JP6622667B2 - Fishing spinning reel - Google Patents

Description

  The present invention relates to a fishing spinning reel.

  In general, a fishing spinning reel is provided with a reel body, a rotor that is rotatably provided at the front of the reel body, and a front-rear movement that is synchronized with the rotational movement of the rotor. And a spool around which the fishing line is wound.

  As a spinning reel for fishing, as disclosed in Patent Document 1, a reel main body is configured from a body and a lid member that closes a side opening formed on a side of the body. It has been. A handle shaft to which a handle for driving the reel is attached is rotatably supported by the body and the lid member. The lid member is attached to the body with a plurality of screws fastened and fixed around the side opening of the body.

  The drive gear attached to the handle shaft meshes with a pinion gear for driving the rotor. The front part of the pinion gear is supported by the body via a bearing. As a support structure for the pinion gear, a structure in which both the front portion and the rear portion are supported by bearings in order to increase the support accuracy of the pinion gear has been studied.

JP 2001-346484 A

  The lid member constituting the reel body is fastened and fixed by a plurality of screws around the side opening of the body. For this reason, when a large winding load is generated in the handle shaft support portion when the handle is operated, the fastening strength of the lid member by a plurality of spaced apart screws is not sufficient. There is a possibility that a gap may be formed in the mating portion of the two members, or that the body may be deformed due to the influence of the deformation of the lid member.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a fishing spinning reel that can increase the strength of the reel body.

  In order to achieve the above object, a spinning reel for fishing according to the present invention comprises a reel body having a body and a lid member that closes a side opening provided in a side portion of the body, and at least the lid A fishing spinning reel that rotatably supports a handle shaft by a member, wherein the body includes a wall portion and a cylindrical portion extending from the wall portion, and the side opening is formed at an end portion of the cylindrical portion. The lid member itself is fastened and fixed to the side opening by screwing, and support ribs extending in the vertical direction are arranged inside the cylindrical portion. The upper end portion and the lower end portion of the support rib are connected to the inner peripheral surface of the tube portion, and the tube portion and the support rib are integrally provided.

  In this fishing spinning reel, the lid member itself is screwed and fixed to the side opening with a uniform fastening force in the circumferential direction. And the cylinder part of a body is reinforced by the support rib extended in an up-down direction.

  Further, it is preferable that the support rib protrudes integrally with the wall portion. By doing in this way, the intensity | strength of a wall part is securable.

  The support rib may support a rear side of the pinion gear that meshes with a drive gear of the handle shaft. By doing in this way, the support strength of a pinion gear can be raised.

  Moreover, it is good to provide the internal thread provided in the inner peripheral part of the said side part opening part, and the external thread provided in the outer peripheral part of the said cover member, and screwing together with the said internal thread. In this case, it is preferable that the lid member is formed with an abutting portion that abuts on the inner peripheral surface and obtains concentricity with the side opening. By doing in this way, the center of a side part opening part and the center of a cover member correspond.

According to the present invention, the lid member is screwed and fixed with a uniform fastening force in the circumferential direction with respect to the side opening, so that the mounting strength of the lid member can be sufficiently secured. Further, the strength of the cylindrical portion of the body can be sufficiently ensured by the support rib extending in the vertical direction. Therefore, the strength of the reel body can be increased.
Since the strength of the reel body can be increased, the support accuracy of the handle shaft is improved and maintained. Further, the side opening of the body is reinforced by the screwing of the lid member, and the strength of the body itself is improved. Accordingly, it is possible to adopt a large-diameter drive gear as a drive gear supported by the handle shaft. In addition, a plurality of screws or the like for fixing the lid member to the body can be eliminated, and the number of parts can be reduced and incorporated, and the disassembly is improved. Further, breakage of the screw can be prevented.

It is a side view showing the whole fishing spinning reel composition concerning one embodiment of the present invention. It is a side view which shows a reel main body. It is a side view of the reel main body which removed the cover member. It is a cross-sectional view which shows an internal structure. (A) is a side view which shows the structure in a side part opening part, (b) is a rear view of the body which removed the protective cover. (A) is an enlarged side view showing a part of the lid member, (b) is a cross-sectional view of the lid member, and (c) is an enlarged view showing a fastening state between the side opening of the body and the peripheral edge of the lid member. It is sectional drawing. (A) is a longitudinal cross-sectional view of the reel body showing a case where the slider is at the end position of the stroke, and (b) is a longitudinal cross-sectional view of the reel body showing a case where the slider is at the front end position of the stroke. is there. It is a side view which shows the body of a modification.

