JP3610171B2 - Fishing reel - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a fishing reel, and in particular, a winding state in which a rotational driving force is transmitted from a handle rotatably supported on the side plate to a spool rotatably supported between side plates of the reel body. And a clutch mechanism that can be switched between a spool-free state in which transmission of rotational driving force from the handle to the spool is interrupted, and an operation member of the clutch mechanism is provided on the reel unit with a spool winding operation position and a spool-free operation position. It is related to the fishing reel supported displaceably between.
[0002]
[Prior art]
This type of fishing reel is already known from, for example, JP-A-7-46954 and JP-B-6-47268. Japanese Patent Application Laid-Open No. 7-46954 and Japanese Utility Model Publication No. 6-47268 also disclose a clutch return mechanism that switches a clutch mechanism in a spool-free state to a winding state by inputting a rotational driving force to a handle shaft. .
[0003]
[Problems to be solved by the invention]
In these conventional fishing reels, a clutch shaft that is rotatably supported by a side plate and coupled to a handle and has an output gear, and a clutch mechanism that meshes with the output gear of the handle shaft that is rotatably supported by the side plate. The operation member of the clutch mechanism is disposed on the upper portion of the side plate except in a region between the support shaft having the input gear coupled to the spool via the shaft. For this reason, the outer dimensions of the reel main body are long in the front-rear direction along the direction in which the fishing line is drawn from the reel main body, and the conventional fishing reel is used when operating the fishing rod attached with the conventional fishing reel. The inertial force generated by this damages the operability of the fishing rod.
[0004]
The present invention has been made based on the above circumstances, and an object of the present invention is to make the outer dimensions of the reel body in the front-rear direction along the direction of drawing the fishing line from the reel body smaller than the conventional fishing reel described above. For this purpose, when operating the fishing rod with the fishing reel of the present invention, the inertial force generated by the fishing reel of the present invention when operating the fishing rod with the fishing reel of the present invention is operated. Compared to the fishing rod with the conventional fishing reel described above, the operability of the fishing rod with the fishing reel of the present invention can be reduced compared to the inertial force generated by the conventional fishing reel. It is to provide a fishing reel that can be improved.
[0005]
[Means for Solving the Problems]
In order to achieve the above-described object of the present invention, a fishing reel according to the present invention is rotated from a handle rotatably supported by the side plate on a spool rotatably supported between the side plates of the reel body. A clutch mechanism that can be switched between a winding state that transmits driving force and a spool-free state that blocks transmission of rotational driving force from the handle to the spool is provided, and the operation member of the clutch mechanism is spooled around the reel body. In a fishing reel that is supported so as to be displaceable between a take-off operation position and a spool-free operation position, a handle shaft having an output gear that is rotatably supported by the side plate and connected to the handle; The side plate is rotatably supported, meshes with the output gear of the handle shaft, and is connected to the spool via a clutch mechanism. Can be rotated concentrically and slidable in the longitudinal direction The operation member of the clutch mechanism on the upper part of the side plate between the support shaft having the input gear The operation button at the upper end of the operation lever Is placed and operated lever Moves between the spool winding operation position and the spool free operation position in the rotation direction of the clutch drive member that is rotatably supported around the support shaft, thereby rotating the clutch drive member.
[0006]
In the fishing reel constructed as described above, a handle shaft having an output gear supported rotatably on the side plate and connected to the handle, and rotatably supported on the side plate. Meshed with the output gear of the handle shaft and connected to the spool via a clutch mechanism Can be rotated concentrically and slidable in the longitudinal direction The operation member of the clutch mechanism on the upper part of the side plate between the support shaft having the input gear The operation button at the upper end of the operation lever Is placed and operated lever Moves between the spool winding operation position and the spool free operation position in the rotation direction of the clutch drive member supported rotatably about the support shaft, and rotates the clutch drive member. The outer dimensions of the reel body in the front-rear direction along the direction in which the fishing line is led out from the body can be made smaller than the conventional fishing reel described above. For this purpose, a fishing rod equipped with the fishing reel of the present invention is provided. The inertial force generated by the fishing reel of the present invention when operating is made smaller than the inertial force generated by the conventional fishing reel when operating the fishing rod attached with the above-described conventional fishing reel. Therefore, the operability of the fishing rod to which the fishing reel of the present invention is attached can be improved as compared with the fishing rod to which the above-described conventional fishing reel is attached.
