TWI639381B - Electric reel - Google Patents

Abstract

Even if the adjusting member of the electric reel is disposed to the reel body, the opening facing the coil does not become narrow and it is easy to jointly operate the adjusting member and the clutch operating member. The electric reel 100 includes a reel body 1, a grip 2, a coil 10, a motor 12, an adjustment member 5, and a reel control unit 70. The reel body 1 includes a frame 7 having a first side plate 7a, a first side cover 8a covering the outer side of the first side plate 7a, and a fishing rod mounting portion 7g provided on the frame 7. The coil 10 is rotatably disposed on the cord reel body 1. The motor 12 rotates to drive the coil 10. The adjustment member 5 is movably provided between the first side plate 7a and the first side cover 8a. The adjustment member 5 is disposed behind the drive shaft 30 and above the spool 14 from the fishing rod mounting portion 7g. The reel control unit 70 adjusts the output of the motor 12 by the movement of the adjustment member 5.

Description

Electric reel

BACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates to an electric reel, and more particularly to an electric reel that continuously feeds a fishing line forward.

In the electric reel, the adjustment member for the motor output adjustment in the form of a rod or a rotating body is provided in the reel body (see, for example, Patent Document 1 and Patent Document 2). The reel body includes a first side plate having a grip side, a frame of the second side plate disposed to face the first side plate, and a first side cover covering the outer side of the first side plate. The adjustment member of Patent Document 1 is provided between the first side plate and the second side plate at the rear of the counter case. In the adjustment member of Patent Document 2, an adjustment member in the form of a rotating body is provided in the rear portion or the front portion of the outer surface of the first side mask. [PRIOR ART DOCUMENT] [Patent Document 1] Japanese Laid-Open Patent Publication No. 2000-316645 (Patent Document 1) Japanese Patent Laid-Open Publication No. 2000-316437

[Problems to be Solved by the Invention] Since the adjustment member of Patent Document 1 is disposed between the first side plate and the second side plate, the opening of the coil can be narrowed. Therefore, it is difficult to perform the outlet control of the coil, and it is difficult to eliminate the shaking when the backlash is generated and the fishing line is shaken. Since the adjustment member of Patent Document 2 is provided on the outer surface of the first side mask, the opening facing the coil does not become narrow. Therefore, it is easy to perform the outlet control and the elimination of the backlash. However, if the clutch operating member is disposed behind the coil between the first side plate and the second side plate as in the case of a small electric reel, the adjustment member disposed on the outer side of the first side cover is disposed apart from the clutch operating member. Therefore, it is difficult to jointly operate the clutch operating member and the adjusting member, so that operability is deteriorated. An object of the present invention is to provide an electric reel in which the opening of the coil is not narrowed even if the adjusting member is provided to the reel body, and the adjustment member and the clutch operating member are easily combined. [Technical means for solving the problem] The electric reel of the invention 1 is an electric reel which continuously feeds the fishing line to the front. The electric reel includes a reel body, a grip, a coil, a motor, an adjustment member, and a motor control portion. The reel body includes a frame having a side plate, a side cover covering the outer side of the side plate, and a fishing rod mounting portion provided to the frame. The grip is rotatably attached to the reel body. The coil is rotatably disposed on the reel body. The motor is disposed on the reel body and rotationally drives the coil. The adjustment member is movably disposed between the side panel and the side shield. The adjustment member is disposed behind the rotation axis of the grip and above the rotation axis of the coil from the fishing rod mounting portion. The motor control unit adjusts the output of the motor by the movement of the adjustment member. In the electric reel, the adjustment member is disposed between the side plate of the reel body and the side cover. Further, the adjustment member is disposed rearward of the rotation axis of the grip and above the rotation axis of the coil from the fishing rod mounting portion. Here, since the adjustment member is disposed between the side plate and the side cover, the opening facing the coil does not become narrow. Further, the clutch operating member may be disposed in the vicinity of the adjusting member regardless of whether the clutch operating member is disposed behind the coil or disposed on the side surface of the side shield. Thereby, it is easy to jointly operate the adjustment member and the clutch operating member. The electric reel of the invention of claim 2, wherein the reel body includes a housing member mountable to the frame, and further comprising a water depth display portion for displaying a depth of water that can be attached to the front end of the fishing line . In this case, the water depth of the device can be displayed. The electric reel according to the invention of claim 2, wherein the side plate includes a first side plate provided with a grip and a second side plate disposed at a distance from the first side plate in the left-right direction. The side cover includes a first side cover that covers the outer side of the first side plate. The adjustment member is movably disposed between the first side plate and the first side cover. In this case, since the adjustment member is provided between the first side plate on the grip mounting side and the first side cover, it is possible to perform the case where the clutch operating member is disposed between the first side plate and the second side plate. The hand on the opposite side of the handle of the grip, that is, the hand of the fishing rod and the reel is operated together to operate the clutch operating member and the adjusting member. Further, when the clutch operating member is disposed on the outer side surface of the first side cover, the hand operating clutch operating member and the adjusting member can be operated by the grip operation. The electric reel according to the invention of claim 4, wherein at least a part of the adjusting member protrudes from the first side cover. In this case, the adjustment member can be moved by pressing the portion of the adjustment member that protrudes from the first side cover. Therefore, the moving operation of the adjustment member is easier. The electric reel according to any one of claims 2 to 4, wherein the adjusting member is rotatably attached to a support shaft provided to the reel body. In this case, since the adjustment member is rotated around the support shaft, the operation of the adjustment member is relatively easy. The electric reel according to the invention of claim 5, further comprising a positioning portion of the positioning adjustment member and a fastening portion for engaging the positioning portion. In this case, since the adjustment member is positioned by the engagement of the positioning portion and the engagement portion, the output of the motor can be accurately adjusted by the adjustment member. Further, since the adjustment member is positioned, it is difficult for the adjustment member to move from the adjusted position. The electric reel according to the invention of claim 6, wherein the positioning portion is provided in one of the adjustment member and the reel body. The fastening portion is provided on the other of the adjustment member and the reel body. In this case, since the positioning portion is provided to one of the adjustment member and the reel body, and the engagement portion is provided to the other of the adjustment member and the reel body, the configuration is relatively easy, and a small size can be achieved. Chemical. The electric reel according to the invention of claim 7, wherein the positioning portion includes a positioning pin provided in one of the adjustment member and the reel body, and an energizing member that energizes the positioning pin. The fastening portion includes a fastening recess that is disposed on the other of the adjustment member and the reel body and that is engaged with the positioning pin. In this case, since the positioning pin is engaged with the fastening recess by the positioning pin energized by the energizing member, the click feeling is obtained at the time of positioning, so that the user can easily recognize the positioning. The electric reel according to the invention of claim 8, wherein the positioning portion is provided in the adjustment member, and the engagement portion is provided in the reel body. In this case, since the positioning pin moves along the fastening recess according to the rotation of the adjustment member touched by the hand, the click feeling can be further obtained. The electric reel according to the invention of claim 8 or 9, wherein the positioning pin is engaged with the engaging recess at the operation start position of the adjusting member. In this case, since the engagement recess is engaged at the adjustment start position of the adjustment member, it is difficult for the adjustment member to rotate from the adjustment start position in violation of the user's will. The electric reel according to the tenth aspect of the invention, further comprising an electric reel according to the tenth aspect of the invention, further comprising a projection formed on the engagement recess, and a projection formed adjacent to the engagement recess, and is disposed adjacent to the engagement recess, and the positioning pin A circular arc recess that can be engaged. An electric reel according to any one of claims 5 to 11, wherein the support shaft is provided to the housing member. In this case, since the adjustment member is supported by the case member on which the electric component is mounted, the rotation phase of the adjustment member can be detected in the case member. The electric reel according to any one of claims 2 to 12, further comprising a phase detecting unit that detects a rotational phase of the adjusting member. In this case, the motor control unit can adjust the output of the motor based on the rotational phase of the adjustment member detected by the phase detecting unit. The electric reel according to the invention of claim 13, wherein the phase detecting portion is disposed in the casing member. In this case, since the phase detecting unit is disposed in the case member, the space for arranging the phase detecting portion is not required, so that the size of the electric reel can be reduced. An electric reel according to the invention of claim 13 or claim 14, wherein the adjustment member includes a detector detected by the phase detecting portion. In this case, since the rotation direction of the adjustment member is provided in the adjustment member, the rotational phase of the adjustment member can be detected with a simple configuration. The electric reel of the invention of claim 16, wherein the detector is a magnet provided to the adjustment member. The phase detecting unit is a Hall element that can detect the rotational phase of the magnet. In this case, since the rotational phase of the adjustment member can be detected by the Hall element mountable on the circuit board, the rotational phase of the adjustment member can be detected in a small configuration. The electric reel according to the invention of claim 13 or claim 14, wherein the phase detecting portion is a potentiometer that is rotatable in conjunction with the adjusting member. In this case, the potentiometer can be used to detect the rotational phase of the adjustment member with high resolution. [Effect of the Invention] According to the present invention, since the adjustment member is disposed between the side plate and the side cover, the opening facing the coil does not become narrow. Further, the clutch operating member may be disposed in the vicinity of the adjusting member regardless of whether the clutch operating member is disposed behind the coil or disposed on the side surface of the side shield. Thereby, it is easy to jointly operate the adjustment member and the clutch operating member.

