200800012 (1) 九、發明說明 【發明所屬之技術領域】 本發明,是關於連結構件,特別是釣魚用捲線器的連 結構件,被使用於釣魚用捲線器且不可相對旋轉地連結於 被設在軸構件外周的非圓形部。 【先前技術】 在紡車式捲線器或雙軸承捲線器等的釣魚用捲線器中 ,爲了防止過剩的拉伸力作用於釣線而切斷釣線,所以設 有牽引機構。習知的牽引機構,例如紡車式捲線器的情況 ,具有:與捲筒軸(軸構件的一例)不可相對旋轉地連結 的第1牽引墊圈、及可與捲筒一體旋轉地連結的第2牽引 墊圈,可制動捲筒。且,雙軸承捲線器的情況,具有與手 把軸(軸構件的一例)不可旋轉地連結的牽引墊圈(連結 構件的一例),藉由牽引墊圈制動可與捲筒一體旋轉地連 結的主齒輪。 在紡車式捲線器及雙軸承捲線器其中之一的軸構件的 外周面形成供不可旋轉地連結牽引墊圈用的例如相互平行 的1對錐面部(非圓形部的一例)。在牽引墊圈中,卡合 於非圓形部的非圓形孔是形成於中心。 在這種的牽引機構中,液體滲入牽引墊圈的摩擦面的 話牽引機構的牽引力有可能變動。在此,習知在與第1牽 引墊圈接觸的牽引旋鈕的按壓構件的外周部配置密封構件 (例如,專利文獻1參照)。習知的牽引機構的牽引旋鈕 -4- 200800012 (2) ,是具有:具有不可旋轉地卡合於非圓形部的非圓形孔且 不可相封旋轉地連結於捲同軸之按壓構件(連結構件的一 例)、及與按壓構件可相對旋轉自如地連結並與捲筒軸螺 合的操作構件。而且,在按壓構件及捲筒之間配置有密封 構件。藉由此密封構件,可以防止液體從捲筒及牽引旋鈕 的外周面的間隙滲入牽引機構。 [專利文獻1]日本特開平11-196729號公報 【發明內容】 (本發明所欲解決的課題) 在前述習知的結構中’可以防止液體從捲筒及牽引旋 鈕的按壓構件的外周面的間隙滲入。但是,不易防止按壓 構件的中心部分及捲筒軸的間隙滲入。即,在按壓構件中 因爲形成非圓形孔,所以不易密封此非圓形孔及捲筒軸的 外周面的間隙。即使,將卡合於非圓部的密封構件配置於 ® 非圓形孔及非圓形部之間的話,雖可以密封。但是,牽引 作動時力量隔著第1牽引墊圈作用於按壓構件時密封構件 有可能變形。 本發明的課題’是對於釣魚用捲線器的連結構件,可 抑制力量作用於連結構件時的密封構件的變形,確實地密 封軸構件及連結構件之間的間隙。 (用以解決課題的手段) 發明1的釣魚用捲線器的連結構件,是使用於釣魚用 -5- 200800012 (3) 捲線器’且不可相對旋轉地連結於被設在軸構件外周的非 圓形部,具備:本體構件、及密封構件。本體構件,是具 有不可旋轉地卡合於非圓形部的非圓形孔。彈性體製構件 密封構件’是具有在非圓形孔朝軸方向並列配置,並可與 非圓形孔接觸的密封孔,且設置於本體構件。 在此連結構件中,本體構件的非圓形孔卡合於軸構件 的非圓形部使連結構件不可旋轉地連結於軸構件的非圓形 φ 部。且’密封構件的密封孔接觸非圓形部來與密封非圓形 部的非圓形孔之間的間隙。在此,因爲軸方向並列配置: 卡合於非圓形部的非圓形孔、及接觸並密封非圓形部的密 封構件,所以可以確實密封軸構件及連結構件之間的間隙 ,並且因爲非圓形孔卡合於非圓形部,所以牽引作動時其 力量作用於連結構件時可以抑制密封構件變形。 發明2的釣魚用捲線器的連結構件,是如發明1的構 件,密封構件,是藉由嵌入成型與本體構件一體形成。這 • 種情況密封構件因爲與本體構件一體形成,所以密封構件 不易從本體構件脫落。 發明3的釣魚用捲線器的連結構件,是如發明1或2 的構件,非圓形部具有相互平行配置的1對錐面部,非圓 ' 形孔具有與錐面部卡合的1對卡合面之孔。這種情況,藉 由加工非圓形部可以精度佳地形成,並且藉由將非圓形孔 成形可以精度佳地形成。 發明4的釣魚用捲線益1的連結構件,是如發明1至3 的任一的構件,本體構件,是配置於作爲軸構件的紡車式 -6 - 200800012 (4) 捲線器的捲筒軸的周圍。這種情況,對於紡車式捲線器的 連結構件,可以確實防止液體從捲筒軸及連結構件之間的 間隙滲入牽引機構。 發明5的釣魚用捲線器的連結構件,是如發明4的構 件,本體構件,是裝設於不可旋轉且可裝卸自如地連結於 紡車式捲線器的捲筒軸的作爲軸構件的筒狀的捲筒支撐軸 。這種情況,因爲在可裝卸自如地裝設於捲筒軸的捲筒支 φ 撐軸裝設有墊圈構件,所以將捲筒安裝於捲筒支撐軸的狀 態下藉由從捲筒軸裝卸,就可在維持牽引力的狀態下交換 捲筒。 發明6的釣魚用捲線器的連結構件,是如發明1至3 的任一的構件,本體構件,是配置於雙軸承捲線器的手把 軸的周圍。這種情況,對於雙軸承捲線器的星狀牽引器機 構,可以確實防止液體從手把軸及連結構件之間的間隙滲 • 發明7的釣魚用捲線器的連結構件,是如發明1至6 的任一的構件,在密封孔中形成環狀的唇緣部,其可抵接 於非圓形部的突出先端比非圓形孔小且尖。這種情況,藉 由讓先端尖的唇緣接觸於軸構件,與軸構件的滑動阻力就 會減小,可以平順地裝卸連結構件,並且將連結構件使用 於牽引旋鈕的情況時,將牽引旋鈕朝鬆弛方向旋轉時牽引 力可平順地減少。 (發明之效果) •Ί - 200800012 (5) 依據本發明,因爲朝軸方向並列配置:卡合於非圓形 部的非圓形孔、及接觸並密封非圓形部的件密封構件,所 以可以確實地密封軸構件及連結構件之間的間隙,並且因 爲非圓形孔卡合於非圓形部,所以牽引作動時其力量作用 於連結構件時可以抑制密封構件變形。 【實施方式】 [整體結構] 在第1圖,採用本發明的一實施例的紡車式捲線器, 是具備:可裝設於釣竿的捲線器本體2、及朝左右軸周圍 可旋轉自如地裝設在捲線器本體2之操作桿組裝體1、及 轉子3、及捲筒4。轉子3,是與操作桿組裝體1的旋轉連 動而旋轉並將釣線朝捲筒4導引,朝前後軸周圍可旋轉自 如地支撐於捲線器本體2的前部。捲筒4,是藉由轉子3 被導引將釣線捲取於外周面,朝前後軸X方向可往復移動 自如地配置於轉子3的前部。 捲線器本體2,是具有:構成捲線器本體2的主體部 的捲線器外殼2a、及從捲線器外殼2a朝斜上前方一體延 伸的T字狀的竿安裝腳2b。 捲線器外殻2a,是在內部具有機構裝設用的空間,在 該空間內,如第2圖所示,設有:使轉子3與操作桿組裝 體1的旋轉連動而旋轉的轉子驅動機構5、及將捲筒4朝 前後移動並均一地捲取釣線用的擺動機構6 ° 轉子驅動機構5,是具有:將操作桿組裝體1裝設成 -8- 200800012 (6) 不可旋轉的主齒輪11、及與此主齒輪Π嚙合的小齒輪 。主齒輪π是平齒輪,與主齒輪軸1〇 —體或是分開形 。主齒輪軸1 〇,是在中心形成將操作桿組裝體1的手把 1 a卡止成不可旋轉的卡止孔1 〇a的例如不銹鋼製的中空 構件。主齒輪軸10的兩端,是隔著無圖示軸承可旋轉 如地支撐於捲線器外殼2 a。 小齒輪1 2,是筒狀的構件沿著前後方向配置可旋轉 φ 如地裝設於捲線器外殼2a。小齒輪12的前部12a,是 通轉子3的中心部,具有不可旋轉地連結轉子3及後述 向離合器51的連結部(無圖示)。在小齒輪12的前 12a螺合螺帽33,藉由此螺帽33將轉子3不可旋轉地 定於小齒輪1 2的先端部。 小齒輪1 2,是由軸方向的中間部及後端部各別隔著 承14a、14b可旋轉自如地支撐於捲線器外殼2a。捲筒 1 5貫通此小齒輪1 2的內部。小齒輪1 2 ’是嚙合於主齒 • 11並且也嚙合於擺動機構6。 轉子3,是具有:固定於小齒輪12的圓筒部30、 在圓筒部3〇的側方相互面對設置的第1及第2轉子臂 、3 2、及可擺動自如地裝設於兩轉子臂3 1、3 2將釣線 捲筒4導引用的導環臂40。圓筒部30及兩轉子臂31、 ,是例如由鋁合金製且一體成型。 在圓筒部30的前部形成前壁41,在前壁41的中心 形成朝後方突出的轂部42。在此轂部42的中心部形成 可旋轉地卡止於小齒輪1 2的貫通孔,小齒輪1 2的前 1 2 成 軸 的 白 白 貫 單 部 固 軸 軸 击a 皁冊 及 3 1 朝 32 部 不 部 -9- 200800012 (7) 12a及捲筒軸15是貫通此貫通孔。 逆轉防止機構50是鄰接配置於轉子3的圓筒部30的 轂部42。逆轉防止機構是具有:單向離合器51、及 將單向離合器5 1切換至作動狀態(反轉禁止狀態)及非 作動狀態(反轉許可狀態)的切換機構5 2。 單向離合器5 1,是內輪不可旋轉地裝設於小齒輪1 2 ,外輪不可旋轉地裝設於捲線器外殼2 a的前端部之內輪 φ 遊轉型的滾子形的單向離合器。 擺動機構6,是具有:平行配置於捲筒軸15的略正下 方的螺軸2 1、及沿著螺軸2 1朝前後方向移動的滑件22、 及固定於螺軸2 1先端的中間齒輪2 3。滑件22,是可移動 自如地支撐在配置於與螺軸2 1平行的二條導引軸(無圖 示)。捲筒軸1 5的後端是不可旋轉地固定在滑件22中。 中間齒輪23,是透過減速機構(無圖示)嚙合於小齒輪 12 〇 [捲筒的結構] 捲筒4,如第2圖所示,是深溝形並配置於轉子3的 第1轉子臂31及第2轉子臂32之間。捲筒4,是藉由單 觸裝卸機構65可裝卸自如地裝設於捲筒軸1 5的先端。捲 筒4,是具有:捲筒本體7、及配置於捲筒本體7及捲筒 軸1 5之間與捲筒軸1 5不可旋轉地連結的筒狀的捲筒支撐 軸(軸構件的一例)8、及裝設於捲筒本體7的牽引機構9 -10- 200800012 (8) 在捲筒軸1 5的前端側中,供規制捲筒4朝後方 的卡止銷1 8貫通用的貫通孔1 5 a是沿著直徑形成。 在捲筒軸15的前端部形成當裝設時使單向離合器裝 構65平順動作用的錐面部1 5b,在前端部的稍爲後方 成供單觸裝卸機構65的後述第1及第2防止脫落構4 、6 8卡合用的環狀的卡止溝1 5 c。錐面部1 5 b的最大 ,是比卡止溝1 5 c的後方部分的捲筒軸1 5的外徑小。 # 捲筒本體7,是具有:可讓釣線捲附的筒狀的捲 部7a、及於捲線胴部7a的後端部形成比線捲胴部7a 的筒狀的裙部7b、及在捲線胴部7a的前部朝前方傾 成的凸緣部7 c。 捲線胴部7 a,是具有:朝徑方向內方延伸的裝設 部7e、及與裝設圓板部7e的內周側一體形成的裝設 7f。在裝設圓板部7e的後面,可擺動自如地設置當 作動時會發聲的後述牽引發聲機構56的爪構件82, Φ 固定有將捲附釣線的先端停止於捲線胴部7a用的阻 53。裝設筒部7f,是可旋轉自如地裝設於捲筒支撐軸 且,在捲線胴部7a的內周面形成可收納牽引機構9 柱狀的牽引收納空間7j。在此內周面形成沿著前後軸 面對配置的1對卡止溝7g,並且形成:裝設有密封ί 的環狀的密封構件裝設溝7h、及裝設有防止後述摩 58脫落的防止脫落彈簧73之環狀的彈簧裝設溝7i。 防止脫落彈簧73,是也支撐密封環72的後面防止脫茶 裙部7b,是覆蓋從捲線胴部7a的後端部朝徑方 移動 且, 卸機 ,形 ^ 67 外徑 線胴 大徑 斜形 圓板 筒部 牽引 並且 線部 8 ° 的圓 X相 I 72 擦部 又, 向擴 -11 - 200800012 (9) 大的後轉子3的圓筒部3 〇的方式朝後方延伸的有底圓筒 構件。 在凸緣部7c的前面一體形成呈環狀突出的螺絲筒部 7d。在凸緣部7c的外周面裝設有例如不銹鋼等的硬質金 屬或是氧化鉻等的硬質陶瓷製等的硬質材料製的凸緣保護 環25。凸緣保護環25,是藉由螺合於螺絲筒部7d的外周 面的凸緣固定構件24固定於凸緣部7c。凸緣固定構件24 ,是內周面螺合於螺絲筒部7 d的螺帽構件,在前面具有 錐面24a。又’凸緣固定構件24是螺入並接合於螺絲筒部 7d。由此’不會因爲牽引作動時的扭矩或振動而使凸緣固 定構件24鬆緩。 捲筒支撐軸8,如第3圖及第4圖所示,是附鍔筒狀 的構件,可裝卸自如地裝設於捲筒軸1 5。捲筒支撐軸8, 是具有:筒狀的軸部8a、及形成於軸部8a後端部的大徑 的環狀的鍔部8b。在軸部8a的外周面橫跨全長形成非圓 形部8c。非圓形部8c,是具有相互平行相面對配置的1 對錐面部8 c 1。因此,非圓形部8 c的剖面,是由1對的錐 面部8 c 1及將那些連結的1對圓弧部8 c2所構成的長圓形 〇 在軸部8 a的後部外周面,裝設有規制朝鍔部8 b後方 移動的齒輪形狀的牽引發聲機構5 6的圓板構件8 0。且, 在圓板構件80及裝設筒部7f之間裝設有供調整捲筒4的 軸方向位置用的複數枚(例如3枚)的調整墊圈8 1。此圓 板構件8 0及調整墊圈8 1,是具有卡合於非圓形部8 c的長 -12- 200800012 (10) 孔,長孔是與非圓形部8 c卡合並和捲筒支撐軸8不可旋 轉地連結。又,裝設有捲筒支撐軸8的調整墊圈8 1之調 整墊圈裝設部8k,是如第3圖所示,形成比其他部分小徑 ,調整構件8 1的長孔,是形成比圓板構件8 0的長孔小徑 。調整墊圈8 1,是例如具有彈性的合成樹脂製,也具有密 封捲筒本體7後部的功能。且,圓板構件8 0,是藉由鍔部 8b被規制朝後方的移動。 如第3圖所示,在軸部8 8的前端部的外周面設有牽 引調整用的公螺紋部8 e。在公螺紋部8 e的後部,如第3 圖及第4圖所示,形成:供裝設第1防止脫落構件6 7用 的裝設溝8 f、及供裝設第2防止脫落構件6 8用的缺口部 8g。裝設溝8f,是於公螺紋部8e的後部形成環狀,缺口 部8 g,是藉由通過捲筒軸1 5的卡止溝1 5 c的外徑的例如 0.3〜1.5mm程度朝前後軸(捲筒軸芯)X側偏的位置的直 線切斷裝設溝8f的形狀。因此,如第4圖所示,裝設溝 8 f的剖面是形成D字狀。在軸部8 a的先端內周面,形成 :第1內周部8h、及立設於第1內周部8h的小徑的第2 內周部8i。第2內周部8i,是具有比捲筒軸15的外徑稍 大的內徑。 在鍔部8b中,供卡止銷18卡合用的卡合溝8d是沿 著直徑形成。卡止銷1 8,是如第2圖所示,裝設於貫通孔 15a,藉由裝設於卡止銷18的頸部18a的〇形環19而防 止脫落。捲筒支撐軸8,是在藉由卡止銷1 8不可旋轉且可 朝後方的移動被規制的狀態下裝設於捲筒軸1 5。 -13 - 200800012 (11) [單觸裝卸機構的結構] 單觸裝卸機構65,是具有:在捲筒軸1 5的先端 捲筒軸1 5的先端的方式可前後移動地裝設在捲筒支撐 的內周部的按鈕66、及第1及第2防止脫落構件67 。按鈕66,是例如鋁合金製的有底筒狀的構件,具有 出於捲線器外方的推操作部66a、及形成於推操作部 • 後方的大徑的防止脫落鍔部66b、及形成於防止脫落 66b後方的筒狀部66c、及形成於筒狀部66c的按壓部 。又,在第3圖中,在前後軸X的下側顯示剖面圖, 上側顯示稍爲被按壓狀態的側面。 推操作部66a,是形成具有圓弧的按鈕形狀。防 落鍔部66b,是卡合於捲筒支撐軸8的第1內周部8h 由裝設於第1內周部8h的C型扣環69防止脫落。且 防止脫落鍔部66b的後面設有由捲簧構成的返回彈簧 # 返回彈簧55,是將按鈕66朝按壓方向的逆方向推迫 此,停止推操作的話,按鈕66,會回復至第3圖左側 方向前方)的初期位置。又,在防止脫落鍔部66b中 朝徑方向突出的突起部66e,在捲筒支撐軸8的前端 供突起部66e嵌入的開縫8j是沿著軸方向形成。由 按鈕66被止轉。筒狀部66c,是配置於第2內周部 捲筒軸1 5之間的間隙。按壓部66d,是按壓第2防止 構件68用,具有爲了從捲筒軸15的卡止溝15c超過 部1 5b的最外徑部變形用的1對的傾斜面(第3圖中 覆蓋 軸8 、68 :露 66a 鍔部 66d 而在 止脫 ,藉 ,在 55 〇 。由 (軸 形成 部, 此, 8i及 脫落 錐面 只有 -14- 200800012 (12) 圖示一方)66f。 第1防止脫落構件67,是例如由具有彈性的曲折金屬 彈簧板所形成,如第4圖所示,具有:位置於兩端且裝設 於裝設溝8f的1對彎曲部67a、67a、及從彎曲部67a、 6 7a沿著缺口部8g曲折並保持第2防止脫落構件68的直 線狀的1對的保持部67b、67b、及連結兩保持部67b、 67b的C字狀的連結部67c。 Φ 第2防止脫落構件68,是使用例如具有彈性的金屬彈 簧板,如第3圖所示,具有:設有供卡止溝1 5 c卡合的寬 度的卡合部68a、及延伸於卡合部68a的兩側,相面對於 缺口部8g配置的1對保持部68b、68b。1對的被保持部 6 8b、68b,是於第1防止脫落構件67的保持部67b、67b 被保持在寬度比卡合部6 8 a廣的缺口部8 g。第2防止脫落 構件6 8的中央部分,當卡止於捲筒軸1 5的卡止溝1 5 c時 ,因爲缺口部8 g形成於卡止溝1 5 c的外周面的靠捲筒軸 φ 芯側,所以被稍爲彎曲配置。藉由此彎曲變形所產生的推 迫力,使捲筒4不會遊動地被保持於捲筒軸1 5。 [單觸裝卸機構的動作] 按壓操作按鈕66的話,按鈕66的按壓部66d的傾斜 面66f會接觸第2防止脫落構件68,傾斜面66f是按壓第 1及第2防止脫落構件67、68的第4圖右方使第〗及第2 防止脫落構件6 7、6 8變形。而且’第2防止脫落構件6 8 變形超過至捲筒軸1 5的錐面邰1 5 b的最外徑部的位置的 •15- 200800012 (13) 話,捲筒4就可從捲筒軸15脫離。 且,將脫落的捲同4從捲同軸1 5的先端裝設的話, 藉由捲筒軸1 5的錐面部1 5 b按壓第1及第2防止脫落構 件67、68。而且,超過錐面部15b的話,第1及第2防止 脫落構件67、68藉由彈性卡止於卡止溝15c,使捲筒4不 可旋轉地與捲筒軸連結。 • [牽引機構的結構] 牽引機構9,是如第2圖所示,具有:調整牽引力的 牽引調整部57、及藉由牽引調整部57調整摩擦力的摩擦 部5 8。牽引調整部5 7,是具有:螺合於捲筒支撐軸8的 操作構件60、及藉由操作構件60被按壓來按壓摩擦部5 8 的按壓構件(本發明的連結構件的一例)6 1。操作構件60 ,是具有:設有呈放射狀朝三方突出的旋鈕突起60a之旋 鈕把手60b、及設有被固定於旋鈕把手60b的旋鈕凸緣 • 60c之操作構件60。在旋鈕凸緣60c中,螺合於捲筒支撐 軸8的公螺紋部8 e的螺帽6 2是裝設成不可旋轉且朝軸方 向可移動自如。在螺帽6 2及按壓構件6 1之間,供平順調 整牽引力用的捲簧63是在壓縮狀態下被裝設。 按壓構件61,是不可相對旋轉且朝軸方向可移動自如 地裝設在被配置於捲筒軸15周圍的捲筒支撐軸8。且,按 壓構件61是與操作構件60可相對旋轉自如且不能脫落地 連結。按壓構件61,是如第5圖所示,具有:附鍔圓筒狀 的本體構件7 〇、及例如藉由嵌入成型與本體構件7 0 —體 -16- 200800012 (14) 形成的彈性體製的密封構件7 1。 