JP2011193835A5 - - Google Patents

Description

Single bearing reel

  The present invention relates to a fishing reel, and more particularly to a single bearing reel that can be mounted on a fishing rod.

  A single bearing reel in which a spool shaft is cantilevered on a reel body includes a reel body, a spool shaft that is cantilevered on the reel body, and a spool that is rotatably mounted on the spool shaft. The reel main body has a disk shape, and peripheral surface portions extending in the axial direction are provided on the outer peripheral portions facing each other. Further, a rod mounting portion (leg) for mounting a fishing rod is fixed to the outer surface of the reel body. The scissors mounting leg has a fixed portion that is fixed to the outer surface of the reel body, and a leg portion that is mounted radially outward of the spool.

  In such a single-bearing reel, the angler performs an operation of braking the spool by touching the spool with the tip of the finger of the hand holding the fishing rod. When performing a brake operation with a finger, it is convenient if the distance between the rod mounting portion and the brake operation portion (for example, the flange portion of the spool) by the spool finger can be changed by the length of the angler's finger and the finger used. In view of this, a single-bearing reel is conventionally known in which a reel body is composed of a frame that cantilever-supports a spool, and a hook mounting portion that is connected to the frame so as to be rotatable or linearly movable (for example, Patent Documents). 1).

  The conventional single-bearing reel is connected to the flange mounting portion so that the frame can be rotated radially outward of the spool. In another embodiment, the frame is connected to the heel mounting portion so as to be linearly movable. In the conventional configuration, in any of the embodiments, the frame and the hook mounting portion are fixed by tightening one shaft member (adjustment shaft) with a bolt member (adjustment screw). In the conventional single-bearing reel, the distance between the fishing rod and the brake operation portion by the finger of the spool is changed by rotating or linearly moving the rod mounting portion with respect to the frame.

Japanese Utility Model Publication No. 4-30865

  In the conventional configuration, the frame is rotated or linearly moved with respect to the saddle mounting portion using one shaft member. As a result, the distance between the fishing rod and the brake operation part by the finger of the spool varies. However, when the frame is fixed to the rod mounting portion using one shaft member, when a prey is applied to the mechanism and a strong load is applied to the reel, the stress may concentrate on the shaft member and the shaft member may break. .

  An object of the present invention is to make it difficult to break a fixing portion between a rod mounting portion and a frame in a single-bearing reel and to adjust a distance between a fishing rod and a brake operation portion by a finger.

  A single-bearing reel according to a first aspect of the invention is a reel that can be mounted on a fishing rod and can feed a fishing line forward, and includes a spool for spooling, a spool shaft, and a reel body. The spool shaft rotatably supports the spool. The reel main body includes a frame that supports the spool shaft, and a rod mounting portion that can be mounted on the fishing rod and is fixed to the frame so that the distance from the spool shaft can be changed. The frame includes a circular frame main body and a fixed convex portion provided so as to protrude in a circular shape including the shaft axis of the spool shaft, with a position eccentric to the spool shaft from the outer surface of the frame main body. The heel mounting portion has an inner peripheral surface that fits to the outer peripheral surface of the fixed convex portion.

  In this single-bearing reel, a fixed projection that protrudes in a circular shape including the axis of the spool shaft, with the rod mounting portion on which the fishing rod can be mounted centering on the position offset from the outer surface of the frame body with respect to the axis. The inner peripheral surface is fitted to the outer peripheral surface of the frame and fixed to the frame. For this reason, the distance between the hook mounting portion and the spool mounted on the spool shaft can be changed by changing the circumferential fixing position of the rod mounting portion. Here, since the fixed convex portion protrudes in a circular shape including the axis of the spool shaft, there is no great difference in the distance between the spool shaft on which the load acts due to the fishing line and the fixed portion of the fixed convex portion. For this reason, even if a load acts on the spool shaft, an extremely large moment does not act on the fixed portion of the outer peripheral surface of the fixed convex portion far from the spool shaft, and the fixed portion is not easily broken. Here, a brake operation with a fishing rod and fingers is performed by connecting the rod mounting portion and the frame by a fixed convex portion including the axis of the spool shaft and changing the circumferential fixing position of the rod mounting portion. The distance to the part is changed. For this reason, when the rod mounting portion is fixed to the eccentric fixed convex portion, the fixing portion between the rod mounting portion and the frame is not easily broken, and the distance between the fishing rod and the brake operation portion by the finger can be adjusted.

  The single-bearing reel according to a second aspect of the present invention is the reel according to the first aspect, wherein the saddle mounting portion has a fixed portion, an arm portion, and a mounting leg portion. The fixing portion has an inner peripheral surface and can be fixed to the frame at any one of a plurality of fixing positions in the circumferential direction of the outer peripheral surface of the fixing convex portion. The arm portion extends from the fixed portion to the outside of the frame and then bends to be arranged radially outward of the spool. The rod mounting portion is disposed in the front-rear direction at the tip of the arm portion and can be mounted on the fishing rod. In this case, the distance between the spool shaft and the flange mounting portion can be easily changed by positioning the ring-shaped fixing portion at a plurality of locations in the circumferential direction of the fixing convex portion eccentric to the spool shaft.

  A single-bearing reel according to a third aspect of the present invention is the reel according to the second aspect, wherein the fixing portion has a ring shape having an inner peripheral surface, and at least one bolt member for fixing can pass through the reel in the circumferential direction. It has a plurality of fixing holes arranged at a distance. The frame has a plurality of female screw portions that are arranged at intervals in the circumferential direction so as to be able to face the fixing holes on the outer side in the radial direction of the fixing convex portion and into which the bolt members are screwed. In this case, by screwing the bolt member into the female thread portion through the fixing hole, the flange mounting portion can be reliably fixed to the frame at a plurality of fixing positions having different distances from the spool shaft. Moreover, when it fixes with a some bolt member, while the bolt member becomes difficult to loosen by load, even if all the bolt members loosen, it becomes difficult to change a fixing position.

