JP6261973B2 - Spinning reel - Google Patents

Description

  The present invention relates to a spinning reel.

  The spinning reel includes a rotor and a spool, and a fishing line is wound around the spool as the rotor rotates. The spinning reel further includes a one-way clutch so that the rotor does not rotate reversely, that is, the rotor does not rotate in the direction in which the fishing line is fed out (see, for example, Patent Document 1).

  Specifically, the rotor rotates integrally with the pinion gear. The one-way clutch is configured to transmit power in one direction between the reel body and the pinion gear. When the pinion gear is rotated in the fishing line feeding direction, the one-way clutch transmits power between the pinion gear and the reel body. As a result, the pinion gear and the rotor do not rotate in the line feeding direction. On the other hand, when trying to rotate the pinion gear in the direction of winding the fishing line, the one-way clutch does not transmit power between the pinion gear and the reel body. As a result, the pinion gear and the rotor rotate in the fishing line winding direction.

JP 2000-83333 A

  If water or the like enters the one-way clutch configured as described above, the one-way clutch rotates slowly and the rotor cannot be rotated smoothly in the direction of winding the fishing line, or slipping occurs in the one-way clutch, and There arises a problem that the function of preventing the reverse rotation cannot be sufficiently performed.

  An object of the present invention is to reliably prevent water from entering a one-way clutch.

  A spinning reel according to an aspect of the present invention is a spinning reel that feeds a fishing line forward. The spinning reel includes a reel main body, a spool shaft, a rotating member, a one-way clutch, a first seal member, and a second seal member. The spool shaft is provided on the reel body. The rotating member has a pinion gear. The pinion gear is provided on the reel body and is arranged to be rotatable around the spool shaft. The one-way clutch is configured to transmit power in one direction between the reel body and the pinion gear. The first seal member prevents water from entering the one-way clutch in front of the one-way clutch. The second seal member prevents water from entering the one-way clutch in front of the first seal member. The second seal member has a facing surface that faces the rotating member at an interval. The opposing surface has a first opposing surface and a second opposing surface. The first facing surface and the second facing surface extend in different directions.

  According to this configuration, in addition to the first seal member, the second seal member also prevents water intrusion into the one-way clutch, so water intrusion into the one-way clutch can be more reliably prevented. Moreover, since the 2nd seal member is arrange | positioned at intervals with a rotation member, a 2nd seal member does not prevent rotation of a rotation member, and a rotation member can rotate smoothly.

  The first and second opposing surfaces extend in different directions. Therefore, the first gap defined by the rotating member and the first facing surface and the second gap defined by the rotating member and the second facing surface extend in different directions. As a result, it is possible to prevent water and the like from entering through the first and second gaps.

  Preferably, the first facing surface extends along the rotation axis direction of the rotating member, and the second gap extends along the radial direction of the rotating member. In this way, the so-called labyrinth structure is formed by the first gap between the first facing surface and the rotating member and the second gap between the second facing surface and the rotating member, thereby preventing water and the like from entering more. Can do.

  Preferably, a 1st opposing surface is comprised by the 1st internal peripheral surface of the 2nd seal member which opposes the outer peripheral surface of a rotation member at intervals.

  Preferably, a 2nd opposing surface is comprised by the front surface of the inner peripheral side edge part of the 2nd seal member which opposes the rear surface of a rotation member at intervals.

  Preferably, the rotating member further includes a cylindrical member that rotates integrally with the pinion gear.

  Preferably, the opposing surface further includes a third opposing surface extending in a direction different from the second opposing surface. According to this structure, it can suppress more effectively that water permeates through the clearance gap between a 2nd seal member and a rotation member.

  Preferably, the third facing surface extends in the rotation axis direction of the rotating member.

  Preferably, the second seal member has a protruding portion protruding forward. A protrusion part is formed over the perimeter in an inner peripheral side edge part. The second facing surface is constituted by the front surface of the protruding portion. The third facing surface is constituted by the outer peripheral surface of the protruding portion. The outer peripheral surface of the protrusion is opposed to the second inner peripheral surface of the rotating member.