[0007]
The fishing reel, which is configured as described above, includes a clutch return mechanism that switches a clutch mechanism in a spool-free state to a winding state by inputting a rotational driving force to the handle shaft. I can do it.
[0008]
The clutch return mechanism includes an engagement protrusion that rotates concentrically around the handle shaft together with the output gear of the handle shaft, and the engagement protrusion as the clutch mechanism changes from a winding state to a spool-free state. Rotation driving force is input from the handle to the handle shaft while moving from the non-engagement position separated from the movement locus to the engagement position entering the movement locus of the engagement protrusion and being arranged at the engagement position. When the handle shaft is rotated in a predetermined direction, the clutch is pressed by the engagement protrusion to move from the engagement position to the non-engagement position, and the clutch mechanism changes the clutch mechanism from the spool free state to the winding state. And a member.
[0009]
Here, the engagement protrusion can be constituted by a claw of a claw wheel concentrically connected to the handle shaft or the output gear and rotating together with the handle shaft or the output gear, and concentric with the handle shaft or the output gear. Can be constituted by a fixed protrusion fixed on a concentric circle with respect to the handle shaft or the output gear on the side surface of the rotary drive member that is connected to the handle shaft or the output gear, or to the output gear on the side surface of the output gear. It can comprise by the fixed protrusion fixed on the concentric circle.
[0010]
The clutch return member can be formed independently of the clutch mechanism. In this case, the clutch return member can be disposed on the upper side or the lower side of the side plate between the handle shaft and the support shaft.
[0011]
The clutch return mechanism having the clutch return member that is independent and arranged as described above is a conventional fish that has the above-described outer dimensions of the reel body in the front-rear direction along the direction in which the fishing line is led out from the reel body. This makes it easier to make it smaller than a fishing reel.
[0012]
When the input gear is movable between the connection position where the input gear is connected to the spool along the longitudinal center line of the support shaft and the connection release position where the connection with the spool is released, the clutch mechanism is connected to the input gear. A clutch plate that allows the input gear to rotate and follows the movement between the coupling position and the coupling release position of the input gear and biases the input gear to the coupling position, and is supported rotatably around the support shaft. When the operation member is displaced from the spool winding operation position to the spool free operation position, the operation member rotates in one direction around the support shaft to press the clutch plate, and the clutch plate moves the input gear from the connection position to the connection release position. And when the operation member is displaced from the spool free operation position to the spool winding operation position, the operation member is rotated in the other direction around the support shaft to release the pressure on the clutch plate. A clutch driving member for moving the force gear to the coupling position from the disconnecting position can be configured with a.
[0013]
When the input gear and the clutch mechanism are configured in this way, the clutch return member of the clutch return mechanism is connected to the clutch drive member, and the clutch return member is moved from the disengaged position by rotating the clutch drive member in the one direction. It can be moved to the engagement position.
[0014]
When the input gear and the clutch mechanism are configured as described above, the clutch return member of the clutch return mechanism is moved by the engaged protrusion formed to protrude from the clutch drive member toward the movement locus of the engagement protrusion of the clutch return mechanism. It can also be configured.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0016]
First, a fishing reel according to a first embodiment of the present invention will be described in detail with reference to FIGS. 1 is a plan view showing a fishing reel according to the first embodiment of the present invention with a part cut away, and FIG. 2 is an outer side view of a left side plate of the fishing reel of FIG. FIG. 5 is a left side view showing various structural members including a clutch mechanism and a clutch return mechanism arranged in FIG. 3 with the outer surface of the left side plate removed.
[0017]
As shown in FIG. 1, the fishing reel according to the first embodiment of the present invention has a pair of left and right side plates 12a and 12b rotatably supporting both ends of a spool shaft 10a of a spool 10. A main body 14 is provided.
[0018]
In FIG. 1, reference numeral S indicates the direction in which the fishing line is led out from the spool 10.
right The outer side surface of the side plate 12a and the left side plate 12 b Both ends of a support shaft 18 that is independent of the spool shaft 10a but concentrically with the spool shaft 10a are rotatably supported by the cover 16 that covers the outer surface of the left side plate. 12 b On the outer surface of the support shaft 18, the both ends of the handle shaft 20 connected to the handle 19 on the outside of the cover 16 are rotatably supported at a position away from the support shaft 18 in a direction opposite to the fishing line lead-out direction S, that is, rearward. Has been.
