JP3934663B2 - Spinning reel waterproof structure - Google Patents

Description

  The present invention relates to a waterproof structure, and more particularly to a spinning reel waterproof structure for preventing liquid from entering a mechanism housing space formed inside a reel body of a spinning reel.

  Spinning reels generally have a reel body having a mechanism housing space therein, a rotor disposed in front of the reel body and rotatably supported by the reel body, and disposed in front of the rotor and supported by the reel body so as to advance and retreat. And a spool for wound spool. A handle is mounted on the reel body, and in the mechanism storage space, there is a rotation transmission mechanism for transmitting the rotation of the handle to the rotor, an oscillating mechanism for moving the spool forward and backward in conjunction with the rotation of the handle, and the rotor. A movement mechanism such as an operation portion (stopper shaft) of a reverse rotation prevention mechanism that prohibits reverse rotation is housed (see, for example, Patent Document 1).

  The rotation transmission mechanism has a master gear shaft arranged on the left and right in the reel body, a master gear provided on the master gear shaft, and a pinion gear meshing with the master gear, and a rotor is fixed to the tip of the pinion gear. ing. The oscillating mechanism includes, for example, an intermediate gear that meshes with a pinion gear, a screw shaft that is fitted with an intermediate gear at one end and arranged parallel to the spool shaft, and a slider that engages with the screw shaft and moves forward and backward by the rotation of the screw shaft. And a sliding guide for guiding the slider so as to be able to advance and retreat, and a spool shaft is connected to the slider so as not to move in the axial direction.

On the other hand, a reverse rotation prevention mechanism is mounted on the front portion of the reel body, and the tip of the spool shaft and the rotor pinion gear projects from the mechanism housing space toward the front of the reel body. Further, both ends of the master gear shaft on which the handle is mounted protrudes from the left and right sides of the reel body.
JP-A-8-9844

  In the conventional spinning reel, since many moving members such as a spool shaft, a master gear shaft, and a pinion gear protrude from the reel body, a hole is formed in that portion, so that the movement is smooth. There is a gap between the moving member and the hole. In addition, since a fixing member such as a reverse rotation prevention mechanism is mounted, there is a gap on the mounting surface with the fixing member.

  Liquids such as seawater may enter the inside of the reel body from such a gap between the hole and the moving member or a gap between the fixed member and the mounting surface of the reel body. Thus, when seawater enters the inside of the reel body and the invading seawater dries, precipitates such as salt crystals are generated, and the precipitates are sandwiched between rolling elements of the bearings or between the gears, for example. May be reduced.

  An object of the present invention is to make it difficult for a liquid to enter a mechanism housing space inside a reel body in a spinning reel.

A waterproofing structure for a spinning reel according to a first aspect of the present invention is a structure for preventing liquid from entering a mechanism housing space formed inside the reel body of the spinning reel, and is a spool shaft that is mounted on the reel body so as to be freely advanced and retracted. And an elastic seal member provided so as to be able to come into contact with each other between the front end of the rotor rotatably mounted on the reel unit. The seal member is disposed in contact with the front surface of the bearing mounted between the nut fixed to the tip of the rotor and the spool shaft, the inner peripheral surface of the nut, and the outer peripheral surface of the spool shaft. The bearing is a rolling bearing having an outer ring attached to a nut, an inner ring attached to a spool shaft, and a rolling element that is sandwiched between the outer ring and the inner ring and rolls. The seal member is in contact with the outer peripheral surface of the spool shaft at a position separated forward from the inner ring.

In this spinning reel waterproof structure, even if the rotor rotates and the spool shaft reciprocates back and forth, the gap between the spool shaft and the rotor is sealed by an elastic seal member. It is difficult for liquid to enter the space .

  According to the present invention, even when the rotor rotates and the spool shaft reciprocates back and forth, the gap between the spool shaft and the rotor is sealed by the elastic sealing member, so that the gap can be inserted into the mechanism storage space. It becomes difficult for liquid to enter.

