151 of the drive tube π of the first lock body 1 to pass through the lock body mounting hole 41 and the side of the door panel 4 The tube insertion hole 32 is further connected to the second lock body 2, and can be used to drive a driving device (not shown) inside the latch 3 to interlock the latch head 31, while the two support nuts 113 of the sleeve n are The lock body mounting hole 41 of the door panel 4 and the two bearing nuts of the latch 3 can be respectively inserted into the hole 33' and aligned with the second and right portions of the 10120634 production order number A0101, page 8 / 38 pages 1012020981-0 M441009 The two holes 23 of the lock body 2 are locked by the two screws 24, and the first lock body 1, the second lock body 2 and the latch 3 are fixed to the door panel 4, and the first lock body 1 is at this time. The rod 16 can be connected to the operating element 21 of the second lock body 2. As shown in the first to thirteenth drawings, after the overall combination, when the locking member is to be pressed from the operating member 21 of the second lock body 2, the operating member 21 of the second lock body 2 is pressed to push the member. 16, in turn pushing the clutch element 19, moving the clutch element 19 from the first position (such as the tenth and eleventh figures) to the second position (such as the twelfth and thirteenth figures), at this time The end 162 of the rod member 16 is moved by the figure-shaped hole 1021 at the end 1〇2 of the plunger 1〇1 to the in-line hole 1〇22 of the end 1〇2 of the lock sleeve 101, so that the rod member 16 After the two engaging portions 171 of the positioning member 17 slide along the inclined surfaces of the two engaging portions 153 of the driving tube 15, respectively, the two engaging portions 171 of the positioning member 卡 are respectively engaged with the two driving tubes 15 The two latching blocks 192 of the clutching member 19 are respectively placed on the two long slots 123 of the tubular component 12, so that the two latching blocks 192 of the clutching component 19 are respectively placed in the driving tube. The position of the two grooves 155 of .15 is moved to a position accommodated in the two grooves 112 of the sleeve 11, so that the tubular member 12 can be restrained. U to the set disk rotation, i.e., the first lock member can not rotate the handle 13], this state is a locked state. As shown in the first to fifteenth figures, there are two ways to unlock, one is to unlock with the second handle 22 of the second lock body 2, and the other is to unlock the key 103 of the first lock body 1, The first type of unlocking is to rotate the second handle 22 of the second lock body 2, which indirectly drives the drive tube 15 relative to the 10120634^^^^ Α0101 page 9 / 38 pages 1012020981-0 M441009 16 is rotated by an angular displacement, so that the two engaging portions 153 of the driving tube 15 are moved from the engaged position (such as the fourteenth figure) to the non-engaged position with respect to the two engaging portions 171 of the positioning member 17 at this time. The clutch element 19 is moved from the second position (such as the twelfth and thirteenth figures) to the adjacent first position (such as the tenth and eleventh figures) by the bias of the first spring 158, due to the clutch The two latching blocks 192 of the component 19 are respectively slidably disposed on the two long slots 123 of the tubular component 12, and the two latching blocks 192 of the latching component 19 are respectively moved from the positions of the two recesses 112 of the latching disc 11 to the receiving position. At the edge position of the chevable portion 152 of the drive tube 15, the second handle 22 of the second lock body is When the driving tube 15 is returned to the unoperated position by the second torque recovery mechanism (not shown) of the second lock body 2, the two blocks 192 of the clutch member 19 are further moved to the position. In the first position of the two recesses 155 of the drive tube 15, the two latches 192 of the clutch member 19 are separated from the two recesses 112 of the sleeve 11, respectively, that is, the first handle of the first lock body 1 is rotated. At 1300, the tubular member 12 will produce a rotational angle with the sleeve, which is an unlocked state. [0023] The second unlocking method: in order to insert the correct key 1〇3 into the plunger 1〇1, the plunger 101 is rotated, because the end 162 of the rod member 16 is embedded in the inline hole 1022 of the end 102 of the plunger 101. Relationship, so when the plunger 1〇1 rotates, the driving portion 1024 of the inline hole 1022 pushes the pushed portion 167 of the rod member 16 to rotate the rod member 16 by an angular displacement, so that the positioning member 17 is The engaging portion 117 is moved relative to the two engaging portions 153 of the driving tube 15 by the engaged position (such as the fourteenth figure) to the position where