A7 __ B7 _ 五、發明說明< ) (發明所屬之技術) (請先《讀背面之注意事項再填寫本頁) 本發明有關於線長計測裝置,特別是有關於計測從釣 魚用捲軸之繞線輪所送出或捲取於繞線輪之釣線之長度之 '用之釣魚用捲軸之線長計測裝置。 (先前技術) 在於兩軸承捲軸或單軸承捲軸等之釣魚用捲軸中,具 備有以從繞線輪所送出之釣線之長度來顯示釣魚機構之水 深之水深顯示裝置者係已眾所知(日本專利公報特開平2 一 1 0 7 9 0 8號),由於設置此水深顯示裝置而可以裝 釣魚機構正確的降下於同一棚位置(水深位置),或擲釣 時之釣魚機構之飛行距離。 此種水深顯示裝置係具有計測繞線輪旋轉時之自繞線 輪所送出之線長之線長計測部,及以線長計測部所計測之 線長來顯示水深之,例如由液晶顯示器所成之水深顯示部 經濟部智慧財產局貝工消费合作社印製 ,線長計測部乃由繞線輪之旋轉數來算出線長。又繞線輪 之線卷徑乃隨著對於繞線輪之開始捲繞之旋轉數及線之粗 細度而變化,繞線軸之每一旋轉單位之線長係依線卷徑而 會改變,所以以往係考慮繞線輪旋轉數或線之粗細,而從 繞線輪所旋轉之數來算出線長。 具體的說,在捲軸上裝置,接觸於繞線輪之釣線捲取 部份之外周之線長檢出器,當對繞線輪上捲繞釣線時,學 習,以線長檢出器所計測之實際之線長與繞線輪所旋轉之 數元關係,而將該關係記億於裝置內部之記憶器內。並且 -4- 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 五、 發明說明ί ) 在釣 隹 y» 時解 開 線 長 檢出 器 , 從記 憶 器 中 讀 出 繞 線 輪 所旋轉 之 數 及 線 長 之 關 係 由 而 從 繞 線 輪 所 旋 轉 之 數 來 算 出 線長。 另 —* 方面 繞 線 輪 之 直 徑 係 以 所 販 賣 之單位 之 10 0 .公 尺 單 位 地 繞 線 可 能 的 隨 著 捲 軸 之 大 小所 設 定 之 尺 寸之釣 線 予 以 設 定而成 〇 例如 將 6 號 釣 線 捲 繞 3 0 0 公 尺即可 以 將 釣 線 捲 繞 到 繞 線 輪 之 突 緣 部 之 周 緣 0 惟 捲 繞 比 它細之 釣 線 例如 4 號 釣 線 時 一 如 捲 繞 到 繞 線 輪 之 突 緣 之周緣 即 有 4 2 0 公 尺 之 零 數 有 零 數 時 多 購 該 零 數 之釣 線乃不 經 濟 之 事 因 此欲 捲 繞 此 種 被 設 定 之 繞 線 輪 會 有 零 數之釣 線 時 通 常 採 取 預 先在 繞 線 輪 上 捲 繞 下 層 線 或將呼稱 爲 省 線 器 之 筒 體 裝 置 於 繞 線 筒 之 後 例如將 3 0 0 公尺之 釣 線 捲 繞 於 繞 線 輪 之 方 式 〇 ( 發 明 所 欲 解 決 之 問 題 ) 在 以 往 之 構 成 乃 考 慮 了 繞 線 輪 之 旋 轉 數 及 線 之粗細所 致 之 卷 徑 之 變 化 而 算 出 線 長 所以 實 長 與 算 出 之 線 長之誤 差 係 與 直 接 的 從 繞 線 輪 所旋 轉 之數來 算 出 線 長 相 比其誤差 較 小 〇 惟在釣 線 上 實 際 的 有 張 力 之作用 時 > 捲 繞 於 繞線輪 之釣 線 間 之 間 隙 會 變 小 繞 線 輪 每 ~~* 旋 轉 單位之 線 長會減 少 將 捲 繞 同 -—· 線 長 之 釣 線 時 須 要 較 多 轉 地 旋 轉 繞 線輪才 可 以 換 之 如 在釣 線 上 有 張 力 之 作用 時 繞 線 輪 所旋轉 之數 與 實 際 之 線 長 之 關 係 將 與 記 憶 於記 憶 器 之 關 係變爲 不 相 同 所 顯 示 之 線 長 將 較 實 際 之 線 長 爲 長 〇 於 是 有 當 對 釣 線 有 張 力 之 作用水 深 顯 示 有 發 生偏差 本紙張尺度適用中國國家標準(CNS)A4規格(210 χ 297公釐〉 -5- A7 ________B7_ 五、發明說明4 ) (請先《讀背面之注意事項再填寫本頁) 時’用於補正繞線輪所旋轉數與每單位旋轉之線長之相關 關係之技術係揭示於曰本專利公報特開平9 -2 3 6 4 2 8號。此公報所揭示之補正技術係,一面學習 '繞線輪之每單位旋轉數之旋轉位置數據與線長之相關關係 ’且學習後記憶將釣線最爲送出時之最深位置,以資補正 從最深位置之相關關係。又在於補正時,藉由由張力之作 用所致之繞線輪斷面之變形予以模式化之式來變更相關關 係。因此藉由模式化之式而可實施正確之張力補正。惟依 實施此種方式之張力補正時,一方面補正用之數據量變爲 很多,同時計算式成爲很複雜,計算裝置之構成變爲複雜 同時價格將高昂。 再者,在上述以往之構成時,須要裝置爲了學習繞線 輪所旋轉之數與線長之關係之線長檢出器,該線長檢出器 係從對於繞線輪開始捲線到捲繞終了爲止之期間,接觸於 繞線輪之捲線部份之外周以資計測線長。並且學習終了後 卸開線長檢出器。因此使用紗長檢出器來學習之構成時, 該學習時之線長檢出器之裝卸很麻煩。 經濟部智慧財產局貝工消费合作社印製 本發明之課題爲,由釣線之張力之作用等而預先設定 之相關關係發生偏差之下,仍然得於使用廉價且簡單之構 成之計算裝置來實施補正者。 本發明之另一課題爲,使用下層線等時仍然不需用線 長檢出器等來簡單的學習線長與繞線輪旋轉數之關係者。 本發明之別之課題爲,不管釣線之開始捲繞之直徑’ 不需要用線長檢出器地簡單的可以計測線長者。 -6- 本紙張尺度適用中國0家標準(CNS)A4規格(210 X 297公釐) A7 B7 五、發明說明4:) (解決課題之手段) 請 先 閱 讀 背 面 之 注 有關第1發明之釣魚用捲軸之線長計測裝置乃 主要係用於計測自釣魚用捲軸之繞線輪所送出或捲取 於上述繞線輪之釣線之長度之用之釣魚用捲軸之線長計測 裝置,其特徵爲,具備有:旋轉位置數據檢出機構,及關 係記憶機構,及線長算出機構,以及傾斜變更機構。 旋轉位置數據檢出機構係用於檢出上述繞線輪之旋轉 位置數據者。 訂 關係記憶機構係以規定之線卷徑之釣線之每單位旋轉 之線長爲切片之一次函數來記憶,上述繞線輪之每單位旋 轉之_線長與上述旋轉位置數據之關係者。 線長算出機構係依據,以上述旋轉位置數據檢出機構 所檢出之旋轉位置數據及記憶於上述關係記憶機構之上述 一次函數而求出上述釣線之長度者。 傾斜變更機構係: 經濟部智慧財產局員工消费合作社印製 用於變更記憶於上述關係記憶機構之上述一次函數之 自上述切片之傾斜者。 在此線長計測裝置係,依據在關係記憶機構上,以一 次函數之形態地予以記億之繞線輪之每單位旋轉之線長及 旋轉位置數據之相關關係,可算出釣線之長度。並且在釣 線有張力等之作用,而所記憶之一次函數之相關關係有所 變化即藉由傾斜變更機構而變更從切片之傾斜由而實施補 正本例中,只要用變更從切片之傾斜之變更就可以實施補 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) A7 ____B7_ 五、發明說明ί ) 正,所以每單位旋轉之線長與旋轉位置之相關關係變化時 ,爲補正之用之計算處理變爲簡單,以廉價且簡單之構成 之計算裝置即可以實施補正也。 第2明乃如申請專利範圍第1項所述之釣魚用捲軸之 線長計測裝置,其中再具備:用於學習,當對於上述繞線 輪捲繞釣線時之略最終捲繞部份之釣線之規定長度與上述 旋轉位置數據檢出機構之檢出結果之測定關係之關係學習 機構,及依據上述測定關係,而求出上述繞線輪之每單位 線長與上述旋轉位置之上述相關關係之關係算出機構,而 在上述記憶機構上將記憶,以上述關係算出機構所算出之 上述相關關係者。 此時,當對繞線輪繞捲釣線時,學習在該略最終捲繞 部份之釣線之規定長度與旋轉位置數據檢出機構之檢出結 果之關係,換言之學習在最終捲繞部份之對於線卷徑之繞 線輪之每單位旋轉之線長。依照此測定關係求出對於從開 始捲繞到漸漸的變粗之線卷徑之對於繞線輪之每單位旋轉 之線長及旋轉位置數據之相關關係,而此相關關係即記憶 於關係記憶機構。並且讀出此相關關係,而以繞線輪之旋 轉位置之數據來算出線長。此例中,只以略最終捲繞部份 之短之規定長度之學習即可算出所以不裝置線長檢出器之 下就可計測線長,並且以學習來算出線長,所以不受釣線 之限定地可以計測線長。 有關第3發明之釣魚用捲軸之線長計測裝置乃: 如申請專利範圍第2項所述之裝置其中’上述關係學 先 閲 讀 背 面 之 注 項Η 再( 填丄 I裝 頁 訂 經濟部智慧財產局員工消费合作社印製 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -8- A7 A7 經濟部智慧財產局員工消费合作社印製 _B7 _ 五、發明說明《) 習機構乃具備有:當捲繞終了後,將上述釣線送出規定長 度份量時,或再捲繞時,接受由上述旋轉位置數據檢出機 構所檢出之上述繞線輪之第1旋轉位置數據之第1旋轉位 置數據接受機構, 上述關係算出機構乃具有:接受,自上述釣線之開始 捲繞於上述繞線輪之開始時到捲繞終了時之,以上述旋轉 位置數據檢出機構所檢出之上述繞線輪之第2旋轉位置數 據之第2旋轉位置數據接受機構,及接受上述捲繞開始時 之上述繞線輪之線卷徑之線卷徑接受機構,及 以上述第1及第2旋轉位置數據及上述規定長度及上 述線卷徑而使上述相關關係近似於一次函數之直線近似機 構者。 此時即,以對於繞線輪捲繞釣線之終了後,以送出規 定長度之釣線或又再捲繞時之第1旋轉位置數據來求出最 終捲繞部份近傍之對於線卷徑之繞線輪之每單位旋轉之線 長。 並且著眼於,繞線輪之每單位旋轉之線長與繞線輪旋 轉位置數據之相關關係之回歸於以開始捲繞時之線卷徑之 線長爲切片之一次直線,而以捲繞開始到捲繞終了爲止之 第2旋轉位置數據,換言之繞線輪之總旋轉數,及第1旋 轉位置數據及規定長度,以及捲繞開始時之線卷徑而算出 一次直線之傾斜,而將每單位旋轉之線長與繞線輪旋轉位 置數據之相關關係近似於一次直線。並且將此一次直線, 自開始捲繞到旋轉位置數據所示之部份爲止的予以積分, i-VTITId·裝--------.訂· (請先閱讀背面之注$項再填寫本頁) 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -9 - A7 __ B7 _ 五、發明說明f ) 由而由旋轉位置數據即可求出線長。本例中,由於著眼於 相關關係之可回歸於~次直線,而以計算處理來算出旋轉 位置數據,因此計算處理容易,並且瞬時可以由旋轉位置 +數據來計測線長。 有關第4發明之釣魚用捲軸之線長計測裝置乃 在申請專利範圍第3項所述之裝置,其中上述傾斜變 更機構乃具備有:用於接受(受理)傾斜變更之傾斜變更 接受機構,乃將上述第2旋轉位置數據變更爲,上述傾斜 變更之被接受時之以上述旋轉位置數據檢出機構所檢出之 旋轉位置數據之第2旋轉位置數據變更機構, 接受上述傾斜變更之後,使用:以上述關係學習機構 所獲得之第1旋轉位置數據,及經變更之上述第2旋轉位 置數據’及上述規定長度,及上述線卷徑,而以上述直線 近似機構所近似之一次函數,以資變更由上述切片之傾斜 者。 此時,乃藉由使用於算出將記憶於記憶裝置之相關關 係之關係算出機構來算出傾斜,所以在傾斜之變更處理上 不需要特別的處理。 有關第5發明之釣魚用捲軸之線長計測裝置乃,在於 如申請專利範圍第1項所述之裝置,其中在上述記憶機構 中預先記億有上述相關關係者。 此時由於不須學習而相關關係已經記憶於關係記憶機 構中,因此可以省略記憶之手續。 有關第6發明之釣魚用捲軸之線長計測裝置乃,主要 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 閲 讀 背 面 之 注 項 再 填 本 頁 經濟部智慧財產局貝工消费合作杜印製 -10- A7 B7 五、發明說明4 ) (請先閱讀背面之注意事項再填寫本頁) 係用於計測自釣魚用捲軸之繞線輪所送出或捲取於上述繞 線輪之釣線之長度之用之釣魚用捲軸之線長計測裝置,其 特徵爲’具備有旋轉位置數據檢出機構,及關係記憶機構 ,及線長算出機構,以及切片輸入機構, 旋轉位置數據檢出機構係用於檢出上述繞線輪之旋轉 位置數據, 關係記憶機構係以規定之線卷徑之釣線之每單位旋轉 之線長爲切片之一次函數來記憶,上述繞線輪之每單位旋 轉之線長與上述旋轉位置數據之關係者。 線長算出機構係依據,以上述旋轉位置數據檢出機構 所檢出之旋轉位置數據,及記憶於上述關係記憶機構之上 述一次函數而求出上述釣線之長度者。 切片輸入機構係用於輸入記憶於上述關係記憶機構之 上述一次函數之切片機構者。 經濟部智慧財產局貝工消費合作社印製 本線長計測裝置乃,依據以一次函數之形態而記憶之 關係記憶機構之繞線輪之每單位旋轉之線長及旋轉位置數 據之關係來算出釣線之長度,並且施予下層線之捲繞之後 捲繞釣線時,實施將不是以繞線輪之線卷筒直徑來切片, 而以下層線之直徑來實施切片之輸入。例如在繞線輪上標 上規定之標記,而將下層線捲繞到該處。並且當切片輸入 之被接受(受理)時,即將切片設定於規定之値(例如標 記處之線卷徑)。並且以所輸入之切片及學習結果來決定 一次函數。本例中構成爲可以輸入切片,所以施予以下層 線之捲繞之下仍然很容易決定一次直線,使用下層線之捲 -11 - 本紙張尺度適用t國國家楳準<CNS)A4規格<210 X 297公釐) A7 B7 五、發明說明4 ) 繞等而使捲繞開始時之線卷徑有變動之下,仍然不需要使 用線長檢出器簡單的學習線長與繞線輪旋轉數之關係也。 (請先閱讀背面之注意事項再填寫本頁) 有關於7發明之釣魚用捲軸之線長計測裝置乃在於如 申請專利範圍第6項所述之裝置,其中再具備:用於學習 ,當對於上述繞線輪捲繞釣線時之略最終捲繞部份之釣線 之規定長度與上述旋轉位置數據檢出機構之檢出結果之測 定關係之關係學習機構,及依據上述測定關係,而求出上 述繞線輪之每單位線長與上述旋轉位置之上述相關關係之 關係算出機構, 而在上述記憶機構上將記憶以上述關係算出機構所算 出之上述關係者。 經濟部智慧財產局員工消费合作社印黎 此時對於繞線輪捲繞釣線時,學習在於略最終捲繞部 份之釣線之規定長度與旋轉位置數據檢出機構之檢出結果 之測定關係,換言之學習最終捲繞部份之對於線卷徑之繞 線輪之每單位旋轉之線長,依據此測定關係來求出,對於 從開始捲繞而逐漸的變粗之線卷徑之繞線輪之每單位旋轉 之線長與旋轉位置數據之關係,而將此關係記憶於關係記 憶機構。 並且讀出該相關關係而由繞線輪之旋轉位置數據來算 出線長。本例中,只以略最終捲繞部份之短之規定長度之 學習,就可以算出,由線卷徑而變化之繞線輪之旋轉位置 數據及線長之關係,所以不須裝置線長檢出器之下,可以 計測線長。並且以學習來算出線長,所以不限定於釣線之 種類地可以計測線長也。 -12- 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公嫠) 經濟部智慧財產局貝工消费合作社印製 A7 ___B7___ 五、發明說明<0 ) 有關第8發明之釣魚用捲軸之線長計測裝置乃在如申 請專利範圍第7項所述之裝置,其中上述關係學習機構乃 具備有:當捲繞終了後’將上述釣線送出規定長度份量時 •,或再捲繞時,接受由上述旋轉位置數據檢出機構所檢出 之上述繞線輪之第1旋轉位置數據之第1旋轉位置數據接 受機構, 上述關係算出機構乃具有:接受,自上述釣線之開始 捲繞於上述繞線輪之開始時到捲繞終了時之,以上述旋轉 位置數據檢出機構所檢出之上述繞線輪之第2旋轉位置數 據之第2旋轉位置數據接受機構,及 接受上述捲繞開始之上述繞線輪之線卷徑之線卷徑接 受機構,及 以上述第1及第2旋轉位置數據及上述規定長度,及 上述線卷徑而使上述關係近似於一次函數之直線近似機構 者。 此時,以對於繞線輪之釣線之捲繞終了後所送出之規 定長之釣線或再捲繞時之第1旋轉位置數據來求出對於最 終捲繞部份近傍之線卷徑之繞線輪之每單位旋轉之線長。 並且著眼於繞線輪之每單位旋轉之線長與繞線輪旋轉位置 數據之關係之回歸於以捲繞開始時之線卷徑之線長之線長 爲切片之一次直線,由而以捲繞開始到捲繞終了爲止之第 2旋轉位置數據,換言之,由繞線輪之總旋轉數,及第1 旋轉位置數據及規定長度,及捲繞開始時之線卷徑來算出 一次直線之傾斜,由而將每單位旋轉之線長與繞線輪旋轉 (請先閲讀背面之注$項再填寫本頁) -J. Γ -裝---- ϋ I Mmm mt 訂---------. 本紙張尺度適用中國國家標準<CNS)A4規格(210 X 297公釐) -13- 經濟部智慧財產局員工消费合作社印製 A7 _B7_. _ 五、發明說明<1 ) 位置數據之相關關係近似於一次直線,並且將此一次直線 ,從開始捲繞時到旋轉位置數據所示之部份爲止地予以積 分,由而以旋轉位置數據而可以求出線長。本例中,由於 著眼於上述關係之回歸於一次直線,而以計算處理而從旋 轉位置數據來算出線長,因此計算處理很容易,從旋轉位 置數據而瞬時的可以計測線長也。 有關第9發明之釣魚用捲軸之線長計測裝置乃,在於 如申請專利範圍第8項所述之裝置,其中上述切片輸入機 構係,具備有:爲接受上述切片輸入之切片輸入接受機構 ,及當上述切片輸入之被接受時,將上述線卷徑變更爲預 先設定之線卷徑之線卷徑變更機構。 上述直線近似機構乃,當接受上述切片輸入之後,使 用上述關係學習機構所獲得之第1旋轉位置數據,及上述 第2旋轉位置數據,及上述規定長度,及經變更g上述線 卷徑而將上述關係近似於一次函數者。 此時,輸入記憶於關係記憶機構之切片之後P卩可算出 上述關係,因此由下層線之捲繞而使用開始捲繞時之線卷 徑有變動之下仍然簡單的可以決定一次函數。 有關第1 0發明之釣魚用捲軸之線長計測裝置,乃在 於如申請專利範圍第6項所述之裝置,其中上述關係記憶 機構中,預先記憶有上述關係者。 i 此時由於不須學習的可以將相關關係記憶^記憶機構 ,因此可以省略記億之手續。 有關第1 1發明之釣魚用捲軸之線長計測裝置’乃 裝--------^訂. (請先閱讀背面之注意事項再填寫本頁) 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -14- A7 B7_ 五、發明說明ί2 ) (請先閱讀背面之注意事項再填寫本頁) 主要係用於計測自釣魚用捲軸之繞線輪所送出或捲取 於上述繞線輪之釣線之長度之用之釣魚用捲軸之線長計測 裝置,其特徵爲:具備有:旋轉位置數據檢出機構,及函 '數算出機構,及線長算出機構以及切片算出機構。 旋轉位置數據檢出機構係用於檢出上述繞線輪之旋轉 位置數據者。 函數算出機構係以捲繞開始之釣線之每單位旋轉之線 長爲切片之函數來算出,上述繞線輪之每單位旋轉之紗長 與上述旋轉位置數據之關係者。 線長算出機構係依據以上述旋轉位置數據檢出機構所 檢出之旋轉位置數據與上述函數算出機構所算出之上述函 數來求出上述釣線之長度者。 切片算出機構而構係用於算出在上述函數算出機構所 使用之上述函數之切片數據之用者。 經濟部暫慧財產局員工消t合作社印製 本線長計測裝置乃,依據在函數算出機構以函數之形 態地算出之繞線輪之每單位旋轉之線長與旋轉位置數據之 關係來算出釣線之長度。並且在於使用下層線或省線器之 後捲繞釣線時,即將切片不採繞線輪之線卷筒直徑而採開 始捲繞時之線卷徑來實施切片之算出,並且以算出之切片 來算出新的函數。本例中由於構成爲得於算出切片,所以 開始捲繞釣線時之線卷徑有變化時可以重新決定函數,使 用下層線或省線器時,不受釣線之捲繞開始之直徑,不須 使用線長檢出器而簡單的可以計測線長也。 有關第1 2發明之釣魚用捲軸之線長計測裝置,乃在 -15- 本紙張尺度適用中國國家標準(CNS)A4規格(2】0 X 297公釐) 經濟部智慧財產局員工消费合作社印製 A7 B7 五、發明說明<3 ) 於如申請專利範圍第1 1項所述之裝置,其中上述函數係 一次函數者。此時由於繞線輪之每單位旋轉之線長與旋轉 位置數據之關係係簡單的一次函數,所以函數之算出很簡 .單。 有關第1 3發明之釣魚用捲軸之線長計測裝置係在申 請專利範圍第11項或第12項(第11發明或第12發 明)所述之裝置中, 上述函數算出機構係具有:用於學習,當對於上述繞 線輪捲繞釣線時之略最終捲繞部份之釣線之第1規定長度 與上述旋轉位置數據檢出機構之檢出結果之測定關係之關 係學習機構,以及依據上述測定關係以上述函數來求出, 上述繞線輪之每單位旋轉之線長與上述旋轉位置數據之上 述之關係之關係學出機構者。 此時乃在對於繞線輪捲繞釣線時學習,在略最終捲繞 部份之釣線之第1規定長度與旋轉位置數據檢出機構之檢 出結果之測定關係,換言之學習對於在最終捲繞部份之線 卷徑之繞線輪之每單位旋轉之線長,依據此測定關係及所 算出之切片,以函數來求出,對於從開始捲繞而逐漸變粗 之線卷徑之繞線輪之每單位旋轉之線長與旋轉位置數據之 關係,將此函數予以例如積分處理由而由繞線輪之旋轉位 置數據而可算出線長。本例中係由略最終捲繞部份之短之 規定長度之學習,就可算出由線卷徑而變化之繞線輪之旋 轉位置數據與線長之關係。所以不須裝置線長檢出器而可 計測線長。並且以學習來算出線長,所以不限定釣線之種 丨丨TI—I—ni--------;訂· (請先閲讀背面之注意事項再填寫本頁) 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐〉 -16- 經濟部智慧財產局員工消费合作社印製 A7 B7 五、發明說明“) 類地可計測線長者。 有關第1 4發明之釣魚用捲軸之線長計測裝置乃,在 於如申請專利範圍第1 3項所述之裝置,其中上述關係學 習機構係具有:接受,捲繞終了後,將上述釣線送出上述 第1規定長度份時,或再予以捲繞時,以上述旋轉位置數 據檢出機構所檢出之上述繞線輪之第1旋轉位置數據之第 1旋轉位置數據接受機構。 上述關係算出機構係具有,接受,對於上述繞線輪上 ,開始捲繞釣線時到捲繞終了時之,以上述旋轉位置數據 檢出機構所檢出之上述繞線輪之第2旋轉位置數據之第2 旋轉位置數據接受機構,及接受以上述切片算出機構所算 出之切片之切片接受機構,及 以上述第1及第2旋轉位置數據及上述第1規定長度 及上述切片而使上述關係近似於一次函數之函數近以機構 者。 此時係,由,對於繞線輪捲繞釣線之終了後,送出規 定長度之釣線或又再送出時之第1旋轉位置數據來求出, 最終捲繞部份近傍之對於線卷徑之對於繞線輪之每單位旋 轉之線長。並且著眼於繞線輪之每單位旋轉之線長與繞線 輪旋轉位置數據之關係係回歸於開始捲繞時之由線卷徑之 線長爲切片之一次直線,由而以從開始捲繞到捲繞終了爲 止之第2旋轉位置數據,換言之,以繞線輪之總旋轉數, 及第1旋轉位置數據,及第1規定長度,以及所算出之切 片來算出一次直線之傾斜,而使每單位旋轉之線長與繞線 本纸張尺度適用中國國家標準(CNS)A4規格(210 X 297公笼) -17- -----------0 S--------訂 (請先閱讀背面之注意事項再填寫本頁) A7 _______ B7 五、發明說明<5 ) 輪之旋轉位置數據之相關關係近似於一次直線’而將此一 次直線從開始捲繞時到旋轉位置數據所示之部份爲止地予 以積分而以旋轉位置數據來求出線長。本例中’由於著眼 於上述關係之回歸於一次直線,而以計算處理而由旋轉位 置數據算出線長,所以計算處理很容易,由旋轉位置數據 而瞬時地可計測線長也。 有關第15發明之釣魚用捲軸之線長計測裝置乃’在 於如申請專利範圍第1 4項所述之裝置,其中上述切片算 出機構係具備有:接受切片算出之切片算出接受機構’及 當上述切片算出之被接受時,斯後上述釣線之被捲繞第2 規定長度份時,接受以上述旋轉位置數據檢出機構所檢出 之上述繞線輪之第3旋轉位置數據之第3旋轉位置數據接 受機構,及以上述第1旋轉位置數據,及上述第2旋轉位 置數據,及上述第3旋轉位置數據,及上述第1規定長度 ,及上述第2規定長度來算出上述切片算出之被接受時之 線卷徑之線卷徑算出機構。 經濟部智慧財產局負工消费合作社印製 上述函數近以機構,係使用,上述切片算出之接受後 ,以上述關係學習機構所獲得之第1旋轉位置數據,及上 述第2旋轉位置數據,及上述第1規定長度,以依據上述 線卷徑算出機構所算出之線卷徑之切片,而使上述關係近 似於上述一次函數者。 此時係使用切片算出機構所算出之切片來算出一次函 數,所以捲繞下層線或裝置省線器時也可以算出該時之線 卷徑,因此由下層線等而開始捲繞時之線卷徑(切片)有 -18- 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) A7 ___JB7_____ 五、發明說明<6 ) 變動時,仍然精度良好的可以決定一次函數。 (請先閱讀背面之注意事項再填寫本頁) 有關於第16發明之釣魚用捲軸之線長計測裝置乃, 在於如申請專利範圍第11項或第12項所述之釣魚用捲 軸之線長計測裝置,其中更具備有,用於記憶以上述函數 算出機構所算出之上述關係之關係記憶機構者。 此時由於學習內容係被保存,所以欲算出線長時,即 讀出記憶機構之內容而簡單的可以算出。 (發明之實施之形態) (第1實施形態) 圖1所示之採用本發明之一實施形態之電動(釣魚用 )捲軸係具有以線送出長度(或線捲取長度來顯示水深之 水深顯示部之釣魚用捲軸。電動捲軸乃主要具備有,裝置 於釣桿R之捲軸本體1,及配置於捲軸本體1之側方之繞 線輪旋轉用之把手2,及配置於把手2之捲軸本體1側之 阻力調整用之星形阻力輪3。 經濟部智慧財產局員工消费合作社印製 捲軸本體1乃由左右1對之側板7a,7b及連結這 些之複數之連結構件8所成之台架7 ’及覆罩台架7之左 右之左右之側蓋9 a ,9 b。在把手2側(圖1之右側) 之側蓋9 b上旋轉自如地支撐有把手2之旋轉軸。在與把 手2之相反側(圖1之左側)之側蓋9 a上,設有用於連 接外部電源P S用之電源電線1 8之用之連接器1 9。 在捲軸本體1之內部即旋轉自如地支撐有連結於把手 2之繞線輪1 0。在繞線輪1 〇之內部,配置有將繞線輪 -19 - 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 經濟部智慧財產局員工消费合作社印製 A7 B7 五、發明說明<7 ) 1 0旋轉驅動於捲繞釣線方向之直流馬達1 2。又於捲軸 本體1之把手側側面配置有,使把手2及馬達1 2及繞線 輪1 0之驅動傳達予以ΟΝ/OFF之離合器(不圖示) 之操作桿11。將此離合器予以ON時,即在於藉由釣魚 裝置之自重之釣線送出中,可以停止線之送出動作。 再者,於捲軸本體1之內部係如圖2及圖3所示,設 有連動於繞線輪10而動作之水平捲繞機構13及連動於 繞線輪10而旋轉之磁鐵輪14以及將把手2之旋轉傳遞 於繞線輪1 0之傳遞機構(不圖示)等等。 磁鐵輪1 4係如圖3所示,旋轉自如地支撐於捲軸本 體1之側板7 a。磁鐵輪1 4乃鄰接於齒輪部1 4 a及齒 輪部1 4 a而形成於磁鐵部1 4b。在此磁鐵部1 4b上 隔著1 8 0度間隔地裝置有二個磁鐵1 4 c。齒輪1 4 a 上介著中間齒輪(不圖示)而嚙合於形成於繞線輪1 0之 繞線輪齒輪(不圖示)。該結果磁鐵輪14係連動於繞線 輪10而旋轉於與繞線輪10之同一方向。 在捲軸本體1之上部係,如圖1及圖2所示,固定有 計數器殼體4。計數器殼體4係如圖3所示,備有配置於 捲軸本體1之上部,而上面形成顯示窗20a ,下面形成 有第1開口 20b之殼體本體20,以及用於封閉殼體本 體2 0之第1開口 2 Ob之底蓋構件2 1。 殻體本體2 0係例如將尼龍以玻璃纖維來補強之合成 樹脂成型品,乃在捲軸本體1之上部之具有連續的彎曲之 平滑之外周面。 本紙張尺度適用中國國家標準(CNS)A4規格(210x 297公釐) -20- i!v 裝 -----—訂· (請先閲讀背面之注意事項再填寫本頁) 經濟部智慧財產局貝工消费合作社印製 A7 ___B7__ 五、發明說明{8 ) 顯示窗2 0 a係由透明樹脂製之顯示窗2 2所封閉’ 在殻體本體2 0之內部形成有可以形成箱狀之空間之角筒 狀之壁部2 0c,而該底部乃成爲第1開口 20 b ° 底蓋部構件21係例如將鋁合金等之導電金屬予以成 型所獲得之板狀之構件,以螺絲而安裝於殼體本體2 0 a 底蓋構件21係備有在左右隔著間隔的形成之第2及第3 開口21a、 21b。在底蓋構件21之兩開口21a、 2 1 b之間之領域形成有朝下方突出之突出部2 1 c。第 2開口 2 1 a乃如圖示之圓形之開口。以圓形之蓋構件 2 3來封閉。第3開口 2 1 b係形成於對向於磁鐵輪1 4 之位置之矩形之開口,以矩形之蓋構件2 4來封閉。這些 兩蓋構件23、 24均爲合成樹脂製之構件,以螺絲由內 側而安裝於底蓋構件2 1。 爲了防止由兩者之間,水之侵入於計數器殻體4內起 見在底蓋構件2 1與殼體本體2 0之第1開口 2 0 b之間 裝置有例如橡膠製之墊圈2 5。又在第2開口 2 1 a及第 3開口21b及兩蓋構件23、 24之間,也以同樣之目 的分別裝置有墊圈26、 27。由這些墊圈25〜27而 計數器殼體4之內部係對於外部水密地被封閉。 在計數器殻體4之上面,如圖4所示,介著顯示窗 2 2臨接有,以從水面及從水底之二個基準來顯示的@魚、 機構之水深或棚位置之用之液晶顯示器所成之水深 ,在水深顯示部之周圍設有操作按鍵部6。 水深顯示部乃具有:配置於中央之4位數之 II—_ί·ι—η · Μ--------訂. (請先閱讀背面之注意事項再填寫本頁> 21 - 經濟部智慧財產局員工消費合作社印製 ΚΙ Β7 五、發明說明<9 ) 之水深顯示領域5 a,及配置於該下方之3位數之底水深 顯示領域5 b,以及配置於水深顯示領域5 a之圖4右側 之變速段數顯示領域5 c。 又水深顯示部5乃可能顯示「從水底」、『學習」、 「指定」、「下層線j、 「修正」、「輸入j、 「送線停 j、 「零設定」,之8個文句。「從水底」之文句係水深 顯示模式之從水底之模式時予以顯示。從水底之模式乃以 水底基準來顯示釣魚機構之水深之模式。又通常釣魚機構 之水深係以水面基準。(從水上之模式)來顯示。又「學 習」〜「輸入」爲止之文句係表示捲線之種類,將其中之 一種選一的予以選擇即顯示所選擇之捲線之模式。 操作鍵部6乃具有上下排列的配置於水深顯示部5之 圖1右側之變速鍵S K,及馬達鍵P W,及右側上下排列 配置之底記憶鍵SM及模式鍵MD。 馬達鍵PW係一方面使馬達ON · OFF,同時以 〇 N時間而使馬達1 2增速之撥動式開關。 變速鍵SK乃用於增減速被驅動之馬達12用之鍵, 係具有上下二個開關及中立位置之蹺蹺板式之開關。按此 上下鍵S K之上開關即增速,按下開關即減速。又如果沒 有驅動馬達1 2時,將上開關按壓規定時間以上時,即可 以將顯示模式於「從水上」到「從水底」之間地可以切換 。又將下開關按壓規定時間以上時,可以將送線模式(送 出釣線時在切開離合器之狀態而驅動馬達12而使送線速 度增速)ON,OFF也。 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -22- « ϋ I —i I n I I I ^ f I ^ I I 1· I I I · I I I 1 I ϋ n (請先閱讀背面之注意事項再填寫本頁) A7 B7 五、發明說明ίο ) (請先閲讀背面之注意事項再填寫本頁) 底記憶鍵SM係釣魚機構之到達底時按壓之開關。該 時之水深做爲底而做設定。將此底記憶鍵SM按壓規定時 間以上時,就可以在釣線斷等時’將水深顯示之零點設定 '於新位置。 模式鍵MD係用於設定五種之捲繞模式用之開關。例 如按一下就可設定學習模式,連續按二下就可設定指定模 式連續按三下就可設定下層線模式,連續按四下即可設定 修正模式,連續按五下就可設定輸入模式地分別可設定捲 線模式。 學習模式係線徑或長度未知之釣線捲繞於繞線輪10 時所使用之捲線模式,學習線捲繞之最終部份之繞線輪之 旋轉數,與繞線輪之每一旋轉單位之線長之相關關係,以 資求出釣線全長範圍內之繞線輪旋轉數與每一旋轉單位之 線長之關係所使用之模式。 指定模式乃將使用記憶部4 3內已準備之號數及長度 之釣線捲繞於繞線輪時所使用之模式。 經濟部智慧財產局員工消费合作社印製 下層線模式乃,將下層線捲繞到預先指定之線卷徑之 後,將未知之釣線捲繞時所使用之模式。此下層線模式係 只有線卷徑之部份不同,基本上即與學習模式相同之想法 來實施學習。 修正模式係,當由張力等關係而顯示上發生偏差時用 於補正偏差時所使用。使學習模式所獲得之一次直線全體 之傾斜可以再計算地予以構成之模式。 輸入模式乃將繞線輪之總旋轉數與規定距離送出距離 -23- 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 經濟部智慧財產局貝工消费合作社印製 A7 B7 _ 五、發明說明A ) 任意的編輯的被構成之模式。 在計數器殼體4內之上部,有如圖2所示配置有水深 顯示部5 ’及實施顯示控制及馬達控制之繞線輪控制部 ' 30。在計數器殼體4內之下部配置有,將馬達12予以 PWM驅動之PWM驅動電路31。又於計數器殻體4內 之下部配置有蜂嗚器4 0及繞線輪感測器4 1。 繞線輪控制部3 0係,包含有,含有配置於計數器殼 體4內之CPU、 RAM、 ROM、 I/O介面等之微電 腦。繞線輪控制部3 0係依照控制程序來實施水深顯示部 5之顯示控制或馬達驅動控制等之各種控制動作。繞線輪 控制部3 0上,如圖5所示,連接有,用於檢出操作鍵部 6之各種鍵及繞線輪1 〇之旋轉方向及旋轉數(旋轉位置 數據)用之繞線輪計數器4 2。 又在繞線輪控制部3 0亦連接有蜂嗚器4 0,及 PWM驅動電路3 1,及水深顯示部5,及記憶部4 3, 以及其他輸入出部。 PWM驅動電路31乃含有用於驅動馬達12之驅動 元件之FET 32°PWM驅動電路31係由繞線輪 3 0來控制負載比,而可變的驅動馬達1 2之速度。 繞線輪感測器4 1係由如圖1所示之前後排列配置之 二個簧片開關4 la、4 lb所構成。簧片開關4 la、 4 1 b乃如圖3所示面臨於蓋構件2 4地予以配置,簧片 開關4 1 a、4 1 b乃用於檢出裝置於磁鐵輪1 4之二個 磁鐵14c、 14c。以繞線輪計數器42來計數此檢出 ίί:---1---^ -裝--------訂· (請先閲讀背面之注意事項再填寫本頁> 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -24- 經濟部智慧財產局貝工消费合作社印製 Α7 Β7 五、發明說明紅) 脈衝即可檢出繞線輪之旋轉數。又由那一個簧片開關 4 1 a、4 1 b之前發出檢出脈衝即可檢出繞線輪1 〇之 旋轉方向。 繞線輪計數器4 2係用於計數繞線輪感測器4 1之 〇 N OFF次數之計數器。由此計數値SP而可獲得有 關於繞線輪旋轉數之旋轉位置數據。繞線輪計數器4 2乃 繞線輪1 0之正轉(線送出方向之旋轉)即計數器減少, 而逆轉時即會增加。 記憶部4 3即例如由E E P ROM等之不揮發記憶體 所成,記憶有學習結果之數據或,算出線長時所使用之各 種數據等。 下面槪略的說明在本實施形態之線長算出方法。 本發明係利用可以令繞線軸每一旋轉單位之線長Y與 繞線輪旋轉數X之關係近似於一次直線以資算出線長L。 將粗細度與全長不淸楚之釣線,從線卷徑B mm層狀 的捲繞於繞線輪1 0上,假定在C旋轉而完成全部之釣線 之捲繞。接著由該狀態送出Smm之釣線時繞線輪1 〇旋 轉d次。 現在將繞線輪旋轉數X與繞線輪每一旋轉單位之線長 之關係,在橫軸上取繞線輪旋轉數X,在縱軸取繞線軸每 一旋轉單位之線長’即可以用一次直線來定義,所以將線 之傾斜爲A,就可以用下述式來表示: Y = AX + B;r (1) 本紙張尺度適用中國國家標準(CNS>A4規格(210 χ 297公釐) -25- ! — I.---1---裝--------訂. (請先閲讀背面之注$項再填寫本頁> A7 A7 經濟部智慧財產局員工消费合作社印製 B7 五、發明說明紅 ) 因此表示繞線輪旋轉數X與繞線輪一旋轉單位之線長 γ之關係之曲線圖將呈顯如圖6。 現在繞線輪10轉C次之繞線輪之一旋轉單位之線長 爲Y (c),而捲取c轉後,送出規定長度S而旋轉了 d 次時之繞線輪1旋轉次之單位線長爲Y(c - d),即這 些得以下式表示。 