[發明解決之課題] [0004] 先前之釣魚用捲線器,伴隨著手部之迴轉的捲筒之迴轉速度、亦即將釣線捲取時的捲筒之迴轉速度,其相關之資訊雖顯示於顯示器,但與釣線送出時的捲筒之迴轉速度相關之資訊卻未顯示於顯示器。因此,釣組之送出速度與釣組之捲揚速度難以以相同的速度進行,以致將釣組以一定速度晃動之誘魚動作重複進行困難。 [0005] 本發明之課題,係在提供一種可使誘魚動作容易地進行之釣魚用捲線器。 [用以解決課題之手段] [0006] 本發明之一個層面之釣魚用捲線器,係可捲取及送出釣線,且具備:捲線器本體、手柄、捲筒、迴轉檢測部、速度檢測部、顯示部及顯示控制部。手柄係可迴轉地安裝於捲線器本體之側部。捲筒係可迴轉地支持於捲線器本體。迴轉檢測部檢測捲筒之迴轉。速度檢測部基於迴轉檢測部之檢測結果而檢測捲筒之迴轉速度。顯示部配置於捲線器本體,顯示與捲筒之迴轉速度相關之資訊。顯示控制部在捲筒於捲取方向及送出方向已作出迴轉時,將由速度檢測部所檢測到的捲筒之迴轉速度,變換成相應於捲筒之迴轉速度範圍所預先設定的段數並顯示於顯示部。 [0007] 根據此一釣魚用捲線器,有關捲筒於捲取方向迴轉時之迴轉速度、與捲筒於送出方向迴轉時之迴轉速度,相應於各自之迴轉速度的速度範圍所預先設定的段數,係以同為相同速度範圍的段數之方式設定。因此,不管是捲筒於捲取方向及送出方向之任一方向迴轉,若是捲筒之迴轉速度落於相同之迴轉速度範圍,則與捲筒之迴轉方向無關,將會有相同之段數顯示於顯示部。藉此,不僅可以視覺判斷釣線之捲取速度與送出速度,還可容易地進行將釣組以一定速度晃動之誘魚動作。 [0008] 較佳的是,迴轉檢測部進而檢測捲筒之迴轉方向。此一情況下,可檢測捲筒迴轉方向之迴轉速度。 [0009] 較佳的是,速度檢測部於上述迴轉檢測部檢測到捲筒之迴轉方向的變化時,不計入捲筒之迴轉方向的變化前所檢測到之捲筒的迴轉,而基於捲筒之迴轉方向的變化後所檢測到之捲筒的迴轉,來檢測捲筒之迴轉速度。此一情況下,由於係基於捲筒之迴轉方向變化後之迴轉而檢測捲筒之迴轉速度,因此可更正確地檢測捲筒之迴轉速度。 [0010] 本發明其他層面之釣魚用捲線器,係可捲取及送出釣線,且具備:捲線器本體、手柄、捲筒、迴轉檢測部、速度檢測部、顯示部及顯示控制部。手柄係可迴轉地安裝於捲線器本體之側部。捲筒係可迴轉地支持於捲線器本體。迴轉檢測部檢測捲筒之迴轉。速度檢測部基於迴轉檢測部之檢測結果而檢測釣線之捲取速度及釣線之送出速度。顯示部配置於捲線器本體,顯示與釣線之捲取速度及釣線之送出速度相關之資訊。顯示控制部在捲筒於捲取方向及送出方向已作出迴轉時,將由速度檢測部所檢測到之釣線之捲取速度及釣線之送出速度,變換成相應於釣線之捲取速度及釣線之送出速度的速度範圍所預先設定的段數並顯示於顯示部。 [0011] 根據此釣魚用捲線器,有關釣線之捲取速度與釣線之送出速度,相應於其等各自之速度範圍所預先設定的段數,係以同為相同速度範圍的段數之方式設定。因此,不管是捲筒於捲取方向及送出方向之任一方向迴轉,若是釣線之捲取速度與釣線之送出速度落於相同之迴轉速度範圍,則與捲筒之迴轉方向無關,會有相同之段數顯示於顯示部。藉此,不僅可以視覺判斷釣線之捲取速度與送出速度,還可容易地進行將釣組以一定速度晃動之誘魚動作。 [發明之效果] [0012] 根據本發明,可提供一種能夠使誘魚動作容易地進行之釣魚用捲線器。[Problem to be solved by the invention] [0004] In the previous fishing reel, the rotation speed of the reel accompanying the rotation of the hand, that is, the rotation speed of the reel when the fishing line is reeled, is displayed on the display. , But the information related to the rotation speed of the reel when the fishing line is sent is not displayed on the display. Therefore, the sending speed of the fishing set and the hoisting speed of the fishing set are difficult to be performed at the same speed, so that it is difficult to repeat the attracting action of shaking the fishing set at a certain speed. [0005] The subject of the present invention is to provide a fishing reel that can easily carry out the action of attracting fish. [Means to Solve the Problem] [0006] One aspect of the present invention is a fishing reel that can take up and send out fishing line, and is equipped with: reel body, handle, reel, rotation detection unit, and speed detection unit , Display unit and display control unit. The handle is rotatably installed on the side of the reel body. The reel is rotatably supported on the reel body. The rotation detection unit detects the rotation of the reel. The speed detection unit detects the rotation speed of the reel based on the detection result of the rotation detection unit. The display part is arranged on the main body of the reel to display information related to the rotation speed of the reel. When the reel has rotated in the winding direction and the delivery direction, the display control unit converts the rotation speed of the reel detected by the speed detection unit into a predetermined number of segments corresponding to the reel rotation speed range and displays it于Display Department. [0007] According to this