200946296 -九、發明說明: /【發明所屬之技術領域】 - 本發明係有關一種多用途接桿結構改良,尤其是一種 可多用途使用之接桿創發明態設計者。 【先前技術】 按’請參閱第1圖所示,其係習知F桿棘輪工具之結 構型態,其係一工具本體(1 〇 A )具有二端分別界定為 〇套組端(11A)及組接端(12A),其中該套組端( 1 1 A)預定位置埋設有彈簧(圖未示)及鋼珠(1 3 a )’而組接端(1 2 A )係用以組設握柄(1 4 A )以利 於手動握持使用;而該種習知F桿棘輪工具之組接端(1 2 A )僅能組設手動握柄使用,而無法提供電(氣)動工 ,具同時套接使用,若需使用電(氣)動工具使用該規格型 •態之桿體’則需另外購置另種規格之桿體,進以增加使用 者之成本負擔者。 〇 是以’針對上述習知結構所存在之問題點,如何開發 一種更具理想實用性之創新結構,實使用消費者所殷切企 盼,亦係相關業者須努力研發突破之目標及方向。 有鑑於此,創作人本於多年從事相關產品之製造開發 與設計經驗,針對上述之目標,詳加設計與審慎評估後’ 終得一確具實用性之本發明。 【發明内容】 即,本發明之主要目的,係在提供一種多用途接桿結 5 200946296 構改良;其所欲解決之問題點 所存在習知F桿棘輪工具之組 ’而無法提供電(氣)動工具 (氣)動工具使用該規格型態 規格之桿體,進以增加使用者 突破; ’係針對習知F桿棘輪工具 接端僅能組設手動握柄使用 同時套接使用,若需使用電 之桿體,則需另外購置另種 之成本負擔問題點加以改良 Ο 〇 插組桿,十段適严俨庄π 4 文印稽田一钋體一端設 頭“ 序形成有離合桿段及連軸桿段·另俨 碩件相對軸柩於桿體一端, 另擺 定位裝置;再者况荃彼〆 —者軸樞位置設有多段旋動 序形成有連結槽段、連覆於杯體,其内緣依 ::結套覆於桿體端緣及 :,槽‘ 於連軸桿段,離人# ρ ^ 逑軸槽段恰可套合 離α槽&恰可空轉接觸 错此創新獨特設計,于奴, 預定行程的滑推動作,而藉由於桿體表面進行 艇動模式,或為手動f曲扳動、手動=幻冑工具直線 ,進以達到多用途使 Λ (螺)轉動模式 咬使用a使用上的便利之實用進步性者。 【實施方式】 請參閱第2 良之較佳實施例 請上並不受此結 '桿體(1 Q 及桿體端緣(1 〜4圖所示,係本發明多用途 ’惟此等實施例僅供說明之用 構之限制,其係包括: 接桿結構改 ’在專利申 其係具二端分別設具插組 ,其中該插組桿(1 4 ) 桿(1 4 可供電( 6 200946296 . 氣)動工具(b 桿段位置依序形 -)’其中該離合 桿段(1 2 )係 1 2 )外緣捏向 鋼珠(1 2 1 ) ’而該桿體端緣 3 ) ’且該桿體 〇相對區段的第_ ),其中該第一 鋼珠凹槽型態; 一擺頭件( 1 )及擺頭端( 例係為四角接端 擺頭端(2 5 ) 擺頭端緣(2 3 4 )相對軸樞頂 以使擺頭端(2 度,繼而,擺頭 處設有多段旋動 多段角度切換定 (A )係包含該 多段旋位角'度的 卡四(2 5 1 ) 1 8 )及彈簧( )插套驅動使用,且桿體(丄〇 成有離合桿段(1 1 .)及連軸桿 样段(1 1 )係為圓形斷面型態 為非圓形多角嵌齒型態’而於連 位置設有頂撐鋼珠(121), 内a又有k供彈性頂撐的彈性體( 預定位置嵌設有c扣環型態的定 (1 0 )之離合桿段(丄丄)形 定位部(1 1 1 )及第二定位部 、二定位部(1 1 1 ,;L i 2 ) )之 段( ,而 車由棹 其中 圖未 位件 成有 (1 係各 中間 12 連軸 段( 頂撐 示) (1 構成 1 2 概呈 ❹ 2 0 2 5 型態 側形 ), 擇於 5 ) 件( 定位 位成 擺頭 卡凹 之端 1 7 ,可 成有 而擺 桿體 可相 2 0 裝置 F桿 件( (2 面則 其係二 其中該 用以套 與桿體 頭端( (10 對旋樞 )與桿 (A ) 使用, 2 0) 5 1) 設有壓 而該壓 端分別設具 組接端(2 設預定套筒 端緣(1 5 2 5 )係藉 )之桿體端 於桿體(1 體(1 0 ) ’以使擺頭 所述之多段 之擺頭端( ’且該桿體 掣件(1 6 掣件(1 6 有組接 1 )於 驅鎖使 )等徑 由轴拖 緣(1 〇 )至 之相對 件(2 旋動定 2 5 ) (10 )、卡 )預定 端(2 本實施 用,且 大小的 部(2 5 ), 任意角 轴枢適 0 )可 位裝置 佈設有 )對應 定件( 位置設 7 200946296 .有提供卡定件(18)容置定位的容置部(ΐ6ι), • j谷置部(161)内形成有迫動卡定件(18)產生且 -疋動作的深、淺槽,俾使卡定件(丄8 )藉由壓掣件(預 6)頂撐彈簧(17)後,而令壓掣件(16)之容1 (Ί ft Ί \ I 部 b 1 )所形成的淺槽迫動卡定件(1 8 )位移,以 疋件(18)嵌卡於擺頭件(20)的卡凹(251 ο ,=擺頭件(2 0 )之預定位置配置有棘輪裝置(2 2 j 乂使遠組接端(2 1 )可產生預定的棘動動作; 其 午(3 0 ),其係滑動套覆於桿體(i 0) 冬备山 d u )内緣依序形成有連結槽段(3 1、 夕月嵌齒型能 丄)、 面形能 > 心的非圓形斷面連軸槽段(3 2 )、及圓p )给可連結套产於 )’復其中,該連結槽段(3 ! 端緣(2 |、同專控大小的桿體端緣(i 5 ) υ )之連輛桿段 、J ζ )洽了肷卡於桿體( ❹ )恰可空轉配二 2),且圓形斷面之離合槽 2 ,其中該離〜,(1 〇 )之非圓形連轴桿段 合槽段(3 4 " 3 4 )於本實施例係概分有 二離合槽及第二離合段(342 ^ )之二倒 第一、 〜莰卡部(1 Ί ! 〇 ',— C 3 1 1 (311,312),誃坌 . 1 ,3 1 2 )係 μ第—、二嵌卡部 1 〇 )之;係相對活動位移以嵌+ ~ , <疋位件(】 敢卡疋位於桿體( 3 0 )相對捍體 ,日、、A + 1 2 )位置滑動 且滑套件(^ 〇)内緣適處設 (i 〇 )之第一 (1 3 ),且該滑套件 套霜古A 、二定位部(111 覆有定位紐件 U 1 ’ 8 200946296 •有第一單斜槽(36 1)及第二單斜槽(362),該第 一、二單斜槽(3 6 1 ,3 6 2 )相對桿體(1 0 )則設 -有C扣環(3 6 3 ),且定位組件(3 6 )之另端適處形 成有一具深、淺溝的容置槽(365),該容置槽(36 5 )對應桿體(1 0 )則設有定位鋼珠(3 6 4 ),藉由 前、後滑動定位組件(3 6 )而令定位鋼珠(3 6 4 )上 、下位移容置於容置槽(3 6 5 )的深、淺溝,以利於進 一步嵌卡定位於桿體(1 0)之第一、二定位部(1 1 1 〇 ,1 1 2 ),而該滑套件(3 0 )之末端位置形成有一接 近桿體(1 0 )之插組桿(1 4 )外徑大小的穿孔(4 1 ),其中該穿孔(4 1 )係藉由形成一活動分離的塞體( 4 0 )固設於滑套件(3 0 )末端定位; 藉由上述之結構、組成設計,茲就本發明之使用作動 情形說明如下: 請參閱第3圖所示,當使用者欲使桿體(1 0)呈電 (氣)動工具(B )驅動使用時,需先令擺頭件(2 0 ) ❿ 與桿體(1 0 )之多段旋動定位裝置(A )旋調至直線水 平角度模式,調整完成後其擺頭端緣(2 3 )係與桿體( 1 0 )之桿體端緣(1 5 )呈平面切齊狀,復前推滑套件 (3 0 )時,需先朝後推掣定位組件(3 6 ),以使第一 單斜槽(3 6 1 )對位嵌卡於桿體(1 0 )之C扣環(3 6 3),令容置槽(3 6 5 )之深溝對位於定位鋼珠(3 6 4 )後脫離桿體(1 0 )之第二定位部(1 1 2 ),以 利於滑套件(3 0 )之連結槽段(3 1 )朝前滑推以相對 套覆於擺頭端緣(2 3 )及桿體端緣(1 5 ),定位後再 9 .前推定位 .-C扣環( .淺溝對位 嵌卡於桿 擺頭端緣(31) 1 0 )產 桿(1 4 〇組桿(1 之連軸槽 段(1 1 )配合套 二離合槽 滑套件( 桿體(1 0 )以相對 件(3 0 外徑隙動 者可扶托 (氣)動 組件( 3 6 3 於定位 體(1(23 的套束 生樞擺 )外露 4 )而 段(3 ),且 覆於桿 段(3 3 0) 0 )之 抵頂於 )相對 ,俾當 於滑套 工具驅 鋼0) 連 得 6 珠) 與 結 且 以 後) 套 以( 之 桿 因 利 續 係 件 滑 體 4 可 連 第 桿 電 件(3 轉的穩 相 軸 體( 對 桿 離( 氣 ▽其第二單 使各置措(3 6 4), 第—定位部 體端緣(工 而無法令擺 滑套件(3 於電(氣) 驅鎖動作, 配合套覆於 (3 〇 )之 0 )之連軸 内徑大於連 空轉於桿體 -¾ ( 1 2 ) 合槽段(3 1 0 )不致 )動工具( 〇 )之柄部 定性。 斜槽(3 6 2 )對 3 6 5 )經由滑移 令定位鋼珠(3 6 (111)定位, 5 )二者受到連結 頭件(2 0 )與桿 〇)經前推後而使 動工具(B )可插 再者因滑套件(3 桿體(1 0 )之離 第二離合槽段(3 桿段(1 2 ),藉 軸桿段(1 2 ), (1 0 )運轉,且 設有頂撐鋼珠(1 4 2 )内緣,以使 因間隙落差而產生 B )驅動桿體時, (35),進以提 繼而清參閱第4圖所示,其係桿體(1 Q )與滑 (3 0 )彼此變換成手動驅動模式,其變換方式係先 定位組件(36),令第一單斜槽(361)嵌卡於 環(3 6 3 ) ’以使容置槽(3 6 5 )之深溝對位容 疋位鋼珠(364),令定位鋼珠(364)朝深溝 位於 而使 4 ) 俾使 槽段 體( 插組 置插 〇 ) 合桿 4 2 由第 俾使 藉由 2 1 滑套 内、 使用 昇電 套件 後推 C扣 置於 移位 10 200946296 •後以脫離桿體(1 〇)之第-定位部(l l l ),而使滑 •套件(3 0 )與桿體(1 〇 )呈鬆放狀態,俾使滑套件( -3 0 )可相對桿體(i 〇 )產生滑移,滑移時並使定位鋼 珠(3 6 4 )對位於桿體(工〇 )之第二定位部(i丄2 )’對位後並可前推定位組件(3 6 ),以使第二單斜槽 (362)敌卡於c扣環(363)定位,同時該定位組 件(3 6 )之容置槽(3 6 5 )經位移後而令其淺槽對位 於定位鋼珠(3 6 4 ),以使定位鋼珠(3 6 4 )朝桿體 〇( 1 0 )之第二定位部(1 1 2 )嵌卡定位,俾使滑套件 (30)徑向嵌固於桿體(1〇)而達軸向固定。 