本體構件70,如第6圖及第7圖所示,是例如合成樹 脂製的構件,具有:圓筒部70&、及比圓筒部7(^大徑的 防止脫落用的鍔部70b。圓筒部70a,是在內周部具有與 非圓形部8 c不可旋轉地卡合的非圓形孔7 0 c。非圓形孔 7〇c,是具有與錐面部8cl卡合的1對卡合面70d之長圓 形狀的孔。在鍔部7 0 b的後面,形成供第2圖所示防止脫 落環64a裝設用的段差部70e。防止脫落環64a,是藉由 被卡止於旋鈕凸緣60c的內周面的防止脫落彈簧64b防止 脫落。由此裝設有防止脫落環64a的按壓構件61是對於 旋鈕凸緣60c可相對旋轉地被防止脫落。在本體構件70 中,在密封構件7 1的嵌入成型時,供澆入成爲密封構件 的彈性成形材料用的複數流入孔70f是在周方向隔有間隔 配置。且,在內周部的前部,形成供收納並抵接捲簧《3. 的彈簧圓柱狀的收納空間70g。,如第2圖所示,密封捲 線胴部7a的內周面及按壓構件6 1的外周面的間隙用的密 封環72的先端是接觸本體構件70的圓筒部70a的外周面 。密封環72,是爲了防止液體滲入牽引機構9而設置。密 封環72的先端是形成尖的唇緣形狀。由此,牽引作動時 即使捲筒4旋轉也可降低旋轉阻力。 密封構件7 1,是如第5圖所示,例如丁腈橡膠等的合 成樹脂製的彈性構件。密封構件7 1,是具有朝軸方向並列 配置於非圓形孔70c且可與非圓形部8c接觸的密封孔7 1 a 。密封孔7 1 a,是與非圓形孔70c同樣的長圓形的形狀。 -17- (15) (15)200800012 在密封孔7 1 a的軸方向的中間位置,形成比非圓形孔70c 小且先端尖的山形的環狀的唇緣部7 1 b。唇緣部7 1 b,是 可與非圓形部8c全面接觸地突出形成。 如此,卡合於非圓形部8c的非圓形孔70c、及接觸密 封非圓形部8c的密封構件7 1,因爲並列配置於軸方向, 所以對於捲筒支撐軸8及連結構件也就是按壓構件6 1的 密封不易的非圓形的間隙可以確實地密封,並且非圓形孔 7〇c因爲卡合於非圓形部8c,所以可以抑制牽引作動時的 密封構件的變形。且,因爲按壓構件61的外周側的間隙 也可藉由密封環72密封,所以液體更不易侵入牽引收納 空間7 j。進一步因爲將唇緣部7 1 b設在密封構件7 1,所 以捲筒支撐軸8的滑動阻力變小,可以平順地裝卸按壓構 件61’並且將牽引調整部57朝鬆弛方向旋轉時牽引力可 平順地減少。 在操作構件60及按壓構件6 1之間裝設有當操作構件 6〇旋轉進行牽引調整時發聲的牽引旋鈕發聲機構54。 摩擦部5 8,是如第2圖所示,裝設於按壓構件6 1、 及捲筒本體7的裝設圓板部7e之間。摩擦部58,是具有 :與捲筒支撐軸8的非圓形部8c不可旋轉地連結的第1 碟片76a、76b、及與捲線胴部7a的內周面不可旋轉地連 結的附耳的第2碟片77、及配置於2個第1碟片76&、 76b及第2碟片77之間和第1碟片76b及裝設圓板部7e 之間的牽引碟片78。第1碟片76a,是接觸按壓構件61, 並被按壓構件61按壓。第丨碟片76a,因爲對於捲筒支撐 -18- 200800012 (16) 軸8不可旋轉,所以不對於按壓構件61相對旋轉。密封 構件71接觸第1碟片76a的前面。第2碟片77,是藉由 使徑方向突出的耳部77a卡止於卡止溝7g,就可與捲線胴 部7a不可旋轉地連結。摩擦部5 8,是藉由防止脫落彈簧 73防止脫落。 [捲線器的操作及動作] φ 在此紡車式捲線器中,在拋竿時等的線吐出時將導環 臂40朝線開放姿勢倒下。此結果,釣線是藉由擬餌的自 重依序從捲筒4的先端側吐出。這時,在接觸於凸緣部7vc 的釣線易刮傷外周部分因爲配置硬質材料製的比重大的凸 緣保護環25,所以可以維持凸緣部7c的外周部分的耐磨 耗性或耐久性。 在線捲取時,將導環臂40朝線捲取姿勢側回復。臟. 操作桿組裝體1朝線捲取方向旋轉的話,可藉由無圖示導 • 環反轉機構自動地進行。操作桿組裝體1的旋轉力,是通 過主齒輪軸1 0及主齒輪U傳達至小齒輪1 2。傳達至小齒 輪12的旋轉力,是從其前部12a傳達至轉子3並且通過 減速機構藉由嚙合於小齒輪1 2的中間齒輪2 3傳達至擺動 機構6。此結果,轉子3朝線捲取方向旋轉並且使捲筒4 朝前後往復移動。 魚上鉤的話,藉由魚的拉引使牽引機構9動作並使捲 筒4反轉。在牽引作動時,第1碟片76a、76b是對於捲 筒支撐軸8不可旋轉,第2碟片77,因爲對於捲筒4不可 -19- 200800012 (17) 旋轉,所以藉由牽引碟片78使在第1碟片76a、76b及第 2碟片77之間產生滑動。這時的牽引力’是藉由對於牽引 調整部5 7的操作構件6 0旋轉設定的按壓構件61的第1 碟片76a的按壓力來決定。 將紡車式捲線器沖洗時,例如,浸入滿水的水桶等的 話,水會侵入捲筒4內部的牽引收納空間乃°但是’因爲 牽引收納空間7j的內周側的間隙也就是按壓構件6 1的內 φ 周部及捲筒支撐軸8之間是藉由密封構件71密封’並且 外周側的間隙也就是按壓構件61及捲線胴部7a的內周面 之間是藉由密封環7 2密封’所以可以確實防止液體滲入 牽引收納空間7j。 且,具有牽引機構9的捲筒4因爲可以藉由單觸裝卸 機構65裝.卸,所以裝卸時不需要旋轉操作構件60。因此 ,即使裝卸捲筒4牽引力的設定也不會變化。因此’對總 複數捲筒4可依據釣魚對象的魚種等適宜地設定牽引力或 # 釣線的尺寸。 [其他的實施例] (a)在前述實施例中’雖以裝設於可以單觸裝卸的 深溝型的紡車式捲線器的捲筒的按壓構件爲例說明本發明 ,但是本發明的連結構件不限定於這些。例如,不可旋轉 地直接裝設在捲筒軸的按壓構件或第1碟片也可以適用本 發明。 (b )在前述實施例中,藉由嵌入成型將密封構件71 -20- 200800012 (18) 與本體構件70 —體形成,但是將密封構件與本體構件分 開設置也可以。 (c )在前述實施例中,雖以紡車式捲線器的按壓構 件爲例說明本發明,但是不可旋轉地裝設於雙軸承捲線器 的手把軸或捲筒軸的連結構件也可以適用本發明。在第8 圖,在雙軸承捲線器的作爲軸構件的手把軸110中裝設星 狀牽引器機構109。星狀牽引器機構109,是隔著主齒輪 φ 120制動捲筒112的朝線吐出方向的旋轉。星狀牽引器機 構109,是具有:作爲螺合於手把軸110的操作構件用的 星狀牽引器103、及不可旋轉地裝設於手把軸的牽引墊隱 (連結構件的一例)161、及配置於牽引墊圈161及主齒 輪120之間的牽引碟片162。手把軸110,是設有在外周 面具有相互平行的1對的錐面部1 1 0a的非圓形部11 Ob。 手把軸1 1 0,是藉由裝設於捲線器本體1 02的單向離合澀 1 2 5禁止朝線吐出方向的旋轉,只有線捲取方向可旋轉。 # 牽引墊圈1 6 1,是不可旋轉地卡合於非圓形部U Ob並 與手把軸1 1 0 —體旋轉並且是具有:設有可一體旋轉地連 結單向離合器1 2 5的內輪1 2 5 a的非圓形孔1 7 0 a之本體構 件1 70、及具有朝軸方向並列配置於非圓形孔1 70a的密封 孔171a之密封構件171。非圓形孔170a,是具有不可旋 轉地卡合於錐面部Π 0a的與前述實施例同樣的1對的卡 合面(無圖示)。且,除了卡合面以外,也具有與朝軸方 向內方突出形成於單向離合器1 2 5的內輪1 2 5 a的1對卡 止突起125b卡合之卡合凹部(無圖示)。由此,內輪 -21 - 200800012 (19) 125a也可與手把軸110 —體旋轉。又,密封孔171a不具 有對應卡合凹部的凹部,而形成可接觸手把軸1 1 〇的外周 面的全周。密封構件1 7 1,是與前述實施例同樣材質的彈 性構件,在密封孔171a具有無圖示的唇緣部。密封構件 171,是藉由嵌入成型與本體構件170 —體形成。且,密 封構件1 7 1,是形成牽引作動時與牽引墊圈1 6 1鄰接配置 且不與相對旋轉的主齒輪1 20接觸。如此因爲密封構件 1 7 1配置不與相對旋轉鄰接的構件接觸,所以連結構件也 就是牽引墊圈1 6 1及鄰接構件相對旋轉也不會在密封構件 171發生摩擦力。因此,可以確實防止因摩擦力的發生所 導致的密封構件的損瘍或剝離。 這種結構的牽引墊圈161也可達成與前述實施例同樣 的效果。 (d)在前述實施例中,雖以設在牽引機構的連結櫬 件(按壓構件或牽引墊圈)爲例說明本發明,但是本發明 不限定於這些,例如,對於具有非圓形部的紡車式捲線器 的小齒輪不可相對旋轉地連結的轉子或單向離合器的內輪 也適用可以。 在第9圖,小齒輪1 2,是捲筒軸1 5貫通可能的筒狀 構件,對於捲筒軸1 5可旋轉自如。捲筒軸1 5,是可旋轉 自如且朝軸方可移動自如地被支撐於小齒輪1 2。小齒輪 12’是在外周面具有作爲非圓形部12b的錐面部12c。錐 面部1 2c,是從小齒輪1 2的前部1 2a形成直到齒輪部1 2d 的前方側爲止。 -22- 200800012 (20) 逆轉防止機構5 0的單向離合器5 1的內輪(連結構件 的一例)253,是與小齒輪1 2不可相對旋轉地連結。在內 輪2 5 3及轉子3的轂部4 2之間,是裝設有供補助密封用 的帽構件2 5 7。帽構件25 7,是裝設成覆蓋轉子3的轂部 42的端部外周面及端面,且被內輪25 3及轂部42挾持。 內輪2 5 3,是具有:設有與錐面部1 2 c卡合的非圓形孔 2 5 5 a之本體構件25 5、及設有朝軸方向並列配置於非圓形 Φ 孔255a的密封孔25 6a之密封構件256。非圓形孔2 5 5a, 是具有不可旋轉地卡合於錐面部1 2 c的與前述實施例同樣 的1對卡合面(無圖示)。密封構件2 5 6,是與前述實施 例同樣材質的彈性構件,在密封孔2 5 6a具有無圖示的唇 緣部。密封構件256,是藉由嵌入成型與本體構件25 5 — 體形成。本體構件25 5,是接觸帽構件25 7,由此,可以 防止螺帽33旋緊時密封構件256變形。 且,爲了防止液體從內輪2 5 3的外周側侵入,而在配 • 置於單向離合器5 1的前方且防止內輪2 5 3脫落的蓋板2 5 8 裝設有墊圈形狀的密封板259。密封板259的外周側是裝 設於蓋板2 5 8的內周’具有先端較細的唇緣的內周側是接 觸帽構件2 5 7的外周面。 藉由將這種結構的內輪253裝設於小齒輪12,就可以 防止液體從內輪25 3及小齒輪12的間隙滲入捲線器本體2 的內部。特別是,內輪25 3因爲不是由成形而是由機械加 工形成,所以將非圓形孔2 5 5 a機械加工成與非圓形部同 樣的形狀的話加工成本會上昇。因此’非圓形孔2 5 5 a ’通 -23- 200800012 (21) 常形成將具有與錐面部1 2 c卡合的卡合面的角作成圓弧的 矩形孔。此情況,與小齒輪的外周面的間隙變大,液體容 易滲入。在此,藉由設置這種密封構件2 5 6 a,就可以防止 液體的滲入。這種實施例也可達成與前述實施例同樣的效 果。 【圖式簡單說明】 φ [第1圖]採用本發明的一實施例的紡車式捲線器的左 側視剖面圖。 [第2圖]其捲筒剖面圖。 . [第3圖]其捲筒支撐軸周圍的剖面部分圖。、 [第4圖]第3圖的IV-IV剖面圖。 [第5圖]按壓構件的剖面圖。 [第6圖]本體構件之後視圖。 [第7圖]第6圖的VII-VII剖面圖。 Φ [第8圖]採用本發明的其他的實施例的雙軸承捲線器 的剖面圖。 [第9圖]採用本發明的其他的實施例的紡車式捲線器 的單向離合器周邊的剖面圖。 【主要元件符號說明】 1 :操作桿組裝體 1 a :手把軸 2 :捲線器本體 -24- 200800012 (22) 2 a :捲線器外殼 2b :竿安裝腳 3 :轉子 4 :捲筒 5 :轉子驅動機構 6 :擺動機構 7 :捲筒本體 _ 7 a :捲線胴部 7b :裙部 7 c :凸緣部 7d :螺絲筒部 7e :裝設圓板部 7f :裝設筒部 7g :卡止溝 7h :密封裝設溝 • :彈簧裝設溝 7j :牽引收納空間 8 :捲筒支撐軸(軸構件的一例) 8a :軸部 8b :鍔部 8c :非圓形部 8cl :錐面部 8c2 :圓弧部 8d :卡合溝 -25- 200800012 (23) 8e :公螺紋部 8f :裝設溝 8 g :缺口部 8h :第1內周部 8i :第2內周部 8j :嵌入開縫 8 k :調整墊圈裝設部 • 9 :牽引機構 1 〇 :主齒輪軸 10 a :卡止孔 1 1 :主齒輪 12:小齒輪(軸構件的一例) 1 2 a :前部 12b :非圓形部 1 2 c :錐面部 _ 1 2 d :齒輪部 14a,14b:車由承 1 5 :捲筒軸 1 5 a :貫通孔 1 5 b :錐面部 1 5 c :卡止溝 1 8 :卡止銷 19 : Ο形環 21 :螺軸 -26 200800012 (24) 22 : 23: 24 : 24a : 25 : 30 : 3 1 :200800012 (1) EMBODIMENT OF THE INVENTION [Technical Field] The present invention relates to a connecting member, particularly a connecting member for a fishing reel, which is used in a fishing reel and is connected to a fishing rotor. A non-circular portion of the outer circumference of the shaft member. [Prior Art] In a fishing reel such as a spinning reel or a double-bearing reel, a fishing mechanism is provided in order to prevent an excessive stretching force from acting on the fishing line and cutting the fishing line. A conventional traction mechanism, for example, a spinning reel, has a first traction washer that is coupled to a spool shaft (an example of a shaft member) that is non-rotatably coupled to each other, and a second traction that is rotatable integrally with the spool. Washer, brake drum. In the case of the double-bearing reel, there is a traction washer (an example of a connecting member) that is non-rotatably coupled to the handle shaft (an example of the shaft member), and the main gear that is rotatably coupled to the reel by the traction washer is braked. . In the outer peripheral surface of the shaft member of one of the spinning reel and the double-bearing reel, for example, a pair of tapered surfaces (an example of a non-circular portion) for mutually non-rotatably connecting the traction washers are formed. In the traction washer, a non-circular hole that is engaged with the non-circular portion is formed at the center. In such a traction mechanism, the traction force of the traction mechanism may vary if the liquid penetrates into the friction surface of the traction washer. Here, it is known that a sealing member is disposed on the outer peripheral portion of the pressing member of the pulling knob that is in contact with the first traction washer (see, for example, Patent Document 1). The traction knob of the conventional traction mechanism -4- 200800012 (2) has a non-circular hole that is non-rotatably engaged with the non-circular portion, and is non-closed and rotatably coupled to the coil-coaxial pressing member (linking An example of a member) and an operation member that is rotatably coupled to the pressing member and screwed to the spool shaft. Further, a sealing member is disposed between the pressing member and the spool. By this sealing member, it