Embodiments of a spinning reel for fishing according to the present invention will be described below with reference to the drawings. In each embodiment, the same parts are denoted by the same reference numerals, and redundant description is omitted.
In the following description, when referring to “front and back” and “up and down”, the direction shown in FIG. 1 is used as a reference, and when saying “left and right”, the direction shown in FIG. 4 is used as a reference.

  As shown in FIG. 1, a fishing spinning reel 100 mainly moves in the front-rear direction in synchronization with the reel body 1, the rotor 2 rotatably provided on the front side of the reel body 1, and the rotational movement of the rotor 2. And a spool 3 provided in a possible manner.

As shown in FIG. 2, the reel body 1 includes a body 10 whose outer shape is formed in a substantially circular shape in a side view, and a lid member 30 that closes the side opening 13 formed on the left side of the body 10. I have. The side opening 13 and the lid member 30 are circular in a side view. A leg portion 11 (see FIG. 1) attached to a fishing rod (not shown) is integrally formed on the upper portion of the body 10. A cylindrical body front portion 12 is provided at the front portion of the body 10. A protective cover 40 is attached to the rear portion of the body 10 via a seal member 50.
1 and 2, the side shape of the lid member 30 is simplified.

  As shown in FIG. 3, the body 10 is formed with a housing space S <b> 1 surrounded by a bottomed substantially cylindrical wall (an inner peripheral surface 22 a of a cylindrical portion 22 described later) with the side opening 13 as an opening. (See FIG. 4). In the accommodation space S1, a rear portion of the drive shaft cylinder 7, a rear portion of the spool shaft 8 inserted through the drive shaft cylinder 7, and a spool reciprocating device for reciprocating the spool shaft 8 (spool 3, see FIG. 1). 70 is arranged. The drive shaft cylinder 7 and the spool shaft 8 extend forward of the front body portion 12. The spool shaft 8 is disposed below the handle shaft 5. A pinion gear 7 a is formed at the rear portion of the drive shaft cylinder 7. The rear portion of the spool shaft 8 extends rearward from the rear end of the pinion gear 7a (drive shaft cylinder 7).

  The spool reciprocating device 70 includes a guide shaft 71 extending in the front-rear direction, a slider 72 having a guide groove 73 formed on the right side and moving along the guide shaft 71, and an eccentric protrusion engaging with the guide groove 73. The interlocking gear 74 (component member) in which the part 75 was formed is provided. A connecting portion 8a (see FIG. 4) that protrudes rearward and connects to the slider 72 is provided at the rear end of the spool shaft 8, and the spool shaft 8 and the slider 72 are integrated.

  As shown in FIG. 4, a handle shaft 5 extending in the left-right direction is provided in the body 10. The handle shaft 5 is rotatably supported by the lid member 30 and the body 10 via left and right bearings 5a and 5b. A drive gear 6 and a shaft cylinder (gear) 6a are fixed to the handle shaft 5 as functional members. A handle 5d (see FIG. 1) is attached to the left end portion of the handle shaft 5 via a connecting shaft 5c.

The drive gear 6 is fixed to the left side of the handle shaft 5 and meshes with the pinion gear 7a on the front side. The shaft cylinder 6a is fixed to the right side of the handle shaft 5 and meshes with the interlocking gear 74 on the rear side.
For this reason, when the winding operation of the handle 5d is performed, the driving force by the winding operation is transmitted to the driving shaft cylinder 7 via the handle shaft 5, the drive gear 6, and the pinion gear 7a, and the rotor 2 together with the driving shaft cylinder 7 Rotate. At the same time, the spool 3 is reciprocated back and forth via the spool shaft 8 and the spool reciprocating device 70. As a result, the fishing line is evenly wound around the winding body 3a (see FIG. 1) of the spool 3 via a fishing line guide (not shown) of the rotor 2 (see FIG. 1).

  Next, the configuration of each unit will be described in detail. As shown in FIG. 5A, the body 10 has a bottomed box shape (cylindrical shape) having a peripheral wall at the bottom, and opens toward the left side. The body 10 includes a disc-shaped right wall portion 21 and a cylindrical tube portion 22 that extends to the left from the peripheral edge of the right wall portion 21. The left end portion of the cylindrical portion 22 constitutes the side opening 13.

