JP4772979B2 - Double bearing reel - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a double-bearing reel that is mounted on a fishing reel and a fishing rod and winds a fishing line around an axis that is different from the fishing rod.
[0002]
[Prior art]
  The dual-bearing reel is a reel that winds a fishing line around an axis parallel to an axis perpendicular to the longitudinal direction of the fishing rod. The dual-bearing reel includes a reel body mounted on a fishing rod, a handle rotatably mounted on the reel body, a spool for a spool wound rotatably on the reel body, and a handle for transmitting the rotation of the handle to the spool. A rotation transmission mechanism and a clutch mechanism provided in the middle of the transmission path of the handle rotation transmission mechanism are provided. Some have a level wind mechanism for aligning and winding the fishing line around the spool. The level wind mechanism includes a screw shaft disposed in front of the spool in parallel with the spool and a fishing line guide portion that moves in the spool shaft direction by the screw shaft. A device having a level wind mechanism is further provided with a spool rotation transmission mechanism for transmitting the rotation of the spool to the screw shaft. The spool rotation transmission mechanism has a drive gear fixed to the spool shaft on the side opposite to the handle mounting side.
[0003]
  2. Description of the Related Art A double-bearing reel of this type is known that has a spool sound generation mechanism that can generate a sound when the spool rotates regardless of whether the clutch mechanism is turned on and can switch between a soundable state and a soundless state. When equipped with such a spool sound generation mechanism, it is possible to make it soundable when fishing, and when it is turned on or rolled up, it can be switched to a non-soundable state. This can be notified, and the rotational resistance can be reduced when the device is inserted or wound up.
[0004]
  The conventional spool sound generation mechanism includes a rotating member arranged side by side with the spool on the side opposite to the spool shaft and the handle mounting side, a sound generating member that vibrates by contact with the rotating member, and a sound generating member that contacts the sound generating member with the rotating member. An operation mechanism for moving the position to a separation position that separates from the rotating member is provided. The sound emitting member is provided on the reel body so as to be able to contact and separate from the rotating member. The operation mechanism can be operated on the side opposite to the handle mounting side of the reel body. In this spool sound generation mechanism, for example, at the time of winding up or turning on a device, the sound output member is operated to the separation position by the operation mechanism to reduce the rotational resistance. After the device is inserted, the sound output member is arranged at the contact position so that the sound is generated by the rotation of the spool.
[0005]
[Problems to be solved by the invention]
  In the conventional configuration, particularly when the drive gear of the spool rotation transmission mechanism is mounted on the spool shaft, the drive gear and the rotating member must be arranged side by side on the spool shaft. For this reason, there is a problem that the axial length of the spool shaft becomes long, which becomes an obstacle to downsizing of the reel. This problem becomes more prominent when a brake mechanism for braking the spool is mounted on the side opposite to the handle mounting side of the spool. Further, the portion of the reel body on the side opposite to the handle mounting side is a portion that frequently contacts when performing palming or the like. For this reason, if the operating mechanism is provided on the side opposite to the handle mounting side, the operating mechanism may hit the palm and cause erroneous operation. In addition, the operation mechanism provided on the handle mounting side may interfere with the palming and may cause a sense of incongruity during the palming.
[0006]
  An object of the present invention is to facilitate palming in a double-bearing reel having a spool sound generation mechanism without causing an increase in the size of the reel and preventing erroneous operation.
[0007]
[Means for Solving the Problems]
  A dual-bearing reel according to a first aspect of the present invention is a reel that is mounted on a fishing rod and winds a fishing line around an axis that does not match the fishing rod. A mechanism, a clutch mechanism, a level wind mechanism, a spool rotation transmission mechanism, and a spool sound generation mechanism are provided. A spool for spooling is rotatably mounted inside the reel body. The handle is rotatably mounted on one side of the reel body. The handle rotation transmission mechanism is a mechanism that transmits the rotation of the handle to the spool. The clutch mechanism is a mechanism that is provided in the middle of the transmission path of the handle rotation transmission mechanism and connects and disconnects the handle and the spool. The level wind mechanism is arranged along the rotation axis of the spool in front of the spool, and rotates in conjunction with rotation of the spool in the winding and unwinding direction of the spool, and a fishing line that reciprocates along the rotation axis by the screw shaft. A mechanism for aligning and winding the fishing line around the spool. The spool rotation transmission mechanismIt is arranged on the opposite side of the spool handle mounting side,It is a mechanism for transmitting rotation from the spool to the screw shaft. The spool sound generating mechanism includes a rotating member provided on a handle mounting side of a screw shaft, a sound emitting member that vibrates by contact with a rotating member that is provided on a reel body and is rotatable so as to be able to contact with and separate from the rotating member, and a rotating member And an operating mechanism movably provided on the handle mounting side of the reel body to move the sound output member between the sound generation position that contacts the rotary member and the separation position that moves away from the rotating member.The operation mechanism has an operation member disposed on the handle mounting side of the reel body so as to be movable between a first position and a second position and exposed on the outer surface of the reel body.
