201012390 六、發明說明: 【發明所屬之技術領域】 本發明係關於操作桿把手,特別是關於可自由旋轉地 裝設於被固定在釣魚用捲線器的操作桿臂的前端之把手軸 的操作桿把手。 【先前技術】 φ 在紡車式捲線器、雙軸承捲線器等的釣魚用捲線器的 操作桿軸的前端,固定著操作桿組裝體。操作桿組裝體具 有:不能旋轉地裝設於操作桿軸的前端之操作桿臂;不能 旋轉地固定於操作桿臂的前端之把手軸;及可自由旋轉地 裝設於把手軸之操作桿把手。 這樣的操作桿把手具有:可自由旋轉地支承於把手軸 之筒狀部;及設置成覆蓋筒狀部的外周之鼓狀的把手部。 筒狀部係對把手軸,可自由旋轉且不能朝軸方向移動地裝 # 設著,螺絲固定於把手軸的前端部。 在這種的操作桿把手,把手部係藉由將彈性體等的合 成樹脂、軟木等進行加工後,接著固定於筒狀部的外周部 全體範圍者爲眾所皆知(例如參照專利文獻1)。 〔專利文獻1〕日本特開平10—98991號公報 【發明內容】 〔發明所欲解決之課題〕 前述以往的釣魚用捲線器的操作桿把手,因藉由合成 -5- 201012390 樹脂、軟木等所形成之把手部被接著固定於筒狀部的外周 部全體範圍,所以成爲把手部全體露出於外面之結構。 但,在把手部全體露出於外面之以往的結構,特別是 因把手部的基端部接近操作桿臂並配,所以’當因長年使 用產生晃動時,則會有把手部的基端部與操作桿臂接觸之 情況產生。如此,當把手部的基端部與操作桿臂接觸時, 在把手部爲藉由彈性體等的軟質樹脂所形成之情況時,因 把手部與操作桿臂之接觸摩擦,阻礙了操作桿把手的圓滑 之旋轉,或在把手部爲藉由軟木等的天然材料所形成之情 況,由於強度較弱,故會有把手部本身磨損而斷裂之虞產 生。 本發明之課題係在於針對釣魚用捲線器的操作桿把手 ,既可維持操作桿把手的圓滑之旋轉,又可抑制操作桿把 手的磨耗。 〔用以解決課題之手段〕 發明1之釣魚用捲線器的操作桿把手係可自由旋轉地 裝設於被固定在釣魚用捲線器的操作桿臂的前端的把手軸 之操作桿把手,其特徵爲:具備有:可自由旋轉地裝設於 把手軸的外周側之合成樹脂製的筒狀部;以外側面露出的 方式裝設於筒狀部的基端部,並在外側面實施有切削加工 之金屬製的環狀部;及從筒狀部的前端部至環狀部的前端 部,裝設於筒狀部的外周部之把手部。 在此操作桿把手,主要具備有合成樹脂製的筒狀部; -6- 201012390 和與筒狀部、把手部不同體的方式設置,並在外側面實施 有切削加工之金屬製的環狀部。在此,因在操作桿臂與把 手部之間,設有金屬製的環狀部,所以,即使因長年使用 產生晃動,僅利用金屬製的環狀部與操作桿臂接觸,即可 使把手部的基端部與操作桿臂接觸之情況消失。因此,即 使在把手部爲例如以彈性體等的合成樹脂、軟木等所形成 之情況,利用把手部的基端部不與操作桿臂接觸,既可維 Φ 持操作桿把手的圓滑之旋轉,亦可藉由金屬製的環狀部, 來抑制操作桿把手的磨耗。 且,在此因環狀部係以與筒狀部、把手部爲不同體來 設置的,所以,即使在例如把手部的外形爲鼓狀之情況, 容易對爲與筒狀部、把手部不同體之例如鋁合金等的金屬 製的環狀部進行切削加工.,並且藉由使實施了切削加工之 金屬製的環狀部露出於外面,可提昇設計性。且在此,筒 狀部爲例如EVA樹脂等的合成樹脂製之情況,比起藉由 φ 鋁合金等的金屬形成把手部及筒狀部全體之情況,不受把 手部的材質影響,可將操作桿全體予以輕量化。 發明2之操作桿把手係如發明1的操作桿把手,其中 ,環狀部係不能相對旋轉地固定於筒狀部的基端部。在此 情況,因環狀部固定於筒狀部,所以,即使釣者錯誤抓住 環狀部之情況,也能對操作桿把手加以操作。 發明3之操作桿把手係如發明2的操作桿把手,其中 ,筒狀部係在基端部具有:形成爲較其他部分的外徑更大 徑且外形呈非圓形之卡合部。環狀部具有內形呈非圓形、 201012390 且可與卡合部卡合之被卡合部。在此情況’藉由使筒狀部 的非圓形的卡合部卡合於環狀部的被卡合部’能夠以簡單 的結構,不能相對旋轉地固定兩構件。 發明4之操作桿把手係如發明1至3中任一發明的操 作桿把手,其中,環狀部係具有外形朝周方向凹陷而形成 的溝槽部。在此情況,因環狀部係以與把手部不同體所設 置的,所以,容易藉由切削加工來形成溝槽部。 發明5之操作桿把手係如發明1至4中任一發明的操 φ 作桿把手,其中,在環狀部的外側面,實施有滾花加工。 在此情況,因環狀部係以與把手部不同體所設置的,所以 ,容易進行作爲切削加工之滾花加工’並且藉由成爲鋸齒 狀的溝槽部之滾花加工,能夠提昇設計性。 發明6之操作桿把手係如發明1至5中任一發明的操 作桿把手,其中,環狀部係接著於筒狀部的基端部。在此 情況,例如藉由將兩構件呈非圓形卡合之狀態接著,能夠 使環狀部與筒狀部之固定變得更強固。 @ 發明7之操作桿把手係如發明1至6中任一發明的操 作桿把手,其中,把手部係被壓入於筒狀部的外周部。在 此情況,藉由壓入例如彈性體等的合成樹脂、軟木等的把 手部,容易進行把手部的安裝。 發明8之操作桿把手係如發明1至7中任一發明的操 作桿把手,其中,把手部係藉由合成樹脂、軟木中的任一 者所形成。在此情況,利用以較輕量的合成樹脂、軟木中 的任一者形成把手部,比起將把手部及筒狀部全體作成爲 -8 - 201012390 金屬製之情況,可將操作桿全體輕量化。 發明9之操作桿把手係如發明1至8中任一發明的操 作桿把手,其中,把手部具有:配置於基端部側之第1把 手部;和配置於前端部側,藉由與第1把手部不同的材質 所形成之第2把手部。在此情況,利用在第1把手部與第 2把手部,使外觀呈不同的顏色,能夠提昇設計性。 發明10之操作桿把手係如發明9的操作桿把手,其 φ 中,第2把手部係在外側面,實施有成爲螢光色之塗裝處 理。在此情況,利用例如以螢光塗料對第2把手部實施塗 裝處理,藉以對第2把手部的外觀賦予特色,能夠提昇設 計性。 發明1 1之操作桿把手係如發明1至1 0中任一發明的 操作桿把手,其中,環狀部爲鋁合金製。在此情況,容易 進行鋁合金製的環狀部的切削加工。 發明1 2之操作桿把手係如發明1至1 1中任一發明的 • 操作桿把手,其中’環狀部係在表面形成有利用陽極氧化 處理所產生之陽極氧化被覆膜。在此情況,利用在對環狀 部進行切削加工後’再將利用陽極氧化處理所產生的陽極 氧化被覆膜形成於表面,能夠提高防腐蝕性,並起可維持 環狀部的高強度。 發明1 3之操作桿把手係如發明1至1 2中任一發明的 操作桿把手’其中,釣魚用捲線器爲紡車式捲線器。在此 情況,針對紡車式捲線器的操作桿把手,既可謀求操作桿 全體的輕量化,亦可提昇操作桿的加工性。 201012390 發明14之操作桿把手係如發明1至12中任一發明的 操作桿把手’其中,釣魚用捲線器爲雙軸承捲線器。在此 情況,針對雙軸承捲線器的操作桿把手,既可謀求操作桿 全體的輕量化,亦可提昇操作桿的加工性。 發明1 5之操作桿把手係如發明1至1 2中任一發明的 操作桿把手,其中,釣魚用捲線器爲單軸承捲線器。在此 情況,在此情況,針對單軸承捲線器的操作桿把手,既可 謀求操作桿全體的輕量化,亦可提昇操作桿的加工性。 〔發明效果〕 若依據本發明,針對釣魚用捲線器的操作桿把手,因 具備有合成樹脂製的筒狀部;和以與筒狀部、把手部等不 同體設置,並在外側面實施有切削加工之鋁合金製的環狀 部,所以,既可維持操作桿把手的圓滑之旋轉,亦可抑制 操作桿把手的磨耗。 【實施方式】 採用本發明之一實施形態的紡車式捲線器係如圖1及 圖2所示,具備有:操作桿組裝體1;可自由旋轉地支承 操作桿組裝體1之捲線器本體2;轉子3;及捲筒4。轉子 3爲用來將釣線捲繞於捲筒4指,可自由旋轉地支承於捲 線器本體2的前部。捲筒4係爲將釣線捲取於外周面者, 可朝前後自由移動地配置於轉子3的前部。再者,操作桿 組裝體1係可裝設於捲線器本體2的右側(參照圖1)及 -10- 201012390 左側(參照圖2)中的任一側,在未裝設有 1之側(在圖2中爲捲線器本體2的右側) 蓋之螺栓構件1 9。 操作桿組裝體1係如圖2所示,具有: 設於操作桿軸部7的前端之操作桿臂21 ;固 21的兩端之把手軸22;及可自由旋轉且不 動地裝設於把手軸22之操作桿把手23。 φ 操作桿臂21係如圖2所示,爲例如鋁 構件,藉由朝與捲線器本體2對向側稍微折 操作桿臂21的一端(圖2中之下側端部) 件20,可朝與捲線器本體2接觸分離的方向 操作桿軸部7的前端部(圖2之左側端部) 21的另一端(圖2之上側端部),配置有興 呈平行地被固定之把手軸22。 把手軸22係如圖3放大所示,爲沿著萝 • (參照圖2)呈平行之旋轉軸所配置、且爲 金等的金屬製的軸,在基端形成有較其他部 螺紋部22a,在另一端面(;:第2螺孔22b。 部22a隣接形成有較其他部分更大徑的工具 公螺紋部22a係螺合於第1螺孔21c,藉由 手軸22固定於操作桿臂21。在工具卡止部 ,形成咬可卡止板手等的工具之平行的倒角 手軸22的與工具卡止部22c隣接之外周部 ,配置有軸承30a、30b。藉由此軸承30a 操作桿組裝體 ,裝設有附有 不能旋轉地裝 定於操作桿臂 能朝軸方向移 合金製的棒狀 彎而形成的。 係藉由螺栓構 擺動地連結於 。在操作桿臂 操作桿軸部7 .操作桿軸部7 例如不銹鋼合 分更小徑的公 又,與公螺紋 卡止部22c。 此螺合,將把 22c的外周面 部 22d。在把 與前端外周部 3 0b,使操作 -11 - 201012390 桿把手23可自由旋轉地支承於把手軸22。軸承3 0b係藉 由裝設於第2螺孔22b之螺栓構件28,不能朝軸方向移動 地裝設著。此螺栓構件28係經由軸承30b’將操作桿把手 23對把手軸22防脫落地固定著。 操作桿把手23係如圖3至圖6所示’具有:可自由 旋轉且不能朝軸方向移動地裝設於把手軸22之合成樹脂 製的筒狀部31;以覆蓋筒狀部31的外周側的方式被接著 固定之軟木製的把手部32;用封住把手部32的前端部的 開口之蓋構件33;以及以外側面露出的方式裝設於筒狀部 31的基端部,且在外側面實施有切削加工之鋁合金製的環 狀部34。 筒狀部31係如圖3至圖6所示,具有:可自由旋轉 地裝設於把手軸22的外周側之本體筒部31a;形成於本體 筒部3 1 a的操作桿臂2 1側(圖3左側)端部外周,用來 使本體筒部31a旋轉停止之旋轉停止部31b;形成爲朝與 本體筒部3 1 a的操作桿臂21相反側(圖3右側)端部開 口之母螺紋部31c:朝本體筒部31a的外周部突出形成之 凸部31d;以及嵌入成形於本體筒部31a的內周部之筒部 3 1 e ° 本體筒部31a爲EVA樹脂等的硬質樹脂製的筒狀構 件,藉由筒部31e的嵌入成形所一體成形的。在本體筒部 31a的內周,裝設有軸承30a、30b,藉由此軸承30a、30b ’使得筒狀部31對把手軸22成爲可自由旋轉。 旋轉停止部31b係以形成爲較本體筒部31a的其他部 201012390 分更大徑的方式,一體成形於本體筒部31a的基端部(圖 3左側)外周,當裝設後述的環狀部34時卡合於形成在環 狀部34的內周側之非圓形孔34 a地,外形形狀形成爲呈 八角形之非圓形狀,母螺紋部31c係爲形成於本體筒部 31a的前端部(圖3右側)內周之螺孔,可與後述之蓋構 件33的公螺紋部33a螺合。 凸部31d係如圖3及圖4所示,沿著本體筒部31a的 0 軸方向(長度方向)所形成,又如圖6所示,以等間隔排 列配置於周方向之8個部位的突出部。在此,藉由凸部 3 Id,當壓入後述的把手部32的把手本體32a時,凸部 31d的外周部與把手本體32a的內周接觸,藉此,可將把 手本體32a對本體筒部31a進行旋轉停止及脫落防止固定 〇 筒部31e爲對鋁合金進行切削加工所形成之筒狀構件 ,嵌入成形於本體筒部31a的內周部。在此,藉由筒部 ❿川,既 可謀求全體的輕量化,亦可抑制本體筒部31a的 變形。 把手部32係如圖3至圖6所示,具有沿著旋轉軸之 方向的長度較沿著旋轉軸的徑方向之長度長的扁平棒狀的 筒狀構件即把手本體32a。把手本體32a爲筒狀構件’其 係以從本體筒部31a的前端部(圖3右側)朝本體筒部 31a的基端部(圖3左側)與旋轉停止部31b接觸的方式 接著固定於本體筒部31a的外周側。把手本體32a係藉由 軟木所形成的,從本體筒部31a的前端部朝環狀部34的 -13- 201012390 前端部,壓入至本體筒部31a的外周部。在把手本體32a 的內周部與本體筒部31a的外周部之間’塗佈有接著劑’ 把手本體32a固定於本體筒部31a之把手部32,係呈旋轉 軸方向的中心部分變窄之形狀,在其對向的主面’形成有 沿著旋轉軸方向朝內側圓滑地彎曲之抓持面。抓持面係形 成變形矩形狀,以助於當進行抓持時,能夠與右手的手指 端吻合。把手本體32a係成爲依據切斷方向使厚度不同之 扁平形狀,又,隔著把手軸22形成爲對稱形狀。在把手 @ 本體3 2a的前端部(圖3右側)的開口,裝設有用來封住 此開口之蓋構件3 3。 蓋構件33係如圖3至圖5所示,具有:可螺合於筒 狀部31的前端部(圖3右側)內周部的母螺紋部31c之 公螺紋部33a;形成爲較公螺紋部33a的外徑更大徑,且 可與把手本體32a的前端部(圖3右側)接觸,藉以封住 公螺紋部33a的開口之頭部33b;及形成於頭部33b之工 具卡止用的卡止部33c。蓋構件33係在藉由螺栓構件28 Q 將操作桿把手23裝設於把手軸22後,再裝設固定至把手 本體32a的前端部(圖3右側)。 環狀部34係如圖3至圖5所示,爲以外側面露出的 方式裝設於本體筒部31a的基端部,並在外側面實施有切 削加工之鋁合金製的環狀構件。在環狀部34的內周部, 形成有基端部側呈開口之大徑的非圓形孔34a;和前端部 側呈開口之小徑的圓形孔3 4b。非圓形孔3 4 a係以與旋轉 停止部3 1 b的外形成爲相同形狀的方式,,形成爲內形形 -14 - 201012390 狀呈八角形之非圓形,當將環狀部34裝設於筒狀部31時 ,與旋轉停止部31b卡合。在此,藉由使筒狀部31的非 圓形的旋轉停止部31b與環狀部34的非圓形孔34a卡合 ,能夠以簡單的結構,不能相對旋轉地固定兩構件。 