JP2014217278A5 - - Google Patents

Description

Electric reel

    The present invention relates to an electric reel, and more particularly to an electric reel that feeds fishing line forward.

  The electric reel is provided with an adjustment member for adjusting the motor output in the form of a lever or a rotating body (for example, Patent Document 1). The reel body includes a first side plate on the handle side and a frame having a second side plate disposed to face the first side plate, a first side cover that covers the outside of the first side plate, and a depth of water placed on the frame. And a display unit. The adjustment member of Patent Document 1 is provided at the rear portion of the water depth display portion between the first side plate and the second side plate. The adjustment member is rotatably provided at the rear part of the water depth display part. The adjustment member is formed in a substantially cylindrical shape, and has a rotation shaft supported at both ends by the water depth display portion. The output of the motor can be adjusted by rotating this adjusting member.

JP 2012-090645 A

  The adjustment member of the electric reel is different from the adjustment member that adjusts the output of a simple motor as a machine. That is, the adjustment of the output of the motor for the electric reel needs to be finely adjusted because it is exchanged with the fish. The angler places great importance on the delicately adjustable feeling of the adjustment member, and the delicate adjustment feeling also affects the angler's fishing results.

  With the adjustment member that adjusts the output of the motor by the conventional rotation operation, if the adjustment member rotates too smoothly, the adjustment member cannot be finely adjusted.

  An object of the present invention is to enable a delicate adjustment operation of an adjustment member that adjusts the output of an electric reel motor.

  The electric reel according to the present invention includes a reel body, a support shaft, a spool, a motor, an adjustment member, a first elastic member, and a control unit. The support shaft is provided on the reel body. The spool is rotatably provided on the reel body. The motor is provided in the reel body and rotationally drives the spool. The adjustment member has a through hole through which the support shaft can pass, and is rotatably supported by the support shaft. The first elastic member is disposed in direct or indirect contact between the reel body, the adjustment member, and the support shaft on the first side of the adjustment member. The control unit adjusts the output of the motor according to the rotation position of the adjustment member.

  In this electric reel, the adjustment member is supported on the support shaft via the first elastic member. The first elastic member is disposed on the first side of the adjustment member so as to be in direct or indirect contact with the reel body, the adjustment member, and the support shaft, and the adjustment member is supported on the support shaft via the first elastic member. . Here, the adjusting member can be brought into contact via the first elastic member without directly contacting the reel body and the support shaft. For this reason, it becomes possible to adjust the rotation of the adjusting member by changing the frictional resistance caused by the contact with the first elastic member, so that the adjusting member can be finely adjusted.

  The electric reel may further include a first washer member disposed between the first elastic member and the reel body. The first elastic member indirectly contacts the reel body via the first washer member. In this case, since the first elastic member is not in contact with the reel main body but in contact with the first washer member whose surface is smoother than the reel main body, the frictional resistance tends to be constant. For this reason, the adjustment operation of the adjustment member becomes smoother, and a more delicate adjustment operation of the adjustment member can be performed.

  The adjustment member may have a first contact surface that contacts and slides with the first elastic member on the first side. The first contact surface is a tapered surface inclined with respect to both the reel body and the support shaft. In this case, since the first elastic member is in contact with the adjustment member with the tapered surface, the first elastic member can receive the force in the axial direction and the radial direction of the adjustment member.

  The through hole may be disposed with a gap from the support shaft, and the first contact surface may be provided on the first side of the through hole. In this case, since the adjustment member does not directly contact the support shaft, the frictional resistance of the first elastic member is stabilized.

  The support shaft may be cantilevered by protruding from the reel body. In this case, since the support shaft is cantilevered, the degree of freedom in arranging the adjusting member is increased.

  The electric reel may further include a screw member that has a large-diameter head and can be screwed into the tip of the support shaft. The adjustment member is retained by the head of the screw member. In this case, the elastic deformation amount of the first elastic member can be adjusted by the screwing amount of the screw member, and the frictional force can be adjusted.

  The electric reel may further include a second elastic member arranged in direct or indirect contact with the screw member, the adjustment member, and the support shaft on the second side opposite to the first side of the adjustment member. Good. In this case, since the adjustment member is supported at both ends by the first elastic member and the second elastic member, a more delicate adjustment operation can be performed.

  At least one of the first elastic member and the second elastic member may be an O-ring. In this case, since the adjustment member can be supported using a commercially available O-ring, the support structure can be realized at low cost.

  The electric reel may further include a second washer member disposed between the head and the second elastic member. The second elastic member indirectly contacts the head of the screw member via the second washer member. In this case, since the second elastic member contacts the second washer member also on the second side of the adjustment member, the friction resistance acting on the adjustment member on the second side is constant in the support shaft that is cantilevered. The adjustment operation of the adjustment member becomes smoother and more delicate adjustment operation can be performed.

  The adjustment member may have a second contact surface that contacts and slides with the second elastic member. The second contact surface is a tapered surface inclined with respect to both the head of the screw member and the support shaft. In this case, since the second elastic member is in contact with the adjustment member with a tapered surface, the second elastic member can receive the force in the axial direction and the radial direction of the adjustment member.

  The through hole may be disposed with a gap from the support shaft, and the second contact surface may be provided on the second side of the through hole. In this case, since the first contact surface and the second contact surface are provided on both sides of the through hole, the first elastic member and the second elastic member can stably support the adjustment member.

  The support shaft may be supported at both ends by the reel body. In this case, since the adjustment member is supported at both ends by the reel body, the adjustment member can be operated from both the handle side and the direction opposite to the handle.

  The electric reel may further include a second elastic member disposed on the second side opposite to the first side of the adjustment member between the reel main body, the adjustment member, and the support shaft, in direct or indirect contact with each other. Good. In this case, since the adjustment member supported at both ends is supported at both ends by the first elastic member and the second elastic member on the first side and the second side, the adjustment member can be further finely adjusted.

  At least one of the first elastic member and the second elastic member may be an O-ring. In this case, since the adjustment member can be supported using a commercially available O-ring, the support structure can be realized at low cost.

  The electric reel may further include a second washer member disposed between the reel body and the second elastic member. The second elastic member indirectly contacts the reel body via the second washer member. In this case, since the second elastic member contacts the second washer member also on the second side of the adjustment member, the friction resistance acting on the adjustment member on the second side is constant in the support shaft supported at both ends, Adjustment operation of the adjustment member becomes smoother and fine adjustment operation of the adjustment member can be performed.

  The adjustment member may have a second contact surface that contacts and slides with the second elastic member. The second contact surface is a tapered surface inclined with respect to both the reel body and the support shaft. In this case, since the second elastic member is in contact with the adjustment member with a tapered surface, the second elastic member can receive the force in the axial direction and the radial direction of the adjustment member.

  The through hole may be disposed with a gap from the support shaft, and the second contact surface may be provided on the second side of the through hole. In this case, since the first contact surface and the second contact surface are provided on both sides of the through hole, the first elastic member and the second elastic member can stably support the adjustment member.

  The adjustment member may further include a first spacer provided at least between the first contact surface and the first elastic member in the through hole. In this case, since the first elastic member is in contact with the first spacer, the frictional force acting on the adjustment member is likely to be further constant on the first side.

  The adjustment member may further include a second spacer provided at least between the second contact surface and the second elastic member in the through hole. In this case, since the second elastic member is in contact with the second spacer, the frictional force acting on the adjustment member tends to be further constant on the second side.