A right center hole 23, a support rib 24, and an insertion hole 25 are formed on the inner surface (left side surface) of the right wall portion 21.
The right center hole 23 (functioning as a support portion) is a hole through which the right end portion of the handle shaft 5 passes, and is provided in the center portion of the right wall portion 21. A right bearing 5b (see FIG. 4) as a handle shaft bearing that rotatably supports the handle shaft 5 is attached to the right central hole 23. The right bearing 5 b is attached to the right center hole 23 from the right side of the body 10.

  The support rib 24 protrudes integrally with the right wall portion 21 and is disposed in the accommodation space S1. The support rib 24 is located in front of the right central hole 23 and extends in the up-down direction. The upper end portions 24 c and 24 d and the lower end portion 24 e of the support rib 24 are integrally connected to the inner peripheral surface 22 a of the cylindrical portion 22. The strength of the right wall portion 21 (reel body) and the cylindrical portion 22 (reel body) is improved by the support rib 24. The support rib 24 is integrally provided with a cylindrical upper support portion 24a and a lower support portion 24b. A guide shaft support hole 24a1 that supports the front end portion of the guide shaft 71 (see FIG. 3) is formed in the upper support portion 24a.

As shown in FIG. 4, a rear bearing (ball bearing) 51 is supported on the lower support 24b via a collar 51a. That is, the rear side of the pinion gear 7 a (the rear part of the drive shaft cylinder 7) is supported by the body 10 via the rear bearing 51 and the support rib 24.
The rear portion of the spool shaft 8 passes through the collar 51a behind the lower support portion 24b.

  The spool shaft 8 has a small gap with respect to the inner periphery of the pinion gear 7a and is not in contact with each other. However, in FIG. 4, the collar 51a supported by the lower support portion 24b in the body 10 and the front side of the pinion gear 7a. Is supported so as to be slidable in the front-rear direction.

  The upper support 24 a and the lower support 24 b are located in the side opening 13. And the lower support part 24b is arrange | positioned so that it may overlap with at least one part of the right bearing 5b seeing from the axial direction of the handle shaft 5, as shown in FIG. The rear bearing 51 may be arranged so as to overlap with at least a part of the right bearing 5b when viewed from the axial direction of the handle shaft 5.

  The insertion hole 25 is formed behind the right center hole 23 as shown in FIG. As shown in FIG. 4, a boss portion 27 of the support member 26 passes through the insertion hole 25. Accordingly, the boss portion 27 that rotatably supports the interlocking gear 74 is disposed at the rear portion in the body 10. The support member 26 is provided on the outside (right side) of the right wall portion 21.

  As shown in FIG. 5A, the cylindrical portion 22 has a substantially cylindrical shape centered on the central axis 01 of the handle shaft 5. Specifically, the inner peripheral surface 22 a of the cylindrical portion 22 is formed in a circular shape centering on the central axis 01 of the handle shaft 5 and corresponds to the size of the drive gear 6. That is, the inner peripheral surface 22 a is a surface concentric with the outer peripheral surface of the handle shaft 5.

The outer peripheral surface 22b of the cylindrical portion 22 is formed in a substantially circular shape centering on the central axis 01 of the handle shaft 5, and the thickness (the radial thickness) of the cylindrical portion 22 is substantially uniform in the circumferential direction. Yes.
For this reason, the cylinder part 22 is smaller than the conventional cylinder part (cylinder part of a rectangular cylinder in a side view), and an unnecessary space is provided between the inner peripheral surface 22a of the cylinder part 22 and the drive gear 6. Does not occur.

  The inner peripheral surface 13a of the left end portion (side opening 13) of the cylindrical portion 22 is formed to have substantially the same diameter as the inner peripheral surface 22a of the cylindrical portion 22, and can be easily inserted into the cylindrical portion 22 even with a relatively large drive gear 6. It can be assembled. Thus, the inner diameter (inner peripheral surface 13a) of the side opening 13 is formed larger than the outer diameter of the drive gear 6 (shown by a two-dot chain line) as shown in FIGS. In other words, the drive gear 6 has a large diameter that is as close as possible to the size of the inner diameter of the side opening 13. The handle shaft 5, the drive gear 6, and the shaft cylinder 6 a are inserted into the housing space S 1 through the side opening 13 and assembled to the body 10.

  On the back side of the inner peripheral surface 13a of the side opening 13, a female screw 13b is formed as shown in FIG. 6 (c). A fitting receiving portion 17 having a concave cross section is formed in the peripheral edge of the opening of the side opening 13 over the circumferential direction. The fitting receiving portion 17 includes a bottom surface portion 17a and a rising portion 17b that rises from the bottom surface portion 17a in a rounded cross section.