fishing reel, the rotation speed of the reel when it rotates in the winding direction and the rotation speed of the reel when it rotates in the delivery direction correspond to a predetermined segment of the speed range of the respective rotation speed. The number is set in the same way as the number of segments in the same speed range. Therefore, regardless of whether the reel rotates in either direction of the winding direction or the delivery direction, if the reel rotation speed falls within the same revolving speed range, regardless of the reel rotation direction, the same number of segments will be displayed.于Display Department. In this way, not only the reeling speed and the sending speed of the fishing line can be judged visually, but also the lure action of shaking the fishing set at a certain speed can be easily performed. [0008] Preferably, the rotation detection unit further detects the rotation direction of the reel. In this case, the rotation speed in the direction of rotation of the reel can be detected. [0009] Preferably, when the rotation detection unit detects the change in the rotation direction of the reel, the speed detection unit does not count the rotation of the reel detected before the change in the rotation direction of the reel, and is based on the change in the rotation direction of the reel. The rotation of the reel detected after the change of the direction of rotation of the reel is used to detect the revolving speed of the reel. In this case, since the rotation speed of the reel is detected based on the rotation after the revolving direction of the reel changes, the rotation speed of the reel can be detected more accurately. [0010] The fishing reel of another aspect of the present invention is capable of reeling and sending out fishing line, and is equipped with: reel body, handle, reel, rotation detection unit, speed detection unit, display unit and display control unit. The handle is rotatably installed on the side of the reel body. The reel is rotatably supported on the reel body. The rotation detection unit detects the rotation of the reel. The speed detection unit detects the reeling speed of the fishing line and the delivery speed of the fishing line based on the detection result of the rotation detection unit. The display part is arranged on the main body of the reel to display information related to the reeling speed of the fishing line and the sending speed of the fishing line. When the reel has rotated in the winding direction and the feeding direction, the display control unit converts the fishing line winding speed and the fishing line sending speed detected by the speed detection part into the corresponding fishing line winding speed and The number of segments set in advance in the speed range of the fishing line's delivery speed is displayed on the display. [0011] According to this fishing reel, the winding speed of the fishing line and the sending speed of the fishing line correspond to the number of stages set in advance in their respective speed ranges, which are the same as the number of stages in the same speed range. Mode setting. Therefore, regardless of whether the reel rotates in