is possible to prevent liquid from penetrating into the traction mechanism from the gap between the reel and the outer peripheral surface of the traction knob. [Problem to be Solved by the Invention] In the above-described conventional configuration, it is possible to prevent liquid from the outer peripheral surface of the pressing member of the reel and the pulling knob. The gap penetrates. However, it is difficult to prevent the gap between the center portion of the pressing member and the spool shaft from penetrating. That is, since the non-circular hole is formed in the pressing member, it is difficult to seal the gap between the non-circular hole and the outer peripheral surface of the spool shaft. Even if the sealing member that is engaged with the non-circular portion is disposed between the non-circular hole and the non-circular portion, it can be sealed. However, the force may be deformed when the force acts on the pressing member via the first traction washer when the traction is actuated. In the connection member of the fishing reel, the deformation of the sealing member when the force acts on the connecting member can be suppressed, and the gap between the shaft member and the connecting member can be surely sealed. (Means for Solving the Problem) The connecting member for the fishing reel of the invention 1 is used for fishing - 5 - 200800012 (3) Reel" and is non-rotatably coupled to the non-circular shape provided on the outer circumference of the shaft member The shape portion includes a body member and a sealing member. The body member is a non-circular hole that is non-rotatably engaged with the non-circular portion. Elastic member The sealing member 'is a sealing hole which is arranged side by side in the axial direction of the non-circular hole and which is in contact with the non-circular hole, and is provided to the body member. In this connecting member, the non-circular hole of the body member is engaged with the non-circular portion of the shaft member, and the connecting member is non-rotatably coupled to the non-circular φ portion of the shaft member. And the sealing hole of the sealing member contacts the non-circular portion to seal the gap between the non-circular holes of the non-circular portion. Here, since the axial direction is arranged in parallel: a non-circular hole that is engaged with the non-circular portion, and a sealing member that contacts and seals the non-circular portion, the gap between the shaft member and the coupling member can be surely sealed, and because Since the non-circular hole is engaged with the non-circular portion, the deformation of the sealing member can be suppressed when the force acts on the connecting member when the traction is actuated. The connecting member for the fishing reel according to the second aspect of the invention is the member according to the first aspect of the invention, and the sealing member is integrally formed with the main body member by insert molding. In this case, since the sealing member is integrally formed with the body member, the sealing member is less likely to fall off from the body member. The connecting member for the fishing reel according to Invention 3 is the member according to Invention 1 or 2, wherein the non-circular portion has a pair of tapered surfaces arranged in parallel with each other, and the non-circular 'shaped hole has a pair of engaging with the tapered surface. Hole in the face. In this case, the non-circular portion can be formed with high precision, and can be formed with high precision by forming a non-circular hole. The connecting member for the fishing reel 1 of the invention 4 is the member according to any one of the inventions 1 to 3, and the main body member is disposed on the reel shaft of the spinning type -6 - 200800012 (4) reel as the shaft member. around. In this case, it is possible to surely prevent the liquid from penetrating into the traction mechanism from the gap between the spool shaft and the joint member with respect to the joint member of the spinning reel. The connecting member for the fishing reel according to the fifth aspect of the invention is the member according to the fourth aspect of the invention, and the main body member is a tubular member as a shaft member that is attached to the spool shaft of the spinning reel that is non-rotatably and detachably coupled to the spinning reel. The drum supports the shaft. In this case, since the washer member is attached to the spool support φ fulcrum that is detachably attached to the spool shaft, the spool is attached to the spool support shaft and is detached from the spool shaft. It is possible to exchange the reel while maintaining the traction. The connecting member for the fishing reel according to the sixth aspect of the invention is the member according to any one of the first to third aspects, and the main body member is disposed around the handle shaft of the double-bearing reel. In this case, the star-shaped retractor mechanism of the double-bearing reel can surely prevent the liquid from penetrating from the gap between the handle shaft and the joint member. The joint member of the fishing reel of the invention 7 is as in the inventions 1 to 6. Any of the members forms an annular lip portion in the sealing hole, and the protruding tip that can abut against the non-circular portion is smaller and sharper than the non-circular hole. In this case, by bringing the tip end lip into contact with the shaft member, the sliding resistance with the shaft member is reduced, the coupling member can be smoothly attached and detached, and when the coupling member is used for the traction knob, the traction knob is used. The traction can be smoothly reduced when rotating in the slack direction. (Effect of the Invention) Ί - 200800012 (5) According to the present invention, since the non-circular holes that are engaged with the non-circular portion and the member sealing members that contact and seal the non-circular portion are arranged in parallel in the axial direction, The gap between the shaft member and the joint member can be surely sealed, and since the non-circular hole is engaged with the non-circular portion, deformation of the seal member can be suppressed when the force acts on the joint member when the traction is actuated. [Embodiment] In the first embodiment, a spinning reel according to an embodiment of the present invention includes a reel body 2 that can be mounted on a fishing rod, and is rotatably mounted around the left and right axes. The operating lever assembly 1, the rotor 3, and the spool 4 are provided in the reel body 2. The rotor 3 is rotated in conjunction with the rotation of the operation lever assembly 1, and guides the fishing line toward the reel 4, and is rotatably supported around the front and rear shafts at the front portion of the reel body 2. The reel 4 is guided by the rotor 3 to wind the fishing line around the outer peripheral surface, and is reciprocally movable in the front-back axis X direction at the front portion of the rotor 3. The reel body 2 has a reel housing 2a constituting a main body portion of the reel body 2, and a T-shaped cymbal mounting leg 2b integrally extending obliquely upward from the reel housing 2a. The reel housing 2a has a space for mechanism installation therein, and in this space, as shown in Fig. 2, a rotor drive mechanism that rotates the rotor 3 in conjunction with the rotation of the operation lever assembly 1 is provided. 