JP6832258B2 - Spinning reel for fishing and its braking force adjustment member - Google Patents

Description

The present invention relates to a spinning reel for fishing and a braking force adjusting member thereof.

The drag device of the spinning reel for fishing includes a braking force adjusting member in order to adjust the braking force (friction resistance force) of the braking member housed in the front recess of the spool.
The braking force adjusting member includes a pressing member for pressing the braking member, a drag knob (operating member) rotatably supported, a pressing force applying member having a spring member and applying a pressing force to the pressing member. To be equipped.

Here, the pressing member described above is made of synthetic resin from the viewpoint of weight reduction and is easily deformed. Therefore, the bottom portion of the pressing member is designed to have a relatively long axial length so as not to be deformed even when the urging force of the spring member is applied, and has high strength (see Patent Document 1 below).

Further, the through hole formed in the bottom of the pressing member penetrates the spool shaft and is formed in a non-circular shape when viewed from the axial direction. Therefore, the pressing member is movable in the axial direction with respect to the non-circular portion of the spool shaft, and is engaged (stopped) in the axial direction. The through hole is slightly larger than the non-circular portion and has a slight play (gap) with respect to the spool shaft in order to facilitate removal from the viewpoint of maintenance such as cleaning, parts replacement, and refueling.

Furthermore, the spinning reel for fishing makes a modest tapping sound when adjusting the braking force by rotating the drag knob, and a sounding mechanism (click mechanism) for the angler to recognize the adjustment of the braking force. Is provided.

Jikken 07-25028 Gazette

However, when the drag knob is rotated, the end surface (seat surface) of the spring member may bite into the bottom of the pressing member, and a load in the rotational direction may act on the pressing member.
In such a case, the inner peripheral surface of the through hole is deformed in the circumferential direction and bites into the non-circular portion or the screwed portion of the spool shaft, making it difficult to remove the pressing member from the spool shaft.

Further, since the through hole is slightly larger than the non-circular portion as described above, if the shape of the through hole is deformed even a little by the load in the rotational direction, the bottom portion of the pressing member does not engage with the non-circular portion of the spool shaft. The pressing member may rotate together with the drag knob. In such a case, the sounding mechanism that produces sound due to the relative rotation of the drag knob and the pressing member does not operate normally, and the angler cannot accurately recognize the adjustment or adjustment of the braking force.

Further, since the bottom of the pressing member is designed to be relatively long in the axial direction, the amount of protrusion to the front of the spool increases and the size increases in the axial direction, and the center of gravity of the spinning reel for fishing is deviated forward. As a result, the operability of fishing was lowered, and the fishing line was easily entangled when the fishing line was released.

The present invention has been created to solve such a problem, and it is possible to secure the detachability of the pressing member, secure the function of the sounding mechanism, and shorten the axial direction of the pressing member. An object of the present invention is to provide a spinning reel for use and a braking force adjusting member thereof.

In order to solve the above problems, the spinning reel for fishing of the present invention has a braking member that applies a braking force to the spool, a braking force adjusting member that adjusts the braking force of the braking member, and sounds when the braking force is adjusted. In a spinning reel for fishing provided with a sounding mechanism, the braking force adjusting member is rotatably attached to a resin pressing member for pressing the braking member and the pressing member. It is formed of an operating member rotatably supported by the spool shaft, a pressing force applying member that applies pressing force to the pressing member, and a material having a higher strength than the pressing member, and is formed in a through hole at the bottom of the pressing member. A first engaging portion that includes an arranged reinforcing member, the reinforcing member is axially movable on a non-circular portion of the spool shaft, and is engaged and stopped to rotate, and the pressing member. It is characterized by including a second engaging portion that engages with the bottom portion of the and prevents the pressing member from rotating.

According to the invention, the pressing member engages the spool shaft via a hard-to-deform reinforcing member. Therefore, the pressing member does not bite into the non-circular portion of the spool shaft, and the pressing member can be reliably removed from the spool shaft. Further, since the pressing member is surely stopped from rotating on the spool shaft, the sounding mechanism is surely operated by the rotation operation of the operating member, and the angler can recognize the adjustment adjustment of the braking force.
Further, since the reinforcing member improves the strength of the bottom portion in the axial direction, the bottom portion can be shortened in the axial direction. Therefore, the center of gravity of the spinning reel for fishing can be moved to the rear, and the operability of fishing can be improved. In addition, the amount of protrusion forward from the spool is reduced, and the entanglement of the fishing line when the fishing line is released can be suppressed.