either direction of the reeling direction or the delivery direction, if the reeling speed of the fishing line and the delivery speed of the fishing line fall within the same revolving speed range, it has nothing to do with the reel rotation direction. The same number of segments is displayed on the display. In this way, not only the reeling speed and the sending speed of the fishing line can be judged visually, but also the lure action of shaking the fishing set at a certain speed can be easily performed. [Effects of the Invention] [0012] According to the present invention, it is possible to provide a fishing reel that can easily perform a fish attracting action.
[0014] 採用本發明的一個實施方式之釣魚用捲線器100,係一種可進行釣線之捲取及送出的雙軸承捲線器。 [0015] 釣魚用捲線器100,如第1圖所示,具備:捲線器本體1、捲筒2、手柄3、第1計算器單元4及第2計算器單元5。 [0016] 捲線器本體1具有:框體6、及覆蓋框體6之兩側部的第1側覆罩7及第2側覆罩8。 [0017] 捲筒2配置於第1側覆罩7與第2側覆罩8之間,且為可迴轉地支持於捲線器本體1。 [0018] 手柄3可迴轉地裝設於捲線器本體1之第1側覆罩7的側部。伴隨著手柄3之迴轉,經由圖未示之迴轉傳遞機構,捲筒2將於釣線捲取方向迴轉。又,手柄3係由圖未示之反轉防止機構而被禁止於釣線送出方向的迴轉。 [0019] 第1計算器單元4配置於捲線器本體1之上部。第1計算器單元4,如第2圖及第3圖所示,具有:控制部11、顯示部12、記憶部13、及開關操作部14。 [0020] 控制部11具有:速度檢測部15、水深計算部16及顯示控制部17。控制部11包含微電腦,其利用軟體來控制速度檢測部15、水深計算部16及顯示控制部17。速度檢測部15接收來自後述迴轉檢測部19之信號而檢測出捲筒2之迴轉速度。具體而言,例如基於每特定時間之捲筒2的平均迴轉數、或是捲筒2之每特定迴轉數之平均時間而計算出捲筒2之迴轉速度,而據以檢測捲筒2之迴轉速度。 [0021] 水深計算部16係基於自捲筒2送出之釣線長而計算釣組配置之水深。具體而言,基於後述記憶部13中預先記憶之捲筒2的迴轉數與水深之關係,以捲筒2自特定位置作出多少個迴轉為基礎來計算水深。 [0022] 顯示控制部17將由速度檢測部15所檢測之捲筒2的迴轉速度,變換成相應於捲筒2之迴轉速度範圍而預先設定之特定的段數並顯示於顯示部12。又,顯示控制部17係將由水深計算部16所計算出之水深顯示於顯示部12。 [0023] 顯示部12如第1圖及第3圖所示,係配置於第1計算器單元4之上面的液晶顯示器。顯示部12中可顯示數値、記號、及部分之英文字母,相應於水深或捲筒2之迴轉速度範圍而預先設定之段數等係因應狀況而顯示。 [0024] 例如,此處捲筒2之迴轉速度範圍係被設定成分為11段數。捲筒2迴轉時,顯示部12中顯示與此段數對應之0~10之數字。第3圖(b)顯示捲筒2之迴轉速度為3之段數的迴轉速度範圍時的狀態。預先設定之捲筒2的捲取方向及送出方向之各種迴轉速度範圍及相應於迴轉速度範圍的段數,係與迴轉方向無關而為相同之設定。 [0025] 具體之捲筒2的迴轉速度範圍,例如捲筒之迴轉速度為每秒0迴轉以上-未達5迴轉時其段數0、每秒5迴轉以上未達10迴轉時其段數1,以如此之方式在段數每增加1時,捲筒之迴轉速度範圍每秒每次增加5迴轉,在成為超過每秒60迴轉以上之迴轉速度時,顯示出上限之段數10。此為捲筒之迴轉速度範圍之一例,捲筒之迴轉速度範圍不受此限定,可根據捲線器本體或捲筒的大小等適當地變更。 [0026] 記憶部13例如由可重寫之快閃記憶體構成。記憶部13中記憶有工廠出貨時之釣魚用捲線器100之捲筒2的大小、釣線的粗細及捲筒2上捲繞有釣線時之捲筒2的迴轉數、與釣線的長度之關係中之至少其一。又,此等關係也可利用公知之學習處理記憶於記憶部13。 [0027] 開關操作部14配置於顯示部12之右側(第1側覆罩7之側)。開關操作部14例如係由按鈕構成。藉由將此開關操作部14以不同之操作方法(例如,長按壓及雙擊)操作,而可進行各種設定操作。 [0028] 第2計算器單元5設於捲線器本體1之第2側覆罩8之側。第2計算器單元5係以電氣配線連接於第1計算器單元4。第2計算器單元5具有電源18及迴轉檢測部19。 [0029] 電源18例如為圓板形之鹼性電池或鋰乾電池,收納於第2計算器單元5之內部。 [0030] 迴轉檢測部19具有可檢測設於與迴轉檢測部19為對向位置之磁鐵(圖未示)的磁簧開關或霍爾元件。迴轉檢測部19檢測捲筒2之迴轉。詳細而言,迴轉檢測部19檢測捲筒2之迴轉數並將信號輸出至控制部11。又,迴轉檢測部19還檢測捲筒2之迴轉方向。詳細而言,迴轉檢測部19檢測出捲筒2在捲取方向及送出方向之任一方向迴轉並將信號輸出至控制部11。 [0031] 其次,茲將於顯示部12顯示段數為止之控制部11的顯示處理之一例,參照第4圖所示之流程圖說明之。又,本發明不受限於第4圖所揭示之控制動作。 [0032] 首先,步驟S1中,根據來自迴轉檢測部19之輸出判斷是否已檢測到捲筒2之迴轉。捲筒2之迴轉如尚未檢測到,則不執行顯示處理。若判斷捲筒2之迴轉已被檢測到,則轉移至步驟S2。 [0033] 步驟S2中,根據來自迴轉檢測部19之輸出,判斷出捲筒2在捲取方向及送出方向之何一方向迴轉,並轉移至次一步驟S3。 [0034] 步驟S3中,根據來自迴轉檢測部19之輸出,判斷捲筒2之迴轉方向是否已從步驟S2檢測到的捲筒2之迴轉方向變化。若判斷出捲筒2之迴轉方向未變化,亦即捲筒2以與步驟S2檢測到的迴轉方向相同之方向迴轉,則轉移到步驟S4。 [0035] 步驟S4中,利用速度檢測部15,基於來自迴轉檢測部19之輸出而檢測出捲筒2之迴轉速度。而後,轉移至步驟S6。 [0036] 步驟S3中,若判斷步驟S2所檢測之捲筒2之迴轉方向已有變化,則轉移至步驟S5。 [0037] 步驟S5中,利用速度檢測部15,基於來自迴轉檢測部19之輸出而檢測出捲筒2之迴轉方向變化後的捲筒2之迴轉速度。而後,轉移至步驟S6。 [0038] 步驟S6中,自記憶部13從相應於捲筒2之迴轉速度範圍所預先設定的段數(此處為1~10之段數)中讀出相應於步驟S4或步驟S5中所檢測出之捲筒2之迴轉速度的段數。而後,轉移至步驟S7。 [0039] 步驟S7中,將步驟S6中自記憶部13讀出之段數顯示於顯示部12。 [0040] 此處,有關步驟S6所讀出之預先設定的段數,與捲筒2之迴轉方向無關地,相應於捲筒2之迴轉速度範圍所設定的段數係顯示於顯示部12。