  The adjustment member may further include a third spacer provided between the support shaft and the through hole in the through hole. In this case, since the spacer is provided in the entire through hole including the first contact surface and the second contact surface, the spacer can be formed with high accuracy.

  The adjustment member may rotate from an operation start position where the motor is stopped. The electric reel further includes a rotation restricting unit that restricts rotation of the adjustment member from the operation start position and rotation to the operation start position. In this case, since rotation from the operation start position is restricted, the adjustment member is unlikely to rotate from the adjustment start position against the user's will, and the motor is unlikely to rotate unexpectedly.

  The rotation restricting unit may restrict the rotation to the operation start position. In this case, the adjustment member is less likely to turn to the adjustment start position against the user's will, and the motor is less likely to stop unexpectedly.

The rotation restricting portion may include an engaging portion and a positioning pin. The engagement portion is provided on one of the reel body and the adjustment member, and has an engagement recess corresponding to the operation start position. The positioning pin is provided on the other of the reel body and the adjustment member , and is biased toward the engaging portion and engages with the engaging portion. In this case, when the rotation is restricted, the positioning pin is engaged with the engaging portion by the biased positioning pin and the rotation is restricted, so that a click feeling is obtained when the rotation is restricted, It is easy for the user to recognize that the rotation is restricted.

  The engaging portion is provided adjacent to the engaging recess, and has an arc recess formed in an arc shape around the axis of the support shaft, and a protrusion provided between the engagement recess and the arc recess. Furthermore, you may have. In this case, the rotation of the adjustment member is restricted by the protrusion provided at the boundary portion between the engagement recess and the arc recess.

  The engaging portion may be provided on the reel body, and the positioning pin may be provided on the adjustment member. In this case, since the positioning pin is provided on the moving adjustment member, a click feeling can be obtained.

  According to the present invention, the rotation of the adjustment member can be adjusted by the frictional resistance caused by the contact with the first elastic member, and a fine adjustment operation of the adjustment member can be performed.

The perspective view of the electric reel by one Embodiment of this invention. The top view of an electric reel. Sectional drawing by the cutting line III-III of FIG. The enlarged view of the IV section of FIG. The disassembled perspective view of a part of electric reel. The perspective view of a water depth display part. Sectional drawing by the cutting line VII-VII of FIG. The left view of the electric reel of the state which removed the 1st side cover and the mechanism mounting plate. The front view of an adjustment member. The schematic diagram explaining the characteristic of a Hall element. The graph which shows the characteristic of a Hall element. The block diagram which shows the structure of the control system of an electric reel. The figure equivalent to FIG. 4 of the modification of 1st Embodiment. The figure equivalent to FIG. 2 of 2nd Embodiment. Sectional drawing of the adjustment member of 2nd Embodiment.

<First Embodiment>
<Overall configuration of electric reel>
In FIG. 1, FIG. 2, FIG. 3, FIG. 4 and FIG. 5, the electric reel 100 according to the first embodiment of the present invention is driven by electric power supplied from an external power source and used as a manually wound dual bearing reel. It is a small electric reel which has a power supply inside when doing. The electric reel 100 is a reel having a water depth display function for displaying the water depth of the device according to the yarn feeding length or the yarn winding length.

The electric reel 100 can be mounted on a fishing rod and has a reel body 1 having a water depth display portion 4, a handle 2, a spool 10, a clutch operating member 11, a motor 12, and a spool drive mechanism 13 (see FIG. 5). And a clutch mechanism 16 (see FIG. 3). The electric reel 100 includes an adjustment member 5, a first elastic member 46 (see FIG. 4), a second elastic member 47 (see FIG. 4), a first washer member 50 (see FIG. 4), a second A washer member 52 (see FIG. 4), a screw member 54 (see FIG. 4), a rotation restricting portion 55 (see FIG. 6), and a reel control portion 70 (see FIG. 12) are further provided. The handle 2 is rotatably provided on the reel body 1. The spool 10 is rotatably provided on the reel body 1. The clutch operating member 11 is for operating the clutch mechanism 16 on and off, and is provided movably at the rear portion of the reel body 1. The motor 12 is provided in the reel body 1 and rotationally drives the spool 10. The clutch mechanism 16 can be switched by operating the clutch operating member 11 between a clutch-on state in which the rotation of the handle 2 can be transmitted to the spool 10 and a clutch-off state in which the rotation of the handle 2 cannot be transmitted to the spool 10. The adjustment member 5 is rotatably provided on the reel body 1. The adjustment member 5 is a member for adjusting the output of the motor 12 according to the rotation position. The detector 34 is provided on the adjustment member 5 and is provided to detect the rotational position of the adjustment member 5. The phase detector 35 can detect the relative rotation phase of the detector 34 with respect to the phase detector 35. The spool driving mechanism 13 drives the spool 10 according to the driving force of the handle 2 and the motor 12. The reel control unit 70 has a function of a motor control unit that adjusts the output of the motor 12 in a plurality of stages according to the rotation position of the adjustment member 5. For example, the rotation speed of the spool 10 is adjusted in a plurality of stages according to the rotation position of the adjustment member 5. Further, for example, the tension acting on the fishing line is adjusted in a plurality of stages according to the rotation position of the adjustment member 5. The reel control unit 70 also has a display control function for controlling the display of the water depth display unit 4.

<Reel body>
Reel body 1 includes a frame 7, a first side cover 8a, and a second side cover 8b, a front cover 9 (see FIG. 7), a water depth display unit 4 described above, the. The frame 7 is an integrally formed member made of, for example, synthetic resin or metal. The frame 7 includes a first side plate 7a, a second side plate 7b, a first connection member 7c that connects the first side plate 7a and the second side plate 7b, a second connection member 7d, and a third connection member 7e. . The second side plate 7b is arranged at a distance from the first side plate 7a in the left-right direction (left-right direction in FIG. 2 ). The first side cover 8 a covers the handle 2 mounting side of the frame 7. The second side cover 8b covers the side of the frame 7 opposite to the handle 2 mounting side. The front cover 9 covers the front part of the frame 7.

  The first side plate 7a includes a side plate main body 19a and a mechanism mounting plate 19b that is disposed at a distance from the side plate main body 19a and for mounting various mechanisms. As shown in FIG. 5, the side plate body 19a has a boss portion 19c. A bush 65 is mounted on the boss portion 19c so as not to rotate. The mechanism mounting plate 19b is provided for mounting the following various mechanisms. The mechanism mounting plate 19b is fixed to the outer surface of the side plate body 19a with screws. As shown in FIGS. 3 and 5, between the side plate main body 19a and the first side cover 8a, the spool drive mechanism 13, the clutch control mechanism 20 for controlling the clutch mechanism 16, and the rotation of the spool 10 in the yarn unwinding direction. And a drag mechanism 23 (see FIG. 5) for braking the vehicle. The first side cover 8a is provided with a casting control mechanism 21 for braking the spool 10. The casting control mechanism 21 is a mechanism that brakes the spool 10 by pressing both ends of a spool shaft 14 described later.

Between the first side plate 7 a and the second side plate 7 b, a spool 10, a clutch mechanism 16, and a level wind mechanism 22 for winding the fishing line uniformly around the spool 10 are provided. As shown in FIG. 7 , the level wind mechanism 22 reciprocates in the axial direction parallel to the spool shaft 14 in front of the spool 10 by rotation of the traverse cam shaft 63 formed with intersecting spiral grooves and the traverse cam shaft 63. A moving fishing line guide 64. As shown in FIG. 5, the end of the traverse cam shaft 63 on the handle 2 side is rotatably supported by the boss portion 19 c via a bush 65.