〔overall structure〕
1 and 2, the spinning reel adopting an embodiment of the present invention is a large spinning reel capable of winding a No. 8 fishing line about 200 m, for example. The spinning reel includes a handle assembly 1, a reel body 2 that rotatably supports the handle assembly 1, a rotor 3, and a spool 4. The rotor 3 is rotatably supported at the front portion of the reel body 2. The spool 4 winds the fishing line around the outer peripheral surface, and is disposed at the front portion of the rotor 3 so as to be movable back and forth.

[Structure of handle assembly]
As shown in FIG. 3, the handle assembly 1 is a member that is screwed onto the master gear shaft 10, and has a T-shaped handle portion 1a and an L-shaped handle portion 1a having a handle portion 1a rotatably attached to the tip. And a crank arm 1b. The crank arm 1b has an arm portion 7a, a shaft portion 7b on which the base end of the arm portion 7a is swingably mounted, and an attachment portion 7c for screwing the shaft portion 7b into the master gear shaft 10. . The shaft portion 7b is a member having a rod-like cross section, and has a first male screw portion 8a that is a right screw (a screw that closes when turned clockwise) at a tip (right end in FIG. 3) and a larger portion than the first male screw portion 8a. A second male screw portion 8b of a left screw having a diameter (a screw that closes when turned counterclockwise) is formed concentrically along the axial direction. As a result, the handle assembly 1 can be mounted in either the right position of the reel body 2 shown in FIGS. 1 and 2 or the left position shown in FIG.

  A chamfered portion 8c cut parallel to each other is formed at the base end of the shaft portion 7b, and the chamfered portion 8c is a pin for mounting a swing pin 8e for swingably supporting the arm portion 7a. A hole 8d is formed. The arm portion 7a is swingably attached to the shaft portion 7b by a swing pin 8e.

  The attachment portion 7c includes a contact portion 9a formed by an end surface of the arm portion 7a, a bottomed cylindrical shaft cover 9b disposed on the outer peripheral side of the shaft portion 7b, and a space between the shaft portion 7b and the shaft cover 9b. And a pressing member 9c attached to the shaft portion 7b. The bottom of the shaft cover 9b is locked to the chamfered portion 8c of the shaft portion 7b so as not to rotate. Accordingly, the shaft portion 7b can be rotated by turning the shaft cover 9b. The tip of the shaft cover 9b is disposed at a position facing the perforated cover 19b provided on the reel body 2. The pressing member 9c is a cylindrical member mounted on the shaft portion 7b so as to be rotatable and axially movable. This tip abuts on the master gear shaft 10 when the handle assembly 1 is attached. Between the pressing member 9c and the bottom portion of the shaft cover 9b, four disc springs 9d and washers 9e are arranged side by side on the outer peripheral side of the shaft portion 7b. The disc spring 9d is positioned in a compressed state between the base end portion of the pressing member 9c and the washer 9e when the handle assembly 1 is attached, and the screw is pressed by the compression reaction force by pressing the pressing member 9c toward the master gear shaft 10 side. Prevents loosening.

  In the handle assembly 1 having such a structure, when the shaft cover 9b is turned to loosen the handle assembly 1, the abutting portion 9a is separated from the shaft cover 9b, and the crank arm 1b can be moved with one touch at the swing pin 8e portion. It can be bent. Conversely, when the shaft cover 9b is turned to tighten the handle assembly 1, the contact portion 9a comes into close contact with the shaft cover 9b and returns to the original state with one touch. At this time, since the pressing member 9c is pressed to the master gear shaft 10 side by the disc spring 9d, the handle assembly 1 is not easily loosened.

[Reel body configuration]
The reel body 2 includes a reel body 2a that constitutes a main portion of the reel body 2 and has an opening 2c on a side portion thereof, and a T-shaped hook mounting leg 2b that integrally extends obliquely upward and forward from the reel body 2a. Yes.