而且,有關捲筒於捲取方向迴轉時之迴轉速度、與捲筒於送出方向迴轉時之迴轉速度,相應於各自之迴轉速度的速度範圍所預先設定之段數,同被設定成相同之段數。因此,不管捲筒2於捲取方向及送出方向之任一方向迴轉,捲筒2之迴轉速度若為相同之迴轉速度範圍,則顯示部12顯示出之段數相同。 [0041] 具體而言,例如捲筒2於捲取方向以迴轉速度範圍V之範圍內的速度迴轉時,如第3圖(b)所示,與3之段數對應的數字3被設定為顯示於顯示部12。於此一情況下,捲筒2於送出方向以迴轉速度範圍V之範圍內的速度迴轉時亦然,與3之段數對應的數字3顯示於顯示部12。藉此,不僅可視覺判斷釣線之捲取速度與送出速度,還可容易地進行以一定速度晃動釣組之誘魚動作。 [0042] 又,此處,係以步驟S2檢測迴轉方向,以步驟S3檢測迴轉方向之變化,藉而可更正確地檢測捲筒2之迴轉速度。詳細而言,例如捲筒2之迴轉方向已自捲取方向變化成送出方向時,於速度檢測部15檢測送出方向之迴轉速度之際,會有計入迴轉方向剛變化前之捲取方向之迴轉速度,而無法檢測正確之送出方向之迴轉速度的疑慮。若是如此,會發生實際之送出方向之迴轉速度與顯示部12所顯示之段數不一致此一問題。 [0043] 為了解決此一問題,在步驟S3檢測到迴轉方向之變化的情況下,利用步驟S5在不含直至迴轉方向變化為止之迴轉下,基於迴轉方向變化後之捲筒2的迴轉來檢測捲筒2之迴轉速度。藉此,可更正確地檢測出捲筒2之迴轉速度。此舉在捲筒2之迴轉方向自送出方向變化成捲取方向時,亦有相同之效果。 [0044] <其他之實施方式> 以上,雖針對本發明之一個實施方式說明如上,但本發明不受限於上述實施方式,在不脫離發明之要旨的範圍內,尚可做各種變更。特別是本說明書中所記載之複數種實施方式及變形例可因應必要任意地組合。 [0045] (a)上述實施方式中,係檢測捲筒2之迴轉方向,並檢測捲筒2之迴轉速度,但不一定有非得檢測迴轉方向之必要。如第5圖之流程圖所示,在檢測了捲筒2之迴轉(步驟S11)的情況下,也可與捲筒之迴轉方向無關地進行控制,而檢測捲筒2之迴轉速度(步驟S12),並讀出相應於迴轉速度之段數(步驟S13)且將讀出之段數顯示於顯示部12(步驟S14)。 [0046] (b)上述實施方式中,係相應於捲筒2之迴轉速度範圍而設定段數,但也可不相應於捲筒2之迴轉速度範圍,而相應於釣線之捲取速度及送出速度之速度範圍來設定段數。此一情況下,乃由速度檢測部15基於迴轉檢測部19之檢測結果檢測釣線之捲取速度及送出速度(步驟S4、步驟S12),並將相應於檢測出之速度的段數顯示於顯示部12。速度檢測部15,例如藉由將自捲筒2的特定位置之迴轉數與捲筒2之迴轉速度比較,而計算釣線之捲取速度及送出速度。又,相應於釣線之捲取速度與釣線之送出速度的速度範圍而預先設定的段數,同是設定為相同的段數。與段數相應之具體的速度範圍,例如如同段數0為0-未達20 cm/秒時、段數1為20-未達40 cm/秒時般之段數每增加1則大致每次增加20 cm/秒而往,若是超過220 cm/秒則顯示上限之段數10。 [0047] (c)上述實施方式中,係以雙軸承捲線器為例說明本發明,但本發明不受此限定。於紡車式捲線器、單軸承捲線器、封閉式捲線器、及可手捲操作之電動捲線器等之以手旋轉手柄的所有釣魚用捲線器中,本發明均可適用。 [0048] (d)上述實施方式中,係相應於捲筒2之迴轉速度範圍而預先設定段數,但也可由使用者自由設定相應於捲筒2之迴轉速度範圍與迴轉速度範圍之段數。[0014] The fishing reel 100 according to one embodiment of the present invention is a double-bearing reel capable of winding and sending out fishing line. [0015] As shown in FIG. 1, the fishing reel 100 includes a reel main body 1, a reel 2, a handle 3, a first calculator unit 4, and a second calculator unit 5. [0016] The reel main body 1 has a frame body 6 and a first side cover 7 and a second side cover 8 that cover both sides of the frame body 6. [0017] The reel 2 is arranged between the first side cover 7 and the second side cover 8, and is rotatably supported by the reel body 1. [0018] The handle 3 is rotatably installed on the side of the first side cover 7 of the reel body 1. Along with the rotation of the handle 3, the reel 2 will rotate in the fishing line winding direction via a rotation transmission mechanism not shown in the figure. In addition, the handle 3 is prevented from rotating in the fishing line delivery direction by a reverse rotation prevention mechanism not shown in the figure. [0019] The first calculator unit 4 is disposed on the upper portion of the reel body 1. As shown in FIGS. 2 and 3, the first calculator unit 4 includes a control unit 11, a display unit 12, a storage unit 13, and a switch operation unit 14. [0020] The control unit 11 has a speed detection unit 15, a water depth calculation unit 16, and a display control unit 17. The control unit 11 includes a microcomputer, which uses software to control the speed detection unit 15, the water depth calculation unit 16, and the display control unit 17. The speed detection unit 15 receives a signal from a rotation detection unit 19 described later to detect the rotation speed of the reel 2. Specifically, for example, the rotation speed of the reel 