the engaging portion is not engaged (such as the fifteenth figure), at this time, the clutching member 19 The bias of the first spring 158 is moved from the second position (such as the twelfth and thirteenth figures) to the first position (eg, i〇12〇63#^^^^ + ^ 1012020981-0 M441009 respectively) The two long slots 123 of the tubular member 12 slide, and the two blocks 192 of the clutch member 19 are respectively moved from the positions of the two recesses 12 of the sleeve 11 to the two recesses of the valley 15 The position of the slot 155 is such that the two latches 192 of the clutch member 19 are separated from the two recesses U2 of the sleeve 11 respectively, that is, the first lock body 1 is rotated. When a handle 13 is used, the tubular member 12 will generate a rotation angle with the sleeve 11, which is an unlocked state. [0024] As shown in the first to eleventh, sixteenth and seventeenth, when When the operating element 21 of the second lock body 2 is to be rotationally locked or rotated from the lock sleeve 10 of the first lock body 1 by the recording key 103, only the operating element 21 of the second lock body 2 is rotated to drive the lever member 16. Or rotating the key 103 inserted into the lock sleeve 10 of the first lock body 1 to operate the plunger 101 such that the push portion 1 023 of the figure-shaped hole 1021 of the plunger 1〇1 pushes the pushed portion 167 of the rod member 16 The lever member 16 is rotated, and the two control portions 1 64 of the lever member 16 are moved along the inclined surface 195 by positions (such as the tenth and eleventh views) at the two deep positions 194 of the clutch member 19, respectively. To the position of the two shallow positions 193 (such as the sixteenth and seventeenth views), the clutch member 19 is moved axially in the direction of the sleeve 11 by a distance, so that the two cards of the clutch member 19 Block 192 is moved to the position of the two recesses 112 embedded in the sleeve 11 by positions (such as the tenth and eleventh views) that do not bulge into the two recesses 112 of the sleeve 11. (As shown in FIG. 16 and FIG. 17), at this time, since the two blocks 192 of the clutch member 19 respectively engage the two long grooves 123 of the tubular member 12 and the two grooves 112' of the sleeve 11 The tubular member 12 is restricted from rotating relative to the sleeve 11, and the first handle 13, the first torque recovery mechanism 14, and the drive tube 15 are also restricted from rotating, that is, in a locked state. [0025] The first lock body 1 is unlocked, and the lever member 16 is used to rotate the angle of the member 21 in the opposite direction by using the operation of 1〇12〇634 single number A01〇1 page 11/38 page 1012020981-0 M441009. The plunger 101 of the key 1〇3 operation lock sleeve 10 is rotated by an angle such that the pusher portion 1 023 of the pen-shaped hole ίου of the plunger ιοί pushes the pushed portion 167 of the lever member 16 to rotate the lever member 16, The two control portions 164 of the lever member 16 are respectively moved from the positions of the two shallow positions 193 of the clutch member 19 (such as the sixteenth and seventeenth views) to the positions at the two deep positions 194 (as shown in the tenth figure). 11th), at this time, the clutch member 19 moves axially away from the sleeve 11 by a distance and is subjected to The biasing of a spring 158 causes the two blocks 192 of the clutch member 19 to be respectively moved into the positions of the two grooves 112 of the sleeve 11 (such as the sixteenth and seventeenth views). The position of the two recesses 155 of the driving tube 15 is separated from the two recesses 112 of the set of the discs, that is, when the first handle 13 of the first lock body 1 is rotated, The tubular member 12 will generate a rotation angle with the sleeve 11, which is an unlocked state. If the key 103 is continuously rotated, the dialing surface 166 of the lever member 16 will push the dialed surface 196 of the clutch member 19, Further, the latch 192 of the clutch member 19 drives the drive tube 15 by the recess 155 of the drive tube 15, so that the drive tube 15 drives the latch head 31 of the latch 3 to be retracted. As shown in the first to tenth-figure, sixteenth to nineteenth, Lu Ruo is unlocked by the second handle 22, and the second handle 22 is rotated to cause the drive tube 15 to drive the unlocking member 156. The four pushing portions 1 563 of the unlocking member 156 respectively push the four pushed portions 165 of the rod member 16 to rotate the rod member 16. The two control portions 164 of the rod member 16 are respectively located at the clutch member. The positions of the two shallow positions 193 of 19 (such as the sixteenth and seventeenth views) are moved to the positions at the two deep positions 194 (such as the tenth and eleventh views), at which time the clutch member 19 is axially Moving away from the direction of the sleeve