  Preferably, at least one of the first facing surface of the second seal member and the outer peripheral surface of the rotating member has water repellency. According to this structure, it can suppress more effectively that water permeates through the clearance gap between a 2nd seal member and a rotation member.

  Preferably, the first seal member has a third inner peripheral surface facing the outer peripheral surface of the rotating member with a space therebetween. At least one of the third inner peripheral surface and the outer peripheral surface of the rotating member has water repellency. According to this configuration, according to this configuration, since the third inner peripheral surface of the first seal member is spaced from the outer peripheral surface of the rotating member, the first seal member may prevent the rotating member from rotating. In addition, the rotating member can rotate smoothly. Since at least one of the third inner peripheral surface of the first seal member and the outer peripheral surface of the rotating member has water repellency, a gap between the third inner peripheral surface of the first seal member and the outer peripheral surface of the rotating member. It is possible to suppress the intrusion of water or the like through

  Preferably, the first boundary portion between the third inner peripheral surface of the first seal member and the outer peripheral surface of the rotating member is a radial position relative to the second boundary portion between the first opposing surface and the outer peripheral surface of the rotating member. Is different.

  Preferably, the 1st boundary part is located in the diameter direction inside rather than the 2nd boundary part.

  Preferably, the spinning reel further includes a receiving member. The housing member has a housing space that opens forward. The housing member is fixed to the reel body. The one-way clutch is disposed in the accommodation space.

  The housing member may be formed integrally with the reel body.

  Preferably, the spinning reel further includes a lid member. The lid member has a fourth inner peripheral surface facing the outer peripheral surface of the rotating member with a space therebetween. The lid member is disposed in front of the housing member. The first seal member is configured to seal a gap between the lid member and the rotating member.

  According to the present invention, it is possible to reliably prevent water from entering the one-way clutch.

Sectional drawing of a spinning reel. The exploded view which shows each member arrange | positioned ahead of the reel main body. The expanded sectional view of a spinning reel. The exploded view which shows a cover member and a 1st seal member. The exploded view which shows a cylindrical member and a 2nd seal member.

  Hereinafter, embodiments of a spinning reel according to the present invention will be described with reference to the drawings. FIG. 1 is a cross-sectional view of the spinning reel 100. In the following description, the axial direction (an example of the rotational axis direction of the rotating member) indicates the direction in which the spool shaft 2 extends, and the radial direction (an exemplary radial direction of the rotating member) is centered on the spool shaft 2. The radial direction of the circle is indicated, and the circumferential direction indicates the circumferential direction of the circle around the spool shaft 2. Moreover, the direction (left direction of FIG. 1) which feeds a fishing line is called the front, and the reverse direction (right direction of FIG. 1) is called back.

  As shown in FIG. 1, the spinning reel 100 feeds the fishing line forward (to the left in FIG. 1). The spinning reel 100 includes a reel body 1, a spool shaft 2, a pinion gear 3, a housing member 4, a one-way clutch 5, a lid member 6, a cylindrical member 7, a first seal member 8, and a second seal member 9. . The rotating member of the present invention has a pinion gear 3 and a cylindrical member 7. The spinning reel 100 further includes a rotor 11, a spool 12, and a handle 13.

  The reel body 1 has an internal space and accommodates various mechanisms in the internal space. For example, the drive gear 14 and the oscillating mechanism 15 are accommodated in the reel body 1. A handle 13 is rotatably attached to the side surface of the reel body 1.

  By rotating the handle 13, the drive gear 14 is rotated. The drive gear 14 is a face gear and meshes with the gear portion 31 of the pinion gear 3. The oscillating mechanism 15 is a mechanism that reciprocates the spool shaft 2 in the axial direction.