2 is calculated based on the average number of revolutions of the reel 2 per specific time or the average time per specific number of revolutions of the reel 2, and the rotation of the reel 2 is detected accordingly speed. [0021] The water depth calculation unit 16 calculates the water depth of the fishing rig configuration based on the length of the fishing line sent from the reel 2. Specifically, based on the relationship between the number of revolutions of the reel 2 and the water depth previously stored in the memory unit 13 described later, the water depth is calculated based on how many revolutions the reel 2 makes from a specific position. [0022] The display control unit 17 converts the rotation speed of the reel 2 detected by the speed detection unit 15 into a predetermined number of stages corresponding to the rotation speed range of the reel 2 and displays it on the display unit 12. In addition, the display control unit 17 displays the water depth calculated by the water depth calculation unit 16 on the display unit 12. [0023] The display unit 12 is a liquid crystal display arranged on the upper surface of the first calculator unit 4 as shown in FIGS. 1 and 3. The display unit 12 can display numbers, signs, and some English letters, and the preset number of segments corresponding to the water depth or the reel 2's rotating speed range is displayed according to the situation. [0024] For example, here the rotation speed range of reel 2 is set to 11 steps. When the reel 2 rotates, the display unit 12 displays a number from 0 to 10 corresponding to the number of segments. Fig. 3(b) shows the state when the rotation speed of the reel 2 is within the rotation speed range of 3 stages. The pre-set various rotation speed ranges of the winding direction and the delivery direction of the reel 2 and the number of segments corresponding to the rotation speed range are the same settings regardless of the rotation direction. [0025] Specifically, the rotation speed range of the reel 2, for example, the rotation speed of the reel is 0 revolutions per second or more-the number of segments is 0 when it is less than 5 revolutions, and the number of segments is 1 when it is more than 5 revolutions per second and less than 10 revolutions per second. In this way, when the number of stages increases by 1, the rotation speed range of the reel increases by 5 rotations per second. When the rotation speed exceeds 60 rotations per second, the upper limit of the number of stages 10 is displayed. This is an example of the rotation speed range of the reel. The rotation speed range of the reel is not limited by this, and can be changed appropriately according to the size of the reel body or the reel. [0026] The memory unit 13 is composed of, for example, a rewritable flash memory. The memory unit 13 stores the size of the reel 2 of the fishing reel 100 at the time of shipment from the factory, the thickness of the fishing line, and the number of revolutions of the reel 2 when the fishing line is wound on the reel 2, and the number of rotations of the fishing line. At least one of the length relationships. In addition, these relationships can also be memorized