u by a distance 〇, and owing the bias of the first spring 158, so that the two blocks of the clutch element 19 are 10120634# single number Α 0101 page 12 / total 38 pages '1012020981-0 M441009 M2 And moved to the edge position of the cylindrical portion 152 of the driving tube 15 by the positions of the two grooves 112 embedded in the set of the trays (such as the tenth and seventeenth views), respectively. The second handle 22 of the second lock body 2 and the drive tube 15 are subjected to a second torque recovery mechanism mounted on the second lock body 2 ( When the action of not shown is returned to the unoperated position, the two blocks 192 of the clutch member 19 are further moved to the positions of the two grooves 155 of the drive tube 15, respectively, and the clutch member 19 is The two latching blocks 192 are respectively separated from the two recesses 112 of the sleeve 11 , that is, when the first handle 13 of the first lock body 1 is rotated, the tubular element 12 generates a rotation angle with the set of the trays, which is The unlocking state. As shown in the twentieth embodiment, the second embodiment of the present invention changes the locking sleeve 1 of the first embodiment to the locking sleeve 1〇, wherein the locking sleeve 1〇, the plunger 101 The end of the '1', only the one-shaped hole 1〇22 is formed, so that only the second spring 174 and the unlocking element 156 in the first embodiment are deleted, so that another different function of the lock can be formed. , that is, when the lever member 16 receives the pressing operation of the operating member 21, the lever member 16 and the clutch member 19 can be moved from the first position to the second position along the axis 5, that is, the locking function is generated, and the rotation is correct. The key 103 rotates the plunger 1〇1, drives the lever 16 or rotates the outer handle 22 to drive the drive The tube 15 can be unlocked, and the above structural features have been described in detail, and will not be described herein. As shown in the twentieth embodiment, the third embodiment of the present invention changes the lock sleeve 10 of the first embodiment to the lock. The sleeve 10", wherein the end 102" of the plunger 101 of the locking sleeve 1" is shaped only by an eight-shaped hole 1021", so that only the positioning element 17 in the first embodiment can be deleted to form another difference. A functional lock, that is, when the lever 16 receives the operation of the operation, the workpiece 16 is rotatable about the axis, and the rotation of the member 21 is performed. 5 is moved by the position of the control portion 164 of the lever member 16 adjacent to the deep position 1 94 of the clutch member 19 to a position at which the control portion 164 of the lever member 16 abuts against the shallow position 193 of the clutch member 19, thereby generating a lock. Function, such that the lever 10 is rotated by the correct key 103 to drive the lever 16 or the outer handle 22 to drive the drive tube 15 and the unlocking member 156 such that the lever 16 is controlled about the axis 5 by the lever 16 The position of the portion 1 64 adjacent to the shallow position 193 of the clutch member 19 is moved to the control of the rod member 16 The portion 1 64 is adjacent to the position of the deep position 1 94 of the clutch member 19 to be unlocked. [0029] The present invention can also delete the lock sleeve 10 of the first embodiment, and replace the emergency door knob with a slot on one side and an elongated rod on the other side, so that the clutch member 19 also needs to be changed to form two spaced apart shallow places and two spaced apart deep places in the central adjacent position of the clutch element, and the two shallow places and the two deep positions have four spaced apart inclined faces, that is, The dialed surface 157 of the first embodiment is changed to a bevel, which can be applied to a bathroom lock. [0030] However, the above-mentioned sections of the present invention are only preferred embodiments of the present invention, and are not intended to limit the implementation of the present invention, and the structural features described in the following claims are generally The substitution or modification of the equivalent of the spirit shall be included in the scope of this patent. BRIEF DESCRIPTION OF THE DRAWINGS [0031] The first embodiment is a first embodiment of the present invention, showing an exploded view of the first lock body, the second lock body, the latch and the door panel. [0032] Second Figure: A first embodiment of the present invention showing an exploded perspective view of the first lock body. 10120634#单单Α〇1(Π Page 14/38: 1012020981-0 M441009 [0033] Third Figure: A first embodiment of the present invention, showing a perspective view of the drive tube. [0034] A first embodiment of the present invention, showing a perspective view of a lever member. [0035] A fifth embodiment: a first