沿上述,因滑套件(3 〇 )之連結槽段(3 1 )已脫 離擺頭端緣(2 3 )及桿體端緣(χ 5 )的相對位置而呈 热拘束狀態’且該滑套件(3 〇 )可藉由多段旋動定位裝 置(A )令桿體(1 〇 )相對擺頭件(2 〇 )構成彎曲扳 動型態,以使桿體(1 〇 )可與擺頭件(2 〇 )作彎曲扳 G動使用,換言之,若擺頭件(2 0 )與桿體(丄〇 )切換 至直線角度模式使用時,該滑套件(3 〇 )則可相對桿體 (1 0)及擺頭件(20)作手動轉(螺)動使用;復其 中’欲調整多段旋動定位裝置(A )作彎曲角度扳動使用 時’需先按壓該壓掣件(1 6 ),以使卡定件(i 8 )嵌 卡進入壓掣件(1 6 )之容置部(]_ 6丄)内,而使擺頭 端(25)之卡凹(251)相對脫離卡定件(18)之 嵌卡限制’而可作多區段角度的旋位調整,調整後則可鬆 放壓掣件(16),令彈簧(17)頂撐壓掣件(16) 復位’以使卡定件(18)嵌卡入卡凹(251)内嵌卡 11 200946296 .定位,再者滑套件(3 0 )朝後滑推時,滑套件(3 0 ) 之連軸槽段(3 2 )係對位嵌組於桿體(1 0 )之連軸桿 _段(1 2 ),藉由多角性嵌卡配合,以使滑套件(3 0 ) 可相對驅轉桿體(1 〇 )呈同步轉動,且同時滑套件(3 0 )之離合槽段(3 4 )係相對封閉桿體(1 0 )之插組 桿(1 4 )者。 藉此,該滑套件(3 0 )可藉由相對桿體(1 0 )進 行預定行程的滑推動作,而使桿體(1 0 )可構成電(氣 © )動工具(Β )直線驅動模式,或構成手動彎曲扳動、手 動直線(螺)轉動模式,進以達到多用途使用及使用上的 便利之實用進步性者。 ' 請參閱第5圖所示,其係本發明之第二實施例,其中 擺頭件(2 0 A ) ( 2 0 )之組接端(2 1 A )的端部於 本實施例係可為插設起子頭之端部型態,且該桿體(1 0 A )之離合桿段(1 1 A )於本實施例係概分有第一離合 0桿段(111A)及第二離合桿段(112A),而第二 離合桿段(1 1 2 A )另端係延伸形成有插組桿(1 4 A ),其中該第一離合桿段(1 1 1 A )之外徑係較大於第 二離合桿段(1 1 2 A )之外徑,且第二離合桿段(1 1 2 A )之外徑係相等於插組桿(1 4 A )之外徑,另該滑 套件(3 0A)之離合槽段(3 4A) —端係内縮形成有 一較小徑的連轴槽段(3 2 A ),而該滑套件(3 0 A ) 之離合槽段(3 4A)恰可供桿體(1 〇A)之第一離合 桿段(1 1 1 A )相對套覆導滑,且滑套件(3 0 A )之 12 200946296 . 連軸槽段 .段(1 1 .,當使用 套件(3 組件(3 1 ),而 導滑套覆 ,藉由多 ©圓形斷面 件(3 0 動於桿體 A )可空 而,當使 3 0 A ) )之第二 套件(3 〇 ( 1 0 A )與桿體 型態,令 5 A )-對帶動桿 請繼 其中該桿 大徑型態 預定位置 ( 3 2 2 A ) 者 欲 使 0 A ) 6 ) 固 使 滑 套 於 桿 體 角 斷 面 之 第 二 A ) 之 ( 1 0 轉 接 觸 用 者 欲 令 其 定 定 位 部 0 A ) ) 之 插 ( 1 0 使 用 者 而 使 滑 體 ( 1 續 參 閱 體 ( 1 的 插 組 形 成 有 A )恰 及插組 用電( 朝前滑 設於桿 件(3 (1 0 之連軸 離合桿 圓形斷 A )之 於桿體 手動驅 位、纟且件 (11 之連輛 組桿( A )之 可藉由 套件( 〇 A ) 第8圓 0 B ) 端(1 六角斷 可供桿 桿(1 氣)動 推位移 體(1 0 A ) A )之 槽段( 段(1 面離合 圓形斷 (10 動模式 (36 2 )( 槽段( 1 4 A 插組桿 轉動滑 3 〇 A 運轉者 所示, 之離合 4 B ) 面型態 體(1 4 A ) 驅動使 (如第 0 A ) 之連軸 第二離 3 2 A 1 2 A 槽段( 面外緣 A )而 使用時 )相對 如第7 3 2 A ),因 (14 套件( )之連 0 其係本 桿段( ,該插 的連轴 0 A ) 相對套 用模式 6圖所 之第一 槽段( 合桿段 )之内 )之外 3 4A ’俾使 具有扶 ’需先 固設於 圖所示 )即對 該連軸 A )係 3 〇 A 軸槽段 發明之 1 1 B 組端( 桿段( 之第二 覆導滑 時,需 示), 定位部 3 2 A (11 緣轉動 緣,以 )内緣 滑套件 托功能 後推滑 桿體( ),同 應套覆 槽段( 同為六 )之柄 (32 第三實 )一端 1 4 B 14 2 離合桿 :藉此 先令滑 令定位 (11 )相對 2 A ) 接觸於 及滑套 相對轉 (30 性;繼 套件( 1 0 A 時該滑 於桿體3 2a 角斷面 部(3 A )相 施例, 設有較 )外緣 B ), 13 200946296 Ο ❹ 另端 套件 槽段 、二 段( 較大 軸槽 軸桿 槽段 組端 具驅 組件 1 ) (1 離合 組端 槽段 插組 氣) 套件 (3 先後 桿體 0 Β Β ) 形成有四角插孔 (3 0 Β )之離 (3 4 1 Β )及 離合槽段(3 4 3 2 Β ),其中 於連軸槽段(3 段(3 2 Β )係 段(1 4 2 Β ) (3 4 2 Β )係 (1 4 Β )外緣 動模式使用時, (3 6 )定位於 (如第9圖所示 4 Β )係外露於 槽段(3 4 2 Β (1 4 Β )及連 (3 4 2 Β )内 端(1 4 Β )及 動工具插置於插 (3 0 Β )係空 5 Β );繼而, 推滑套件(3 0 (1 0 β )之第 )之連輛桿段( 之連軸槽段 型態的插組孔(1 4 1 β ),而該滑 合槽段(3 4 Β )係概分有第一離合 第二離合槽段(342Β),且第一 1B,342B)之間形成有連軸槽 離合槽段(3 4 2 B )之内徑係 第 2b) ’而該滑套件 恰可套覆結合於桿體 〇 B )之連 〇 B )之連 ’且該滑套件(3 〇 B )之第二離合 恰可套覆結合於桿體(1 〇 B )之插 ,藉此當使用者欲使用電(氣)動工 需先前推滑套件(3 〇 β )令其定位 桿體(1 0 B )之第—定位部(丄丄 ),同時該桿體(1 〇 B )之插組端 滑套件(3 0 B )之外,其中因第二 )之外徑較大於桿體(丨〇 B )之插 ^桿段(1 4 2 B ),而使第二離合 緣無法相對甘涉於桿體(1 〇 B )之 其連軸桿段(1 4 2 B ),以利電( 1 4 1 Β )驅動運轉時,該滑 告於桿體(1 〇 Β ),而可扶托柄部 使用者欲手動驅動模式使用時,需 ^令定位組件(3 6 )對位固定於 一定位部(1 1 ?、 、 Ζ ),同時桿體(丄 4 2 Β )係嵌卡對位滑 ^ . 最1干(3 〇 200946296 1 4 2 B ) 俾使用者可 令滑套件( 〇 B )之連 嵌合於相同 轉動滑套件 3 0 .B )之 車由桿段(1 六角斷面之 (3 0 B ) 連轴槽段( 4 2 B )運 連軸槽段( 之柄部(3 3 2 B )帶 轉者。 3 2 B ), 5 B ),而 動桿體(1 【功效說明 本發明 即,本 ®構改良;其 所存在習知 ’而無法提 (氧)動工 i另種規格 α改良突破 體(1 0 ) ’中間桿段 Ο 另擺頭 端 ’且擺頭端 桿體端緣( 多段旋動定 套覆於桿體 結槽段(3 ’其中連結 功效增進 發明之主 所欲解決 F桿棘輪 供電(氣 具(Β.) 之桿體, ;而其解 二端分設 位置依序 且連軸桿 件(2 0 ,擺頭端(25) 15), 位裝置((10) 1 )、連 槽段(3 之事 要目 之問 工具 )動 使用 進以 決問 插組 形成 段( )二 (2 係藉 擺頭 A ) ,而 轴槽 實如下 的,係 題點, 之組接 工具同 該規格 增加使 題之技 桿(1 有離合 端分 δ又 5 )側 由一軸 件(2 ;又滑 桿體( 段(3 恰可連 在提供一種 係針對習知 端僅能組設 時套接使用 型態之桿體 用者之成本 術特點,主 4 )及桿體 桿段(1 1 '端設有定 有組接端( 形成有擺頭 樞部(2 4 0 )與桿體 # 件(3 0 1 〇 )内緣 2 )及離合 、结套覆於桿 多用途接桿結 F桿棘輪工具 手動握柄使用 ’若需使用電 ’則需另外購 負擔問題點加 要係藉由一桿 端緣(1 5 ) )及連軸桿段 位組件(1 3 21)及擺頭 端緣(2 3 ) )相對軸樞於 (1〇)設有 )係對應滑動 依序形成有連 槽段(3 4 ) 體端緣(τ ς 15 ,連聊價段(3 2 200946296 及擺頭端緣 段(12),離合槽段(34)恰可空轉接觸於 • “( 1 2 ),另離合槽段(3 4 )二端適處分設有 、-嵌卡部,用以活動嵌卡於桿體(丄〇 )之定位組 13) ·’藉此創新獨特設計,使本發明可藉由前、後 滑套件(3 0 ),令桿體(i 〇 )可為電(氣)動工 B )直線驅動模式,或為手動彎曲扳動、手動直線( 轉動桿體使用模式型態,進以達到多用途使用及使用 ϋ便利之實用進步性者。 上述實施例所揭示者係藉以具體說明本發明,且 雖透過特定的術語進行說明,當不能以此限定本發明 之專利範圍;熟悉此項技術領域之人士當可在瞭解本 之精神與原則後對其進行變更與修改而達到等效之目 而此等變更與修改’皆應涵蓋於如后所述之申請專利 所界定範嘴中。 〇 【圖式簡單說明】 第1圖:係習知F桿結構之立體圖。 於連 連轴 第一 件( 推移 具( 螺) 上的 文中 創作 發明 的, 範圍 16 200946296 . 第2圖:係本發明之桿體、擺頭件與滑套件之分解圖。 第3圖:係本發明之桿體用於電(氣)動工具模式之使用 . 狀態圖。 第4圖:係本發明之桿體使用於手動驅動柄部模式之使用 狀態圖。 第5圖:係本發明之第二實施例,其係桿體、擺頭件及滑 套件之分解圖。 第6圖:係本發明第二實施例用於電(氣)動工具模式之 〇 使用狀態圖。 第7圖:係本發明第二實施例用於手動驅動柄部模式之使 用狀態圖。 第8圖:係本發明之第三實施例,其係桿體、擺頭件及滑 套件之分解圖。 第9圖:係本發明第三實施例用於電(氣)動工具模式之 使用狀態圖。 第1 0圖:係本發明第三實施例用於手動驅動柄部模式之 ® 使用狀態圖 【主要元件符號說明 習知部份: 套組端(1 1 A ) 鋼珠(1 3 A ) 工具本體(1 0 A ) 組接端(1 2 A ) 握柄(1 4 A ) 本發明部份: 多段旋動定位裝置(A) 電(氣)動工具(B) 17 200946296 . 桿體(1 o ) 第一定位部(1 1 1 ) .