在環狀部34的外側面,如圖3至圖5所示,具有: 在組裝筒狀部31、把手部32之前,藉由切削加工所形成 之切削加工部34c。切削加工部34c具有:外形朝徑方向 φ (環狀部34裝設方向)凹陷所形成之溝槽部。在此,容 易對與筒狀部31、把手部32等不同體的鋁合金製的環狀 部3 4進行切削加工。 在環狀部34的表面,於形成藉由切削加工所形成之 切削加工部3 4c後,實施陽極氧化處理之氧皮鋁處理,形 成作爲陽極氧化被覆膜之氧皮鋁層。在此,藉由在環狀部 34之表面形成利用氧皮鋁處理所產生之氧皮鋁層,能夠提 高防腐蝕性,並且可高度維持環狀部34的強度。 • 操作桿組裝體1係如圖2所示,進一步具備有:不能 相對旋轉地裝設於主齒輪軸10的內周部,且前端部從主 齒輪軸10的前端部朝軸方向外側突出並配置之操作桿軸 部7°操作桿軸部7係如圖2所示,外形形成爲矩形等的 非圓形’不能旋轉且可朝軸方向移動地裝設於主齒輪軸1〇 的貫通孔。在操作桿軸部7的端部(圖2右側端部),於 內周側形成有母螺紋部,藉由使附有蓋之螺栓構件19的 公螺紋部螺合於裝設在貫通孔之操作桿軸部7的母螺紋部 ’可使操作桿軸部7對主齒輪軸10防脫落固定著。又, -15- 201012390 在操作桿軸部7的前端部(圖2左側端部),藉由螺栓構 件20固定著操作桿臂21。 捲線器本體2係如圖1及圖2所示,包含:具有開口 之捲線器主體2a;爲了封住開口,而可自由裝卸地裝設於 捲線器主體2a之蓋構件2b ;從蓋構件2b朝斜上前方延伸 之竿安裝腳2c;以及裝設於從捲線器主體2a及蓋構件2b 的後部至下部全範圍之覆蓋構件2d (參照圖1)。捲線器 主體2a係在內部具有空間。 轉子3係如圖1所示,圓筒部30;及相互對向地設置 於圓筒部30的側方之第1轉子臂及第2轉子臂。圓筒部 30與第1轉子臂及第2轉子臂係一體成形的。 第1轉子臂係如圖1所示,從圓筒部30朝外側呈τ 凸狀地彎曲並朝前方延伸。在第1轉子臂的前端外周側’ 第1釋線環支承構件40可自由擺動地被裝設著。在第1 釋線環支承構件40的前端,裝設有用來將釣線導引至捲 筒4之線滾子41。第2轉子臂係從圓筒部30朝外側呈Τ 凸狀地彎曲並朝前方延伸。在第2轉子臂的前端外周側’ 第2釋線環支承構件42可自由擺動地被裝設著。在線滾 子41與第2釋線環支承構件42之間’固定有將線材大致 呈U字狀彎曲之釋線環43。藉由這些第1釋線環支承構件 40、第2釋線環支承構件42、線滾子41及釋線環43’構 成釋線臂44。釋線環臂44係可在釣線導引姿勢與由該姿 勢反轉之釣線開放姿勢之間自由擺動。 捲筒4係如圖1所示,配置於轉子3的第1轉子臂與 201012390 第2轉子臂之間,經由拖曳機構60裝設於捲筒軸15的前 端。 其次,說明關於捲線器的操作及動作。 在進行釣魚之際,爲了拋投使釣線從捲線器本體2反 復出線,而使釋線環臂44反轉時,則第1釋線環支承構 件40及第2釋線環支承構件42擺動,可將釋線環臂44 作成爲釣線開放姿勢。在此狀態下,以握住釣竿之手的食 φ 指一邊勾住釣線一邊進行甩竿。於是,釣線藉由釣組的狀 量,強力地朝前方被放出。又,當將操作桿組裝體1朝捲 線方向旋轉時,則藉由未圖示的轉子驅動機構,使得轉子 3朝捲線方向旋轉,釋線環臂44藉由未圖示的釋線環反轉 機構復原至捲線位置,而釣線被捲繞於捲筒4。 在這樣的紡車式捲線器的操作桿把手23,具備有:合 成樹脂製的筒狀部31;和以筒狀部31、把手部32不同體 設置,並在外側面實施有切削加工之鋁合金製的環狀部34 • 。在此,因在操作桿臂21 t把手部32之間,設有鋁合金 製的環狀部34,所以,即使因長年使用產生晃動,也僅利 用鋁合金製的環狀部34接觸於操作桿臂21,則可使把手 部32的基端部與操作桿臂21接觸的情況消失。因此,即 使在藉由軟木形成把手部32之情況,利用把手部32的基 端部不會與操作桿臂21接觸,既可維持操作桿把手23的 圓滑之旋轉,亦可藉由鋁合金製的環狀部34,抑制操作桿 把手23的磨耗。因此,既可維持操作桿把手23的圓滑之 旋轉,亦可抑制操作桿把手23的磨耗。 -17- 201012390 〔其他實施形態〕 (a )在前述實施形態,以紡車式捲線器爲例進行了 說明,但,本發明亦適用於如圖12所示的雙軸承捲線器 、如圖13所示的單軸承捲線器等其他形態之釣魚用捲線 器的操作桿把手。又,本發明之操作桿抓持件不限於雙操 作桿者,亦適用於單操作桿者。 採用本發明之其他實施形態的雙軸承捲線器,如圖12 所示,爲擬餌拋投(Bait Casting )用的矮背型捲線器。 此雙軸承捲線器具備有:捲線器本體101;配置於捲線器 本體101的側方之捲筒旋轉用的操作桿組裝體102;及可 自由旋轉且可自由裝卸地裝設於捲線器本體101的內部之 捲線用的捲筒112。在操作桿組裝體102的捲線器本體 101側,設有拖曳調整用的星形釣力閥103。 捲線器本體101具有:框架105;裝設於框架105的 兩側方之第1側蓋l〇6a及第2側蓋106b。又,捲線器本 體101具有覆蓋框架105的前方之前蓋107;和覆蓋上部 之拇指座(thumb rest) 108。框架105係具有:於左右隔 著預定間隔相互對向地配置之一對第1側板l〇5a及第2 側板l〇5b;及用來連結第1側板105a及第2側板105b之 未圖示的複數個連結部。框架105係藉由設置於下側的連 結部之未圖示的釣竿裝設部,可裝設於釣竿。 在捲線器本體101的內部,配置有:配置於與釣竿交 叉之方向的捲筒112;用來將釣線均等地捲繞至捲筒112 -18- 201012390 之未圖示的均勻捲線機構;及用來將操作桿組裝體102的 旋轉傳達至捲筒之未圖示的旋轉傳達機構。在旋轉傳達機 構,設有:前端裝設有操作桿組裝體102之操作桿軸120 ;用來將操作桿組裝體1〇2的旋轉對捲筒112進行傳達、 遮斷(on、off)之未圖示的離合器機構;及未圖示的拖曳 機構。操作桿軸120係可自由旋轉地支承於捲線器本體 101。在框架105的後部,可對離合器機構進行on、off操 φ 作並且成爲拇指按壓區的離合器桿117可自由擺動地被裝 設著。 操作桿組裝體102具備有:裝設於操作桿軸120的前 端之操作桿臂121;和裝設於操作桿臂121的前端之操作 桿把手123。操作桿把手123具有:可自由旋轉且不能朝 軸方向移動地裝設於把手軸122,且爲合成樹脂製的筒狀 部131;以覆蓋筒狀部131的外周側的方式被接著固之軟 木製的把手部132;用來封住把手部132的前端部的開口 φ 之蓋構件133;及以外側面露出的方式裝設於筒狀部131 的基端部,並在外側面實施有切削加工之鋁合金製的環狀 部134。再者,操作桿把手123的結構,係與前述實施形 態的圖號加上數字100者,其內容爲相同,故省略其詳細 說明。 這樣的雙軸承捲線器的操作桿把手123係與前述實施 形態同樣地,因具備有合成樹脂製的筒狀部131;及與筒 狀部131、把手部132不同體所設置,並在外側面實施有 切削加工之鋁合金製的環狀部134,所以,既可維持操作 -19- 201012390 桿把手123的圓滑之旋轉,亦可抑制操作桿把手123的磨 耗。 採用本發明之其他實施形態的單軸承捲線器係如圖13 所示,具備有:捲線器本體201;可懸臂支承於捲線器本 體201之捲筒軸2 02;及對捲筒軸2 02可自由相對旋轉地 配置,並在外周捲繞釣線之捲筒203。捲筒203係具有: 筒狀的捲線主體部215;以與(;:捲線主體部215 —體地形 成於捲線主體部215的一端部之圓板狀的內凸緣216;以 覆蓋捲線器本體20〗的開放部的方式裝設於捲線主體部 215的另一端部之外凸緣217。在外凸緣217的外面,於 接近外周安裝有操作桿把手223。操作桿把手22 3具有: 可自由旋轉且不能朝軸方向移動地裝設於把手軸222且爲 合成樹脂製的筒狀部231;以覆蓋筒狀部23 1的外周側的 方式被接著固定之軟木製的把手部232;用來封住把手部 232的前端部的開口之蓋構件23 3 ;以及以外側面露出的 方式裝設於筒狀部231的基端部,並在外側面實施有切削 加工之鋁合金製的環狀部23 4。再者,操作桿把手22 3的 結構,係與前述實施形態的圖號加上數字200者,其內容 爲相同,故省略其詳細說明。 這樣的雙軸承捲線器的操作桿把手223係與前述實施 形態同樣地,因具備有合成樹脂製的筒狀部23 1;及與筒 狀部23 1、把手部232不同體所設置,並在外側面實施有 切削加工之鋁合金製的環狀部234,所以,既可維持操作 桿把手223的圓滑之旋轉,亦可抑制操作桿把手223的磨 201012390 耗。 (b)在前述實施形態,筒狀部31係金屬製的筒部 31e嵌入成形硬質樹脂製的本體筒部31a所構成’但可作 成爲不設置金屬製的筒部之結構。又’筒狀部31的材質 不限於此,亦可藉由EVA樹脂以外的合成樹脂來形成。 (c )在前述實施形態,切削加工部34c係爲朝徑方 向凹陷所形成之溝槽部,但不限於此。切削加工部3 4c ’ φ 亦可例如圖7所示,爲外形朝周方向凹陷而形成的溝槽部 ,或亦可如圖8所示,爲藉由滾花加工所形成之鋸齒形態 的溝槽部。 (d) 在前述實施形態,把手部32係藉由一個構件來 形成,但亦可如圖9所示,作成爲具有:配置於基端部側 之第1把手部32b;和配置於前端部側,以與第1把手部 3 2b不同的材質形成爲不同顏色之第2把手部32c的結構 。且如圖9所示,第2把手部32c亦可在外側面實施成爲 φ 螢光色之塗裝處理。 (e) 在前述實施形態,把手部32係藉由軟木所形成 ,但把手部32的材質不限於此,亦可如圖10所示’例如 藉由彈性體、氯平橡膠等的合成樹脂、胺甲酸乙酯軟質聚 氯乙烯(PVC )等的彈性體樹脂來形成,亦可如圖11所 示,藉由鋁合金來形成。 【圖式簡單說明】 圖1係採用本發明之一實施形態的紡車式捲線器的側 -21 - 201012390 面圖。 圖2係前述紡車式捲線器雙軸承捲線器的平面部分斷 面圖。 圖3係操作桿把手的斷面放大圖。 圖4係前述操作桿把手的分解斜視圖。 圖5係前述操作桿把手的組裝斜視圖。 圖6係前述操作桿把手的圖3之A— A斷面圖。 圖7係其他實施形態之相當於圖5的圖。 圖8係其他實施形態之相當於圖5的圖。 圖9係其他實施形態之相當於圖5的圖。 圖1〇係其他實施形態之相當於圖3的圖。 圖11係其他實施形態之相當於圖3的圖。 圖12係採用本發明之其他實施形態的雙軸承捲線器 的平面部分斷面圖。 圖13係採用本發明之其他實施形態的單軸承捲線器 的斷面圖。 【主要元件符號說明】 1 :操作桿組裝體 2 :捲線器本體 3 :轉子 4 :捲筒 2 1 :操作桿臂 22 :把手軸 -22- 201012390 23 :操作桿把手 3 1 :筒狀部 3 1 a ·本體同部 31b :旋轉停止部 3 1 c :母螺紋部 31d :凸部 31e :筒部 φ 32 :把手部 32a :把手本體 32b :第1把手本體 32c :第2把手本體 3 3 :蓋構件 3 3 a :公螺紋部 33b :頭部 33c :卡止部 φ 34 :環狀部 34a :非圓形孔 34b :圓形孔 34c :切削加工部 -23201012390 6. TECHNOLOGICAL FIELD OF THE INVENTION The present invention relates to an operating lever handle, and more particularly to an operating lever that is rotatably mounted to a handle shaft that is fixed to a front end of an operating lever arm of a fishing reel handle. [Prior Art] φ The operation lever assembly is fixed to the front end of the operation lever shaft of a fishing reel such as a spinning reel or a double-bearing reel. The operating lever assembly includes: an operating lever arm that is non-rotatably mounted to the front end of the operating lever shaft; a handle shaft that is non-rotatably fixed to the front end of the operating lever arm; and an operating lever handle that is rotatably mounted to the handle shaft . Such a lever handle has a tubular portion rotatably supported by the handle shaft, and a drum-shaped handle portion provided to cover the outer circumference of the tubular portion. The tubular portion is rotatably attached to the handle shaft so as not to be movable in the axial direction, and the screw is fixed to the front end portion of the handle shaft. In such a lever handle, it is known that the handle portion is processed by a synthetic resin such as an elastic body or a