  As shown in FIG. 5B, two protective cover female screw holes 22 c (see FIG. 7A) formed on the outer peripheral surface 22 b of the cylindrical portion 22, and the cylindrical portion 22, as shown in FIG. A rear opening 15 penetrating the rear portion is formed.

The rear opening 15 communicates with the accommodation space S1. The rear opening 15 is an opening for receiving a part of the parts assembled in the body 10 and disposing it outside the body 10, in other words, protruding rearward from the body 10. The rear opening 15 penetrates only the central portion in the left-right direction in the cylindrical portion 22 so that the opening (hole) of the rear opening 15 and the opening (hole) of the side opening 13 are not continuous. Thereby, between the side opening 13 and the rear opening 15, an arcuate bridging portion 14 that constitutes the edge of each opening of the side opening 13 and the rear opening 15 extends. ing. Therefore, the strength of the cylindrical portion 22 is improved as compared with the case where the opening (hole) of the rear opening 15 and the opening (hole) of the side opening 13 are continuous.

  As shown in FIG. 3, a part of the interlocking gear 74 of the spool reciprocating device 70 through the rear opening 15, a part of the slider 72 when the stroke position is at the rearmost position, and the rear end of the guide shaft 71. The part 71a protrudes rearward from the rear part of the body 10. That is, the rear opening 15 has a size and a shape in which these members are inserted and arranged. In addition, since these members protrude rearward of the body 10 through the rear opening 15, the accommodation space S1 is formed in a compact size.

A cover mounting portion 18 is formed around the rear opening 15 as shown in FIG. A protective cover 40 is attached to the cover attaching portion 18 via a seal member 50 (see FIG. 7A). The protective cover 40 is fastened to a bolt 40c that is screwed into the protective cover female screw hole 22c, and is fixed so as to cover the rear opening 15 of the body 10 (tubular portion 22).
When the protective cover 40 is attached, a space S2 is formed inside the protective cover 40 as shown in FIG. Part of the interlocking gear 74 protruding from the rear part of the body 10 through the rear opening 15 and part of the slider 72 are accommodated in the space part S2. That is, a part of the interlocking gear 74 and a part of the slider 72 are covered with the protective cover 40 attached via the seal member 50 and are stored in a liquid-tight manner (see FIG. 3).

Further, the rear end portion 71a of the guide shaft 71 protruding from the rear portion of the body 10 is supported by a support portion 43c provided inside the protective cover 40, as shown in FIGS.
The rear opening 15 also functions as an assembly hole for assembling each member of the spool shaft 8 and the spool reciprocating device 70.

As shown in FIGS. 2 and 3, the bridging portion 14 has an arc shape extending from the upper part to the lower part of the body 10 along the side opening 13 (lid member 30). The outer shape of the bridging portion 14 is formed concentrically with the side opening 13 (lid member 30). As shown in FIG. 3, the bridging portion 14 constitutes a part of the opening edge of the side opening 13.
In addition, although the bridge | bridging part 14 showed what was formed concentric with the side part opening part 13, it is not restricted to this, The center (center of the handle shaft 5) of the side part opening part 13 is not restricted to this. On the other hand, it may be eccentric to the front side or the rear side. Moreover, the bridge | crosslinking part 14 may contain a linear part in an external shape by side view.

Next, details of the main configuration of the spool reciprocating device 70 will be described.
As shown in FIG. 7A, the interlocking gear 74 is assembled to the body 10 from the outside rear so as to penetrate the rear opening 15. In the assembled state, a part (rear region) of the interlocking gear 74 projects rearward from the rear opening 15 and is accommodated in the protective cover 40.
The interlocking gear 74 cooperates with the slider 72 via the eccentric protrusion 75 as a conversion drive member that converts the rotation of the handle shaft 5 into the reciprocating motion of the spool shaft 8.

  The guide shaft 71 is disposed on the upper side of the handle shaft 5 on the opposite side of the handle shaft 5 from the side on which the spool shaft 8 is disposed. The rear end 71 a of the guide shaft 71 passes through the rear opening 15. The rear end portion 71 a of the guide shaft 71 is engaged with the support portion 43 c in the protective cover 40. For this reason, as shown to Fig.7 (a), when a part of slider 72 moves back, it will enter in the protective cover 40, and the movement range of the slider 72 is ensured effectively. .