  A single-bearing reel according to a fourth aspect of the present invention is the reel according to the third aspect, wherein the frame main body and the fixed convex portion are formed separately. The frame main body has a mounting hole in which the fixed convex portion is mounted with the eccentric position as a center, and a plurality of passage holes arranged around the mounting hole so as to face the fixed hole. The fixed convex portion is disposed on the inner side surface of the frame body. The fixed convex portion includes a mounting portion having a diameter larger than that of the mounting hole, and a protruding portion that penetrates the mounting hole from the mounting portion and protrudes in a circular shape from the outer surface of the frame body. The plurality of female screw portions are disposed on the mounting portion so as to face the passage hole. In this case, since the frame main body and the fixed convex portion are separate bodies, it is easy to form the fixed convex portion. Further, since the female thread portion is formed at the mounting portion of the fixed convex portion, the shape of the frame body can be made a simple thin circle, and the formation of the frame body is facilitated. Furthermore, the frame body and the hook mounting portion can be fixed to the fixed convex portion with the same bolt member.

  A single-bearing reel according to a fifth aspect of the present invention is the reel according to the second aspect, wherein the frame body and the fixed convex portion are integrally formed. The fixing portion has a ring shape having an inner peripheral surface, and has a plurality of fixing holes through which at least one bolt member for fixing can pass and is arranged at intervals in the circumferential direction. The frame has a plurality of female screw portions that are arranged on the outer peripheral surface of the fixed convex portion at intervals in the circumferential direction so as to be able to face the fixing holes and into which the bolt members are screwed. In this case, since the female screw portion is formed on the outer peripheral surface of the fixed convex portion, the female screw portions are arranged radially. For this reason, even if the thin frame main body and the fixed convex portion are integrally formed by insert molding or the like, the female screw portion can be easily formed. Moreover, when it fixes with a some bolt member, while the bolt member becomes difficult to loosen by load, even if all the bolt members loosen, it becomes difficult to change a fixing position.

  The single-bearing reel according to a sixth aspect of the present invention is the reel according to any one of the third to fifth aspects, wherein the number of the plurality of female screw portions is larger than the number of the plurality of fixed holes. In this case, since the number of the female screw portions is larger than the number of the fixing holes, the fixing can be fixed at a place larger than the number of the fixing holes in the circumferential direction of the fixing protrusion. For this reason, the distance from the spool shaft can be changed more finely.

  A single-bearing reel according to a seventh aspect of the present invention is the reel according to any one of the second to sixth aspects, wherein the length of the arm portion in the front-rear direction is not less than 5 mm and not more than 20 mm. In this case, since the width of the arm portion is narrow, the single bearing reel can be held by sandwiching the arm portion with, for example, fingers such as the index finger and the middle finger, like a spinning reel.

  A single-bearing reel according to an eighth aspect of the present invention is the reel according to any one of the first to seventh aspects, wherein the spool is provided on a spool body rotatably supported by the spool shaft, and at one end close to the frame of the spool body. A first flange portion having a diameter larger than that of the spool body, and a second flange portion provided at the other end of the spool body and having a diameter larger than that of the spool body, and the outer diameter of the frame is the first flange portion. Is smaller than the outer diameter. In this case, since the outer diameter of the first flange portion of the spool is larger than the outer diameter of the frame, the first flange portion protrudes radially outward from the frame. For this reason, the brake operation with a finger can be performed in both the first flange portion and the second flange portion.

  The single-bearing reel according to a ninth aspect of the present invention is the reel according to the eighth aspect, wherein the first flange portion has a first annular protrusion formed on the outer peripheral portion so as to protrude toward the frame, and the frame is the first annular protrusion. At least one second annular projection formed on the inner circumferential side of the first annular projection and protruding so as to overlap the axial direction of the spool shaft. In this case, even if the fishing line wound around the spool falls from the first flange portion to the outside, it comes into contact with the second annular projection of the frame that overlaps the first annular projection of the first flange portion in the axial direction. For this reason, even if the diameter of the first flange portion is larger than that of the frame, it is possible to prevent the fishing line from entering the inside of the spool through the gap between the frame and the first flange portion and generating the bite.

  The single-bearing reel according to a tenth aspect of the present invention is the reel according to the ninth aspect, wherein the first annular protrusion is provided with a gap in the radial direction of the first flange portion with the second annular protrusion interposed therebetween. In this case, the number of portions that overlap in the axial direction between the spool and the frame increases.

  A single-bearing reel according to an eleventh aspect is the reel according to the ninth or tenth aspect, wherein the frame further includes a circumferential surface formed on the second annular protrusion. In this case, since the circumferential surface is formed on the second annular projection, even if the fishing line falls from the first annular projection to the second annular projection, the fishing line is difficult to enter inside the frame.

  A single-bearing reel according to a twelfth aspect of the present invention is the reel according to the eleventh aspect, wherein the outer surface is a flat surface substantially orthogonal to the spool shaft, and the frame gradually decreases in diameter from the circumferential surface toward the outer surface. It further has a yarn guide surface. In this case, even if the fishing line falls from the first annular protrusion to the circumferential surface, the fishing line is easily guided to the outer surface.

