JP2004180530A - Reel for fishing - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a reel for fishing ensuring waterproofness of a drag mechanism without increasing the size of the reel and without causing trouble in free rotation performances of a spool. <P>SOLUTION: The reel 1 for fishing is characterized as follows. The reel is equipped with a cylindrical part 23 formed on one side of the spool 2 and a cover member 24 mounted and fixed on the cylindrical part 23. The drag mechanism is surrounded with the cylindrical part 23, the cover member 24 and a brake annular body 31B arranged on the inside in the diametral direction of the cover member 24. Waterproof walls 23a, 28 and 31Bb for checking water entered from a space between the spool 2 and a reel body 1a and preventing the penetration of the water into the drag mechanism are formed, respectively in the cover member 24 and a brake annular body 31B. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a fishing reel.
[0002]
[Prior art]
A drag mechanism that applies a braking force (drag force) to the rotation of the spool rotatably supported between side plates of the reel body by displacing the spool shaft in the axial direction by an operation member provided on one side of the reel body. (Brake mechanism) is well known in the art.
[0003]
Specifically, such a drag mechanism is provided on one side of the spool and has an annular brake body that rotates integrally with the spool. A reel-side braking ring that does not move in the axial direction (when the braking force is adjusted) and a spool-side braking ring that is stopped on the spool shaft and moves in the axial direction when the braking force is adjusted. When the spool shaft is displaced in the axial direction by the rotation operation of the operation member provided on the side, the brake body is pinched between the spool-side brake ring and the main body-side brake ring, and the rotation of the spool rotates. (See, for example, Patent Document 1). The braking force can be adjusted by changing the amount of rotation of the operation member.
[0004]
[Patent Document 1]
JP-A-2-87468 (FIG. 1)
[0005]
[Problems to be solved by the invention]
By the way, in such a fishing reel, it is necessary to waterproof the drag mechanism in order to obtain a smooth braking action. For example, in Patent Document 1, a cylindrical waterproof cover surrounding a drag mechanism is fixed to an outer peripheral edge of a flange formed on one side of a spool, and a protruding end of the waterproof cover is attached to a side plate of a reel body. The drag mechanism provided on one side of the spool is waterproofed by being fitted into an annular narrow groove provided inside the spool.
[0006]
However, when the waterproof cover integrated with the spool is fitted into the narrow groove inside the side plate of the reel body, the following several problems occur.
[0007]
That is, first, at the time of the braking force adjustment, the spool also slightly moves in the axial direction due to the clamping pressure of the braking ring accompanying the axial movement of the spool shaft, so that the depth of the narrow groove formed inside the side plate is reduced. Is necessary not only for the amount of fitting of the waterproof cover but also for the amount of movement of the waterproof cover that moves in the axial direction integrally with the spool. Therefore, the thickness of the side plate increases, and the reel becomes larger and heavier. In addition, if the thickness of the side plate is maintained, the strength of the side plate decreases with the depth of the narrow groove.
[0008]
Secondly, since the waterproof cover is merely fitted into the narrow groove, water that has entered from the outer periphery of the spool flange (gap between the flange and the reel body) is transmitted along the inner surface of the side plate. And flows along the waterproof cover fitted in the narrow groove, and easily enters the drag mechanism.
[0009]
Third, the water transmitted along the inner surface of the side plate forms a water film in the narrow groove, and thus affects the rotation of the spool that rotates integrally with the waterproof cover fitted in the narrow groove. Smooth free rotation performance may not be obtained.
[0010]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide waterproofing of the drag mechanism without increasing the size of the reel and without impairing the free rotation performance of the spool. An object of the present invention is to provide a fishing reel that can be reliably mounted.