in the memory unit 13 using well-known learning processing. [0027] The switch operation part 14 is arranged on the right side of the display part 12 (the side of the first side cover 7). The switch operation part 14 is comprised by a button, for example. Various setting operations can be performed by operating the switch operating portion 14 with different operating methods (for example, long press and double tap). [0028] The second calculator unit 5 is provided on the side of the second side cover 8 of the reel body 1. The second calculator unit 5 is connected to the first calculator unit 4 by electrical wiring. The second calculator unit 5 has a power supply 18 and a rotation detection unit 19. [0029] The power source 18 is, for example, a disc-shaped alkaline battery or a lithium dry battery, and is housed in the second calculator unit 5. [0030] The rotation detection unit 19 has a reed switch or a Hall element that can detect a magnet (not shown) disposed at a position opposite to the rotation detection unit 19. The rotation detecting unit 19 detects the rotation of the reel 2. Specifically, the rotation detection unit 19 detects the number of rotations of the reel 2 and outputs a signal to the control unit 11. In addition, the rotation detection unit 19 also detects the rotation direction of the reel 2. In detail, the rotation detecting unit 19 detects that the reel 2 is rotated in any one of the winding direction and the feeding direction, and outputs a signal to the control unit 11. [0031] Next, an example of the display processing of the control unit 11 until the number of segments is displayed on the display unit 12 will be described with reference to the flowchart shown in FIG. 4. In addition, the present invention is not limited to the control operation disclosed in FIG. 4. [0032] First, in step S1, it is determined based on the output from the rotation detecting unit 19 whether the rotation of the reel 2 has been detected. If the rotation of reel 2 has not been detected, the display processing is not executed. If it is determined that the rotation of the reel 2 has been detected, the process proceeds to step S2. [0033] In step S2, based on the output from the rotation detecting unit 19, it is determined whether the reel 2 is rotated in the winding direction and the feeding direction, and the process proceeds to the next step S3. [0034] In step S3, based on the output from the rotation detecting unit 19, it is determined whether the rotation direction of the reel 2 has changed from the rotation direction of the reel 2 detected in step S2. If it is determined that the rotation direction of the reel 2 has not changed, that is, the reel 2 is revolving in the same direction as the rotation direction detected in step S2, then the process proceeds to step S4. [0035] In step S4, the speed detection unit 15 detects the rotation speed of the reel 2 based on the output from the rotation detection unit 19. Then, it moves to step S6. [0036] In step S3, if it is determined that the rotation direction of the reel 2 detected in step S2 has changed, then go to step S5. [0037] In step S5, the speed detection unit 15 detects the rotation speed