  Further, a concave portion 72a that is recessed rearward is formed on the front surface of the slider 72 (an opposing surface that faces the handle shaft 5). For this reason, as shown in FIG.7 (b), when the slider 72 moves ahead, the handle shaft 5 is received in the recessed part 72a, and the moving range of the slider 72 expands ahead. As described above, the movement range (stroke) of the slider 72 is effectively ensured while preventing the body 10 from being enlarged.

Next, the lid member 30 will be described in detail.
As shown in FIG. 2, the lid member 30 is attached to the side opening 13, closes the side opening 13 in a liquid-tight manner, and supports the left end side of the handle shaft 5. As shown in FIG. 6 (b), the lid member 30 has a mountain shape in cross section, a peripheral wall portion 31, a cylindrical portion 32 integrally provided at the center of the peripheral wall portion 31, and the peripheral wall portion 31. The cylindrical insertion part 33 provided in the outer peripheral edge part of the. The handle shaft 5 is supported at the center of the lid member 30 (see FIG. 4).

  On the outer side surface (left side surface) and inner peripheral surface (right side surface) of the peripheral wall portion 31, a thinned portion 31 b is formed. Thereby, weight reduction of the cover member 30 is achieved. As for the cylindrical part 32, the right side part which becomes a back | inner side is diameter-expanded stepwise, and the bearing 5a (refer FIG. 4) is accommodated in this diameter-expanded part 30a. The lid member 30 supports the left end side of the handle shaft 5 via the bearing 5a.

  The insertion portion 33 is a portion that extends toward the side opening 13 and is inserted into the side opening 13. As shown in FIG. 6C, a male screw 33 a is formed on the outer peripheral portion of the distal end (right end) of the insertion portion 33. The male screw 33 a can be screwed into the female screw 13 b of the side opening 13. As a result, the lid member 30 itself can be fastened and fixed to the side opening 13 by screwing, so that the lid member 30 can be easily assembled.

A cylindrical contact surface (contact portion) 33b that contacts the inner peripheral surface 13a of the side opening 13 is formed on the outer peripheral portion of the insertion portion 33 that is on the proximal end side with respect to the male screw 33a. When the lid member 30 is attached to the side opening 13 by screwing, the abutting surface 33b abuts on the inner peripheral surface 13a of the side opening 13 in the circumferential direction and performs a centering action. Thereby, the concentricity of the side opening 13 and the lid member 30 is obtained. Therefore, it is difficult to form a gap between the side opening 13 and the lid member 30 without increasing the processing accuracy. Further, since the center of the lid member 30 and the center of the body 10 coincide with each other, the handle shaft 5 is prevented from being tilted, and the rotational operability and the meshing performance of the handle 5d are stably improved.
The abutting surface 33b may be configured to partially abut on the inner peripheral surface 13a of the side opening 13 at an interval in the circumferential direction.

  On the outer peripheral surface of the insertion portion 33, an accommodation recess 33c is formed between the male screw portion 33a and the contact surface 33b. An O-ring 33d is fitted on the housing recess 33c as a sealing material.

A flange-like fitting portion 37 extending outward in the circumferential direction is formed on the outer peripheral edge portion of the lid member 30. The fitting portion 37 is a bottom surface in a state where there is a slight gap (in the drawing, there is a gap but contact fitting is possible) between the side opening 13 and the rising portion 17b of the fitting receiving portion 17. It abuts on the portion 17 a and is inlay-fitted to the fitting receiving portion 17. By such inlay fitting, the amount of protrusion of the fitting portion 37 to the side is suppressed. Thereby, even when the fishing line is unwound at the time of reel operation or the like, the unraveled fishing line is not easily caught on the outer peripheral edge portion of the lid member 30.
Moreover, dustproof and waterproofing can be achieved by fitting with the inlay. Thereby, for example, seawater, water, sand mixed in them, foreign matter, or the like can be blocked. That is, the inlay fitting portion can prevent intrusion of fishing line, seawater, foreign matter and the like.

  In addition, as shown in FIG.5 (c), the outer surface 30g of the outer peripheral part of the cover member 30 and the outer surface 13g of the outer peripheral part of the side part opening part 13 are the fitting parts 37 (fitting receiving part 17). It is made into the inclined surface which continues substantially on both sides. As a result, the undissolved fishing line is less likely to be caught.