[0008]
  In this dual-bearing reel, when the handle and the spool are connected by the clutch mechanism and the handle is rotated, the spool rotates via the handle rotation transmission mechanism. When the spool rotates, the rotation is transmitted to the screw shaft by the spool rotation transmission mechanism, and the fishing line guide portion of the level wind mechanism moves back and forth along the spool shaft so that the fishing line is aligned and wound on the spool. Further, when the spool and the handle are cut off by the clutch mechanism, the spool is allowed to freely rotate, and the fishing line can be fed out from the spool. At this time, even if the spool rotates, the rotation is transmitted to the screw shaft via the spool rotation transmission mechanism, and the fishing line guide portion reciprocates. Further, when the spool rotates, the rotating member provided on the handle mounting side of the screw shaft rotates, and when the sound output member is disposed at the sound generation position and is in contact with the rotation member, the sound output member vibrates and generates sound. To do. When the sound emitting member is arranged at the separation position and separated from the rotating member, no sound is generated. This movement operation of the sound output member can be performed by an operation mechanism arranged on the handle mounting side of the reel body.
[0009]
  Here, since the operation mechanism is disposed on the handle mounting side of the reel body, the operation mechanism does not come into contact when performing palming or the like. For this reason, it does not interfere with the palming and hardly causes a sense of incongruity, and no erroneous operation occurs even when the palming is performed. In addition, since the rotating member is mounted on the handle mounting side of the screw shaft, the axial length of the spool shaft is shorter than when the rotating member is mounted on the spool shaft, and there is no possibility of causing an increase in the size of the reel.
[0010]
  A dual-bearing reel according to a second aspect of the present invention is a reel that is mounted on a fishing rod and winds a fishing line around an axis that is different from the fishing rod. A mechanism, a clutch mechanism, a level wind mechanism, a spool rotation transmission mechanism, and a spool sound generation mechanism are provided. A spool for spooling is rotatably mounted inside the reel body. The handle is rotatably mounted on one side of the reel body. The handle rotation transmission mechanism is a mechanism that transmits the rotation of the handle to the spool. The clutch mechanism is a mechanism that is provided in the middle of the transmission path of the handle rotation transmission mechanism and connects and disconnects the handle and the spool. The level wind mechanism is arranged along the rotation axis of the spool in front of the spool, and rotates along with the rotation of the spool in the winding and unwinding direction of the spool, and the fishing line guide that moves along the rotation axis by the screw shaft. A mechanism for aligning and winding the fishing line around the spool. The spool rotation transmission mechanism is a mechanism that is provided separately from the handle rotation transmission mechanism and transmits rotation from the spool to the screw shaft on the handle mounting side from the spool. The spool sound generation mechanism is a spool rotation transmission mechanism.In conjunctionA sound generating member that vibrates by contact with a rotating member provided and a rotating member that is provided on the reel body so as to be able to come into contact with and separate from the rotating member; a sound generation position that contacts the rotating member; And an operating mechanism that is movably provided on the handle mounting side of the reel body in order to move the sound output member to a position.The operation mechanism has an operation member disposed on the handle mounting side of the reel body so as to be movable between a first position and a second position and exposed on the outer surface of the reel body.
[0011]
  In this dual-bearing reel, when the handle and the spool are connected by the clutch mechanism and the handle is rotated, the spool rotates via the handle rotation transmission mechanism. When the spool rotates, the rotation is transmitted to the screw shaft by the spool rotation transmission mechanism, and the fishing line guide portion of the level wind mechanism reciprocates along the spool shaft so that the fishing line is aligned and wound on the spool. Further, when the spool and the handle are cut off by the clutch mechanism, the spool is allowed to freely rotate, and the fishing line can be fed out from the spool. At this time, even if the spool rotates, the rotation is transmitted to the screw shaft via the spool rotation transmission mechanism, and the fishing line guide portion reciprocates. Further, when the spool rotates, the rotating member provided in the spool rotation transmission mechanism rotates. When the sound producing member is arranged at the sound generation position and is in contact with the rotating member, the sound producing member vibrates and generates sound. Further, no sound is generated when the sound emitting member is arranged at the separation position and is separated from the rotating member. This movement operation of the sound output member can be performed by an operation mechanism arranged on the handle mounting side of the reel body.