of the reel 2 after the rotation direction of the reel 2 has changed based on the output from the rotation detection unit 19. Then, it moves to step S6. [0038] In step S6, the self-memory part 13 reads out the number of steps corresponding to the rotation speed range of the reel 2 (here, the number of steps from 1 to 10) corresponding to the step S4 or step S5. The number of segments of the rotation speed of reel 2 detected. Then, it moves to step S7. [0039] In step S7, the number of segments read from the storage unit 13 in step S6 is displayed on the display unit 12. [0040] Here, regarding the preset number of stages read in step S6, regardless of the rotation direction of the reel 2, the number of stages set corresponding to the rotation speed range of the reel 2 is displayed on the display unit 12. In addition, the speed of the reel when rotating in the winding direction, and the speed of the reel when rotating in the delivery direction, the number of stages set in advance in the speed range corresponding to the respective rotating speed, are set to the same stage. number. Therefore, regardless of whether the reel 2 rotates in any one of the winding direction and the delivery direction, if the revolving speed of the reel 2 is in the same revolving speed range, the number of segments displayed on the display unit 12 is the same. [0041] Specifically, for example, when the reel 2 rotates at a speed within the range of the rotation speed range V in the winding direction, as shown in Figure 3(b), the number 3 corresponding to the number of stages of 3 is set as Displayed on the display unit 12. In this case, when the reel 2 rotates at a speed within the range of the rotation speed range V in the delivery direction, the number 3 corresponding to the number of stages of 3 is displayed on the display unit 12. In this way, not only the reeling speed and the sending speed of the fishing line can be judged visually, but also the attracting action of shaking the fishing set at a certain speed can be easily performed. [0042] Also, here, step S2 is used to detect the direction of rotation, and step S3 is used to detect changes in the direction of rotation, so that the rotation speed of the reel 2 can be detected more accurately. In detail, for example, when the rotation direction of the reel 2 has been changed from the winding direction to the delivery direction, when the speed detection unit 15 detects the rotation speed of the delivery direction, there will be a value of the winding direction immediately before the change in the rotation direction. Rotation speed, but can not detect the correct rotation speed of the sending direction. If this is the case, a problem that the actual rotation speed in the sending direction does not match the number of segments displayed on the display unit 12 may occur. [0043] In order to solve this problem, when a change in the rotation direction is detected in step S3, step S5 is used to detect based on the rotation of the reel 2 after the rotation direction is changed without including the rotation until the rotation direction is changed. Rotation speed of reel 2. In this way, the rotation speed of the reel 2 can