5. The swing mechanism for moving the reel 4 forward and backward and uniformly winding the fishing line 6 ° The rotor drive mechanism 5 has the operation of assembling the operation lever assembly 1 to -8- 200800012 (6) Non-rotatable The main gear 11 and a pinion gear meshed with the main gear Π. The main gear π is a spur gear, which is 〇 or separated from the main gear shaft. The main gear shaft 1 〇 is a hollow member made of, for example, stainless steel which is formed at the center to lock the handle 1 a of the operation lever assembly 1 into the non-rotatable locking hole 1 〇 a. Both ends of the main gear shaft 10 are rotatably supported by the reel housing 2a via a bearing (not shown). The pinion gear 12 is a tubular member that is rotatably disposed in the front-rear direction and is attached to the reel housing 2a. The front portion 12a of the pinion gear 12 is a central portion of the through rotor 3, and has a coupling portion (not shown) that non-rotatably connects the rotor 3 and the clutch 51 to be described later. The nut 33 is screwed to the front portion 12a of the pinion gear 12, whereby the rotor 3 is non-rotatably fixed to the tip end portion of the pinion gear 12 by the nut 33. The pinion gear 12 is rotatably supported by the reel housing 2a via the intermediate portions 14a and 14b of the intermediate portion and the rear end portion in the axial direction. The reel 1 5 penetrates the inside of the pinion 12. The pinion gear 1 2 ' is engaged with the main tooth 11 and is also meshed with the swing mechanism 6. The rotor 3 has a cylindrical portion 30 fixed to the pinion gear 12, first and second rotor arms that are disposed to face each other on the side of the cylindrical portion 3, and is rotatably mounted to The two rotor arms 3 1 and 3 2 guide the guide ring arms 40 for the fishing line reel 4 . The cylindrical portion 30 and the two rotor arms 31 are integrally formed of, for example, an aluminum alloy. A front wall 41 is formed at a front portion of the cylindrical portion 30, and a hub portion 42 projecting rearward is formed at the center of the front wall 41. A through hole rotatably locked to the pinion gear 12 is formed at a central portion of the hub portion 42, and the front 1 2 of the pinion gear 12 is axially singularly singularly slidable to a soap book and 3 1 toward 32 Department No.-9- 200800012 (7) 12a and the spool shaft 15 are penetrated through the through hole. The reverse rotation prevention mechanism 50 is a hub portion 42 that is disposed adjacent to the cylindrical portion 30 of the rotor 3. The reverse rotation prevention mechanism includes a one-way clutch 51 and a switching mechanism 52 that switches the one-way clutch 51 to the operating state (reverse prohibition state) and the non-actuated state (reverse permission state). The one-way clutch 51 is a roller-shaped one-way clutch in which the inner ring is non-rotatably mounted to the pinion gear 12 and the outer wheel is non-rotatably mounted on the inner end of the reel housing 2a. The swing mechanism 6 has a screw shaft 2 1 disposed in parallel with the spool shaft 15 and a slider 22 moving in the front-rear direction along the screw shaft 21, and a middle portion fixed to the tip end of the screw shaft 2 1 . Gear 2 3. The slider 22 is movably supported by two guide shafts (not shown) disposed in parallel with the screw shaft 2 1 . The rear end of the spool shaft 15 is non-rotatably fixed in the slider 22. The intermediate gear 23 meshes with the pinion gear 12 〇 [Structure of the reel] through the speed reduction mechanism (not shown), and as shown in FIG. 2 , is a deep groove shape and is disposed on the first rotor arm 31 of the rotor 3 . And between the second rotor arms 32. The spool 4 is detachably attached to the tip end of the spool shaft 15 by a one-touch attachment mechanism 65. The reel 4 includes a reel main body 7 and a cylindrical reel support shaft (an example of a shaft member) that is disposed between the reel main body 7 and the spool shaft 15 and is non-rotatably coupled to the spool shaft 15 8) and the traction mechanism 9 to be mounted on the reel body 7 -10- 200800012 (8) In the front end side of the reel shaft 15, the through-locking pin 18 for guiding the reel 4 is penetrated The holes 15 5 a are formed along the diameter. A tapered surface portion 15b for accommodating the one-way clutch mounting mechanism 65 when installed is formed at the front end portion of the spool shaft 15, and the first and second portions to be described later for the one-touch attachment/detachment mechanism 65 at the rear end portion are slightly rearward. The annular locking groove 1 5 c for preventing the detachment of the detachment 4, 6 8 is used. The maximum of the tapered surface portion 15 5 is smaller than the outer diameter of the spool shaft 15 at the rear portion of the locking groove 1 5 c. The reel main body 7 has a cylindrical wrap portion 7a that allows the fishing line to be wound, and a cylindrical skirt portion 7b that is formed at a rear end portion of the winding bobbin portion 7a than the bobbin portion 7a, and A flange portion 7c that is inclined toward the front of the front portion of the winding hook portion 7a. The winding dam portion 7a has a mounting portion 7e extending inward in the radial direction, and a mounting portion 7f integrally formed with the inner peripheral side of the mounting circular plate portion 7e. The claw member 82, which will be described later as the traction sounding mechanism 56, is rotatably provided after the installation of the disk portion 7e, and Φ is fixed to block the stop for winding the fishing line to the winding head portion 7a. 53. The mounting tubular portion 7f is rotatably mounted on the spool supporting shaft, and a traction housing space 7j accommodating the columnar shape of the traction mechanism 9 is formed on the inner circumferential surface of the winding weir portion 7a. A pair of locking grooves 7g disposed along the front and rear axes are formed on the inner circumferential surface, and an annular sealing member mounting groove 7h in which a seal ί is attached is formed, and a sealing groove 7h for preventing the backing is described. The annular spring mounting groove 7i of the detachment spring 73 is prevented. The detachment preventing spring 73 also supports the detachment preventing skirt portion 7b at the rear side of the sealing ring 72, and covers the radial direction from the rear end portion of the winding rim portion 7a, and is unloaded, and the outer diameter of the outer diameter is slanted. The circular X-phase I 72 portion of the circular plate cylinder is pulled and the line portion 8 ° is rounded, and the bottom portion is extended toward the rear of the cylindrical portion 3 of the rear rotor 3 of the -11 - 200800012 (9) Cylinder member. A screw cylinder portion 7d that protrudes in a ring shape is integrally formed on the front surface of the flange portion 7c. A flange protective ring 25 made of a hard material such as a hard metal such as stainless steel or a hard ceramic such as chrome oxide is attached to the outer peripheral surface of the flange portion 7c. The flange guard ring 25 is fixed to the flange portion 7c by a flange fixing member 24 screwed to the outer circumferential surface of the screw cylinder portion 7d. The flange fixing member 24 is a nut member in which the inner peripheral surface is screwed to the screw cylinder portion 7d, and has a tapered surface 24a on the front surface. Further, the flange fixing member 24 is screwed into and joined to the screw barrel portion 7d. Thus, the flange fixing member 24 is not loosened by the torque or vibration at the time of traction. As shown in Figs. 3 and 4, the spool support shaft 8 is a member having a cylindrical shape and is detachably attached to the spool shaft 15. The spool support shaft 8 has a