Further, in the present invention, the reinforcing member has a tubular shape, the first engaging portion is formed on the inner circumference of the reinforcing member, and the second engaging portion is formed on the outer periphery of the reinforcing member. You may be.

Further, in the present invention, it is preferable that the reinforcing member includes a contact portion that comes into contact with the end surface of the spring member of the pressing force applying member.

According to the above configuration, it is possible to prevent the end surface (seat surface) of the spring member from biting into the bottom portion of the pressing member. Therefore, the deformation of the bottom portion can be prevented, the deformation (twisting) of the spring member is suppressed, and the durability of the spring member is improved.

Further, in order to solve the above-mentioned problems, the braking force adjusting member of the spinning reel for fishing of the present invention is assembled to the spinning reel for fishing, and the braking force adjusting for adjusting the braking force applied to the spool by the braking member. A resin pressing member for pressing the braking member, an operating member rotatably attached to the pressing member and rotatably supported by a spool shaft, and the pressing member. The reinforcing member includes a pressing force applying member for applying a pressing force and a reinforcing member formed of a material having a higher strength than the pressing member and arranged in a through hole at the bottom of the pressing member. The reinforcing member is the spool. A first engaging portion that is movable in the axial direction to a non-circular portion of the shaft and engages to prevent rotation, and a second engaging portion that engages with the bottom of the pressing member to prevent the pressing member from rotating. It is characterized by having a joint part.

According to the above invention, the pressing member does not bite into the non-circular portion of the spool shaft, and the pressing member can be reliably removed from the spool shaft. Further, since the pressing member is surely stopped from rotating on the spool shaft, the sounding mechanism is surely operated by the rotation operation of the operating member, and the angler can recognize the adjustment adjustment of the braking force.
Further, since the reinforcing member improves the strength of the bottom portion in the axial direction, the bottom portion can be shortened in the axial direction, and the center of gravity of the spinning reel for fishing can be moved backward. Therefore, the fishing operability can be improved, the amount of protrusion forward from the spool is reduced, and the entanglement of the fishing line at the time of releasing the fishing line is suppressed.

From the above, according to the present invention, there is provided a spinning reel for fishing and a braking force adjusting member thereof, which can secure the detachability of the pressing member, secure the function of the sounding mechanism, and shorten the axial direction of the pressing member. can do.

It is sectional drawing which cut the front part (spool and drag device) of the spinning reel for both fishing of 1st Embodiment in the horizontal direction. It is an enlarged view which expanded the reinforcing member of FIG. (A) is a cross-sectional view taken along the line IIIA-IIIA of FIG. 2, and (b) is a cross-sectional view taken along the line IIIB-IIIB of FIG. It is sectional drawing of the bottom part of the pressing member and the reinforcing member of 2nd Embodiment. (A) is a cross-sectional view taken along the line VV of FIG. It is sectional drawing of the modification of 2nd Embodiment.

An embodiment of a spinning reel for fishing according to the present invention will be described with reference to the drawings. In the following description, when referring to "front and back" and "left and right", the direction shown in FIG. 1 is used as a reference. Further, the same reference numerals are used for the same elements, and duplicate description will be omitted.

As shown in FIG. 1, the fishing spinning reel 100 includes a spool shaft 110 extending in the front-rear direction along a rotation shaft O of a rotor (not shown), a spool 120 attached to the spool shaft 110, and a drag device. 1 and.
In the following description, the direction in which the rotation shaft O extends and the direction in which the spool shaft 110 extends (front-rear direction) may be referred to as "axial direction".

The spool shaft 110 is a rod-shaped metal part, and is supported by a reel body (not shown) so as to be movable in the front-rear direction. The rear portion of the spool shaft 110 is connected to an oscillating mechanism (not shown) provided in the reel body. Then, when the handle (not shown) is wound up, the spool shaft 110 and the spool 120 move back and forth. As a result, the fishing line wound around the spool 120 is evenly distributed in the front-rear direction.