Y(c)=A*C + Btt (2) Y ( c - d ) = A · ( c - d ) + B 7Γ (3) 圖6中所示之曲線圖中以陰影線所示之台形之面積係 相當於捲繞終了後之線之送出長度S,所以線之送出長度 S得於以下式表示》 S = d* {Y(c)+Y(c-d)}/2 (4) 對於(4)式代入(2)、 (3),即 S = d · {A · C + B π +Α · (c-d) + B η }/2 =d · {A · (2c-d) + 2B π }I2 (5) 將(5 )式以傾斜A來解之即如下。 本紙張尺度適用中國國家標準(CNS)A4規格(210 x 297公釐) -26- -----;—-I—r•裝 • ϋ 1« I n 1 1 1 · . * t _ (請先閲讀背面之注意事項再填寫本頁) 經濟部智慧財產局員工消费合作社印製 A7 B7__ 五、發明說明ί4 ) A = 2(S- B7rd)/cI(2c-d) (6) 所以將4個數據s,B,c,d分別代入於(6)就 可以求出一次直線之傾斜A。 例1$Π繞線〇係從開始捲繞轉2 〇 〇 〇旋轉就捲完 。由該處送出1 Om時,繞線輪1 〇轉了 6 0旋轉,而繞 線輪1 0之線卷筒徑(線卷徑)係3 〇mm時,一次直線 之傾斜係如下。 A = 2(10000-94.2 * 60)/60(2 * 2000-60) = 0.0368 於是傾斜A ’切片Β 7Γ之近似之一次直線決定之後, 在記憶部4 3記憶:被算出之傾斜A及切片Β π及總旋轉 數c及在現在旋轉之數之線長及零設定時之旋轉之數(最 初時係與總旋轉之數相同)。並且在實釣時,當繞線輪 1 ◦旋轉時,以規定之定時(例如繞線輪1 〇每轉2 〇次 )讀出所記憶之數據,而將一次直線予以積分處理(算出 面積處理)。由而可求出該時之線長LN。並且依據所求 出之線長LN在水深顯示部5顯示釣魚機構之水深(釣線 先端之水深)。 下面依圖7以後之控制流程圖說明,以繞線輪控制部 3 0來實施之具體的控制處理。 介著電源線1 8將外部電源P S連接於電動捲軸。即 於步驟S 1實施初期設定,在此初期設定中,實施繞線輪 丨ί.---*|---ri--------:訂· (諳先閲讀背面之注意事項再填寫本頁) 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐〉 -27- A7 __B7 五、發明說明紅) 計數器4 2之計數値之復置。或各揮變數之復置。或水深 顯示模式設定爲從水上之模式。 在顯示處理實施水深 丨丨! ί if裝-------丨訂· (請先閱讀背面之注意事項再填寫本頁) 接著於步驟S 2實施顯示處理 '顯示等各種之顯示處理。本例中,挺水上之模式時,在水 深顯示領域5 a上顯示水面基準之水深,又如以底記憶鍵 S Μ而設定爲底位置時,即底位置係顯示於水深顯示領域 5b。 在步驟S 3中判斷操作鍵部6之其中之一鍵是否按下 又在步驟4即判斷繞線輪1〇是否在旋轉。此判斷係 由繞線輪感測器41之輸出來判斷。 在步驟S 5即判斷是否有其他之指令或輸入。如有鍵 輸入時,即由步驟S 3移至步驟S 6而實施鍵輸入處理。 又檢出繞線輪1 0之旋轉之檢出時,即由步驟S 4而移行 至步驟S 7,在步驟S 7實施各動作模式處理。 有其他指令或輸入時,從步驟S 5移至步驟S 8實施 其他處理。 經濟部智慧財產局員工消费合作社印製 在步驟S 6之鍵輸入處理中,判斷圖8之步驟S 1 1 而是否被設定捲線模式。此判斷係由模式鍵MD是否按下 來判斷。在步驟S 1 2即判斷馬達鍵PW是否按下。 在步驟s13即判斷變速鍵SK之上開關是否按下。 在步驟S 1 4即判斷變速鍵S K之下開關是否按下。 在步驟S 1 5即判斷其他之鍵是否被操作。該其他之 鍵操作中亦包含底記憶鍵S Μ之外之各鍵之規定時間以上 -28- 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公爱) 經濟部智慧財產局貝工消费合作社印製 A7 _B7__ 五、發明說明釦) 之按下操作。 模式鍵MD被按下時,從步驟S 1 1移至步驟s 1 6 〇 在步驟S 1 6中實施捲線模式。此捲線模式乃如上述 有,學習模式,指定模式,下層線模式,修正模式,輸入 模式。 馬達鍵PW之被按下時,就從步驟S 1 2移至步驟 S 1 7。 在步驟S 1 7中,實施馬達控制處理。在此馬達控制 處理中,如馬達1 2之不旋轉時,如按下馬達鍵PW時, 使馬達1 2 ON,而在該馬達鍵PW之ON時間份地逐 漸增加負載比而增加馬達12之旋轉。如馬達12在旋轉 中(按下時)將使馬達off。又馬達鍵PW係在馬達 1 2在旋轉中放手時,維持該旋轉,變速鍵SK也是同樣 〇 按下變速鍵SK之上開關時,由步驟S 1 3移至步驟 S 1 8 ° 在步驟S 1 8中,該按下時間份地逐漸增加負載比、 增加馬達1 2之旋轉,按下變速鍵之下開關時,由步驟 S 1 4移至步驟S 1 9。在步驟S 1 9中’以該時間份地 逐漸減少負載比而減少馬達1 2之旋轉。 實施其他鍵之輸入時,即由步驟S 1 5移至步驟 S 2 0。而實施例如設定於現在之水深之底棚値等等隨應 於鍵輸入之其他鍵處理。 ----:-------r -裝--------訂· , - (請先閲讀背面之注意事項再填寫本頁) 本紙張尺度適用+國國家標準(CNS)A4規格(2】0 X 297公釐) -29 - 經濟部智慧財產局具工消费合作社印製 A7 B7 五、發明說明) 在步驟S 1 6之捲線模式處理時,即在圖9之步驟 S 2 1來判斷是否學習模式。 在步驟S 2 2即判斷是否修正模式。 在步驟S 2 3即判斷是否下層線模式。 在步驟S 2 4中之判斷爲「否」時,移至步驟S 2 4 ’實施指定模式或輸入模式等之其他捲線模式。 判斷爲學習模式時,即從步驟S 2 1移至步驟S 3 1 ’判斷是否開始捲線。此判斷係以繞線輪感測器4 1來檢 出繞線輪10是否開始旋轉來判斷。 步驟S 3 2乃判斷捲線是否終了,此判斷即由是否按 定規定之鍵操作(例如底記憶鍵S Μ之規定時間以上之操 作)來判斷。在捲線終了後,例如送出1 〇m之釣線,以 資學習繞線輪旋轉數及繞線輪每一旋轉單位之線長,而在 步驟S 3 3即判斷該1 〇m之送出之是否終了。此判斷也 是由實施規定之鍵操作與否來判斷。又在釣線上例如每 1 Om地被實施不同之彩色時,即可實施上述之線送出之 操作’惟有時候釣線上並沒有施予分色彩處理,此時可以 將1 Om之釣線連結於前端,而捲取1 〇m之釣線實施學 習處理亦可以,如線送出未終了時即回至步驟S 3 1。 捲線之已被開始時,即由步驟S 3 1移至步驟S 3 4 0 在步驟S 3 4即隨應於繞線輪計數値而令繞線輪旋轉 數X增加。例如繞線輪感測器4 1,每繞線輪1旋轉單位 地輸出1 0脈衝,繞線輪計數器4 2之繞線輪每一旋轉單 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -30- — 171:----I---^ -裝--------訂. ^#f\. I (請先g讀背面之注意事項再填寫本頁) A7 B7____ 五、發明說明如) 位各增加1 0時,即繞線輪計數器4 2在增加1 〇時,使 繞線輪旋轉數X增加1。 (請先閲讀背面之注意事項再填寫本頁) 捲線終了而繞線輪1 0之旋轉停止時,由步驟S 3 2 ’移至步驟S 3 5。 在步驟S 3 5中將捲線完了時之繞線輪旋轉數X設定 爲總旋轉數c。 在步驟S 3 6即隨應於釣線之送出而減小繞線輪旋轉 數X。此減算也與步驟S 3 4同樣,例如繞線輪計數器値 每減1 0時,使繞線輪旋轉數X値減少1。 線送出終了時,由步驟S 3 3移至步驟S 3 7。 在步驟S 3 7即,從繞線輪總旋轉數c減算由線送出 所減少之繞線輪旋轉數X,將減算値設定於線送出旋轉數 d。此線送出旋轉數d乃將1 Om之釣線送出時之繞線輪 1 0之旋轉數也。 在步驟S 3 8從記憶部4 3讀取線卷徑Β π及送出長 度S。該二個數據係預先寫入於記憶部4 3中者。 經濟部智慧財產局貝工消费合作社印製 在圖1 0之步驟4 1中,以所獲得之四個數據c ’ d ,Βττ,S,而利用上述(6)式求出近似一次直線之傾 斜Α。算出一次直線。由而可以決定線徑及長度之未知之 釣線之全長範圍內之繞線輪每一旋轉單位長度Y與繞線@ 旋轉數X之相關關係。 在步驟S42,在於總旋轉數c之時點將所得 直線予以積分處理,算出開始捲線到捲線完成時之 LN»並且將線長LN設定爲水深「零」。 31 本紙張尺度適用尹國國家標準<CNS)A4規格(210 X 297公釐) Α7 Β7 五、發明說明ί9 ) (請先閲讀背面之注意事項再填寫本頁> 在步驟S 4 3即在記憶部4 3記憶,總旋轉數C,切 片B a,所獲得之傾斜Α及線長L Ν。這些處理完了後回 至鍵輸入流程。 被判斷爲「修正模式」時,即由步驟S 2 2移至步驟 S3 5,將該時之繞線輪旋轉數X設定於總旋轉數c,以 資實施步驟S 3 6以後之處理。由而可實施前述之處理。 如由張力之作用等而以前所學習之相關關係發生偏差時, 也不需要實施遍及釣線全體之學習,只以最終部份之學習 即可補正一次直線之傾斜也。 被判斷爲下層線時,即由步驟S 2 3移至步驟S 2 5 〇 經濟部智慧財產局員工消费合作社印製 在步驟S5,即將切片Βπ之値變更爲Βΐπ。線卷 徑Β 1係如圖2所示,在繞線輪1 〇之突緣部1 〇 a上環 狀地被做標記,將下層線捲繞到線卷徑B 1後就可以將較 通常之釣線細之釣線捲繞到指定之長度。例如將8號之釣 線2 0 Om捲繞到線卷筒部即可將釣線捲繞到突緣部 1 0 a之周緣部1 0 a之周緣部之釣線之可捲繞之繞線輪 1 0中,將下層線捲繞到線卷徑Β 1之後,就可以以6號 之釣線2 0 Om來捲繞到突緣部1 〇 a之周緣部。將切片 變更爲Β 1 π即移至步驟S 3 1待候開始線之捲取。該下 層線(捲繞)處理乃將下層線捲繞到指定之線卷徑之後, 變更切片而學習不同直徑之釣線時所使用。 在步驟S 7之各動作模式處理中,以圖1 1之步驟 S 5 1來判斷繞線輪1 0之旋轉方向是否線之送出方向。 -32- 本紙張尺度遘用中國國家標準(CNS)A4規格(210 X 297公釐) A7 B7_ 五、發明說明如) 此判斷係由繞線輪感測器4 1之那一個簧片開關4 1 a、 (請先閱讀背面之注意事項再填寫本頁) 4 1 b之那一個先發出脈衝來判斷。如繞線輪1 0之旋轉 方向判斷爲線之送出方向時即由步驟S 5 1移至步驟 .S 5 2 ° 在步驟S 5 2時,使繞線輪旋轉數X每一次一個地使 之減少。此步驟係與圖9之步驟S 3 6同樣者。 在步驟S 5 3中,每次減少時,依繞線輪旋轉數X來 讀出記憶於記憶部4 3之數據,以資算出水深LX。該水 深即以步驟S 2之顯示處理所顯示。 在步驟S 5 4即判斷所獲得之水深L X之是否與底位 置相一致。換言之判斷釣魚機構是否達到底位置。底位置 即如上所述當釣魚機構之到達於底位置之時’按下底記憶 鍵SM而可設定於記憶部4 3。 在步驟S 5 5即判斷是否其他之模式。不是其他之模 式時即完成各動作模式處理回至主流程。 水深與底位置一致時,即由步驟S 5 4移行至步驟 經濟部智慧財產局員工消费合作社印製 5 5 6。且使報知釣魚機構之到達底位置之蜂嗚器放音。 其他模式時即由步驟S 5 5移至步驟S 5 7實施所指定之 其他模式。 判斷爲繞線輪1 0之旋轉係線之捲取方向時’由步驟 S 5 1移至步驟S 5 8。在步驟5 8中’使繞線輪旋轉數 每一次增加1。 在步驟S 5 9中,每有增加時’依繞線輪旋轉數X來 讀出記憶於記憶部4 3之數據,以資算出水深。此水深即 -33 - 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) A7 B7 五、發明說明如 ) 在步驟S 2之顯示處理來予以顯示。 (請先閱讀背面之注意事項再填寫本頁) 在步驟S 6 0乃判斷水深是否與船緣停止位置相一致 。如果沒有捲繞到船緣停止位置時又回至主流程。到達船 '緣停止位置時,即由步驟S 6 0移至步驟S 6 1。在步驟 S 6 1即爲了報知釣魚機構已在於船緣而使蜂嗚器4 0發 響。 在步驟S62即使馬達12 OFF。由而釣上了魚 時將魚移到容易取魚之位置。此船緣停止位置乃,例如在 水深6 m以內之處而繞線輪1 0停止了規定之時間以上即 被設定。 經濟部智慧財產局員工消费合作社印髮 本例中爲了補正未知之釣線之繞線輪旋轉數與線長之 關係之學習乃只在釣線之略最終線卷部份之短的線長內來 實施,所以不需要裝置線長檢出器之狀態下,可以計測線 長。並且,在釣線上有張力之作用而使顯示與實際之水深 發生偏差時,以簡單的計算就可以將顯示之水深補正爲正 確之値。又使用下層線模式時,即例如以1 0 Om單位地 予以販賣之較細之釣線,也可以確實的捲繞到繞線輪之規 定之位置。 (第2實施形態) 在上述第1實施形態時,下層線模式及須要將下層線 捲繞到預先指定之線卷徑之後才能學習。而本第2實施形 態時即在使用下層線或省線器時,該開始捲繞時之線卷徑 係未知,且將粗細及長度未知之釣線予以捲繞時也可以算 -34- 本紙張尺度適用t國國家標準(CNS)A4規格(2】0 X 297公窠) 經濟部智慧財產局員工消费合作社印製 A7 ____B7____ 五、發明說明紅) 出下層線之卷徑而可以實施學習。 下面說明第2實施形態之線長算出方法之槪略。 本發明中利用,可以將繞線輪每一旋轉單位之線長Y 與繞線輪旋轉數X之關係近似於一次直線以資算出線長。 又在繞線輪上捲繞下層線或省線器時,即以規定之操作來 算出開始捲繞時之線卷徑。 本例中,例如粗細及全長不明之釣線在繞線輪1 0上 從線卷徑B mm層狀的予以捲繞時,即繞線輪旋轉數X與 繞線輪每一旋轉單位之線長Y之關係即以傾斜A,切片 Β π之下述(1 1 )之一次直線就可以定義。 Y = A X + Β τι (11) 並且從開始捲繞時之線卷徑B捲取釣線S1mm時, 如繞線輪1 0旋轉e時,該時之繞線輪每一旋轉單位之線 長爲Y ( e )時,可以如下述(1 2 )式的予以顯示。 Y(e)=A.e+B;r (12) 表示繞線輪旋轉數X與繞線輪每一旋轉單位線長Y之 關係之曲線圖就呈顯爲如圖1 2之狀態。在此曲線圖中之 線捲取長度S1乃與開始捲繞之線卷徑B到繞線輪旋轉數 e之台形之面積相等,所以可以用下述(1 3 )式來表示 {請先閱讀背面之注意事項再填寫本頁) 裝 i__i I ϋ n n ϋ n^eJ· ϋ I *f n n >i n I * 本紙張尺度適用_國國家標準(CNS>A4規格(210 X 297公釐) -35- 五、 發明說明紅) A7 B7 sl = e{Y(e)屮 Βπ}/2 (13) 將(3)式代入於(2)式,即 sl = e {A*e+B^ + B7r}/2 (14) 將(1 4)式以Βττ解之即成爲下述(1 5)式。 B?z- = (2S1-A* e2/2e (15) 並且再捲取釣線,繞線輪之旋轉C次時之繞線輪1旋 轉單位之p長爲Y(c),而從該處送出線長S而繞線輪 d轉時之繞線輪每一旋轉單位之線長爲Y(c-如下述(16) ,(17)式的可以表示各線長 1 〇旋轉 d )時即 Y ( c ) ,Y(c-d)。 Y ( C ) =A • C + B n (1 6 ) Y ( c — d ) =A · (c — d ) + B π (17) 丨丨-|丨;----I---0裝--------;訂· (請先閲讀背面 <注$項再填寫本頁> 經濟部智慧財產局員工消费合作社印製 此辑之線送出長度S係相等於從繞線輪旋轉數(c -d )到c爲止之台形之面積,所以可以用下述(1 8)式 來表示。 S = d· {Y(c)+Y(c-d) }/2 (18) 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -36- A7 B7 _____ 五、發明說明知) 在(18)式中代入(16) ’ 7 )式,即 S = d · {A · C + B + A · (c 一 =d · { A · (2c — d) + 2B^* d )+ B ττ } / 2 /2 (19) 將此式對傾斜A解之成爲下述(2 〇 式。 A=2 (S-d.B?r)/d (2c d (20) iiii-c (請先閱讀背面之注意事項再填寫本頁) 裝A7 __ B7 _ V. Description of the invention <) (Technology to which the invention belongs) (Please read the "Notes on the back side before filling out this page") The present invention relates to a wire length measuring device, and in particular, to measuring and sending out from a reel of a fishing reel It is a device for measuring the length of a fishing reel used for the length of the reel. (Prior art) It is known that a fishing reel including a two-bearing reel or a single-bearing reel is provided with a water depth display device that displays the depth of the fishing mechanism by the length of the fishing line sent from the reel ( Japanese Patent Gazette No. Hei 2-1079 0 8), because the water depth display device is provided, the fishing mechanism can be correctly lowered to the same shed position (water depth position), or the flying distance of the fishing mechanism when throwing fishing. Such a water depth display device has a wire length measuring unit for measuring the wire length sent from the self-winding reel when the reel rotates, and a water depth is displayed by the wire length measured by the wire length measuring unit, for example, by a liquid crystal display Printed by Chengzhi Water Depth Display Department, Ministry of Economy, Intellectual Property Bureau, Shellfish Consumer Cooperative, Line Length Measurement Department calculates the line length from the number of rotations of the reel. The winding diameter of the reel varies with the number of rotations and the thickness of the wire at the beginning of the winding. The wire length of each rotation unit of the winding shaft changes according to the diameter of the wire, so In the past, the number of rotations of the reel or the thickness of the wire was considered, and the length of the wire was calculated from the number of rotations of the reel. Specifically, the reel is equipped with a line length detector in contact with the periphery of the reel's fishing line take-up section. When the fishing line is wound on the reel, learn to use the line length detector. The relationship between the measured actual wire length and the number of rotations of the reel is recorded in the memory inside the device. And -4- This paper size is in accordance with Chinese National Standard (CNS) A4 specification (210 X 297 mm). 5. Description of the invention ί) Unlock the wire length detector when fishing y », and read the winding from the memory. The relationship between the number of rotations of the reel and the length of the wire is calculated from the number of rotations of the reel. In addition— * the diameter of the reel is 10 0 in the unit sold. The winding of the unit in meters may be set with a fishing line of a size set according to the size of the reel. For example, the fishing line No. 6 Winding 3 0 0 meters can wind the fishing line to the periphery of the reel's protruding edge 0, but when winding a fishing line thinner than it, for example, the fishing line No. 4 is wound as if it was wound on the reel's protruding The edge of the margin is 4 200 meters. When there are zeros, it is not economical to buy more than zero fishing lines. Therefore, if you want to wind this set of reels, there will be zero fishing lines. Generally, the lower layer is wound on the reel in advance, or a cylinder called a economizer is installed on the reel, for example, a 300 m fishing line is wound on the reel. (Invention The problem to be solved) In the past, the number of rotations of the reel and the Calculate the line length due to the change in the diameter of the coil caused by the thickness. Therefore, the error between the actual length and the calculated line length is smaller than the direct calculation of the line length from the number of rotations of the reel. When there is a tension effect > The gap between the reels wound around the reel will become smaller. Every reel ~~ * The length of the rotation unit will be reduced. It takes more turns to rotate the reel in order to change the relationship between the number of reels rotated and the actual line length when there is tension on the fishing line. The line length will be longer than the actual line length. Therefore, when there is tension on the fishing line, the water depth shows deviations. The paper size applies the Chinese National Standard (CNS) A4 specification (210 x 297 mm> -5- A7). ________B7_ V. Description of the Invention 4) (Please read the "Precautions on the back" before When filling in this page), a technique for correcting the correlation between the number of rotations of the reel and the wire length per unit of rotation is disclosed in Japanese Patent Application Laid-Open No. 9 -2 3 6 4 2 8. The correction technology disclosed in this bulletin is to learn 'the correlation between the rotation position data of the reels per unit of revolution and the line length', and to memorize the deepest position when the fishing line is sent out after learning, so as to supplement the correction from The correlation of the deepest position. It is also related to changing the relationship by correcting the deformation of the reel cross section caused by the action of tension during the correction. Therefore, correct tension correction can be implemented by the patterned expression. However, when implementing tension correction in this way, on the one hand, the amount of data used for correction becomes large, at the same time, the calculation formula becomes complicated, the composition of the calculation device becomes complicated, and the price will be high. Furthermore, in the above-mentioned conventional configuration, a wire length detector for learning the relationship between the number of rotations of the reel and the wire length is required. The wire length detector is provided from the start of winding to the winding of the reel. During the period up to the end, the length of the wire was measured outside the area where it came in contact with the reel. And after the end of the study, remove the line length detector. Therefore, when the yarn length detector is used to learn the structure, the installation and removal of the thread length detector during the learning is troublesome. The subject of the invention printed by the Shellfish Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs is that, if the predetermined relationship is deviated by the effect of the tension of the fishing line, etc., it can still be implemented by using a cheap and simple computing device Corrector. Another object of the present invention is to simply learn the relationship between the wire length and the number of rotations of the reel without using a wire length detector or the like when using a lower layer wire or the like. Another object of the present invention is to make it possible to measure the line elderly simply without using a line length detector regardless of the diameter at which the fishing line is initially wound. -6- This paper size applies to 0 Chinese standards (CNS) A4 specifications (210 X 297 mm) A7 B7 V. Description of the invention 4 :) (Means of solving the problem) Please read the note on the back first about the fishing of the first invention The wire length measuring device for reel is a wire length measuring device for fishing reel mainly used for measuring the length of fishing line sent from or taken up by the reel of fishing reel. It includes a rotation position data detection mechanism, a relationship memory mechanism, a line length calculation mechanism, and a tilt change mechanism. The rotation position data detection mechanism is used to detect the rotation position data of the reel. The order relationship memory mechanism memorizes the line length per unit rotation of the fishing line of a predetermined wire diameter as a function of one slice, and the relationship between the _line length per unit rotation of the reel and the above rotation position data. The line length calculation mechanism is based on the one obtained by the rotation position data detected by the rotation position data detection mechanism and the linear function stored in the relationship memory mechanism to obtain the length of the fishing line. The tilt change mechanism is printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs for changing the tilt of the above-mentioned first-order function memorized in the above-mentioned relational memory mechanism from the above slice. In this line length measuring device, the length of the fishing line can be calculated based on the correlation between the line length per unit of rotation