cork, and then fixed to the entire outer peripheral portion of the tubular portion (for example, refer to Patent Document 1). ). [Problem to be Solved by the Invention] The lever handle of the conventional fishing reel is formed by synthesizing -5 - 201012390 resin, cork, etc. Since the formed handle portion is fixed to the entire outer peripheral portion of the tubular portion, the entire handle portion is exposed to the outside. However, in the conventional structure in which the entire handle portion is exposed to the outside, in particular, since the base end portion of the handle portion is close to the lever arm, when the sway is caused by the use for a long time, the base end portion of the handle portion is The operation of the lever arm is generated. When the base end portion of the handle portion is in contact with the lever arm, when the handle portion is formed of a soft resin such as an elastic body, the handle portion is in contact with the lever arm, which hinders the lever handle. The sleek rotation, or the case where the handle portion is formed of a natural material such as cork, is weak, so that the handle portion itself is worn and breaks. The object of the present invention is to maintain the smooth rotation of the lever handle and the wear of the lever handle for the lever handle of the fishing reel. [Means for Solving the Problem] The lever handle of the fishing reel of the invention 1 is rotatably attached to the lever handle of the handle shaft fixed to the front end of the lever arm of the fishing reel, and is characterized The cylindrical portion made of synthetic resin that is rotatably attached to the outer peripheral side of the handle shaft is provided; the outer side surface is exposed to be attached to the proximal end portion of the tubular portion, and the outer surface is subjected to cutting processing. The annular portion made of metal; and the front end portion of the tubular portion to the front end portion of the annular portion are attached to the handle portion of the outer peripheral portion of the tubular portion. Here, the lever handle is mainly provided with a cylindrical portion made of synthetic resin; -6-201012390 is provided separately from the tubular portion and the handle portion, and a metal annular portion having a cutting process is formed on the outer surface. Here, since the metal annular portion is provided between the lever arm and the handle portion, even if the spring is caused by the use of the long-term use, the handle can be made only by the metal annular portion being in contact with the lever arm. The contact of the base end portion of the portion with the lever arm disappears. Therefore, even if the handle portion is formed of, for example, synthetic resin such as an elastic body, cork or the like, the base end portion of the handle portion is not in contact with the lever arm, and the smooth rotation of the lever handle can be maintained. The wear of the lever handle can also be suppressed by the annular portion made of metal. In addition, since the annular portion is provided separately from the tubular portion and the handle portion, for example, even if the outer shape of the handle portion is drum-shaped, it is easy to be different from the tubular portion and the handle portion. The metal annular portion such as an aluminum alloy is subjected to cutting processing, and the metal-made annular portion subjected to the cutting process is exposed to the outside, whereby the design property can be improved. Here, the tubular portion is made of a synthetic resin such as EVA resin, and the handle portion and the tubular portion are formed by a metal such as φ aluminum alloy, and the material of the handle portion is not affected. The entire operating lever is lightened. The lever handle of the invention 2 is the lever handle of the invention 1, wherein the annular portion is fixed to the base end portion of the tubular portion in a rotationally fixed manner. In this case, since the annular portion is fixed to the tubular portion, the handle of the operating lever can be operated even if the fisherman mistakenly grasps the annular portion. The lever handle of the invention of claim 3 is the lever handle of the invention, wherein the tubular portion has a engaging portion formed at a base end portion having a larger diameter than the outer diameter of the other portion and having a non-circular outer shape. The annular portion has an engaged portion that is non-circular in shape, 201012390 and engageable with the engaging portion. In this case, the two members can be fixed in a relatively simple manner by engaging the non-circular engaging portion of the tubular portion with the engaged portion of the annular portion. The operating lever handle according to any one of Inventions 1 to 3, wherein the annular portion has a groove portion formed by recessing the outer shape in the circumferential direction. In this case, since the annular portion is provided separately from the handle portion, the groove portion can be easily formed by cutting. The lever handle of the invention of claim 5 is the lever handle of any one of the inventions 1 to 4, wherein the knurling is performed on the outer side surface of the annular portion. In this case, since the annular portion is provided separately from the handle portion, it is easy to perform the knurling process as the cutting process and the knurling process of the zigzag groove portion can improve the design. . The operating lever handle according to any one of Inventions 1 to 5, wherein the annular portion is attached to the base end portion of the tubular portion. In this case, for example, by fixing the two members in a non-circular shape, the fixing of the annular portion and the tubular portion can be made stronger. The lever handle of the invention of the invention of the invention of the invention of the invention