[0011]
[Means for Solving the Problems]
In order to solve the above problems, a fishing reel of the present invention includes a spool shaft provided between side plates of a reel body, a spool rotatably supported with respect to the spool shaft, and one side of the spool. The spool is rotated by pressing a brake body, which rotates integrally with the spool, along with an axial displacement of the spool shaft against a brake ring body that rotates integrally with the spool shaft. A drag mechanism that applies a braking force to the spool, a tubular portion formed on one side of the spool, and a cover member attached and fixed to the tubular portion, the tubular portion, the cover member, The drag mechanism is surrounded by the brake ring disposed radially inside the cover member, and the cover member and the brake ring are respectively intruded from between the spool and the reel body. And blocked the water, characterized in that the waterproof wall is formed to prevent the entry of water into the drag mechanism.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0013]
FIG. 1 shows a fishing reel (double-bearing type reel) 1 according to an embodiment of the present invention. The reel 1 has a spool 2 around which a fishing line is wound, and a handle 50 for rotating the spool 2 in a fishing line winding direction. The spool 2 has a cross-sectional shape via bearings 4A and 4B. Are rotatably supported by the circular spool shaft 4. The spool shaft 4 is rotatably supported by the reel body 1a via bearings 6 and 8, and can slide (displace) along its axial direction. Specifically, the reel body 1a has left and right side plates 10A and 10B fastened to the reel body 1a. One end of the spool shaft 4 (left side in the figure... , And the other end of the spool shaft 4 (right side in FIG. 1... Handle side) is supported by a bearing 8 provided on the right side plate 10B. A collar 39 through which the spool shaft 4 passes is interposed between the bearings 4A and 4B.
[0014]
On the other end of the spool shaft 4, a small-diameter high-speed pinion gear 20 is formed, and a large-diameter low-speed pinion gear 22 is mounted. In this case, the low-speed pinion gear 22 is non-rotatably fitted to the spool shaft 4 via a pin 40 that passes through the spool shaft 4 in a direction perpendicular to the axial direction. Therefore, these pinion gears 20 and 22 can rotate integrally with the spool shaft 4.
[0015]
One side of the spool 2 is provided with a braking unit of a drag mechanism. The braking portion of the drag mechanism includes an annular drag washer (braking body) 2A integrally attached to the spool 2 and a frictional engagement with the spool 2 via one end of the spool shaft 4 and the drag washer 2A. And a pressing portion 30 that presses the spool 2 in the axial direction. The pressing portion 30 has a pair of drag pressing members (braking rings) 31A and 31B located on both sides of the drag washer 2A. The drag pressing members 31A and 31B are formed in an annular shape, are fitted around the spool shaft 4 and are fitted to the spool shaft 4 via the lining members 31a and 31b. Friction contact (pressure contact) can be made.
[0016]
As will be described later, one of the first drag pressing members 31A (the right side in the drawing) that comes into frictional contact with the drag washer 2A from the spool 2 side moves in the axial direction with the axial displacement of the spool shaft 4, and the other. The second drag pressing member 31B (on the left side in the figure) does not move in the axial direction with the axial displacement of the spool shaft 4.
[0017]
One end (one side) of the spool shaft 4 is formed as a non-circular portion 44 having a non-circular cross-sectional shape. The second drag pressing member 31B has an opening (inner hole) 31Ba having the same shape as the non-circular portion 44 of the spool shaft 4. By fitting the non-circular portion 44 of the spool shaft 4 into the opening 31Ba of the second drag pressing member 31B, the second drag pressing member 31B is prevented from rotating with respect to the spool shaft 4.
[0018]
The first drag pressing member 31A is fitted to the outer periphery of the circular cross section of the spool shaft 4 through the circular inner hole 31Aa, and the spool shaft 4 is inserted through a pin (locking projection) 42. Is prevented from rotating. In this case, the pin 42 is provided in the axial direction along with the non-circular portion 44 as the first detent portion, and penetrates the spool shaft 4 in a direction orthogonal to the axial direction and extends radially outward. It protrudes, and its protruding portion is locked in the locking groove 31Ab of the first drag pressing member 31A.
[0019]
A compression spring 36 for urging the drag pressing members 31A and 31B in a direction to separate them from the drag washer 2A is interposed. The compression spring 36 urges the first drag pressing member 31A toward the bearing 4A and the second drag pressing member 31B toward the bearing 6 (the lining members 31a, 31b from the drag washer 2A). Are separated from each other).
[0020]
Further, in the fishing reel 1 of the present embodiment, the braking portion of the drag mechanism is waterproofed in order to obtain a smooth braking action. Specifically, as shown in an enlarged manner in FIG. 2, a cylindrical portion 23 formed on one side of the spool 2, a cover member 24 attached and fixed to the cylindrical portion 23, and a diameter of the cover member 23. The braking portion of the drag mechanism is surrounded by the second drag pressing member 31B located on the inner side in the direction.
