JP2016192938A - Reciprocating mechanism of fishing reel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a reciprocating mechanism that can guide a sliding part along a guide shaft smoothly without looseness.SOLUTION: An oscillating mechanism 31 comprises a traverse cam shaft 33, a sliding part 41, a second guide shaft 37b, and a clip member 61. The traverse cam shaft 33 rotates in conjunction with winding operation of a handle 13. The sliding part 41 engages with the traverse cam shaft 33, and moves along the traverse cam shaft 33 in accordance with rotation of the traverse cam shaft 33. The second guide shaft 37b guides the sliding part 41 that moves along the traverse cam shaft 33. The clip member 61 is arranged in the sliding part 41 so as to be movable together with the sliding part 41, and is in partial contact with the second guide shaft 37b.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a reciprocating mechanism for a fishing reel.

  Generally, a spinning reel has a reciprocating mechanism for reciprocating a spool in the front-rear direction with respect to the reel body (see Patent Document 1). A conventional reciprocating mechanism mainly has a traverse cam shaft, a sliding portion, a guide shaft, and an elastic member. The traverse cam shaft rotates in conjunction with the handle winding operation. The sliding portion moves along the traverse cam shaft according to the rotation of the traverse cam shaft. The guide shaft guides the sliding portion in the axial direction of the guide shaft.

  An elastic member, for example, an O-ring, is disposed between the sliding portion and the guide shaft, and suppresses rattling and blurring of the sliding portion that moves along the guide shaft. Specifically, the sliding portion is provided with a hole for inserting the guide shaft. A groove for placing the O-ring is formed in the inner peripheral portion of the hole. The O-ring disposed in the groove is in contact with the entire outer periphery of the guide shaft.

Japanese Patent Application Laid-Open No. 2004-261077

  In a conventional reciprocating mechanism, an O-ring disposed in a groove portion of the sliding portion is brought into contact with the entire outer periphery of the guide shaft, thereby guiding the sliding portion along the guide shaft without rattling. However, in this configuration, since the O-ring is in contact with the entire outer periphery of the guide shaft, the sliding resistance between the O-ring and the guide shaft increases when the sliding portion is guided along the guide shaft. There is a fear. That is, the sliding part may not be able to move smoothly along the guide shaft.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a reciprocating mechanism capable of smoothly guiding a sliding portion along a guide shaft without rattling. It is in.

  (1) A fishing reel reciprocating mechanism according to one aspect of the present invention includes a traverse cam shaft, a sliding portion, a guide shaft, and an elastic member. The traverse cam shaft rotates in conjunction with the handle winding operation. The sliding portion engages with the traverse cam shaft and moves along the traverse cam shaft according to the rotation of the traverse cam shaft. The guide shaft guides the sliding portion that moves along the traverse cam shaft. The elastic member is disposed on the sliding portion so as to be movable together with the sliding portion, and partially contacts the guide shaft.

  In the reciprocating mechanism, when the handle winding operation is performed, the traverse cam shaft rotates in conjunction with the winding operation. Then, the sliding portion engaged with the traverse cam shaft moves along the traverse cam shaft while being guided by the guide shaft. Here, an elastic member is disposed in the sliding portion, and the elastic member moves together with the sliding portion in a state of being in partial contact with the guide shaft. That is, in this reciprocating mechanism, the sliding portion and the elastic member move along the traverse cam shaft while the elastic member is in partial contact with the guide shaft.

  As a result, in this reciprocating mechanism, the elastic member can prevent the sliding portion from rattling with respect to the guide shaft, and can smoothly move the sliding portion along the traverse cam shaft.

  (2) In the reciprocating mechanism of the fishing reel according to another aspect of the present invention, the elastic member preferably has at least two contact portions that contact the guide shaft.

  With such a configuration, the elastic member can prevent the sliding portion from rattling with respect to the guide shaft and can smoothly move the sliding portion along the traverse cam shaft. Can do.

  (3) In the reciprocating mechanism of the fishing reel according to another aspect of the present invention, the sliding part preferably has a hole in which the contact part of the elastic member is disposed.

  In this case, the elastic member can be reliably attached to the sliding portion by arranging the contact portion of the elastic member in the hole of the sliding portion.

  (4) In the reciprocating mechanism of the fishing reel according to another aspect of the present invention, it is preferable that the elastic member further includes a connecting portion that connects at least two contact portions.