  According to the present invention, the fishing rod and the finger are connected by connecting the rod mounting portion and the frame by the fixed convex portion eccentric to the axis of the spool shaft and changing the fixing position in the circumferential direction of the rod mounting portion. The distance from the brake operation part is changed. For this reason, when the rod mounting portion is fixed to the eccentric fixed convex portion, the fixing portion between the rod mounting portion and the frame is not easily broken, and the distance between the fishing rod and the brake operation portion by the finger can be adjusted.

The front view of the single bearing reel by one Embodiment of this invention. The rear view. III-III sectional drawing of FIG. Sectional fragmentary drawing of the outer peripheral side of a 1st flange part and a flame | frame. The figure which shows the some mounting position of the heel mounting part. The figure equivalent to FIG. 2 of 2nd Embodiment. VII-VII sectional view of Drawing 6 of a 2nd embodiment. The figure equivalent to FIG. 2 of 3rd Embodiment.

  <First Embodiment>

1, 2, and 3, the single-bearing reel according to the first embodiment of the present invention includes a reel body 1, a spool shaft 2 that is cantilevered on the reel body 1, and is rotatable with respect to the spool shaft 2. And a spool 3 around which a fishing line is wound.
<Structure of reel body>

The reel body 1 includes a circular frame 10 that supports the spool shaft 2 and a rod mounting portion 12 for mounting a fishing rod RD that is detachably fixed to the frame 10. The frame 10 has a support hole 10a in which the spool shaft 2 is cantilevered. The frame 10 includes, for example, a disk-shaped frame main body 13 made of metal such as an aluminum alloy, and a fixed convex portion 14 made of metal such as aluminum alloy or made of synthetic resin provided on the frame main body 13. ing.
The frame main body 13 is an edged disk-shaped member formed by pressing a thin aluminum alloy plate. The frame body 13 is a circular member having a smaller diameter than the spool 3. The frame body 13 has an outer surface 10d that is disposed on the axially outer side (the right side in FIG. 3) of the spool shaft 2 with respect to a later-described first annular protrusion 36c of the spool 3. As shown in FIG. 4, the outer peripheral portion of the frame body 13 is curved so as to protrude toward the first flange portion 36 a side of the spool 3. The frame body 13 has a second annular protrusion 10e formed on the outer peripheral surface 10g at the tip so as to protrude toward the first flange portion 36a. The outer peripheral surface 10g on which the second annular protrusion 10e is formed is a circumferential surface disposed from the outer side (right side in FIG. 4) to the inner side (left side in FIG. 4) of the first annular protrusion 36c. That is, in the first embodiment, the base end of the outer peripheral surface 10g, which is a circumferential surface, is disposed axially outside the front end of the first annular protrusion 36c , and the front end of the outer peripheral surface 10g is the front end of the first annular protrusion 36c. It is arranged more axially inside. The surface that curves toward the outer surface 10d that is connected to the base end of the outer peripheral surface 10g of the frame main body 13 and is arranged outside the first annular protrusion 36c and gradually reduces the diameter of the fishing line that has fallen from the spool 3 A yarn guide surface 10f for guiding to 10d is configured. In the first embodiment, the yarn guide surface 10f is formed of a fillet-shaped curved surface 10h having a circular arc shape in cross section and a tapered surface 10i having a linear shape in cross section. The reduced diameter ratio of the curved surface 10h is gradually increased. Further, the taper surface 10i has the same diameter reduction ratio. The taper surface 10i is in contact with the inner side surface 22a of the arm portion 22 of the saddle mounting portion 12 at substantially the same radial position as the position where the first annular protrusion 36c on the inner peripheral side is formed. The diameter reduction ratio of the yarn guide surface 10f may be gradually decreased, gradually increased, or constant. Moreover, you may combine them.
By forming the yarn guide surface 10f having such a configuration, a finger of a hand having a fishing rod RD can be placed on the yarn guide surface 10f. For this reason, the brake operation by the finger can be performed only by sliding the finger placed on the yarn guide surface 10f on the first flange portion 36a, and the finger slid on the first flange portion 36a is simply returned to the yarn guide surface 10f by the finger. The brake operation can be released. For this reason, a brake operation and a release operation with a finger can be performed quickly and stably. If the outer surface 10d of the frame body 13 is on the inner side in the axial direction of the first annular protrusion 36c and there is no thread guide surface 10f protruding from the first flange portion 36a, there is no place for placing a finger. For this reason, when releasing the brake, the finger must be lifted away from the first flange portion, and it is difficult to perform the brake operation and the release operation with the finger quickly and stably.

  As shown in FIG. 3, the frame main body 13 is formed with a mounting hole 13a in which the fixed convex portion 14 is mounted around the shaft core C2 eccentric from the spool shaft core C1. A plurality of (for example, eight) passage holes 13b formed at intervals in the circumferential direction are formed on the outer side in the radial direction of the mounting hole 13a of the frame body 13.

  The fixed convex portion 14 is disposed on the inner side surface 13c of the frame main body 13, and has a mounting portion 14b having a larger diameter than the mounting hole 13a and a circular shape from the outer surface 10d of the frame main body 13 through the mounting hole 13a from the mounting portion 14b. And a protruding portion 14c that protrudes. The protrusion 14c protrudes from the outer surface 10d of the frame body 13 including the axis C1. A boss portion 10 b in which the support hole 10 a described above is formed along the shaft core C <b> 1 located at the center of the frame 10 is formed on the fixed convex portion 14 so as to protrude toward the tip end side of the spool shaft 2. In the first embodiment, the fixed convex portion 14 is formed separately from the frame main body 13, but may be formed integrally with the frame main body 13.