cylindrical shaft portion 8a and a ring-shaped flange portion 8b formed in a large diameter at the rear end portion of the shaft portion 8a. The non-circular portion 8c is formed across the entire length of the outer peripheral surface of the shaft portion 8a. The non-circular portion 8c is a pair of tapered surface portions 8c1 which are disposed to face each other in parallel. Therefore, the cross section of the non-circular portion 8c is a long circular shape formed by a pair of tapered surface portions 8c1 and a pair of connected circular arc portions 8c2 on the outer peripheral surface of the rear portion of the shaft portion 8a. A disc member 80 that regulates the gear-shaped traction sounding mechanism 56 that moves rearward of the dam portion 8b is mounted. Further, a plurality of (for example, three) adjustment washers 8 1 for adjusting the position of the spool 4 in the axial direction are provided between the disk member 80 and the mounting tubular portion 7f. The disc member 80 and the adjusting washer 181 are long -12-200800012 (10) holes that are engaged with the non-circular portion 8c, and the long holes are engaged with the non-circular portion 8c and the reel support The shaft 8 is non-rotatably coupled. Further, the adjustment washer mounting portion 8k of the adjustment washer 8 1 provided with the spool support shaft 8 has a smaller diameter than the other portions as shown in Fig. 3, and the long hole of the adjustment member 8 1 is formed into a circle. The long hole diameter of the plate member 80. The adjustment washer 181 is made of, for example, a synthetic resin having elasticity, and also has a function of sealing the rear portion of the reel body 7. Further, the disk member 80 is regulated to move rearward by the crotch portion 8b. As shown in Fig. 3, a male screw portion 8e for traction adjustment is provided on the outer peripheral surface of the front end portion of the shaft portion VIII. In the rear portion of the male screw portion 8e, as shown in Figs. 3 and 4, a mounting groove 8f for attaching the first preventing/detaching member 67 and a second preventing falling member 6 are provided. The gap portion 8g for 8 is used. The installation groove 8f is formed in a ring shape at the rear portion of the male screw portion 8e, and the notch portion 8g is, for example, 0 by the outer diameter of the locking groove 15c passing through the spool shaft 15. 3~1. The shape of the installation groove 8f is cut by a straight line at a position of 5 mm toward the front and rear axis (reel axis). Therefore, as shown in Fig. 4, the cross section of the installation groove 8 f is formed in a D shape. On the inner peripheral surface of the tip end of the shaft portion 8a, a first inner peripheral portion 8h and a second inner peripheral portion 8i having a small diameter that is erected on the first inner peripheral portion 8h are formed. The second inner peripheral portion 8i has an inner diameter slightly larger than the outer diameter of the spool shaft 15. In the crotch portion 8b, the engaging groove 8d for engaging the locking pin 18 is formed along the diameter. The locking pin 18 is attached to the through hole 15a as shown in Fig. 2, and is prevented from falling off by the ring-shaped ring 19 attached to the neck portion 18a of the locking pin 18. The spool support shaft 8 is attached to the spool shaft 15 in a state where the lock pin 18 is non-rotatable and can be moved rearward. -13 - 200800012 (11) [Structure of One-Touch Loading and Unloading Mechanism] The one-touch loading and unloading mechanism 65 is provided to be retractably mounted on the reel at a tip end of the reel shaft 15 of the reel shaft 15 The button 66 on the inner peripheral portion of the support and the first and second prevention preventing members 67. The button 66 is, for example, a bottomed cylindrical member made of an aluminum alloy, and has a push operation portion 66a outside the reel and a large-diameter anti-drop portion 66b formed on the rear of the push operation portion. The tubular portion 66c behind the falling 66b and the pressing portion formed in the tubular portion 66c are prevented. Further, in Fig. 3, a cross-sectional view is displayed on the lower side of the front-rear axis X, and the upper side shows a side surface which is slightly pressed. The push operation portion 66a is formed in a button shape having an arc. The anti-drop portion 66b is a first inner peripheral portion 8h that is engaged with the reel support shaft 8 and is prevented from coming off by the C-shaped snap ring 69 attached to the first inner peripheral portion 8h. Further, a return spring #, which is composed of a coil spring, is provided on the rear surface of the detachment preventing dam portion 66b. The return spring 55 pushes the button 66 in the reverse direction of the pressing direction, and when the pushing operation is stopped, the button 66 returns to the third drawing. The initial position of the front side in the left direction. Further, the projection portion 66e that protrudes in the radial direction in the detachment preventing dam portion 66b is formed along the axial direction in the slit 8j in which the projection 66e is fitted to the tip end of the spool support shaft 8. It is stopped by button 66. The tubular portion 66c is a gap that is disposed between the second inner peripheral portion spool shafts 15. The pressing portion 66d is for pressing the second preventing member 68, and has a pair of inclined surfaces for deforming from the outermost diameter portion of the portion 15b from the locking groove 15c of the spool shaft 15 (the shaft 8 is covered in Fig. 3). , 68: Dew 66a 锷 66d and stopped, borrowed, at 55 〇. By (shaft forming part, this, 8i and falling cone is only -14- 200800012 (12) one side) 66f. The first to prevent falling off The member 67 is formed, for example, of a meandering metal spring plate having elasticity. As shown in Fig. 4, the member 67 has a pair of curved portions 67a and 67a and a bending portion which are disposed at both ends and are mounted on the mounting groove 8f. The 67a and 6 7a are bent along the notch portion 8g, and hold the linear pair of holding portions 67b and 67b of the second fall prevention member 68 and the C-shaped connecting portion 67c that connects the two holding portions 67b and 67b. The anti-drop member 68 is made of, for example, a metal spring plate having elasticity, and as shown in Fig. 3, has an engaging portion 68a having a width for engaging the locking groove 15c, and extending to the engaging portion. One pair of holding portions 68b and 68b disposed on the notch portion 8g on both sides of the 68a. The pair of held portions 68b and 68b are The holding portions 67b and 67b of the first fall prevention member 67 are held by the notch portion 8g having a width wider than the engaging portion 168a. The central portion of the second preventing/disengaging member 68 is locked to the spool shaft 15 When the locking groove 1 5 c is formed, the notch portion 8 g is formed on the core side of the outer peripheral surface of the locking groove 15c on the spool axis φ, so that it is slightly curved. When the operation button 66 is pressed, the inclined surface 66f of the pressing portion 66d of the button 66 comes into contact with the second falling prevention member when the operation button 66 is pressed. 