[0012]
  Here, since the operation mechanism is arranged on the handle mounting side of the reel body, the operation mechanism does not come into contact when performing palming, etc. Does not occur. In addition, since the rotation member is provided on the spool rotation transmission mechanism arranged on the handle mounting side, the axial length of the spool shaft can be shorter than when the rotation member is mounted side by side with the spool rotation transmission mechanism on the spool shaft. There is no risk of increasing the reel size.
[0013]
  A dual-bearing reel according to a third aspect is the reel according to the first or second aspect, wherein the operation mechanism is, ManipulationA moving unit that moves the sound generating member to the first position by moving the sound generating member to the first position and moves the sound generating member to the sound generation position by moving to the second positionMaterialHave. In this case, when the operation member is swung to the first position, the sound output member is disposed at the separation position via the moving member, and when the operation member is swung to the second position, the sound generation member is disposed at the sound generation position. Here, since the sound output member is connected to the operation member via the moving member, the mounting position of the operation member can be arranged at a position where it can be easily operated.
[0014]
  The dual-bearing reel according to the invention 4 is an invention.Any one of 1 to 3The operation member is exposed on the outer peripheral surface on the opposite side of the fishing rod mounting portion with the spool of the reel body interposed therebetween. In this case, since the operation member is arranged on the upper part of a normal reel, the angler can easily see the operation member.
[0015]
  The dual-bearing reel according to a fifth aspect is the reel according to the fourth aspect, wherein the operation member is disposed in the vicinity of the rotation axis of the handle. In this case, the operating member can be operated with the hand operating the handle without changing the reel.
[0016]
  The dual-bearing reel according to the sixth aspect of the present invention1In the reel according to any one of 5 to 5, the operation member is disposed on the reel body so as to be swingable between a first position and a second position. In this case, since the operating member is swung, it is easy to attach the operating member.
[0017]
  A dual-bearing reel according to a seventh aspect of the invention is the reel according to any one of the first to sixth aspects, further comprising a brake mechanism that is disposed on a side opposite to the handle mounting side of the spool and brakes the spool. In this case, even if the brake mechanism is provided on the side opposite to the handle mounting side, the axial length of the spool shaft is short, and there is no possibility of increasing the reel size.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
  1 to 3, a double bearing reel according to an embodiment of the present invention is a round double bearing reel for bait casting. The reel includes a reel body 1, a spool rotation handle 2 disposed on the side of the reel body 1, and a drag drag adjusting star drag 3 disposed on the reel body 1 side of the handle 2.
[0019]
  The handle 2 is of a double handle type having a plate-like arm portion 2a and grips 2b rotatably attached to both ends of the arm portion 2a. As shown in FIG. 3, the arm portion 2 a is non-rotatably attached to the tip of the handle shaft 30 and is fastened to the handle shaft 30 by a nut 28.
[0020]
  The reel body 1 is a metal member such as an aluminum alloy or a magnesium alloy, and includes a frame 5 and a first side cover 6 and a second side cover 7 that are mounted on both sides of the frame 5. . A spool 12 for bobbin winding is rotatably and detachably mounted inside the reel body 1 via a spool shaft 20 (FIG. 3). The first side cover 6 is circular when viewed from the outside in the spool axial direction, and the second side cover 7 is composed of two intersecting circles.
[0021]
  As shown in FIG. 3, a spool 12, a clutch lever 17 that serves as a thumb pad for summing, and a level wind mechanism 18 for winding a fishing line uniformly in the spool 12 are disposed in the frame 5. Has been. Further, between the frame 5 and the second side cover 7, a clutch rotation transmission mechanism 19 for transmitting the rotational force from the handle 2 to the spool 12, a clutch mechanism 21, and a clutch mechanism according to the operation of the clutch lever 17. 21, a clutch control mechanism 22 for controlling 21, a drag mechanism 23 for braking the spool 12, a casting control mechanism 24 for adjusting the resistance force when the spool 12 rotates, and a spool sound generation mechanism that generates sound when the spool 12 rotates 27 are arranged. Further, a centrifugal brake mechanism 25 for suppressing backlash during casting and a spool rotation transmission mechanism 29 for transmitting the rotation of the spool 12 to the level wind mechanism 18 are disposed between the frame 5 and the first side cover 6. Has been.
[0022]
  As shown in FIGS. 1 and 3, the frame 5 has a pair of side plates 8 and 9 arranged so as to face each other at a predetermined interval, and upper and lower connections for integrally connecting these side plates 8 and 9. Part 10a, 10b. Further, the side plate 8 on the opposite side to the handle mounting side on the left side of FIG. 3 is a flat bottomed cylindrical member having a space in a circular shape when viewed from the spool shaft direction. A circular opening 8 a for attaching and detaching the spool 12 is formed slightly above the center portion of the side plate 8. A spool support portion 13 is detachably disposed in the opening 8a.