At the front end of the spool shaft 110, a male screw 111 for mounting the braking force adjusting member 6 described later of the drag device 1 is formed. Further, a pair of flat surfaces 112 formed by D-cutting the outer peripheral surface is formed on the front portion of the spool shaft 110 (see FIGS. 3A and 3B). Therefore, the front portion of the spool shaft 110 constitutes a non-circular portion 113 having a non-circular cross-sectional shape.

As shown in FIG. 1, the spool 120 rises radially outward from the front end of the cylindrical bobbin body 121, the front flange 122 of the bobbin body 121, and the rear end of the bobbin 121. It includes a rear flange (not shown) and a skirt portion (not shown) extending rearward from the outer edge of the rear flange.

A circular wall portion 123 that closes the spool body portion 121 is formed in the spool body portion 121. A circular hole 124 is formed in the center of the wall portion 123, and the spool shaft 110 is inserted into the hole 124. Therefore, the spool 120 is rotatably supported by the spool shaft 110.

The inner peripheral side of the bobbin winding body 121 constitutes an annular front recess 125 that opens toward the front, and the braking member 2 described later of the drag device 1 is housed in the front recess 125.
In the front recess 125, two concave front and rear groove portions 126 extending in the front-rear direction along the inner peripheral surface of the bobbin body 121 are formed.
Further, on the inner peripheral surface of the front recess 125, a peripheral groove portion 127 that is recessed outward in the radial direction and extends in the circumferential direction is formed. A retaining member 128 for preventing the braking member 2 from falling off is fitted in the peripheral groove portion 127.

The drag device 1 includes a braking member 2 that engages with the front-rear groove 126 of the spool 120 and the spool shaft 110 to apply a braking force to the spool 120, a braking force adjusting member 6 that adjusts the braking force of the braking member 2, and the above-mentioned control. It is provided with a sounding mechanism 7 that emits a modest tapping sound when the power is adjusted.

The braking member 2 includes a rotating side braking plate 3 having a protrusion engaged with the two front and rear groove portions 126 formed on the outer peripheral edge, and a pair of fixed side braking plates 4 and 4 sandwiching the rotating side braking plate 3 from the front and rear directions. A lining material 5 interposed between the braking plates is provided.
The rotary side braking plate 3 is rotatably supported by the spool shaft 110 so that it can rotate together with the spool 120.
On the other hand, the fixed-side braking plate 4 is non-rotatably supported by the spool shaft 110. Therefore, the pair of fixed-side braking plates 4 and 4 exert a frictional resistance force on the rotating-side braking plates 3 that rotate together with the spool 120 via the lining material 5.
When the force acting on the fishing line is equal to or greater than the frictional resistance force acting on the rotating side braking plate 3, the rotating side braking plate 3 and the spool 120 rotate and the fishing line is unwound.

Further, the rotating side braking plate 3, the pair of fixed side braking plates 4, 4 and the lining material 5 are supported so as to be movable in the axial direction with respect to the spool shaft 110. Therefore, when the pressing force (see arrow A in FIG. 1) received from the pressing member 10 described later increases, the frictional resistance acting on the rotating side braking plate 3 increases, and the spool 120 becomes difficult to rotate.

The braking force adjusting member 6 includes a resin pressing member 10 for pressing the braking member 2, an operating member 20 rotatably supported by the spool shaft 110, and a coil spring that applies pressing force to the pressing member 10. A pressing force applying member) 30 and a reinforcing member 40 formed of a material having a higher strength than the pressing member 10 and provided at the bottom 12 of the pressing member 10 are provided.
The front side of the pressing member 10 is rotatably locked to the rear portion (spool 120 side) of the operating member 20 by a known method (not shown).

The pressing member 10 is a bottomed cylindrical resin component that opens forward, and includes a main body portion 11 that houses the coil spring 30 inside, and a bottom portion 12 that closes the rear portion of the main body portion 11.

The bottom portion 12 is located on the front side of the braking member 2, and the rear surface of the bottom portion 12 is in contact with the fixed side braking plate 4 on the front side of the pair of fixed side braking plates 4.
Further, the bottom portion 12 in the embodiment is formed to be thinner in the axial direction than the conventional one.
As shown in FIG. 2, a through hole 13 penetrating in the front-rear direction is formed in the bottom portion 12, and the spool shaft 110 is inserted into the through hole 13. The reinforcing member 40 is arranged in the through hole 13, and the inner peripheral surface of the through hole 13 does not directly contact the outer peripheral surface of the non-circular portion 113 (spool shaft 110).
As shown in FIG. 3 (b), the shape of the inner peripheral surface of the through hole 13 is two circular arc portions 14 and 14 and two circular arc portions 14 and 14 extending from the axial direction. It is provided with straight portions 15 and 15 and is formed in a non-circular shape.