  As shown in FIG. 3, the second side plate 7b has a circular opening 7f through which the spool 10 can pass. A spool support portion 17 that rotatably supports the first end (left end in FIG. 3) of the spool shaft 14 of the spool 10 is centered and attached to the circular opening 7f. The spool support portion 17 is fixed to the outer surface of the first side plate 7a with screws. The spool support portion 17 houses a first bearing 18 a that supports the first end of the spool shaft 14.

  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 7 d connects the front part of the spool 10. The first connecting member 7c is a plate-like portion, and a fishing rod mounting portion 7g for attaching to the fishing rod is integrally formed at a substantially central portion in the left-right direction. The fishing rod mounting portion 7g may be separate from the frame 7. The second connecting member 7d is a substantially cylindrical portion, and a motor 12 (see FIGS. 2 and 7) is accommodated therein. The third connecting member 7 e is a generally plate-like portion that is curved in an arc shape that connects the rear part of the reel body 1.

  As shown in FIG. 2, the first side cover 8 a is formed with a first boss portion 8 c protruding outward so as to rotatably support the drive shaft 30. A second boss portion 8d that supports the second end of the spool shaft 14 is formed to protrude outward from the first boss portion 8c.

  The second side cover 8b is, for example, screwed to the outer edge portion of the second side plate 7b. As shown in FIG. 3, a connector 15 for connecting a power cable is mounted downward on the lower surface of the front portion of the second side cover 8b.

  The handle 2 is provided on the first side cover 8a side. As shown in FIGS. 1 and 2, the handle 2 has a handle arm 2a and a handle grip 2b attached to the tip of the handle arm 2a. The handle 2 is attached to the first side plate 7a side. The handle 2 is connected to a drive shaft 30 rotatably supported by the reel body 1 so as to be integrally rotatable.

  The front cover 9 is, for example, screwed and fixed at two locations on the upper and lower sides of the front outer surface of the first side plate 7a and the second side plate 7b. The front cover 9 is formed with a horizontally long opening (not shown) for passing a fishing line. The front cover 9 covers a front lower surface of a case member 36 described later of the water depth display unit 4.

  The water depth display unit 4 can display the water depth of the device that can be attached to the tip of the fishing line. As shown in FIGS. 1 and 7, the water depth display unit 4 includes a case member 36 placed on top of the first side plate 7 a and the second side plate 7 b. The case member 36 is fixed to the outer side surfaces of the first side plate 7a and the second side plate 7b with screws. The water depth display unit 4 includes a switch operation unit 6 having a plurality of (for example, three) operation buttons for performing a display operation.

  As shown in FIG. 7, the case member 36 includes a reel control unit 70, a display 72 including a liquid crystal display for displaying water depth, a main circuit board 74 a, a sub circuit board 74 b, and a motor drive circuit 76. And are stored. The reel control unit 70 is configured by a microcomputer, for example. A display 72, a reel control unit 70, and a motor drive circuit 76 are mounted on the main circuit board 74a. The phase detector 35 is mounted on the sub circuit board 74b. The sub circuit board 74b is electrically connected to the main circuit board 74a. The sub circuit board 74b is disposed at a rear portion of the case member 36 so as to be orthogonal to the main circuit board 74a.

  Both sides of the case member 36 extend rearward along the first side plate 7a and the second side plate 7b, respectively. As shown in FIG. 4, a substrate housing space 36 f whose bottom is opened is formed at the rear part of the case member 36 on the first side plate 7 a side. The sub circuit board 74b is accommodated in the board accommodating space 36f. The rear part of the case member 36 on the second side plate 7b side covers the upper part of the second side plate 7b and the upper part of the second side cover 8b.

<Spool>
The spool 10 is attached to the spool shaft 14 so as to be integrally rotatable. As shown in FIG. 3, the spool 10 includes a tubular bobbin trunk 10a, and a large-diameter first flange portion 10b and a second flange portion 10c that are integrally formed on both sides of the bobbin trunk 10a. ing. The first flange portion 10b is provided on the first side plate 7a side, and the second flange portion 10c is provided on the second side plate 7b side. The spool shaft 14 is fixed to the inner peripheral portion of the bobbin trunk 10a by appropriate fixing means such as press fitting.

The first end of the spool shaft 14 is supported by the first bearing 18a in the spool support portion 17 as described above. The second end (the right end in FIG. 3 ) of the spool shaft 14 is supported by the second bearing 18b on the second boss portion 8d of the first side cover 8a.

  A clutch pin 16a constituting the clutch mechanism 16 is attached to the second bearing 18b side of the spool fixing portion of the spool shaft 14 so as to penetrate in the radial direction.

<Clutch mechanism>
As shown in FIG. 3, the clutch mechanism 16 includes a clutch pin 16 a and a clutch recess 16 b formed in a cross shape along the radial direction on the left end surface of the pinion gear 32 in FIG. 3. The pinion gear 32 constitutes the clutch mechanism 16 and the first rotation transmission mechanism 24 described later of the spool drive mechanism 13. The pinion gear 32 moves along the direction of the spool shaft 14 between a clutch-on position shown in FIG. 3 and a clutch-off position on the right side of the clutch-on position. At the clutch-on position, the clutch pin 16a engages with the clutch recess 16b, and the rotation of the pinion gear 32 is transmitted to the spool shaft 14, and the clutch mechanism 16 enters the clutch-on state. In this clutch-on state, the pinion gear 32 and the spool shaft 14 can rotate together. In the clutch-off position, the clutch recess 16b is separated from the clutch pin 16a, and the rotation of the pinion gear 32 is not transmitted to the spool shaft 14. For this reason, the clutch mechanism 16 is in a clutch-off state, and the spool 10 can freely rotate.

<Clutch control mechanism>
The clutch control mechanism 20 swings the clutch operating member 11 between the clutch-on position shown by a solid line in FIG. 7 and the clutch-off position shown by a two-dot chain line in FIG. And is provided for switching to As shown in FIG. 5, the clutch control mechanism 20 includes a clutch cam 40 that rotates around the spool shaft 14 to a first position and a second position, a clutch yoke 41 that engages with the clutch cam 40, and a clutch cam 40. And a clutch plate 42 that couples 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 to the clutch-off position and the clutch-on position in the spool axis direction. The clutch yoke 41 has a cam receiving portion (not shown) that engages with the cam portion 40a of the clutch cam 40 and an arc portion 41a that engages with the pinion gear 32, and the clutch cam 40 is moved from the first position to the second position. When it is rotated to the position, it moves from the clutch-on position to the clutch-off position outward in the spool axis direction (right side in FIG. 5). As a result, the pinion gear 32 moves outward in the axial direction (right side in FIG. 5), the engagement between the pinion gear 32 and the clutch pin 16a is released, and the clutch mechanism 16 enters the clutch-off state. The clutch yoke 41 is guided in the axial direction by a pair of guide shafts 49 mounted on the mechanism mounting plate 19b. The clutch yoke 41 is urged toward the clutch-on position by a pair of coil springs 44 attached to the guide shaft 49. Therefore, when the clutch cam 40 rotates from the second position to the first position, the clutch yoke 41 returns from the clutch off position to the clutch on position, and the pinion gear 32 returns to the clutch on position. The return operation of the clutch cam 40 from the second position to the first position is also realized by rotating the handle 2 in the yarn winding direction in a clutch-off state by a clutch return mechanism (not shown).