  As shown in FIG. 2, the reel body 2a has a mechanism mounting space continuous with the opening 2c, and the rotor 3 is rotated in conjunction with the rotation of the handle assembly 1 in the space. A rotor drive mechanism 5 and an oscillating mechanism 6 for moving the spool 4 back and forth to wind up the fishing line uniformly are provided.

  As shown in FIG. 3, the opening 2c of the reel body 2a is closed by a lid member 2d. The lid member 2d is screwed to the reel body 2a around the opening 2c. As shown by hatching in FIG. 4, a liquid gasket 80 is applied to the edge of the opening 2c to seal the gap with the lid member 2d and prevent liquid from entering the mechanism mounting space.

  As shown in FIG. 4, a first flange portion 2e is formed at the front portion of the reel body 2a. The first flange portion 2e has a substantially cylindrical shape in which a portion composed of a string and an arc is missing, and is formed at the front end of the opening 2c. A one-way clutch 51 of a reverse rotation prevention mechanism 50 for prohibiting / releasing rotation (reverse rotation) of the rotor 3 in the yarn unwinding direction is screwed to the front surface of the first flange portion 2e. The first flange portion 2e is screwed with a second flange portion 2f formed in an outer shape composed of a chord and an arc of a missing portion.

  The second flange portion 2f is provided for facilitating the mounting of the mechanism mounted in the mechanism mounting space and for disposing the master gear 11 as far forward as possible. A contact surface of the second flange portion 2f with the first flange portion 2e and the lid member 2d is equipped with an elastic waterproof seal 81 for sealing a gap between them. As shown by hatching in FIG. 4, the waterproof seal 81 is continuous from the front surface to the rear surface of the second flange portion 2 f at a position facing the contact surface with the first flange portion 2 e and the contact surface with the lid member 2 d. It is formed in a string shape.

  The one-way clutch 51 has substantially the same outer shape as the state in which the second flange portion 2f is attached to the first flange portion 2e, and the one-way clutch 51 has a one-way clutch on the outer peripheral side between the flange portions 2e, 2f and the one-way clutch 51. A cylindrical seal ring 82 made of an elastic material such as NBR, for example, is attached to seal the gap on the outer peripheral side of the clutch 51 and the gap between the one-way clutch 51 and both flange portions 2e, 2f.

  As shown in FIGS. 3 and 5, a cylindrical boss portion 17a is formed on the right side surface of the reel body 2a. The boss portion 17a is formed to protrude inward of the reel body 2a in order to accommodate the bearing 16a that supports the right end of the master gear shaft 10. A boss portion 17b is formed at a position facing the boss portion 17a of the lid member 2d. The boss portion 17b is formed to project inward and outward of the reel body 2a in order to accommodate the bearing 16b that supports the left end of the master gear shaft 10. The boss portion opposite to the side on which the handle assembly 1 is mounted (the boss portion 17a in FIG. 3) is closed by the shaft cover 19a. The boss portion (the boss portion 17b in FIG. 3) on which the handle assembly 1 is mounted is prevented from entering water by a perforated cover 19b. As shown in FIG. 1, the shaft cover 19a and the perforated cover 19b are elliptical members, and are each attached to the boss portion by two screws 19c. The boss portion 17a not projecting outward is formed with an elliptical recess 17c for mounting the shaft cover 19a and the perforated cover 19b flush with each other.

[Configuration of rotor drive mechanism]
The rotor drive mechanism 5 includes a master gear 11 on which the handle assembly 1 is mounted so as not to rotate, and a pinion gear 12 that meshes with the master gear 11.

  The master gear 11 includes a master gear shaft 10, a gear attachment portion 11a formed integrally with the master gear shaft 10, and a gear member 11b detachably attached to the gear attachment portion 11a.

  The master gear shaft 10 is a hollow stainless steel member, and both ends thereof are rotatably supported by the reel body 2a and the lid member 2d via bearings 16a and 16b. The bearings 16 a and 16 b are rolling bearings having an inner ring 20 a, an outer ring 20 b, and a ball 20 c, and are in contact with the inner ring 20 a and the outer ring 20 b of the bearings 16 a and 16 b and the outer peripheral surface of the master gear shaft 10 on the outer side in the axial direction. For example, seal rings 18a and 18b made of an elastic material such as NBR are mounted.