[0019]
Left side plate 12 b An output gear 22 is fixed to the handle shaft 20 concentrically with the handle shaft 20 between the outer surface of the handle shaft 20 and the cover 16. Left side plate 12 b An input gear 24 is supported on the support shaft 18 so as to be rotatable concentrically with the support shaft 18 between the outer surface of the support shaft 16 and the cover 16, and the input gear 24 extends along a longitudinal center line of the support shaft 18. It is slidable within the range. The input gear 24 meshes with the output gear 22 of the handle shaft 20, and has a width that always meshes with the output gear 22 during sliding within the predetermined range.
[0020]
A clutch mechanism 26 that selectively couples the input gear 24 to the spool 10 is disposed around the inner end of the support shaft 18 located in the vicinity of the spool shaft 10a. That is, the clutch mechanism 26 is in a winding state in which the rotational driving force input from the handle 19 to the handle shaft 20 and transmitted from the handle shaft 20 to the input gear 24 via the output gear 22 is transmitted from the input gear 24 to the spool 10. And a spool free state in which transmission of the rotational driving force from the input gear 24 to the spool 10 is interrupted.
[0021]
FIG. 2 shows the configuration of the clutch mechanism 26 in detail. The clutch mechanism 26 is provided on the left side plate 12. b Around the support shaft 18 on the outer surface of the Movement A clutch drive member 28 that is freely supported is provided. The clutch drive member 28 is connected to the left side plate 12 together with the handle shaft 20. b The holding plate 30 is detachably fixed to the outer surface by a known detachable fixing means 30a such as a screw, for example, and is rotatably held on the outer surface.
[0022]
An operation lever 32 that is an operation member of the clutch mechanism 26 extends upward from the upper end portion of the clutch drive member 28, and the left side plate 12 is formed on the upper edge of the cover 16. b Left side plate 12 through an elongated groove (not shown) formed along the upper edge of the outer side surface of the left side plate 12 b The operation button 32a at the upper end of the operation lever 32 is connected to the left side plate 12. b And the cover 16 are exposed from the storage space. That is, the operation lever 32 is disposed between the support shaft 18 and the handle shaft 20 on the left side plate 12. b Is located at the top of the.
[0023]
Clutch drive member 28 and left side plate 12 b A distribution spring 34 is interposed between the outer surface and the outer surface. As is apparent from FIG. 2, in this embodiment, the sorting spring 34 is constituted by a torsion coil spring. The distribution spring 34 is a spool winding operation position in which the operation button 32a of the operation lever 32 is disposed at the position indicated by the solid line in FIG. 2 or the operation button 32a is at the position indicated by the two-dot chain line in FIG. It is selectively biased to one of the arranged spool-free operation positions.
[0024]
The clutch mechanism 26 further includes a left side plate 12. b The longitudinal center line of the support shaft 18 as shown in FIG. 1 with respect to the annular groove formed on the outer peripheral surface of the input gear 24 at a position outside the clutch drive member 28 between the outer surface of the support shaft 16 and the cover 16. And a clutch plate 36 engaged in a direction along the direction.
[0025]
As shown in FIG. 2, the clutch plate 36 has a left side plate 12 centered on the input gear 24. b The side plate 12 on the left side is elongated in a substantially vertical direction along the outer surface of the left side plate 12. b Of the clutch plate 36 on two outer sides of the clutch plate 36 along the extending direction of the support shaft 18 and extending parallel to the longitudinal center line of the support shaft 18 to be fixed. The upper and lower ends of the clutch plate 36 are slidably supported in the extending direction of the pair of clutch plate guide shafts 38 with respect to the clutch plate guide shaft 38.
[0026]
The upper and lower ends of the clutch plate 36 are also provided on the left side plate 12 by a biasing means (not shown). b It is urged in the direction approaching the outer surface of the. In this embodiment, the urging means is constituted by a compression coil spring (not shown) wound around each of the pair of clutch plate guide shafts 38 between the inner surface of the cover 16 and the clutch plate 36. Has been.