As shown in FIG. 5C, a small-diameter portion 38 having a concave cross-sectional shape is formed between the fitting portion 37 and the contact surface 33b. A lubricant such as grease or oil is applied to the small diameter portion 38. The lubricant enables smooth attachment of the lid member 30 and enhances the sealing performance with the inner peripheral surface 13a of the side opening 13.
Similarly, a lubricant such as grease or oil may be applied to the fitting receiving portion 17 and the fitting portion 37.

Next, the boundary between the body 10 and the body front part 12 and the body front part 12 will be described in detail.
The body front portion 12 is provided integrally with the front portion of the body 10. As shown in FIGS. 2 and 3, a flange portion 16 having a thin plate shape is provided at a boundary portion between the body 10 and the body front portion 12. A concave portion 16b is formed on the left side of the flange portion 16 as shown in FIG. The recessed portion 16b is recessed forward along the shape of the front end portion 30e of the lid member 30. Due to the concave portion 16 b, the front end portion 30 e of the lid member 30 is positioned so as to enter further forward than the upper rear surface 16 a of the flange portion 16. Further, the front end portion 30 e of the lid member 30 is located in front of the rearmost end portion 2 a of the rotor 2 in the positional relationship with the rotor 2 as shown in FIG. 1. Further, as shown in FIG. 2, the front end portion 30 e of the lid member 30 is positioned forward of the rear end portion 12 b of the cover 12 a in the positional relationship with the bottomed cylindrical cover 12 a that covers the front body portion 12. ing. By positioning the front end portion 30e of the lid member 30 in such a positional relationship, the diameter of the lid member 30 can be increased while the body 10 is made compact in the front-rear direction. The concave portion 16b serves as an escape portion when the lid member 30 is attached.

  As shown in FIGS. 2 and 3, a front bearing (ball bearing) 52 that supports the front side of the pinion gear 7a (see FIG. 4) (front part of the drive shaft cylinder 7) is provided inside the body front part 12. Is arranged. As shown in FIG. 4, the front bearing 52 is supported by a support portion 53 that is integrally provided in front of the flange portion 16. That is, the pinion gear 7a is rotatably supported by the reel body 1 via the front bearing 52 and the rear bearing 51 (ball bearing). The front bearing 52 supports the front side of the pinion gear 7a (see FIG. 4) (between the pinion gear 7a and the drive shaft cylinder 7), but may support only the front portion of the pinion gear 7a. Alternatively, only the front portion of the drive shaft cylinder 7 may be supported. The same applies to the rear bearing 51, and the rear bearing 51 may support only the rear portion of the pinion gear 7a, or may support the rear portion of the pinion gear 7a and the rear portion of the drive shaft cylinder 7.

The drive shaft cylinder 7 extends toward the spool 3 (see FIG. 1), and the rotor 4 is attached to the tip of the drive shaft cylinder 7 by a rotor nut 2n (partially shown).
The rear end of the outer ring of the front bearing 52 is held against a recess 54 formed in the support portion 53 of the reel body 1. The rear end of the inner ring of the front bearing 52 is held against the front end of the pinion gear 7a. The front end of the outer ring of the front bearing 52 is retained by a locking plate 12e that is locked to the front body portion 12. The front end of the inner ring of the front bearing 52 is in contact with the inner ring of the roller type one-way clutch 19 (hereinafter simply referred to as “one-way clutch”).

The one-way clutch 19 constitutes a known reverse rotation prevention mechanism (stopper) that prevents the handle 5d (rotor 2) from rotating backward in the fishing line discharge direction. The one-way clutch 19 is interlocked with a switching member 10g (see FIG. 2) provided at the lower portion of the body 10, and the one-way clutch 19 is operated and inactivated by rotating the switching member 10g. It can be switched to. In this case, the rotation of the handle 5d (rotor 4) in the reverse direction (rotation in the fishing line discharge direction) is prevented by switching the switching member 10g to the operating state.
Such a one-way clutch 19 is covered by the peripheral wall portion 12f of the body front portion 12, and the outer side thereof is protected by the cover 12a.
The front end of the inner ring 19a of the one-way clutch 19 is fixed to the cylindrical portion 2b of the rotor 2 via a magnetic member 2c. A gap between the magnetic member 2c and the front end portion of the peripheral wall portion 12f is sealed with a known magnetic seal mechanism 26.