  In this case, the elastic member has at least two contact portions and a connecting portion that connects at least two contact portions. Thereby, the position where at least two contact portions contact the guide shaft can be accurately determined by the connecting portion.

  (5) In the reciprocating mechanism of the fishing reel according to another aspect of the present invention, it is preferable that the sliding portion further has a groove portion in which the connecting portion of the elastic member is disposed.

  In this case, the elastic member can be reliably attached to the sliding portion by arranging the connecting portion of the elastic member in the groove portion of the sliding portion.

  (6) In the reciprocating mechanism of the fishing reel according to another aspect of the present invention, the groove part preferably has a restricting part that restricts the movement of the elastic member in the direction along the guide shaft.

  In this case, when the elastic member is disposed in the groove portion of the sliding portion, the movement of the elastic member in the direction along the guide shaft is restricted by the restricting portion. Thereby, an elastic member can be reliably moved with a sliding part.

  In the reciprocating mechanism of the present invention, the sliding portion can be smoothly guided along the guide shaft without rattling.

1 is a side sectional view of a spinning reel according to an embodiment of the present invention. The elements on larger scale of an oscillating mechanism. The side view which looked at the slider from the spool side. Sectional drawing which shows the mounting state of a clip member. The front view of a clip member. The side view which shows the mounting state of the clip member by other embodiment. Sectional drawing which shows the mounting state of the clip member by other embodiment. The expansion perspective view of the level wind mechanism of the double bearing reel by other embodiment.

<Schematic configuration of spinning reel>
A spinning reel 1 according to an embodiment of the present invention is a reel capable of feeding a fishing line forward. As shown in FIG. 1, the spinning reel 1 includes a reel body 11, a handle 13, a rotation drive mechanism 15, a spool 19 having a spool shaft 17, a rotor 21, and an oscillating mechanism 31 (an example of a reciprocating mechanism). ).

  Hereinafter, the direction in which the fishing line is fed forward may be expressed as “front (left side in FIG. 1)”, and the direction opposite to the direction in which the fishing line is fed forward is referred to as “rearward (right side in FIG. 1)”. The side on which the reel body 11 is attached to the fishing rod is “upper (upper side in FIG. 1)”, and the direction opposite to the side on which the reel body 11 is attached to the fishing rod is “lower (lower side in FIG. 1)”. , May be expressed.

  Further, the direction in which the spool shaft 17 extends (spool axis direction), the direction in which the pinion gear 27 extends (pinion gear axis direction), the direction in which the traverse cam shaft 33 extends (traverse cam axis direction), and the direction in which the guide shaft 37 extends (guide) (Axial direction) is substantially the same direction. For this reason, these directions are hereinafter expressed as “axial directions”.

  The reel body 11 rotatably supports the handle 13 and the rotor 21. The reel body 11 supports the spool 19 so as to be reciprocally movable in the axial direction. The handle 13 is rotatably supported by the reel body 10 around an axis extending in a direction orthogonal to the axial direction (for example, an axis orthogonal to the paper surface of FIG. 1).

  The rotation drive mechanism 15 transmits the rotation of the handle 13 to the rotor 21 and the oscillating mechanism 31. The rotation drive mechanism 15 has a drive shaft 23, a drive gear 25, and a pinion gear 27 that are coupled to the handle 13 so as to be integrally rotatable.

  The drive gear 25 has a face gear. The drive gear 25 rotates integrally with the drive shaft 23. The pinion gear 27 is a cylindrical gear that meshes with the drive gear 25. The spool shaft 17 passes through the inner peripheral portion of the pinion gear 27. The rotor 21 is coupled to the pinion gear 27 so that it can rotate integrally with the pinion gear 27.

  The spool 19 is disposed in front of the reel body 11 and reciprocates in the axial direction together with the spool shaft 17. At this time, the rotor 21 rotates on the outer peripheral side of the spool 19, and the spool 19 reciprocates in the axial direction, whereby the fishing line is uniformly wound around the spool 19. A spool 19 is connected to one end of the spool shaft 17. An oscillating mechanism 31 is connected to the other end of the spool shaft 17. The oscillating mechanism 31 causes the spool shaft 17 to reciprocate in the axial direction on the inner peripheral portion of the pinion gear 27.

<Configuration of oscillating mechanism>
As shown in FIG. 1, the oscillating mechanism 31 is provided to uniformly wrap the fishing line around the spool 19. The oscillating mechanism 31 reciprocates the spool 19 in the axial direction via the spool shaft 17 by the rotation of the handle 13.