  The outer diameter of the outer peripheral surface 14 a of the fixed convex portion 14 (the outer peripheral surface of the protruding portion 14 c) is preferably 30 percent or more and 70 percent or less of the outer diameter of the spool 3. In the first embodiment, the outer diameter of the outer peripheral surface 14 a is approximately 50 percent of the outer diameter of the frame body 13. If the outer diameter of the outer peripheral surface 14a is less than 30%, the shaft diameter with respect to the load is not sufficient, and there is a risk of breakage. On the other hand, if it exceeds 70%, the adjustment range is narrowed.

  The protruding portion 14c protrudes so as to include the spool shaft core C1 around the shaft core C2. Thereby, the moment which acts on a fixed part resulting from a load can be made small. A circular opening 14d centering on the axis C2 is formed at the tip of the protrusion 14c. The opening 14d is formed for screwing the fixing bolt 26 and for weight reduction. The opening 14d is closed by a name plate (not shown).

  As shown in FIGS. 2 and 3, the mounting portion 14 b of the fixed convex portion 14 has a plurality of female screw portions 18 that are arranged at intervals in the circumferential direction outward in the radial direction of the protruding portion 14 c. The female screw portion 18 is a screw hole into which a bolt member 16 for fixing the heel mounting portion 12 to the frame 10 is screwed. The female screw portion 18 is formed along the axial direction. The bolt member 16 is, for example, a countersunk head bolt. In the first embodiment, the saddle mounting portion 12 is fixed by four bolt members 16. The bolt member 16 fixes the heel mounting portion 12 to the frame 10 and also fixes the frame body 13 sandwiched between the heel mounting portion 12 and the mounting portion 14 b to the fixed convex portion 14.

  The eaves mounting portion 12 is a member made of a metal such as an aluminum alloy or a synthetic resin such as a polyamide resin impregnated with short glass fibers. The scissors mounting portion 12 has a fixing portion 20 that can be fixed to the frame 10 at any of a plurality of fixing positions at different distances from the spool shaft 2, an arm portion 22, and a mounting leg portion 24. The fixed portion 20 has a ring shape having an inner peripheral surface 20 b that fits with the outer peripheral surface 14 a of the fixed convex portion 14. The fixing part 20 has a plurality of fixing holes 20a arranged at intervals in the circumferential direction. The fixing hole 20 a is formed along the axial direction of the spool shaft 2 so as to be able to face the female screw portion 18.

  It is preferable that the number of the internal thread portions 18 is larger than the number of the fixing holes 20a. This is because when the number of female screw portions is reduced and the number of fixing holes is increased, fixing holes that are not used for fixing are exposed on the surface of the fixing portion. In the first embodiment, the number of the female screw portions 18 is eight, and the number of the fixing holes 20a is four. As described above, when the female screw portion 18 is larger than the fixing hole 20a, the unused female screw portion 18 is covered with the fixing portion 20 and is not exposed to the outside. In the first embodiment, as shown in FIG. 5, the hook mounting portion 12 can be fixed to the frame 10 at any one of eight circumferential fixing positions F <b> 1-F <b> 8 using four bolt members 16.

  As shown in FIGS. 2 and 3, the arm portion 22 is integrally formed with the fixed portion 20. The arm portion 22 extends from the fixed portion 20 to the outer side in the radial direction of the frame 10, and then bends to be arranged at the outer side in the radial direction of the spool 3. The length L of the arm part 22 in the front-rear direction (left-right direction in FIG. 2) is 5 mm or more and 20 mm or less, preferably 5 mm or more and 15 mm or less. As described above, when the length (width) L in the front-rear direction of the arm portion 22 is shortened, the single bearing reel can be held with the arm portion 22 sandwiched between two fingers having a fishing rod RD. The arm portion 22 gradually increases in thickness from the connecting portion with the fixed portion 20, and has the maximum thickness on the near side of the curved portion.

  The mounting leg portion 24 is formed integrally with the arm portion 22. The mounting leg portion 24 is disposed at the front end of the arm portion 22 in the front-rear direction and can be mounted on the fishing rod RD. Therefore, the mounting leg 24 has a mounting surface 24a having a circular arc shape in cross section that can contact the fishing rod RD on the upper surface.

In the reel main body 1 having such a configuration, the hook mounting portion 12 that fits to the outer peripheral surface of the fixed convex portion 14 that protrudes in a circular shape with the center C2 as the position eccentric from the axis C1 of the spool shaft 2 is fixed to the frame 10. doing. For this reason, as shown in FIG. 5, distances D1-D8 between the mounting surface 24a of the saddle mounting portion 12 and the axis C1 of the spool shaft 2 at eight fixed positions F1-F8 in the circumferential direction of the saddle mounting portion 12. Different. Specifically, the distance D1-D5 gradually increases from the fixed position F1 toward the fixed position F5, and the distance D5-D1 decreases gradually from the fixed position F5 toward the fixed position F1. For this reason, by fixing the heel mounting portion 12 to the frame 10 at any one of the eight fixing positions F1-F8, the distance from the heel mounting portion 12 spool shaft 2, that is, the radial position of the heel mounting portion 12 is determined. Can be changed. At the same time, the distances S1-S8 between the axial center C1 of the spool shaft 2 and the center position C3 in the front-rear direction of the rod mounting portion 12 are different at the eight fixed positions F1-F8. Therefore, the front-rear position of the collar mounting portion 12 with respect to the spool shaft can also be changed. The distance S1 and the distance S5 are “0” and are not shown in FIG. Therefore, the heel mounting portion 12 can be fixed to any of the eight fixed positions F1-F8 in which the combination of the front-rear position and the radial position is different.
<Configuration of spool shaft>