The clutch plate 42 is provided for rotating the clutch cam 40 by swinging of the clutch operating member 11. The clutch plate 42 is formed, for example, by bending a metal plate. The clutch plate 42 includes an engaging portion 42 a that engages with the clutch cam 40, and a mounting portion 42 b that extends from the engaging portion 42 a in the radial direction and then bends toward the clutch operating member 11. The engaging portion 42a rotates in conjunction with the rotation of the clutch cam 40. The mounting portion 42 b is fixed to the clutch operation member 11.

<Clutch operating member>
The clutch operating member 11 is for switching the clutch mechanism 16 between a clutch-on state and a clutch-off state. As shown in FIG. 1 , the clutch operating member 11 is provided between the first side plate 7a and the second side plate 7b so as to be movable in a direction approaching and separating from the fishing rod mounting portion 7g at the rear portion of the reel body 1. . In this embodiment, the clutch operating member 11 is provided so as to be swingable around the axis of the spool 10. The clutch operating member 11 swings between a clutch-on position indicated by a solid line in FIG. 7 and a clutch-off position indicated by a two-dot chain line. As shown in FIG. 5, a first contact plate 43a and a second contact plate 43b are mounted on the inner side surfaces of the rear portion of the first side plate 7a and the rear portion of the second side plate 7b, respectively. The first contact plate 43a and the second contact plate 43b are synthetic resin members 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.

<Spool drive mechanism>
The spool drive mechanism 13 drives the spool 10 in the yarn winding direction. Further, a drag force is generated on the spool 10 during winding to prevent the fishing line from being cut. As shown in FIG. 8, the spool drive mechanism 13 includes a motor 12, a first rotation transmission mechanism 24, and a second rotation transmission mechanism that are prohibited from rotating in the yarn winding direction by a reverse rotation prevention unit in the form of a roller clutch (not shown). 25. The first rotation transmission mechanism 24 decelerates the rotation of the motor 12 and transmits it to the spool 10. The second rotation transmission mechanism 25 increases the rotation of the handle 2 through the first rotation transmission mechanism 24 and transmits it to the spool 10.

  As shown in FIG. 8, the first rotation transmission mechanism 24 has a planetary speed reduction mechanism (not shown) connected to the output shaft of the motor 12. An internal gear (not shown) is formed on the inner side surface of the case 26 of the planetary reduction mechanism, and the output of the internal gear is transmitted to the spool 10 by a first gear member 60 formed on the outer peripheral surface of the case 26. Specifically, 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. As shown in FIG. 5, the second gear member 61 and the pinion gear 32 are disposed between the mechanism mounting plate 19b and the outer surface of the side plate body 19a. The second gear member 61 is an intermediate gear for transmitting the rotation of the first gear member 60 to the pinion gear 32 with the rotation direction aligned. The second gear member 61 is rotatably supported by the boss portion 19c of the side plate body 19a and the mechanism mounting plate 19b via a rolling bearing. As shown in FIGS. 5 and 8, a traverse cam shaft 63 is connected to the second gear member 61 so as to be integrally rotatable. A non-circular portion 63a is formed at the end of the traverse cam shaft 63 on the first side plate 7a side, and the second gear member 61 rotates the traverse cam shaft 63 by engaging with the non-circular portion 63a.

  The pinion gear 32 is attached to the second side plate 7b so as to be rotatable about the spool shaft 14 and movable in the axial direction by a third bearing 18c attached to the side plate body 19a. The pinion gear 32 is controlled by the clutch control mechanism 20 and moves on the outer peripheral side of the spool shaft 14 between the clutch-on position and the clutch-off position in the axial direction. The pinion gear 32 engages with the clutch yoke 41 and moves in the direction of the spool shaft 14.

  As shown in FIGS. 5 and 8, the second rotation transmission mechanism 25 includes a drive shaft 30, a drive gear 31, a third gear member 62, a drag mechanism 23, to which the handle 2 is coupled so as to be integrally rotatable. have.

  As shown in FIG. 5, the drive shaft 30 is rotatably supported by the mechanism mounting plate 19b and the first boss portion 8c of the first side cover 8a. The drive shaft 30 is supported by the first boss portion 8c of the second side cover 8b by a roller-type one-way clutch 37. The drive shaft 30 is prohibited from rotating in the yarn feeding direction by the one-way clutch 37. The drive gear 31 is rotatably mounted on the drive shaft 30. The drive gear 31 is braked by the drag mechanism 23 for rotation in the yarn drawing direction. As a result, the rotation of the spool 10 in the yarn unwinding direction is braked.

  The third gear member 62 is provided to transmit the rotation of the handle 2 to the spool 10. The third gear member 62 is coupled to the carrier of the planetary reduction mechanism so as to be integrally rotatable. The third gear member 62 meshes with the drive gear 31 and transmits the rotation of the handle 2 to the carrier of the planetary reduction mechanism. The rotation transmitted to the carrier 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 generally “1”.

  As shown in FIG. 5, the drag mechanism 23 includes a drag plate 38 that is connected to the inner ring 37 a of the one-way clutch 37 so as to be integrally rotatable and is pressed by the inner ring 37 a. The drag plate 38 is coupled to the drive shaft 30 so as to be integrally rotatable. The drag plate 38 presses the drive gear 31 via the drag washer 39. The braking force of the drag mechanism 23 (the pressing force that presses the drag plate 38) is adjusted by the star drag 3 that is screwed onto the drive shaft 30.

<Adjustment member>
The adjustment member 5 is provided in the reel body 1 in order to adjust the output of the motor 12 in a plurality of stages (for example, 10 stages or more, in this embodiment, 31 stages). As shown in FIG. 3 , the adjusting member 5 is provided between the side plate body 19a of the first side plate 7a and the first side cover 8a. In this embodiment, as shown in FIGS. 4 and 6, the adjustment member 5 is rotatably mounted on a support shaft 36 a erected on the outer surface of the rear portion of the case member 36 of the water depth display unit 4. The adjustment member 5 is arranged such that the first side (the left side in FIG. 4) faces the case member 36. The second side (the right side in FIG. 4) is disposed to face the first side cover 8a.

  The adjustment member 5 is disposed between the first side plate 7a and the first side cover 8a while being attached to the support shaft 36a. The adjustment member 5 is arranged such that the first side (the left side in FIG. 4) faces the case member 36. The second side (the right side in FIG. 4) is disposed to face the first side cover 8a.

The support shaft 36a has a female screw hole 36b into which the screw member 54 is screwed. The screw member 54 is provided to prevent the adjustment member 5 from coming off from the support shaft 36a. The screw member 54 has a large-diameter head 54a.

  The rotation restricting portion 55 restricts the rotation of the adjustment member 5 from the operation start position and restricts the rotation of the adjustment member 5 to the operation start position. The operation start position is a position where the motor 12 is locked by the adjustment member 5. This is a position for stopping the rotation of the motor 12. The rotation restricting portion 55 includes an engaging portion 56 provided on the case member 36 and a positioning pin 57 provided on the adjusting member 5. The engagement portion 56 has a pair of arc recesses 36c, a pair of engagement recesses 36d, and a protrusion 36e formed on the outer surface of the case member 36 around the support shaft 36a. The pair of arc recesses 36c and the pair of engagement recesses 36d are formed with an interval of 180 °. The engaging recess 36d is formed in a spherical shape and is disposed adjacent to the arc recess 36c. The engaging recess 36d is provided corresponding to the operation start position. The arc recess 36 c is formed by an arc concentric with the rotation center of the adjustment member 5, and is provided corresponding to the rotation angle of the adjustment member 5. In this embodiment, the rotation angle of the adjustment member 5 is, for example, in the range of 80 ° to 120 °. In this embodiment, the rotation angle is 100 °. However, the rotation angle of the adjustment member 5 is not limited to this. The protrusion 36e is formed between the engagement recess 36d and the arc recess 36c so as to protrude beyond the engagement recess 36d and the arc recess 36c. The protruding portion 36e is provided to restrict the rotation of the adjustment member 5.