  The oscillating mechanism 31 includes a traverse cam shaft 33, an intermediate gear 35, a guide shaft 37 (37a, 37b), a sliding portion 41, and a clip member 61 (an example of an elastic member). The guide shaft 37 shown in FIG. 1 corresponds to the second guide shaft 37b (described later) shown in FIG.

<Traverse cam shaft>
The traverse cam shaft 33 rotates in conjunction with the winding operation of the handle 13. As shown in FIG. 1, the traverse cam shaft 33 is a shaft-like member that is long in one direction. The traverse cam shaft 33 is provided on the reel body 11 along the axial direction. Both ends of the traverse cam shaft 33 are rotatably supported by the reel body 11 via, for example, rolling bearings. A spiral groove is formed on the outer peripheral surface of the traverse cam shaft 33. An intermediate gear 35 is coupled to the front end (end portion on the spool side) of the traverse cam shaft 33.

<Intermediate gear>
The intermediate gear 35 is attached to the front end of the traverse cam shaft 33 so as to be integrally rotatable. The intermediate gear 35 meshes with the pinion gear 27. The rotation of the handle 13 is transmitted to the intermediate gear 35 via the drive gear 25 and the pinion gear 27.

<Guide shaft>
As shown in FIGS. 1 and 2, the guide shaft 37 guides the sliding portion 41 that moves along the traverse cam shaft 33. The guide shaft 37 is provided on the reel body 11 along the axial direction.

  In the present embodiment, an example is shown in which the guide shaft 37 is composed of, for example, a first guide shaft 37a and a second guide shaft 37b. The first guide shaft 37a and the second guide shaft 37b are provided on the reel body 11 along the axial direction.

<Sliding part>
The sliding portion 41 is attached to the guide shaft 37 (the first guide shaft 37a and the second guide shaft 37b) so as to be movable in the axial direction along the traverse cam shaft 33 according to the rotation of the traverse cam shaft 33. Guided.

  The sliding portion 41 has an engagement pin 43 and a slider 45. The engagement pin 43 is rotatably attached to the slider 45 and engages with the traverse cam shaft 33. Specifically, the engagement pin 43 has a shaft portion 43a and an engagement portion 43b. The shaft portion 43 a is rotatably mounted on the slider 45, and the engaging portion 43 b is engaged with the spiral groove of the traverse cam shaft 33.

  The slider 45 moves along the traverse cam shaft 33. The slider 45 includes a slider main body 46, a first mounting portion 47 to which the spool shaft 17 is mounted, a second mounting portion 48 to which the engagement pin 43 is mounted, and a third mounting portion 49 to which the guide shaft 37 is mounted. And have.

  As shown in FIG. 2, the first mounting portion 47 has a first hole portion 47a for arranging the spool shaft. The first hole 47a penetrates the first mounting portion 47 in the axial direction. The first hole 47a is formed in a non-circular shape. The end (rear end) of the spool shaft 17 is disposed in the non-circular first hole 47a. That is, the end portion of the spool shaft 17 is non-rotatably attached to the first attachment portion 47 by non-circular engagement. In this state, the end of the spool shaft 17 is further screwed and fixed to the first mounting portion 47 (see FIG. 2).

  As shown in FIG. 3, the second mounting portion 48 has a second hole portion 48 a for arranging the engagement pin 43. The second hole portion 48a passes through the second mounting portion 48 in a direction orthogonal to the axial direction. The shaft portion 43a of the engagement pin 43 is disposed in the second hole portion 48a.

  Specifically, the shaft portion 43 a of the engagement pin 43 is disposed in the second hole portion 45 a, and the engagement portion 43 b of the engagement pin 43 is screwed into the spiral groove of the traverse cam shaft 33. In this state, a retaining member (not shown) is fixed to the slider body 46. For example, the retaining member is fixed to the screw hole 44 (see FIG. 2) of the slider main body 46 by the screw member. In this way, the engaging pin 43 is attached to the slider 45.

  The guide shaft 37 is mounted on the third mounting portion 49 so that the slider 45 can move relative to the guide shaft 37.

  As shown in FIGS. 2 and 3, the third mounting portion 49 includes a first guide shaft mounting portion 51 to which the first guide shaft is mounted, and a second guide shaft mounting portion 52 to which the second guide shaft is mounted. have.

  As shown in FIGS. 2 and 3, the first guide shaft mounting portion 51 is specifically configured such that the first guide shaft mounting portion 51 protrudes from the first mounting portion 47 toward the handle 13. It is formed integrally with the mounting portion 47.