As shown in FIG. 3 , the small diameter portion 2 a at the base end of the spool shaft 2 is fitted in a support hole 10 a formed in the fixed convex portion 14 of the frame 10. The spool shaft 2 is fixed to the fixed convex portion 14 of the frame 10 by a fixing bolt 26 screwed into the base end surface. At the tip of the spool shaft 2, a first annular groove 2b and a head 2c having a diameter larger than that of the first annular groove 2b and a tapered tip are formed. A bush mounting portion 2d to which the bush 21 is mounted is formed adjacent to the first annular groove 2b. The proximal end side of the bush mounting portion 2d is formed to have a larger diameter than the bush mounting portion 2d, and a second annular groove 2e is formed there.
<Spool configuration>

As shown in FIG. 3 , the spool 3 can be attached / detached to / from the spool shaft 2 by a one-touch attachment / detachment mechanism 6. The spool 3 includes a bobbin trunk 35 that is rotatably supported by the spool shaft 2, and a first flange portion 36a and a second flange portion 36b, which are integrally formed. These may be constituted separately.

  The bobbin trunk 35 includes a cylindrical bobbin 35a on which an fishing line can be wound around an outer peripheral surface, a support tube 37 that is rotatably supported by the spool shaft 2 on the inner peripheral side of the bobbin 35a, and a bobbin 35a. And a disk-shaped connecting portion 38 that connects the support cylinder portion 37 to each other. The support cylinder portion 37 is a cylindrical member having a through-hole 37 a through which the spool shaft 2 can pass, and the distal end side is closed by a lid member 31 constituting the one-touch attachment / detachment mechanism 6. A first bearing 40 and a second bearing 42 for rotatably supporting the spool 3 on the spool shaft 2 are mounted between the through hole 37a and the spool shaft 2 with an interval in the axial direction. The second bearing 42 is positioned by a retaining member 43 attached to the second annular groove 2e.

  The connecting portion 38 has a disk shape that connects the bobbin portion 35 a and the support tube portion 37. A handle handle 44 for rotating the spool 3 and a balance weight 46 arranged at an interval of 180 degrees in the circumferential direction of the handle handle 44 are attached to the connecting portion 38.

  The first flange portion 36 a is a disc-shaped member formed integrally with the bobbin trunk 35 at one end of the bobbin trunk 35. The first flange portion 36 a is formed to face the frame 10 of the reel body 1. The outer diameter of the first flange portion 36 a is larger than the outer diameter of the frame 10.

  As shown in FIG. 4, two first annular protrusions 36 c are formed on the outer peripheral surface of the first flange portion 36 a so as to protrude outward in the axial direction toward the frame 10 with a gap in the radial direction. ing. The first annular protrusion 36c on the outer peripheral side is disposed radially outward of the second annular protrusion 10e and protrudes toward the frame 10 so as to overlap in the axial direction of the spool shaft 2. The first annular protrusion 36c on the inner peripheral side is disposed on the inner peripheral side of the second annular protrusion 10e, and protrudes so as to overlap the second annular protrusion 10e in the axial direction.

As shown in FIG. 3, the second flange portion 36 b is formed integrally with the other end portion of the bobbin trunk 35 so as to cover the open portion of the reel body 1. In the first embodiment, the second flange portion 36b is formed to have the same diameter as the first flange portion 36a. However, the second flange portion 36b may have a diameter different from that of the first flange portion 36a. For example, the second flange portion 36b may have a smaller diameter than the first flange portion 36a.
<Configuration of one-touch attachment / detachment mechanism>

As shown in FIG. 3 , the one-touch attachment / detachment mechanism 6 includes a spring member 30 made of an elastic wire that is locked in the first annular groove 2 b of the spool shaft 2, and a support cylinder portion 37 for preventing the spring member 30 from coming off. It has a lid member 31 screwed and fixed to the tip, a push button 32 attached to the lid member 31 so as to be axially movable, and a bush 21 for disposing the spring member 30 between the lid member 31. Yes. The bush 21 regulates the circumferential position of the push button 32.

  The spring member 30 is a spring for mounting the spool 3 on the spool shaft 2 so as not to move in the axial direction. The spring member 30 also has a function of urging the push button 32 forward (leftward in FIG. 3). The spring member 30 is formed by bending an elastic wire, and generates a forward biasing force when deformed.

In the one-touch attaching / detaching mechanism 6 having such a configuration, when the push button 32 is pressed, the spring member 30 is detached from the first annular groove 2b and the spool 3 can be detached from the spool shaft 2. When the spool 3 is mounted on the spool shaft 2, the spring member 30 spreads and then is locked in the first annular groove 2 b and mounted on the spool shaft 2 so as not to come off.
Next, a method for fixing the heel mounting portion 12 will be described.

  For example, a person with short fingers, such as a woman, attaches the heel mounting part 12 to the frame 10 at the fixed position F1 in FIG. Then, the index finger or middle finger of the hand holding the fishing rod RD is close to the spool 3, and it becomes easy to perform a brake operation with the finger on the spool 3. A person with a long finger uses, for example, one of the fixed positions F2 to F8. At the fixed position F <b> 2-F <b> 4, the shaft center C <b> 1 of the spool shaft 2 moves forward from the center C <b> 3 of the saddle mounting portion 12. Further, at the fixed position F <b> 6-F <b> 8, the shaft core C <b> 1 of the spool shaft 2 moves rearward from the center C <b> 3 of the rod mounting part 12.

On the other hand, the single-bearing reel can be held with the arm portion 22 of the saddle mounting portion 12 sandwiched like a spinning reel. In this case, it is preferable to use the fixed positions F3-F7. Then, the clearance gap between the mounting leg part 24 and the flame | frame 10 becomes large, and a finger can be passed between them. For this reason, for example, the arm portion 22 is bent between the index finger and the middle finger, and the mounting leg portion 24 can be gripped together with the fishing rod RD. Even in such a case, it becomes easier to perform a brake operation with the finger by changing the fixed position according to the length of the finger.
Second Embodiment
In the first embodiment, a plurality of (for example, eight) female screw portions 18 are disposed radially outward of the fixed convex portion 14, but the positions of the female screw portions are not limited to those in the first embodiment.