of the reel and the rotation position data recorded in a one-time function on the relational memory mechanism. In addition, it has the function of tension in the fishing line, and the related relationship of the memorized primary function changes. That is, the tilt of the slice is changed by the tilt changing mechanism. In this example, as long as the tilt of the slice is changed by changing It can be implemented by changing the paper size. Applicable to the Chinese National Standard (CNS) A4 specification (210 X 297 mm) A7 ____B7_ V. Description of the invention) When the relationship between the line length per unit rotation and the rotation position changes, The calculation process for the correction becomes simple, and the calculation device with a simple and inexpensive structure can implement the correction. The second item is the line length measuring device for a fishing reel as described in item 1 of the scope of the patent application, which further includes: for learning, a slightly final winding part when winding the fishing line with the reel. The relationship learning mechanism between the predetermined length of the fishing line and the measurement relationship of the detection result of the rotation position data detection mechanism, and based on the measurement relationship, each unit line length of the reel and the above-mentioned correlation between the rotation position are obtained. The relationship calculation unit is configured to store the relationship in the memory unit and use the relationship calculation unit calculated by the relationship calculation unit. At this time, when the fishing line is wound on the reel, the relationship between the specified length of the fishing line in the slightly final winding part and the detection result of the rotation position data detection mechanism is learned, in other words, learning in the final winding part The length of the wire per unit rotation of the reel of the wire winding diameter. According to this measurement relationship, the correlation between the winding length and the rotation length data per unit rotation of the reel for the thickened wire winding diameter from the start to winding is obtained, and this correlation is stored in the relation memory . And read out this correlation, and calculate the wire length based on the data of the rotation position of the reel. In this example, it can be calculated only by learning the short specified length of the final winding part, so the line length can be measured without the line length detector, and the line length is calculated by learning, so it is not affected by fishing. The length of the line can be measured in a limited manner. The device for measuring the line length of a fishing reel according to the third invention is: The device described in item 2 of the scope of the patent application, among which the above-mentioned relationship is read before the note on the back. The paper size printed by the Bureau ’s Consumer Cooperatives applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm) -8- A7 A7 Printed by the Employees ’Cooperatives of the Intellectual Property Bureau of the Ministry of Economy The mechanism is provided with: when the fishing line is sent out a predetermined amount of length after winding is completed, or when it is re-wound, it receives the first rotation position data of the reel detected by the rotation position data detection mechanism. The first rotation position data receiving mechanism, the relationship calculation mechanism includes: accepting the rotation position data detection mechanism from the start of the fishing line from the start of the reel to the end of the winding. The second rotation position data receiving mechanism for the detected second rotation position data of the above-mentioned reel, and the second winding position data receiving mechanism for receiving the above-mentioned reel winding diameter at the start of winding Means in the first and second rotating position data and said predetermined length and said line winding diameter on the relationship approximates a straight line the correlation function of the approximation mechanism persons. At this time, after the fishing line is wound by the reel, the first rotation position data at the time of sending the fishing line of a predetermined length or rewinding is used to determine the diameter of the winding near the final winding part. The length of the reel per unit of rotation. And focus on that the correlation between the reel length per unit rotation and the reel rotation position data returns to the straight line of the slice with the wire length of the wire winding diameter at the beginning of winding, and the winding start The second rotation position data until the end of winding, in other words the total number of rotations of the reel, the first rotation position data and a predetermined length, and the winding diameter of the wire at the start of winding are used to calculate a straight line inclination. The correlation between the line length per unit rotation and the reel rotation position data is approximately a straight line. And integrate this one-time straight line from the beginning of winding to the part shown in the rotation position data, i-VTITId · install --------. Order · (please read the note $ on the back before (Fill in this page) This paper size applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm) -9-A7 __ B7 _ V. Description of the invention f) The wire length can be obtained by rotating the position data. In this example, since the correlation can be returned to the ~ th straight line, and the rotational position data is calculated by the calculation process, the calculation process is easy, and the line length can be measured from the rotation position + data in an instant. The device for measuring the line length of a fishing reel according to the fourth invention is the device described in item 3 of the scope of the patent application, wherein the tilt change mechanism includes a tilt change acceptance mechanism for accepting (accepting) a tilt change. After changing the second rotation position data to the second rotation position data changing mechanism that uses the rotation position data detected by the rotation position data detection mechanism when the tilt change is accepted, after receiving the tilt change, use: The first rotation position data obtained by the relationship learning mechanism, the changed second rotation position data ′, the predetermined length, and the wire winding diameter are used, and a linear function approximated by the linear approximation mechanism is used to provide information. Change the slope of the above slice. At this time, the tilt is calculated by a relationship calculation mechanism for calculating the correlation stored in the memory device, so no special processing is required for the tilt change processing. The device for measuring the line length of a fishing reel according to the fifth invention is the device described in item 1 of the scope of the patent application, in which the above-mentioned memory mechanism has been previously recorded with the relevant relationship. At this time, the related relationship is already memorized in the relational memory mechanism because there is no need to learn, so the procedure of memorization can be omitted. The measuring device for the line length of the fishing reel according to the sixth invention is mainly applicable to the Chinese standard (CNS) A4 specification (210 X 297 mm) on this paper. Read the note on the back and fill in this page. Made by Industrial and Consumer Cooperation Du Yin-10-A7 B7 V. Description of Invention 4) (Please read the precautions on the back before filling out this page) It is used to measure the reel sent from the reel for fishing reel or wound in the above reel The line length measuring device for a fishing reel used for the length of a reel is characterized by having a rotation position data detection mechanism, a relationship memory mechanism, a line length calculation mechanism, a slice input mechanism, and a rotation position. The data detection mechanism is used to detect the rotation position data of the above-mentioned reel. The relational memory mechanism uses the line length per unit rotation of the fishing line of the specified wire diameter as a function of the slice to memorize. The relationship between the line length per unit rotation and the above rotation position data. The line length calculation mechanism is based on the one obtained by the rotation position data detected by the rotation position data detection mechanism and the linear function stored in the relationship memory mechanism to obtain the length of the fishing line. The slice input mechanism is a slice mechanism for inputting the above-mentioned linear function stored in the above-mentioned relational memory mechanism. The line length measuring device printed by the Shelley Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs calculates the fishing line based on the relationship between the line length per rotation of the reel of the memory mechanism and the rotation position data, which is memorized in the form of a linear function. When the fishing line is wound after the winding of the lower layer is applied, the diameter of the winding drum is not used for slicing, but the input of the lower layer is used for slicing. For example, put a prescribed mark on the reel, and wind the lower layer there. And when the input of the slice is accepted (accepted), the slice is set to a predetermined size (for example, the coil diameter of the mark). And determine the linear function based on the input slices and learning results. In this example, the structure can be used to input slices, so it is still easy to determine a straight line under the winding of the lower line. Use the lower line's roll -11-This paper size is applicable to the national standard of t < CNS) A4 Specifications < 210 X 297 mm) A7 B7 V. Description of the invention 4) When the winding diameter of the wire at the beginning of winding is changed, there is still no need to use the wire length detector to simply learn the wire length and winding. The relationship between the number of wheel rotations is also. (Please read the precautions on the back before filling this page.) The device for measuring the wire length of the fishing reel according to 7 inventions is the device described in item 6 of the scope of patent application, which also has: The relationship between the predetermined length of the fishing line at the slightly final winding portion when the reel is wound by the reel and the measurement result of the detection result of the rotation position data detection mechanism is learned by the learning mechanism, and based on the above measurement relationship, A mechanism for calculating the above-mentioned correlation between each unit wire length of the reel and the rotation position is obtained, and the above-mentioned relationship calculated by the above-mentioned relationship calculation mechanism is memorized in the memory mechanism. Employees' Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs, Yin Li, at this time, when learning to wind the fishing line on the reel, he learned to determine the relationship between the length of the fishing line in the final winding part and the detection result of the rotation position data detection mechanism. In other words, learn the wire length per unit rotation of the reel for the wire winding diameter in the final winding part, and obtain based on this measurement relationship. For the winding of the wire winding diameter that gradually thickens from the beginning of winding, The relationship between the line length per rotation of the wheel and the rotation position data, and this relationship is memorized in a relational memory mechanism. Then, the correlation is read and the wire length is calculated from the rotation position data of the reel. In this example, the relationship between the rotation position data of the reel and the length of the reel, which is changed by the diameter of the wire, can be calculated only by learning the short predetermined length of the final winding part, so it is not necessary to install the wire length. Below the detector, the line length can be measured. Since the line length is calculated by learning, the line length can be measured without being limited to the type of fishing line. -12- This paper size is in accordance with China National Standard (CNS) A4 (210 X 297 gong) Printed by the Shellfish Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 ___B7___ V. Description of the invention < 0) The device for measuring the line length of the fishing reel according to the eighth invention is the device described in item 7 of the scope of the patent application, wherein the relationship learning mechanism is provided with: when the winding is finished, The first rotation position data receiving mechanism that receives the first rotation position data of the reel detected by the rotation position data detection mechanism when sending a predetermined length portion or rewinding, and the relationship calculation mechanism is It has: accepting, from the beginning of the fishing line winding from the beginning of the reel to the end of winding, using the second rotation position data of the reel detected by the rotation position data detection mechanism. A second rotation position data receiving mechanism, and a winding diameter receiving mechanism for receiving the winding diameter of the winding wheel at the start of winding, and the first and second rotation position data and the predetermined length, and the winding The linear approximation mechanism that approximates the above relationship to a linear function. At this time, the length of the fishing line of a predetermined length sent after the winding of the reel is completed or the first rotation position data at the time of rewinding is used to determine the diameter of the winding near the final winding part. The wire length per reel of the reel. And focus on the relationship between the wire length per unit rotation of the reel and the rotation position data of the reel, return to the straight line with the line length of the wire diameter of the wire winding diameter at the beginning of winding as a slice, and then take the coil The second rotation position data from the start of winding to the end of winding, in other words, the linear inclination of a straight line is calculated from the total number of rotations of the reel, the first rotation position data and a predetermined length, and the wire diameter at the start of winding. , So the wire length per unit of rotation and the reel are rotated (please read the note $ on the back before filling this page) -J. Γ-装 ---- ϋ I Mmm mt Order ------ ---. This paper size applies to Chinese national standards < CNS) A4 specifications (210 X 297 mm) -13- Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 _B7_. _ V. Description of the invention < 1) The correlation of the position data is approximately a straight line, and the straight line is integrated from the start of winding to the portion shown by the rotational position data, and the line can be obtained from the rotational position data. long. In this example, since the