連軸桿段(1 2 ) 定位件(1 3 ) 插組桿(1 4 ) 壓掣件(1 6 ) 彈簧(1 7 ) 擺頭件(2 0 ) ©棘輪裝置(2 2 ) 軸枢部(2 4 ) 卡凹(2 5 1 ) 滑套件(3 0 ) 第一嵌卡部(3 1 1 ) 連軸槽段(3 2 ) 第一離合槽段(3 4 1 ) 柄部(3 5 ) ❹定位組件(3 6 ) 第二單斜槽(362) 定位鋼珠(3 6 4 ) 塞體(4 0 ) 桿體(1 0 A ) 第一離合桿段(111A 插組桿(1 4 A ) 組接端(2 1 A ) 連軸槽段(3 2 A ) 離合桿段(1 1 ) 第二定位部(1 1 2 ) 頂撐鋼珠(1 2 1 ) 桿體端緣(1 5 ) 容置部(1 6 1 ) 卡定件(1 8 ) 組接端(2 1 ) 擺頭端緣(2 3 ) 擺頭端(2 5 ) 連結槽段(3 1 ) 第二嵌卡部(3 1 2 ) 離合槽段(3 4 ) 第二離合槽段(342 第一單斜槽(3 6 1 ) C扣環(3 6 3 ) 容置槽(3 6 5 ) 穿孔(4 1 ) 離合桿段(1 1 A ) ) 第二離合桿段(1 1 2 擺頭件(2 0 A ) 滑套件(3 0 A ) 離合槽段(3 4 A ) 18 200946296 .柄部(3 5 A ) .桿體(1 0 B ) .插組端(1 4 B ) 連軸桿段(1 4 2 B 連軸槽段(3 2 B ) 第一離合槽段(3 4 柄部(3 5 B ) 離合桿段 插組孔( 滑套件( 離合槽段 第二離合 (1 1 B ) L 4 1 B ) ^ 0 B ) (3 4 B ) I 段(3 4 2 B )200946296 - IX. Description of the invention: / [Technical field to which the invention pertains] - The present invention relates to a multi-purpose post structure improvement, and more particularly to a multi-purpose post-integrated design designer. [Prior Art] According to 'Please refer to Fig. 1, it is a structural type of the conventional F-bar ratchet tool, which is a tool body (1 〇A) having two ends defined as a 〇 set end (11A) And a set end (12A), wherein the set end (1 1 A) is embedded with a spring (not shown) and a steel ball (13 a) and the assembled end (1 2 A) is used for assembling The handle (1 4 A ) is convenient for manual gripping; and the conventional F-bar ratchet tool assembly (1 2 A) can only be used with a manual grip, and cannot provide electrical (gas) construction. For simultaneous socketing, if you need to use the electric (gas) moving tool to use the rod of this type, you need to purchase another type of rod to increase the cost of the user. 〇 It is based on the problems existing in the above-mentioned conventional structure. How to develop an innovative structure with more ideal and practicality, and use the ardent expectations of consumers, and the relevant industry must strive to develop the goal and direction of breakthrough. In view of this, the creator has been engaged in the manufacturing development and design experience of related products for many years, and after detailed design and careful evaluation of the above objectives, the invention has finally become practical. SUMMARY OF THE INVENTION That is, the main object of the present invention is to provide a multi-purpose joint 5 200946296 structure improvement; the problem to be solved is that there is a group of conventional F-bar ratchet tools that cannot provide electricity (gas The moving tool (gas) moving tool uses the rod of the specification type specification to increase the user's breakthrough; 'For the conventional F-bar ratchet tool joint, only the manual grip can be set and used at the same time. If you need to use the electric rod body, you need to purchase another kind of cost burden problem to improve the Ο 组 组 组 , , , π π π π π π π π π π π π π π π π π π π π π π π π π π The connecting shaft section and the other shaft are opposite to the shaft at one end of the rod body, and the positioning device is arranged separately; in addition, the shaft pivot position is provided with a multi-stage rotating sequence to form a connecting groove section and is connected to the cup body. , the inner edge of the:: the knot covers the end edge of the rod and:, the groove 'in the shaft section, away from the person # ρ ^ 逑 axis slot can just fit away from the α slot & just idling contact wrong Innovative and unique design, in the slave, the sliding stroke of the scheduled trip, but by The surface of the rod body is in the boat movement mode, or it is a manual f-buckling, manual = phantom tool straight line, and it is used for multi-purpose Λ (screw) rotation mode bite to use the convenience of practical use. The method is as follows: Please refer to the second embodiment of the preferred embodiment. It is not subject to the 'bar body' (1 Q and the rod end edge (the picture shown in Figures 1 to 4 is multi-purpose for the present invention), but these embodiments are only for Explain the limitations of the structure, including: The structure of the post is changed to the two ends of the patent application, and the insertion pole (1 4 ) rod (1 4 can be powered) (6 200946296 . The moving tool (b pole position is in the order -) 'where the clutch rod segment (1 2 ) is 1 2 ) the outer edge is pinched toward the steel ball (1 2 1 ) 'and the rod end edge 3 ) 'and the rod The body _ relative section of the body _), wherein the first ball groove type; a oscillating head (1) and the