[0021]
In this case, the cylindrical portion 23 is formed as a cylindrical cover extending from the outer peripheral edge of the flange of the spool 2 substantially parallel to the spool shaft 4 toward the left side plate 10A, and covers the braking portion of the drag mechanism from above. ing. In addition, a concave annular groove 23b that forms a water escape passage is provided on the outer peripheral surface of the cylindrical portion 23. Further, an annular first waterproof wall (flange) 23 a protruding radially outward from the outer peripheral surface of the cylindrical portion 23 is formed at an extending end of the cylindrical portion 23.
[0022]
The cover member 24 extends radially outward and contacts the extended end surface of the cylindrical portion 23, and the cover member 24 extends radially inward and extends in a lateral direction of a second drag pressing member 31B described later. It has an inner extending portion 24d opposed to and close to the existing portion 31Bc, and a tubular lateral extending portion 24e inserted between the tubular portion 23 and the second drag pressing member 31B. , The braking portion of the drag mechanism is mainly covered from the side. In this case, the male screw 27 formed on the outer peripheral surface of the laterally extending portion 24 e is screwed with the female screw 29 formed on the inner peripheral surface of the tubular portion 23. In addition, a step is provided on the outer surface of the cover member 24 between the outer extending portion 24c and the inner extending portion 24d, and the second waterproof wall 28 is formed by the step. Further, on the outer surface of the cover member 24, a concave annular groove 26 forming a water escape passage is provided adjacent to the second waterproof wall 28.
[0023]
The second drag pressing member 31 </ b> B extends substantially parallel to the spool shaft 4 toward the left side plate 10 </ b> A, and extends in a cylindrical lateral direction facing the end face of the inner extension 21 d of the cover member 24. It has a portion 31Bc. The outer peripheral edge of the second drag pressing member 31B facing the side extending portion 24e of the cover member 24 extends toward the inner extending portion 24d of the cover member 24, and An annular third waterproof wall 31Bb that is close to and opposes is formed.
[0024]
The waterproof walls 23a, 28, 31Bb and the grooves 23b, 26 form a labyrinth structure (a large number of uneven portions are continuously formed) in cooperation with the cylindrical portion 23, the cover member 24, and the second drag pressing member 31B. (See FIG. 3), and water that enters through a gap between the spool 2 and the reel body 1a is blocked in multiple stages to prevent water from entering the control unit of the drag mechanism, as described later. To prevent. In the lower part of the left side plate 10A, the water that has been blocked by the waterproof walls 23a, 28, 31Bb or escaped by the grooves 23b, 26 and has flowed down from the surrounding wall is discharged to the outside of the reel body 1a. Outlet 90 is provided (see FIG. 1).
[0025]
On the other end side of the spool shaft 4 where the handle 50 is located, an operation section 60 of a drag mechanism is provided. With this operation unit 60, the drag mechanism can move the spool shaft 4 in the axial direction, and apply a braking force to the rotation of the spool 4 in the fishing line payout direction by the braking unit.
[0026]
The operation unit 60 has a drag lever 61 as a lever-shaped adjuster that is mounted on the right side plate 10B so as to be rotatable in the front-rear direction and that operates the cam mechanism 62. As is well known, the cam mechanism 62 includes a cam portion that rotates integrally with the drag lever 61 and a slide portion that is coupled to the spool shaft 4 and slides in the axial direction with the rotation of the cam portion. When the cam portion rotates with the forward rotation of 61, the slide portion slides in the axial direction to move the spool shaft 4 in the axial direction toward the side opposite to the handle. In other words, the braking force can be adjusted to a greater or lesser degree by a turning operation of the drag lever 61 in the front-rear direction, as described later.
[0027]
A cylindrical handle shaft 84 rotated by the handle 50 is rotatably supported by the right side plate 10B. In this case, the handle shaft 84 is rotatably and removably inserted into a support cylinder 82 attached and fixed to the right side plate 10B. The distal end of the handle shaft 84 is supported by a bearing disposed in the reel body 1a. In addition, a low-speed gear 86 whose external teeth mesh with the low-speed pinion gear 22 and a high-speed gear 85 whose external teeth mesh with the high-speed pinion gear 20 are rotatably supported on the inner extending portion of the right side plate 10B. . In this case, the distal end of the handle shaft 84 extends so as to pass through the center of the gears 85 and 86.