[0027]
The clutch plate 36 urged by the urging means as described above is disposed on the support shaft 18 at a coupling position where the inner end portion of the input gear 24 approaches the spool 10 and is coupled to the spool 10.
[0028]
In the clutch drive member 28, two positions corresponding to the upper extension portion and the lower extension portion of the clutch plate 36 are opposite to each other around the support shaft 18 in the upper extension portion and the lower extension portion of the clutch plate 36. An inclined surface 28a is provided so as to face an edge facing the clockwise direction (hereinafter referred to as a counterclockwise direction edge) and a clockwise direction around the support shaft 18.
[0029]
When the operation button 32a of the operation lever 32 of the clutch drive member 28 is disposed at the spool winding operation position indicated by the solid line in FIG. 2, the two inclined surfaces 28a of the clutch drive member 28 are located above the clutch plate 36. Connection of the input gear 24 via the clutch plate 36 by the biasing means is spaced apart from the counterclockwise direction edge of each of the extending portion and the downward extending portion in the counterclockwise direction around the support shaft 18. Allows placement in position.
[0030]
When the operation button 32a of the operation lever 32 of the clutch drive member 28 is moved from the spool winding operation position indicated by the solid line in FIG. 2 to the spool free operation position indicated by the two-dot chain line in FIG. Due to such movement, the clutch drive member 28 also rotates around the support shaft 18 by a predetermined distance in the clockwise direction in FIG. 2 from the position indicated by the solid line in FIG. The clutch plate 36 is moved to the left side against the biasing force of the biasing means by slidingly contacting the counterclockwise edges of the extension portion and the downward extension portion in the clockwise direction around the support shaft 18. Side plate 12 b Is moved a predetermined distance in a direction away from the outer surface of the. As a result, the input gear 24 that moves on the support shaft 18 along with the clutch plate 36 along the longitudinal center line of the support shaft 18 is moved away from the spool 10 to the connection release position where the connection with the spool 10 is released. Be placed.
[0031]
The fishing reel of this embodiment is a well-known fishing line equalization for evenly winding the fishing line around the circumferential surface in the direction along the rotation center line of the spool 10 when the fishing line is wound around the circumferential surface of the spool 10. A winding mechanism is provided, and an input gear 40 for driving the winding mechanism is provided on the left side plate 12 as shown in FIGS. b It is located behind the handle shaft 20 on the outer side surface. An auxiliary output gear 42 that meshes with the input gear 40 and transmits the rotational driving force from the handle shaft 20 to the input gear 40 is also concentrically fixed to the handle shaft 20. Yes.
[0032]
The above-described known uniform fishing line winding mechanism has a spool 10 between the pair of side plates 12a, 12b in front of the spool 10 between the pair of side plates 12a, 12b by the rotational driving force input to the input gear 40. And a reciprocating fishing line guide member that reciprocates along the rotation center line.
[0033]
The fishing reel of this embodiment further includes a clutch return mechanism 44 that switches the clutch mechanism 26 in the spool-free state from the handle 19 to the winding state by inputting a rotational driving force from the handle shaft 20. .
[0034]
The clutch return mechanism 44 includes a left side plate 12 as shown in FIGS. b A pinion wheel 46 that is concentrically connected to the handle shaft 20 or the output gear 22 inwardly of the output shaft 22 of the handle shaft 20 between the outer surface of the handle shaft 20 and the cover 16 and rotates together with the handle shaft 20 or the output gear 22. ing.
[0035]
The clutch return mechanism 44 further includes a left side plate 12 as shown in FIG. b The clutch return member 48 is provided between the support shaft 18 and the handle shaft 20 at the upper portion of the outer surface of the clutch. At the front end of the clutch return member 48 located on the support shaft 18 side is the left side plate 12. b An elongated slot 48a is formed in the front-rear direction of the outer side surface of the cylinder, and the upper part of the clutch drive member 28 of the clutch mechanism 26 is rotatable in the slot 48a and relatively moves in the extending direction of the slot 48a. It is connected freely. The lower edge of the clutch return member 48 is the left side plate 12. b The rear side of the clutch return member 48 located on the handle shaft 20 side and the left side plate 12 behind the rear end is mounted on the cam pin 50 fixed to the outer surface of the clutch shaft 50 from above. b The clutch return member 48 is placed between the left side plate 12 and the b An urging means 50 for urging backwards along the outer side surface is interposed. In this embodiment, the biasing means 50 is constituted by a tension coil spring.