[0023]
  As shown in FIGS. 1, 3, and 6, the spool support portion 13 is disposed concentrically with the ring portion 14 on the inner peripheral side of the ring portion 14 and the ring portion 14 that is detachably attached to the opening 8a. When the bottomed cylindrical bearing portion 15 is connected to the ring portion 14 and the bearing portion 15, a rib 16 is provided. Each of these parts is an integrally molded synthetic resin or metal member. A brake liner 68 of the centrifugal brake mechanism 25 is fixed to the inner peripheral surface of the ring portion 14. The front portion of the ring portion 14 swells forward, and an intermediate gear 43 (described later) of the spool rotation transmission mechanism 29 is rotatably supported thereon. A bearing 26 b for rotatably supporting one end of the spool shaft 20 is mounted on the inner peripheral surface of the bearing portion 15. A friction plate 51 of the casting control mechanism 24 is attached to the bottom. The ribs 16 are arranged along the diameter so as to connect the ring portion 14 and the bearing portion 15, and are formed to be convexly curved outward in the axial direction. As a result, openings are formed on both sides of the rib 16. The side of the spool 12 can be seen from this opening, and the centrifugal brake mechanism 25 can be adjusted by putting a fingertip there.
[0024]
  The upper connecting portion 10a is arranged on the same plane as the outer shape of the side plates 8 and 9, and the lower connecting portion 10b is provided in a pair in the front and rear directions and is arranged inside the outer shape. As shown in FIGS. 1 and 7, the lower connecting portion 10b is riveted with a rod mounting leg portion 4 made of metal such as aluminum alloy, which is long before and after the reel is mounted on the fishing rod. .
[0025]
  The first side cover 6 is swingably attached to the side plate 8 so that the spool 12 can be attached and detached, and can be opened and closed with respect to the frame 5. The first side cover 6 can swing freely from the closed position to the open position. As shown in FIG. 2, the second side cover 7 has an eccentric circular side surface in which two outer peripheral circles identical to the side plate 9 intersect. The second side cover 7 is fixed to the side plate 9 by, for example, three screws.
[0026]
  As shown in FIG. 3, the spool 12 has dish-shaped flange portions 12a on both sides, and has a cylindrical bobbin trunk 12b between both flange portions 12a. The spool 12 is fixed to the spool shaft 20 penetrating the inner peripheral side of the bobbin trunk 12b so as not to rotate, for example, by serration coupling. This fixing method is not limited to serration coupling, and various coupling methods such as key coupling and spline coupling can be used.
[0027]
  The spool shaft 20 extends outside the second side cover 7 through the side plate 9. The extended end is rotatably supported by a bearing 26a on a boss portion 7b attached to the second side cover 7. The other end of the spool shaft 20 is rotatably supported by the bearing 26b as described above.
[0028]
  The right end of the large-diameter portion 20a of the spool shaft 20 is disposed outside the side plate 9, and an engagement pin 20b constituting the clutch mechanism 21 is fixed thereto. The engaging pin 20b penetrates the large diameter portion 20a along the diameter, and both ends thereof protrude in the radial direction. The inside of the mounting portion of the engagement pin 20b of the spool shaft 20 is supported by a bearing 26c mounted on the side plate 9.
[0029]
  As shown in FIG. 3, the clutch lever 17 is disposed behind the spool 12 at the rear portion between the pair of side plates 8 and 9. The clutch lever 17 slides up and down between the side plates 8 and 9. On the handle mounting side of the clutch lever 17, an engagement shaft 17 a is integrally formed through the side plate 9. The engagement shaft 17 a is engaged with the clutch control mechanism 22.
[0030]
  As shown in FIGS. 3 and 7, the level wind mechanism 18 is disposed between the side plates 8 and 9 in front of the spool 12 and has a screw shaft 33 in which a spiral groove 33a intersecting the outer peripheral surface is formed. A fishing line guide 34 that reciprocates in the spool axis direction by a shaft 33 is provided. Both ends of the screw shaft 33 are rotatably supported by shaft support portions 35 and 36 attached to the side plates 8 and 9. The driven shaft 44 constituting the spool rotation transmission mechanism 29 is attached to the left end of FIG. 3 (the end opposite to the attachment side where the hand is sold). A sound output gear 45 constituting the spool sound generation mechanism 27 is attached to the right end (handle attachment side) of the screw shaft 33 in FIG.