of the invention of In this case, by attaching a handle such as a synthetic resin such as an elastomer or cork, it is easy to attach the handle portion. The operating lever handle of the invention of claim 8 is the operating lever handle of any one of the inventions 1 to 7, wherein the handle portion is formed by any one of synthetic resin and cork. In this case, the handle portion is formed by any one of a lighter amount of synthetic resin and cork, and the operating lever can be lighter than the case where the handle portion and the tubular portion are made of -8 - 201012390 metal. Quantify. The operation lever handle according to any one of the first to eighth aspects of the present invention, wherein the handle portion has: a first handle portion disposed on a side of the base end portion; and a handle portion disposed on the side of the front end portion 1 The second handle portion formed by different materials of the handle portion. In this case, the first handle portion and the second handle portion are used to have different colors, and the design can be improved. The lever handle of the invention 10 is the lever handle of the invention 9, wherein the second handle portion is attached to the outer side surface, and the coating process of the fluorescent color is performed. In this case, the second handle portion is coated by, for example, a fluorescent paint, whereby the appearance of the second handle portion is characterized, and the design can be improved. The operating lever handle according to any one of the inventions 1 to 10, wherein the annular portion is made of an aluminum alloy. In this case, it is easy to perform the cutting process of the annular portion made of an aluminum alloy. The operation lever handle according to any one of Inventions 1 to 1 wherein the 'annular portion is formed with an anodized coating film produced by anodizing treatment on the surface. In this case, the anodic oxide coating film formed by the anodizing treatment is formed on the surface after the cutting process is performed on the annular portion, whereby the corrosion resistance can be improved and the high strength of the annular portion can be maintained. The operating lever handle of the invention of claim 1 is the operating lever handle of any one of Inventions 1 to 2 wherein the fishing reel is a spinning reel. In this case, the operating lever handle of the spinning reel can reduce the weight of the entire operating lever and improve the workability of the operating lever. The operating lever handle of the invention of any one of Inventions 1 to 12, wherein the fishing reel is a double-bearing reel. In this case, the lever handle of the double-bearing reel can reduce the weight of the entire operating lever and improve the workability of the operating lever. The operating lever handle according to any one of Inventions 1 to 2, wherein the fishing reel is a single-bearing reel. In this case, in the case of the lever handle of the single-bearing reel, the weight of the entire operating lever can be reduced, and the workability of the operating lever can be improved. According to the present invention, the lever handle for the fishing reel is provided with a cylindrical portion made of synthetic resin, and is provided separately from the tubular portion and the handle portion, and is cut on the outer side surface. Since the annular portion of the machined aluminum alloy is used, the smooth rotation of the lever handle can be maintained, and the wear of the lever handle can be suppressed. [Embodiment] A spinning reel according to an embodiment of the present invention includes an operation lever assembly 1 and a reel body 2 that rotatably supports the operation lever assembly 1 as shown in Figs. 1 and 2 . Rotor 3; and reel 4. The rotor 3 is for winding the fishing line around the reel 4 and is rotatably supported by the front portion of the reel body 2. The reel 4 is a member in which the fishing line is wound around the outer peripheral surface, and is disposed in the front portion of the rotor 3 so as to be movable forward and backward. Further, the operation lever assembly 1 can be attached to either one of the right side (see FIG. 1) of the reel body 2 and the left side (see FIG. 2) of -10-201012390, on the side where the 1 is not installed ( In Fig. 2, the right side of the reel body 2) is a bolt member 19 of the cover. As shown in FIG. 2, the operating lever assembly 1 has: an operating lever arm 21 provided at the front end of the operating lever shaft portion 7, a handle shaft 22 at both ends of the solid 21; and a freely rotatable and non-movably mounted handle. The lever handle 23 of the shaft 22. The φ operating lever arm 21 is, for example, an aluminum member, and the one end (lower side end portion in Fig. 2) of the lever arm 21 is slightly folded toward the opposite side of the reel body 2, as shown in Fig. 2, for example. The other end (the upper end portion of FIG. 2) of the front end portion (the left end portion of FIG. 2) 21 of the lever shaft portion 7 in the direction in which the reel body 2 is in contact with and separated from the reel body 2 is disposed with a handle shaft that is fixed in parallel. twenty two. As shown in an enlarged view of FIG. 3, the handle shaft 22 is a metal shaft which is disposed along a rotation axis parallel to the radish (see FIG. 2) and is made of gold or the like, and has a thread portion 22a formed at the base end. The other end face (;: the second screw hole 22b. The portion 22a is screwed to the first screw hole 21c adjacent to the tool male screw portion 22a formed with a larger diameter than the other portion, and is fixed to the operating lever by the hand shaft 22. The arm 21 has a bearing 30a, 30b disposed on the outer peripheral portion of the parallel chamfering hand shaft 22 of the tool that engages the squeezing hand or the like, and the tool locking