[0036]
An engaged protrusion 48 b is formed on the upper edge of the clutch return member 48 between the front end portion and the rear end portion of the clutch return member 48.
[0037]
When the fishing reel according to the first embodiment of the present invention configured as described above is used while being fixed to a fishing rod (not shown) and used to release the fishing line from the spool 10, the clutch mechanism The operation button 32a of the operation lever 32 of the clutch drive member 26 is moved from the spool winding operation position shown by the solid line in FIG. 2 to the spool free operation position shown by the two-dot chain line in FIG.
[0038]
Then, the clutch drive member 28 also rotates around the support shaft 18 by a predetermined distance in the clockwise direction in FIG. 2, and when the clutch drive member 28 performs such rotation for a predetermined distance, the urging force of the distribution spring 34 is increased. The acting direction changes from the direction in which the clutch driving member 28 is directed toward the clutch operating position to the direction in which the clutch driving member 28 is directed toward the spool free operating position, and the clutch driving member 28 is automatically moved to the spool free operating position by the biasing force of the distribution spring 34. Moved to.
[0039]
During this time, the clutch drive member 28 slides the two inclined surfaces 28a on the upper extending portion and the lower extending portion of the clutch plate 36 so that the clutch plate 36 is moved to the left side plate 12 as described above. b Is moved a predetermined distance in a direction away from the outer surface of the. As a result, the clutch plate 36 disposes the input gear 24 on the support shaft 18 at the disengaged position where the input gear 24 is moved a predetermined distance in the direction away from the spool 10 and the input gear 24 is disengaged from the spool 10. The The spool 10 can freely rotate around the spool shaft 10a, and the fishing line can be freely discharged from the spool 10.
[0040]
In this way, the clutch mechanism 26 enters a spool free state.
[0041]
The clutch drive member 28 of the clutch mechanism 26 is held by the urging force of the distribution spring 34 at the spool-free operation position where the operation button 32a of the operation lever 32 is arranged as shown by a two-dot chain line in FIG. The user does not need to hold the operation button 32a of the operation lever 32 with his / her finger at the spool-free operation position indicated by a two-dot chain line in FIG.
[0042]
Further, since the above-described known uniform fishing line winding mechanism does not function while the spool 10 is freely rotating as described above, the reciprocating fishing line guide member of the above-described known uniform fishing line winding mechanism is released from the spool 10. The fishing line can be discharged smoothly from the spool 10 without giving great resistance to the fishing line.
[0043]
When the operation button 32a of the operation lever 32 is disposed at the spool free operation position as shown by a two-dot chain line in FIG. 2 and the clutch mechanism 26 enters the spool free state, the clutch return member 48 of the clutch return mechanism 44 drives the front end of the clutch. The member 28 is pushed rearward by the upper portion of the member 28 and pulled rearward by the urging force of the urging means 50 at the rear end portion, and moves obliquely rearward and downward on the cam pin 54, and the engaged protrusion 48 b is moved to the handle shaft 20 The engagement that has entered the rotation trajectory of the claw on the periphery of the upper claw wheel 46 (that is, the engagement protrusion that rotates concentrically around the handle shaft 20 together with the output gear 22 of the handle shaft 20). Move to the matching position.
[0044]
Thereafter, when the fishing line is wound on the spool 10, the handle 19 is rotated around the handle shaft 18 in a predetermined direction (in this embodiment, the counterclockwise direction indicated by the arrow W in FIG. 2). A rotational driving force is input from 19 to the handle shaft 18. Then, the engagement protrusion 48b of the clutch return member 48 of the clutch return mechanism 44 in which the claw on the peripheral edge of the claw wheel 46 rotating in the counterclockwise direction indicated by the arrow W in FIG. And the clutch return member 48 moves forward against the urging force of the urging means 50 toward the front and obliquely upward on the cam pin 54. During this time, the clutch return member 48 presses the upper part of the clutch drive member 28 forward at its front end, and the clutch drive member 28 is a spool in which the operation button 32a of the operation lever 32 is arranged as shown by a two-dot chain line in FIG. From the free operation position to the clutch operation position arranged as shown by the solid line in FIG. 2, the support shaft 18 is rotated counterclockwise in FIG.