<Overall construction of electric reel> In Figure 1, figure 2, image 3, In Figures 4 and 5, The electric reel 100 according to an embodiment of the present invention is driven by electric power supplied from an external power source. And it has a small electric reel that is used as a power source for the two-bearing reel used for hand winding. also, The electric reel 100 is a reel having a water depth display function of a water depth according to a line continuous delivery length or a wire winding length display device.  The electric reel has a reel body 1 that can be attached to a fishing rod and has a water depth display portion 4. Grip 2 Coil 10, Clutch operating member 11, Motor 12, Coil drive mechanism 13 (refer to FIG. 5), And a clutch mechanism 16 (see Fig. 4). also, The electric reel 100 further includes an adjustment member 5, Detector 34 (refer to Figure 4), Phase detecting unit 35 (see FIG. 4), And the reel control unit 70 (see Fig. 10). The grip 2 is rotatably disposed on the reel body 1. The coil 10 is rotatably disposed on the cord reel body 1. The clutch operating member 11 is a member for turning on and off the operating clutch mechanism 16, It is movably disposed at the rear of the reel body 1. The motor 12 is disposed on the reel body 1, And the coil 10 is rotationally driven. The clutch mechanism 16 can be switched to a clutch-on state in which the rotation of the grip 2 can be transmitted to the coil 10 and a clutch-off state in which the rotation of the grip 2 cannot be transmitted to the coil 10 by the operation of the clutch operating member 11. The adjustment member 5 is rotatably provided to the reel body 1. The adjustment member 5 is a member for adjusting the output of the motor 12 in accordance with the rotational position. The detector 34 is disposed on the adjustment member 5, It is provided to detect the rotational position of the adjustment member 5. The phase detecting unit 35 can detect the relative rotational phase of the detector 34 with respect to the phase detecting unit 35. The coil drive mechanism 13 drives the coil 10 in accordance with the driving force of the grip 2 and the motor 12. The reel control unit 70 has a function of adjusting the output of the motor 12 to a motor control unit of a plurality of layers in accordance with the rotational position of the adjustment member 5. E.g, The rotational speed of the coil 10 is adjusted to a plurality of layers. also, E.g, The tension acting on the fishing line is adjusted to a plurality of layers. The reel control unit 70 also has a display control function for displaying the control water depth display unit 4.  <Reel body> The reel body 1 is provided with a frame 7, The first side mask 8a, The second side mask 8b, Front mask 9, And the water depth display unit 4 described above. The frame 7 is, for example, a member formed of a synthetic resin or a metal body. The frame 7 has a first side plate 7a, Second side plate 7b, The first connecting member 7c that connects the first side plate 7a and the second side plate 7b, The second connecting member 7d and the third connecting member 7e. The second side plate 7b and the first side plate 7a are arranged at intervals in the left-right direction (the horizontal direction in FIG. 4). The first side cover 8a covers the mounting side of the grip 2 of the frame 7. The second mask 8b covers the side opposite to the mounting side of the grip 2 of the frame 7. The front cover 9 covers the front of the frame 7.  The first side plate 7a has a side plate body 19a and is spaced apart from the side plate body 19a. And the mechanism mounting plate 19b for mounting various mechanisms. The side plate body 19a is as shown in FIG. There is a hub portion 19c. The bushing 65 is rotatably attached to the hub portion 19c. The mechanism mounting plate 19b is provided for mounting various mechanisms shown below. The mechanism mounting plate 19b is screwed and fixed to the outer side of the side plate body 19a. As shown in Figure 4 and Figure 5, Between the side plate body 19a and the first side cover 8a, Provided with a coil drive mechanism 13, Controlling the clutch control mechanism 20 of the clutch mechanism 16, And the towing mechanism 23 (see FIG. 5) in which the line of the brake coil 10 is continuously sent in the direction of rotation. In the first side mask 8a, A throwing control mechanism 21 of the brake coil 10 is provided. The throwing control mechanism 21 is a mechanism that brakes the coil 10 by pressing both ends of the bobbin 14 described later.  Between the first side plate 7a and the second side plate 7b, Set with coil 10, Clutch mechanism 16, And a horizontal winding mechanism 22 for uniformly winding the fishing line around the coil 10. The horizontal winding mechanism 22 is as shown in FIG. a wire cam shaft 63 having a spiral groove formed with an intersection, And a line guide 64 that reciprocates in the axial direction parallel to the bobbin 14 before the coil 10 by the rotation of the wire cam shaft 63. The end of the grip 2 side of the wire cam shaft 63 is as shown in FIG. The spacer bush 65 is rotatably supported by the hub portion 19c.  On the second side plate 7b, As shown in Figure 4, A circular opening 7f through which the coil 10 can pass is formed. The coil support portion 17 that rotatably supports the first end (the left end of FIG. 4) of the bobbin 14 of the coil 10 is attached to the circular opening 7f. The coil support portion 17 is screw-locked and fixed to the outer side surface of the first side plate 7a. In the coil support portion 17, The first bearing 18a that supports the first end of the bobbin 14 is housed.  The first connecting member 7c connects the lower portions of the first side plate 7a and the second side plate 7b. The second connecting member 7d is connected to the front portion of the coil 10. The first connecting member 7c is a plate-shaped portion. A fishing rod mounting portion 7g that is attached to the fishing rod is integrally formed at a substantially central portion in the left-right direction. Furthermore, The fishing rod mounting portion 7g can also be separated from the frame 7. The second connecting member 7d is a substantially cylindrical portion. The motor 12 is housed therein (see FIGS. 2 and 10). The third connecting member 7e is a substantially plate-shaped portion that is curved in an arc shape that connects the rear portion of the reel body 1.  In the first side mask 8a, The first hub portion 8c that rotatably supports the drive shaft 30 is formed to protrude outward. Behind the first hub portion 8c, The second boss portion 8d that supports the second end of the bobbin 14 is formed to protrude outward.  The second side cover 8b is, for example, screwed to the outer edge portion of the second side plate 7b. On the lower surface of the front portion of the second side mask 8b, As shown in Figure 3, The connector 15 for the power cable connection is mounted downward.  The grip 2 is disposed on the side of the first side cover 8a. Grip 2 is as shown in Figures 1 and 2, With grip arm 2a, And a grip handle 2b attached to the front end of the grip arm 2a. The grip 2 is attached to the side of the first side plate 7a. The grip 2 is rotatably coupled to the drive shaft 30 rotatably supported by the reel body 1.  The front cover 9 is placed on the lower two sides of the front side of the first side plate 7a and the second side plate 7b. For example, the screw is locked and fixed. In front cover 9, A horizontally long opening (not shown) through which the fishing line passes is formed. The front cover 9 covers the lower front surface of the casing member 36, which will be described later, of the water depth display portion 4.  The water depth display portion 4 can display the water depth of the device that can be attached to the front end of the fishing line. The water depth display unit 4 is as shown in FIGS. 1 and 10 . The case member 36 is placed on the upper portion of the first side plate 7a and the second side plate 7b. The case member 36 is screw-locked and fixed to the outer side surfaces of the first side plate 7a and the second side plate 7b. The water depth display portion 4 includes a switch operation portion 6 having a plurality of (for example, three) operation buttons for performing a display operation.  