relationship is focused on a straight line, and the line length is calculated from the rotational position data by calculation processing, the calculation process is easy, and the line length can be measured instantaneously from the rotational position data. The line length measuring device for a fishing reel according to the ninth invention is the device described in item 8 of the scope of patent application, wherein the slice input mechanism is provided with a slice input receiving mechanism for receiving the slice input, and When the above-mentioned slice input is accepted, the above-mentioned wire coil diameter is changed to a wire coil diameter changing mechanism set in advance. The linear approximation mechanism is that after accepting the slice input, the first rotation position data and the second rotation position data obtained by the relationship learning mechanism are used, and the predetermined length is changed, and the wire winding diameter is changed by g. The above relationship is approximate to a linear function. At this time, P 输入 can calculate the above-mentioned relationship after inputting and slicing in the relational memory mechanism. Therefore, it is still simple to determine the linear function from the winding of the lower layer and the change in the winding diameter at the beginning of winding. The apparatus for measuring the wire length of the fishing reel according to the tenth invention is the apparatus described in item 6 of the scope of patent application, in which the above-mentioned relationship memory mechanism previously stores the above-mentioned relationship. i At this time, because you don't need to learn, you can memorize the related relationships ^ memory mechanism, so you can omit the procedure of remembering 100 million. About the 11th invention of the fishing reel wire length measuring device 'is installed -------- ^ order. (Please read the precautions on the back before filling this page) This paper size applies Chinese national standards (CNS ) A4 specification (210 X 297 mm) -14- A7 B7_ V. Description of the invention ί 2) (Please read the precautions on the back before filling out this page) It is mainly used to measure the number of reels sent from the reel for fishing reels. The line length measuring device for a fishing reel used for winding the length of the fishing line on the reel is characterized by including: a rotation position data detection mechanism, a letter calculation mechanism, and a line length calculation mechanism. And slice calculation mechanism. The rotation position data detection mechanism is used to detect the rotation position data of the reel. The function calculation mechanism calculates the relationship between the yarn length per unit rotation of the reel and the rotation position data by taking the line length per unit rotation of the fishing line at the start of winding as a function of a slice. The line length calculation mechanism is the one that obtains the length of the fishing line based on the rotation position data detected by the rotation position data detection mechanism and the function calculated by the function calculation mechanism. The slice calculation mechanism is configured to calculate a slice data of the above-mentioned function used by the above-mentioned function calculation mechanism. The line length measuring device printed by the staff of the Provisional Intellectual Property Bureau of the Ministry of Economic Affairs is based on the relationship between the line length per rotation of the reel calculated by the function calculation mechanism and the rotation position data to calculate the fishing line. Its length. In addition, when the fishing line is wound after using the lower line or the economizer, the slice is calculated without using the diameter of the reel and the diameter of the reel at the beginning of winding. Calculate the new function. In this example, since the slice is calculated, the function can be re-determined when the diameter of the line is changed when the line starts to be wound. When using the lower line or economizer, the diameter of the start of the line is not affected. You can easily measure the line length without using a line length detector. The wire length measuring device for the fishing reel according to the twelfth invention is -15- This paper size applies the Chinese National Standard (CNS) A4 specification (2) 0 X 297 mm. System A7 B7 V. Description of the invention < 3) In the device according to item 11 of the scope of patent application, wherein the above function is a linear function. At this time, since the relationship between the wire length per rotation of the reel and the rotation position data is a simple linear function, the calculation of the function is simple. The line length measuring device of the fishing reel according to the 13th invention is the device described in the 11th or 12th (11th invention or 12th invention) of the scope of patent application, and the function calculation mechanism has: Learning, the relationship between the first specified length of the fishing line at the slightly final winding part and the measurement result of the rotation position data detecting mechanism when the fishing line is wound on the reel, and the basis The above-mentioned measurement relationship is obtained by the above-mentioned function, and a mechanism is learned from the relationship between the wire length per unit rotation of the reel and the above-mentioned relationship of the rotation position data. At this time, it is learned when the fishing line is wound by the reel, and the measurement relationship between the first prescribed length of the fishing line at the final winding part and the detection result of the rotation position data detection mechanism is used. The wire length per unit rotation of the reel of the wire winding diameter of the winding part is calculated by the function based on this measurement relationship and the calculated slice. For the wire winding diameter that gradually becomes thick from the beginning of winding, The relationship between the wire length per unit of rotation of the reel and the rotation position data can be calculated by integrating the function, for example, with the rotation position data of the reel. In this example, the relationship between the rotation position data of the reel and the wire length, which is changed by the diameter of the wire, can be calculated by learning the short specified length of the final winding part. Therefore, it is not necessary to install a line length detector to measure the line length. And learn to calculate the line length, so the type of fishing line is not limited 丨 丨 TI—I—ni --------; order · (Please read the precautions on the back before filling this page) This paper size applies China National Standard (CNS) A4 Specification (210 X 297 mm) -16- Printed by A7 B7, Employee Cooperative of Intellectual Property Bureau of the Ministry of Economy The reel line length measuring device is the device as described in item 13 of the scope of the patent application, wherein the relationship learning mechanism has: when the winding is finished, the fishing line is sent out of the first predetermined length. Or, when it is wound again, the first rotation position data receiving mechanism of the first rotation position data of the reel detected by the rotation position data detection mechanism is provided. The relationship calculation mechanism has, and accepts, for the above On the reel, from the start of winding the fishing line to the end of winding, the second rotation position data receiving mechanism of the second rotation position data of the reel detected by the rotation position data detection mechanism, and Accept The slice accepting mechanism of the slice calculated by the slice calculating mechanism, and the function that approximates the above relationship to a linear function using the first and second rotation position data, the first predetermined length, and the slice are close to the mechanism. It is obtained by sending the first rotation position data when a fishing line of a predetermined length is sent after the fishing line is reeled by the reel. The wire length per unit rotation of the reel, and the relationship between the wire length per unit rotation of the reel and the rotation position data of the reel is returned to the slice length of the wire winding diameter at the beginning of winding. A straight line, the second rotation position data from the start of winding to the end of winding, in other words, the total number of rotations of the reel, the first rotation position data, and the first predetermined length, and the calculated The slice is used to calculate the tilt of a straight line, so that the length of the wire per unit of rotation and the winding size of this paper apply the Chinese National Standard (CNS) A4 specification (210 X 297 male cage) -17- ------- ---- 0 S -------- Order (please first (Read the notes on the back and fill out this page) A7 _______ B7 V. Description of Invention < 5) The correlation of the rotational position data of the wheel is approximately a straight line, and this primary straight line is integrated from the start of winding to the part indicated by the rotational position data, and the line length is obtained from the rotational position data. . In this example, 'the focus is on the return of the above-mentioned relationship to a straight line, and the line length is calculated from the rotation position data by calculation processing, so the calculation process is easy, and the line length can be measured instantaneously from the rotation position data. The line length measuring device for a fishing reel according to the fifteenth invention is the device described in item 14 of the scope of patent application, wherein the slice calculation mechanism is provided with a slice calculation acceptance mechanism that accepts slice calculations, and when the above When the slice calculation is accepted, when the second predetermined length of the above-mentioned fishing line is wound, the third rotation of the third rotation position data of the reel detected by the rotation position data detection mechanism is accepted. The position data receiving unit calculates the slice calculation result by using the first rotation position data, the second rotation position data, and the third rotation position data, and the first predetermined length and the second predetermined length. The coil diameter calculation mechanism of the coil diameter at the time of acceptance. The above function is printed by the Intellectual Property Bureau of the Ministry of Economic Affairs and Consumer Cooperatives, which is used by the organization. After the above slice calculation is accepted, the first rotation position data obtained by the relationship learning organization and the second rotation position data are obtained, and The first predetermined length is a slice whose wire diameter is calculated according to the wire diameter calculation unit, and the relationship is approximated to the linear function. At this time, the first-order function is calculated using the slice calculated by the slice calculation mechanism, so the winding diameter of the thread at that time can also be calculated when winding the lower-layer thread or the device economizer. Therefore, the lower-layer thread and the like start the winding at the time of winding. The diameter (slice) is -18- This paper size is applicable to China National Standard (CNS) A4 specification (210 X 297 mm) A7 ___JB7_____ 5. Description of the invention < 6) When the variation is still good, the linear function can be determined. (Please read the precautions on the back before filling this page) The device for measuring the line length of the fishing reel according to the sixteenth invention is the line length of the fishing reel as described in item 11 or 12 of the scope of patent application The measurement device further includes a relationship memory mechanism for memorizing the relationship calculated by the function calculation mechanism. At this time, the learning content is stored, so when you want to calculate the line length, you can simply read the content of the memory mechanism. (Embodiment of the Invention) (First Embodiment) The electric (fishing) reel shown in FIG. 1 which adopts one embodiment of the present invention has a water depth display that displays the depth of the water by the wire feed length (or the wire winding length). The reel for fishing. The electric reel is mainly provided with a reel body 1 installed on the fishing rod R, a handle 2 for reel rotation arranged on the side of the reel body 1, and a reel body arranged on the handle 2. The star-shaped resistance wheel 3 for the resistance adjustment on one side. The scroll body 1 printed by the employee's consumer cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs is a stand made of left and right side plates 7a, 7b and a plurality of connecting members 8 connecting these 7 'and the left and right side covers 9a, 9b of the covering stage 7. The side cover 9b on the handle 2 side (right side of Fig. 1) is rotatably supported by the rotation axis of the handle 2. On the side cover 9 a on the opposite side (left side in FIG. 1) of the handle 2, a connector 19 for connecting a power cord 18 for external power supply PS is provided. The inside of the reel body 1 is rotatably supported. There is a reel 10 connected to the handle 2. In the reel 1 The interior, equipped with a reel -19-- this paper scale applicable Chinese National Standard (CNS) A4 size (210 X 297 mm) Ministry of Economic Affairs Intellectual Property Office employees consumer cooperatives printed A7 B7 V. DESCRIPTION OF THE INVENTION < 7) The DC motor 12 is rotationally driven in the direction of the winding fishing line. An operating lever 11 of a clutch (not shown) is provided on the side of the handle side of the reel body 1 so that the driving of the handle 2, the motor 12, and the reel 10 are transmitted to ON / OFF. When this clutch is turned on, the line feeding operation can be stopped during the line feeding by the fishing device's own weight. Furthermore, as shown in FIG. 2 and FIG. 3, the inside of the reel body 1 is provided with a horizontal winding mechanism 13 that operates in conjunction with the reel 10, a magnet wheel 14 that rotates in conjunction with the reel 10, and a The rotation of the handle 2 is transmitted to a transmission mechanism (not shown) of the reel 10 and the like. The magnet wheels 14 and 4 are rotatably supported on the side plate 7a of the reel body 1 as shown in FIG. The magnet wheel 14 is formed in the magnet portion 14b adjacent to the gear portion 14a and the gear portion 14a. Two magnets 1 4 c are mounted on the magnet portion 14 b at 180-degree intervals. Gear 1 4 a is meshed with a reel gear (not shown) formed on the reel 10 through an intermediate gear (not shown). As a result, the magnet wheel 14 is linked to the reel 10 and rotates in the same direction as the reel 10. As shown in Figs. 1 and 2, a counter case 4 is fixed to the upper portion of the reel body 1. As shown in Figs. As shown in FIG. 3, the counter case 4 is provided on the upper part of the reel body 1, and a display window 20 a is formed on the upper side. Of the first cover 2 Ob bottom cover member 21. The case body 20 is a synthetic resin molded product in which nylon is reinforced with glass fiber, for example. The case body 20 has a smooth outer peripheral surface that is continuously curved at the upper portion of the reel body 1. This paper size applies to China National Standard (CNS) A4 (210x 297 mm) -20- i! V Packing ------- Order (Please read the notes on the back before filling this page) Intellectual Property of the Ministry of Economic Affairs Printed by APC Consumer Cooperative A7 ___B7__ 5. Description of the invention {8) The display window 2 0 a is closed by a display window 2 2 made of transparent resin. 