As shown in FIG. 3A, the inner peripheral surface 11a and the outer peripheral surface 11b of the main body 11 of the pressing member 10 are formed in a circular shape.
As shown in FIG. 1, the front portion of the main body portion 11 is rotatably fitted in the protruding portion 24 of the drag knob 22 described later of the operating member 20, and is disclosed in a known method (for example, Real Fairness 07-2502). It is blocked by a method or another method different from this). Therefore, the pressing member 10 is relatively rotatable with respect to the drag knob 22 and is relatively movable in the axial direction.
Further, a peripheral groove 16 extending in the circumferential direction is formed on the outer peripheral surface 11b of the main body portion 11, and a seal member 17 is fitted in the peripheral groove 16. Therefore, the space between the pressing member 10 and the front recess 125 is sealed by the sealing member 17 so that seawater and dust do not adhere to the braking member 2.

The operating member 20 includes a nut 21 that is screwed into the male screw 111 of the spool shaft 110, and a drag knob 22 that is non-rotatable and movably fitted in the axial direction with respect to the nut 21.
A grip portion 23 gripped by an angler is formed on the front surface of the drag knob 22. Therefore, when the angler grips the grip portion 23 and rotates the drag knob 22, the nut 21 rotates together with the drag knob 22, and the nut 21 moves forward or backward.

The coil spring 30 is arranged between the bottom portion 12 of the pressing member 10 and the nut 21. Further, the coil spring 30 is assembled in a state of being contracted in the axial direction. Therefore, the pressing member 10 is constantly subjected to an urging force that moves backward by the coil spring 30.
When the drag knob 22 is rotated and the nut 21 moves rearward, the urging force of the coil spring 30 (the pressing force applied to the pressing member 10) increases.
On the other hand, when the drag knob 22 is rotated and the nut 21 moves forward, the urging force of the coil spring 30 (the pressing force applied to the pressing member 10) becomes smaller.
Further, when the drag knob 22 is rotated, the nut 21 rotates, so that a load that rotates about the spool shaft 110 acts on the coil spring 30 in which the seat surface abuts on the nut 21 (arrow in FIG. 1). See B).

The reinforcing member 40 is a cylindrical metal part that penetrates the spool shaft 110 and prevents rotation around the spool shaft 120, and has higher strength than the pressing member 10.
As shown in FIG. 2, the reinforcing member 40 includes a small-diameter tubular portion 41 arranged in the through hole 13 of the bottom portion 12 and a large-diameter tubular portion 42 arranged in the main body portion 11.

The axial length of the small-diameter tubular portion 41 is formed to be the same as the axial length of the through hole 13 (the axial thickness of the bottom portion 12).
As shown in FIG. 3B, the inner peripheral portion 43 of the small diameter tubular portion 41 extends between the two circular arc portions 43a and 43a and the two circular arc portions 43a and 43a when viewed from the axial direction. It is provided with two straight portions 43b and 43b, and is formed in a non-circular shape. That is, the inner peripheral portion 43 of the small diameter tubular portion 41 has a shape corresponding to the cross-sectional shape of the non-circular portion 113 of the spool shaft 110. Therefore, the reinforcing member 40 is supported so as to be movable in the axial direction with respect to the spool shaft 110, and does not rotate by engaging with the spool shaft 110.

As shown in FIG. 3A, the inner peripheral portion 44 of the large-diameter tubular portion 42 includes two circular arc portions 44a and 44a and two straight portions 44b and 44b when viewed from the axial direction, and is not. It is formed in a circular shape. Therefore, the portion of the reinforcing member 40 that engages with the spool shaft 110 is expanded so that the reinforcing member 40 does not rotate reliably.