oscillating end (for example, the four-corner end of the oscillating end (2 5) oscillating end edge ( 2 3 4) Relative to the pivot point of the shaft to make the end of the oscillating head (2 degrees, and then, the multi-segment multi-segment angle switching at the oscillating head (A) contains the multi-segment rotation angle' The card four (2 5 1 ) 1 8 ) and the spring ( ) insert drive are used, and the rod body (the split lever section (1 1 .) and the coupling rod sample section (1 1 ) are circular The section type is a non-circular multi-angle cog type', and the top support steel ball (121) is provided at the joint position, and the inner a has an elastic body for the elastic top support (the c-ring type is embedded in the predetermined position) a fixed (10) clutch lever (丄丄)-shaped positioning portion (1 1 1 ) and a second positioning portion, two positioning portions (1 1 1 ,; L i 2 )) (and the vehicle is driven by Among them, there are no parts in the figure (1 series of 12 intermediate sections (top support) (1 constitutes 1 2 is ❹ 2 0 2 5 type side shape), and 5) (positioning position is oscillating) The end of the concave portion of the card is 1 7 , and the pendulum body can be connected to the 2nd member of the device F ((2 faces are the two of which are used for the sleeve and the head end of the rod (10 pairs of pivots) and the rod ( A) use, 2 0) 5 1) The pressure is provided and the end of the end is provided with a set end (2 is set with a predetermined sleeve end edge (1 5 2 5)) (1 0 ) 'To make the oscillating end of the multi-segment described by the oscillating head ('and Rod body (16 pieces (1 6 with group 1) in the lock) equal diameter from the shaft tow (1 〇) to the opposite piece (2 rotation set 2 5) (10), card) The predetermined end (2 for the implementation, and the size of the part (2 5), any angular axis pivoting 0) can be set by the device (the position is set to 7 200946296. There is a card holder (18) to accommodate the positioning The accommodating portion (ΐ6ι), • j valley portion (161) is formed with a deep and shallow groove generated by the urging locking member (18) and the 疋 action, so that the locking member (丄8) is pressed Displacement of the shallow groove forced locking member (18) formed by the spring (17) of the pressing member (16) a ratchet device (2 2 j 乂 远 组 ( ( 2 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 251 1) A predetermined spur motion can be generated; in the afternoon (30), the sliding sleeve is overlaid on the inner edge of the rod body (i 0), the mountain rim is formed with a connecting groove segment (3 1 , 夕月 embedded Tooth type energy 丄), surface shape > non-circular section of the heart, the axial groove section (3 2 ) And the circle p) can be connected to the sleeve, and the joint section (3! end edge (2 |, the same-sized rod end edge (i 5 ) υ)) ζ 洽 洽 洽 洽 于 于 于 于 于 于 于 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽 洽(3 4 " 3 4 ) In this embodiment, there are two clutch slots and a second clutch segment (342 ^ ), which are the first and the second card portion (1 Ί ! 〇 ', - C 3 1 1 (311, 312), 誃坌. 1 , 3 1 2 ) is the μ- and the second-embedded part 1 〇); is relative to the active displacement to embed + ~, < 疋 position () 敢卡疋 is located in the rod The body (30) is slid relative to the corpus callosum, the day, and the A+1 2 position, and the inner edge of the sliding kit (^ 〇) is first (1 )), and the sliding kit is frosted. A, two positioning parts (111 covered with positioning button U 1 ' 8 200946296 • There is a first single chute (36 1) and a second single chute (362), the first and second single chute (3 6 1 , 3 6 2 ) relative to the rod (10), there is a C-ring (3 6 3 ), and the other end of the positioning assembly (36) A deep and shallow groove receiving groove (365) is formed, and the receiving groove (36 5 ) is provided with a positioning steel ball (3 6 4 ) corresponding to the rod body (10), and the front and rear sliding positioning components are arranged (3 6 ), so that the upper and lower displacements of the positioning steel ball (3 6 4 ) are accommodated in the deep and shallow grooves of the receiving groove (3 6 5 ), so as to facilitate the further insertion of the card to the first part of the rod body (10). And two positioning portions (1 1 1 〇, 1 1 2 ), and the end position of the sliding sleeve (30) is formed with a perforation of the outer diameter of the insertion rod (1 4 ) of