  The spool shaft 2 is provided on the reel body 1. Specifically, the spool shaft 2 extends forward from the reel body 1. The spool shaft 2 reciprocates in the front-rear direction by rotating the handle 13. Specifically, the rotation of the handle 13 causes the spool shaft 2 to reciprocate in the front-rear direction via the drive gear 14 and the oscillating mechanism 15.

  The spool 12 is a member around which a fishing line is wound. The spool 12 is attached to the tip end portion of the spool shaft 2 via a drag mechanism 16. The spool 12 reciprocates in the front-rear direction integrally with the spool shaft 2.

  The pinion gear 3 is provided on the reel body 1. Specifically, the pinion gear 3 extends forward from the reel body 1. The pinion gear 3 is disposed so as to be rotatable around the spool shaft 2. The pinion gear 3 is formed in a cylindrical shape, and the spool shaft 2 extends inside the pinion gear 3. The pinion gear 3 is supported by the reel body 1 through a plurality of bearings so that the inner peripheral surface of the pinion gear 3 and the outer peripheral surface of the spool shaft 2 do not contact each other.

  The pinion gear 3 has a gear part 31 and an attachment part 32. The gear portion 31 is located at the rear portion of the pinion gear 3 and meshes with the drive gear 14. The attachment portion 32 is located at the front portion of the pinion gear 3. Various members are attached to the attachment portion 32.

  FIG. 2 is an exploded view showing each member arranged in front of the reel body 1. As shown in FIG. 2, the attachment portion 32 of the pinion gear 3 is formed in a cylindrical shape, and has a pair of flat surfaces 321 on the outer peripheral surface. Each flat surface 321 extends in the axial direction and is parallel to each other.

  As shown in FIG. 1, the rotor 11 is a member for winding a fishing line around the spool 12. The rotor 11 is fixed to the pinion gear 3 and rotates integrally with the pinion gear 3. That is, the rotor 11 cannot rotate relative to the pinion gear 3.

  FIG. 3 is an enlarged cross-sectional view of the spinning reel 100. As shown in FIG. 3, the rotor 11 includes a cylindrical portion 111, a wall portion 112, and a boss portion 113. These are integrally formed by one member.

  The cylindrical part 111 is a cylindrical member and has an accommodation space inside. The wall 112 is formed in a circular plate shape and has an opening at the center. The outer peripheral surface of the wall portion 112 is connected to the inner peripheral surface of the cylindrical portion 111. The boss portion 113 extends rearward from the inner peripheral side end portion of the wall portion 112. The boss portion 113 is attached to the attachment portion 32 of the pinion gear 3. As a result, the rotor 11 rotates integrally with the pinion gear 3. Specifically, the through hole of the boss portion 113 has the same shape as the attachment portion 32 of the pinion gear 3 when viewed from the front. The boss portion 113 is attached to the pinion gear 3 by fitting the attachment portion 32 of the pinion gear 3 into the through hole of the boss portion 113.

  As shown in FIGS. 1 and 2, the housing member 4 is disposed in front of the reel body 1 and cannot rotate around the spool shaft 2. Specifically, the housing member 4 is fixed to the reel body 1 by a screw member or the like.

  As shown in FIG. 2, the storage member 4 has a storage space 40 that opens forward. Specifically, the housing member 4 has a cylindrical portion 41 and a rear plate 42. The cylindrical portion 41 is formed in a cylindrical shape and has a plurality of concave portions 411 on the inner peripheral surface. The rear plate 42 closes the rear end surface of the cylindrical portion 41. An opening 421 is formed at the center of the rear plate 42, and the pinion gear 3 passes through the opening 421.

  As shown in FIGS. 1 and 2, the one-way clutch 5 is disposed in a housing member 4 fixed to the reel body 1, and transmits power in one direction between the pinion gear 3 and the housing member 4. It is configured as follows. That is, the one-way clutch 5 is configured to transmit power in one direction between the reel body 1 and the pinion gear 3.