portion 22c. The 30a operating lever assembly is formed by a rod-shaped bend that is non-rotatably attached to the operating lever arm and can be alloyed in the axial direction. It is coupled to the swinging arm by a bolt structure. Rod shaft portion 7. The operating lever shaft portion 7 is, for example, a stainless steel joint smaller than a smaller diameter, and a male screw locking portion 22c. This screwing means that the outer peripheral surface portion 22d of the 22c is placed on the outer peripheral portion 30b of the front end. Operation -11 - 201012390 The lever handle 23 is rotatably supported by the handle shaft 22. Bearing 3 0b The bolt member 28 attached to the second screw hole 22b is not movably moved in the axial direction. The bolt member 28 fixes the lever handle 23 to the handle shaft 22 via the bearing 30b'. As shown in FIG. 3 to FIG. 6 , the lever handle 23 has a cylindrical portion 31 made of synthetic resin that is rotatably and movably movable in the axial direction, and covers the outer peripheral side of the tubular portion 31. The handle portion 32 of the cork which is subsequently fixed is attached; the cover member 33 which seals the opening of the front end portion of the handle portion 32; and the outer end surface are exposed to the base end portion of the tubular portion 31, and on the outer side An annular portion 34 made of an aluminum alloy having a cutting process is performed. The tubular portion 31 has a main tubular portion 31a that is rotatably attached to the outer peripheral side of the handle shaft 22 as shown in Figs. 3 to 6; On the outer circumference of the end portion of the side of the operation lever arm 21 (left side of FIG. 3) of the main body cylindrical portion 3 1 a, the rotation stopping portion 31b for stopping the rotation of the main body cylindrical portion 31a is formed to be operated toward the main cylinder portion 3 1 a Female thread portion 31c at the end of the opposite side of the lever arm 21 (the right side of FIG. 3): toward the body tubular portion 31a The convex portion 31d which is formed to protrude from the outer peripheral portion; and the tubular portion 3e that is fitted into the inner peripheral portion of the main body tubular portion 31a. The main tubular portion 31a is a hard resin cylindrical member such as EVA resin, and the tubular portion 31e is formed by the tubular portion 31e. The insert molding is integrally formed. The bearings 30a and 30b are attached to the inner circumference of the main body tubular portion 31a, whereby the tubular portion 31 is freely rotatable to the handle shaft 22 by the bearings 30a and 30b'. 31b is integrally formed on the outer periphery of the base end portion (left side in FIG. 3) of the main body tubular portion 31a so as to have a larger diameter than the other portion 201012390 of the main tubular portion 31a, and is attached when the annular portion 34 to be described later is attached. In combination with the non-circular hole 34a formed on the inner peripheral side of the annular portion 34, the outer shape is formed into an octagonal non-circular shape, and the female screw portion 31c is formed at the front end portion of the main body cylindrical portion 31a (Fig. The screw hole of the inner circumference of the right side of 3 is screwed to the male screw portion 33a of the cover member 33 to be described later. As shown in FIGS. 3 and 4, the convex portion 31d is formed along the 0-axis direction (longitudinal direction) of the main tubular portion 31a, and as shown in FIG. 6, is arranged at equal intervals in eight locations in the circumferential direction. Highlights. Here, when the handle main body 32a of the handle portion 32 to be described later is press-fitted by the convex portion 3 Id, the outer peripheral portion of the convex portion 31d comes into contact with the inner circumference of the handle main body 32a, whereby the handle main body 32a can be opposed to the main body barrel The rotation stop and the fall prevention fixing cylinder portion 31e are cylindrical members formed by cutting the aluminum alloy, and are fitted into the inner peripheral portion of the main body tubular portion 31a. Here, by the tubular portion, the entire body can be made lighter, and the deformation of the main tubular portion 31a can be suppressed. As shown in Figs. 3 to 6, the handle portion 32 has a handle body 32a which is a flat rod-shaped tubular member which is longer in the direction of the rotation axis than the length in the radial direction of the rotary shaft. The handle main body 32a is a cylindrical member which is fixed to the main body from the front end portion (the right side in FIG. 3) of the main body cylindrical portion 31a toward the base end portion (the left side in FIG. 3) of the main body cylindrical portion 31a in contact with the rotation stopping portion 31b. The outer peripheral side of the tubular portion 31a. The handle main body 32a is formed of cork, and is press-fitted from the front end portion of the main body cylindrical portion 31a toward the front end portion of the annular portion 34 from the -13 to 201012390 to the outer peripheral portion of the main body tubular portion 31a. The handle portion 32 to which the handle main body 32a is fixed to the main body cylindrical portion 31a between the inner peripheral portion of the handle main body 32a and the outer peripheral portion of the main body cylindrical portion 31a is narrowed in the center portion in the direction of the rotation axis. The shape is formed on the opposite main surface 'with a grip surface that is smoothly curved inward along the direction of the rotation axis. The gripping surface is formed into a deformed rectangular shape to help match the finger end of the right hand when gripping. The handle main body 32a has a flat shape in which the thickness is different depending on the cutting