  The seal rings 18a and 18b are washer-like members and are mounted in close contact with seal mounting spaces 18c and 18d formed outside the bearings 16a and 16b. The inner diameters of the seal mounting spaces 18c and 18d (the outer diameters of the seal rings 18a and 18b) are smaller than the outer diameters of the bearings 16a and 16b. The axial length is slightly smaller than the thickness of the seal rings 18a, 18b. The inner peripheral edges of the seal rings 18 a and 18 b are in contact with the seal surfaces 10 e and 10 f of the master gear shaft 10. The outer diameters of the seal surfaces 10e and 10f are smaller than the outer diameter of the bearing mounting surface (the inner diameters of the bearings 16a and 16b).

  Screws 18e and 18f are screwed into the boss portions 17a and 17b inside the outer ring 20b of the bearings 16a and 16b. The seal rings 18a and 18b are pressed into the outer ring 20b in the seal mounting spaces 18c and 18d by the screws 18e and 18f, so that the seal outer periphery can be sealed and the rotation with the master gear shaft 10 is prevented. Has been. Further, since the seal surfaces 10e and 10f are smaller in diameter than the bearing mounting surface, the seal surfaces 10e and 10f are less likely to be damaged, and even if the end surface of the master gear shaft 10 is swollen by repeated mounting by screwing the handle assembly 1, The bearings 16a and 16b do not become difficult to come off. Furthermore, since the seal mounting spaces 18c and 18d are smaller in diameter than the outer ring 20b, the thrust force acting on the bearings 16a and 16b can be directly received by the reel body 2a and the lid member 2d.

  At the center of the master gear shaft 10, as shown in FIG. 5, a first through hole 10a, a first female screw portion 10b, a second through hole 10c, and a second opening that opens to the left end in order from the right end (right side in FIG. 5). The female screw portion 10d is formed concentrically along the axial direction. The axial length of the first through hole 10a is substantially the same as the axial length of the second female screw portion 10d. The diameter of the first through hole 10a is larger than that of the second female screw portion 10d, and is formed so that the second male screw portion 8b of the shaft portion 7b can be inserted. The first female screw portion 10b is a right screw that is screwed into the first male screw portion 8a of the shaft portion 7b. The axial length is slightly longer than the first male screw portion 8a. The axial length of the second through-hole 10c is formed to be substantially the same as the axial length of the first female screw portion 10b. The diameter of the second through hole 10c is larger than that of the first female screw portion 10b, and is formed so that the first male screw portion 8a can be inserted. The second female screw portion 10d is a left-hand screw that is screwed into the second male screw portion 8b of the shaft portion 7b.

  On the outer peripheral surface of the master gear shaft 10, a parallel chamfered portion 10g is formed at the gear attachment portion 11a forming position. A gear mounting portion 11a is integrally formed with the chamfered portion 10g by outsert molding. The gear attachment portion 11a is made of a zinc alloy that can be easily integrally formed with a stainless alloy. The gear attachment portion 11a has a boss portion 11c fixed to the master gear shaft 10 and a flange portion 11d formed on the outer peripheral side of the boss portion 11c. A gear member 11b is detachably attached to the flange portion 11d by a plurality of bolts 13.

  The gear member 11b is a disk-shaped member using an aluminum forged alloy in order to reduce the weight. The gear member 11b includes a disc portion 11e that is non-rotatably attached to the flange portion 11d, and a face gear portion 11f that is provided on the outer peripheral side of the disc portion 11e and meshes with the pinion gear 12.