[0028]
A gear 87 is formed at the tip of the handle shaft 84. When the handle shaft 84 advances and retreats in the axial direction, the gear 87 has a first position (the position shown in FIG. 1) in which the internal teeth of the high-speed gear 85 are engaged, and a second position in which the internal teeth of the low-speed gear 86 are engaged. Can move between. The handle shaft 84 is provided with a positioning mechanism for positioning the gear 87 between the first position and the second position. This positioning mechanism includes a ball 81 provided on the handle shaft 84 and capable of protruding and retracting through an opening formed on the outer peripheral surface of the handle shaft 84, and a pair of balls 81 formed on the inner peripheral surface of the support cylinder 82 and engaged with the ball 81. , And a push rod 80 that is inserted into the handle shaft 84 so as to be able to advance and retreat, and that controls the projecting and retracting operation of the ball 81. In this case, the pair of engagement grooves 82a and 82b are separated from each other by a predetermined distance (specifically, substantially equal to the distance between the first position and the second position) in the longitudinal direction of the handle shaft 84. Is located. The push rod 80 is formed on a large diameter portion 80 a having an outer diameter set so as to contact the ball 81 and protrude the ball 81 from the outer peripheral surface of the handle shaft 84 by a predetermined amount, and is formed on the hand side of the rod 80. The ball 81 is formed between the large diameter portion 80a and the small diameter portion 80b, and the ball 81 is formed between the large diameter portion 80a and the small diameter portion 80b so that the ball 81 can be completely immersed in the handle shaft 84. And a tapered portion 80c for guiding between the small diameter portion 80b. A compression spring 83 is provided in the handle shaft 84. The compression spring 83 is interposed between the handle shaft 84 and the push rod 80, and constantly biases the push rod 80 in a direction in which the ball 81 and the large diameter portion 80a of the push rod 80 come into contact. In this case, the push rod 80 is brought into contact with a cover 89 provided so as to close the opening on the hand side of the handle shaft 84 by the urging force of the compression spring 83. An operation knob 80d is formed at an end of the push rod 80.
[0029]
Next, the operation of the fishing reel 1 configured as described above will be described.
[0030]
First, when the handle 50 is rotated in the fishing line winding direction, the handle shaft 84 rotates, and the high-speed gear 85 or the low-speed gear 86 meshing with the gear 87 of the handle shaft 84 rotates. In addition, in the state of FIG. 1, the gear 87 is engaged with the high-speed gear 85, so that the high-speed gear 85 rotates. When the high-speed gear 85 rotates, the spool shaft 4 rotates at high speed via the high-speed pinion gear 20 that meshes with the high-speed gear 85.
[0031]
Here, when it is desired to rotate the spool shaft 4 at a low speed, first, the push rod 80 is pushed in against the urging force of the compression spring 83. When the push rod 80 is pushed in, the portion of the push rod 80 that is in opposition to the ball 81 moves from the large-diameter portion 80a to the small-diameter portion 80b. 1 is brought into contact with the small diameter portion 80b by the guide of the tapered portion 80c from the state shown in FIG. Therefore, the handle shaft 84 can be pushed into the support cylinder 82. Thereafter, in this state, when the pressing force on the push rod 80 is released while the entire handle shaft 84 is slid into the support cylinder 82, the ball 81 is opposed to the second engagement groove 82a. The urging force of the compression spring 83 pushes (projects) the large-diameter portion 80a of the push rod 80 and engages with the second engagement groove 82a. At this time, the gear 87 of the handle shaft 84 is moved to the distal end side (moved from the first position to the second position) as the handle shaft 84 slides, and meshes with the internal teeth of the low-speed gear 86. Therefore, when the handle 50 is rotated in the fishing line winding direction in this state, the handle shaft 84 is rotated, and the low-speed gear 86 meshing with the gear 87 of the handle shaft 84 is rotated. As a result, the spool shaft 4 rotates at a low speed.
[0032]
When the spool shaft 4 rotates in this way, the drag pressing members 31A and 31B fitted to the spool shaft 4 so as to rotate are also rotated. At this time, when the drag lever 61 is located in the state shown in FIG. 1, the spool shaft 4 is not moved in the axial direction from its basic position, so that both the drag pressing members 31A and 31B, the drag washer 2A and Between them, a certain clearance is formed by the action of the compression spring 36. Therefore, the spool 2 can rotate freely, and the fishing line wound around the spool 2 can be freely fed without giving any resistance.