'A box-shaped space is formed inside the housing body 2 0 The angled cylindrical wall portion 20c, and the bottom portion becomes the first opening 20 b ° The bottom cover member 21 is a plate-shaped member obtained by molding a conductive metal such as aluminum alloy, and is mounted on the screw The case body 20a bottom cover member 21 is provided with 2nd and 3rd openings 21a and 21b formed with the space | interval left and right. A projection portion 2 1 c protruding downward is formed in a region between the two openings 21 a and 2 1 b of the bottom cover member 21. The second opening 2 1 a is a circular opening as shown in the figure. It is closed with a circular cover member 2 3. The third opening 2 1 b is a rectangular opening formed at a position facing the magnet wheel 14, and is closed with a rectangular cover member 24. These two cover members 23 and 24 are members made of synthetic resin, and are attached to the bottom cover member 21 from the inside with screws. In order to prevent the intrusion of water into the counter case 4 between the bottom cover member 21 and the first opening 2 0 b of the case body 20, a gasket 25 made of, for example, rubber is installed. Between the second opening 21a and the third opening 21b and the two cover members 23 and 24, gaskets 26 and 27 are respectively installed for the same purpose. With these washers 25 to 27, the inside of the counter case 4 is watertightly closed to the outside. On the counter case 4, as shown in FIG. 4, the display window 2 2 is connected to display the two fishes from the water surface and the bottom reference, such as @ 鱼, the water depth of the mechanism or the liquid crystal for the shed position. The water depth formed by the display is provided with an operation button portion 6 around the water depth display portion. The water depth display unit has: a 4-digit number II-_ί · ι-η · Μ -------- ordered in the center. (Please read the precautions on the back before filling this page> 21-Economy Printed by the Consumer Property Cooperative of the Ministry of Intellectual Property Bureau ΚΙ Β7 V. Description of Invention < 9), a water depth display area 5a, and a 3-digit bottom water depth display area 5b disposed below the water depth display area 5a, and a gear shift number display area 5c, located on the right side of FIG. 4 in the water depth display area 5a. The water depth display unit 5 may display eight sentences such as "from the bottom", "learning", "designation", "lower line j," correction "," enter j, "feed line stop j," zero setting ". The phrase "from the bottom" is displayed in the depth of water display mode. The bottom-to-bottom mode is a mode to show the depth of the fishing mechanism on the basis of the bottom. Also, the water depth of fishing agencies is usually based on water surface. (From the water mode) to display. The sentences from "learning" to "entering" indicate the type of winding line, and selecting one of them will display the selected winding line mode. The operation key section 6 has a shift key SK and a motor key P W arranged on the right side of the water depth display section 5 on the water depth display section 5 and a bottom memory key SM and a mode key MD arranged on the right side. The motor key PW is a toggle switch that turns the motor ON and OFF on the one hand and increases the speed of the motor 12 by 0 N at the same time. The shift key SK is a key for the motor 12 to be driven by acceleration and deceleration. It is a seesaw-type switch with two upper and lower switches and a neutral position. Press this key to increase the speed above the switch S K, and press it to decrease the speed. If there is no drive motor 12 and the upper switch is pressed for more than a predetermined time, the display mode can be switched from "from the water" to "from the water". When the lower switch is pressed for more than a predetermined time, the line feed mode (the clutch 12 is opened and the motor 12 is driven to increase the line feed speed) can be turned on and off. This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) -22- «« I —i I n III ^ f I ^ II 1 · III · III 1 I ϋ n (Please read the Please note this page before filling in this page) A7 B7 V. Description of invention ί) (Please read the notes on the back before filling this page) The bottom memory key SM is the switch pressed when the fishing mechanism reaches the bottom. The water depth at this time is set as the base. When the bottom memory key SM is pressed for more than a predetermined time, the zero point of the water depth display can be set to a new position when the fishing line is broken, etc. The mode key MD is a switch for setting five winding modes. For example, you can set the learning mode with one click, set the designated mode with two consecutive presses, and set the lower line mode with three consecutive presses, set the correction mode with four consecutive presses, and set the input mode with five successive presses, respectively. Can set the winding mode. The learning mode refers to the reel mode used when a fishing line of unknown diameter or length is wound on the reel 10, the number of rotations of the reel at the final part of the reel, and each rotation unit of the reel The relationship between the line lengths is used to determine the relationship between the number of reel rotations within the full length of the fishing line and the line length of each rotation unit. The designated mode is the mode used when the fishing line with the number and length prepared in the memory section 4 3 is wound on the reel. Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs. The lower line mode is the mode used when winding the lower line to a pre-specified thread diameter and winding the unknown fishing line. This lower-level line mode is different only in the part of the thread winding diameter, which is basically the same idea as the learning mode to implement learning. The correction mode is used to correct deviations when there are deviations on the display due to tension and other relationships. A pattern in which the entire tilt of a straight line obtained by the learning mode can be recalculated. The input mode is to send the total number of rotations of the reel and the specified distance. -23- This paper size applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm). Printed by A7. B7 _ V. Description of the invention A) Arbitrary edited composition mode. On the upper part of the counter case 4, there are a water depth display section 5 'and a reel control section 30 which performs display control and motor control as shown in FIG. A PWM drive circuit 31 is arranged in the lower part of the counter case 4 to PWM drive the motor 12. A buzzer 40 and a reel sensor 41 are arranged in the lower part of the counter case 4. The reel control unit 30 includes a microcomputer including a CPU, a RAM, a ROM, an I / O interface, and the like arranged in the counter case 4. The reel control unit 30 performs various control operations such as display control of the water depth display unit 5 and motor drive control in accordance with a control program. As shown in FIG. 5, the reel control unit 30 is connected with a winding for detecting the various keys of the operation key unit 6 and the rotation direction and number of rotations (rotation position data) of the reel 10. Round counter 4 2. A buzzer 40, a PWM drive circuit 31, a water depth display unit 5, a memory unit 43, and other input / output units are also connected to the reel control unit 30. The PWM driving circuit 31 is a FET 32 ° which includes driving elements for driving the motor 12. The PWM driving circuit 31 controls the load ratio by the reel 30, and the speed of the variable driving motor 12 is variable. The reel sensor 41 is composed of two reed switches 4 la and 4 lb arranged in front and back as shown in FIG. 1. The reed switches 4 la and 4 1 b are arranged facing the cover member 24 as shown in FIG. 3. The reed switches 4 1 a and 4 1 b are used to detect two magnets of the device on the magnet wheel 14. 14c, 14c. The detection is counted by the reel counter 42: -1 ----- ^-installed -------- order (Please read the precautions on the back before filling this page> Applicable to China National Standard (CNS) A4 specification (210 X 297 mm) -24- Printed by Shelley Consumer Cooperative of Intellectual Property Bureau of the Ministry of Economic Affairs A7 B7 V. Description of the invention Red) Pulse can detect the number of rotations of the reel. The direction of rotation of the reel 1 0 can be detected by the detection pulse issued before that reed switch 4 1 a, 4 1 b. The reel counter 4 2 is a counter for counting the number of OFF times of the reel sensor 41. By counting 値 SP, the rotation position data on the number of rotations of the reel can be obtained. The reel counter 4 2 is the counterclockwise rotation of the reel 10 (the rotation of the wire sending direction), that is, the counter decreases, and it increases when it reverses. The memory section 43 is formed of, for example, a nonvolatile memory such as E E PROM, and stores data of learning results or various data used for calculating the line length. The following briefly describes the method for calculating the line length in this embodiment. In the present invention, the relationship between the line length Y of each rotation unit of the winding shaft and the number of rotations X of the reel is approximated to a straight line to calculate the line length L. The fishing line with unrestricted thickness and full length is wound around the reel 10 in layers from the coil diameter B mm, and it is assumed that the entire fishing line is wound at C rotation. When the Smm fishing line is sent out from this state, the reel is rotated 10 times d. Now the relationship between the number of reels rotation X and the length of each reel unit of the reel, take the number of reels rotation X on the horizontal axis, and take the length of each reel unit of the reel on the vertical axis. It is defined by a straight line, so the inclination of the line is A, which can be expressed by the following formula: Y = AX + B; r (1) This paper size applies the Chinese national standard (CNS > A4 specification (210 χ 297) Li) -25-! — I .--- 1 --- install -------- order. (Please read the note on the back before filling in this page> A7 A7 Employees of Intellectual Property Bureau, Ministry of Economic Affairs Printed by Consumer Cooperative B7 5. Invention Description Red) Therefore, the graph showing the relationship between the number of reels X and the length γ of a unit of reel will be shown in Figure 6. Now the reels 10 times C times The length of one reel of a reel is Y (c), and after winding c, the specified length S is sent out and the reel is rotated 1 time. The unit length of the reel is 1 (c- d), that is, these are expressed by the following formula: Y (c) = A * C + Btt (2) Y (c-d) = A · (c-d) + B 7Γ (3) The curve shown in Figure 6 The area of the trapezoid shown in the figure is equivalent to The length S of the thread after the winding is completed, so the length S of the thread can be expressed by the following formula: S = d * {Y (c) + Y (cd)} / 2 (4) For (4), substitute (2) ), (3), that is, S = d · {A · C + B π + Α · (cd) + B η} / 2 = d · {A · (2c-d) + 2B π} I2 (5) will (5) The formula is solved by tilting A as follows. This paper size applies the Chinese National Standard (CNS) A4 specification (210 x 297 mm) -26- -----; —-I—r • 装 • ϋ 1 «I n 1 1 1 ·. * T _ (Please read the notes on the back before filling this page) Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 B7__ V. Description of the invention ί 4) A = 2 (S- B7rd ) / cI (2c-d) (6) So by substituting 4 pieces of data s, B, c, and d in (6), the slope A of a straight line can be obtained. Example 1 $ Π winding 〇 is completed from the start of winding to 2000 rpm rotation. When 1 Om is sent from there, the reel 10 rotates 60 times, and when the reel diameter of the reel 10 is 30 mm, the inclination of a straight line is as follows. A = 2 (10000-94.2 * 60) / 60 (2 * 2000-60) = 0.0368 Then after the linear approximation of the slope A 'slice B 7Γ is determined, it is stored in the memory section 4 3: the calculated slope A and the slice B π and the total number of rotations c and the line length of the number of current rotations and the number of rotations at the time of zero setting (the initial time is the same as the number of total rotations). And during the actual fishing, when the reel is rotated 1 ◦, the memorized data is read out at a predetermined timing (for example, the reel 10 every 20 revolutions), and a straight line is integrated for processing (calculating area processing) ). Thus, the line length LN at that time can be obtained. The water depth of the fishing mechanism (water depth at the tip of the fishing line) is displayed on the water depth display unit 5 based on the obtained line length LN. The following describes a specific control process performed by the reel control unit 30 according to the control flowchart shown in FIG. 7 and subsequent figures. Connect the external power supply PS to the electric reel via the power cord 18. That is, the initial setting is implemented in step S1. In this initial setting, the reel is implemented. --- * | --- ri --------: Order · (谙 Read the precautions on the back first (Fill in this page again) This paper size is in accordance with China National Standard (CNS) A4 (210 X 297 mm> -27- A7 __B7 V. Description of the Red) Counter 4 2 count reset. Or reset of each variable. Or the water depth display mode is set to the mode from the water. Implement water depth in display processing! ί if ------- 丨 ordering (please read the precautions on the back before filling in this page), and then perform various display processing such as display processing in step S2. In this example, in the mode for standing on water, the water depth of the water surface reference is displayed on the water depth display area 5a, and when the bottom memory key S M is set to the bottom position, that is, the bottom position is displayed in the water depth display area 5b. In step S3, it is determined whether or not one of the keys of the operation key section 6 is pressed. In step 4, it is determined whether the reel 10 is rotating. This judgment is made by the output of the reel sensor 41. In step S5, it is judged whether there are other instructions or inputs. If there is a key input, the process moves from step S3 to step S6 to perform key input processing. When the rotation of the reel 10 is detected, the process moves from step S4 to step S7, and each operation mode process is performed at step S7. When there are other instructions or inputs, move from step S5 to step S8 to perform other processing. Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs In the key input processing of step S6, it is judged whether or not the winding mode is set in step S1 1 of FIG. 8. This judgment is made by whether the mode key MD is pressed or not. In step S12, it is determined whether or not the motor key PW is pressed. In step s13, it is determined whether the switch above the shift key SK is pressed. In step S 1 4, it is determined whether the switch under the shift key S K is pressed. In step S1, it is determined whether other keys are operated. The other key operations also include more than the specified time of the keys other than the bottom memory key S M-28- This paper size applies to China National Standard (CNS) A4 (210 X 297 public love) Intellectual Property Bureau of the Ministry of Economic Affairs A7 _B7__ printed by the Industrial and Commercial Cooperatives Fifth, the description of the invention (button). When the mode key MD is pressed, the process moves from step S 1 1 to step s 16. In step S 16, the winding mode is performed. This winding mode is as described above: learning mode, designated mode, lower line mode, correction mode, input mode. When the motor key PW is pressed, it moves from step S 1 2 to step S 1 7. In step S 1 7, a motor control process is performed. In this motor control process, when the motor 12 does not rotate, such as when the motor key PW is pressed, the motor 12 is turned on, and the load ratio is gradually increased during the ON time of the motor key PW to increase the motor 12 Spin. If the motor 12 is rotating (when pressed), the motor will be turned off. The motor key PW is maintained when the motor 12 is released while rotating, and the shift key SK is the same. When the switch above the shift key SK is pressed, it moves from step S 1 3 to step S 1 8 ° in step S In 18, when the pressing time is gradually increased, the load ratio is gradually increased, the rotation of the motor 12 is increased, and when the switch below the shift key is pressed, the process moves from step S 1 4 to step S 1 9. In step S 1 9 ', the load ratio is gradually reduced for this portion of time and the rotation of the motor 12 is reduced. When inputting other keys, it moves from step S 1 5 to step S 2 0. However, other key processing such as setting the floor depth at the current water depth and the like in accordance with the key input is implemented. ----: ------- r -pack -------- Order ·,-(Please read the precautions on the back before filling this page) This paper size is applicable to + national standards (CNS ) A4 specification (2) 0 X 297 mm) -29-Printed by A7 B7 of the Intellectual Property Bureau of the Ministry of Economic Affairs and Industrial Cooperatives V. Description of the invention) When processing the winding mode in step S 1 6, that is, in the step of FIG. 9 S 2 1 to determine whether to learn the mode. In step S22, it is judged whether or not the mode is corrected. In step S 2 3, it is judged whether or not the lower layer mode is used. When the determination in step S 2 4 is "No", the process proceeds to step S 2 4 'to implement another winding mode such as a designated mode or an input mode. When it is judged that it is a learning mode, it moves from step S 2 1 to step S 3 1 ′ to determine whether or not to start winding. This judgment is made by detecting whether or not the reel 10 has started to rotate by the reel sensor 41. Step S 3 2 is to judge whether the winding is finished or not. This judgment is judged by whether or not a predetermined key operation is performed (for example, the operation of the bottom memory key S M for a predetermined time or more). After the winding is finished, for example, a 10m fishing line is sent to learn the number of reels and the length of each reel unit. In step S3, it is determined whether the 10m is sent. end. This judgment is also judged by the implementation of the prescribed key operation. When different colors are implemented on the fishing line, for example, every 1 Om, the above-mentioned line sending operation can be implemented. However, sometimes the fishing line is not color-treated. At this time, a 1 Om fishing line can be connected to the front end. However, it is also possible to carry out the learning process by taking up a 10m fishing line, and if the line is not finished, return to step S 31. When the winding has been started, it is moved from step S 31 to step S 3 40. At step S 3 4 the number of reels is increased by X in response to the count of the reels. For example, the reel sensor 41 outputs 10 pulses per revolution of the reel, and each reel of the reel of the reel counter 4 2 has a paper size that applies to the Chinese National Standard (CNS) A4 specification ( 210 X 297 mm) -30- — 171: ---- I --- ^-equipment -------- order. ^ # F \. I (please read the notes on the back before filling (This page) A7 B7____ 5. The invention is explained as above) When the digits are increased by 10 each time, that is, when the reel counter 4 is increased by 10, the reel rotation number X is increased by one. (Please read the precautions on the back before filling in this page.) When the winding is finished and the rotation of the reel 10 stops, move from step S 3 2 ′ to step S 3 5. In step S35, the reel rotation number X when the winding is completed is set to the total rotation number c. In step S36, the reel rotation number X is reduced in accordance with the feeding of the fishing line. This subtraction is also the same as that in step S 3 4. For example, every time the reel counter 値 is decremented by 10, the reel rotation number X 値 is decreased by one. When the thread feed is finished, the process moves from step S 3 3 to step S 3 7. In step S37, the total number of rotations of the reel is reduced from the total number of rotations of the reel X, and the reduced number 値 is set to the number of rotations d of the line. The number of rotations d sent by this line is also the number of rotations of the reel 10 when the fishing line of 1 Om is sent out. In step S38, the wire winding diameter B? And the sending length S are read from the memory section 43. The two pieces of data are previously written in the memory section 43. The shellfish consumer cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs printed in step 41 of Fig. 10, using the obtained four data c 'd, Bττ, S, and using the above formula (6) to find the slope of an approximately straight line Α. Calculate a straight line once. Thus, the relationship between the length Y of each reel of the reel within the full length of the fishing line and the length of the reel and the number of turns @ revolution number X can be determined. In step S42, the obtained straight line is integrated at the time point of the total number of rotations c to calculate LN »from the start of winding to the completion of winding, and the line length LN is set to a water depth" zero ". 31 This paper size applies to Yin National Standard < CNS) A4 specification (210 X 297 mm) Α7 Β7 V. Description of invention ί9) (Please read the precautions on the back before filling in this page > In step S 4 3, it is memorized in the memory section 4 3, total rotation Count C, slice B a, the obtained inclination A and the line length L Ν. After these processes are completed, return to the key input process. When it is judged as the "correction mode", move from step S 2 2 to step S 35, and The number of reel rotations X at this time is set to the total number of rotations c, so that the processing from step S 36 onward can be performed. Thus, the foregoing processing can be performed. For example, due to the effect of tension, the previously learned correlation is deviated. In this case, there is no need to carry out the study of the entire fishing line, and only the final part of the study can be used to correct the tilt of a straight line. When it is judged that it is a lower line, it moves from step S 2 3 to step S 2 50. Economy Printed by the Consumer Cooperative of the Ministry of Intellectual Property Bureau in step S5, that is, to change the slice Bπ to Bΐπ. The coil diameter B1 is shown in FIG. 2 and looped on the flange portion 10a of the reel 10. The ground is marked. After winding the lower layer to the wire winding diameter B 1, the The thin fishing line is wound to a specified length. For example, a fishing line No. 8 of 20 Om is wound around the line reel, and the fishing line is wound around the flange portion 1 0 a. In the winding reel 10 of the fishing line of the peripheral part of the a, after the lower layer is wound to the coil winding diameter B 1, it can be wound on the flange part with the fishing line 2 of 0 Om. 1 〇a peripheral edge. Change the slice to B 1 π and move to step S 3 1 Waiting for the start of the winding of the line. The lower layer (winding) processing is to wind the lower layer to the specified thread winding diameter It is used when changing the slice to learn fishing lines of different diameters. In the processing of each action mode of step S7, it is judged whether the rotation direction of the reel 10 is the direction of the line sending out in step S51 of FIG. 11. -32- This paper size is in accordance with Chinese National Standard (CNS) A4 (210 X 297 mm) A7 B7_ 5. The description of the invention such as) This judgment is made by the reed switch 4 of the reel switch 4 1 1 a. (Please read the precautions on the back before filling in this page) 4 1 Which one of the pulses is sent to judge. If the rotation direction of the reel 10 is judged as the sending direction of the thread, it will move from step S 5 1 to step S 5 2 ° In step S 5 2, make the reel rotation number X one at a time cut back. This step is the same as step S 3 6 in FIG. 9. In step S53, the data stored in the memory section 43 is read out according to the number of reels of the reel for each decrease, and the water depth LX is calculated. This water depth is displayed by the display processing of step S2. In step S54, it is judged whether the obtained water depth LX coincides with the bottom position. In other words, it is determined whether the fishing mechanism has reached the bottom position. The bottom position, that is, when the fishing mechanism reaches the bottom position, as described above, can be set to the memory section 43 by pressing the bottom memory key SM. In step S5, it is determined whether or not there is another mode. When there is no other mode, the processing of each operation mode is completed and the process returns to the main flow. When the water depth is consistent with the bottom position, the process moves from step S 5 4 to step 5 5 6 printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs. And the buzzer that reports the bottom position of the fishing mechanism is played. In other modes, it moves from step S 5 5 to step S 5 7 to implement the other modes specified. When it is judged that the winding direction of the reel of the reel 10 is taken from step S 5 1 to step S 5 8. In step 5 8 ', the number of reels is increased by one each time. In step S 59, the data stored in the storage section 43 is read out according to the number of reels of the reel X every time it is increased to calculate the water depth. This water depth is -33-This paper size applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm) A7 B7 V. The description of the invention such as) is displayed in step S2. (Please read the precautions on the back before filling this page) In step S 60, it is judged whether the water depth is consistent with the rim stop position. If it is not wound to the rim stop position, it will return to the main process. When the ship's edge stop position is reached, it moves from step S 60 to step S 61. In step S61, the buzzer 40 is sounded in order to inform that the fishing mechanism is already on the rim of the boat. Even in step S62, the motor 12 is turned off. As a result, when the fish is caught, move it to a place where it can be easily accessed. This rim stop position is set, for example, when the reel 10 has stopped for more than a predetermined time within a depth of 6 m. The Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs printed and distributed the learning of the relationship between the number of reels and the length of the reel in this example to correct the unknown. Since it is not necessary to install a line length detector, the line length can be measured. In addition, when there is tension on the fishing line that causes the display to deviate from the actual water depth, the displayed water depth can be corrected to the correct level by a simple calculation. When the lower layer mode is used, that is, a thin fishing line sold in units of 10 Om, for example, can be reliably wound to a prescribed position of the reel. (Second Embodiment) In the first embodiment described above, the lower layer thread mode and the lower layer thread must be wound up to a predetermined thread winding diameter before learning. In the second embodiment, that is, when using a lower layer thread or a thread saver, the winding diameter of the thread at the beginning of winding is unknown, and a fishing line of unknown thickness and length can be wound. The paper size applies the national standard (CNS) A4 specification (2) 0 X 297 gong. (A7 printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs. A7 ____B7____ 5. Inventory Note Red) The lower diameter can be used for learning. The outline of the method for calculating the line length in the second embodiment will be described below. In the present invention, the relationship between the length Y of each reel of the reel and the number X of reels can be approximated to a straight line to calculate the length of the wire. When winding the lower layer or the economizer on the reel, the coil diameter at the start of winding is calculated by a predetermined operation. In this example, for example, when a fishing line of unknown thickness and full length is wound on the reel 10 in a layered manner from the winding diameter B mm, the reel rotation number X and the line per reel unit of the reel The relationship of length Y is defined by the inclination A, and a straight line of the following (1 1) of the slice B π. Y = AX + Β τι (11) When the fishing line S1mm is taken up from the winding diameter B at the beginning of the winding, such as when the reel 10 rotates e, the line length of each reel of the reel at that time When it is Y (e), it can be displayed as shown in the following formula (1 2). Y (e) = A.e + B; r (12) The graph showing the relationship between the number of rotations of the reel X and the line length Y of each rotation unit of the reel appears as shown in Figure 12. In this graph, the winding length S1 of the wire is equal to the area of the table with the winding diameter B from the start of winding to the number of revolutions of the reel, so it can be expressed by the following formula (1 3) {Please read first Note on the back, please fill in this page again) Install i__i I ϋ nn ϋ n ^ eJ · ϋ I * fnn > in I * This paper size applies to _ national standard (CNS > A4 specification (210 X 297 mm) -35 -V. Explanation of invention red) A7 B7 sl = e {Y (e) 屮 Βπ} / 2 (13) Substitute formula (3) into formula (2), that is, sl = e {A * e + B ^ + B7r } / 2 (14) The following formula (1 5) is obtained by solving the formula (1 4) with Bττ. B? Z- = (2S1-A * e2 / 2e (15) and rewind the fishing line. When the reel is rotated C times, the p length of the reel 1 rotation unit is Y (c). When the wire length S is sent out and the reel d turns, the wire length per rotation unit of the reel is Y (c- as shown in (16) below, (17) can express each wire length 10 rotation d) Y (c), Y (cd). Y (C) = A • C + B n (1 6) Y (c — d) = A · (c — d) + B π (17) 丨 丨-| 丨; ---- I --- 0 pack --------; order · (Please read the back first < Note this item and fill in this page again > Printed by the Consumers' Cooperative of Intellectual Property Bureau of the Ministry of Economic Affairs, the length S of this thread is equal to the area of the table shape from the number of reel rotations (c -d) to c Therefore, it can be expressed by the following formula (18). S = d · {Y (c) + Y (cd)} / 2 (18) This paper size is applicable to China National Standard (CNS) A4 (210 X 297 mm) -36- A7 B7 _____ 5. Description of the invention ) In formula (18), substitute formula (16) '7), that is, S = d · {A · C + B + A · (c a = d · {A · (2c — d) + 2B ^ * d) + B ττ} / 2/2 (19) Solving this equation for the inclination A becomes the following (Formula 20). A = 2 (Sd.B? R) / d (2c d (20) iiii-c (Please (Please read the notes on the back before filling out this page)