  Specifically, when the pinion gear 3 tries to rotate in the fishing line feeding direction, the one-way clutch 5 transmits power between the reel body 1 and the pinion gear 3. As a result, the pinion gear 3 and the rotor 11 do not rotate in the fishing line feeding direction. On the other hand, when the pinion gear 3 rotates in the fishing line winding direction, the one-way clutch 5 does not transmit power between the reel body 1 and the pinion gear 3. As a result, the pinion gear 3 and the rotor 11 rotate in the fishing line winding direction.

  As shown in FIG. 2, the one-way clutch 5 is a roller-type one-way clutch, and includes an inner ring 51, an outer ring 52, a plurality of rollers 53, a holding member 54, and a plurality of urging members 55.

  The inner ring 51 is attached to the attachment portion 32 of the pinion gear 3. As a result, the inner ring 51 rotates integrally with the pinion gear 3. That is, the inner ring 51 and the pinion gear 3 cannot be rotated relative to each other. Specifically, the through hole 511 of the inner ring 51 has substantially the same shape as the attachment portion 32 of the pinion gear 3 when viewed from the front. As a result, the attachment portion 32 of the pinion gear 3 is fitted into the through hole 511 of the inner ring 51.

  The outer ring 52 is formed in a substantially cylindrical shape and has a plurality of convex portions 521 on the outer peripheral surface. Each convex portion 521 of the outer ring 52 is engaged with each concave portion 411 of the housing member 4. As a result, the outer ring 52 cannot rotate relative to the housing member 4. That is, the outer ring 52 cannot rotate around the spool shaft 2. The outer ring 52 has a cam surface 522.

  Each roller 53 is disposed between the inner ring 51 and the outer ring 52. Each roller 53 is held by a holding member 54. Each urging member 55 is disposed between each roller 53 and the holding member 54. Each urging member 55 urges each roller 53 in the circumferential direction.

  As shown in FIG. 3, the lid member 6 is disposed in front of the housing member 4. The lid member 6 is configured to define the front surface of the accommodation space 40. The lid member 6 cannot rotate around the spool shaft 2. For example, the lid member 6 is fixed to the reel body 1 by a screw member or the like. As shown in FIG. 4, the lid member 6 has a fourth inner peripheral surface 61. The fourth inner peripheral surface 61 faces the outer peripheral surface of the cylindrical member 7 with a gap.

  Specifically, the lid member 6 includes a lid portion 62 and a cylindrical portion 63. The lid 62 is formed so as to define the front surface of the accommodation space 40. The lid 62 has a disc shape and has an opening at the center. The inner peripheral surface of the opening of the lid portion 62 corresponds to the fourth inner peripheral surface 61 described above.

  The cylindrical portion 63 is formed in a cylindrical shape and extends rearward from the outer peripheral side end portion of the lid portion 62. The inner peripheral surface of the cylindrical portion 63 is in contact with the outer peripheral surface of the housing member 4. The cylindrical portion 63 extends to the front end portion of the reel body 1. An O-ring 17 is interposed between the rear end portion of the cylindrical portion 63 and the front end portion of the reel body 1.

  As shown in FIG. 3, the cylindrical member 7 is disposed in front of the one-way clutch 5. The cylindrical member 7 can rotate integrally with the pinion gear 3. Specifically, as shown in FIG. 5, the tubular member 7 includes a large diameter part 71, a small diameter part 72, a rear plate part 73, an outer cylinder part 74, and a connecting part 75. The large diameter portion 71 and the small diameter portion 72 are cylindrical, and the large diameter portion 71 has a larger outer diameter than the small diameter portion 72. As for the inner diameter, the large diameter portion 71 is larger than the small diameter portion 72. The large diameter portion 71 and the small diameter portion 72 cover the outer peripheral surface of the boss portion 113.