  When the rotation angle of the adjusting member 5 is larger, the angle that can be allocated for each step of the output adjustment of the motor 12 becomes larger, so that the output adjustment operation can be performed stably at each step. However, if the rotation angle of the adjustment member 5 is too large, it is difficult to quickly perform operations in a plurality of stages. In addition, depending on the shape of the reel body, the rotation angle may not be increased. Among these constraints, it is preferable to set the rotation angle of the adjustment member 5 to the maximum angle.

  The adjustment member 5 is a generally annular member made of, for example, a synthetic resin. As shown in FIG. 6, the adjustment member 5 has an operation protrusion 5 a that protrudes in the radial direction on the outer peripheral surface. A large number of grooves 5b along the axial direction for preventing slippage are formed on the outer peripheral surface of the adjustment member 5 excluding the operation protrusions 5a at intervals in the circumferential direction. On the outer surface of the adjustment member 5, a restriction protrusion 5 c for restricting the rotation range of the adjustment member 5 is formed so as to protrude in the axial direction. The first side cover 8a has an opening 8e having a rectangular shape in plan view for allowing the adjustment member 5 to protrude from the first side cover 8a. The regulation protrusion 5c contacts the inner surface of the opening 8e and regulates the rotation range of the adjustment member 5.

  As shown in FIG. 9, a pair of detector accommodating portions 5d for accommodating the detector 34 and a pair for positioning the adjusting member 5 at the operation start position are provided on the inner surface of the adjusting member 5 facing the case member 36. A pair of positioning accommodating portions 5e that accommodate the positioning pins 57 are formed at intervals in the circumferential direction. The pair of detector accommodating portions 5d and the pair of positioning accommodating portions 5e are formed to be recessed in a circle at intervals of 180 °.

  As shown in FIG. 6, the positioning pin 57 is attached to the pair of positioning accommodating portions 5 e so as to freely advance and retract. The positioning pin 57 is urged toward the case member 36 by a pair of coil springs 58. The coil spring 58 is accommodated in the positioning accommodating portion 5e. The positioning pin 57 has a hemispherical head portion 57a, and the head portion 57a engages with the engaging recess 36d and the arc recess 36c. By providing the positioning pin 57 and the engagement recess 36d, the adjustment member 5 is reliably positioned at the operation start position. Moreover, since the protrusion part 36e is formed between the engagement recessed part 36d and the circular arc recessed part 36c, the adjustment member 5 positioned at the operation start position is difficult to rotate from the adjustment start position against the user's will. . Thereby, the motor 12 becomes difficult to rotate unexpectedly.

  As shown in FIG. 4, the adjustment member 5 has a through hole 5 f that is formed at the center and is rotatably supported by the support shaft 36 a via the first elastic member 46 and the second elastic member 47. The adjusting member 5 includes a first contact surface 5g formed on the first side of the through hole 5f and a second contact surface 5h formed on the second side. The first contact surface 5 g contacts and slides with the first elastic member 46. The second contact surface 5 h contacts and slides with the second elastic member 47. The first contact surface 5g is a tapered surface inclined with respect to both the case member 36 and the support shaft 36a constituting the reel body 1. The second contact surface 5h is a tapered surface inclined with respect to both the head portion 54a of the screw member 54 and the support shaft 36a. In the first embodiment, the tapered surface is formed in a cone shape with an inclination of 30 to 60 degrees, preferably 40 to 50 degrees with respect to the support shaft 36a.

The first elastic member 46 and the second elastic member 47 use, for example, OBR made of NBR (nitrile butadiene rubber) or silicone rubber. The first elastic member 46 is disposed on the first side of the adjustment member 5 so as to be in direct or indirect contact between the outer surface of the case member 36, the adjustment member 5 and the support shaft 36a. In the first embodiment, the first elastic member 46 indirectly contacts the case member 36 via the first washer member 50. Further, the first elastic member 46 is in direct contact with the support shaft 36a and the first contact surface 5g. The second elastic member 47 is disposed on the second side of the adjustment member 5 so as to be in direct or indirect contact with each other between the head portion 54a of the screw member 54, the adjustment member 5, and the support shaft 36a. In the first embodiment, the second elastic member 47 indirectly contacts the head portion 54 a via the second washer member 52. Further, the second elastic member 47 directly contacts the support shaft 36a and the second contact surface 5h.

<Detector>
As shown in FIGS. 4, 6 and 9, the detector 34 is attached to the adjustment member 5. Specifically, as described above, it is fixed to the pair of detector accommodating portions 5d of the adjustment member 5 by appropriate fixing means such as adhesion. The detector 34 includes a first magnet 34a and a second magnet 34b that are separately fixed to the pair of detector accommodating portions 5d. The first magnet 34 a and the second magnet 34 b are each magnetized along the axial direction of the adjustment member 5. The second magnet 34b is magnetized in the opposite direction to the first magnet 34a. In this embodiment, the first magnet 34a is magnetized to the N pole on the side facing the case member 36, and the bottom surface side of the detector housing portion 5d is magnetized to the S pole. On the other hand, the second magnet is magnetized to the S pole on the side facing the case member 36, and the bottom surface side of the detector housing portion 5d is magnetized to the N pole. Thus, by arranging the first magnet 34a and the second magnet 34b that are magnetized in the axial direction so that the magnetic flux directions are reversed, the detector 34 that reacts in the same way as the magnet that is magnetized in the radial direction is made to axially magnetize. It can be obtained by the first magnet 34a and the second magnet 34b having simple magnetism.

<Phase detector>
As described above, the phase detection unit 35 is the hall element 35a mounted on the sub circuit board 74b disposed inside the case member 36 of the water depth display unit 4. As shown in FIG. 7 , the hall element 35 a is arranged in accordance with the rotation center C of the adjustment member 5. By arranging the Hall element 35a in this way, the Hall element 35a can detect a change in the direction of magnetic flux generated by the first magnet 34a and the second magnet 34b. As a result, it is possible to detect the rotational phase of the adjusting member 5 by detecting the direction of the magnetic flux that changes as the adjusting member 5 rotates by using the Hall element 35a. As shown in FIG. 10, the Hall element 35 a has a detector 34, assuming that the N pole of the radially magnetized detector 34 is on the mark 35 b side displayed on the Hall element 35 a, for example, in a semicircular shape, at 0 °. At the position where 0 is 0 °, the output voltage is minimized as shown in FIG. When the detector 34 rotates relative to the Hall element 35a counterclockwise from 0 °, the output voltage gradually increases. When the detector 34 approaches 360 °, the output voltage becomes maximum, and when it returns to 0 °, it returns to the minimum. . Thereby, the rotation phase of the adjusting member 5 can be detected by the Hall element 35a in the range from 0 ° to 360 °. However, in this embodiment, for example, the output voltage of the Hall element 35a is used in the range of about 50 ° to 150 °. However, the angular range of the output voltage of the Hall element 35a is not limited to this. For example, a range of 230 ° to 330 ° or the like can be appropriately selected according to the output characteristics of the Hall element.