the rod body (10) (4) 1), wherein the perforation (4 1 ) is fixed at the end of the sliding sleeve (30) by forming a movable separation plug body (40); by the above structure and composition design, the invention is The use of the action is described as follows: Please refer to Figure 3, when the user wants to make the rod (10) electric (gas) moving tool (B) drive, you must first make the swing head (2 0) ❿ The multi-segment rotary positioning device (A) with the rod body (10) is rotated to the linear horizontal angle mode, and the end edge (2 3 ) of the swing head is connected to the rod end edge of the rod body (10) after the adjustment is completed ( 1 5 ) in a plane In the form of a singularity, when pushing the slipping kit (3 0 ), the positioning component (3 6 ) needs to be pushed backwards so that the first single chute (3 6 1 ) is aligned in the rod body (10). The C buckle (3 6 3), so that the deep groove pair of the receiving groove (3 6 5 ) is located at the second positioning portion (1 1 2 ) of the rod (3 0 4 ) after the positioning of the steel ball ( 3 6 4 ) The connecting groove section (3 1 ) of the sliding sleeve (30) is pushed forward to relatively cover the end edge of the oscillating head (2 3 ) and the edge of the rod body (1 5 ), and then positioned and then pushed forward. .-C buckle (. shallow groove is embedded in the end of the rod swing head (31) 1 0) production rod (1 4 〇 set rod (1 of the shaft groove section (1 1) with the sleeve two clutch groove slippery The kit (the rod body (10) is in the opposite part (the outer diameter of the 3 yoke can be lifted (gas) moving assembly (3 6 3 in the positioning body (1 (23 sets of the bundle pivot) exposed) (3), and over the pole section (3 3 0) 0) the top of the relative), when the slippery tool is driven by the steel 0) and the 6th bead) and the knot and later) Suspension slider 4 can be connected to the pole electrical component (3 rotation of the steady phase shaft body (for the pole away from the second one Each device (3 6 4), the first-position body end edge (work can not make the swing kit (3 in the electric (gas) drive action, with the cover over the (3 〇) 0) The diameter of the shank is larger than the id of the moving tool (〇). The chute (3 6 2 ) pairs 3 6 5 ) locate the steel ball (3 6 (111) by slipping, 5 ) and both are connected by the joint head (20) and the rod 经) (B) can be inserted by the sliding kit (3 rod body (1 0) from the second clutch slot section (3 pole section (1 2 ), by the shaft section (1 2 ), (1 0), and The inner edge of the top support steel ball (1 4 2) is provided to cause B) to drive the rod body due to the gap drop, (35), and the following is shown in Fig. 4, the tie rod body (1 Q) And sliding (30) are converted into a manual driving mode, and the transformation mode is to first position the component (36), so that the first single chute (361) is embedded in the ring (3 6 3 ) ' to make the receiving groove ( 3 6 5) The deep groove pairs the positional steel ball (364), so that the positioning steel ball (364) is located in the deep groove so that 4) 俾 makes the groove body (plugged into the 〇), the rod 4 2 is borrowed by the third From the 2 1 sliding sleeve, use the power-up kit and push the C-clip to shift 10 200946296 • After disengaging from the first positioning part (lll) of the rod body (1 〇), and make the slip kit (30) The rod body (1 〇) is loosely placed, so that the sliding sleeve ( -3 0 ) can produce slip relative to the rod body (i 〇), and position the steel ball (3 6 4 ) against the second positioning portion (i丄2 ) of the rod body (i丄2) Afterwards, the positioning component (36) can be pushed forward to position the second single chute (362) against the c-ring (363), and the positioning component (36) accommodates the slot (3 6 5 ) After displacement, the shallow groove pair is located on the positioning steel ball (3 6 4 ), so that the positioning steel ball (3 6 4 ) is inserted into the second positioning portion (1 1 2 ) of the rod body (10), The sliding sleeve (30) is radially embedded in the rod body (1〇) for axial fixation. Along the above, since the connecting groove section (3 1 ) of the sliding kit (3 )) has been out of the opposite position of the swing end edge (2 3 ) and the rod end edge (χ 5 ), it is in a heat-constrained state' and the sliding kit (3 〇) The multi-segment rotary positioning device (A) allows the rod body (1 〇) to form a curved toggle