Inside the housing member 36, As shown in Figure 10, A reel control unit 70 is housed a display 72 including a liquid crystal display for water depth display, Main circuit substrate 74a, Sub circuit substrate 74b, And a motor drive circuit 76. The reel control unit 70 is constituted by, for example, a microcomputer. On the main circuit substrate 74a, Equipped with a display 72, Reel control unit 70, And a motor drive circuit 76. On the sub circuit board 74b, A phase detecting unit 35 is mounted. The sub circuit board 74b is electrically connected to the main circuit board 74a. The sub-circuit board 74b is orthogonal to the main circuit board 74a and is disposed at the rear of the case member 36.  The casing member 36 extends rearward along the first side plate 7a and the second side plate 7b on both sides. As shown in Figure 4, Behind the first side plate 7a side of the case member 36, A substrate storage space 36h having a lower opening is formed. The sub circuit board 74b is housed in the board housing space 36h. The rear portion of the second side plate 7b side of the case member 36 covers the upper portion of the second side plate 7b and the upper portion of the second side cover 8b.  <Coil> The coil 10 is attached to the bobbin 14 so as to be rotatable. The coil 10 is as shown in FIG. Having a cylindrical winding cylindrical portion 10a, And a first flange portion 10b and a second flange portion 10c having a large diameter which are integrally formed on both sides of the winding cylindrical portion 10a. The first flange portion 10b is provided on the side of the first side plate 7a. The second flange portion 10c is provided on the second side plate 7b side. The bobbin 14 is fixed to the inner peripheral portion of the bobbin cylindrical portion 10a by a suitable fixing method such as press fitting.  The first end of the bobbin 14 is supported by the first bearing 18a in the coil support portion 17 as described above. The second end (right end in Fig. 4) of the bobbin 14 is supported by the second hub portion 8d of the first side cover 8a by the second bearing 18b.  The clutch pin 16a constituting the clutch mechanism 16 penetrates the radial direction and is attached to the second bearing 18b side from the coil fixing portion of the bobbin 14.  <Clutch mechanism> The clutch mechanism 16 is as shown in FIG. There is provided a clutch recess 16a and a clutch recess 16b formed by recessing in a radial direction on the left end surface of the pinion gear 32 on the left side of FIG. The pinion gear 32 constitutes a clutch mechanism 16, Further, the first rotation transmission mechanism 24, which will be described later, is constituted by the coil drive mechanism 13. The pinion gear 32 is oriented along the spool 14 It moves between the clutch-on position shown in FIG. 4 and the clutch-off position on the right side of FIG. 4, which is closer to the clutch-on position. In the clutch-on position, The clutch pin 16a is engaged with the clutch recess 16b and the rotation of the pinion 32 is transmitted to the bobbin 14, The clutch mechanism 16 is in a clutch-on state. With the clutch on, The pinion gear 32 is rotatable integrally with the spool 14. also, In the clutch off position, The clutch recess 16b is separated from the clutch pin 16a and the rotation of the pinion 32 is not transmitted to the bobbin 14. therefore, The clutch mechanism 16 is in a clutch open state. The coil 10 is free to rotate.  <Clutch Control Mechanism> The clutch control mechanism 20 is a clutch mechanism that utilizes a clutch between a clutch-on position indicated by a solid line in FIG. 10 of the clutch operating member 11 and a clutch-off position indicated by a two-dot chain line in FIG. 16 is switched to the clutch ON state and the clutch OFF state. The clutch control mechanism 20 is as shown in FIG. a clutch cam 40 that rotates around the bobbin 14 at the first position and the second position, a clutch yoke 41 that is engaged with the clutch cam 40, And a clutch plate 42 that connects the clutch cam 40 and the clutch operating member 11. The clutch plate 42 rotates integrally with the clutch cam 40. The clutch cam 40 is rotatably supported by the mechanism mounting plate 19b. The clutch cam 40 has a pair of cam portions 40a for moving the clutch yoke 41 by rotation.  The clutch yoke 41 is provided to move the pinion gear 32 in the coil axial direction to the clutch OFF position and the clutch ON position. The clutch yoke 41 has a cam receiving portion (not shown) that is engaged with the cam portion 40a of the clutch cam 40, And fastened to the arc portion 41a of the pinion gear 32, If the clutch cam 40 is rotated from the first position to the second position, Then, the clutch is turned off from the clutch-on position to the clutch-off position on the outer side of the coil (on the right side of FIG. 5). With this, The pinion gear 32 moves to the outside in the axial direction (the right side of FIG. 5). The snap gear 32 is disengaged from the clutch pin 16a, The clutch mechanism 16 is in a clutch OFF state. The clutch yoke 41 guides the guide shaft 49 in the axial direction by being attached to one of the mechanism mounting plates 19b. The clutch yoke 41 energizes the coil spring 44 to the clutch-on position by one of the guide shafts 49. therefore, If the clutch cam 40 is rotated from the second position to the first position, Then the clutch yoke 41 returns from the clutch off position to the clutch-on position. The pinion 32 is returned to the clutch-on position. Furthermore, The return movement of the clutch cam 40 from the second position to the first position, Also using a clutch recovery mechanism not shown, This is achieved by rotating the wire winding direction of the grip 2 in the clutch-off state.  The clutch plate 42 is provided to rotate the clutch cam 40 by the swing of the clutch operating member 11. The clutch plate 42 is formed by, for example, bending a metal plate. The clutch plate 42 has a fastening portion 42a that is engaged with the clutch cam 40, And the mounting portion 42b that the self-fastening portion 42a extends in the radial direction and is bent toward the clutch operating member 11. The engaging portion 42a rotates in conjunction with the rotation of the clutch cam 40. The mounting portion 42b is fixed to the clutch operating member 11.  <Clutch Operating Member> The clutch operating member 11 is a member for operating the clutch mechanism 16 to be switched to the clutch-on state and the clutch-off state. The clutch operating member 11 is as shown in FIG. The first side plate 7a and the second side plate 7b are movably provided in the rear portion of the reel body 1 in a direction in which the fishing rod mounting portion 7g approaches or separates. In this embodiment, The clutch operating member 11 is swingably disposed about the axis of the coil 10. The clutch operating member 11 is rocked between a clutch-on position indicated by a solid line in FIG. 10 and a clutch-off position indicated by a two-dot chain line. On the inner side of the rear portion of the first side plate 7a and the rear portion of the second side plate 7b, As shown in Figure 5, The first contact plate 43a and the second contact plate 43b are attached, respectively. Each of the first contact plate 43a and the second contact plate 43b has an arc-shaped through hole 43c through which the attachment portion 42b of the clutch plate 42 can pass and can be swung. The first contact plate 43a and the second contact plate 43b are members made of synthetic resin having high slidability such as polyacetal. The first contact plate 43a and the second contact plate 43b are detachably fitted to the first side plate 7a and the second side plate 7b, respectively. The clutch operating member 11 has a length at which both end portions can contact the first contact plate 43a and the second contact plate 43b.  The clutch operating member 11 is as shown in FIG. The first operation unit 11a provided on the side of the first side plate 7a, The second operation unit 11b provided on the second side plate 7b side, And the third operation portion 11c that is disposed on the side closer to the fishing rod mounting portion 7g than the first operation portion 11a. The first operation unit 11a, The second operation unit 11b is provided away from the fishing rod mounting portion 7g. The first operation unit 11a is as shown in FIG. The first side plate 7a is gradually inclined toward the direction away from the fishing rod mounting portion 7g. As shown in Figure 10, At least a part of the first operation portion 11a is disposed so that the height H1 of the fishing rod attachment portion 7g coincides with the first flange portion 10b of the coil 10. The first operation portion 11a is formed to gradually incline toward the first side plate 7a in a direction away from the fishing rod mounting portion 7g.  