direction, and is formed in a symmetrical shape via the handle shaft 22. A cover member 33 for sealing the opening is attached to the opening of the front end portion (the right side of Fig. 3) of the handle body 2 2a. As shown in FIGS. 3 to 5, the cover member 33 has a male screw portion 33a that can be screwed to the female screw portion 31c of the inner peripheral portion of the front end portion (the right side of FIG. 3) of the tubular portion 31; The outer diameter of the portion 33a is larger and can be in contact with the front end portion (the right side of FIG. 3) of the handle body 32a, thereby sealing the opening head 33b of the male thread portion 33a; and the tool locking formed on the head portion 33b The locking portion 33c. The cover member 33 is attached to the handle shaft 22 by the bolt member 28Q, and then attached to the front end portion (the right side in Fig. 3) of the handle body 32a. As shown in Figs. 3 to 5, the annular portion 34 is attached to the proximal end portion of the main tubular portion 31a so that the outer surface is exposed, and an annular member made of an aluminum alloy having a cutting process is formed on the outer surface. In the inner peripheral portion of the annular portion 34, a non-circular hole 34a having a large diameter at the proximal end portion side and a circular hole 34b having a small diameter at the distal end portion side are formed. The non-circular hole 3 4 a is formed into an octagonal non-circular shape in a shape of an inner shape of -14,2010,390, in a manner similar to the outer shape of the rotation stop portion 3 1 b, when the annular portion 34 is mounted When it is provided in the tubular portion 31, it is engaged with the rotation stopping portion 31b. Here, by engaging the non-circular rotation stopping portion 31b of the tubular portion 31 with the non-circular hole 34a of the annular portion 34, the two members can be fixed with a simple structure without being relatively rotatable. As shown in Figs. 3 to 5, the outer surface of the annular portion 34 has a cutting portion 34c formed by cutting processing before assembling the tubular portion 31 and the handle portion 32. The cut portion 34c has a groove portion in which the outer shape is recessed in the radial direction φ (the direction in which the annular portion 34 is installed). Here, it is easy to cut the annular portion 34 made of an aluminum alloy different from the tubular portion 31 and the handle portion 32. After the cut portion 34c formed by the cutting process is formed on the surface of the annular portion 34, the anodized aluminum oxide treatment is performed to form an oxygenated aluminum layer as an anodized coating film. Here, by forming the oxygen bark aluminum layer produced by the oxyaluminum treatment on the surface of the annular portion 34, the corrosion resistance can be improved and the strength of the annular portion 34 can be maintained high. As shown in FIG. 2, the operation lever assembly 1 further includes an inner peripheral portion that is not rotatably attached to the main gear shaft 10, and the front end portion protrudes outward from the front end portion of the main gear shaft 10 in the axial direction. As shown in FIG. 2, the operation lever shaft portion 7 is disposed in a through-hole which is formed in a non-circular shape such as a rectangle and which is non-rotatable and movable in the axial direction and is attached to the main gear shaft 1〇. . The end portion of the operation lever shaft portion 7 (the right end portion in FIG. 2) is formed with a female screw portion on the inner peripheral side, and the male screw portion of the bolt member 19 with the cover is screwed to the through hole. The female screw portion ' of the lever shaft portion 7 allows the operation lever shaft portion 7 to be prevented from falling off and fixed to the main gear shaft 10. Further, -15-201012390, at the front end portion (the left end portion in Fig. 2) of the operation lever shaft portion 7, the lever arm 21 is fixed by the bolt member 20. As shown in FIGS. 1 and 2, the reel body 2 includes a reel body 2a having an opening, and a cover member 2b detachably attached to the reel body 2a for sealing the opening; the cover member 2b a mounting leg 2c extending obliquely upward and forward; and a covering member 2d (see FIG. 1) mounted over the entire range from the rear to the lower portion of the reel body 2a and the cover member 2b. The reel body 2a has a space inside. The rotor 3 is a cylindrical portion 30 as shown in Fig. 1, and a first rotor arm and a second rotor arm which are disposed opposite to each other on the side of the cylindrical portion 30. The cylindrical portion 30 is integrally formed with the first rotor arm and the second rotor arm. As shown in FIG. 1, the first rotor arm is curved convexly outward from the cylindrical portion 30 toward the outside and extends forward. The first release ring support member 40 is slidably attached to the outer peripheral side of the tip end of the first rotor arm. At the front end of the first reel support member 40, a wire roller 41 for guiding the fishing line to the reel 4 is mounted. The second rotor arm is curved convexly outward from the cylindrical portion 30 and extends forward. The second release ring support member 42 is rotatably attached to the outer peripheral side of the distal end of the second rotor arm. A release ring 43 that bends the wire in a substantially U-shape is fixed between the linear roller 41 and the second release ring support member 42. The wire releasing arm 44 is constituted by the first wire release ring supporting member 40, the second wire releasing ring supporting member 42, the wire roller 41, and the wire releasing ring 43'. The release collar arm 44 is free to swing between the line guiding posture and the line opening posture in which the posture is reversed. As shown