type relative to the oscillating member (2 〇) so that the rod body (1 〇) can be used with the oscillating member (2 〇) for bending and G-moving, in other words, if the oscillating member (20) and the rod (丄〇) are switched to the linear angle mode, the sliding kit (3 〇) can be opposite to the rod (1) 0) and the swinging head (20) is used for manual rotation (screw); in the case of 'to adjust the multi-segment rotary positioning device (A) for bending angle, use the pressure member (1 6) So that the locking member (i 8 ) is inserted into the receiving portion (]_ 6丄) of the pressing member (16), and the concave portion (251) of the swinging end (25) is relatively separated from the locking portion. The embedding limit of the piece (18) can be adjusted for the multi-section angle. After the adjustment, the pressing piece (16) can be released, and the spring (17) can be reset by the pressing piece (16). Insert the card (18) into the card Concave (251) in-line card 11 200946296 . Positioning, and then sliding kit (30) sliding backwards, the coupling section (3 2 ) of the sliding kit (30) is embedded in the rod body ( 1 0) The connecting rod _ segment (1 2 ) is matched by the polygonal insert so that the sliding kit (30) can rotate synchronously with respect to the rotating rod body (1 〇), and at the same time, the sliding kit (3) The clutch section (3 4 ) of 0) is relative to the insertion rod (1 4 ) of the closed rod body (10). Thereby, the sliding kit (30) can perform a sliding stroke of a predetermined stroke with respect to the rod body (10), so that the rod body (10) can constitute an electric (gas©) moving tool (Β) linear drive. Mode, or constitute a manual bending and manual linear (spiral) rotation mode, to achieve the practical progress of multi-purpose use and convenience of use. Referring to FIG. 5, which is a second embodiment of the present invention, the end of the assembly end (2 1 A ) of the oscillating member (20 A) (20) can be used in this embodiment. In order to insert the end shape of the driver head, the clutch lever segment (1 1 A ) of the rod body (1 0 A ) has a first clutch 0 pole segment (111A) and a second clutch in the embodiment. a rod segment (112A), and the second clutch rod segment (1 1 2 A ) is further extended to form an insertion rod (1 4 A ), wherein the outer diameter of the first clutch rod segment (1 1 1 A ) is Larger than the outer diameter of the second clutch rod segment (1 1 2 A ), and the outer diameter of the second clutch rod segment (1 1 2 A ) is equal to the outer diameter of the insertion rod (1 4 A ), and the slip The clutch groove section of the kit (30A) (3 4A)—the end system is retracted to form a smaller diameter coupling groove section (3 2 A ), and the clutch sleeve (3 0 A ) is a clutch groove section (3 4A) ) The first clutch rod segment (1 1 1 A ) of the rod body (1 〇A) is relatively sleeved and guided, and the sliding kit (30A) is 12 200946296. Coupling groove segment. Segment (1 1 . When using the kit (3 components (3 1 ), and the sliding sleeve is covered, with multiple © circular section pieces (3 0 Body A) can be empty, when making the second kit of 3 0 A)) (3 〇 (10 A) and the rod type, let 5 A) - the pair of rods should be followed by the large diameter type of the rod Position (3 2 2 A ) is to make 0 A) 6) to make the sliding sleeve on the second A) of the angular section of the rod (10 0 turns to contact the user to position it 0 A ) (1 0 The user makes the slider (1 continues to refer to the body (the insertion of 1 is formed with A) just as the plug is used for electricity (sliding forward to the rod (3 (1 0 of the coupling clutch is broken) A) for the manual drive of the shaft, and the piece (11 of the connected rod (A) can be used by the kit ( 〇A ) 8th round 0 B ) end (1 hexagonal break for the rod (1 gas) ) The displacement segment of the displacement body (1 0 A ) A ) (segment (1 surface clutching circular breaking (10 moving mode (36 2 )) (slot segment (1 4 A insertion rod rotating sliding 3 〇 A operator's office) Shown, the clutch 4 B ) The facet body (1 4 A ) is driven such that the second axis of the (eg, 0 A) is relatively separated from the 3 2 A 1 2 A groove segment (outer edge A). 7 3 2 A), due to (14 of the kit ( ) is connected to the lever section (the coupling shaft 0 A of the insertion) is opposite to the first slot section (with the coupling section) in the pattern of the application pattern 6 3 4A '俾The support must first be fixed in the figure. That is, the coupling A) is the 3 〇A shaft groove section of the invention. 