、—即可引導出下述( 所以在(2 0 )式代入(1 5 )式即J 2 1 )式。 A:2{S-d(2Sl-A · e2)/2e}/d(2c-d) 整理之即 A · d · e(2c-d-e)=2(e (21) SI) (22) 經濟部智慧財產局員工消費合作社印製 現在設2 c — d — e关〇,而( A=2(e · S-d · Sl)/d · e(2c-d-e),-Can lead to the following (so in (2 0) into (1 5) into J 2 1). A: 2 {Sd (2Sl-A · e2) / 2e} / d (2c-d) Sorting is A · d · e (2c-de) = 2 (e (21) SI) (22) Ministry of Economic Affairs Wisdom The property bureau employee consumer cooperative prints now that 2 c — d — e is off, and (A = 2 (e · Sd · Sl) / d · e (2c-de)
1 2 )式對A解之良P (23) 由而可求一次直線之傾斜A,同時將(2 3 )式代入 於(1 5)式就可以用下述(2 4)式來求切片Β7Γ。 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) _ · 五、發明說明紅 ) A7 B7 Β π =Sl/e-(e · S-d · S1 )/d(2c-d-e) (24) 所以由實施特定之操作即可以獲得五個數據S,S ,c,d,e,以該五個數據來求出傾斜A,及切片Β 。因此在於捲繞開始時之線脊徑不明時,也可以求得近似 一次直線之切片Β 7Γ也。 又捲繞開始時之線卷徑 徑之繞線輪上捲繞釣線時, 。切片即成爲Β π。此時之 部4 3。此時即與第1實施 並且如果能決定傾斜A 時,在記憶部4 3記憶所算 總旋轉數c,及現在旋轉數 經濟部智慧財產局員工消费合作社印製 B爲已知時,例如知道線卷筒 即以(2 0 )式可算出傾斜A 切片Β 7Γ乃預先已記憶在記億 形態相同。 ,切片Β π之近似之一次直線 出之傾斜A,及切片Βπ,及 之線長,及零設定時之旋轉數 (最初係與總旋轉數相同)。並且在實釣時,繞線輪10 旋轉時,於規定之定時(例如繞線輪每旋轉2 0次)地讀 出所記憶之數據,將一次直線施予積分處理(面積之算出 處理)而可求出該時之線長L Ν。並且依所求得之線長 LN在水深顯示部5顯示釣魚機構之水深(釣線前端之水 深)。 例如,開始捲繞徑(繞線輪1 0之線卷筒徑)係已知 ,而繞線輪1 0係從開始捲繞到1 0 0 0旋轉(c )而完 成捲繞。從該處送出釣線10m (S)時’當繞線輪旋轉 40旋轉(d)時,如繞線輪1 0之線卷筒徑(開始捲繞 丨—·'----1---ο» --------訂- (請先閲讀背面之注意事項再填寫本頁) 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -38 - 經濟部智慧財產局貝工消费合作社印製 A7 ____B7____ 五、發明說明紐 ) 時之線卷徑)爲60mm(B)時由(20)式可求出一 次直線之傾斜A即如下述。 A=2(10000-40 X 188.4)/40(2 x 10000-40)=0.0629 又由於施予下層線捲繞,所以捲繞開始徑不明,且捲 繞粗細及長度均不明之釣線時,假定從開始捲繞而捲繞 10m (S1)時之繞線輪1〇之旋轉數爲50旋轉(e ),由而在捲繞後500旋轉(c)就完成捲繞時,從該 處又送出釣線1 〇m ( S )時繞線輪旋轉4 0旋轉(d ) 時,由(2 3)式及(24)式求出一次直線之傾斜A及 切片Β 7Γ即如下。 A = (50 X 10000-40 X 10000)/40 · 50(10000-40-50) = 0.1 10 Β π =10000/50-(50 · 10000-40 · 10000)/40(1000-40-50) =197.3 下面依圖1 3及圖1 4之控制流程圖說明以捲軸控制 3 0來實施之具體的捲繞及下層線控制處理。再者由於主 流程,鍵輸入處理及各動作模式處理係與第1實施形態相 同,故省略其說明。 在圖8之步驟S 1 6之捲繞模式處理中,以圖1 3之 步驟S 7 1判斷是否學習模式。在步驟S 7 2判斷是否修 正模式。在步驟S 7 3判斷是否下層線模式,在步驟 <請先閱讀背面之注意事項再填寫本頁) 裝 -& . 本紙張尺度適用中國國家標準(CNS>A4規格(210 X 297公釐) -39- A7 B7 五、發明說明釘 ) S 7 3之判斷爲否時移至步驟S 7 4而實施指定模式或輸 入模式等之其他捲線模式。 判斷爲學習模式時即由步驟S 7 1移至步驟S 8 1, _而判斷是否已開始捲線。此判斷係藉由繞線輪感測器4 1 來檢出繞線輪10是否朝捲線方向開始旋轉與否來做判斷 〇 在步驟S 8 2判斷捲線是否終了。此判斷係由規定之 鍵操作是否已實施(例如底記憶鍵SM已按規定時間以上 )來做判斷。按在捲線終了後,將釣線再送出規定之長度 S (例如1 〇m)以資學習繞線輪旋轉數與繞線輪每一旋 轉單位之線長之關係者,於是在步驟S 8 3判斷該1 〇m 之送出是否終了。此判斷也以是否已做規定之鍵操作來判 斷。又在釣線上例如每1 Om色彩不同之處理時上述線送 出操作就可實施。惟有時候釣線上沒有這種措施,此時可 以採用將1 Om長之釣線連結於前端之後,再實施捲取 1 Om釣線,後實施學習處理,如果線送出未完成時又回 至鍵輸入流程。 經濟部智慧財產局員工消费合作社印製 如果線捲取已開始即由步驟S 8 1移至步驟S 8 4。 在步驟S 8 4中,令繞線輪旋轉數X隨應於繞線輪計 數器4 2之値而增加。例如繞線輪感測器4 1在繞線輪每 一旋轉單位有1 0脈衝之輸出。而繞線輪計數器4 2即繞 線輪每一旋轉單位地每增1 0時,即每繞線輪計數器4 2 每增加10即使繞線輪旋轉數X增加1。 捲線捲取終了,繞線輪1 0之旋轉停止實施規定之鍵 -40- II*|_;---*|----裝--------訂. ✓(, · (請先閱讀背面之注^.項再填寫本頁) 本紙張尺度適用t國國家標準(CNS)A4規格(210 * 297公釐) 經濟部智慧財產局員工消费合作社印製 A7 B7_ 五、發明說明紅) 操作時,即由步驟S82移至步驟S85。 在步驟S 8 5即判斷是否釣線已開始送出。此判斷係 胃由繞線輪感測器來檢出繞線輪10已朝線之送出方向旋 轉來判斷。如未送出時即移至步驟S87,將捲取完了時 之繞線輪旋轉數X設定於總旋轉數c。如釣線之送出之已 開始時,即移行至步驟S 8 6,隨應於釣線之送出將繞線 輪旋轉數X予以減少。此減少也與步驟S 8 4 —般,例如 繞線輪計數器4 2之値每減1 0即使繞線輪旋轉數X値減 少1。以規定之鍵操作而判斷爲線之送出已終了時,即由 步驟S 8 3移行至步驟S 8 8。 在步驟S 8 8,即由繞線輪總旋轉數c減算由線之送 出而減少之繞線輪旋轉數X,而將該減算値設定於送出旋 轉數 此送出旋轉數d即線捲取終了後再送出釣線1〇m時 之繞線輪10之旋轉數。 在步驟S 8 9係,由記憶部4 3讀取線卷徑Β π及送 出長度S。此二個數據係預先寫入於記億部4 3者。 在步驟S90係,以所獲得之四個數據c,d ’ Βττ ,s依上述(1 〇 )式求出近似一次直線之傾斜Α以資算 出近似一次直線,由而可以決定線線及長度未知之釣線之 全長範圍之繞線輪每一旋轉單位之線長Y與繞線輪旋轉數 X之相關關係。 在步驟S 9 1中,將獲得之一次直線於總旋轉數c之 時點施以積分處理以資算出從開始捲線到捲線終了爲止之 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -41 -1 2) is a good solution of A to P (23), so that the inclination A of a straight line can be obtained. At the same time, substituting (2 3) into (1 5), we can use the following formula (2 4) to find the slice B7Γ. This paper size applies to China National Standard (CNS) A4 specification (210 X 297 mm) _ · V. Invention Description Red) A7 B7 Β = Sl / e- (e · Sd · S1) / d (2c-de) (24) Therefore, five data S, S, c, d, e can be obtained by implementing a specific operation, and the tilt A and slice B can be obtained from the five data. Therefore, even if the line ridge diameter at the start of winding is unknown, a slice B 7Γ which is approximately a straight line can also be obtained. When the winding line is wound on the reel at the start of winding,. The slice becomes Bπ.部 的 4/3 at this time. At this time, when the first implementation is implemented and if the inclination A can be determined, the total number of rotations c is memorized in the memory section 4 and the current number of rotations printed by the consumer co-operative society of the Intellectual Property Bureau of the Ministry of Economic Affairs is known. The line reel can calculate the tilt A slice B 7Γ by the formula (2 0), which is already stored in the same way in the memory. , The inclination A of the approximate straight line of the slice B π, and the line length of the slice Bπ, and the rotation number at the time of zero setting (the initial number is the same as the total rotation number). And during the actual fishing, when the reel 10 rotates, the memorized data is read out at a predetermined timing (for example, every 20 times the reel is rotated), and a straight line is applied to the integration processing (area calculation processing). The line length L N at that time can be obtained. In addition, the water depth of the fishing mechanism (water depth at the front end of the fishing line) is displayed on the water depth display section 5 according to the obtained line length LN. For example, the start winding diameter (the diameter of the reel of the reel 10) is known, and the reel 10 is rotated from the beginning to the 100 rotation (c) to complete the winding. When the fishing line is sent 10m (S) from there, 'When the reel rotates 40 and rotates (d), such as the reel diameter of the reel 10 (beginning of winding 丨 —-' ---- 1- -ο »-------- Order- (Please read the notes on the back before filling out this page) This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) -38-Ministry of Economy Printed by the Intellectual Property Bureau Shellfish Consumer Cooperative A7 ____B7____ V. Description of the invention When the diameter of the wire is 60mm (B), the linear inclination A can be obtained from the formula (20) as follows. A = 2 (10000-40 X 188.4) / 40 (2 x 10000-40) = 0.0629 When the lower layer is wound, the winding start diameter is unknown, and the thickness and length of the fishing line are unknown. Assume that the number of rotations of the reel 10 at the time of winding 10m (S1) from the start of winding is 50 rotations (e), and after 500 rotations (c) after winding, winding is completed from there. When the fishing line is sent out at 10 m (S), the reel rotates at 40 rotations (d), and the linear inclination A and the slice B 7Γ of the primary straight line are obtained from the equations (23) and (24) as follows. A = (50 X 10000-40 X 10000) / 4050 (10000-40-50) = 0.1 10 Β = 10000 / 50- (50 · 10000-40 · 10000) / 40 (1000-40-50) = 197.3 The following describes the specific winding and lower layer control processing implemented by the reel control 30 according to the control flowcharts of FIGS. 13 and 14. In addition, since the main flow, the key input processing, and each operation mode processing are the same as those of the first embodiment, descriptions thereof will be omitted. In the winding mode processing of step S 16 in FIG. 8, it is determined whether the mode is learned by step S 7 1 in FIG. 13. It is judged at step S 7 2 whether to correct the mode. In step S 7 3, determine whether the lower line mode, in step < please read the precautions on the back before filling in this page). Installation-&.; This paper size applies the Chinese national standard (CNS > A4 specification (210 X 297 mm) ) -39- A7 B7 V. Description of the invention) When the judgment of S 7 3 is NO, move to step S 7 4 and implement other winding mode such as designated mode or input mode. When it is determined as the learning mode, the process moves from step S 7 1 to step S 8 1, and _ is judged whether or not the winding has started. In this judgment, the reel sensor 4 1 is used to determine whether the reel 10 has started to rotate in the winding direction or not. At step S 8 2, it is determined whether the winding is finished. This judgment is made based on whether the specified key operation has been performed (for example, the bottom memory key SM has been pressed for more than a specified time). After the end of the reel, send the fishing line to a predetermined length S (for example, 10m) to learn the relationship between the number of reels and the length of each reel unit, so in step S 8 3 It is judged whether the sending of the 10m is finished. This judgment is also made based on whether a prescribed key operation has been performed. The above-mentioned line feed-out operation can be carried out on a fishing line, for example, when the color is different every 10 m. However, sometimes there is no such measure on the fishing line. At this time, you can connect a 1 Om fishing line to the front end, and then roll up the 1 Om fishing line, and then implement the learning process. If the line is not completed, return to the key input. Process. Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs. If line winding has begun, move from step S 8 1 to step S 84. In step S84, the number X of reels is increased in accordance with the number of reels counter 42. For example, the reel sensor 41 has an output of 10 pulses per rotation unit of the reel. When the reel counter 4 2 is increased by 10 for each revolving unit of the reel, that is, for every 10 increments of the reel counter 4 2, even if the reel rotation number X is increased by 1. When the winding is finished, the rotation of the reel 10 stops and the specified key is implemented. -40- II * | _; --- * | ---- installation -------- order. ✓ (, · ( Please read the note on the back ^. Before filling this page) This paper size is applicable to the national standard (CNS) A4 specification (210 * 297 mm) of the paper. Printed by the Consumers ’Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 B7_ 5. Description of the invention (Red) During operation, the process moves from step S82 to step S85. In step S85, it is determined whether the fishing line has started to be sent out. This judgment is made by detecting that the reel 10 has been rotated in the feeding direction of the thread by the reel sensor. If it is not sent out, go to step S87, and set the reel rotation number X when the winding is completed to the total rotation number c. If the feeding of the fishing line has begun, it proceeds to step S 86, and the number of reels rotation X is reduced in accordance with the feeding of the fishing line. This reduction is also the same as that in step S 8 4. For example, every time the reel counter 4 2 is decremented by 10, the reel rotation number X is decremented by one. When it is judged that the feed-out of the line has been completed by a predetermined key operation, the process moves from step S 8 3 to step S 88. In step S 88, the total number of rotations of the reel is subtracted from the total number of rotations of the reel, which is reduced by the sending of the wire X, and the subtraction is set to the number of rotations of the sending reel. The number of rotations of the reel 10 when the fishing line is 10m later. In step S8-9, the memory section 43 reads the wire winding diameter B? And the feed length S. These two data are written in advance in 43 of the 100 million units. In step S90, based on the obtained four data c, d ′ Βττ, s, the inclination A of the approximate primary straight line is obtained according to the above formula (10) to calculate the approximate primary straight line, so that the line and the length can be determined. Correlation between the line length Y of each reel of the reel of the fishing line and the number X of reels rotation. In step S 91, the obtained straight line is integrated at the point of the total number of rotations c to calculate the paper size from the start of the winding to the end of the winding. The Chinese paper standard (CNS) A4 (210 X 297) is applied. Mm) -41-