<Control system>
As shown in FIG. 12, the electric reel 100 includes a reel control unit 70 that controls the motor 12 and the display 72. The reel control unit 70 is an example of a control unit. The reel control unit 70 is configured by a microcomputer including a CPU (Central Processing Unit). The reel control unit 70 is connected to a hall element 35 a as the phase detection unit 35, each switch of the switch operation unit 6, and a spool sensor 78. The reel controller 70 is connected to a display 72 as a control target, a motor drive circuit 76, a buzzer 80, and another input / output unit 82. The spool sensor 78 has a pair of reed switches (or hall elements) that detect a magnet (not shown) attached to the spool 10. The pair of reed switches are arranged side by side in the rotation direction of the spool 10. In this embodiment, the pair of reed switches is provided on the spool support portion 17 of the reel body 1. The spool sensor 78 can detect the rotation speed (rotation position) and rotation direction of the spool 10. The motor drive circuit 76 drives the motor 12 by PWM (pulse width modulation). That is, the motor 12 is driven by changing the duty ratio. The buzzer 80 is housed inside the case member 36. The buzzer 80 rings when the device reaches the shelf position or reaches the seabed. The other input / output unit 82 includes, for example, a wireless communication unit. The wireless communication unit can bidirectionally communicate various data such as water depth data with an external display device.

<Operation of electric reel>
In the electric reel 100 configured as described above, when fishing, the angler pushes down the clutch operation member 11 with the thumb of the hand holding the fishing rod. As a result, the clutch mechanism 16 is switched from the clutch-on state to the clutch-off state, the spool 10 is freely rotated, and the fishing line is fed out into the sea by the weight of the device.

  When a fish is hooked on the device and the fishing line is wound up, the clutch operating member 11 is pushed up with the tip of the thumb of the hand holding the fishing rod. When the clutch operating member 11 is pushed up, the clutch mechanism 16 is switched to the clutch-on state, and the spool 10 can be rotated in the yarn winding direction by the handle 2 and the motor 12.

  When winding the fishing line with the motor 12, the adjusting member 5 is operated with a hand holding a fishing rod or a hand operating the handle 2. At this time, since the adjustment member is disposed between the first side plate 7a and the first side cover 8a, the clutch operation member 11 and the adjustment member 5 disposed at the rear portion of the reel body 1 are disposed close to each other. For this reason, the adjustment member 5 can be operated with the fingertip of the hand after the summing operation. For this reason, it becomes easy to operate the adjustment member 5 and the clutch operation member 11 in cooperation. Further, when casting progresses and the amount of fishing line winding decreases, the summing operation can be performed via the clutch operating member 11, so that the summing operation during casting can be performed stably regardless of the amount of fishing line winding.

  When the adjustment member 5 is rotated, the detector 34 rotates together with the adjustment member 5, and the output voltage of the hall element 35 a of the phase detection unit 35 changes. The reel controller 70 controls the motor drive circuit 76 according to the change in the output voltage, and adjusts the output of the motor 12 according to the rotation position of the adjustment member 5. At this time, the rotational phase of the adjustment member 5 is detected without using a rotation detector such as a rotary encoder or a potentiometer. The increase in volume can be suppressed at a low cost.

Further, since the adjustment member 5 is supported by the support shaft 36 a via the first elastic member 46 and the second elastic member 47, the frictional resistance generated by the first elastic member 46 and the second elastic member 47 is exerted on the adjustment member 5. Works. Thereby, the rotation of the adjusting member 5 can be adjusted by the frictional resistance caused by the contact with the first elastic member 46 and the second elastic member 47, and the adjusting member 5 can be finely adjusted.

<Modification of First Embodiment>
In FIG. 13, the adjustment member 105 according to the modified example of the first embodiment further includes a spacer 59 disposed between the first contact surface 5 g and the first elastic member 46. The spacer 59 is provided between the second contact surface 5h and the second elastic member 47 and between the through hole 5f and the support shaft 36a. The spacer is, for example, made of metal such as Al mini um alloy, and a synthetic resin portion of the adjustment member 105, for example, be integrally formed together with the first magnet 34a and second magnet 34b by insert molding. In this case, since the first elastic member 46 and the second elastic member 47 are in contact with the spacer 59 made of metal and having a smooth surface, the first elastic member 46 and the second elastic member 47 act on the adjustment member 105 on the first side and the second side of the adjustment member 105. The frictional force tends to be more constant.

Second Embodiment
In Fig. 14, in the electric reel 300 according to the second embodiment, the adjustment member 205 is provided in the rear of the case member 236 included in the reel body 1. As shown in FIG. 15, the case member 236 has a storage recess 236 g capable of storing the adjustment member 205 at the rear. The support shaft 236a is supported at both ends by the case member 236. The support shaft 236a has a head 236h of large diameter, a shaft portion 236i for supporting the adjusting member 205, the. The support shaft 236a is mounted from one end side of the case member 236. The support shaft 236 a is prevented from coming off from the case member 236 by a retaining ring 228. The first contact surface 205g and the second contact surface 205h are through-hole tapered surfaces as in the first embodiment. The first elastic member 246 indirectly contacts one wall surface of the housing recess 236g of the case member 236 via the first washer member 250. The second elastic member 247 indirectly contacts the other wall surface of the housing recess 236g of the case member 236 via the second washer member 252.

  Even in such a second embodiment, the same operational effects as in the first embodiment can be obtained.

<Other embodiments>
As mentioned above, although one Embodiment of this invention was described, this invention is not limited to the said embodiment, A various change is possible in the range which does not deviate from the summary of invention. In particular, a plurality of embodiments and modifications described in this specification can be arbitrarily combined as necessary.

(A) In the first embodiment, the adjustment member 5 is disposed between the first side plate 7a and the first side cover 8a. In the second embodiment, the adjustment member 205 is provided at the rear portion of the case member 236. The invention is not limited to this. The adjusting member may be provided at any position on the reel body. For example, the adjustment member may be disposed between the second side plate 7b and the second side cover 8b .

  (B) In the above embodiment, the Hall element is exemplified as the rotational phase detection unit, but the present invention is not limited to this. For example, a rotary encoder or a potentiometer may be used.

  (D) In the above embodiment, the engaging portion 56 is provided on the reel body 1 (case member 36) and the positioning pin 57 is provided on the adjustment member 5. Conversely, the positioning pin is provided on the reel body 1 (case member 36). The engaging portion may be provided on the adjustment member.

(E) In the embodiment, the first elastic member 46 (or 246) and the case member 36 (or 236) are indirectly contacted via the first washer member 50 (or 250). You may make it contact directly. This second elastic member 47 (or 2 47) is also similar, it may be contacted directly to the head 54a or the case member 236 of the second elastic member 47 (or 247) the screw member 54.

  (F) In the above embodiment, the first elastic member 46 and the second elastic member 47 are provided, but only one of the elastic members may be provided.

<Features>
The above embodiment can be expressed as follows.

  (A) The electric reel 100 (or 300) includes the reel body 1, the support shaft 36a (or 236a), the spool 10, the motor 12, the adjustment member 5 (or 205), and the first elastic member 46 (or 246) and a reel control unit 70. The support shaft 36 a (or 236 a) is provided on the case member 36 (or 236) included in the reel body 1. The spool 10 is rotatably provided on the reel body 1. The motor 12 is provided in the reel body 1 and rotationally drives the spool 10. The adjustment member 5 (or 205) has a through hole 5f (or 205f) through which the support shaft 36a (or 236a) can pass, and is rotatably supported by the support shaft 36a (or 236a). The first elastic member 46 (or 246) is disposed between the case member 36 (or 236), the adjustment member 5 (or 205) and the support shaft 36a (or 236a) on the first side of the adjustment member 5 (or 205). Arranged in direct or indirect contact. The reel control unit 70 adjusts the output of the motor 12 according to the rotation position of the adjustment member 5 (or 205).