  The first guide shaft mounting portion 51 has a first main body portion 51a and a first guide hole 51b. A part of the first main body 51a is formed in an arc shape. The first guide hole 51b is provided in the first main body 51a. The first guide hole 51b is for inserting the first guide shaft 37a and penetrates in the axial direction.

  As shown in FIGS. 2 and 3, the second guide shaft mounting portion 52 is formed integrally with the second mounting portion 48 so as to protrude from the second mounting portion 48.

  The second guide shaft mounting portion 52 is mounted with the second guide shaft 37b and the clip member 61 (see FIG. 2).

  The second guide shaft mounting portion 52 includes a second main body portion 52a, a second guide hole 52b, and a clip mounting portion 53. The 2nd main-body part 52a is formed in the substantially cylindrical shape. The second guide hole 52b is provided in the second main body 52a. The second guide hole 52b is for inserting the second guide shaft 37b and penetrates in the axial direction.

(Clip mounting part)
As shown in FIGS. 2 to 4, the clip mounting portion 53 is a portion where the clip member 61 is mounted.

  Specifically, the clip mounting portion 53 includes a groove portion 53a, a plurality of (for example, two) hole portions 53b, and a pair of wall portions 53c and 53d (an example of a restriction portion).

  A connecting portion 63 (described later) of the clip member 61 is disposed in the groove portion 53a. The groove 53a is provided on the outer peripheral surface of the second main body 52a. Specifically, the cross section of the groove 53a is formed in a concave shape. The concave groove 53 a extends along the outer peripheral surface of the second main body 52 a in the circumferential direction of the second guide shaft 37.

  A contact portion 62 (described later) of the clip member 61 is disposed in each of the two hole portions 53b. The two holes 53b are provided at the bottom of the groove 53a. Specifically, each of the two holes 53b is provided at the bottom of the groove 53a at a predetermined interval in the circumferential direction of the second guide shaft 37b, and passes through the second guide hole 52b. The bottom part of the groove part 53a is penetrated toward the outer peripheral surface of the 2 guide shaft 37b.

  The pair of wall portions 53c and 53d regulate the movement of the clip member 61 in the axial direction. The pair of wall portions 53c and 53d are provided to face each other in the axial direction. Here, the wall portion 53c is a wall portion on the front side in the axial direction, and the wall portion 53d is a wall portion on the rear side in the axial direction.

(Clip member)
As shown in FIGS. 2 and 4, the clip member 61 is disposed on the slider 45 so as to be movable together with the slider 45. Specifically, the clip member 61 is mounted on the third mounting portion 49, for example, the second guide shaft mounting portion 52 so as to be movable together with the slider 45.

  More specifically, in a state where the second guide shaft 37b is inserted through the second guide shaft mounting portion 52, the clip member 61 is mounted on the second guide shaft mounting portion 52, for example, the clip mounting portion 53 from the outside. . By mounting in this manner, the clip member 61 can be easily attached to the second guide shaft mounting portion 52 and can be partially brought into contact with the second guide shaft 37b.

  The clip member 61 has a contact part 62 and a connecting part 63. The contact part 62 contacts the second guide shaft 37b. Specifically, each of the plurality of (for example, two) contact portions 62 is disposed in the hole portion 53b and contacts the second guide shaft 37b.

  More specifically, each contact portion 62 includes a straight portion 62a and a pair of inclined portions 62b, and is substantially formed in a C shape. The linear portion 62a contacts the second guide shaft 37b. The straight line portion 62a is disposed in the hole portion 53b. The pair of inclined portions 62b is provided at both ends of the linear portion 62a.

  The connecting portion 63 is formed integrally with each contact portion 62 and connects each contact portion 62. Specifically, the connecting portion 63 is substantially formed in an arc shape. The connecting part 63 is disposed in the groove part 53a.

  Further, the connecting portion 63 can contact the pair of wall portions 53c and 53d. When the connecting portion 63 contacts the pair of wall portions 53c and 53d, the movement of the clip member 61 in the axial direction is restricted. Each contact portion 62 may also contact the pair of wall portions 53c and 53d. In this case, the movement of the clip member 61 in the axial direction is more reliably regulated by this contact.

<Operation of the oscillating mechanism>
Next, the operation of the oscillating mechanism 31 configured as described above will be described.