[0031]
  As shown in FIG. 7, the fishing line guide portion 34 includes a pipe member 39 that is disposed around the screw shaft 33 and is partially cut out over the entire length in the axial direction, and a guide shaft 40 that is disposed above the screw shaft. Is guided in the direction of the spool shaft 20. A locking member 34 a that engages with the spiral groove 33 a is rotatably attached to the fishing line guide portion 34, and reciprocates in the spool axis direction by the rotation of the screw shaft 33. An oval guide ring 34b made of hard ceramics such as SiC, for example, is attached to the upper portion of the fishing line guide 34. Both ends of the pipe member 39 are locked to the shaft support portions 35 and 36.
[0032]
  As shown in FIGS. 3 and 6, the spool rotation transmission mechanism 29 is arranged on the side opposite to the handle mounting side of the spool 12. A drive gear 42 that is non-rotatably mounted on the spool shaft 20, an intermediate gear 43 that meshes with the drive gear 42, and a driven gear 44 that meshes with the intermediate gear. The intermediate gear 43 is a stepped gear having a first gear 43a having a small diameter that meshes with the drive gear 42, and a second gear 43b having a large diameter arranged concentrically with the first gear 43a, and the second gear 43b is driven. The gear 44 is engaged. The intermediate gear 43 is rotatably mounted on the ring portion 14 of the spool support portion 13. As described above, the driven gear 44 is mounted on the right end of FIG. 3 of the screw shaft 33 (on the side opposite to the handle mounting side). Thereby, the rotation of the spool shaft 20 is decelerated and transmitted to the screw shaft 33. With such a configuration, the screw shaft 33 rotates in conjunction with the rotation of the spool 12, and the level wind mechanism 18 operates when the spool 12 rotates regardless of the rotation direction of the spool 12.
[0033]
  As shown in FIG. 3, the handle rotation transmission mechanism 19 includes a handle shaft 30, a main gear 31 fixed to the handle shaft 30, and a cylindrical pinion gear 32 that meshes with the main gear 31. The handle shaft 30 is rotatably mounted on the side plate 9 and the boss portion 7a, and rotation (reverse rotation) in the yarn feeding direction is prohibited by the roller-type one-way clutch 86 and the claw-type one-way clutch 87.
[0034]
  The one-way clutch 86 is mounted between the boss portion 7a and the handle shaft 30. The main gear 31 is rotatably mounted on the handle shaft 30 and is connected to the handle shaft 30 via the drag mechanism 23.
[0035]
  As shown in FIG. 3, the pinion gear 32 is a cylindrical member that extends outward from the side plate 9 and through which the spool shaft 20 passes, and is mounted on the spool shaft 20 so as to be movable in the axial direction. An engagement groove 32a that engages with the engagement pin 20b is formed at the left end of the pinion gear 32 in FIG. The engagement groove 32a and the engagement pin 20b constitute the clutch mechanism 21. A constricted portion 32b is formed at the intermediate portion, and a gear portion 32c that engages with the main gear 31 is formed at the right end portion.
[0036]
  The clutch control mechanism 22 has a clutch yoke 57 that moves along the direction of the spool shaft 20. The clutch control mechanism 22 has a clutch return mechanism (not shown) that clutches the clutch mechanism 21 in conjunction with the rotation of the spool 12 in the yarn winding direction.
[0037]
  The casting control mechanism 24 includes a plurality of friction plates 51 disposed so as to sandwich both ends of the spool shaft 20 and a braking cap 52 for adjusting the clamping force of the spool shaft 20 by the friction plates 51. The left friction plate 51 is mounted in the spool support portion 13.
[0038]
  As shown in FIGS. 3 and 6, the centrifugal brake mechanism 25 has a rotating member 66 fixed to the spool shaft 20 so as to rotate integrally with the spool 12, and a diameter that is arranged on the rotating member 66 at intervals in the circumferential direction. It has a cylindrical slider 67 movably mounted in the direction, and a brake liner 68 that is fixed to the inner peripheral surface of the ring portion 14 and can contact the slider 67. The rotating member 66 has a disk part 66a disposed on the outer peripheral side of the bearing part 15, and the disk part 66a is formed with, for example, six recesses 66b at intervals in the circumferential direction. . In each recess 66b, two opposing pairs of locking projections 70a, 70b are formed at an interval in the radial direction. The locking protrusions 70a are formed to protrude from each other on the outer peripheral portion, and are protrusions for preventing the slider 67 from coming off. The locking protrusion 70 b is a protrusion that is formed on the inner peripheral side of the locking protrusion 70 a and prevents the slider 67 from contacting the brake liner 68. In addition, radially extending guide shafts 69 are arranged on the bottom surface of the recess 66b. A slider 67 is movably guided by the guide shaft 69.