  In the electric reel 100 (or 300), the adjustment member 5 (or 205) is supported on the support shaft 36a (or 236a) via the first elastic member 46 (or 246). The first elastic member 46 (or 246) is directly on the case member 36 (or 236), the adjustment member 5 (or 205), and the support shaft 36a (or 236a) on the first side of the adjustment member 5 (or 205). The adjusting member 5 (or 205) is disposed in contact indirectly, and is supported by the support shaft 36a (or 236a) via the first elastic member 46 (or 246). Here, the adjustment member 5 (or 205) can be brought into contact with the case member 36 (or 236) and the support shaft 36a (or 236a) through the first elastic member 46 (or 246) without directly contacting the case member 36 (or 236). . Therefore, the rotation of the adjustment member 5 (or 205) can be adjusted by changing the frictional resistance due to contact with the first elastic member 46 (or 246), and the adjustment member 5 (or 205) can be finely adjusted. It becomes possible to operate.

  (B) The electric reel 100 (or 300) further includes a first washer member 50 (or 250) disposed between the first elastic member 46 (or 246) and the case member 36 (or 236). Good. The first elastic member 46 (or 246) indirectly contacts the case member 36 (or 236) via the first washer member 50 (or 250). In this case, the first elastic member 46 (or 246) contacts the first washer member 50 (or 250) whose surface is smoother than that of the case member 36 (or 236) instead of the case member 36 (or 236). The frictional resistance tends to be constant. For this reason, the adjustment operation of the adjustment member 5 (or 205) becomes smoother and the adjustment member 5 (or 205) can be further finely adjusted.

  (C) The adjustment member 5 (or 205) may have a first contact surface 5g (205g) that contacts and slides with the first elastic member 46 (or 246) on the first side. The first contact surface 5g (or 205g) is a tapered surface inclined with respect to both the case member 36 (or 236) and the support shaft 36a (236a). In this case, since the first elastic member 46 (or 246) contacts the adjustment member 5 (or 205) with a tapered surface, the force in the axial direction and the radial direction of the adjustment member 5 (or 205) is the first elasticity. Member 46 (or 246) can be received.

  (D) The through hole 5f (205f) is disposed with a gap from the support shaft 36a (236a), and the first contact surface 5g is provided on the first side of the through hole 5f (205f). In this case, since the adjustment member 5 (or 205) does not directly contact the support shaft 36a (236a), the frictional resistance of the first elastic member 46 (or 246) is stabilized.

  (E) The support shaft 36a may protrude from the case member 36 and be cantilevered. In this case, since the support shaft 36a is cantilevered, the degree of freedom of arrangement of the adjustment member 5 is increased.

  (F) The electric reel 100 may further include a screw member 54 that has a large-diameter head 54a and can be screwed into the tip of the support shaft 36a. The adjustment member 5 is prevented from coming off by the head 54 a of the screw member 54. In this case, the elastic deformation amount of the first elastic member 46 can be adjusted by the screwing amount of the screw member 54, and the frictional force can be adjusted.

  (G) The electric reel 100 is disposed on the second side opposite to the first side of the adjustment member 5 between the screw member 54, the adjustment member 5 and the support shaft, in direct or indirect contact with each other. An elastic member 47 may be further provided. In this case, since the adjustment member 5 is supported at both ends by the first elastic member 46 and the second elastic member 47, a more delicate adjustment operation can be performed.

  (H) At least one of the first elastic member 46 and the second elastic member 47 may be an O-ring. In this case, since the adjustment member 5 can be supported using a commercially available O-ring, the support structure can be realized at a low cost.

  (I) The electric reel 100 may further include a second washer member 52 disposed between the head 54 a and the second elastic member 47. The second elastic member 47 indirectly contacts the head 54 a of the screw member 54 via the second washer member 52. In this case, since the second elastic member 47 contacts the second washer member 52 also on the second side of the adjustment member 5, the friction that acts on the adjustment member 5 also on the second side in the support shaft 36a that is cantilevered. Resistance tends to be constant. For this reason, the adjustment operation of the adjustment member 5 becomes smoother and a fine adjustment operation can be performed.

(J) The adjusting member 5 may have a second contact surface 5 h that contacts and slides with the second elastic member 47. The second contact surface 5h is a tapered surface inclined with respect to both the head portion 54a of the screw member 54 and the support shaft 36a. In this case, since the second elastic member 47 contacts the adjusting member 5 by the taper surface, a force in the axial direction and the radial direction of the adjusting member 5 can be the second elastic member 4 7 receives.

  (K) The through hole 5f may be disposed with a gap from the support shaft 36a, and the second contact surface 5h may be provided on the second side of the through hole 5f. In this case, since the first contact surface 5g and the second contact surface 5h are provided on both sides of the through hole 5f, the first elastic member 46 and the second elastic member 47 can stably support the adjustment member 5.

  (L) The support shaft 236a may be supported at both ends by the case member 236. In this case, since the adjustment member 205 is supported by the case member 236 at both ends, the adjustment member 205 can be operated from both the handle 2 side and the opposite direction to the handle 2.

  (M) The electric reel 300 is disposed on the second side opposite to the first side of the adjustment member 205 between the case member 236, the adjustment member 205, and the support shaft 236a in direct or indirect contact with each other. Two elastic members 247 may be further provided. In this case, since the adjustment member 205 supported at both ends is supported at both ends by the first elastic member 246 and the second elastic member 247 on the first side and the second side, a more delicate adjustment operation of the adjustment member 205 can be performed. become able to.

  (N) At least one of the first elastic member 246 and the second elastic member 247 may be an O-ring. In this case, since the adjustment member 205 can be supported using a commercially available O-ring, the support structure can be realized at a low cost.

  (O) The electric reel 300 may further include a second washer member 252 disposed between the case member 236 and the second elastic member 247. The second elastic member 247 indirectly contacts the case member 236 via the second washer member 252. In this case, since the second elastic member 247 contacts the second washer member 252 also on the second side of the adjustment member 205, the friction resistance acting on the adjustment member 5 also on the second side is supported in the support shaft 236a supported at both ends. Tends to be constant. For this reason, the adjustment operation of the adjustment member 5 becomes smoother and a fine adjustment operation can be performed.

(P) Adjustment member 205 may have a second contact surface 205h in contact and sliding with the second elastic member 24 7. The second contact surface 205h is a tapered surface inclined with respect to both the case member 236 and the support shaft 236a. In this case, since the second elastic member 247 contacts the adjustment member 205 with a tapered surface, the second elastic member 247 can receive the force in the axial direction and the radial direction of the adjustment member 205.

(Q) The through hole 205f may be disposed with a gap from the support shaft 236a, and the second contact surface 205h may be provided on the second side of the through hole 205f. In this case, since the first contact surface 205g and the second contact surface 205h is provided on both sides of the through-hole 205f, the first elastic member 246 and the second elastic member 24 7 to support the adjusting member 205 stably .

  (R) The adjusting member 105 may further include a first spacer 59a provided at least between the first contact surface 5g and the first elastic member 46 in the through hole 5f. In this case, since the first elastic member 46 is in contact with the spacer 59, the frictional force acting on the adjustment member 105 tends to be further constant on the first side.