in Fig. 1, the spool 4 is disposed between the first rotor arm of the rotor 3 and the second rotor arm of 201012390, and is attached to the front end of the spool shaft 15 via the drag mechanism 60. Next, the operation and operation of the reel will be described. When the fishing line is repeatedly thrown, the fishing line is repeatedly taken out from the reel body 2, and when the release ring arm 44 is reversed, the first release ring support member 40 and the second release ring support member 42 are engaged. By swinging, the release ring arm 44 can be made into a fishing line open position. In this state, the food φ that holds the hand of the fishing rod refers to the side while hooking the fishing line. Thus, the fishing line is strongly released toward the front by the shape of the fishing group. When the operation lever assembly 1 is rotated in the winding direction, the rotor 3 is rotated in the winding direction by a rotor drive mechanism (not shown), and the release ring arm 44 is reversed by a release ring (not shown). The mechanism is restored to the winding position, and the fishing line is wound around the reel 4. The operation lever handle 23 of the spinning reel is provided with a cylindrical portion 31 made of synthetic resin, and an aluminum alloy which is provided separately from the tubular portion 31 and the handle portion 32 and which is cut on the outer side surface. Annular portion 34 • . Here, since the annular portion 34 made of aluminum alloy is provided between the handle portions 32 of the lever arm 21 t, even if the sway is caused by the use for a long period of time, only the annular portion 34 made of aluminum alloy is in contact with the operation. The lever arm 21 can eliminate the fact that the base end portion of the handle portion 32 comes into contact with the lever arm 21. Therefore, even when the handle portion 32 is formed of cork, the base end portion of the handle portion 32 does not come into contact with the lever arm 21, and the smooth rotation of the lever handle 23 can be maintained, or can be made of aluminum alloy. The annular portion 34 suppresses abrasion of the lever handle 23. Therefore, the smooth rotation of the lever handle 23 can be maintained, and the wear of the lever handle 23 can be suppressed. -17- 201012390 [Other Embodiments] (a) In the above embodiment, the spinning reel is taken as an example. However, the present invention is also applicable to the double bearing reel shown in Fig. 12, as shown in Fig. 13. The lever handle of the fishing reel of other forms such as the single-bearing reel shown. Further, the operating lever gripping member of the present invention is not limited to the double operating lever, and is also applicable to a single operating lever. A double-bearing reel according to another embodiment of the present invention, as shown in Fig. 12, is a short-back type reel for bait casting. The double-bearing reel includes a reel body 101, an operation lever assembly 102 for rotating the reel disposed on the side of the reel body 101, and a rotatably and detachably attached to the reel body 101. The inner reel 112 is used for winding. On the side of the reel body 101 of the operation lever assembly 102, a star-shaped fishing force valve 103 for drag adjustment is provided. The reel body 101 has a frame 105, and a first side cover 16a and a second side cover 106b which are mounted on both sides of the frame 105. Further, the reel body 101 has a front cover 107 covering the front of the frame 105; and a thumb rest 108 covering the upper portion. The frame 105 has a pair of the first side plate 10a and the second side plate 10b, which are disposed opposite to each other at a predetermined interval, and a first side plate 105a and the second side plate 105b. Multiple links. The frame 105 can be attached to the fishing rod by a fishing rod mounting portion (not shown) provided at the lower connecting portion. Inside the reel body 101, a reel 112 disposed in a direction intersecting the fishing rod, and a uniform winding mechanism (not shown) for equally winding the fishing line to the reel 112-18-201012390 are disposed; A rotation transmission mechanism (not shown) for transmitting the rotation of the operation lever assembly 102 to the spool. The rotation transmission mechanism is provided with an operation lever shaft 120 to which the operation lever assembly 102 is attached at the distal end, and is used for conveying and blocking (on, off) the rotation of the operation lever assembly 1〇2. A clutch mechanism (not shown) and a towing mechanism (not shown). The lever shaft 120 is rotatably supported by the reel body 101. At the rear of the frame 105, the clutch mechanism can be turned on and off, and the clutch lever 117 which becomes the thumb pressing region can be rotatably mounted. The operation lever assembly 102 includes an operation lever arm 121 attached to the front end of the operation lever shaft 120, and an operation lever handle 123 attached to the front end of the operation lever arm 121. The lever handle 123 is attached to the handle shaft 122 so as to be rotatable and cannot be moved in the axial direction, and is a tubular portion 131 made of synthetic resin; and is fixed to cover the outer peripheral side of the tubular portion 131. a wooden handle portion 132; a cover member 133 for closing the opening φ of the front end portion of the handle portion 132; and a base end portion of the tubular portion 131 so as to be exposed to the outer side surface, and having a cutting process on the outer side surface An annular portion 134 made of aluminum alloy. Incidentally, the configuration of the lever handle 123 is the same as that of the above-described embodiment, and the numeral 100 is the same, and the detailed description thereof will be omitted. The lever handle 123 of the double-bearing reel is provided with a cylindrical portion 