As shown in FIGS. 3A and 3B, each of the inner peripheral portion 43 of the small diameter tubular portion 41 and the inner peripheral portion 44 of the large diameter tubular portion 42 is slightly larger than the non-circular portion 113 of the spool shaft 110. It is formed large and a gap is formed. Therefore, when cleaning or refueling, the reinforcing member 40 can be easily removed from the spool shaft 110.

As shown in FIG. 3B, the outer peripheral portion 45 of the small-diameter tubular portion 41 has two circular arc portions 45a and 45a and two linear portions extending between the circular arc portions 45a and 45a when viewed from the axial direction. It includes 45b and 45b, and is formed in a non-circular shape. That is, the outer peripheral portion 45 of the small diameter tubular portion 41 corresponds to the shape of the through hole 13 of the bottom portion 12. Therefore, the bottom portion 12 of the pressing member 10 is engaged with the outer peripheral portion 45 of the small diameter tubular portion 41 so as not to rotate.

As shown in FIG. 3A, the outer peripheral portion 46 of the large-diameter tubular portion 42 has a circular shape. Further, the inner diameter of the outer peripheral portion 46 is formed to be smaller than the inner peripheral surface 11a of the main body portion 11 of the pressing member 10. Therefore, when the reinforcing member 40 is assembled in the pressing member 10, the outer peripheral portion 46 of the large-diameter tubular portion 42 can be smoothly inserted without being caught by the inner peripheral surface 11a of the main body portion 11.

As shown in FIG. 2, the front end surface 47 of the large-diameter tubular portion 42 is a portion where the seat surface 30a on the rear side of the coil spring 30 abuts. Further, the outer diameter of the large-diameter tubular portion 42 is formed to be larger than the outer diameter of the coil spring 30, so that the seat surface 30a of the coil spring 30 does not come into contact with the bottom portion 12 of the pressing member 10. Therefore, when the coil spring 30 is rotated by receiving a compressive force via the nut 21 due to the rotation operation of the drag knob 22 (see arrow B in FIG. 1), the seat surface 30a of the coil spring 30 is formed on the large-diameter tubular portion 42. The front end surface 47 is slid. Therefore, it is possible to prevent the seat surface 30a of the coil spring 30 from biting into the bottom portion 12 of the pressing member 10 and deforming the through hole 13 of the bottom portion 12 of the pressing member 10. Further, since the deformation (twisting) of the coil spring 30 is suppressed, the durability of the coil spring 30 can be improved.

Further, the large-diameter tubular portion 42 overlaps with the bottom portion 12 in the axial direction to improve the strength of the bottom portion 12 in the axial direction. Therefore, even the bottom portion 12, which is thinner than the conventional one, is not deformed.

(Pronunciation part)
As shown in FIG. 1, the sounding mechanism 7 is formed on a click pin 8 composed of a coil spring 8a and a pin member 8b, and a portion formed on the front end surface of the pressing member 10 and facing the click pin 8 to repel. An annular uneven portion 9 to be engaged is provided.
The click pin 8 is attached to the drag knob 22. Therefore, the click pin 8 is rotated in the circumferential direction by the rotation operation of the drag knob 22 to elastically engage with the annular uneven portion 9, and the relative rotation of the drag knob 22 and the pressing member 10 produces a modest tapping sound.

As described above, according to the embodiment, since the pressing member 10 engages with the spool shaft 110 via the reinforcing member 40, the pressing member 10 does not bite into the non-circular portion 113 or the male screw 111 of the spool shaft 110. The pressing member 10 can be reliably removed from the spool shaft 110.
Further, since the pressing member 10 is surely prevented from rotating around the spool shaft 110, the sounding portion is surely operated by the rotation operation of the drag knob 22, and the angler can recognize the adjustment adjustment of the braking force.
Further, the reinforcing member 40 shortens the bottom portion 12 in the axial direction. Therefore, the center of gravity of the spinning reel 100 for fishing is moved to the rear, and the operability of fishing is improved. Further, the amount of protrusion of the drag knob 22 forward from the spool 120 is reduced, and the entanglement of the fishing line at the time of releasing the fishing line is suppressed.

Next, the spinning reel 200 for fishing of the second embodiment will be described with reference to FIGS. 4 and 5.
The difference between the fishing spinning reel 200 of the second embodiment and the fishing spinning reel 100 of the first embodiment is that the pressing member 210 and the reinforcing member 240 are used instead of the pressing member 10 and the reinforcing member 40. This is the point used.
Hereinafter, the second embodiment will be described focusing on the differences.