[0045]
When the clutch driving member 28 performs such a rotation for a predetermined distance, the direction in which the urging force of the sorting spring 34 acts is changed from the direction in which the clutch driving member 28 is directed toward the spool free operation position to the direction in which the clutch operation member 28 is directed to the clutch operation position. The clutch drive member 28 is automatically returned to the clutch operating position by the urging force of the distribution spring 34.
[0046]
During this time, the clutch drive member 28 opposes the clutch return member 48 against the urging force of the urging means 50 so that the engaged protrusion 48b of the clutch return member 48 is moved to the periphery of the claw wheel 46 on the handle shaft 20 as shown in FIG. The claw (that is, the engaging projection as described above) is returned to the disengaged position that is disengaged upward from the rotation trajectory, and the two inclined surfaces 28a are extended upward and downward of the clutch plate 36. 2, the clutch plate 36 is moved a predetermined distance in the direction of approaching the outer surface of the left side plate 12a by the biasing force of the biasing means (not shown) as described above. As a result, the clutch plate 36 arranges the input gear 24 on the support shaft 18 at the connecting position where the inner end of the input gear 24 is connected to the spool 10, and the connection of the input gear 24 to the spool 10 is restored. Then, the rotational driving force input from the handle 19 to the handle shaft 18 is transmitted to the spool 10 from the handle shaft 18 via the output gear 22 and the input gear 24, and the spool 10 winds the fishing line on its peripheral surface. I can do it. Further, during this time, since the rotational driving force is transmitted from the auxiliary output gear 42 of the handle shaft 18 to the input gear 40 of the above-described known uniform fishing line winding mechanism, the above-described known uniform fishing line winding mechanism reciprocates. By reciprocating the fishing line guide member between the pair of side plates 12 a and 12 b along the rotation center line of the spool 10 in front of the spool 10, the fishing line is moved to the rotation center line of the spool 10 on the circumferential surface of the spool 10. Wind evenly in the direction along.
[0047]
Next, a fishing reel according to a second embodiment of the present invention will be described in detail with reference to FIG.
[0048]
FIG. 3A shows various components including a clutch mechanism and a clutch return mechanism arranged on the outer surface of the left side plate of the fishing reel according to the second embodiment of the present invention. It is a left view which removes and covers the outer side surface. And in the fishing reel according to the second embodiment, various components of the fishing reel according to the first embodiment of the present invention described above with reference to FIGS. The same or similar components are designated by the same reference numerals as those for the various components of the fishing reel according to the first embodiment of the present invention described above, and are described in detail. Is omitted.
[0049]
The second embodiment differs from the first embodiment described above in that the arrangement of the handle shaft 20 with respect to the support shaft 18 in the left side plate 12b and the input gear 40 for the known fishing line equal winding mechanism. And the clutch return mechanism 50.
[0050]
More specifically, in the first embodiment, as shown in FIG. 2, the handle shaft 20 and the input gear 40 for the well-known fishing line equal winding mechanism are connected to the support shaft 18 on the left side plate 12b. However, in the second embodiment shown in FIG. 3A, the handle shaft 20 with respect to the support shaft 18 is provided on the left side plate 12b. And the input gear 40 for the well-known fishing line equal winding mechanism is arrange | positioned ahead which is the derivation | leading-out direction S of a fishing line.
[0051]
3A, as in FIG. 2, the spool winding operation of the operation button 32a of the operation lever 32 of the clutch drive member 28 of the clutch mechanism 26 when the winding state of the clutch mechanism 26 is set. The position is indicated by a solid line, and the spool free operation position of the operation button 32a of the operation lever 32 of the clutch drive member 28 of the clutch mechanism 26 when the spool free state is set in the clutch mechanism 26 is indicated by a two-dot chain line. It is shown. As apparent from FIG. 3A, the spool winding operation position and the spool free operation position of the operation button 32a of the operation lever 32 of the clutch drive member 28 of the clutch mechanism 26 in the second embodiment are shown in FIG. With respect to the spool winding operation position and the spool free operation position of the operation button 32a of the operation lever 32 of the clutch drive member 28 of the clutch mechanism 26 in the first embodiment shown in FIG. The direction is reversed in the front-rear direction.