At least a part of the second operation portion 11b is disposed so that the height H2 of the fishing rod mounting portion 7g coincides with the winding cylindrical portion 10a. in particular, The second operation portion 11b is formed such that the height H2 from the fishing rod mounting portion 7g is equal to at least a portion of the height of the winding cylindrical portion 10a of the fishing rod mounting portion 7g. The third operation unit 11c is used when the clutch mechanism 16 is returned from the clutch OFF state to the clutch ON state. The third operation unit 11c is as shown in FIG. The first operation portion 11a is formed to be recessed toward the coil 10. also, As shown in Figure 8, The third operation portion 11c is not provided in a portion in contact with the first side plate 7a. therefore, The approaching portion 11f of the first side plate 7a of the clutch operating member 11 is not recessed and smoothly convexly curved. With this, By the third operation unit 11c, Make sure the fingers are screwed together and the clutch is easy to operate. And by using the approaching portion 11f of the first side plate 7a of the clutch operating member 11, Even if the third operation portion 11c of the recess is provided in the clutch operating member 11, the fishing line is hard to be caught in the clutch operating member 11.  The boundary portion 11e between the first operation portion 11a and the third operation portion 11c protrudes rearward from the first side plate 7a. With this, The clutch-on operation can also be performed by the finger of the hand of the gripper 2.  also, The clutch operating member 11 has a through hole 11d fixed in a rectangular cross section of the mounting portion 42b of the clutch plate 42. The through hole 11d is formed to penetrate the clutch operating member 11 in the left-right direction. The through hole 11d is formed in a rectangular shape substantially equal to the thickness and width of the attachment portion 42b of the clutch plate 42. The mounting portion 42b penetrates the first contact plate 43a, The through hole 11d and the second contact plate 43b are disposed. With this, The clutch operating member 11 is fixed to the mounting portion 42b.  <Coil Drive Mechanism> The coil drive mechanism 13 drives the coil 10 in the wire winding direction. also, The coil 10 is caused to generate a drag force during winding to prevent the fishing line from being cut. The coil drive mechanism 13 is as shown in FIG. a motor 12 that prohibits rotation in a wire winding direction by a reverse rotation preventing portion in a form of a roller clutch (not shown) The first rotation transmitting mechanism 24, And the second rotation transmission mechanism 25. The first rotation transmission mechanism 24 decelerates the rotation of the motor 12 and transmits it to the coil 10. The second rotation transmission mechanism 25 increases the rotation of the grip 2 via the first rotation transmission mechanism 24 and transmits the rotation to the coil 10 .  The first rotation transmitting mechanism 24 is as shown in FIG. A planetary reduction mechanism (not shown) coupled to the output shaft of the motor 12 is provided. On the inner side of the housing 26 of the planetary reduction mechanism, An internal gear gear (not shown) is formed, The output of the internal gear is transmitted to the coil 10 by the first gear member 60 formed on the outer circumferential surface of the casing 26. in particular, The first rotation transmission mechanism 24 further includes a first gear member 60, a second gear member 61 that meshes with the first gear member 60, And a pinion gear 32 that meshes with the second gear member 61. The second gear member 61 and the pinion gear 32 are as shown in FIG. 5 . It is disposed between the mechanism mounting plate 19b and the outer side surface of the side plate body 19a. The second gear member 61 is an intermediate gear that transmits the rotation direction of the first gear member 60 in accordance with the pinion gear 32. The second gear member 61 is rotatably supported by the hub portion 19c of the side plate main body 19a and the mechanism mounting plate 19b via a rolling bearing. As shown in Figure 5 and Figure 11, The wire cam shaft 63 is coupled to the second gear member 61 so as to be rotatable together. In the end portion of the lead camshaft 63 on the side of the first side plate 7a, Formed with a non-circular portion 63a, The second gear member 61 is engaged with the non-circular portion 63a to rotate the wire cam shaft 63.  The pinion gear 32 is rotatably attached to the bobbin 14 around the bobbin 14 by the third bearing 18c attached to the side plate body 19a, and is movably attached to the second side plate 7b in the axial direction. The pinion gear 32 is controlled by the clutch control mechanism 20 to move in the axial direction on the outer peripheral side of the bobbin 14 between the clutch-on position and the clutch-off position. The pinion gear 32 is engaged with the clutch yoke 41 and moves in the direction of the bobbin 14.  The second rotation transmitting mechanism 25 is as shown in FIGS. 5 and 11 . a drive shaft 30 that is rotatably coupled to the grip 2, Drive gear 31, The third gear member 62, And a towing mechanism 23.  The drive shaft 30 is as shown in FIG. The mechanism mounting plate 19b and the first hub portion 8c of the first side cover 8a are rotatably supported. The drive shaft 30 is supported by the first hub portion 8c of the first side cover 8a by a one-way clutch 37 of a roller type. The drive shaft 30 uses the one-way clutch 37 to prohibit the rotation of the line in the continuous feeding direction. The drive gear 31 is rotatably attached to the drive shaft 30. The drive gear 31 is rotated by the towing mechanism 23 in the direction in which the brake lines are successively sent. With this, The line of the brake coil 10 is continuously rotated in the direction of the feed.  The third gear member 62 is provided to transmit the rotation of the grip 2 to the coil 10 . The third gear member 62 is rotatably coupled to the bracket of the planetary reduction mechanism. The third gear member 62 is engaged with the drive gear 31, The rotation of the grip 2 is transmitted to the bracket of the planetary reduction mechanism. Communicate to the rotation of the bracket, The pinion gear 32 is transmitted to the pinion gear 32 via the first gear member 60 and the second gear member 61. The reduction ratio from the third gear member 62 to the second gear member 61 is approximately "1".  The drag mechanism 23 is as shown in FIG. The tow plate 38 is integrally coupled to the inner ring 37a of the one-way clutch 37 and is pressed by the inner wheel 37a. The tow plate 38 is coupled to the drive shaft 30 in a rotationally fixed manner. The tow plate 38 presses the drive gear 31 through the drag washer 39. The braking force of the drag mechanism 23 (the pressing force of the extruded tow plate 38), It is adjusted by the star drag device 3 screwed to the drive shaft 30.  <Adjustment Member> The adjustment member 5 adjusts the output of the motor 12 to a plurality of layers (for example, For level 10 or above, In this embodiment, It is provided in the reel body 1 for the 31st layer). The adjustment member 5 is as shown in FIG. The side plate body 19a of the first side plate 7a is disposed between the first side cover 8a. In this embodiment, As shown in Figure 4 and Figure 6, The adjustment member 5 is rotatably attached to a support shaft 36a that is erected on the outer side surface of the rear surface of the casing member 36 of the water depth display portion 4. The adjustment member 5 is disposed between the first side plate 7a and the first side cover 8a in a state of being attached to the support shaft 36a.  The support shaft 36a has a tapered surface 36b on the proximal end side, a support surface 36c connected to the tapered surface 36b, And a member mounting portion 36d having a smaller diameter than the support surface 36c. also, The support shaft 36a has a female screw hole 36e on the front end surface. Around the support shaft 36a, On the outer side of the housing member 36, The pair of arcuate recesses 36f are formed at a distance of 180° from the pair of snap recesses 36g. The engaging portion 50 is configured by the circular arc recess 36f and the engaging recess 36g. The fastening recess 36g is formed by being spherically recessed. Arranged adjacent to the circular arc recess 36f. The engagement recessed portion 36g is provided corresponding to the operation start position at which the motor 12 is stopped by the adjustment member 5. The circular arc recess 36f is formed by an arc of the same core as the center of rotation of the adjustment member 5, It is provided corresponding to the rotation angle of the adjustment member 5. The rotation angle of the adjustment member 5 is in this embodiment, E.g, It is in the range of 80° to 120°. In this embodiment, The angle of rotation is 100°. however, Adjusting the angle of rotation of the member 5, It is not limited to this. Between the fastening recess 36g and the circular arc recess 36f, A protruding portion 36i that protrudes from the engagement recess 36g and the circular arc recess 36f is formed.  