embodiment of the present invention, showing a perspective view of a positioning member. [0036] Figure 6: A first embodiment of the present invention, showing a perspective view of the lock sleeve. [0037] Figure 7 is a cross-sectional view showing a first embodiment of the present invention, showing a hatching of the sixth Figure 7-7. [0038] A first embodiment of the present invention, showing a perspective view of a clutch element. [0039] Ninth. Figure: A first embodiment of the present invention, showing a perspective view of the unlocking element. [0040] In a first specific embodiment, the display member is in an unlocked state of the first position that is not pushed or the first angular position that is not rotated, and a schematic view of the first lock body. [0041] Figure 11: In a first specific embodiment, the display member is not pushed Another cross-sectional view of the first lock body, the unlocked state of the first angular position that is not rotated, another cross-sectional view of the first lock body. [0042] FIG. 12 is a first embodiment of the present invention, showing that the lever member is located The locked state of the second position after pushing, the cross-sectional view of the first lock body. 1012063#单号A〇101 Page 15/38 pages 1012020981-0 M441009 [0043] The thirteenth figure: the first of the creation In a specific embodiment, the display lever is in a locked state at the second position after being pushed, and another cross-sectional view of the first lock body. [0044] FIG. 14 is a first embodiment of the present invention, showing the first A partial schematic view of the tubular member, the drive tube, the rod member and the positioning member in a state in which the lever member and the drive tube are not rotated. [0045] FIG. 15 is a first embodiment of the present creation, showing the first The rod member of the lock body is rotated by an angle, the drive tube is not rotated, and the cross-section of the tubular member, the drive tube, the rod member and the positioning member is schematic. Lu [0046] Fig. 16: The first concrete implementation of the present creation For example, the display rod is located in the circle A locked view of the second angular position after the rotation, a schematic cross-sectional view of the first lock body. [0047] Figure 17 is a first embodiment of the present invention, showing that the lever is located at the second angular position after being rotated Another sectional view of the first lock body in the locked state. [0048] FIG. 18 is a first embodiment of the present invention, showing that the lever member, the drive tube and the unlocking member of the first lock body are not rotated. State, tubular member, drive tube, rod member, second spring and unlocking member. FIG. 19 is a first embodiment of the present invention showing the driving tube and the unlocking member of the first lock body. A state in which the rod member is rotated by one angular displacement, a cross-sectional view of the tubular member, the drive tube, the rod member, the second spring and the unlocking member. [0050] FIG. 20 is a first, second and third embodiment of the present creation, 1012020981-0 showing an exploded perspective view of the first lock body difference portion. 10120634^^^ A〇101 ^ 16 1 ^ 38 1 M44.1009 [Description of main component symbols] [0051] 1 First lock body 10 Lock sleeve [0052] 10' Lock sleeve 10, 'Lock sleeve [0053] 101 Column Plug 101, plunger [0054] 10 Γ plunger 102 end [0055] 102, end 102 ” Jr xtU 1 [0056] 1021 splayed hole 102 Γ '' splayed hole [0057] 1022 inline hole 1 022, 'a shape Hole [0058] 1023 Pusher 1024 Drive [0059] 103 Key 11 Socket [0060] 111 Center hole 112 Groove [0061] 113 Support nut 12 Tubular element [0062] 121 Locator 122 Extension [0063] 123 Length Slot 13 First Handle [0064] 14 First Torque Recovery Mechanism 141 Rotating Seat [0065] 1411 Hole 142 Torsion Spring [0066] 15 Drive Tube 151 Square Tube Section [0067] 152 Cylindrical Portion 153 Engagement Section [0068] 154 recess 155 groove [0069] 156 unlocking element 1561 center hole form number A0101 page 17 / total 38 page 1012020981-0 M441009 [5621] 1562 convex part 1563 pushing part [0071] 1564 raised 157 [0072] 158 first Spring 16 rod [0073] 161 Engagement portion 162 end [0074] 163 Stop portion 164 Control unit [0075] 165 pushed portion 166 dialing surface [0076] 167 pushed portion 17 positioning element ί [0077] 171 engaging portion 172 engaging portion [0078] 173 through hole 174 second spring [0079] 19 clutch member 191 through hole [0080] 192 block 193 shallow position [0081] 194 deep position 195 bevel [0082] 196 dialed face 2 second lock body | [0083] 21 operating element 22 second handle [0084] 23 hole 24 Screw [0085] 3 Latch 31 Latch head [0086] 32 Square tube insertion hole 33 Support nut insertion hole [0087] 35 Screw 4 Door plate [0088] 41 Lock body mounting hole 42 Latch mounting hole [0089] 5 Axis 1012063#^^^ A0101 Page 18 of 38 1012020981-0