  In the second embodiment, although the shape is different from that of the first embodiment, parts having the same function are indicated by adding reference numerals obtained by adding 100 to the reference numerals of the first embodiment. Further, description of the parts having the same configuration as in the first embodiment is omitted.

  As shown in FIGS. 6 and 7, the single-bearing reel according to the second embodiment is different from the first embodiment in the fixed shape of the flange mounting portion 112 of the frame 110 of the reel body 101. In the second embodiment, the frame main body 113 and the fixed convex portion 114 are integrally formed. In the second embodiment, a plurality of female screw portions 118 are radially arranged on the outer peripheral surface 114a of the fixed convex portion 114 along the radial direction. Therefore, the axial dimension of the fixed convex portion 114 is large. A plurality of fixing holes 120 a are formed along the radial direction of the fixing portion 120. In the second embodiment, the fixed portion 120 has a slightly larger axial dimension than the first embodiment, but the radial dimension is smaller than that of the first embodiment. In the second embodiment, as an example, the number of fixing holes 120a is three, and the number of female screw portions 118 is twelve. Therefore, in the second embodiment, the heel mounting portion 112 is fixed to the frame 110 with the three bolt members 116. Further, the number of fixed positions is 12 in the second embodiment.

In this case, to form the female screw portion 118 on the outer peripheral surface 114a of the securing boss 114, so that by placing the fixing hole 120a along the radial direction fixing portion 12 0, the axial direction of the fixing protrusion 114 and the fixing portion 120 The dimension of becomes larger. However, an increase in the overall mass can be suppressed by reducing the dimensions in the radial direction.
<Third Embodiment>
In 1st Embodiment and 2nd Embodiment, although the collar mounting part is being fixed to the flame | frame with the volt | bolt member, this invention is not limited to this.

  In the third embodiment, parts having the same functions as those of the first embodiment are illustrated with reference numerals obtained by adding 200 to the reference numerals of the first embodiment. Further, description of the parts having the same configuration as in the first embodiment is omitted.

  As shown in FIG. 8, in the single-bearing reel of the third embodiment, in the frame 210, the frame main body 213 and the fixed projection 214 are integrally formed by insert molding, for example. The frame body is made of a metal such as an aluminum alloy, and the fixed projection 214 is made of a synthetic resin such as a polyamide resin impregnated with short glass fibers. A male screw portion 218 is formed on the outer periphery of the axial end of the fixing convex portion 214 of the frame 210 of the reel body 201, and the fixing portion 220 is fixed by a nut 216. In this case, a positioning portion 250 is provided for positioning the fixing portion 220 in the circumferential direction.

  As shown in an enlarged view in part A of FIG. 8, the positioning part 250 has, for example, positioning pins 252 and positioning recesses 254. The positioning pin 252 is biased toward the positioning recess 254 by the spring member 256. The positioning pin 252 is mounted on the fixed projection 214 so as to be movable in the radial direction in a mounting recess 214b formed along the radial direction so as to open to the outer peripheral surface 214a. The positioning pin 252 has a hemispherical head portion 252a and a shaft portion 252b having a smaller diameter than the head portion 252a. A spring member 256 in the form of a coil spring, for example, is disposed in a compressed state on the outer peripheral side of the shaft portion 252b. A plurality of the positioning recesses 254 are arranged on a part of the inner peripheral surface 220b of the fixed portion 220 with a gap in the circumferential direction. The positioning recess 254 is formed to be recessed in a chipped spherical or semicircular shape, for example.

  In the third embodiment, the outer diameter of the fixed convex portion 214 is smaller than that of the first embodiment, and the dimension in the axial direction is large. Further, the outer diameter of the fixing portion 220 is approximately the same as that of the second embodiment.

In the single-bearing reel having such a configuration, the hook mounting portion 212 can be fixed at all positions positioned by the positioning portion 250. That is, as many fixed positions as the number of positioning recesses 254 are obtained. In addition, the fixing position can be changed simply by loosening without removing the nut 216.
<Features>

(A) The single-bearing reel is a reel that is mounted on a fishing rod and can feed out a fishing line forward. The single bearing reel includes a spool 3 for spooling, a spool shaft 2, and a reel body 1 (101, 201). The spool shaft 2 rotatably supports the spool 3. The reel body 1 (101, 201) can be mounted on the fishing rod RD and the frame 10 (110, 210) that supports the spool shaft 2, and the distance between the spool shaft 2 and the frame 10 (110, 210) can be changed. And a heel mounting portion 12 (112, 212) fixed to the head. Frame 10 (110, 210) includes a circular frame body 13 (113, 213), position (the axis of the eccentric with the axis C1 of the spool shaft 2 from the outer surface of the frame body 13 (113 and 213) A fixing projection 14 (114, 214) provided so as to protrude in a circular shape including the axis C1 of the spool shaft 2 with the core C2) as a center, and a hook mounting portion 12 (112, 212) Has an inner peripheral surface 20b (120b, 220b) that fits to the outer peripheral surface 14a (114a, 214a) of the fixed convex portion 14 (114, 214).