Since the angle of rotation of the adjusting member 5 is larger, the angle at which each of the layers of the motor 12 can be adjusted is larger, Therefore, the output adjustment operation can be stably performed in each layer. however, If the rotation angle of the adjustment member 5 is excessively increased, It is difficult to quickly perform operations throughout the complex level. also, According to the shape of the reel body, there is a case where the rotation angle cannot be increased. It is preferable to set the rotation angle of the adjustment member 5 to the maximum angle in such restrictions.  The adjustment member 5 is, for example, a substantially annular member made of synthetic resin. The adjustment member 5 is as shown in FIG. The outer peripheral surface has an operation protrusion 5a that protrudes in the radial direction. On the outer peripheral surface of the adjustment member 5 from which the operation protrusion 5a is removed, A plurality of grooves 5b along the axial direction for preventing slip are formed at intervals in the circumferential direction. On the outer side of the adjustment member 5, A restriction protrusion 5c for restricting the rotation range of the adjustment member 5 is formed to protrude in the axial direction. The first side mask 8a has an opening 8e having a rectangular shape in plan view in which the adjustment member 5 protrudes from the first side mask 8a. The restricting projection 5c contacts the inner side surface of the opening 8e to restrict the range of rotation of the adjusting member 5.  As shown in Figure 12, On the inner side of the adjustment member 5 opposite the housing member 36, One of the storage detectors 34 is formed between the detector housing portion 5d and the storage positioning member 5 for positioning the adjustment member 5 at one of the operation start positions, and the positioning portion 45 is spaced apart from the positioning storage portion 5e in the circumferential direction. The pair of detector housing portions 5d and the pair of positioning housing portions 5e are each formed to be recessed in a circular shape at an interval of 180 degrees.  The positioning portion 45 is as shown in FIG. a pair of positioning pins 45a that are attached to and detachably attached to one of the pair of positioning receiving portions 5e, And a pair of positioning pins 45a are energized to the housing member 36 by a pair of coil springs 45b. The coil spring 45b is an example of an energizing member. The coil spring 45b is housed in the positioning housing portion 5e. The positioning pin 45a has a hemispherical shape head 45c, The head portion 45c is engaged with the engagement recess portion 36g and the circular arc recess portion 36f. By providing the positioning portion 45, The adjustment member 5 can be surely positioned at the operation start position. also, Since the protruding portion 36i is formed between the fastening recess 36g and the circular arc recess 36f, Therefore, the adjustment member 5 positioned at the operation start position is difficult to move from the adjustment start position in violation of the user's will. With this, The motor 12 does not easily rotate unexpectedly.  In the central portion of the adjustment member 5, As shown in Figure 4, Rotatingly supported by the supported hole 5f of the support shaft 36a, The mounting hole 5g having a larger diameter than the supported hole 5f, And a counterbore 5h having a larger diameter than the mounting hole 5g is formed from the inner side surface toward the outer side surface. The inner side of the supported hole 5f is a tapered shape along the tapered surface 36b of the support shaft 36a. A rotation restricting member 46 that is in contact with both is attached between the mounting hole 5g and the member mounting portion 36d of the support shaft 36a. The rotation restricting member 46 includes, for example, an annular elastic member such as an O-ring. The rotation of the adjustment member 5 is restricted by the rotation restricting member 46. With this, The angler can maintain the position of the adjustment member 5 after the adjustment member 5 is operated. Rotating the restricting member 46 and the adjusting member 5, The gasket member 47 disposed in the counterbore 5h is prevented from coming off. The washer member 47 is prevented from coming off by a fixing bolt 48 screwed to the female screw hole 36e of the support shaft 36a. With this, The adjustment member 5 is rotatably attached to the case member 36. Furthermore, The counterbore 5h is covered by the first side mask 8a. therefore, Only the outer peripheral portion of the adjustment member 5 protrudes from the opening 8e of the first side cover 8a, The other portion of the adjustment member 5 is covered by the first side cover 8a and the case member 36.  <Detector> The detector 34 is as shown in FIG. As shown in Fig. 6 and Fig. 12, Mounted to the adjustment member 5. in particular, As described above, it is fixed to one of the pair of adjustment members 5 to the detector housing portion 5d by a suitable fixing method such as the following. The detector 34 has a first magnet 34a and a second magnet 34b that are respectively fixed to the pair of detector housing portions 5d. The first magnet 34a and the second magnet 34b are magnetized along the axial direction of the adjustment member 5, respectively. The second magnet 34b is magnetized in a direction opposite to the first magnet 34a. In this embodiment, The first magnet 34a is magnetically N-shaped on the side opposite to the case member 36. The bottom side of the detector housing portion 5d is magnetized to the S pole. On the contrary, the second magnet is magnetized to the S pole at the side opposite to the case member 36. The bottom side of the detector housing portion 5d is magnetically N-pole. By arranging the first magnet 34a and the second magnet 34b that are axially magnetized in such a manner that the magnetic flux direction is reversed, The detector 34 which reacts in the same manner as the magnet which is magnetized in the radial direction can be obtained by the first magnet 34a and the second magnet 34b which are simple in the axial direction.  <Phase Detection Unit> The phase detection unit 35 is a Hall element 35a that is mounted on the sub-circuit board 74b disposed inside the case member 36 of the water depth display unit 4 as described above. The Hall element 35a is as shown in FIG. It is disposed in alignment with the rotation center C of the adjustment member 5. By configuring the Hall element 35a in this way, The Hall element 35a can detect a change in the direction of the magnetic flux generated by the first magnet 34a and the second magnet 34b. the result, Using the Hall element 35a, The direction of the magnetic flux that changes according to the rotation of the adjustment member 5 can be detected, Thereby, the rotational phase of the adjustment member 5 can be detected. The Hall element 35a is as shown in FIG. If the N pole of the radially magnetic detector 34 is set to 0° on the Hall element 35a, for example, on the side of the mark 35b displayed in a semicircular shape, Then the detector 34 is at 0°, As shown in Figure 14, the output voltage becomes minimum. If the detector 34 is relatively rotated counterclockwise from 0° with respect to the Hall element 35a, Then the output voltage gradually rises. If it is close to 360°, the output voltage becomes maximum. If you return to 0°, it will return to the minimum. With this, The rotation phase of the adjustment member 5 can be detected by the Hall element 35a in the range of 0° to 360°. however, In this embodiment, E.g, The output voltage of the Hall element 35a is used in the range of about 50 to 150 degrees. but, The angular range of the output voltage of the Hall element 35a is not limited to this. E.g, 230° to 330°, etc. It can be selected according to the output characteristics of the Hall element.  <Control System> The electric reel 100 is as shown in FIG. There is a cord reel control unit 70 that controls the motor 12 and the display 72. The reel control unit 70 is configured by a microcomputer including a CPU (Central Processing Unit). In the cord reel control unit 70, A Hall element 35a as the phase detecting portion 35 is connected, Each switch of the switch operation unit 6, And a coil sensor 78. also, A display 72 as a control target is connected to the cord reel control unit 70, Motor drive circuit 76, Buzzer 80, And another input/output unit 82. The coil sensor 78 has one of the detecting magnets (not shown) attached to the coil 10 to the reed switch. A pair of reed switches are arranged side by side in the direction of rotation of the coil 10. In this embodiment, A pair of reed switches are provided to the coil support portion 17 of the reel body 1. Using the coil sensor 78, The number of rotations (rotational position) of the coil 10 and the direction of rotation can be detected. The motor drive circuit 76 is a PWM (pulse width modulation) drive motor 12. which is, The motor 12 is driven by changing the duty ratio. The buzzer 80 is housed inside the case member 36. The buzzer 80 sounds if the device reaches the position of the shelf or reaches the bottom of the sea. The other input/output unit 82 includes, for example, a wireless communication unit or the like. The wireless communication unit can communicate with the external display device for various materials such as water depth data.  <Operation of Electric Reel> In the electric reel 100 thus constructed, When fishing, The fisherman lowers, for example, the second operation portion 11b of the operation clutch operating member 11 by the thumb of the fishing rod. With this, The clutch mechanism 16 is switched from the clutch-on state to the clutch-off state. The coil 10 is in a freely rotating state. and, Use the weight of the device to deliver the fishing line one after another. Lower the unit to the position of the fish shed. at this time, When the first flange portion 10b of the operation coil 10 is controlled by the fingertip of the thumb of the clutch operation, The thumb is extended from the second operation portion 11b to the first operation portion 11a. then, The first operation portion 11a has an inclined surface whose height gradually increases from the height of the fishing rod mounting portion 7g. The height H1 of the first operation portion 11a is set according to the height of the first flange portion 10b. Therefore, the fingertip of the thumb easily reaches the first flange portion 10b. in this way, Since the clutch operating member 11 has the first operating portion 11a that is disposed to correspond to the height H1 of the first flange portion 10b, Therefore, it is easy to carry out the outlet control operation.  When the fish is hooked on the device and the fishing line is wound, The third operation portion 11c of the clutch operating member 11 is lifted by the fingertip of the thumb of the fishing rod. at this time, Since the third operation portion 11c is recessed, Therefore, the fingertip is easily stuck in the third operation unit 11c, Thereby, the lifting operation of the clutch operating member 11 is facilitated. If the clutch operating member 11 is lifted, Then the clutch mechanism 16 is switched to the clutch ON state. The grip 2 and the motor 12 can be used to rotate the coil 10 in the wire winding direction.  When the fishing line is wound by the motor 12, The adjustment member 5 is operated by a hand holding a fishing rod or by operating the grip 2 . at this time, Since the adjustment member is disposed between the first side plate 7a and the first side cover 8a, Therefore, the clutch operating member 11 disposed at the rear of the reel body 1 is disposed closer to the adjusting member 5. therefore, The wire control operation can be performed and the adjustment member 5 is operated with the fingertip of the hand. therefore, It is easy to operate the adjustment member 5 and the clutch operating member 11. also, Since the amount of winding of the fishing line is reduced if the throwing is performed, Then, the outlet control operation can be performed via the second operation unit 11b. Therefore, regardless of the winding amount of the fishing line, the outlet control operation in the throwing can be stably performed.  If the adjustment member 5 is rotated, Then the detector 34 rotates together with the adjustment member 5, The output voltage of the Hall element 35a of the phase detecting portion 35 is changed. The cord reel control unit 70 controls the motor drive circuit 76 in accordance with the change in the output voltage, The output of the motor 12 is adjusted in accordance with the rotational position of the adjustment member 5. at this time, Since the rotation phase of the adjustment member 5 is not detected using a rotation detector such as a rotary encoder or a potentiometer, Therefore, even if it is more than 10 layers above the adjustment member 5, It is still possible to suppress an increase in the volume of the mounting portion of the adjusting member 5 at a low cost.  <Other Embodiments> The above, Although an embodiment of the present invention has been described, However, the present invention is not limited to the above embodiments. Various changes can be made without departing from the spirit of the invention. especially, The plurality of embodiments and variations described in the present specification can be arbitrarily combined as needed.  (a) In the above embodiment, The adjustment member is disposed between the first side plate and the first side cover. However, the invention is not limited thereto. The adjustment member may be disposed between the second side plate and the second side cover.  (b) in the above embodiment, A Hall element is exemplified as the rotation phase detecting unit. However, the invention is not limited thereto. E.g, A rotary encoder or potentiometer can also be used. In Figure 16, The phase detecting unit 135 has a potentiometer 135a. The potentiometer 135a is housed inside the case member 36.  The first gear 160 is rotatably provided to the adjustment member 105. The second gear 162 to which the potentiometer 135a is connected is engaged with the first gear 160. The adjustment member 105 is, for example, a rod-shaped member. Rotate in a specific range of angles. The rotation of the adjustment member 105 is transmitted to the second gear 162 via the first gear 160, The potentiometer 135a detects the rotational position of the second gear 162 in accordance with the rotation of the second gear 162. With this, The rotational position of the adjustment member 105 can be detected. Here, The position of the adjustment member 105 and the position of the phase detecting unit 135 can be shifted by the rotation transmitting mechanism including the first gear 160 and the second gear 162. With this, In addition to the effects of the above embodiments, The phase detecting unit 135 can be configured in a small size, Further, the operability of the adjustment member 105 can be improved.  (c) in the above embodiment, The present invention will be described by taking an electric reel in which the clutch operating member 11 is disposed between the first side plate 7a and the second side plate 7b as an example. However, the invention is not limited thereto. E.g, The present invention can also be applied to an electric reel in which the clutch operating member is disposed on the outer side of the first side cover.  (d) in the above embodiment, Although the fastening portion 50 is provided to the reel body 1 (the housing member 36), Positioning portion 45 is disposed on adjustment member 5, However, the positioning portion may be reversely disposed on the reel body 1 (the housing member 36), The fastening portion is disposed on the adjustment member.  <Features> The above embodiment, It can be expressed as follows.  (A) The electric reel 100 (or 200) is a reel that continuously feeds the fishing line to the front. The electric reel 100 includes a reel body 1 Grip 2 Coil 10, Motor 12, Adjustment member 5 (or 105), And a motor control unit 70 (an example of a motor control unit). The reel body 1 includes a frame 7 having a first side plate 7a or a second side plate 7b (an example of a side plate), Covering the first side mask 8a or the second side mask 8b (one side mask) on the outer side of the side panel, And a fishing rod mounting portion 7g provided in the frame 7. The grip 2 is rotatably attached to the reel body 1. The coil 10 is rotatably disposed on the cord reel body 1. The motor 12 is disposed on the reel body 1, And the coil 10 is rotationally driven. The adjustment member 5 (or 105) is movably disposed between the side panel and the side shield. The adjustment member 5 (or 105) is disposed rearward of the rotation shaft 30 (an example of the rotation shaft of the grip 2) and above the bobbin 14 (an example of the rotation shaft of the coil 10) from the fishing rod attachment portion 7g. The motor control unit 70 adjusts the output of the motor 12 by the movement of the adjustment member 5 (or 105).  In the electric reel, The adjustment member 5 (or 105) is disposed between the side plate of the reel body 1 and the side cover. also, The adjustment member 5 (or 105) is disposed behind the relatively rotating shaft 30 and above the bobbin 14 from the fishing rod mounting portion 7g. Here, Since the adjustment member 5 (or 105) is disposed between the side panel and the side mask, Therefore, the opening facing the coil 10 does not become narrow. also, Whether the clutch operating member 11 is disposed behind the coil or disposed on the side of the side mask, The clutch operating member 11 can be disposed in the vicinity of the adjusting member 5 (or 105). With this, It is easy to operate the adjustment member 5 (or 105) and the clutch operating member 11.  (B) in the electric reel 100 (or 200), The cord reel body 1 includes a housing member 36 mountable to the frame 7, Further, it further includes a water depth display portion 4 that can display the water depth of the device that can be attached to the front end of the fishing line. In this case, the water depth of the device can be displayed.  (C) in the electric reel 100 (or 200), The side plate includes a first side plate 7a provided with the grip 2 and a second side plate 7b disposed at a distance from the first side plate 7a in the left-right direction. The side cover includes a first side cover 8a that covers the outer side of the first side plate 7a. The adjustment member 5 (or 105) is movably disposed between the first side plate 7a and the first side cover 8a. In this case, Since the adjustment member 5 (or 105) is provided between the first side plate 7a on the mounting side of the grip 2 and the first side cover 8a, Therefore, when the clutch operating member 11 is disposed between the first side plate 7a and the second side plate 7b, Can be on the opposite side of the hand that performs the operation of the grip 2, That is, the clutch operating member 11 and the adjusting member 5 (or 105) are operated by the hand holding the fishing rod and the reel. also, In the case where the clutch operating member is disposed on the outer side of the first side cover 8a, The clutch operating member 11 and the adjusting member 5 (or 105) can be operated by the grip operation.  (D) in the electric reel 100 (or 200), At least a portion of the adjustment member 5 (or 105) protrudes from the first side mask 8a. In this case, The adjustment member 5 (or 105) can be moved by pressing the portion of the adjustment member 5 (or 105) that protrudes from the first side mask 8a. therefore, The moving operation of the adjustment member 5 (or 105) is easier.  (E) in the electric reel 100 (or 200), The adjustment member 5 (or 105) is rotatably attached to the support shaft 36a provided to the reel body 1. In this case, Since the adjustment member 5 (or 105) rotates around the support shaft 36a, Therefore, the operation of the adjustment member 5 (or 105) is relatively easy.  (F) in the electric reel 100, Further including a positioning portion 45 of the positioning adjustment member 5, And the engaging portion 50 that the positioning portion 45 is engaged with. In this case, Since the adjustment member 5 is positioned by the engagement of the positioning portion 45 and the fastening portion 50, Therefore, the output of the motor can be accurately adjusted by the adjustment member 5. also, Since the adjustment member 5 is positioned, Therefore, it is difficult for the adjustment member 5 to move from the adjusted position.  (G) in the electric reel 100, The positioning portion 45 is provided in one of the adjustment member 5 and the reel body 1 . The fastening portion 50 is provided to the other of the adjustment member 5 and the reel body 1 . In this case, Since the positioning portion is provided to one of the adjustment member and the reel body, also, The fastening portion is disposed on the other of the adjustment member and the reel body. Therefore, the composition is easier. also, It can be miniaturized.  (H) in the electric reel 100, The positioning portion 45 includes a positioning pin 45a provided on one of the adjustment member 5 and the reel body 1 And a coil spring 45b that energizes the positioning pin 45a. The engaging portion 50 includes a fastening recess 36g that is provided to the other of the adjustment member 5 and the reel body 1 and that is engaged with the positioning pin 45a. Since the positioning pin 45a is engaged with the fastening recess 36g by the positioning pin 45a energized by the coil spring 45b, the positioning pin 45a is engaged with the fastening recess 36g. Therefore, when you locate, you get a click, Therefore, the user can easily recognize the positioning.  (I) in the electric reel 100, The positioning portion 45 is disposed on the adjustment member 5, The fastening portion 50 is provided to the reel body 1 . In this case, Due to the rotation of the adjusting member 5, Along the snap recess, The positioning pin moves, Therefore, the click feeling can be further obtained.  (J) in the electric reel 100, The positioning pin 45a is engaged with the engagement recess 36g at the operation start position of the adjustment member 5. In this case, Since the fastening recess 36g is engaged at the adjustment start position of the adjustment member 5, Therefore, it is difficult for the adjustment member 5 to rotate from the adjustment start position in violation of the user's will.  (K) in the electric reel 100, Furthermore, it is centered on the axis of the support shaft 36a. The protrusion 36i is formed adjacent to the engagement recess 36g and is disposed adjacent to the engagement recess 36g. And the positioning pin 45a can be engaged with the circular arc recess 36f.  (L) in the electric reel 100 (or 200), The support shaft 36a is provided to the housing member 36. In this case, Since the adjustment member 5 (or 105) is supported on the housing member 36 on which the electric component is mounted, Therefore, the rotational phase of the adjustment member 5 (or 105) can be detected in the casing member 36.  (M) in the electric reel 100, Further, a phase detecting unit 35 (or 135) that can detect the rotational phase of the adjusting member 5 (or 105) is further included. In this case, The motor control unit 70 can adjust the output of the motor 12 based on the rotational phase of the adjustment member 5 (or 105) detected by the phase detecting unit 35 (or 135).  (N) in the electric reel 100, The phase detecting unit 35 is disposed in the case member 36. In this case, Since the phase detecting portion 35 is disposed in the case member 36, Therefore, there is no need to configure the space of the phase detecting portion 35. Therefore, the size of the electric reel 100 can be reduced.  (O) in the electric reel 100, The adjustment member 5 includes a detector 34 that is detected by the phase detecting unit 35. In this case, Since the detector 34 is disposed in the adjustment member 5 to detect the rotational phase of the adjustment member 5, Therefore, the rotational phase of the adjustment member 5 can be detected with a simple configuration.  (P) in the electric reel 100, The detector 34 is a first magnet 34a and a second magnet 34b (an example of a magnet) provided in the adjustment member 5. The phase detecting unit 35 is a Hall element 35a that can detect the rotational phases of the first magnet 34a and the second magnet 34b. In this case, The rotation phase of the adjustment member 5 can be detected by the Hall element 35a that can be mounted on the sub-circuit board 74b (an example of the circuit board). Therefore, the rotational phase of the adjustment member 5 can be detected in a small configuration.  (Q) in the electric reel 200, The phase detecting unit 135 is a potentiometer 135a that can rotate in conjunction with the adjustment member 105. In this case, The potentiometer 135a can be used to detect the rotational phase of the adjustment member with high resolution.