The pressing member 210 of the fishing reel 200 includes a main body 211 for accommodating the coil spring 30 and a bottom 212 for closing the rear portion of the main body 211. Further, the thickness of the bottom portion 212 in the axial direction is formed to be thinner than that of the conventional one.

A through hole 213 is formed in the bottom portion 212. The through hole 213 is formed by a small diameter hole portion 214 located on the rear side and slightly larger than the outer diameter of the spool shaft 110 and a large diameter hole portion 215 located on the front side and having a diameter larger than that of the small diameter hole portion 214. It is configured. Therefore, the bottom portion 212 is formed with an annular protruding portion 218 that protrudes radially inward from the inner peripheral surface of the large-diameter hole portion 215.

Although not particularly shown, the small-diameter hole portion 214 is formed in a circular shape when viewed from the axial direction so as not to engage with the non-circular portion 113 of the spool shaft 110.
On the other hand, as shown in FIG. 5, the large-diameter hole portion 215 has two linear portions 217, extending between the two circular arc portions 216 and 216 and the circular arc portions 216 and 216 when viewed from the axial direction. It is provided with 217 and is formed in a non-circular shape.

As shown in FIG. 4, the reinforcing member 240 is a tubular metal part that penetrates the spool shaft 110, and is made of a stronger material than the pressing member 210.
The reinforcing member 240 is arranged in the large-diameter hole portion 215 of the through hole 213, and vertically overlaps with the protruding portion 218 of the bottom portion 212. Therefore, the strength of the bottom portion 212 of the pressure member 210 in the axial direction is improved, and the bottom portion 212 is prevented from being deformed by the urging force of the coil spring 30.
Further, the length of the reinforcing member 240 in the axial direction is the same as the length in the axial direction of the large-diameter hole portion 215, and the front surface 240a of the reinforcing member 240 constitutes a part of the front surface 212a of the bottom portion 212.

As shown in FIG. 5, the inner peripheral portion 241 of the reinforcing member 240 has two linear portions 241b extending between two circular arc portions 241a and 241a and two circular arc portions 241a and 241a when viewed from the axial direction. , 241b, and is non-circular corresponding to the cross-sectional shape of the non-circular portion 113 of the spool shaft 110.
Therefore, the reinforcing member 240 is supported by the spool shaft 110 so as to be movable in the axial direction, and is engaged with the spool shaft 110 so as not to rotate.
The inner peripheral portion 241 is formed to be slightly larger than the non-circular portion 113 of the spool shaft 110. Therefore, when cleaning or refueling, the reinforcing member 240 can be easily removed from the spool shaft 110.

The outer peripheral portion 242 of the reinforcing member 240 includes two circular arc portions 242a and 242a and two linear portions 242b and 242b extending between the circular arc portions 242a and 242a when viewed from the axial direction, and the pressing member 210. It has a non-circular shape corresponding to the shape of the large-diameter hole portion 215.
Therefore, in the pressing member 210, the outer peripheral portion 242 of the bottom portion 212 is engaged with the reinforcing member 240 so as not to rotate with respect to the reinforcing member 240 (spool shaft 110).

As shown in FIG. 5, in the reinforcing member 240, the outer diameter of the portion where the straight portion 242b is formed is smaller than the outer diameter of the coil spring 30 (see the broken line L in FIG. 5).
However, since the front surface 240a of the reinforcing member 240 projects forward from the front surface 212a of the bottom portion 212 (see the protrusion amount K of the reinforcing member 240 shown in FIG. 4), the seat surface 30a of the coil spring 30 is formed on the bottom portion 212. It is possible to prevent biting.

As described above, according to the second embodiment, since the pressing member 210 engages with the spool shaft 110 via the reinforcing member 40, the pressing member 210 does not bite into the non-circular portion 113 of the spool shaft 110, and the pressing member 10 can be reliably removed from the spool shaft 110.
Further, since the pressing member 210 is surely prevented from rotating on the spool shaft 110, the sounding mechanism is surely operated by the rotation operation of the drag knob 22, and the angler can recognize the adjustment adjustment of the braking force.
Further, the reinforcing member 240 improves the axial strength of the bottom portion 212, and the bottom portion 212 is shortened in the axial direction. Therefore, the center of gravity of the spinning reel for fishing is moved to the rear, and the operability of fishing is improved. Further, the amount of protrusion of the drag knob 22 forward from the spool 120 is reduced, and the entanglement of the fishing line at the time of releasing the fishing line is suppressed.