[0033]
When the drag lever 61 is rotated forward by a predetermined amount from the state shown in FIG. 1, the spool shaft 4 is moved in the axial direction (left side in FIG. 1... When the spool shaft 4 is moved in the axial direction toward the side opposite to the handle, the first drag pressing member 31A is also pushed out by the bearing 4B, the collar 39, the bearing 4A and the like, and resists the urging force of the compression spring 36. After moving in the axial direction and pressing one side surface of the drag washer 2A, the drag washer 2A is sandwiched between the lining material 31b and the lining material 31a of the second drag pressing member 31B that does not move in the axial direction. I do. Thus, the lining material 31a of the first drag pressing member 31A presses one side surface of the drag washer 2A, and the other end surface of the drag washer 2A contacts the lining material 31b of the second drag pressing member 31B (drag). In a state where the washer 2A is sandwiched between the lining members 31a and 31b), the spool 2 rotates together with the spool shaft 4 by a predetermined drag force caused by frictional contact with the drag pressing member 31A. Further, at this time, if a predetermined tension exceeding the drag force acts on the fishing line due to the hanging of the hooked fish or the like, the spool 2 can rotate in the fishing line payout direction.
[0034]
When the drag lever 61 is further rotated forward from the above state, and the spool shaft 4 is further moved in the axial direction, the compression spring 36 is further compressed and the two drag pressing members of the drag washer 2A are moved. The clamping pressure between 31A and 31B further increases. Then, finally, when the drag lever 61 is rotated to the end position, the clamping pressure reaches the maximum. In this state, the drag force acting on the spool 2 further increases, and the spool 2 is completely frictionally coupled to the spool shaft 4 and rotates integrally with the spool shaft 4 without slipping. That is, the spool 4 cannot rotate in the fishing line payout direction, and the winding operation under a heavy load state becomes possible.
[0035]
If such a winding operation is performed, water may enter the reel body 1a through a gap between the outer periphery of the flange on one side of the spool 2 and the reel body 1a. The water is prevented from reaching the braking part of the drag mechanism by the surrounding wall of the labyrinth structure. Hereinafter, this will be described with reference to FIG.
[0036]
In FIG. 2, a dashed-dotted arrow indicates a path through which water that has entered the reel body 1a through a gap between the outer periphery of the spool 2 and the reel body 1a can be traced. First, when water enters through a gap between the spool 2 and the reel body 1a, it is first captured by the groove 23b and released along the groove 23b. The escaped water finally falls from the tubular portion 23 and is discharged from the discharge port 90.
[0037]
Further, the water that has entered over the groove 23b is blocked by the first waterproof wall 23a and returned to the groove 23b again. Therefore, the water is discharged following the same path as the water first captured in the groove 23b.
[0038]
The water that has flowed over the first waterproof wall 23a flows along the outer surface of the cover member 24, but is blocked by the second waterproof wall 28 existing there, and flows into the groove 26. . Then, the water captured in the groove 26 is released along the groove 26, and finally falls from the cover member 24 and is discharged from the discharge port 90.
[0039]
In addition, the water flowing over the second waterproof wall 28 falls to the laterally extending portion 31Bc of the second drag pressing member 31B. Here, the water that is going to flow to the drag mechanism side is blocked by the last third waterproof wall 31Bb, finally falls from the second drag pressing member 31B, and is discharged from the discharge port 90. .
[0040]
As described above, the fishing reel 1 of the present embodiment includes the tubular portion 23 formed on one side of the spool 2 and the cover member 24 attached to and fixed to the tubular portion 23. The portion 23, the cover member 24, and the second drag pressing member 31B surround the braking portion of the drag mechanism, and the cylindrical portion 23, the cover member 24, and the second drag pressing member 31B respectively Waterproof walls 23a, 28, and 31Bb are formed to block water that has entered from between the reel mechanism 1a and the reel unit 1a to prevent water from entering the braking unit of the drag mechanism. In particular, in this embodiment, waterproof walls 23a, 28, 31Bb and grooves 23b, 26 are formed in the cylindrical portion 23, the cover member 24, and the second drag pressing member 31B to form a labyrinth structure (a large number of uneven portions are formed). (A continuously formed structure) so as to block water entering from a gap between the spool 2 and the reel body 1a in multiple stages. In this way, the labyrinth structure that blocks the path of the invading water in multiple stages is a very simple waterproof structure that does not require sealing members such as packing or rubber, so that the reel body can be enlarged or spool free performance can be improved. The drag mechanism can be reliably waterproofed without causing any trouble.