  The rear plate portion 73 is formed in a disc shape and seals the rear end surface of the small diameter portion 72. The rear plate portion 73 has an opening at the center, and the pinion gear 3 passes through the opening of the rear plate portion 73. The rear plate portion 73 is sandwiched between the boss portion 113 and the inner ring 51 in the axial direction. As a result, the cylindrical member 7 rotates integrally with the rotor 11 and the inner ring 51. That is, the cylindrical member 7 rotates integrally with the pinion gear 3. The front surface of the rear plate portion 73 is in contact with the rear surface of the boss portion 113, and the rear surface of the rear plate portion 73 is in contact with the front surface of the inner ring 51.

  The outer cylinder portion 74 is formed in a cylindrical shape, and is arranged on the outer side in the radial direction than the large diameter portion 71. The inner peripheral surface of the outer cylinder portion 74 faces the outer peripheral surface of the large diameter portion 71. The connecting part 75 connects the large diameter part 71 and the outer cylinder part 74. Specifically, the connecting portion 75 is formed in an annular shape. The inner peripheral side end of the connecting portion 75 is connected to the front end portion of the large diameter portion 71, and the outer peripheral side end portion of the connecting portion 75 is connected to the front end portion of the outer cylinder portion 74. The rear surface 751 of the connecting portion 75 corresponds to the rear surface of the rotating member of the present invention. Moreover, the inner peripheral surface 741 of the outer cylinder part 74 is equivalent to the 2nd inner peripheral surface of this invention.

  The outer peripheral surface of the large diameter portion 71, the outer peripheral surface of the small diameter portion 72, the second inner peripheral surface 741 of the outer cylinder portion 74, and the rear surface 751 of the connecting portion 75 have water repellency. For example, a water repellent layer is formed on each of these surfaces. For example, a water repellent substance such as a fluororesin or a silicon resin is applied to each surface. The cylindrical member 7 itself may be formed of a material having water repellency.

  As shown in FIG. 3, the first seal member 8 prevents water from entering the one-way clutch 5 in front of the one-way clutch 5. Specifically, the first seal member 8 is configured to seal the gap between the lid member 6 and the cylindrical member 7.

  As shown in FIG. 4, the first seal member 8 is formed in an annular shape. The third inner peripheral surface 81 of the first seal member 8 faces the outer peripheral surface of the tubular member 7 with a gap. Specifically, the third inner peripheral surface 81 faces the outer peripheral surface of the small diameter portion 72 of the tubular member 7 with a gap.

  The distance between the third inner peripheral surface 81 and the outer peripheral surface of the cylindrical member 7 is preferably about 0.05 mm to 0.3 mm, and more preferably about 0.1 mm to 0.2 mm. A boundary portion between the third inner peripheral surface 81 and the outer peripheral surface of the small diameter portion 72 of the cylindrical member 7 is referred to as a first boundary portion. In the present embodiment, the first boundary portion indicates a space between the third inner peripheral surface 81 and the outer peripheral surface of the small diameter portion 72 of the tubular member 7.

  The first seal member 8 is made of an elastic material, and is made of, for example, synthetic rubber. Specifically, the first seal member 8 includes a first main body portion 82 and a first lip portion 83. The first main body portion 82 and the first lip portion 83 are integrally formed.

  The first main body portion 82 is formed in an annular shape. The first main body portion 82 is disposed on the front surface of the inner peripheral side end portion of the lid portion 62 in the lid member 6. Specifically, the inner peripheral side end of the lid 62 is recessed rearward to form a recess 621. The first main body 82 is disposed in the recess 621. In addition, the thickness (the length in the axial direction) of the first main body portion 82 is larger than the depth of the concave portion 621 of the lid portion 62. And the 1st main-body part 82 is pinched in the axial direction by the cover part 62 and the 2nd main-body part 95 mentioned later. Thereby, the first seal member 8 is supported on the lid member 6.

  The 1st lip part 83 is formed in cyclic | annular form, and is formed so that thickness may become small toward the inner peripheral side. The first lip portion 83 is located at the inner peripheral end of the first seal member 8. The 1st lip part 83 inclines ahead toward the inner peripheral side. The inner peripheral side end surface of the first lip portion 83 corresponds to the third inner peripheral surface 81 described above.