  As shown in FIG. 2, the pinion gear 12 is a cylindrical member that is disposed along the front-rear direction and is rotatably mounted on the reel body 2a. The front portion 12 a of the pinion gear 12 passes through the center portion of the rotor 3, and is fixed to the rotor 3 by a nut 33 at this through portion. The pinion gear 12 is rotatably supported on the reel body 2a via bearings 14a and 14b at the axial intermediate portion and the rear end portion, respectively. A spool shaft 15 passes through the inside of the pinion gear 12. As shown in FIG. 6, a bearing 35 is mounted between the nut 33 and the spool shaft 15. A shaft seal 34 is mounted between the inner peripheral surface of the nut 33 and the outer peripheral surface of the spool shaft 15 in contact with the front surface of the bearing 35. The shaft seal 34 is an elastic seal member provided between the spool shaft 15 and the tip of the rotor 3 so as to be able to come into contact with both. The pinion gear 12 meshes with the master gear 11 and also meshes with the oscillating mechanism 6.

[Configuration of rotor]
As shown in FIG. 2, the rotor 3 includes a cylindrical portion 30 fixed to the pinion gear 12, first and second rotor arms 31 and 32 provided opposite to each other on the side of the cylindrical portion 30, and fishing line. And a bail arm 40 as a fishing line guide mechanism for guiding the fishing line to the spool 4. The cylindrical portion 30 and the rotor arms 31 and 32 are made of, for example, an aluminum alloy and are integrally formed. As described above, the central portion of the tip of the cylindrical portion 30 is fixed to the tip of the pinion gear 12 by the nut 33 so as not to rotate.

  A front wall 41 is formed at the front portion of the cylindrical portion 30, and a boss portion 42 is formed at the center of the front wall 41. A through hole that is locked to the pinion gear 12 so as not to rotate is formed at the center of the boss portion 42, and the front portion 12a of the pinion gear 12 and the spool shaft 15 pass through the through hole.

  The aforementioned reverse rotation prevention mechanism 50 is disposed inside the cylindrical portion 30 adjacent to the boss portion 42. As shown in FIG. 2, the reverse rotation prevention mechanism 50 operates the roller-shaped one-way clutch 51 in which an inner ring 51 a (FIG. 6) that is non-rotatably mounted on the pinion gear 12 and the one-way clutch 51 are in an operating state (reverse rotation is prohibited). A switching mechanism 52 for switching between a state) and a non-operating state (reverse rotation permission state).

  As shown in FIG. 6, a gap member 43 made of a stainless alloy is interposed between the inner ring 51a and the boss portion 42 of the rotor 3. The gap member 43 is a stepped thin cylindrical member having a large-diameter portion 43a and a small-diameter portion 43b. The large-diameter portion 43a is fitted into the outer periphery of the boss portion 42, and the small-diameter portion 43b is connected to the inner ring 51a, the pinion gear 12, and the like. It is in between. And the disc part 43c which connects the large diameter part 43a and the small diameter part 43b is pinched | interposed between the end surface of the boss | hub part 42 and the inner ring | wheel 51a.

  A shaft seal 85 with a lip is attached to the front portion of the one-way clutch 51. The tip lip of the shaft seal 85 is in contact with the outer peripheral surface of the large diameter portion 43 a of the gap member 43. Here, since the disc part 43c is sandwiched between the boss part 42 and the inner ring 51a on the inner peripheral side of the gap member 43, it is difficult for liquid to enter. Therefore, if the outer peripheral surface of the gap member 43 is sealed, the liquid is less likely to enter the gap through the gap of the one-way clutch 51. Here, the gap member 43 is provided because, when the shaft seal 85 is brought into direct contact with the boss portion 42, when the rotor 3 is fixed to the pinion gear 12, if the rotor 3 is not accurately centered, the shaft seal 85 is provided. The sealing performance with 85 becomes worse. Therefore, the sealing performance of the shaft seal 85 can be stabilized by attaching the gap member 43 and centering the shaft seal 85 in advance.