68. The inclined surface 66f deforms the first and second prevention preventing members 6 7 and 68 by pressing the first and second prevention preventing members 67 and 68 to the right, and the second preventing member 68 is deformed. When the position of the outermost diameter portion of the tapered surface 邰1 5 b of the reel shaft 15 is exceeded, the reel 4 can be detached from the reel shaft 15 and the detached roll is removed. When the front end of the roll coaxial 1 5 is attached, the first and second fall prevention members 67 and 68 are pressed by the tapered surface portion 15 5 of the spool shaft 15 . In the case of the tapered surface portion 15b, the first and second detachment prevention members 67 and 68 are elastically locked to the locking groove 15c, and the spool 4 is non-rotatably coupled to the spool shaft. • [Structure of the traction mechanism] The traction mechanism 9 As shown in Fig. 2, the traction adjusting portion 57 for adjusting the traction force and the friction portion 58 for adjusting the frictional force by the traction adjusting portion 57. The traction adjusting portion 57 has a screw support to the reel support. The operation member 60 of the shaft 8 and the pressing member (an example of the connection member of the present invention) 61 that presses the friction portion 58 by the operation member 60 are pressed. The operation member 60 has a knob handle 60b provided with a knob protrusion 60a projecting radially in three directions, and an operation member 60 provided with a knob flange 60c fixed to the knob handle 60b. In the knob flange 60c, the nut 62 of the male screw portion 8e screwed to the spool support shaft 8 is mounted so as to be non-rotatable and movable in the axial direction. Between the nut 62 and the pressing member 61, the coil spring 63 for smoothing the traction is mounted in a compressed state. The pressing member 61 is rotatably provided in the axial direction so as to be movably attached to the spool support shaft 8 disposed around the spool shaft 15. Further, the pressing member 61 is rotatably and detachably coupled to the operating member 60. As shown in Fig. 5, the pressing member 61 has a cylindrical body member 7A and an elastic system formed by, for example, insert molding and the body member 70-body-16-200800012 (14). Sealing member 71. As shown in Fig. 6 and Fig. 7, the main body member 70 is, for example, a member made of a synthetic resin, and has a cylindrical portion 70 & and a cylindrical portion 7 (a large-diameter portion 70b for preventing falling off). The cylindrical portion 70a has a non-circular hole 70c that is non-rotatably engaged with the non-circular portion 8c at the inner peripheral portion. The non-circular hole 7〇c has a shape that engages with the tapered surface portion 8cl1. An oblong hole of the engaging surface 70d. A step portion 70e for mounting the anti-drop ring 64a shown in Fig. 2 is formed behind the crotch portion 70b. The anti-drop ring 64a is prevented from being locked. The detachment prevention spring 64b on the inner circumferential surface of the knob flange 60c is prevented from coming off. The pressing member 61 to which the detachment preventing ring 64a is attached is prevented from falling off relative to the knob flange 60c. In the body member 70, At the time of insert molding of the sealing member 71, the plurality of inflow holes 70f for pouring the elastic molding material to be the sealing member are disposed at intervals in the circumferential direction, and are formed in the front portion of the inner peripheral portion for storage and accommodation. Coil spring "3. The spring cylindrical storage space is 70g. As shown in Fig. 2, the tip end of the seal ring 72 for the gap between the inner circumferential surface of the sealing bobbin portion 7a and the outer peripheral surface of the pressing member 61 is in contact with the outer peripheral surface of the cylindrical portion 70a of the main body member 70. The seal ring 72 is provided to prevent liquid from penetrating into the traction mechanism 9. The tip end of the seal ring 72 is in the shape of a sharp lip. Thereby, the rotation resistance can be reduced even when the reel 4 is rotated during the traction operation. The sealing member 171 is an elastic member made of a synthetic resin such as nitrile rubber as shown in Fig. 5. The sealing member 171 is a sealing hole 7 1 a having a non-circular hole 70c arranged in parallel in the axial direction and which is in contact with the non-circular portion 8c. The sealing hole 7 1 a has the same oblong shape as the non-circular hole 70c. -17- (15) (15) 200800012 At the intermediate position in the axial direction of the seal hole 7 1 a, a ring-shaped lip portion 7 1 b having a mountain shape smaller than the non-circular hole 70c and having a tip end is formed. The lip portion 7 1 b is formed to protrude in full contact with the non-circular portion 8c. In this manner, the non-circular hole 70c that is engaged with the non-circular portion 8c and the sealing member 711 that contacts the sealed non-circular portion 8c are arranged side by side in the axial direction, so that the reel support shaft 8 and the connecting member are The non-circular gap in which the sealing of the pressing member 61 is difficult is reliably sealed, and since the non-circular hole 7〇c is engaged with the non-circular portion 8c, deformation of the sealing member at the time of traction operation can be suppressed. Further, since the gap on the outer peripheral side of the pressing member 61 can be sealed by the seal ring 72, the liquid is less likely to intrude into the traction housing space 7j. Further, since the lip portion 7 1 b is provided in the sealing member 711, the sliding resistance of the spool support shaft 8 becomes small, the pressing member 61' can be smoothly attached and detached, and the traction adjusting portion 57 can be smoothly rotated when the traction adjusting portion 57 is rotated in the slack direction. Reduced. A traction knob sounding mechanism 54 that sounds when the operating member 6 is rotated to perform traction adjustment is disposed between the operating member 60 and the pressing member 61. The friction portion 58 is attached between the pressing member 61 and the mounting circular plate portion 7e of the spool body 7 as shown in Fig. 2 . The friction portion 58 has first discs 76a and 76b that are non-rotatably coupled to the non-circular portion 8c of the spool support shaft 8, and an ear that is non-rotatably coupled to the inner peripheral surface of the bobbin portion 7a. The two-disc 77 and the traction disc 78 disposed between the two first discs 76 & 76b and the second disc 77 and between the first disc 76b and the disc portion 7e. The first disc 76a is in contact with the pressing member 61 and is pressed by the pressing member 61. The third disk piece 76a is not rotated with respect to the pressing member 61 because the shaft 8 is not rotatable for the reel support -18-200800012 (16). The sealing member 71 contacts the front surface of the first disc 76a. The second disc 77 is non-rotatably coupled to the winding bobbin portion 7a by engaging the ear portion 77a projecting in the radial direction with the locking groove 7g. The friction portion 58 is prevented from falling off by the fall prevention spring 73. [Operation and Operation of the Reel] φ In the spinning reel, the guide arm 40 is lowered toward the line opening posture when the line is ejected during throwing. As a result, the fishing line is sequentially discharged from the leading end side of the reel 4 by the self-weight of the bait. At this time, since the fishing line which is in contact with the flange portion 7vc is easily scratched, the outer peripheral portion is provided with the flange guard ring 25 having a large specific gravity, so that the wear resistance or durability of the outer peripheral portion of the flange portion 7c can be maintained. . At the time of online