  The third inner peripheral surface 81 of the first seal member 8 has water repellency. Specifically, a water repellent layer is formed on the third inner peripheral surface 81. For example, a water repellent substance such as fluororesin or silicon resin is applied to the third inner peripheral surface 81. The first seal member 8 itself may be made of a material having water repellency.

  As shown in FIG. 3, the second seal member 9 prevents water from entering the one-way clutch 5 in front of the first seal member 8. As shown in FIG. 5, the second seal member 9 is formed in an annular shape. The second seal member 9 is disposed around the spool shaft 2 so as not to rotate. For example, the second seal member 9 is fixed to the reel body 1 with a screw member or the like. The second seal member 9 is disposed on the front surface of the lid member 6.

  The second seal member 9 is disposed at a distance from the cylindrical member 7. That is, the second seal member 9 has a facing surface 90 that faces the cylindrical member 7 with a space therebetween. The facing surface 90 of the second seal member 9 has a first facing surface 91, a second facing surface 92, and a third facing surface 93.

  The first facing surface 91 is constituted by the first inner peripheral surface of the second seal member 9. The first facing surface 91 faces the outer peripheral surface of the cylindrical member 7 with a gap. The first facing surface 91 faces the outer peripheral surface of the large-diameter portion 71 of the tubular member 7 with a gap. The first facing surface 91 extends along the axial direction, and a first gap is defined by the first facing surface 91 and the outer peripheral surface of the large diameter portion 71. The first gap extends along the axial direction.

  The second seal member 9 has a second main body portion 94 and a protruding portion 95. The 2nd main-body part 94 is formed in disk shape, and has an opening part in the center. The inner peripheral surface of the opening of the second seal member 9 corresponds to the first facing surface 91 described above. The protruding portion 94 protrudes forward from the inner peripheral side end portion of the second main body portion 95. The protrusion 94 is formed over the entire circumference. Specifically, the protrusion 94 is formed in a cylindrical shape. The height of the protruding portion 94 is preferably about 1.0 mm to 1.5 mm, and more preferably about 1.2 mm.

  The distance between the first facing surface 91 and the outer peripheral surface of the cylindrical member 7 is preferably about 0.05 mm to 0.3 mm, and more preferably about 0.1 mm to 0.2 mm. Further, the length of the first facing surface 91 in the axial direction is larger than the distance between the first facing surface 91 and the outer peripheral surface of the large-diameter portion 71 of the tubular member 7. Further, a boundary portion between the first facing surface 91 and the outer peripheral surface of the large-diameter portion 71 of the cylindrical member 7 is referred to as a second boundary portion. In the present embodiment, the second boundary portion indicates a first gap between the first facing surface 91 and the outer peripheral surface of the large-diameter portion 71 of the tubular member 7. The first boundary portion and the second boundary portion have different radial positions. That is, the first boundary portion is located on the radially inner side than the second boundary portion.

  The second facing surface 92 extends in a direction different from that of the first facing surface 91. Specifically, the second facing surface 92 extends along the radial direction. The second facing surface 92 is configured by the front surface of the inner peripheral side end portion of the second seal member 9. Specifically, the second facing surface 92 is configured by the front surface of the protruding portion 94. The second facing surface 92 faces the rear surface 751 of the tubular member 7 with a gap. The distance between the second facing surface 92 and the rear surface 751 of the cylindrical member 7 is preferably about 0.05 mm to 0.3 mm, and more preferably about 0.1 mm to 0.2 mm.

  A second gap is defined by the second facing surface 92 and the rear surface 751 of the tubular member 7. The second gap communicates with the first gap described above and extends along the radial direction. Specifically, the second gap extends radially outward from the front end of the first gap. Thus, the labyrinth structure is formed by the first gap and the second gap.