1‧‧‧Reel body

2‧‧‧ grip

3‧‧‧Star towing device

4‧‧‧Water depth display department

5‧‧‧Adjustment components

5a‧‧‧ operation protrusion

5b‧‧‧ slots

5c‧‧‧Restricted protrusion

5d‧‧‧Detector storage unit

5e‧‧‧ Positioning and storage department

5f‧‧‧Supported holes

5g‧‧‧ mounting holes

5h‧‧‧ countersink

6‧‧‧Switch operation department

7‧‧‧Frame

7a‧‧‧1st side panel

7b‧‧‧2nd side panel

7c‧‧‧1st joint member

7d‧‧‧2nd joint member

7e‧‧‧3rd joint member

7f‧‧‧round opening

7g‧‧‧ fishing rod installation

8a‧‧‧1st side mask

8b‧‧‧2nd side mask

8c‧‧‧1st hub

8d‧‧‧2nd hub

8e‧‧‧ openings

9‧‧‧ front mask

10‧‧‧ coil

10a‧‧‧Rolling cylinder

10b‧‧‧1st flange

10c‧‧‧2nd flange

11‧‧‧Clutch operating member

11a‧‧‧First Operation Department

11b‧‧‧2nd Operation Department

11c‧‧‧3rd Operation Department

11d‧‧‧through hole

11e‧‧‧ junction section

11f‧‧‧Proximity Department

12‧‧‧ motor

13‧‧‧Coil drive mechanism

14‧‧‧ spool

15‧‧‧Connector

16‧‧‧Clutch mechanism

16b‧‧‧Clutch recess

16a‧‧‧Clutch pin

17‧‧‧Coil Support Department

18a‧‧‧1st bearing

18b‧‧‧2nd bearing

18c‧‧‧3rd bearing

19a‧‧‧Side board body

19b‧‧‧Institutional installation board

19c‧‧·wheel hub

20‧‧‧Clutch control mechanism

21‧‧‧ throwing control agency

22‧‧‧ horizontal winding mechanism

23‧‧‧Towing mechanism

24‧‧‧1st rotation communication mechanism

25‧‧‧2nd rotation communication mechanism

26‧‧‧Shell

30‧‧‧Drive shaft

31‧‧‧ drive gear

32‧‧‧Spindle

34‧‧‧Detector

34a‧‧‧1st magnet

34b‧‧‧2nd magnet

35‧‧‧ Phase Detection Department

35a‧‧‧ Hall element

36‧‧‧Shell components

36a‧‧‧ Support shaft

36b‧‧‧Conical surface

36c‧‧‧Support surface

36d‧‧‧Component Installation Department

36e‧‧‧ female screw hole

36f‧‧‧ arc recess

36g‧‧‧Snap recess

36h‧‧‧Substrate storage space

36i‧‧‧Protruding

37‧‧‧One-way clutch

37a‧‧‧ Inner wheel

38‧‧‧Towing board

39‧‧‧drag washer

40‧‧‧Clutch cam

40a‧‧‧Cam Department

41‧‧‧ clutch yoke

41a‧‧‧Arc Department

42‧‧‧ clutch plate

42a‧‧‧Deduction Department

42b‧‧‧Installation Department

43a‧‧‧1st contact plate

43b‧‧‧2nd contact plate

43c‧‧‧through hole

44‧‧‧Helical spring

45‧‧‧ Positioning Department

45a‧‧ Locating pin

45b‧‧‧Helical spring (an example of an energizing member)

45c‧‧‧ head

46‧‧‧Rotation limiting member

47‧‧‧Washer components

48‧‧‧ fixing bolts

49‧‧‧Guide axis

50‧‧‧Deduction Department

60‧‧‧1st gear member

61‧‧‧2nd gear member

62‧‧‧3rd gear member

63‧‧‧Wire camshaft

63a‧‧‧Non-circular part

64‧‧‧fishing line guide

65‧‧‧ bushing

70‧‧‧Reel Control Unit

72‧‧‧ display

74a‧‧‧Main circuit board

74b‧‧‧Subcircuit board

76‧‧‧Motor drive circuit

78‧‧‧Cable sensor

80‧‧‧ buzzer

82‧‧‧Another input and output department

100‧‧‧Electric reel

105‧‧‧Adjustment components

135‧‧‧ Phase Detection Department

135a‧‧‧potentiometer

160‧‧‧ Phase Detection Department

162‧‧‧2nd gear

200‧‧‧Electric reel

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of an electric reel according to an embodiment of the present invention. Figure 2 is a plan view of the electric cord reel. Figure 3 is a rear view of the electric reel. Figure 4 is a cross-sectional view taken along line IV-IV of Figure 2. Figure 5 is an exploded perspective view of a portion of the electric reel. Fig. 6 is a perspective view of the water depth display portion. Figure 7 is a perspective view of the clutch operating member. Figure 8 is a cross-sectional view of the cut surface VIII of the clutch operating member of Figure 7. Figure 9 is a cross-sectional view showing the cut surface IX of the clutch operating member of Figure 7. Figure 10 is a cross-sectional view taken along line X-X of Figure 2. Fig. 11 is a left side view of the electric reel in a state in which the first side cover and the mechanism mounting plate are removed. Figure 12 is a front view of the adjustment member. Fig. 13 is a schematic view showing the characteristics of a Hall element. Fig. 14 is a graph showing the characteristics of a Hall element. Figure 15 is a block diagram showing the construction of a control system for an electric reel. Figure 16 is a view corresponding to Figure 1 of another embodiment.

Claims (13)

An electric reel that continuously feeds a fishline to the front, and includes: a reel body including a frame having a side plate, a side cover covering the outer side of the side plate, and a fishing rod mounting portion disposed on the frame; a rotatably mounted to the reel body; a coil rotatably disposed on the reel body; a motor disposed on the reel body and rotatably driving the coil; and an adjustment member movably disposed Between the side plate and the side cover, disposed behind the rotation axis of the grip and above the rotation axis of the coil from the fishing rod mounting portion; and the motor control portion is moved by the adjustment member Adjusting the output of the motor, wherein the reel body includes a housing member that can be placed on the frame, and further includes a water depth display portion that can display a depth of water that can be mounted to the front end of the fishing line, wherein the adjustment member rotates It is freely mounted on a support shaft provided to the above-mentioned reel body. The electric reel of claim 1, further comprising: a positioning portion for positioning the adjustment member; and a fastening portion for engaging the positioning portion. The electric reel according to claim 2, wherein the positioning portion is provided in one of the adjustment member and the reel body; and the engagement portion is provided in the other of the adjustment member and the reel body. The electric reel according to claim 3, wherein the positioning portion includes a positioning pin provided on one of the adjusting member and the reel body, and an energizing member that energizes the positioning pin; the engaging portion includes the above And a fastening recess of the adjustment member and the other of the reel body and engaged with the positioning pin. The electric reel according to claim 4, wherein the positioning portion is provided in the adjusting member; and the engaging portion is provided in the reel body. The electric reel of claim 5, wherein the positioning pin is engaged with the engaging recess at an operation start position of the adjusting member. The electric reel according to claim 6, wherein the engaging portion further includes a protruding portion formed between the engaging recess and the engaging recess, and the positioning is disposed adjacent to the pivot center of the support shaft. The pin can be engaged with the arc recess. The electric reel according to any one of claims 1 to 7, wherein the support shaft is provided to the housing member. The electric reel according to any one of claims 1 to 7, further comprising a phase detecting portion that detects a rotational phase of the adjusting member. The electric reel according to claim 9, wherein the phase detecting portion is disposed in the casing member. An electric reel according to claim 9, wherein said adjustment member includes a detector detected by said phase detecting portion. An electric reel according to claim 11, wherein said detector is a magnet provided in said adjusting member; and said phase detecting portion is a Hall element capable of detecting a rotational phase of said magnet. The electric reel according to claim 9, wherein the phase detecting unit is a potentiometer that is rotatable in conjunction with the adjusting member.