(請先閲讀背面之注意事項再填寫本頁) I A7 B7 五、發明說明紅) 線長L N,並且將線長L N設定爲水深零。 在步驟S9 2,將總旋轉數c,切片Βπ ’獲得之傾 斜Α及線長L Ν記億於記憶部4 3。這些處理終了後回至 '鍵輸入流程。在此學習模式中乃以開始捲線時之線卷徑爲 已知,而以記憶於記憶部4 3之値來算出近似一次直線也 〇 被判斷爲修正模式,即由步驟S 7 2移至步驟8 7, 將該時之繞線輪旋轉數X,設定於總旋轉數c,實施步驟 S 8 7以後之處理,由而實施上述之處理,在於由張力之 作用等而前面所學習之相關關係發生偏差之下,不須要實 施遍及釣線全體之學習之下,只以最終部份之學習就可補 正一次直線之傾斜。 被判斷爲下層線模式(先繞下層線墊底後,捲繞規定 之釣線)時即由步驟S73移至步驟75。在步驟75即 實施下層線處理即算出未知之切片以資獲得近似一次直線 之處理。爲了實施此下層線處理時,對於被下層線捲繞之 釣線或裝置了省線器之釣線上連結爲算出線長用之釣線之 後,捲取規定長度(例如1 Om)之釣線而求出該時之繞 線輪之旋轉數e。並且再將釣線捲取到最後,捲取終了時 之繞線輪旋轉數c。最後將釣線送出規定距離S (例如 1 〇m)而求出繞線輪旋轉數d。並且以所獲得之五個數 據 S,SI ’ c,d ’ e 代入於上述(23)、 (24) 式以資求出傾斜A及切片Βττ。 具體的說’在依模式鍵MD設定下層線模式時,即在 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) _沿 ---71:----I---r •裝--- . ,/|\ (請先閲讀背面之注意事項再填寫本頁) 訂· 經濟部智慧財產局員工消费合作社印製 經濟部智慧財產局員工消f合作社印製 A7 ____B7^__ 五、發明說明4〇 ) 圖1 4之步驟s 1 Ο 1判斷是否開始線之捲取。此判斷係 藉由繞線輪感測器41檢出繞線輪10之已開始朝線之捲 取方向旋轉來做判斷。 . 在步驟S 1 〇 2判斷是否完成捲取規定長度S 1 (例 如1 Om)之釣線之捲取。此判斷係由是否已實施規定之 鍵之操作來判斷。 在步驟S 1 〇 3即再進一步判斷釣線是否完全捲取於 繞線輪1 0到最後。此判斷也是藉由是否實施規定之鍵之 操作來做判斷。由於本例乃將釣線捲繞於繞線輪10之後 ,例如再送出釣線例如1 0 m以資學習繞線輪旋轉數及繞 線輪每一旋轉單位之線長之關係者,因而在步驟S 1 0 4 即做規定長度S之釣線之送出是否終了之判斷。此判斷也 是由已實施規定之鍵操作來判斷。 被判斷已開始線之捲取即移至步驟S 1 〇 5。 在步驟S 1 〇 5,即在繞線輪之捲取規定長度S之釣 線之間將繞線輪旋轉數X隨應於繞線輪計數器4 2之値而 每次增加1之値。 被判斷爲已完成規定長度S 1之捲取時’由步驟 S102移至步驟S106。 在步驟S 1 〇 6即實施線捲取完了後是否再度開始釣 線之捲取之判斷。此判斷也是由繞線輪感測器4 1之狀態 來判斷,如果沒有開始再度之線捲取時即移至步驟 S 1 0 7,而將該時之繞線輪旋轉數X ’換言之從線之開 始捲取到捲取1〇m時之旋轉數設定於下層線徑算出用之 ----,---:----T- ·裝--------訂· (請先閱讀背面之注意事項再填寫本頁> 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -43- A7 B7 五、發明說明41 ) 捲取旋轉數e。如再度開始捲取時,即將繞線輪旋轉數X 隨應於繞線輪計數器4 2之値,每次增加1。 (請先閱讀背面之注意事項再填寫本頁) 釣線之捲取全部完了後,由步驟S 1 0 3移至步驟 S 1 0 9。 在步驟s 1 0 9即做捲取終了後,釣線之送出是否已 開始之判斷。此判斷係藉由繞線輪感測器4 1檢出繞線輪 1 0之是否朝釣線之送出方向開始旋轉來做決定。 如果沒有實施釣線之送出時,即移至步驟S111, 將此時之繞線輪旋轉數X設定於總旋轉數c。 如果已開始釣線之送出時,即移至步驟S 1 1 0,將 繞線輪旋轉數隨應於繞線輪計數器4 2之値,每一次減少 1。此減少也與步驟S 8 6 —樣,例如繞線輪計數器4 2 每減10時使繞線輪旋轉數X每次減1。 釣線之規定長度S之送出終了時即由步驟1 0 4移至 步驟1 1 2。 經濟部智慧財產局員工消費合作社印製 在步驟1 1 2即由繞線輪總旋轉數c減算,由釣線之 送出所減少之繞線輪旋轉數X,而將減算値設定於送出旋 轉數d。該送出旋轉數d係捲取終了後再送出釣線1 〇m 之繞線輪10之旋轉數也。 在步驟S 1 1 3即,由記憶部4 3讀出所捲取之規定 長度S 1,及送出之規定長度S。此二個數據係預先寫入 於記憶部4 3。 在步驟S 1 1 4即由所獲得之五個數據c,d,e, S,S1依上述(23)式,(24)式求出一次直線之 -44- 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 經濟部智慧財產局員工消费合作社印製 A7 ___ B7 _ 五、發明說明42 ) 傾斜A及切片Β π,算出一次直線,由而可以決定捲取開 始時之線卷徑,該釣線之粗細及長度未知之釣線之全長度 範圍之繞線輪每一旋轉單位長度Y與繞線輪旋轉數X之相 關關係。 在步驟S 1 1 5即將所獲得之一次直線於總旋轉數c 之時點施予積分處理而可獲得從開始捲線到捲線完成爲止 之線長L N。並且將線長L N設定於水深零。 在步驟S 1 1 6即將所獲得之總旋轉數c,切片Βττ ,所獲得之傾斜Α以及線長L Ν記憶於記憶部4 3。這些 處理終了後回至鍵輸入流程。 本例中,該爲了補正未知之釣線之繞線輪旋轉數與線 長之關係之學習係,只於釣線之開始捲取之部份以及略最 終線卷部份之短的線長而予以實施,所以不須要線長檢出 器之狀態下,可以計測線長。並且在釣線上有張力之作用 而顯示與實際之水深之發生之偏差之下,仍然得用簡單的 計算就可以將所顯示之水深補正爲正確之値。又使用下層 線模式時,即開始捲取線時之線卷徑之不明之時,也可以 將線徑及線長不明之釣線確實的予以計測的捲繞到繞線輪 上之規定位置爲止者。 (其他實施例) (a )替代於電動捲軸而將本發明可以適用於備有水 深顯示機構之手動捲取捲軸。 (b )替代於兩軸承捲軸將本發明可適用於單軸承捲 ------------ · -------- {請先閲讀背面之注意事項再填寫本頁> 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -45- A7 B7 五、發明說明43 ) 軸。 (請先《讀背面之注$項再填寫本頁) (c )又在上述實施形態中,將依所學習之相關關係 之一次直線之數據記億於記憶部4 3,惟將預先設定之一 '次直線之傾斜及切片之數據記憶於記億部43亦可以。並 且只在相關關係之發生偏差時或實施下層線之捲繞時才以 學習來變更相關關係亦可以。 (d )在上述實施形態中,係以線之捲取後才送出釣 線惟,如上述在捲取之終了後再實施規定距離之捲取本實 施學習亦可以。 (e )用於近似繞線輪之每單位旋轉數之線長以及繞 線輪旋轉數之關係之函數係不限於一次函數,二次函數或 其他函數亦可以。 (發明之效果) 經濟部智慧財產局員工消费合作社印製 有關本發明之釣魚用捲軸之線長計測裝置時,只變更 從切片之傾斜之計算處理就可以實施補正,所以每單位旋 轉之線長及旋轉位置數據之相關關係有所變化時,該爲了 補正之計算處理變爲簡單,以低廉且簡單之構成之計算裝 置就可以實施補正。 有關本發明之別的發明之釣魚用捲軸之線長計測裝置 時,由於被構成可以輸入切片,所以實施下層線之捲繞時 也很容易決定一次直線,所以使用下層線之繞線墊底而使 開始捲取時之線卷徑變動時,也不須要使用線長檢出器之 下,簡單的可以學習線長與繞線輪之旋轉數之關係也。 -46 - 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) A7 ______B7 五、發明說明“) (請先W讀背面之注意事項再填寫本頁> 有關本發明之再一別的發明之釣魚用捲軸之線長計測 裝置時,由於可以算出切片的予以構成,所以捲繞開始時 之線卷徑有變化時,也可以重新決定函數,使用下層線或 '省線器(套筒)等之狀態之下,不受釣線之捲取開始直徑 徑之影響,而不須要使用線長檢出器之下簡單的可以計測 線長。 圖式之簡單說明 第1圖係採用本發明之一實施形態之重動捲軸之平面 圖。 第2圖係採用本發明之一實施形態之電動捲軸之斷面 圖。 第3圖係上述捲軸之計數器殻體之橫斷面圖。 第4圖係水深顯示部之平面圖》 第5圖係表示控制系之構成之方塊圖。 第6圖係表示繞線輪所旋轉之數與繞線輪每一旋轉之 單位線長之關係之曲線圖。 經濟部智慧財產局員工消费合作社印製 第7圖係表示主處理流程之流程圖。 第8圖係表示副處理流程之流程圖。 第9圖係表示捲線模式之副處理流程之流程圖。 第1 0圖係表示捲線模式之副處理流程之流程圖。 第1 1圖係表示各動作副處理流程之流程圖。 第12圖係表示第2實施形態之繞線輪旋轉數與繞線 輪之一旋轉之單位線長之關係之曲線圖。 本紙張尺度適用辛國國家標準(CNS)A4規格(210 X 297公七) \ ΛΊ . A7 B7_ 五、發明說明45 ) 第1 3圖係表示第2實施形態之捲線模式副處理流程 '之流程圖。 第1 4圖係表示第2實施形態之下層線處理副處理流 '程之流程圖。 標號說明 10 繞線輪 3 0 捲軸控制部 41 繞線輪感測器 (請先閱讀背面‘注意事項再填寫本頁) 經濟部智慧財產局員工消費合作社印製 -48- 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐)(Please read the precautions on the back before filling out this page) I A7 B7 V. Inventive Note Red) Line length L N, and set the line length L N to zero water depth. In step S92 2, the total rotation number c, the inclination A and the line length L N obtained by the slice Bπ 'are recorded in the memory section 43. After these processes are finished, go back to the 'key input flow'. In this learning mode, the winding diameter of the thread at the beginning of the winding is known, and the approximate straight line is calculated by memorizing in the memory section 43. It is also judged as the correction mode, that is, the process moves from step S 7 2 to step 8 7. Set the number of reels rotation X at this time to the total number of rotations c, and implement the processing after step S 8 7 to implement the above processing, which is related to the previously learned correlation by the effect of tension and so on. If there is a deviation, it is not necessary to implement the entire learning of the fishing line. Only the final part of the learning can be used to correct a linear tilt. When it is judged as the lower line mode (the bottom line is wound first, and then the specified fishing line is wound), the process moves from step S73 to step 75. In step 75, the lower layer processing is performed, that is, the unknown slice is calculated to obtain an approximate straight line processing. In order to perform this lower line processing, the fishing line which is wound by the lower line or the fishing line equipped with a line saver is connected to a fishing line for calculating the line length, and then a fishing line of a predetermined length (for example, 1 Om) is wound up. Find the number of rotations e of the reel at that time. Then, the fishing line is wound up to the end, and the reel rotation number c when the winding is finished. Finally, the fishing line is sent out a predetermined distance S (for example, 10 m) to obtain the reel rotation number d. And the obtained five data S, SI ′ c, d ′ e are substituted into the above formulas (23) and (24) to obtain the tilt A and the slice Bττ. Specifically, when setting the lower line mode according to the mode key MD, the Chinese National Standard (CNS) A4 specification (210 X 297 mm) is applied to this paper size. _Yan --- 71: ---- I-- -r • equipment ---.., / | \ (Please read the notes on the back before filling out this page) Order · Printed by the Employees' Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs Printed by the Employees of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 __B7 ^ __ 5. Description of the invention 4〇) Step s 1 〇 1 of Figure 14 determines whether to start the winding of the line. This judgment is made by the reel sensor 41 detecting that the reel 10 has started to rotate in the winding direction of the thread. At step S 102, it is judged whether the winding of the fishing line of the specified length S 1 (e.g., 10 m) is completed. This judgment is made based on whether the operation of the specified key has been performed. In step S103, it is further judged whether the fishing line is completely taken up by the reel 10 to the end. This judgment is also made by whether to perform the operation of a prescribed key. Since this example is the winding of the fishing line after the reel 10, for example, sending out a fishing line such as 10 m to learn the relationship between the number of reels and the length of each reel unit, so in Step S 1 0 4 is to judge whether the delivery of the fishing line of the predetermined length S is finished. This judgment is also made by a predetermined key operation. It is judged that the winding of the line has been started, and the process moves to step S105. In step S 105, the number of rotations of the reel X between the reels of a predetermined length S and the number of reels is increased by 1 each time according to the number of reel counters 4 2. When it is judged that the winding of the predetermined length S 1 has been completed ', the process proceeds from step S102 to step S106. In step S106, it is judged whether the coiling of the fishing line is started again after the coiling is completed. This judgment is also judged by the state of the reel sensor 41. If the rewinding of the reel is not started, it moves to step S 107, and the reel rotation number X 'at this time is in other words The number of rotations from the start of winding to 10m of winding is set for the calculation of the diameter of the lower layer ----, ---: ---- T- · equipment -------- order · ( Please read the notes on the back before filling in this page> This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) -43- A7 B7 V. Description of the invention 41) Winding rotation number e. If rewinding is started again, the number of reels rotation X will be increased by 1 each time the reel counter 4 2 is incremented. (Please read the precautions on the back before filling out this page) After all the fishing line has been taken up, move from step S 10 3 to step S 1 0 9. At step s109, it is judged whether the feeding of the fishing line has been started after the coiling is finished. This determination is made by the reel sensor 41 detecting whether the reel 10 has started to rotate in the direction of the fishing line. If the fishing line is not sent out, the process moves to step S111, and the reel rotation number X at this time is set to the total rotation number c. If the feeding of the fishing line has started, the process moves to step S 1 1 0, and the number of reels rotations is adjusted to the number of reels counters 4 and 2 each time. This reduction is also the same as step S 8 6. For example, every time the reel counter 4 2 is decremented, the reel rotation number X is decremented by 1 each time. When the specified length S of the fishing line is sent out, it moves from step 104 to step 1 12. Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs in step 1 12 that the total number of reel rotations c is subtracted and the number of reel rotations X reduced by the fishing line is sent out, and the reduction 値 is set to the number of sent out rotations d. The number of rotations d of the delivery is the number of rotations of the reel 10 after the fishing line 10 m has been taken out. In step S 1 1 3, the rolled-up predetermined length S 1 and the sent-out predetermined length S are read by the memory section 4 3. These two data are written in the memory section 43 in advance. In step S 1 1 4, the five data c, d, e, S, and S1 obtained from the obtained five data (23) and (24) are used to find a straight line -44- This paper scale applies Chinese national standards ( CNS) A4 size (210 X 297 mm) Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 ___ B7 _ V. Description of the invention 42) Tilt A and slice B π to calculate a straight line so that you can determine the start of winding The coil diameter, the length of each reel of the reel with the thickness of the fishing line and the full length range of the reel are unknown. In step S 1 15, the integral processing is performed at the point when the obtained straight line is at the total number of rotations c to obtain the line length L N from the start of the winding to the completion of the winding. The line length L N is set to zero water depth. In step S 1 1 6, the total number of rotations c obtained, the slice Bττ, the obtained inclination A, and the line length L N are stored in the memory section 43. After these processes are completed, the process returns to the key input process. In this example, the learning system in order to correct the relationship between the number of reels of the reel and the line length of an unknown fishing line is only for the short line length at the beginning of the fishing line and slightly short of the final winding line. It is implemented so that the line length can be measured without the need for a line length detector. And under the effect of tension on the fishing line and the deviation from the actual water depth display, it is still necessary to use simple calculations to correct the displayed water depth to the correct level. When using the lower layer mode, that is, when the winding diameter of the thread at the beginning of winding is unknown, the fishing line with unknown diameter and length can be reliably measured and wound to a predetermined position on the reel. By. (Other embodiments) (a) The present invention can be applied to a manual reel equipped with a water depth display mechanism instead of an electric reel. (b) The invention can be applied to single bearing rolls instead of two bearing rolls ------------ · -------- {Please read the precautions on the back before filling this page > This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) -45- A7 B7 V. Description of the Invention 43) shaft. (Please read "Note $ on the back side before filling out this page." (C) In the above embodiment, the data of a straight line according to the learned relationship will be recorded in the memory section 4 3, but it will be set in advance. The data of the inclination and slicing of the first-order straight line can also be stored in the memory unit 43. It is also possible to change the relationship by learning only when there is a deviation in the relationship or when winding the underlying line. (d) In the above-mentioned embodiment, the fishing line is sent after the winding of the line. However, as described above, the implementation of the winding of a predetermined distance may be performed after the winding is completed. (e) The function for approximating the relationship between the wire length per unit of revolution of the reel and the number of revolutions of the reel is not limited to a linear function, and a quadratic function or other functions are also possible. (Effects of the Invention) When the consumer cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs printed the line length measuring device for the fishing reel according to the present invention, the correction can be implemented only by changing the calculation processing of the tilt from the slice, so the line length per unit rotation When there is a change in the correlation between the rotation position data, the calculation processing for correction becomes simple, and a low-cost and simple calculation device can implement the correction. When the wire length measuring device for a fishing reel according to another aspect of the present invention is configured so that a slice can be input, it is easy to determine a straight line when winding the lower layer, so the bottom of the lower layer is used for winding. When the winding diameter of the wire at the beginning of winding is changed, it is not necessary to use the wire length detector. It is easy to learn the relationship between the wire length and the number of rotations of the reel. -46-This paper size is in accordance with China National Standard (CNS) A4 (210 X 297 mm) A7 ______B7 V. Description of the invention ") (Please read the precautions on the back before filling out this page > In another invention, the fishing line reel length measuring device can calculate the structure of the slice, so when the winding diameter of the wire changes at the beginning of the winding, the function can be re-determined, and the lower line or 'line saver' can be used. (Sleeve), etc., it is not affected by the diameter of the coiling start of the fishing line, and it is not necessary to use the line length detector. The line length can be measured simply. A plan view of a reel using an embodiment of the present invention. Fig. 2 is a cross-sectional view of an electric reel using an embodiment of the present invention. Fig. 3 is a cross-sectional view of a counter case of the above-mentioned reel. Figure 4 is a plan view of the water depth display. Figure 5 is a block diagram showing the structure of the control system. Figure 6 is a graph showing the relationship between the number of rotations of the reel and the unit line length of each rotation of the reel. . Ministry of Economy Wisdom Printed by the production bureau employee consumer cooperative Figure 7 is a flowchart showing the main processing flow. Figure 8 is a flowchart showing the sub-processing flow. Figure 9 is a flowchart showing the sub-processing flow of the winding mode. Figure 10 Fig. 11 is a flowchart showing the sub-processing flow of the winding mode. Fig. 11 is a flowchart showing the sub-processing flow of each operation. Fig. 12 is a diagram showing the number of rotations of the reel and the rotation of one of the reels in the second embodiment. The graph of the relationship between the unit line lengths. This paper size is applicable to the National Standard (CNS) A4 (210 X 297). Λ. A7 B7_ V. Description of the invention 45) Figure 13 shows the second embodiment. The flowchart of the secondary processing flow of the winding mode is shown in the flowchart. Figures 14 and 14 are flowcharts of the secondary processing flow of the lower layer processing of the second embodiment. Reference numeral description 10 reel 3 0 reel control unit 41 reel feel Detector (Please read the 'Notes on the back side before filling out this page') Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs -48- This paper size applies to China National Standard (CNS) A4 (210 X 297 mm)