[0039]
  The slider 67 is a cylindrical member, and has a flange portion 67a that has a larger diameter than other portions and is locked to the locking protrusions 70a and 70b at an end portion on the inner peripheral side thereof. When the spool 12 rotates, the slider 67 contacts the brake liner 68 by centrifugal force to brake the spool 12. At this time, if the collar portion 67a gets over the locking projection 70b and is disposed on the inner peripheral side, the collar portion 67a contacts the locking projection 70b and cannot contact the brake liner 68 even if centrifugal force is applied. . By switching the radial position of the slider 67, the braking force of the centrifugal brake mechanism 25 can be adjusted.
[0040]
  As shown in FIGS. 4 and 5, the spool sound generation mechanism 27 is mounted on the handle mounting side of the reel body 1, that is, between the side plate 9 and the second side cover 7. The spool sound generation mechanism 27 includes a sound output gear (an example of a rotating member) 45 attached to the right end of the screw shaft 33, a sound output claw (an example of a sound output member) 46 that contacts and separates from the sound output gear 45, An operating lever (an example of an operating member) 47 that is swingably attached to the side plate 9 and a connecting link (an example of a moving member) 48 that connects the operating lever 47 and the sound output claw 46 are provided.
[0041]
  The sound output gear 45 is a gear having a large number of straight teeth on the outer periphery, and is mounted on the screw shaft 33 so as not to rotate. As a result, the sound output gear 45 rotates in conjunction with the rotation of the screw shaft 33.
[0042]
  The sound output claw 46 is a member having a pointed tip 46a, and is biased in a direction approaching the sound output gear 45 obliquely downward by a coil spring 55 locked to the side thereof. However, since the biasing direction of the coil spring 55 is biased toward the handle shaft 30, the biasing force with respect to the sound output claw 46 changes according to the rotation direction of the sound output gear 45. The sound output claw 46 is movable to a sound output position that contacts the sound output gear 45 with respect to the side plate 9 and a separation position that is separated from the sound output gear 45, and the rocking accuracy is restricted by one end of the connecting link 48. Are connected together. A long hole 46 b is formed in a portion where the sound output claw 46 is connected to the connection link 48. A connecting pin 56 is attached to the long hole 46 b and is connected to the connecting link 48 by the connecting pin 56. Therefore, the sound emitting claw is movable with respect to the connecting link 48 by a long hole in the longitudinal direction of the connecting link 48. As a result, the sound output claw 46 arranged at the sound output position swings when the sound output gear 45 rotates and also vibrates by retreating outward in the radial direction of the sound output gear 45 to generate a crisp loud sound. it can.
[0043]
  The operation lever 47 can take a separation posture indicated by a two-dot chain line and a sound emitting posture indicated by a solid line in FIG. The operation lever 47 has a lever portion 47a and a cam portion 47b to which the lever portion 47a is connected so as not to rotate. The lever portion 47a is a member that is disposed in the concave portion 7c formed in the second side cover 7 and extends in the radial direction from the swing center. The cam portion 47 b is swingably mounted on a swing shaft 53 that is screwed and fixed to the side plate 9. The cam portion 47b is fixed to the lever portion 47a in a non-rotatable manner with the second side cover 7 sandwiched by a fixing screw 54 screwed into the tip of the swing shaft 53. In the cam portion 47 b, a rod-like cam projection 47 c protrudes toward the side plate 9 on the end surface of the side plate 9 of the cam portion 47 b. The other end of the connecting link 48 is swingably connected to the cam projection 47c. The tip of the cam projection 47c is engaged with an arc groove 9a formed on the side plate 9, so that the swing angle of the operation lever 47 is between the separation posture and the sound emitting posture indicated by the two-dot chain line. Is regulated. A toggle spring 57 whose one end is locked to the side plate 9 is locked to the cam portion 47b. The toggle spring 57 urges the cam portion 47b to be separated into a separating posture and a sound emitting posture.
[0044]
  The connection link 48 is a plate-like member, and is provided to convert the swing of the operation lever 47 into a movement in a direction in which the sound generation claw 46 comes in contact with and separates from the sound output gear 45. As described above, the sounding claw 4 is connected to one end by the connecting pin 56 and the other end of the connecting link 48 is connected to the cam portion 47b of the operation lever 47 by the cam projection 47c. A guide groove 48 a that is guided by a guide pin 58 that is screwed and fixed to the side plate 9 is formed in an intermediate portion in the longitudinal direction of the connecting link 48.
[0045]
  Here, the sound output gear 45 of the spool sound generation mechanism 27 is mounted on the handle mounting side end of the screw shaft 33 of the level wind mechanism 18 for the following reason. That is, when the sound output gear is mounted on the handle mounting side of the spool 12 or the spool shaft 20, for example, it must be arranged side by side with the pinion gear 31 of the clutch mechanism 21 in the axial direction or disposed on the outer peripheral side of the pinion gear 31. . In the former case, the length in the spool shaft direction is long, and in the latter case, the structure of the sound output gear is complicated. However, if the screw shaft 33 is attached, the above problem does not occur.