[0041]
FIG. 3 shows a first modification of the above-described embodiment. As shown in the drawing, in this modification, an axially extending portion 72 extending toward the left side plate 10A substantially in parallel with the spool shaft 4 is formed integrally with the first waterproof wall 23a. That is, the first waterproof wall 23a protrudes radially outward from the outer peripheral surface of the cylindrical portion 23 and also protrudes in the axial direction. The outer peripheral end surface of the outer extending portion 24c of the cover member 24 is in contact with the axially extending portion 72. The other configuration is the same as that of the above-described embodiment.
[0042]
As described above, in the present modification, the first waterproof wall 23a extends in the axial direction and the cover member 24 is disposed inside the tubular portion 23, so that water enters the screws 27 and 29. Can be prevented.
[0043]
FIG. 4 shows a second modification of the above-described embodiment. As shown in the drawing, in this modification, the first waterproof wall is not formed in the tubular portion 23, and instead, the outer peripheral edge 24 a of the outer extending portion 24 c of the cover member 24 is It projects radially outward from the outer surface, and a first waterproof wall is formed by the projected outer peripheral edge 24a. The other configuration is the same as that of the above-described embodiment. With such a configuration, the same operation and effect as those of the above-described embodiment can be obtained.
[0044]
FIG. 5 shows a third modification of the above-described embodiment. As shown, in this modification, the first waterproof wall 23a (or 24a) is not provided. Instead, a further hook-shaped waterproof wall extending axially and radially outward is provided on the inner end edge of the inner extending portion 24d of the cover member 24 facing the lateral extending portion 31Bc of the second drag pressing member 31B. 75 are formed. The other configuration is the same as that of the above-described embodiment. Even with such a configuration, it is possible to obtain substantially the same operation and effect as in the above-described embodiment.
[0045]
It is needless to say that the present invention is not limited to the above-described embodiments and modified examples, but can be variously modified without departing from the gist thereof. For example, in the above-described embodiment, the drag washer 2A is nipped by the first and second drag pressing members 31A and 31B. However, the braking force is reduced by pressing the drag washer 2A against one drag pressing member. The braking mechanism in the drag mechanism, for example, is such that a braking body that rotates integrally with the spool along with the axial displacement of the spool shaft is pressed against a braking ring that is provided so as to rotate integrally with the spool shaft. As long as there is a certain form, any form may be used.
[0046]
【The invention's effect】
As described above, according to the fishing reel of the present invention, the drag mechanism can be reliably waterproofed without increasing the size of the reel and without impairing the free rotation performance of the spool. it can.
[Brief description of the drawings]
FIG. 1 is a sectional view of a fishing reel according to an embodiment of the present invention.
FIG. 2 is an enlarged sectional view of a main part of the fishing reel of FIG. 1;
FIG. 3 is an enlarged sectional view of a main part of a fishing reel according to a first modified example.
FIG. 4 is an enlarged sectional view of a main part of a fishing reel according to a second modification.
FIG. 5 is an enlarged sectional view of a main part of a fishing reel according to a third modification.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Double-bearing type fishing reel 1a ... Reel main body 2 ... Spool 2A ... Drag washer (braking body)
4 Spool shafts 10A, 10B Side plates 23 Cylindrical parts 23a, 24a, 28, 31Bb, 75 Waterproof walls 24 Cover members 31A, 31B Braking ring

Claims (1)

A spool shaft provided between the side plates of the reel body,
A spool rotatably supported with respect to the spool shaft,
By pressing a brake body provided on one side of the spool and rotating integrally with the spool with an axial displacement of the spool shaft, against a brake ring provided on the spool shaft so as to rotate integrally therewith. A drag mechanism for applying a braking force to the rotation of the spool;
A cylindrical portion formed on one side of the spool;
A cover member attached and fixed to the cylindrical portion,
With
The cylindrical portion, the cover member, and the braking ring disposed radially inside the cover member surround the drag mechanism,
Waterproof walls are formed on the cover member and the braking ring, respectively, for blocking water that has entered between the spool and the reel body and preventing water from entering the drag mechanism. A fishing reel characterized by the following.

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