winding, the guide arm 40 is returned toward the wire take-up posture side. dirty. When the operating lever assembly 1 is rotated in the wire winding direction, it can be automatically performed by a ring reversing mechanism (not shown). The rotational force of the operating lever assembly 1 is transmitted to the pinion gear 12 through the main gear shaft 10 and the main gear U. The rotational force transmitted to the pinion 12 is transmitted from the front portion 12a to the rotor 3 and is transmitted to the swing mechanism 6 by the intermediate gear 23 meshed with the pinion gear 12 by the speed reduction mechanism. As a result, the rotor 3 rotates in the winding direction of the wire and reciprocates the reel 4 toward the front and rear. When the fish is hooked, the traction mechanism 9 is actuated by the pulling of the fish and the reel 4 is reversed. When the traction is actuated, the first discs 76a, 76b are not rotatable to the reel support shaft 8, and the second disc 77 is rotated by the reel 19-200800012 (17) for the reel 4, so by pulling the disc 78 Sliding occurs between the first discs 76a and 76b and the second disc 77. The traction force at this time is determined by the pressing force of the first disk 76a of the pressing member 61 set to the rotation of the operating member 60 of the traction adjusting portion 57. When the spinning reel is immersed, for example, when it is immersed in a water tank or the like, the water intrudes into the traction storage space inside the reel 4, but the gap on the inner circumference side of the traction storage space 7j is the pressing member 6 1 The inner φ circumference and the reel support shaft 8 are sealed by the sealing member 71 and the gap on the outer peripheral side, that is, the inner peripheral surface of the pressing member 61 and the winding bobbin portion 7a is sealed by the sealing ring 7 2 'So it is possible to surely prevent liquid from penetrating into the traction storage space 7j. Moreover, the reel 4 having the traction mechanism 9 can be mounted by the one-touch loading and unloading mechanism 65. Since it is unloaded, it is not necessary to rotate the operating member 60 during loading and unloading. Therefore, even if the setting of the traction force of the loading and unloading reel 4 does not change. Therefore, the total reel 4 can appropriately set the traction force or the size of the fishing line in accordance with the fish species of the fishing object or the like. [Other Embodiments] (a) In the above-described embodiment, the present invention will be described by way of an example of a pressing member attached to a reel of a deep groove type spinning reel which can be attached and detached, but the connecting member of the present invention. Not limited to these. For example, the present invention can also be applied to a pressing member or a first disc which is directly attached to the spool shaft so as not to be rotatable. (b) In the foregoing embodiment, the sealing member 71-20-200800012 (18) is integrally formed with the body member 70 by insert molding, but it is also possible to separate the sealing member from the body member. (c) In the above embodiment, the present invention is described by taking a pressing member of a spinning reel as an example. However, the connecting member of the handle shaft or the reel shaft that is non-rotatably attached to the double-bearing reel can also be applied. invention. In Fig. 8, a star-shaped tractor mechanism 109 is mounted in the handle shaft 110 as a shaft member of the dual-bearing reel. The star-shaped tractor mechanism 109 is a rotation in the line discharge direction of the brake drum 112 via the main gear φ 120. The star-shaped retractor mechanism 109 has a star-shaped retractor 103 for an operation member screwed to the handlebar shaft 110, and a traction pad hidden (an example of a connection member) that is non-rotatably attached to the handlebar shaft. And a traction disc 162 disposed between the traction washer 161 and the main gear 120. The handle shaft 110 is a non-circular portion 11 Ob provided with a pair of tapered surface portions 1 1 0a which are parallel to each other on the outer peripheral surface. The handle shaft 1 1 0 is prohibited from rotating in the direction in which the wire is discharged by the one-way clutch 涩 1 2 5 attached to the reel body 102, and only the wire winding direction is rotatable. The traction washer 1 6 1 is non-rotatably engaged with the non-circular portion U Ob and is rotated integrally with the handle shaft 1 1 0 and has a shaft that is integrally coupled to the one-way clutch 1 2 5 The body member 1 70 of the non-circular hole 1 70 a of the wheel 1 2 5 a and the sealing member 171 having the sealing hole 171 a arranged side by side in the axial direction in the non-circular hole 1 70a. The non-circular hole 170a is a pair of engaging surfaces (not shown) similar to the above-described embodiment, which are non-rotatably engaged with the tapered surface Π 0a. In addition to the engagement surface, there is also an engagement recess (not shown) that engages with the pair of locking projections 125b that are formed inwardly in the axial direction and that are formed in the inner ring 1 2 5 a of the one-way clutch 1 25 . . Thus, the inner wheel -21 - 200800012 (19) 125a can also be rotated integrally with the handle shaft 110. Further, the seal hole 171a does not have a recess corresponding to the engagement recess, and forms an entire circumference which can contact the outer peripheral surface of the handle shaft 1 1 〇. The sealing member 171 is an elastic member of the same material as that of the above embodiment, and has a lip portion (not shown) in the sealing hole 171a. The sealing member 171 is formed integrally with the body member 170 by insert molding. Further, the sealing member 171 is disposed adjacent to the traction washer 161 when the traction is actuated, and is not in contact with the relatively rotating main gear 126. Thus, since the sealing member 177 is not in contact with the member adjacent to the relative rotation, the coupling member, that is, the traction washer 161 and the abutment member are relatively rotated, and the frictional force does not occur at the sealing member 171. Therefore, it is possible to surely prevent damage or peeling of the sealing member due to the occurrence of frictional force. The traction washer 161 of such a structure can also achieve the same effects as the foregoing embodiment. (d) In the foregoing embodiment, the present invention is described by taking a connecting member (pressing member or traction washer) provided in the traction mechanism as an example, but the present invention is not limited to these, for example, for a spinning wheel having a non-circular portion The inner ring of the rotor or the one-way clutch in which the pinion of the reel is not rotatable is also applicable. In Fig. 9, the pinion gear 12 is a cylindrical member through which the spool shaft 15 penetrates, and is rotatable about the spool shaft 15. The spool shaft 15 is rotatably and rotatably supported by the pinion gear 12 toward the shaft. The pinion gear 12' has a tapered surface portion 12c as a non-circular portion 12b on the outer peripheral surface. The tapered surface portion 1 2c is formed from the front portion 1 2a of the pinion gear 12 to the front side of the gear portion 1 2d. -22- 200800012 (20) The inner ring (an example of the connecting member) 253 of the one-way clutch 51 of the reverse rotation preventing mechanism 50 is coupled to the pinion gear 1 2 so as not to be rotatable relative to each other. Between the inner wheel 253 and the hub portion 