131 made of synthetic resin as in the above-described embodiment, and is provided separately from the tubular portion 131 and the handle portion 132, and is implemented on the outer surface. Since the annular portion 134 made of a machined aluminum alloy is provided, the smooth rotation of the lever handle 123 of the operation -19-201012390 can be maintained, and the wear of the lever handle 123 can be suppressed. A single-bearing reel according to another embodiment of the present invention is provided with a reel body 201, a reel shaft 202 that can be supported by the reel body 201, and a reel shaft 02 The reel is rotatably disposed, and the reel 203 of the fishing line is wound around the outer circumference. The reel 203 has a cylindrical bobbin main body portion 215, and a disk-shaped inner flange 216 integrally formed with one end portion of the winding main body portion 215 to cover the reel body. The opening portion of the 20" is attached to the outer end flange 217 of the other end portion of the winding main body portion 215. On the outer surface of the outer flange 217, an operation lever handle 223 is attached to the outer periphery. The lever handle 22 3 has: a cylindrical portion 231 which is attached to the handle shaft 222 and which is not movably moved in the axial direction and which is made of a synthetic resin; a handle portion 232 of the cork which is fixed to cover the outer peripheral side of the tubular portion 23 1; The cover member 23 3 that closes the opening of the front end portion of the handle portion 232 is attached to the base end portion of the tubular portion 231 so that the outer surface is exposed, and the annular portion 23 made of aluminum alloy having a cutting process is formed on the outer surface. 4. The structure of the lever handle 22 3 is the same as that of the above-described embodiment, and the numeral is the same as the numeral 200. The detailed description is omitted. The lever handle 223 of the double-bearing reel is attached. Similar to the above embodiment The tubular portion 23 1 made of synthetic resin is provided, and the annular portion 234 made of aluminum alloy having a cutting process is provided on the outer surface of the cylindrical portion 23 1 and the tubular portion 23 1 and the handle portion 232. By maintaining the smooth rotation of the lever handle 223, it is possible to suppress the wear of the lever handle 223 of the operating lever 223. (b) In the above embodiment, the cylindrical portion 31e of the tubular portion 31 is fitted into the body portion of the hard resin. 31a is configured to be a structure in which a metal tubular portion is not provided. The material of the tubular portion 31 is not limited thereto, and may be formed of a synthetic resin other than EVA resin. (c) In the above embodiment The cut portion 34c is a groove portion formed by being recessed in the radial direction. However, the cut portion 34c φ may be a groove portion formed by recessing the outer shape in the circumferential direction as shown in Fig. 7, for example. Alternatively, as shown in Fig. 8, the groove portion in the form of a saw tooth formed by knurling may be formed. (d) In the above embodiment, the handle portion 32 is formed by one member, but may be as shown in the figure. As shown in Fig. 9, it has a configuration: it is disposed on the side of the base end. The first handle portion 32b is disposed on the front end portion side and is formed of a material having a different color from the first handle portion 32b as a second handle portion 32c of a different color. As shown in Fig. 9, the second handle portion 32c is provided. The coating process of φ fluorescent color may be performed on the outer side surface. (e) In the above embodiment, the handle portion 32 is formed of cork, but the material of the handle portion 32 is not limited thereto, as shown in FIG. For example, it is formed of an elastomer resin such as an elastomer, a chloro flat rubber, or an elastomer resin such as urethane soft polyvinyl chloride (PVC), or may be formed of an aluminum alloy as shown in Fig. 11 . BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side view of a side of a spinning reel according to an embodiment of the present invention, taken on the side of the 21 - 201012390. Fig. 2 is a plan sectional view showing the above-described spinning reel double bearing reel. Figure 3 is an enlarged cross-sectional view of the handlebar handle. Figure 4 is an exploded perspective view of the aforementioned lever handle. Fig. 5 is an assembled perspective view of the aforementioned lever handle. Figure 6 is a cross-sectional view taken along line A-A of Figure 3 of the aforementioned lever handle. Fig. 7 is a view corresponding to Fig. 5 of another embodiment. Fig. 8 is a view corresponding to Fig. 5 in another embodiment. Fig. 9 is a view corresponding to Fig. 5 in another embodiment. Fig. 1 is a view corresponding to Fig. 3 of another embodiment. Fig. 11 is a view corresponding to Fig. 3 of another embodiment. Fig. 12 is a plan sectional view showing a double-bearing reel according to another embodiment of the present invention. Figure 13 is a cross-sectional view showing a single-bearing reel according to another embodiment of the present invention. [Description of main component symbols] 1 : Operating lever assembly 2 : Reel body 3 : Rotor 4 : Reel 2 1 : Operating lever arm 22 : Handle shaft -22 - 201012390 23 : Operating lever handle 3 1 : Cylindrical portion 3 1 a main body same portion 31b: rotation stop portion 3 1 c : female screw portion 31d : convex portion 31e : tubular portion φ 32 : grip portion 32 a : handle main body 32 b : first handle main body 32 c : second handle main body 3 3 : Cover member 3 3 a : male thread portion 33b : head portion 33 c : locking portion φ 34 : annular portion 34 a : non-circular hole 34 b : circular hole 34 c : cutting portion -23