be detected more accurately. This has the same effect when the rotation direction of the reel 2 changes from the delivery direction to the winding direction. [0044] <Other Embodiments> Although the above is the description of one embodiment of the present invention, the present invention is not limited to the above embodiment, and various changes can be made without departing from the gist of the invention. In particular, the plural embodiments and modifications described in this specification can be combined arbitrarily as necessary. [0045] (a) In the above embodiment, the rotation direction of the reel 2 is detected, and the rotation speed of the reel 2 is detected, but it is not necessary to detect the rotation direction. As shown in the flowchart in Fig. 5, when the rotation of the reel 2 is detected (step S11), it is also possible to control regardless of the rotation direction of the reel, and detect the rotation speed of the reel 2 (step S12). ), and read the number of segments corresponding to the rotation speed (step S13) and display the read segment number on the display unit 12 (step S14). [0046] (b) In the above-mentioned embodiment, the number of stages is set corresponding to the rotation speed range of the reel 2. However, it may not correspond to the rotation speed range of the reel 2, but corresponds to the reeling speed and sending out of the fishing line. The speed range is used to set the number of segments. In this case, the speed detecting unit 15 detects the fishing line winding speed and the feeding speed based on the detection result of the rotation detecting unit 19 (step S4, step S12), and the number of segments corresponding to the detected speed is displayed on Display unit 12. The speed detecting unit 15 calculates the winding speed and the feeding speed of the fishing line, for example, by comparing the number of revolutions from a specific position of the reel 2 with the revolution speed of the reel 2. In addition, the number of stages set in advance corresponding to the speed range of the reeling speed of the fishing line and the feeding speed of the fishing line is set to the same number of stages. The specific speed range corresponding to the number of segments, for example, when the number of segments 0 is 0-less than 20 cm/sec, and the number of segments 1 is 20-less than 40 cm/sec, the number of segments increases by 1 roughly every time Increase by 20 cm/sec. If it exceeds 220 cm/sec, the upper limit segment number 10 will be displayed. [0047] (c) In the above-mentioned embodiment, the present invention is explained by taking a double-bearing reel as an example, but the present invention is not limited thereto. The present invention is applicable to all fishing reels with hand-rotating handles such as spinning wheel reels, single-bearing reels, enclosed reels, and electric reels that can be operated by hand winding. [0048] (d) In the above-mentioned embodiment, the number of stages is set in advance corresponding to the rotation speed range of the reel 2, but the number of stages corresponding to the rotation speed range and the rotation speed range of the reel 2 can also be freely set by the user .