  The switching mechanism 52 has a stopper shaft 53 as shown in FIGS. The stopper shaft 53 is mounted on the reel body 2a so as to be swingable between a non-operation posture and an operation posture. As shown in FIG. 7, the stopper shaft 53 includes a stopper knob 53a that protrudes rearward through the reel body 2a for operation, a shaft portion 53b to which the stopper knob 53a is fixed, and a tip of the shaft portion 53b. And a fixed cam portion 53c. An O-ring 86 is interposed inside the stopper knob 53a mounting portion of the shaft portion 53b. The O-ring 86 is provided to prevent liquid from entering from the stopper shaft 53 into the inside. The tip of the cam portion 53c is configured to engage with the one-way clutch 51 and switch the one-way clutch 51 between the non-operating state and the operating state by the swinging of the stopper shaft 53.

[Configuration of Oscillating Mechanism]
As shown in FIG. 7, the oscillating mechanism 6 includes a screw shaft 21 that is arranged substantially in parallel below the spool shaft 15, a slider 22 that moves in the front-rear direction along the screw shaft 21, and a screw shaft 21. And an intermediate gear 23 fixed to the tip. The rear end of the screw shaft 21 is rotatably supported via a bearing 25 in a support hole (an example of a mechanism mounting hole) 2g formed in the rear portion of the reel body 2a. The support hole 2g is closed by a pressing lid 88, and a plate-like sheet packing 87 is provided at the rear portion of the reel body 2a in order to prevent liquid from entering from the gap between the pressing lid 88 and the reel body 2a. It has been. The sheet packing 87 is sandwiched between the rear portion of the reel body 2a by a pressing lid 88, and is attached to the rear portion of the reel body 2a by attaching the pressing lid 88 to the reel body 2a with screws 89. The rear part of the reel body 2a is covered with a protective cover 90.

  The slider 22 is movably supported by two guide shafts 24 arranged in parallel with the screw shaft 21. A rear end of the spool shaft 15 is fixed to the slider 22 so as not to rotate. The intermediate gear 23 meshes with the pinion gear 12.

[Spool configuration]
As shown in FIG. 2, the spool 4 is disposed between the first rotor arm 31 and the second rotor arm 32 of the rotor 3, and the center portion of the spool 4 is located at the tip of the spool shaft 15 at the drag mechanism 60. It is connected through. The spool 4 has a bobbin trunk 4a around which the fishing line is wound, a skirt 4b integrally formed at the rear part of the bobbin trunk 4a, and a flange plate 4c fixed to the front end of the bobbin trunk 4a. ing. The bobbin trunk 4 a is a cylindrical member, and the outer peripheral surface is constituted by a peripheral surface parallel to the spool shaft 15. As shown in FIG. 6, the bobbin trunk 4 a is rotatably mounted on the spool shaft 15 by two bearings 56 and 57.

  The skirt portion 4b is a bottomed cylindrical member that extends rearward after expanding in the radial direction from the rear end portion of the bobbin trunk 4a, and passes the fishing line at the beginning of winding in the vicinity of the connecting portion with the bobbin trunk 4a. For this purpose, a threading hole 93 is formed. On the outer peripheral side of the threading hole 93 on the back surface of the skirt portion 4b, a thread stop projection 92 for connecting ends of the fishing line is provided. By tying the end of the fishing line to the thread stopper projection 92, the knot at the beginning of winding of the fishing line does not occur in the bobbin trunk 4a of the spool 4. For this reason, even if a thin fishing line is wound, the fishing line does not swell at the knot portion, and the fishing line can be wound around the spool 4 in an orderly manner. As a result, abnormal noise is less likely to occur when the yarn is fed from the spool 4, and the feeding feeling is improved.

  The flange plate 4c is a ring-shaped member whose outer peripheral side is inclined forward, and is fixed to the bobbin trunk 4a by a spool ring collar 55 screwed to the inner circumferential surface of the bobbin trunk 4a.

  The spool 4 is positioned in contact with a positioning washer 54 mounted on the spool shaft 15. An elastic seal ring 91 is mounted between the positioning washer 54 and the bearing 57 in contact with the inner and outer rings of the bearing 57 and the bearing mounting portion of the spool 4. The seal ring 91 is a washer-like member and is provided to prevent liquid from entering the drag mechanism 60 from the rear portion of the spool 4.