Although the first embodiment and the second embodiment have been described above, the present invention is not limited to the examples described in the embodiments.
For example, in the second embodiment, the front surface 240a of the reinforcing member 240 protrudes from the front surface 212 of the bottom portion 212 to prevent the seat surface 230a of the coil spring 230 from biting, as shown in FIG. , The ring member 250 may be further added to the reinforcing member 240.
The ring member 250 is a metal component having an inner circumference and an outer circumference formed in a circular shape, and its outer diameter is larger than the outer diameter of the coil spring 30.
Further, the ring member 250 is arranged in front of the front surface 212a of the bottom portion 212 and the front surface 240a of the reinforcing member 240 so that the seat surface 30a of the coil spring 30 comes into contact with the ring member 250.
According to the ring member 250, the seat surface 30a of the coil spring 30 does not come into contact with the front surface 212a of the bottom portion 212, and the seat surface 30a of the coil spring 30 does not bite into the bottom portion 212. As a result, it is possible to prevent the bottom portion 212 of the pressing member 210 from being deformed, and it is possible to suppress the deformation (twisting) of the coil spring 30 and improve the durability of the coil spring 30.

1 Drag device 2 Braking member 3 Rotating side braking plate 4 Fixed side braking plate 5 Lining material 6 Braking force adjusting member 7 Sounding mechanism 10,210 Pressing member 11,211 Main body 12,212 Bottom 13,213 Through hole 17 Seal member 20 Operating member 21 Nut 22 Drag knob 30 Coil spring 30a Seat surface 40 Reinforcing member 41 Small diameter cylinder part 42 Large diameter cylinder part 43 Inner circumference (first engaging part)
44 Inner circumference (first engaging part)
45 Outer circumference (second engaging part)
46 Outer circumference 47 Front end face (contact part)
100,200 Spinning reel for fishing 110 Spool shaft 113 Non-circular part 120 Spool 240 Reinforcing member 241 Inner circumference (first engaging part)
242 Outer circumference (second engaging part)
250 ring member (contact part)

Claims (4)

In a spinning reel for fishing, which includes a braking member that applies a braking force to the spool, a braking force adjusting member that adjusts the braking force of the braking member, and a sounding mechanism that sounds when the braking force is adjusted.
The braking force adjusting member is
A resin pressing member for pressing the braking member and
An operating member that is rotatably attached to the pressing member and rotatably supported by the spool shaft.
A pressing force applying member that applies pressing force to the pressing member,
It is provided with a reinforcing member formed of a material having a higher strength than the pressing member and arranged in a through hole at the bottom of the pressing member.
The reinforcing member is
A first engaging portion that is axially movable and engages with the non-circular portion of the spool shaft to prevent rotation.
A spinning reel for fishing, which comprises a second engaging portion that engages with the bottom portion of the pressing member to prevent the pressing member from rotating. The reinforcing member has a tubular shape and has a tubular shape.
The first engaging portion is formed on the inner circumference of the reinforcing member.
The spinning reel for fishing according to claim 1, wherein the second engaging portion is formed on the outer periphery of the reinforcing member. The spinning reel for fishing according to claim 1 or 2, wherein the reinforcing member includes a contact portion that comes into contact with an end surface of the spring member of the pressing force applying member. It is a braking force adjusting member that is assembled to a spinning reel for fishing and adjusts the braking force applied to the spool by the braking member.
A resin pressing member for pressing the braking member and
An operating member that is rotatably attached to the pressing member and rotatably supported by the spool shaft.
A pressing force applying member that applies pressing force to the pressing member,
It is provided with a reinforcing member formed of a material having a higher strength than the pressing member and arranged in a through hole at the bottom of the pressing member.
The reinforcing member is
A first engaging portion that is axially movable and engages with the non-circular portion of the spool shaft to prevent rotation.
A braking force adjusting member comprising a second engaging portion that engages with the bottom portion of the pressing member to prevent the pressing member from rotating.

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