[0052]
Also in the second embodiment shown in FIG. 3A, the operation lever 32 which is the operation member of the clutch mechanism 26 has the support shaft 18 and the handle shaft 20 at the upper part of the outer side surface of the left side plate 12b. It is important to be placed between
[0053]
As shown in FIG. 3A, the clutch return mechanism 50 of the second embodiment is an engagement that rotates concentrically with respect to the handle shaft 20 around the handle shaft 20 together with the output gear 22 of the handle shaft 20. A protrusion 52 is provided. In this embodiment, the engagement protrusion 52 is fixed on a concentric circle with respect to the output gear 22 with respect to the inner surface of the output gear 22 facing the outer surface of the left side plate 12b.
[0054]
The clutch return mechanism 50 of the second embodiment further includes an engaged protrusion 28b as a clutch return member that protrudes obliquely upward from the upper part of the clutch drive member 28 of the clutch mechanism 26.
[0055]
The operation button 32a of the operation lever 32 of the clutch drive member 28 of the clutch mechanism 26 is disposed at the position indicated by the solid line in FIG. 3A. As a result, the clutch drive member 28 performs the spool winding operation. When the winding state is set in the clutch mechanism 26 at the position, the engaged protrusion 28b as the clutch return member of the clutch return mechanism 50 is also provided on the output gear 22 as shown by the solid line in FIG. The engagement protrusion 52 is disposed at a non-engagement position separated from the rotation (movement) locus.
[0056]
Also in the second embodiment shown in FIG. 3A, the main part of the clutch return mechanism 50 is located between the support shaft 18 and the handle shaft 20 above the outer surface of the left side plate 12b. It is important that they are arranged.
[0057]
The clutch mechanism 26 for releasing the fishing line from the spool 10 while the fishing reel according to the second embodiment of the present invention configured as described above is used while being fixed to a fishing rod (not shown). The operation is the operation of the clutch mechanism 26 when the fishing line is released from the spool 10 while the fishing reel according to the first embodiment of the present invention is fixed to a fishing rod (not shown) and used. The same.
[0058]
That is, when the operation button 32a of the operation lever 32 of the clutch drive member 28 of the clutch mechanism 26 is disposed at the position indicated by the two-dot chain line in FIG. A spool free state is set in the clutch mechanism 26 at the free operation position.
[0059]
When the operation button 32a of the operation lever 32 is arranged at the spool free operation position as shown by a two-dot chain line in FIG. 3A and the clutch mechanism 26 enters the spool free state, the clutch return mechanism 50 serves as a clutch return member. The engaged protrusion 28b is disposed at an engagement position that has entered the rotation (movement) locus of the engagement protrusion 52 of the output gear 22 as indicated by a two-dot chain line in FIG.
[0060]
After the operation button 32a of the operation lever 32 is disposed at the spool free operation position as shown by a two-dot chain line in FIG. 3A, the clutch mechanism 26 enters the spool free state and the fishing line is released from the spool 10 and then the spool 10 is released. When winding the fishing line upward, the handle 19 shown in FIG. 2 is rotated around the handle shaft 18 in a predetermined direction (in this embodiment, the counterclockwise direction indicated by the arrow W in FIG. 3A). And a rotational driving force is input from the handle 19 to the handle shaft 18. Then, the engaging protrusion 52 that rotates in the counterclockwise direction indicated by the arrow W in FIG. 3A together with the handle shaft 18 presses the engaged protrusion 28b of the clutch return mechanism 50 engaged therewith, The clutch drive member 28 is rotated clockwise in FIG. 3A against the urging force of the distribution spring 34.