  In this single-bearing reel, the outer peripheral surface of the fixed convex portion 14 (114, 214) in which the rod mounting portion 12 (112, 212) to which the fishing rod RD can be mounted protrudes in a circular shape from the position eccentric to the spool shaft 2 The inner peripheral surface 20b (120b, 220b) is fitted to 14a (114a, 214a) and fixed to the frame 10 (110, 210). For this reason, the distance between the collar mounting portion 12 (112, 212) and the spool 3 mounted on the spool shaft 2 is changed by changing the circumferential fixing position of the collar mounting portion 12 (112, 212). Can do. Here, since the fixed convex portion 14 (114, 214) protrudes in a circular shape including the axis of the spool shaft 2, the spool shaft and the fixed convex portion 14 (114, 214) on which a load acts due to the fishing line. There is no significant difference in the distance from the fixed part. Therefore, even if a load is applied to the spool shaft 2, an extremely large moment is applied to the fixed portion of the outer peripheral surface 14a (114a, 214a) on the side farther from the spool shaft 2 of the fixed convex portion 14 (114, 214). The fixed portion (for example, the bolt member 16 (116)) is not easily broken. Here, the hook mounting portion 12 (112, 212) and the frame 10 (110, 210) are connected by the fixed convex portion 14 (114, 214) eccentrically including the axis C1 of the spool shaft 2, and the hook The distance between the fishing rod RD and the brake operation part by the finger is changed by changing the circumferential fixed position of the mounting portion 12 (112, 212). Therefore, when the heel mounting portion 12 (112, 212) is fixed to the eccentric fixed convex portion 14 (114, 214), the fixing portion between the heel mounting portion 12 (112, 212) and the frame 10 (110, 210). Becomes difficult to break, and the distance between the fishing rod RD and the brake operation part by the finger can be adjusted.

(B) In the single-bearing reel, the saddle mounting portion 12 (112, 212) includes a fixing portion 20 (1 1 0, 2 1 0), an arm portion 22 (122, 222), and a mounting leg portion 24 (224). And have. The fixed portion 20 (120, 220) has an inner peripheral surface 20b (120b, 220b), and a plurality of fixed positions in the circumferential direction of the outer peripheral surface 14a (114a, 214a) of the fixed convex portion 14 (114, 214). Either can be fixed to the frame 10 (110, 210). The arm portion 22 (122, 222) extends from the fixed portion 20 (120, 220) to the outside of the frame 10 (120, 220) and then bends to be arranged radially outward of the spool 3. The mounting leg 24 (224) is disposed in the front-rear direction at the tip of the arm 22 (122, 222) and can be mounted on the fishing rod RD. In this case, by positioning the ring-shaped fixing portions 20 (120, 220) at a plurality of locations in the circumferential direction of the fixing convex portions 14 (114, 214) eccentric to the spool shaft 2, the spool shaft 2 and the distance between the heel mounting portion 12 (112, 212) can be easily changed.

  (C) In the single-bearing reel, the fixed portion 20 has a ring shape having an inner peripheral surface 20b, and a plurality of fixed bolt members 16 can pass therethrough and are arranged at intervals in the circumferential direction. Fixed hole 20a. The frame 10 has a plurality of female screw portions 18 disposed on the outer surface 10d radially outward of the fixed convex portion 14 and spaced apart in the circumferential direction so as to face the fixed hole 20a. In this case, the bolt member 16 is screwed into the female screw portion 18 through the fixing hole 20a, so that the rod mounting portion 12 can be reliably fixed to the frame 10 at a plurality of fixing positions having different distances from the spool shaft 2. Moreover, when it fixes with the several bolt member 16, while it becomes difficult to produce the looseness of the bolt member 16 by a load, even if all the bolt members 16 loosen, it becomes difficult to change a fixing position.

  (D) In the single-bearing reel, the frame main body 13 and the fixed convex portion 14 are configured separately. The frame body 13 has a mounting hole 13a in which the fixed convex portion 14 is mounted with the eccentric shaft core C2 as the center, and a plurality of through holes 13b arranged around the mounting hole 13a so as to face the fixed hole. . The fixed convex portion 14 is disposed on the inner side surface 13 c of the frame body 13. The fixed convex portion 14 includes a mounting portion 14b having a diameter larger than that of the mounting hole 13a, and a protruding portion 14c that penetrates the mounting hole 13a from the mounting portion 14b and protrudes in a circular shape from the outer surface 10d of the frame body 13. The plurality of female screw portions 18 are disposed on the mounting portion 14b so as to face the passage hole 13b. In this case, since the frame main body 13 and the fixed convex portion 14 are separate bodies, the fixed convex portion 14 is easily formed. Moreover, since the internal thread part 18 is formed in the mounting part 14b of the fixed convex part 14, the shape of the frame main body 13 can be made into a thin simple circle, and the formation of the frame main body 13 becomes easy. Furthermore, the frame main body 13 and the heel mounting portion 12 can be fixed to the fixed convex portion 14 with the same bolt member 16.

  (E) In the single-bearing reel, the frame main body 113 and the fixed projection 114 are integrally formed. The fixing portion 120 has a ring shape having an inner peripheral surface, and has a plurality of fixing holes 120a through which at least one bolt member 116 for fixing can pass and which are arranged at intervals in the circumferential direction. The frame 110 has a plurality of female screw portions 118 that are arranged on the outer peripheral surface of the fixed convex portion 114 at intervals in the circumferential direction so as to be opposed to the fixing hole 120a and into which the bolt members 116 are screwed. In this case, since the female screw part 118 is formed on the outer peripheral surface of the fixed convex part 114, the female screw part 118 is arranged radially. For this reason, even if the thin frame main body 113 and the fixed convex portion 114 are integrally formed, the female screw portion 118 can be easily formed. Further, when the plurality of bolt members 116 are fixed, the bolt members 116 are less likely to be loosened by a load, and the fixing position is not easily changed even if all the bolt members 116 are loosened.