[0046]
  [Operation and operation of reel during actual fishing]
  When performing casting, the operation lever 47 is moved away from the spool sound generating mechanism 27 so that the sound is not generated. Thereby, the resistance with respect to the spool 12 decreases. Then, the clutch lever 17 is pressed downward to bring the clutch mechanism 21 into the clutch-off state. In this clutch-off state, the spool 12 is in a freely rotating state, and when casting is performed, the fishing line is drawn out from the spool 12 vigorously due to the weight of the device.
[0047]
  When the device is landed, the handle 2 is rotated in the yarn winding direction, the clutch mechanism 21 is brought into the clutch-on state by a clutch return mechanism (not shown), the reel body 1 is palmed, and waiting is made. At the same time, the operation lever 47 is swung from the separated posture to the sounding posture. Since the operation lever 47 is disposed on the handle mounting side of the reel body 1, the operation lever 47 does not come into contact with the hand when performing palming or the like. For this reason, it does not interfere with the palming and hardly causes a sense of incongruity, and no erroneous operation occurs even when the palming is performed. Further, since the sound output gear 45 is mounted on the handle mounting side of the screw shaft 33, the axial length of the spool shaft 20 can be shortened compared with the case where the rotating member is mounted on the spool shaft 20, and the reel can be enlarged. There is no risk of inviting.
[0048]
  When the operation lever 47 is swung to the sounding posture, the connecting link 48 connected to the cam projection 47 c is guided by the guide shaft 58 and moves in the direction approaching the sound output gear 45, and is urged by the coil spring 55. The sound output claw 46 moves from the separation position to the sound output position. As a result, the sound output claw 46 contacts the sound output gear 45. In this state, when the spool 12 rotates in the yarn winding direction or the thread feeding direction by rotating the handle 2 or pulling fish, the rotation is transmitted to the screw shaft 33 via the spool rotation transmission mechanism 29, and the level wind mechanism 18 operates. At the same time, the sound output gear 45 mounted on the screw shaft 33 rotates and repeatedly collides with the sound output claw 46, so that the sound output claw 46 vibrates and generates sound. At this time, since the urging force by the coil spring 55 is biased, the force with which the sound output claw 46 comes into contact with the sound output gear 45 varies depending on the rotation direction of the spool 12, and the rotation direction can be determined by the generated sound.
[0049]
  Alternatively, the clutch mechanism 21 may be left in the clutch-off state with the device turned on, and the operation lever 47 may be swung to the sounding posture. For example, in the case of fishing using live bait such as swimming fishing, the braking force of the spool 12 may be adjusted by the casting control mechanism 24 and left in the clutch-off state. In this case, when the fish is applied to the live bait and the spool 12 is rotated in the line-feeding direction, the sound is generated.
[0050]
  [Other Embodiments]
  (A) In the above embodiment, since the spool rotation transmission mechanism 29 is on the side opposite to the handle mounting side, a sound output gear as a rotating member is disposed on the handle mounting side of the screw shaft 33. However, when the spool rotation transmission mechanism is on the handle mounting side, the gear constituting the spool rotation transmission mechanism or the gear meshing with the gear is used as the rotation member, and the sound output member is brought into contact with and separated from the rotation member. May be. In this case, it is preferable that the sounding claw is brought into contact with a member interlocked with the gear rather than the gear constituting the spool rotation transmission mechanism in consideration of the life of the transmission component.
[0051]
  (B) In the above embodiment, the operation lever 47 as the operation member is swung. However, the movement form of the operation member is not limited to rocking, and may be linear movement or other movement.
[0052]
  (C) In the above embodiment, the rotating member is constituted by a gear, and the sound emitting member is constituted by a claw. However, the structure of the rotating member and the sound emitting member is not limited to this, and the sound is generated by relative rotation at the time of contact. Any configuration can be used.
[0053]
  (D) In the above embodiment, the centrifugal brake mechanism 25 is exemplified as the brake mechanism. However, the structure of the brake mechanism is not limited to the centrifugal type, and includes a magnetic type and a combination of them.
[0054]
【The invention's effect】
  According to the present invention, since the operation mechanism is disposed on the handle mounting side of the reel body, the operation mechanism does not come into contact when performing palming or the like. For this reason, it does not interfere with the palming and hardly causes a sense of incongruity, and no erroneous operation occurs even when the palming is performed. In addition, since the rotating member is mounted on the handle mounting side of the screw shaft, the axial length of the spool shaft is shorter than when the rotating member is mounted on the spool shaft, and there is no possibility of causing an increase in the size of the reel.