  When the handle 13 is rotated, the traverse cam shaft 33 is rotated via the drive shaft 23, the pinion gear 27, and the intermediate gear 35. The rotation of the traverse cam shaft 33 causes the slider 45 to reciprocate along the traverse cam shaft 33 while being guided by the guide shaft 37 (the first guide shaft 37a and the second guide shaft 37b).

  In this state, the clip member 61 is partially in contact with the second guide shaft 37 b at the contact portion 62. Further, the clip member 61 (the contact portion 62 and / or the connecting portion 63) is in contact with the slider 45 (the pair of wall portions 53c and 53d of the clip mounting portion 53) in the axial direction.

  Thus, when the slider 45 reciprocates in the axial direction, the spool shaft 17 to which the slider 45 is fixed also reciprocates in the axial direction. As a result, the spool 19 reciprocates with respect to the rotor 21. At this time, since the rotor 21 rotates on the outer peripheral side of the spool 19, the fishing line is wound around the spool 19 by the rotation of the rotor 130.

<Features>
(1) In the oscillating mechanism 31, the sliding portion 41 engaged with the traverse cam shaft 33 moves along the traverse cam shaft 33 while being guided by the second guide shaft 37b. Here, a clip member 61 is disposed on the sliding portion 41, and the clip member 61 moves together with the sliding portion 41 in a state of being in partial contact with the second guide shaft 37 b. That is, in the oscillating mechanism 31, the sliding portion 41 and the clip member 61 move along the traverse cam shaft 33 while the clip member 61 is partially in contact with the second guide shaft 37 b.

  Thereby, in the oscillating mechanism 31, the clip member 61 can maintain an appropriate gap between the second guide shaft 37b and the sliding portion 41 while minimizing interference and preventing backlash, and Thus, friction can be minimized and the sliding portion 41 can be smoothly moved along the traverse cam shaft 33.

  (2) In the oscillating mechanism 31, the clip member 61 preferably has at least two contact portions 62 that come into contact with the second guide shaft 37b.

  With this configuration, it is possible to prevent the sliding portion 41 from rattling with respect to the second guide shaft 37 b by the clip member 61 with the minimum necessary configuration, and the sliding portion 41 can be attached to the traverse cam shaft 33. It can be moved smoothly along.

  (3) In the oscillating mechanism 31, the sliding portion 41 preferably has a hole 53 b in which the contact portion 62 of the clip member 61 is disposed.

  In this case, the clip member 61 can be securely attached to the sliding portion 41 by arranging the contact portion 62 of the clip member 61 in the hole 53 b of the sliding portion 41.

  (4) In the oscillating mechanism 31, the clip member 61 preferably further includes a connecting portion 63 that connects at least two contact portions 62.

  In this case, the clip member 61 has at least two contact portions 62 and a connecting portion 63 that connects the at least two contact portions 62. Thereby, the position where the at least two contact portions 62 are in contact with the second guide shaft 37b can be accurately determined by the connecting portion 63.

  (5) In the oscillating mechanism 31, the sliding portion 41 preferably further includes a groove portion 53 a in which the connecting portion 63 of the clip member 61 is disposed.

  In this case, the clip member 61 can be securely attached to the sliding portion 41 by arranging the connecting portion 63 of the clip member 61 in the groove portion 53 a of the sliding portion 41.

  (6) In the oscillating mechanism 31, the groove 53a preferably has a pair of wall portions 53c and 53d that restrict the movement of the clip member 61 in the direction along the second guide shaft 37b.

  In this case, when the clip member 61 is disposed in the groove portion 53a of the sliding portion 41, the movement of the clip member 61 in the direction along the second guide shaft 37b is restricted by the pair of wall portions 53c and 53d. Thereby, the clip member 61 can be reliably moved together with the sliding portion 41.

<Other embodiments>
(A) In the said embodiment, although the example in case the clip member 61 has the two contact parts 62 was shown, the clip member 61 may have the 3 or more contact parts 62. FIG. In this case, the holes 53 b are formed in the first guide shaft mounting portion 51 and / or the second guide shaft mounting portion 52 so as to correspond to the number of the contact portions 62.

  (B) In the above embodiment, an example in which the hole 53b and the groove 53a are provided in the second guide shaft mounting portion 52 has been described. However, only the hole 53b is provided in the second guide shaft mounting portion 52. It may be. In this case, the contact portion 62 of the clip member 61 is disposed in the hole portion 53 b, and the connecting portion 63 of the clip member 61 is disposed on the outer peripheral portion of the second guide shaft mounting portion 52. Further, in this case, when the contact portion 62 contacts the wall portion of the hole portion 53b, the movement of the clip member 61 in the direction along the second guide shaft 37b is restricted.