1 1 B group end (the second section of the guide slip, need to be shown), the positioning part 3 2 A (11 edge rotation edge, to the inner edge of the sliding sleeve support function, push the sliding rod body ( ), the corresponding sleeve groove section (same as six) handle (32 third solid) end 1 4 B 14 2 Clutch lever: the slewing slider positioning (11) relative to 2 A) is in contact with the sliding sleeve relative to the rotation (30 degrees; following the kit (1 0 A, the sliding on the rod body 3 2a angular section (3 A) phase For example, with the outer edge B), 13 200946296 Ο ❹ the other end of the package slot section, the second section (the larger shaft slot shaft slot group end drive assembly 1) (1 clutch group end slot section insert gas ) The kit (3 successive rods 0 Β Β ) is formed with a four-corner jack (3 0 Β ) away from the (3 4 1 Β ) and the clutch slot section (3 4 3 2 Β ), where the coupling slot section (3 segments) (3 2 Β) line segment (1 4 2 Β ) (3 4 2 Β ) When the outer edge motion mode is used, (3 6 ) is positioned (as shown in Figure 9) and exposed to the slot section (3 4 2 Β ( 1 4 Β ) and even (3 4 2 Β ) inner end (1 4 Β ) and moving tool inserted into the plug (3 0 Β ) is empty 5 Β ); then, push-slip kit (3 0 (1 0 β ) The first section is connected to the rod section (the coupling hole type of the coupling groove type (1 4 1 β ), and the sliding groove section (3 4 Β ) is divided into the first clutch second clutch groove section (342Β), and the first 1B, 342B) is formed with a coupling groove of the coupling groove section (3 4 2 B ), the inner diameter of the second section b) and the sliding sleeve can be sleeved and coupled to the rod body 〇B) The connection of the B) and the second clutch of the sliding kit (3 〇B) can be integrated into the insertion of the rod (1 〇 B), thereby requiring the user to use electricity (gas) The previous push-slip kit (3 〇β) allows it to position the first positioning part (丄丄) of the rod body (1 0 B), and the insertion end slip kit (3 0 B) of the rod body (1 〇B) In addition, the second outer diameter is larger than the outer diameter of the rod body (丨〇B) (1 4 2 B ) It is not possible to relate the shaft section (1 4 2 B ) of the shaft (1 〇B) to the shaft (1 〇Β ) when driving with the power (1 4 1 Β). When the user of the pedestal handle is to be used in the manual driving mode, the positioning component (3 6 ) needs to be positioned and fixed to a positioning portion (1 1 ?, , Ζ), and the rod body (丄4 2 Β) is The card is aligned with the slide. ^ The most dry (3 〇 200946296 1 4 2 B ) 俾 The user can make the slide kit ( 〇 B ) into the same rotating slide kit 3 0 . B ) 1 Hexagonal section (3 0 B ) Coupling groove section ( 4 2 B ) is connected to the shaft groove section (the handle (3 3 2 B ) carries the rotor. 3 2 B ), 5 B ), and the moving rod body (1 [Effective description of the present invention, the structure of the present structure; its conventional knowledge] can not be mentioned (oxygen) start work i another type of improved α improved breakthrough body (1 0) 'Intermediate section Ο another stylus end' and the end of the oscillating end rod body (multi-segment rotation set over the rod body slot section (3 'where the connection effect enhances the invention to solve the F rod ratchet power supply) (The rod of the gas appliance (Β.); and the two ends of the solution are arranged in sequence and the shaft member (20, the head end (25) 15), the position device ((10) 1), even The slot section (the tool for the task of 3) is used to determine the insertion of the insertion section ( ) 2 (2 is the oscillating head A), and the shaft groove is as follows, the system is the same, and the assembly tool is the same. This specification is added to make the problem of the technical pole (1 has a clutch end divided into δ and 5) side by a shaft member (2; and the slider body (segment (3 can be connected to provide a system for the conventional end can only be set) The cost characteristics of the user who uses the type of the rod, the main 4) and the rod section (the 1 1 ' end is provided with a set of joints (formed with a swing head (2 4 0 ) with the rod body #3 (1 0 1 〇) inner edge 2) and clutch, knot cover over the pole multi-purpose pole knot F-bar ratchet tool manual grip use 'If you need to use