[Configuration of drag mechanism]
The drag mechanism 60 is a mechanism that is mounted between the spool 4 and the spool shaft 15 and applies a drag force to the spool 4. As shown in FIG. 6, the drag mechanism 60 includes a knob portion 61 for manually adjusting the drag force, and a friction portion 62 composed of a plurality of disks pressed against the spool 4 by the knob portion 61. ing.

  The knob portion 61 includes a first member 63 that is provided on the spool shaft 15 so as to be non-rotatable and movable in the axial direction, a second member 64 that is disposed in front of the first member 63 in the axial direction, and is screwed to the spool shaft 15. A sound generation mechanism 65 is provided between the first member 63 and the second member 64.

  The first member 63 is a cylindrical member with a flange having a cylindrical portion 63a and a ring-shaped flange portion 63b having a larger diameter than the cylindrical portion 63a. An oblong locking hole 66 that locks the spool shaft 15 so as not to rotate is formed in the inner peripheral portion of the cylindrical portion 63a. The rear end surface of the cylindrical portion 63 a of the first member 63 contacts the friction portion 62. A seal plate 71 is installed between the cylindrical portion 63a of the first member 63 and the inner peripheral surface of the spool ring collar 55 to prevent liquid from entering the friction portion 62 from the outside. The seal plate 71 is, for example, a seal member obtained by outsert-molding an NBR dish-shaped elastic member around a stainless steel ring member, and has a lip on the outer peripheral portion. The seal plate 71 is urged to the left in FIG. A ring-shaped protrusion 71 c is formed on the left side surface of the seal plate 71 in FIG. 6. The protrusion 71c is in contact with a cover member 68, which will be described later, to prevent liquid from entering the inner periphery.

  The second member 64 is provided to face the first member 63 and be rotatable relative to the first member 63. The second member 64 has a knob main body 67 arranged side by side in front of the spool shaft 15 of the first member 63, and a distal end fixed to the outer peripheral portion of the knob main body 67 so that the first member 63 can be relatively rotated inside. And a cover member 68.

  The knob body 67 is a disk-shaped member, and a substantially trapezoidal knob 67a protruding forward is formed on the front surface. Inside the knob body 67, a nut 69 that is screwed into the tip of the spool shaft 15 is mounted so as not to rotate but to move in the axial direction. A coil spring 70 is disposed in a compressed state on the outer periphery of the spool shaft 15 between the first member 63 and the nut 69.

  The cover member 68 is a bottomed cylindrical member, and the cylindrical portion 63a of the first member 63 passes through the bottom portion of the cover member 68. Further, the protrusion 71c of the seal plate 71 is in contact with the bottom. The cylinder portion 68 a of the cover member 68 is screwed to the outer peripheral surface of the knob main body 67.

  A washer-like seal ring 72 is mounted between the bottom 68 b of the cover member 68 and the rear end surface of the cylindrical portion 63 a of the first member 63. In addition, an O-ring 73 is mounted between the tip of the cylindrical portion 68 a of the cover member 68 and the knob body 67. These seal ring 72 and O-ring 73 are both NBR elastic members, for example, to prevent liquid from entering the gap between the first member 63 and the knob body 67 of the second member 64. Is provided. When liquid enters from this gap, even if the seal plate 71 is provided, water enters the friction part 62 through the gap between the first member 63 and the spool shaft 15, and the friction part 62 gets wet and the drag force fluctuates. There are things to do.

  The friction portion 62 includes a first disk 101 that contacts the first member 63, a second disk 102 that contacts the first disk 101 with a felt member interposed therebetween, and a drag sound that contacts the second disk 102 with the felt member interposed therebetween. And a mechanism 103. The inner periphery of the first disk 101 is locked to the spool shaft 15 and rotates together with the spool shaft 15. The outer periphery of the second disk 102 is locked to the spool 4 and rotates together with the spool 4. The drag sound generation mechanism 103 generates sound when the spool shaft 15 and the spool 4 are rotated relative to each other, that is, when the drag is operated.