  (C) In the above embodiment, an example in which the clip member 61 is used as an example of the elastic member has been described, but a ring member may be used instead of the clip member 61. In this case, as shown in FIGS. 6A and 6B, the second guide shaft mounting portion 152 is formed, and the clip mounting portion 153 is formed annularly in the circumferential direction. In the clip mounting portion 153, as shown in FIG. 6B, a pair of hole portions 153a are arranged opposite to each other in the radial direction of the second guide shaft 137b.

  Further, the pair of groove portions 153b are arranged at a predetermined interval in the circumferential direction of the second guide shaft 137b. Here, the groove portion 153b is formed in an arc shape, and the length L1 of a line segment connecting two corner portions adjacent to each other in the circumferential direction of the groove portion 153b is smaller than the diameter of the second guide shaft 137b. By disposing a ring member such as an O-ring on the clip mounting portion 153, it is possible to make partial contact with the second guide shaft 137b using the elastic force of the O-ring.

  (D) In the above embodiment, an example in which the clip member 61 is mounted on the second guide shaft mounting portion 52 has been described. Instead of this, the clip member 61 may be mounted on the first guide shaft mounting portion 51. Further, the clip member 61 may be mounted on the first guide shaft mounting portion 51 and the second guide shaft mounting portion 52.

  (E) In the above embodiment, an example in which the clip member 61 is mounted on the slider 45 of the oscillating mechanism 31 in the spinning reel 1 has been described. Instead, as shown in FIG. 7, the clip member 261 may be attached to the fishing line guide 145 (an example of the sliding portion) of the level wind mechanism 131 in the dual-bearing reel.

  In this case, for example, the level wind mechanism 131 includes a fishing line guide 145, a guide member 159, a worm shaft 133 (an example of the traverse cam shaft 33), a guide shaft 237, an engagement portion 143, and a clip member 261. Configured.

  In this case, when the worm shaft 133 rotates in conjunction with the winding operation of the handle, the fishing line guide 145 moves along the outer peripheral surface of the guide member 159 while being guided by the guide shaft 237 via the engaging portion 143. To do.

  In the level wind mechanism 50, the fishing line guide 145 is provided with a guide hole 252b and a clip mounting portion 153, as in the above embodiment. A guide shaft 237 is disposed in the guide hole 252b. A clip member 261 is disposed on the clip mounting portion 153. The configurations of the clip mounting portion 153 and the clip member 261 are substantially the same as those in the above-described embodiment, and thus description thereof is omitted here (see FIG. 4). As described above, the clip member 261 can be partially brought into contact with the guide shaft 137 by disposing the clip member 261 on the clip mounting portion 153.

  In addition, you may apply the structure of said other embodiment (A)-(C) to the level wind mechanism 131 of the double bearing reel shown here.

DESCRIPTION OF SYMBOLS 1 Spinning reel 11 Reel main body 13 Handle 31 Oscillating mechanism 33 Traverse cam shaft 41 Sliding part 37,237 Guide shaft 37a First guide shaft 37b, 137b Second guide shaft 61,161,261 Clip member 62 Contact part 63 Connection part 53a Hole 53b Groove 53c, 53d Wall

Claims (6)

A reciprocating mechanism for a fishing reel,
A traverse cam shaft that rotates in conjunction with the winding operation of the handle;
A sliding portion that engages with the traverse cam shaft and moves along the traverse cam shaft in response to rotation of the traverse cam shaft;
A guide shaft for guiding the sliding portion that moves along the traverse cam shaft;
An elastic member disposed on the sliding portion so as to be movable together with the sliding portion and partially contacting the guide shaft;
A fishing reel reciprocating mechanism comprising: The elastic member has at least two contact portions that contact the guide shaft.
The reciprocating mechanism of the fishing reel according to claim 1. The reciprocating mechanism for a fishing reel according to claim 2, wherein the sliding portion has a hole portion in which the contact portion is disposed. The elastic member further includes a connecting portion that connects the at least two contact portions.
The reciprocating mechanism of the fishing reel according to claim 2 or 3. The sliding portion further includes a groove portion in which the connecting portion is disposed.
The reciprocating mechanism of the fishing reel according to claim 4. The groove has a restricting portion that restricts movement of the elastic member in a direction along the guide shaft.
The reciprocating mechanism of the fishing reel according to claim 5.

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