As described above, the pinion gear 7 a is rotatably supported on the reel body 1 by the two front and rear bearings including the front bearing 52 and the rear bearing 51. And as shown in FIG. 4, the screwing position R1 of the side part opening part 13 and the cover member 30 in the side of the pinion gear 7a is the support position R2 of the pinion gear 7a (drive shaft cylinder 7) by the front bearing 52. And the engagement position R3 of the drive gear 6 with respect to the pinion gear 7a.
Here, as shown in FIG. 3, the screwing position R <b> 1 is a position where the side opening 13 and the center O <b> 2 of the spool shaft 8 overlap each other when viewed from the axial direction of the handle shaft 5. The support position R2 is a position based on the axial center position of the front bearing 52. In FIG. 4, the meshing position R <b> 3 is a position based on the center position in the width direction of the tooth portion of the drive gear 6.

  According to the embodiment, since the circular lid member 30 is screwed and fixed with a uniform fastening force in the circumferential direction to the side opening 13 provided on the side portion of the body 10, the lid member 30 is attached. Sufficient strength can be secured. Since the mounting strength of the lid member 30 can be sufficiently secured, the support accuracy of the handle shaft 5 and thus the support accuracy of the drive gear 6 that meshes with the pinion gear 7a is improved and maintained. Further, the side opening 13 of the body 10 is reinforced by the screwed attachment of the circular lid member 30, and the strength of the body 10 itself is improved. Thereby, it is also possible to employ a large-diameter drive gear 6. In addition, a plurality of screws or the like for fixing the lid member 30 to the body 10 can be eliminated, the number of parts can be reduced, and the disassembly can be improved. Further, breakage of the screw can be prevented.

  Further, since the lid member 30 and the side opening 13 are circular, the load acting on the side opening 13 from the lid member 30 (for example, a load generated when operating the handle) is the side opening. 13 is uniformly distributed around the entire circumference. Therefore, the load (stress) is difficult to concentrate on a part of the body 10 (side opening 13), and the durability of the body 10 is excellent.

  On the other hand, the support accuracy of the pinion gear 7a can be increased by the front bearing 52 and the rear bearing 51. Thereby, the meshing accuracy (meshing state) between the pinion gear 7a and the drive gear 6 is maintained with high accuracy, and it is possible to improve the rotational performance, maintain the strength of the gear, and further improve the durability. Further, since the strength and durability of the body 10 itself (particularly around the side opening 13) are improved by the attachment of the lid member 30, the accuracy of supporting the pinion gear 7a by the front bearing 52 and the rear bearing 51 is further improved. To do.

  Further, since the handle shaft 5 is supported at the center portion of the lid member 30, the concentricity of the lid member 30 and the handle shaft 5 can be achieved, so that the support accuracy of the handle shaft 5 and hence the drive gear 6 is supported. Will increase.

  Further, since at least one of the front bearing 52 and the rear bearing 51 is provided on the body 10, at least one of the front part and the rear part of the pinion gear 7a is supported by the body 10 via the bearing, and thus the support accuracy of the pinion gear 7a Will increase.

  Moreover, since the rear bearing 51 can be assembled | attached through the side part opening part 13 because the rear part bearing 51 is located in the side part opening part 13 (inside accommodation space S1), it is excellent in assemblability.

  The body 10 is provided with a right central hole 23 for supporting the handle shaft 5, and the rear bearing 51 overlaps at least a part of the right bearing 5 b disposed in the right central hole 23 when viewed from the axial direction of the handle shaft 5. Therefore, space saving in the body 10 (inside the side opening 13) can be achieved. It is also possible to mount the right bearing 5b from the outside of the body 10.

Further, since the screwing position R1 between the side opening 13 and the lid member 30 is disposed in the vicinity of the front bearing 52, the periphery of the front bearing 52 is reinforced by fixing the lid member 30 by screwing. can do. In particular, when the side opening 13 is increased in diameter and the drive gear 6 is increased in diameter, the side opening 13 is located on the side of the front bearing 52 and the thickness around the front bearing 52 is relatively thin. However, it is possible to reinforce this by fixing the lid member 30 by screwing. Therefore, the support structure of the front bearing 52 can be strengthened, and the rotational performance and durability of the pinion gear 7a can be improved.
On the other hand, since the screw position R1 between the side opening 13 and the lid member 30 is disposed in the vicinity of the engagement position R3 of the drive gear 6 with respect to the pinion gear 7a, the drive gear 6 changes from the drive gear 6 to the pinion gear 7a at the engagement position R3. The input load can be suitably received by the front bearing 52 and the fixing structure of the lid member 30 on the side of the front bearing 52. Therefore, the rotation performance and durability of the pinion gear 7a can be improved.