4 2 of the rotor 3, a cap member 257 for auxiliary sealing is attached. The cap member 25 7 is an end peripheral surface and an end surface of the end portion of the hub portion 42 that covers the rotor 3, and is held by the inner ring 253 and the hub portion 42. The inner wheel 2 5 3 has a main body member 25 5 provided with a non-circular hole 2 5 5 a engaged with the tapered surface portion 1 2 c, and a non-circular Φ hole 255a arranged in parallel in the axial direction. The sealing member 256 of the sealing hole 25 6a. The non-circular hole 2 5 5a is a pair of engaging faces (not shown) similar to the above-described embodiment, which are non-rotatably engaged with the tapered surface portion 1 2 c. The sealing member 255 is an elastic member of the same material as that of the above embodiment, and has a lip portion (not shown) in the sealing hole 256a. The sealing member 256 is formed integrally with the body member 25 by insert molding. The body member 25 5 is a contact cap member 25 7 , whereby the sealing member 256 can be prevented from being deformed when the nut 33 is screwed. Further, in order to prevent the liquid from intruding from the outer peripheral side of the inner ring 253, the cover 2 5 8 disposed in front of the one-way clutch 5 1 and preventing the inner wheel 253 from coming off is provided with a gasket-shaped seal. Board 259. The outer peripheral side of the sealing plate 259 is an inner peripheral side of the cover plate 258. The inner peripheral side having a thinner tip end is an outer peripheral surface of the contact cap member 257. By attaching the inner ring 253 of such a configuration to the pinion gear 12, it is possible to prevent liquid from penetrating into the inside of the reel body 2 from the gap between the inner ring 253 and the pinion 12. In particular, since the inner ring 25 3 is formed not by molding but by mechanical processing, the machining cost increases when the non-circular hole 25 5 a is machined into the same shape as the non-circular portion. Therefore, the 'non-circular hole 2 5 5 a ' turns -23- 200800012 (21). A rectangular hole having an arc having an engaging surface that engages with the tapered surface portion 1 2 c is often formed. In this case, the gap with the outer peripheral surface of the pinion becomes large, and the liquid easily penetrates. Here, by providing such a sealing member 2 5 6 a, penetration of liquid can be prevented. This embodiment can also achieve the same effects as the foregoing embodiment. BRIEF DESCRIPTION OF THE DRAWINGS [Fig. 1] A left side cross-sectional view of a spinning reel according to an embodiment of the present invention. [Fig. 2] A cross-sectional view of the reel. . [Fig. 3] A cross-sectional view of the spool support shaft. [Fig. 4] A cross-sectional view taken along line IV-IV of Fig. 3. [Fig. 5] A cross-sectional view of the pressing member. [Fig. 6] Rear view of the body member. [Fig. 7] A sectional view taken along line VII-VII of Fig. 6. Φ [Fig. 8] A cross-sectional view of a double bearing reel according to another embodiment of the present invention. Fig. 9 is a cross-sectional view showing the vicinity of a one-way clutch of a spinning reel according to another embodiment of the present invention. [Main component symbol description] 1 : Operation lever assembly 1 a : Handle shaft 2 : Reel body -24 - 200800012 (22) 2 a : Reel housing 2b : 竿 Mounting foot 3 : Rotor 4 : Reel 5 : Rotor drive mechanism 6 : Swing mechanism 7 : Reel body _ 7 a : Winding 胴 7b : Skirt 7 c : Flange portion 7d : Screw barrel portion 7e : Mounting disc portion 7 f : Mounting tube portion 7 g : Card Groove 7h: Sealing groove • Spring mounting groove 7j: Traction storage space 8: Reel support shaft (an example of a shaft member) 8a: Shaft portion 8b: Crotch portion 8c: Non-circular portion 8cl: Cone surface 8c2 : Arc portion 8d : Engagement groove -25 - 200800012 (23) 8e : Male thread portion 8f : Mounting groove 8 g : Notch portion 8h : First inner peripheral portion 8i : Second inner peripheral portion 8j : Embedding slit 8 k : Adjusting the washer mounting part • 9 : Traction mechanism 1 〇 : Main gear shaft 10 a : Engagement hole 1 1 : Main gear 12 : Pinion (an example of shaft member) 1 2 a : Front part 12b : Non-circular Shape 1 2 c : Cone surface _ 1 2 d : Gear portion 14a, 14b: Vehicle bearing 1 5 : Reel shaft 1 5 a : Through hole 1 5 b : Cone surface 1 5 c : Locking groove 1 8 : Snap pin 19 : Ο ring 21 : screw shaft -26 200800012 (24) 22 : 2 3:24 : 24a : 25 : 30 : 3 1 :
33 : 40 : 41 : 42 : 50: 5 1: 52 :33 : 40 : 41 : 42 : 50: 5 1: 52 :
54 : 55 : 56: 57 : 58 : 60 : 60a 60 b 滑件 中間齒輪 凸緣固定構件 錐面 凸緣保護環 圓筒部 第1轉子臂 第2轉子臂 螺帽 導環臂 前壁 轂部 逆轉防止機構 單向離合器 切換機構 阻線部 牽引旋鈕發聲機構 返回彈簧 牽引發聲機構 牽引調整部 摩擦部 操作構件 :旋鈕突起 :旋鈕把手 -27 200800012 (25) 60c :旋鈕凸緣 6 1 :按壓構件(連結構件的一例) 62 :螺帽 63 :捲簧 64a :防止脫落環 64b :防止脫落彈簧 65 :單向離合器裝卸機構 φ 66 :按鈕 66a :推操作部 66b :防止脫落鍔部 66c :筒狀部 6 6 d :按壓部 66 e :突起部 6 6 f :傾斜面 67 :第1防止脫落構件 _ 67a :彎曲部 67b :保持部 6 7 c :連結部 68 :第2防止脫落構件 6 8 a :卡合部 6 8 b :被保持部 69 : C型扣環 70 :本體構件 7 0 a ·圓同部 -28- 200800012 (26) 7 0 b :鍔部 70c :非圓形孔 70d :卡合面 70e :段差部 70f :流入孔 70g :收納空間 7 1 :密封構件 _ 7 1 a :密封孔 7 1 b :唇緣部 7 2 :密封環 73 :防止脫落彈簧 76a :第1碟片 76b :第1碟片 77 :第2碟片 7 7 a :耳部 _ 78 :牽引碟片 80 :圓板構件 8 1 :調整構件 82 :爪構件 8 8 :軸部 102 :捲線器本體 103 :星狀牽引器 109 :星狀牽引器機構 1 1 〇 :手把軸(軸構件的一例 -29 .200800012 (27) 1 1 Oa :錐面部 1 10b :非圚形部 1 12 :捲筒 1 2 0 :主齒輪 125 :單向離合器 1 2 5 a :內輪 125b :卡止突起 _ 161 :牽引墊圈 162 :牽引碟片 170 :本體構件 170a :非圓形孔 1 7 1 :密封構件 1 7 1 a :密封孔 2 5 3 :內輪(連結構件的一例) 2 5 5 :本體構件 _ 2 5 5 a :非圓形孔 2 5 6 :密封構件 2 5 6 a :密封孔 2 5 7 :帽構件 2 5 8 :蓋板 2 5 9 :密封板 -30-54 : 55 : 56 : 57 : 58 : 60 : 60a 60 b Sliding intermediate gear flange fixing member tapered flange protection ring cylindrical portion 1st rotor arm 2nd rotor arm nut guide ring arm front wall hub reversal Prevention mechanism one-way clutch switching mechanism resistance line traction knob sounding mechanism return spring traction sounding mechanism traction adjustment part friction part operation member: knob protrusion: knob handle-27 200800012 (25) 60c: knob flange 6 1 : pressing member (link (An example of the member) 62 : Nut 63 : Coil spring 64 a : Fall prevention ring 64 b : Fall prevention spring 65 : One-way clutch attachment mechanism φ 66 : Push button 66 a : Push operation portion 66 b : Prevention of falling off portion 66 c : Cylindrical portion 6 6 d : pressing portion 66 e : projection portion 6 6 f : inclined surface 67 : first prevention preventing member _ 67a : bending portion 67 b : holding portion 6 7 c : coupling portion 68 : second prevention preventing member 6 8 a : card Joint portion 6 8 b : held portion 69 : C-type retaining ring 70 : body member 7 0 a · rounded portion -28- 200800012 (26) 7 0 b : 锷 70c: non-circular hole 70d: engaging surface 70e: step portion 70f: inflow hole 70g: accommodation space 7 1 : sealing member _ 7 1 a : sealing hole 7 1 b: lip portion 7 2 : seal ring 73 : fall prevention spring 76a : first disc 76b : first disc 77 : second disc 7 7 a : ear _ 78 : traction disc 80 : disc member 8 1 : Adjustment member 82 : Claw member 8 8 : Shaft portion 102 : Reel body 103 : Star tractor 109 : Star tractor mechanism 1 1 〇 : Handle shaft (an example of a shaft member -29 . 200800012 (27 1 1 Oa : Cone face 1 10b : Non-圚 1 1 : Reel 1 2 0 : Main gear 125 : One-way clutch 1 2 5 a : Inner wheel 125b : Engagement protrusion _ 161 : Traction washer 162 : Traction Disc 170: body member 170a: non-circular hole 1 7 1 : sealing member 1 7 1 a : sealing hole 2 5 3 : inner ring (an example of a connecting member) 2 5 5 : body member _ 2 5 5 a : Round hole 2 5 6 : sealing member 2 5 6 a : sealing hole 2 5 7 : cap member 2 5 8 : cover plate 2 5 9 : sealing plate -30-