[Reel operation and operation]
In this spinning reel, the bail arm 40 is brought down to the yarn releasing posture when the yarn is fed out during casting or the like. As a result, the fishing line is fed out in order from the front end side of the spool 4 due to its own weight.

  At the time of yarn winding, the bail arm 40 is returned to the yarn winding posture side. When the handle assembly 1 is rotated in the yarn winding direction, this is automatically performed by the action of a bale reversing mechanism (not shown). The rotational force of the handle assembly 1 is transmitted to the pinion gear 12 via the master gear shaft 10 and the master gear 11. The rotational force transmitted to the pinion gear 12 is transmitted from the front part to the rotor 3 and is transmitted to the oscillating mechanism 6 by the intermediate gear 23 that meshes with the pinion gear 12. As a result, the rotor 3 rotates in the yarn winding direction and the spool 4 reciprocates back and forth.

  When fishing, waves can get on the reel and the reel can get wet. Also in this case, since the seal plate 71, the seal ring 72, and the O-ring 73 are attached to the drag mechanism 60 and the seal ring 91 is attached to the spool 4, water is applied to the friction portion 62 from the front portion and the rear portion. Hard to invade. For this reason, once the drag force is adjusted, the drag force is less likely to fluctuate due to water wetting.

  Further, the seal rings 18a and 18b, the shaft seal 34, the liquid gasket 80, the waterproof seal 81, the seal ring 82, the shaft seal 85, the O-ring 86, and the seal plate are formed in the gap between the reel body 2a and the moving member, the fixed member, and the structural member. Since a sealing member such as 87 is provided, it is possible to prevent liquid from entering the internal mechanism mounting space. This makes it difficult for seawater or the like to enter the inside, and makes it difficult for salt crystals to precipitate in the gear, guide portion, bearing interior, or the like.

[Other Embodiments]
In the previous SL embodiment, the front drag type spinning reel was described as an example, the waterproof structure of all spinning reels, such as spinning reel spinning reel or a lever drag type without a spinning reel and drag rear drag type The invention is applicable .

The right view of the spinning reel which employ | adopted one Embodiment of this invention. The left side sectional view. FIG. The exploded perspective view of a reel main part. The cross-sectional enlarged view of a master gear. The cross-sectional enlarged view of a reel front part. The cross-sectional enlarged view of the reel rear part.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Handle assembly 2 Reel body 2a Reel body 2c Opening 2d Lid member 2e 1st flange part 2f 2nd flange part 3 Rotor 15 Spool shaft 16a, 16b, 35 Bearing 18a, 18b Seal ring 20a Inner ring 20b Outer ring 20c Ball 34 Shaft seal 50 Reverse rotation prevention mechanism 51 One-way clutch 52 Operation mechanism 53 Stopper shaft 80 Liquid gasket 81 Waterproof seal 82 Seal ring,
85 shaft seal,
86 O-ring 87 Sheet packing 88 Holding lid

Claims (1)

A spinning reel waterproof structure for preventing liquid from entering the mechanism storage space formed inside the reel body of the spinning reel,
An elastic seal member provided between the spool shaft rotatably mounted on the reel body and the front end of the rotor rotatably mounted on the reel body so as to be able to contact both ;
The seal member is in contact with the front surface of the bearing mounted between the nut fixed to the tip of the rotor and the spool shaft, the inner peripheral surface of the nut, and the outer peripheral surface of the spool shaft. Arranged,
The bearing is a rolling bearing having an outer ring attached to the nut, an inner ring attached to the spool shaft, and a rolling element that is pinched and rolled between the outer ring and the inner ring,
The spinning reel waterproof structure , wherein the seal member is in contact with the outer peripheral surface of the spool shaft at a position separated forward from the inner ring .

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