  The third facing surface 93 extends in a direction different from that of the second facing surface 92. Specifically, the third facing surface 93 extends along the axial direction. The third facing surface 93 is configured by the outer peripheral surface of the protruding portion 94. The third facing surface 93 is opposed to the second inner peripheral surface 741 of the tubular member 7 with a gap. The distance between the third facing surface 93 and the second inner peripheral surface 741 of the cylindrical member 7 is preferably about 0.05 mm to 0.3 mm, more preferably about 0.1 mm to 0.2 mm. preferable.

  A third gap is defined by the third facing surface 93 and the second inner peripheral surface 741 of the tubular member 7. The third gap communicates with the second gap and extends along the axial direction. Specifically, the third gap extends rearward from the outer peripheral side end of the second gap. Thus, the labyrinth structure is formed by the first gap, the second gap, and the third gap.

  The first opposing surface 91, the second opposing surface 92, and the third opposing surface 93 have water repellency. Specifically, a water repellent layer is formed on each of the opposing surfaces 91, 92, 93. For example, a water repellent substance such as fluororesin or silicon resin is applied to each of the opposing surfaces 91, 92, 93. Note that the second seal member 9 itself may be formed of a material having water repellency.

[Feature]
The spinning reel according to the present embodiment has the following characteristics.

  In the spinning reel 100 according to the present embodiment, in addition to the first seal member 8, the second seal member 9 also prevents water from entering the one-way clutch 5. Can do. Further, since the facing surface 90 of the second seal member 9 is spaced from the outer peripheral surface of the cylindrical member 7, the second seal member 9 does not hinder the rotation of the cylindrical member 7, and the cylindrical member 7 It can rotate smoothly. For this reason, the pinion gear 3 can also rotate smoothly.

  The first facing surface 91 and the second facing surface 92 extend in different directions. That is, the first gap and the second gap described above extend in different directions. Specifically, the first gap extends in the axial direction, and the second gap extends in the radial direction. As described above, since the so-called labyrinth structure is formed by the first gap and the second gap, it is possible to prevent water and the like from entering through the gap between the second seal member 9 and the cylindrical member 7. Can do.

  The third gap formed by the distance between the third facing surface 93 and the second inner peripheral surface 741 of the tubular member 7 communicates with the second gap. The third gap and the second gap extend in different directions. That is, the second gap extends in the radial direction, and the third gap extends in the axial direction. Thus, since the so-called labyrinth structure is formed by the first gap, the second gap, and the third gap, water or the like enters through the gap between the second seal member 9 and the cylindrical member 7. Can be more effectively suppressed.

[Modification]
As mentioned above, although embodiment of this invention was described, this invention is not limited to these, A various change is possible unless it deviates from the meaning of this invention.

Modification 1
In the above embodiment, the housing member 4 and the reel body 1 are formed by separate members, but the present invention is not particularly limited thereto. For example, the housing member 4 may be formed integrally with the reel body 1. That is, the reel body 1 and the housing member 4 may be formed by a single member.

Modification 2
In the said embodiment, although the 2nd seal member 9 has the protrusion part 94, it is not limited to this in particular. For example, the second seal member 9 may not have the protruding portion 94.

Modification 3
In the said embodiment, although the cylindrical member 7 has the outer cylinder part 74, the outer cylinder part 74 can also be abbreviate | omitted.

Modification 4
In the said embodiment, although the 3rd inner peripheral surface 81 of the 1st seal member 8 has opposed the outer peripheral surface of the cylindrical member 7 at intervals, it is not limited to this in particular. For example, the third inner peripheral surface 81 of the first seal member 8 may be in contact with the outer peripheral surface of the tubular member 7.

Modification 5
In the above embodiment, in the cylindrical member 7, the outer peripheral surface of the large diameter portion 71, the outer peripheral surface of the small diameter portion 72, the second inner peripheral surface 741 of the outer cylindrical portion 74, and the rear surface 751 of the connecting portion 75 are all water repellent. However, it is not limited to this. For example, all of these surfaces may not have water repellency.