  (F) The number of the plurality of female screw portions 18 (118) is larger than the number of the plurality of fixing holes 20a (120a). In this case, since the number of the female screw portions 18 (118) is larger than the number of the fixing holes 20a (120a), the fixing portion 14 (114) is fixed at a place larger than the number of the fixing holes 20a (120a) in the circumferential direction. it can. For this reason, the distance from the spool shaft 2 can be changed more finely.

  (G) In the single-bearing reel, the length of the arm portion 22 (122, 222) in the front-rear direction is not less than 5 mm and not more than 20 mm. In this case, since the width of the arm portion 22 (122, 222) is narrow, the single-bearing reel is sandwiched between fingers such as an index finger and a middle finger, for example, like a spinning reel. Can be held.

  (H) In the single-bearing reel, the spool 3 includes a bobbin trunk 35 that is rotatably supported by the spool shaft 2 and a bobbin bobbin provided at one end of the bobbin trunk 35 close to the frame 10 (110, 210). A first flange portion 36 a having a diameter larger than 35 and a second flange portion 36 b provided at the other end of the bobbin trunk portion 35 and having a larger diameter than the bobbin trunk portion 35. The outer diameter of the frame 10 (110, 210) is smaller than the outer diameter of the first flange portion 36a. In this case, since the outer diameter of the first flange portion 36a of the spool 3 is larger than the outer diameter of the frame 10 (110, 210), the first flange portion 36a is radially outward from the frame 10 (110, 210). Protruding. For this reason, a brake operation with a finger can be performed in either the first flange portion 36a or the second flange portion 36b.

  (I) In the single-bearing reel, the first flange portion 36a has a first annular protrusion 36c formed to protrude toward the frame 10 (110, 210) on the outer peripheral portion, and the frame 10 (110, 210) The at least one second annular protrusion 10e is disposed on the inner peripheral side of the first annular protrusion 36c with a gap, and protrudes so as to overlap the axial direction of the first annular protrusion 36c and the spool shaft 2. Have. In this case, even if the fishing line wound around the spool 3 falls from the first flange portion 36a to the outside, the second of the frame 10 (110, 210) that overlaps the first annular protrusion 36c of the first flange portion 36a in the axial direction. It contacts the annular protrusion 10e. For this reason, even if the diameter of the first flange portion 36a is larger than that of the frame 10 (110, 210), the fishing line enters the spool 3 through the gap between the frame 10 (110, 210) and the first flange portion 36a. Biting can be prevented from occurring.

  (J) In the single-bearing reel, two first annular protrusions 36c are provided at an interval in the radial direction of the first flange portion 36a with the second annular protrusion 10e interposed therebetween. In this case, the number of overlapping portions in the axial direction between the spool 3 and the frame 10 (110, 210) increases, so that it is possible to further prevent the thread from being caught.

  (K) In the single-bearing reel, the frame 10 (110, 210) further includes a circumferential surface 10g formed on the second annular protrusion 10e. In this case, since the circumferential surface 10g is formed on the second annular protrusion 10e, even if a fishing line falls from the first annular protrusion 36c to the second annular protrusion 10e, it is located inside the frame 10 (110, 210). Fishing line is hard to enter.

(L) In the single-bearing reel, the outer surface 10d (110d, 210d) is a flat surface substantially orthogonal to the spool shaft 2, and the frame 10 (110, 210) faces the outer surface 10d from the circumferential surface 10g. The yarn guide surface 10f gradually decreases in diameter. In this case, even if the fishing line falls from the first annular protrusion 36c to the circumferential surface 10g, the fishing line is easily guided to the outer surface 10d.
<Other embodiments>
As mentioned above, although one Embodiment of this invention was described, this invention is not limited to the said embodiment, A various change is possible in the range which does not deviate from the summary of invention.

(A) In the three embodiments, the single-bearing reel has no drag mechanism. However, the present invention is not limited to this and can be applied to a single-bearing reel having a drag mechanism. Further, the first flange portion was larger diameter than the frame, it can be applied to small pieces bearing reel from the frame. Furthermore, the present invention can be applied to all single-bearing reels such as a single-bearing reel that shifts the rotation of the handle and transmits it to the spool.

  (B) In the three embodiments, the fixed positions are provided at regular intervals in the circumferential direction, but the fixed positions may be provided at irregular intervals in the circumferential direction. In this case, it does not have to be an integral multiple of the fixing hole of the female screw portion.

  (C) In the first embodiment, the two first annular protrusions 36c and the one second annular protrusion 10e are exemplified, but the present invention is not limited to this. There may be any number of the first annular protrusions and the second annular protrusions as long as there is at least one. However, from the viewpoint of ease of manufacture, up to three is preferable.

DESCRIPTION OF SYMBOLS 1 Reel main body 2 Spool axis | shaft 3 Spool 6 One-touch attachment / detachment mechanism 10 Frame 10d Outer side surface 10e 2nd cyclic | annular protrusion 10f Thread guide surface 12 Reed mounting part 14 Fixed convex part 14a Outer peripheral surface 16 Bolt member 18 Female thread part 20 Fixed part 20a Fixed hole 20b the inner peripheral surface 22 arm portion 24 mounting legs 35 bobbin trunk 36a first flange portion 36b second flange portion 36c first annular projection 37 supporting tube portion 101 the reel unit 110 frame 112 Sao mounting portion 114 securing boss 114a outer peripheral surface 116 Bolt member 118 Female thread portion 120 Fixed portion 120a Fixed hole 201 Reel body 210 Frame 212 竿 Mounting portion 214 Fixed convex portion 214a Outer peripheral surface 220 Fixed portion 220b Inner peripheral surface