electricity', you need to purchase additional problems The main point is that the one end edge (1 5 ) and the shaft rod position component (1 3 21) and the swing head end edge (2 3 ) are opposite to each other (1〇). The sequence is formed with a trough section (3 4 ) body end edge (τ ς 15 , and even the price section (3 2 200946296 and the pendulum end edge section (12), the clutch groove section (34) can be idly contacted with • “( 1 2), the other clutch groove section (3 4) is provided with a two-end suitable portion, which is used for engaging the positioning group of the rod body (丄〇) 13) · This innovative and unique design makes The invention can be used for the electric (gas) movement B) linear driving mode by the front and rear sliding kits (3 0 ), or for manual bending, manual straight line (rotating rod body usage mode) The type of the invention is intended to achieve utility for a versatile use and use. The above embodiments disclose the invention by way of specific terms. It is to be understood that the scope of the invention is not limited thereto; those skilled in the art can change and modify them to achieve the equivalent of such changes and modifications. It should be covered in the scope of the patent application as described later. 〇 [Simple description of the drawing] Figure 1: A perspective view of the conventional F-bar structure. The first piece of the connecting shaft (transformer (screw)) Invented by the text, scope 16 200946296. Fig. 2 is an exploded view of the shaft, the swing head and the sliding kit of the present invention. Figure 3: The use of the rod of the present invention for the use of an electric (gas) moving tool mode. State diagram. Fig. 4 is a view showing the state of use of the lever body of the present invention for manual driving of the handle mode. Fig. 5 is a second embodiment of the present invention, which is an exploded view of the tie rod body, the swing head member and the slide kit. Fig. 6 is a view showing the state of use of the electric (gas) moving tool mode of the second embodiment of the present invention. Fig. 7 is a view showing the state of use of the manual drive handle mode of the second embodiment of the present invention. Figure 8 is a third embodiment of the present invention, which is an exploded view of the tie rod body, the swing head member and the slide kit. Fig. 9 is a view showing the state of use of the electric (gas) moving tool mode in the third embodiment of the present invention. Fig. 10 is a diagram showing the third embodiment of the present invention for manually driving the handle mode. Usage state diagram [Main component symbol description Conventional part: Set end (1 1 A) Steel ball (1 3 A ) Tool body (1 0 A ) Set of terminals (1 2 A ) Grip (1 4 A) Part of the invention: Multi-segment rotary positioning device (A) Electric (gas) moving tool (B) 17 200946296 . Rod body (1 o ) First positioning part (1 1 1 ). Connecting shaft section (1 2 ) Positioning piece (1 3 ) Inserting rod (1 4 ) Pressure piece (1 6 ) Spring (1 7 ) Swing head (2 0 ) © ratchet device (2 2 ) Shaft pivot (2 4 ) Snap recess (2 5 1 ) Slip kit (3 0 ) First snap-in part (3 1 1 ) Coupling slot section (3 2 ) First clutch slot Segment (3 4 1 ) Handle (3 5 ) ❹ Positioning assembly (3 6 ) Second single chute (362) Positioning steel ball (3 6 4 ) Plug body (4 0 ) Rod body (1 0 A ) First clutch Rod section (111A insertion rod (1 4 A) assembly end (2 1 A) coupling shaft section (3 2 A) clutch rod section (1 1 ) second positioning part (1 1 2 ) top support steel ball (1 2 1 ) Rod end edge (1 5 ) accommodating part (1 6 1 ) locking piece (1 8 ) assembly end (2 1 ) oscillating end edge (2 3 ) Swing head end (2 5 ) Connecting groove section (3 1 ) Second embedding section (3 1 2 ) Clutching groove section (3 4 ) Second clutching groove section (342 First single chute (3 6 1 ) C buckle Ring (3 6 3 ) accommodating groove (3 6 5 ) perforation (4 1 ) clutch rod segment (1 1 A )) second clutch rod segment (1 1 2 oscillating member (2 0 A) sliding kit (3 0 A) Clutching groove section (3 4 A ) 18 200946296 . Handle (3 5 A ). Rod body (1 0 B ). Plugging end (1 4 B ) Connecting shaft section (1 4 2 B coupling groove section) (3 2 B ) First clutch groove section (3 4 shank (3 5 B ) clutch lever section insertion hole (sliding kit (clutch slot second clutch (1 1 B ) L 4 1 B ) ^ 0 B ) (3 4 B ) Section I (3 4 2 B )
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