[Brief description of the drawings]
FIG. 1 is a perspective view of a dual-bearing reel that employs an embodiment of the present invention.
FIG. 2 is a left side view thereof.
FIG. 3 is a plan sectional view thereof.
FIG. 4 is a side view of the spool sound generation mechanism with the second side cover removed.
FIG. 5 is an exploded perspective view of a spool sound generation mechanism.
FIG. 6 is a right side view when the first side cover is opened.
7 is a sectional view taken along line VII-VII in FIG.
[Explanation of symbols]
    1 Reel body
    2 Handle
    5 frames
    6,7 First and second side covers
    8,9 Side plate
  12 spools
  18 level wind mechanism
  19 Handle rotation transmission mechanism
  20 Spool shaft
  21 Clutch mechanism
  27 Spool sound generation mechanism
  29 Spool rotation transmission mechanism
  33 Screw shaft
  34 Fishing line guide
  45 Sound output gear
  46 Sounding nails
  47 Control lever
  48 Link

Claims (7)

A double-bearing reel mounted on a fishing rod and winding a fishing line around an axis that does not match the fishing rod,
A reel body mounted on the fishing rod;
A spool for spools rotatably mounted inside the reel body;
A handle rotatably mounted on one side of the reel body;
A handle rotation transmission mechanism for transmitting the rotation of the handle to the spool;
A clutch mechanism that is provided in the middle of the transmission path of the handle rotation transmission mechanism and connects and disconnects the handle and the spool;
A threaded shaft that is disposed along the rotational axis of the spool in front of the spool and rotates in conjunction with rotation of the spool in the winding and unwinding direction; and a fishing line that reciprocates along the rotational axis by the threaded shaft. A level wind mechanism for aligning and winding the fishing line around the spool,
A spool rotation transmission mechanism provided separately from the handle rotation transmission mechanism , disposed on the side opposite to the handle mounting side of the spool, and transmitting rotation from the spool to the screw shaft;
A rotating member provided on the handle mounting side of the screw shaft, a sound generating member that vibrates by contact with the rotating member that is provided on the reel body and rotates so as to be able to contact with and separate from the rotating member; A spool sound generation mechanism having an operation mechanism movably provided on the handle mounting side of the reel body in order to move the output member to a sound generation position in contact with the rotation member and a separation position away from the rotation member and, with a,
The dual- bearing reel , wherein the operation mechanism includes an operation member disposed on the handle mounting side of the reel body so as to be movable between a first position and a second position and exposed on an outer surface of the reel body . A double-bearing reel mounted on a fishing rod and winding a fishing line around an axis that does not match the fishing rod,
A reel body mounted on the fishing rod;
A spool for spools rotatably mounted inside the reel body;
A handle rotatably mounted on one side of the reel body;
A handle rotation transmission mechanism for transmitting rotation of the handle to the spool;
A clutch mechanism that is provided in the middle of the transmission path of the handle rotation transmission mechanism and connects and disconnects the handle and the spool;
A threaded shaft that is disposed along the rotational axis of the spool in front of the spool and rotates in conjunction with rotation of the spool in the winding and unwinding direction; and a fishing line that reciprocates along the rotational axis by the threaded shaft. A level wind mechanism for aligning and winding the fishing line around the spool,
A spool rotation transmission mechanism for transmitting rotation from the spool to the screw shaft on the handle mounting side from the spool;
A rotating member provided in conjunction with the spool rotation transmission mechanism; a sound generating member that vibrates by contact with the rotating member that is provided on the reel body and rotates so as to be able to contact with and separate from the rotating member; A spool sound generation mechanism having an operation mechanism movably provided on the handle mounting side of the reel body in order to move the output member to a sound generation position in contact with the rotation member and a separation position away from the rotation member And equipped with
The dual- bearing reel , wherein the operation mechanism includes an operation member disposed on the handle mounting side of the reel body so as to be movable between a first position and a second position and exposed on an outer surface of the reel body . Before SL operating mechanism includes a moving member for moving the sounding member by the movement of the first position of the operating member to the sound producing position by the movement of the arrangement and a second position in the separate position, according to claim 1 Or the double-bearing reel of 2. 4. The dual-bearing reel according to claim 1, wherein the operation member is exposed on an outer peripheral surface opposite to the fishing rod mounting portion across the spool of the reel body. 5.   The dual-bearing reel according to claim 4, wherein the operation member is disposed in the vicinity of a rotation axis of the handle. The operating member, the are the the reel body first position and arranged swingably and the second position, dual-bearing reel according to any one of claims 1 to 5.   The dual-bearing reel according to any one of claims 1 to 6, further comprising a brake mechanism that is disposed on a side opposite to a handle mounting side of the spool and brakes the spool.

Images