  Further, by forming the contact surface 33b for obtaining the concentricity with the side opening 13 on the lid member 30, the center of the side opening 13 and the center of the lid member 30 coincide with each other. The tilt of the shaft 5 is prevented, and the rotational operability of the handle 5d and the meshing performance of the drive gear 6 are stably improved.

Moreover, since the rear opening 15 is provided, a constituent member having a desired size can be used without being limited by the size of the space in the reel body 1, so that the degree of freedom in design is increased. Further, since at least a part of the constituent members can be disposed behind the rear portion of the reel body 1, the reel body 1 can be reduced in size. Moreover, the front and rear stroke of the spool reciprocating device 70 can be suitably secured by effectively utilizing the space behind the rear portion of the reel body 1.
Further, since the strength of the rear portion of the body 10 can be ensured by the bridging portion 14, it is possible to improve the operability of the spool reciprocating device 70, and hence the winding operability.

In addition, since the guide shaft 71 of the spool reciprocating device 70 and the spool shaft 8 can be arranged in a balanced manner in the upper and lower internal spaces with the handle shaft 5 as a boundary, the reel body 1 can be downsized. A sufficient longitudinal stroke of the spool 3 can be ensured while achieving the above.
Further, since the drive gear 6 having an outer diameter similar to that of the circular side opening 13 can be accommodated, the diameter of the drive gear 6 can be increased as much as possible while reducing the size of the reel body 1. . Accordingly, it is possible to maintain a high speed gear ratio and strength.

As mentioned above, although embodiment of this invention was described, this invention is not limited to above-described embodiment, It can change variously.
For example, the handle shaft 5 may be structured to be cantilevered at least on the lid member 30 side and may not necessarily be supported by the right wall portion 21 of the body 10. In this case, as shown in FIG. 8, the handle shaft 5 can be excluded from the accommodation space S1, and accordingly, the accommodation space S1 is widened and the layout of the components in the accommodation space S1 is improved. . This increases the degree of freedom in designing a fishing spinning reel.

  The handle shaft 5 is not limited to be supported at the center of the lid member 30 and may be configured to be supported at a position displaced from the center.

  Moreover, you may comprise so that the front bearing 52 may be located in a side part opening part. By doing so, the body 10 can be further reduced in size.

  In the above-described embodiment, the slider 72 connected and fixed to the connecting portion 8a at the rear portion of the spool shaft 8 is engaged with the eccentric protrusion 75 of the interlocking gear 74 (component member) that rotates in conjunction with the handle shaft 5. The spool reciprocating device 70 that converts the rotation of the handle shaft 5 into the back and forth reciprocating motion of the spool shaft 8 has been described. However, the present invention is not limited to this. The present invention may be implemented in a spool reciprocating device in which a slider 72 is engaged with a screw shaft (component member).

DESCRIPTION OF SYMBOLS 1 Reel body 5 Handle shaft 6 Drive gear 7 Rotating shaft cylinder 7a Pinion gear 10 Body 13 Side part opening part 13b Female screw (female screw part)
21 Right wall (wall)
22 cylinder part 22a inner peripheral surface 24 support ribs 24c, 24d upper end part 24e lower end part 30 lid member 33 male screw (male screw part)
33b Contact surface (contact portion)

Claims (4)

A fishing spinning reel including a reel body having a body and a lid member that closes a side opening provided on a side portion of the body and rotatably supporting a handle shaft by at least the lid member. hand,
The body includes a wall portion and a cylindrical portion extending from the wall portion, and the side opening is provided at an end of the cylindrical portion,
The lid member itself is fastened and fixed to the side opening by screwing,
A support rib extending in the vertical direction is disposed inside the cylindrical portion,
The upper end portion and the lower end portion of the support rib are connected to the inner peripheral surface of the cylindrical portion,
A spinning reel for fishing, wherein the cylindrical portion and the support rib are integrally provided.   The fishing spinning reel according to claim 1, wherein the support rib is integrally protruded from the wall portion.   The fishing spinning reel according to claim 1, wherein the support rib supports a rear side of the pinion gear that meshes with a drive gear of the handle shaft. An internal thread portion provided in an inner peripheral portion of the side opening, and an external thread portion provided in an outer peripheral portion of the lid member and screwed into the internal thread portion,
The contact portion for contacting the inner peripheral surface and obtaining concentricity with the side opening is formed on the lid member. A spinning reel for fishing according to claim 1.

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