  (S) The adjustment member 105 may include a second spacer 59b provided at least between the second contact surface 5h and the second elastic member 47 in the through hole 5f. In this case, on the second side, the frictional force acting on the adjustment member 105 tends to be more constant.

  (T) The adjusting member 105 may include a third spacer 59c provided between the support shaft 36a and the through hole 5f in the through hole 5f. In this case, since the spacer is provided in the entire through hole 5f including the first contact surface 5g and the second contact surface 5h, the spacer can be formed with high accuracy.

  (U) The adjustment member 5 may rotate from the operation start position where the motor 12 is stopped. The electric reel 100 further includes a rotation restricting portion 55 that restricts the rotation of the adjustment member 5 from the operation start position and the rotation to the operation start position. In this case, since rotation from the operation start position is restricted, the adjustment member 5 is less likely to rotate from the adjustment start position against the user's will, and the motor 12 is unlikely to rotate unexpectedly.

  (V) The rotation restricting unit 55 may restrict the rotation to the operation start position. In this case, the adjustment member 5 is less likely to rotate to the adjustment start position against the user's will, and the motor 12 is less likely to stop unexpectedly.

  (W) The rotation restricting portion 55 may include an engaging portion 56 and a positioning pin 57. The engaging portion 56 is provided in the case member 36 and has an engaging recess 36d corresponding to the operation start position. The positioning pin 57 is provided on the adjustment member 5 and is urged toward the engaging portion 56 to engage with the engaging portion 56. In this case, when the rotation is restricted, the positioning pin 57 is engaged with the engaging portion 56 by the biased positioning pin 57 and the rotation is restricted. Thus, the user can easily recognize that the rotation is restricted.

  (X) The engaging portion 56 is provided adjacent to the engaging recess 36d, and is formed of an arc recess 36c formed in an arc shape around the axis of the support shaft 36a, and the engagement recess 36d and the arc recess 36c. And a protrusion 36e provided therebetween. In this case, the rotation of the adjustment member 5 is restricted by the protrusion 36e provided at the boundary between the engagement recess 36d and the arc recess 36c.

  (Y) The engaging portion 56 may be provided on the case member 36, and the positioning pin 57 may be provided on the adjustment member 5. In this case, since the positioning pin 57 is provided on the moving adjustment member 5, a click feeling can be obtained.

DESCRIPTION OF SYMBOLS 1 Reel body 2 Handle 4 Depth display part 5,105,205 Adjustment member 5f, 205f Through-hole 5g, 205g 1st contact surface 5h, 205h 2nd contact surface 7 Frame 7a 1st side plate 7b 2nd side plate 7g Fishing rod mounting part 8a First side cover 8b Second side cover 10 Spool 12 Motor 14 Spool shaft 34 Detector 34a, 234a First magnet 34b, 234b Second magnet 35 Phase detector 35a Hall element 36, 236 Case member 36a, 236a Support shaft 36d Arc Recess 36c Engaging recess 36e Protrusion 46,246 First elastic member 47,247 Second elastic member 50,250 First washer member 52,252 Second washer member 54 Screw member 54a Head 55 Rotation restricting portion 57 Positioning pin 59a First spacer 59b Second spacer 59c First 3 spacer 70 reel control unit (an example of control unit)
100,300 Electric reel

Claims (25)

The reel body,
A support shaft provided on the reel body;
A spool rotatably provided on the reel body;
A motor provided on the reel body for driving the spool to rotate;
An adjustment member that has a through-hole through which the support shaft can pass and is rotatably supported by the support shaft;
A first elastic member disposed on the first side of the adjustment member in direct or indirect contact between the reel body, the adjustment member and the support shaft;
A control unit for adjusting the output of the motor in accordance with the rotation position of the adjustment member;
Electric reel equipped with. A first washer member disposed between the first elastic member and the reel body;
2. The electric reel according to claim 1, wherein the first elastic member indirectly contacts the reel body via the first washer member. The adjustment member has a first contact surface that contacts and slides on the first elastic member on the first side;
The electric reel according to claim 1, wherein the first contact surface is a tapered surface inclined with respect to both the reel body and the support shaft. The through hole is arranged with a gap from the support shaft,
The electric reel according to claim 3, wherein the first contact surface is provided on the first side of the through hole. The electric reel according to claim 3 or 4 , wherein the support shaft protrudes from the reel body and is cantilevered. A screw member having a large-diameter head and capable of being screwed to the tip of the support shaft;
The electric reel according to claim 5, wherein the adjustment member is retained by a head portion of the screw member.   A second elastic member disposed on the second side of the adjustment member opposite to the first side between the screw member, the adjustment member, and the support shaft; The electric reel according to claim 6.   The electric reel according to claim 7, wherein at least one of the first elastic member and the second elastic member is an O-ring. A second washer member disposed between the head and the second elastic member;
The electric reel according to claim 7 or 8, wherein the second elastic member indirectly contacts the head of the screw member via the second washer member. The adjustment member has a second contact surface that contacts and slides with the second elastic member;
10. The electric reel according to claim 7, wherein the second contact surface is a tapered surface inclined with respect to both the head of the screw member and the support shaft. 11. The through hole is arranged with a gap from the support shaft,
The electric reel according to claim 10, wherein the second contact surface is provided on the second side of the through hole. The electric reel according to claim 3 or 4 , wherein the support shaft is supported at both ends by the reel body.   And a second elastic member disposed on the second side of the adjustment member opposite to the first side between the reel body, the adjustment member, and the support shaft. The electric reel according to claim 12.   The electric reel according to claim 13, wherein at least one of the first elastic member and the second elastic member is an O-ring. A second washer member disposed between the reel body and the second elastic member;
The second elastic member is indirectly in contact with the reel unit through the second washer member, the electric reel according to claim 13 or 14. The adjustment member has a second contact surface that contacts and slides with the second elastic member;
The electric reel according to any one of claims 13 to 15, wherein the second contact surface is a tapered surface inclined with respect to both the reel main body and the support shaft.   The electric reel according to claim 16, wherein the second contact surface is provided on the second side of the through hole.   18. The adjustment member according to claim 10, further comprising a first spacer provided between at least the first contact surface and the first elastic member in the through hole. The electric reel described.   The adjustment member further includes a second spacer provided at least between the second contact surface and the second elastic member in the through-hole, according to any one of claims 10, 11, and 16 to 18. The electric reel described.   20. The electric reel according to claim 1, wherein the adjustment member further includes a third spacer provided between the support shaft and the through hole in the through hole. The adjustment member rotates from an operation start position for stopping the motor,
The electric reel according to any one of claims 1 to 20, further comprising a rotation restricting portion that restricts rotation of the adjustment member from the operation start position.   The electric reel according to claim 21, wherein the rotation restricting portion restricts the rotation to the operation start position. The rotation restricting portion is
An engagement portion provided on one of the reel body and the adjustment member and having an engagement recess corresponding to the operation start position;
The electric reel according to claim 21, further comprising a positioning pin that is provided on the other of the reel body and the adjustment member and is biased toward the engagement portion and engages with the engagement portion.   The engagement portion is provided adjacent to the engagement recess, and is provided between an arc recess formed in an arc shape around the axis of the support shaft, and between the engagement recess and the arc recess. The electric reel according to claim 23, further comprising a protrusion.   The electric reel according to claim 23 or 24, wherein the engaging portion is provided on the reel body, and the positioning pin is provided on the adjusting member.

Images