DESCRIPTION OF SYMBOLS 1 Reel main body 2 Spool axis | shaft 3 Pinion axis | shaft 4 Storage member 5 One-way clutch 6 Lid member 7 Cylindrical member 741 2nd internal peripheral surface 8 1st seal member 81 3rd internal peripheral surface 9 2nd seal member 90 Opposite surface 91 1st Opposing surface 92 Second opposing surface 93 Third opposing surface

Claims (14)

A spinning reel that feeds the fishing line forward,
The reel body,
A spool shaft provided in the reel body;
A rotating member having a pinion gear provided on the reel body and rotatably arranged around the spool shaft;
A one-way clutch configured to transmit power in one direction between the reel body and the pinion gear;
A first seal member for preventing water from entering the one-way clutch in front of the one-way clutch;
A second seal member having a facing surface facing the rotating member with a space therebetween, and preventing water from entering the one-way clutch in front of the first seal member;
A rotor that rotates integrally with the pinion gear;
With
The facing surface, possess a first opposing surface and a second opposing surface extending in a direction different from the first opposing face, a,
The first seal member has a third inner peripheral surface facing the outer peripheral surface of the rotating member,
The rotating member further includes a cylindrical member that rotates integrally with the pinion gear,
The cylindrical member is opposed to the third inner peripheral surface, is opposed to the first opposed surface and the second opposed surface,
The cylindrical member has water repellency on a surface facing the third inner peripheral surface, the first opposing surface, and the second opposing surface,
Spinning reel. The first facing surface extends along a rotation axis direction of the rotating member,
The second facing surface extends along a radial direction of the rotating member.
The spinning reel according to claim 1. The first opposing surface is constituted by a first inner peripheral surface of the second seal member that faces the outer peripheral surface of the cylindrical member with a gap therebetween.
The spinning reel according to claim 1 or 2. The second facing surface is constituted by a front surface of an inner peripheral side end portion of the second seal member facing the rear surface of the rotating member with a space therebetween.
The spinning reel according to any one of claims 1 to 3. The opposed surface further includes a third opposed surface extending in a direction different from the second opposed surface.
The spinning reel according to any one of claims 1 to 4 . The third facing surface extends in the rotation axis direction of the rotating member.
The spinning reel according to claim 5 . The cylindrical member has an outer cylindrical portion having a second inner peripheral surface,
The second seal member has a projecting portion that is formed over the entire circumference at the inner circumferential end and projects forward.
The second facing surface is constituted by a front surface of the protruding portion,
The third opposed surface is constituted by the outer peripheral surface of the projecting portion facing at a pre-Symbol interval and the second inner peripheral surface,
The spinning reel according to claim 5 or 6 . The first facing surface of the second seal member has water repellency,
The spinning reel according to any one of claims 1 to 7 . Before the third inner peripheral surface SL has water repellency,
The spinning reel according to any one of claims 1 to 8 . Said first boundary portion between the outer peripheral surface of the cylindrical member and the third inner circumferential surface of the first seal member, the second boundary portion and the diameter of the outer peripheral surface of the tubular member and the first opposing surface The position of the direction is different,
The spinning reel according to any one of claims 1 to 9 . The first boundary is located radially inward of the second boundary;
The spinning reel according to claim 10 . An accommodation space that opens to the front, further comprising an accommodation member that is fixed to the reel body;
The one-way clutch is disposed in the accommodation space;
The spinning reel according to any one of claims 1 to 11 . The housing member is formed integrally with the reel body.
The spinning reel according to claim 12 . A fourth inner peripheral surface facing the outer peripheral surface of the rotating member with a space therebetween, further comprising a lid member disposed in front of the housing member;
The first seal member is configured to seal a gap between the lid member and the rotating member;
The spinning reel according to claim 12 or 13 .

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