[0061]
When the clutch driving member 28 performs such a rotation for a predetermined distance, the direction in which the urging force of the sorting spring 34 acts is changed from the direction in which the clutch driving member 28 is directed toward the spool free operation position to the direction in which the clutch operation member 28 is directed to the clutch operation position. The clutch drive member 28 is automatically returned to the clutch operating position by the urging force of the distribution spring 34. Then, the engaged protrusion 28b is also returned to the disengaged position where it is released upward from the rotation (movement) locus of the engaging protrusion 52 of the output gear 22 of the handle shaft 20. As a result, the clutch plate 36 arranges the input gear 24 on the support shaft 18 at the connecting position where the inner end of the input gear 24 is connected to the spool 10, and the connection of the input gear 24 to the spool 10 is restored. Then, the rotational driving force input from the handle 19 to the handle shaft 18 is transmitted to the spool 10 from the handle shaft 18 via the output gear 22 and the input gear 24, and the spool 10 winds the fishing line on its peripheral surface. I can do it. Further, during this time, since the rotational driving force is transmitted from the auxiliary output gear 42 of the handle shaft 18 to the input gear 40 of the above-described known uniform fishing line winding mechanism, the above-described known uniform fishing line winding mechanism reciprocates. By reciprocating the fishing line guide member between the pair of side plates 12 a and 12 b along the rotation center line of the spool 10 in front of the spool 10, the fishing line is moved to the rotation center line of the spool 10 on the circumferential surface of the spool 10. Wind evenly in the direction along.
[0062]
Next, a fishing reel according to a third embodiment of the present invention will be described in detail with reference to FIG.
[0063]
FIG. 3B shows various components including a clutch mechanism and a clutch return mechanism arranged on the outer surface of the right side plate of the fishing reel according to the third embodiment of the present invention. It is a right view which removes and covers the outer side surface. In the fishing reel according to the third embodiment, various components of the fishing reel according to the first embodiment of the present invention described above with reference to FIGS. And the same or similar components as those of the fishing reel according to the second embodiment of the present invention described above with reference to FIG. The same reference numerals as in the various components of the fishing reel according to the first embodiment and the various components of the fishing reel according to the second embodiment of the invention described above are pointed out. A detailed description is omitted with reference numerals.
[0064]
In the third embodiment, the shape of the pair of left and right side plates of the reel body is different from the shape of the pair of left and right side plates of the reel body in the first embodiment and the second embodiment described above. . The outer shape of each of the pair of left and right side plates (only the right side plate 12a 'is shown in FIG. 3B) of the reel body of the third embodiment is as close to a circle as possible. By reducing the size, the inertial force generated by the fishing reel of the third embodiment when operating the fishing rod combined with the fishing reel of the third embodiment is reduced, and the operability of the fishing rod is reduced. To improve.
[0065]
In the third embodiment, as in the case of the second embodiment of the present invention described above, the handle shaft 20 and the well-known uniform fishing line winding mechanism with respect to the support shaft 18 on the right side plate 12a '. The input gear 40 is disposed in front of the fishing line lead-out direction S. The third embodiment employs the clutch return mechanism 50 of the second embodiment as a clutch return mechanism. A handle (not shown) is connected to the handle shaft 20 outside a cover (not shown) for the right side plate 12a '.
[0066]
Also in the third embodiment shown in FIG. 3B, the operation lever 32, which is the operation member of the clutch mechanism 26, is provided with the support shaft 18 and the handle shaft at the upper part of the outer side surface of the right side plate 12a ′. It is important that it is placed between the two.
[0067]
The operation button 32a of the operation lever 32 of the clutch drive member 28 of the clutch mechanism 26 is disposed at the position indicated by the solid line in FIG. 3B. As a result, the clutch drive member 28 performs the spool winding operation. When the clutch mechanism 26 is set in the winding state, the engaged protrusion 28b as the clutch return member of the clutch return mechanism 50 is also attached to the output gear 22 as shown by the solid line in FIG. The engagement protrusion 52 is disposed at a non-engagement position separated from the rotation (movement) locus.
[0068]
Also in the third embodiment shown in FIG. 3B, the main part of the clutch return mechanism 50 is located between the support shaft 18 and the handle shaft 20 above the outer surface of the right side plate 12a ′. It is important to be located in
[0069]
The clutch mechanism 26 for releasing the fishing line from the spool 10 while the fishing reel according to the third embodiment of the present invention constructed as described above is used while being fixed to a fishing rod (not shown). The operation is the operation of the clutch mechanism 26 when the fishing line is released from the spool 10 while the fishing reel according to the first embodiment of the present invention is fixed to a fishing rod (not shown) and used. The same.
[0070]
That is, when the operation button 32a of the operation lever 32 of the clutch drive member 28 of the clutch mechanism 26 is disposed at the position indicated by the two-dot chain line in FIG. 3B, the clutch drive member 28 is spooled as a result. A spool free state is set in the clutch mechanism 26 at the free operation position.
[0071]
When the operation button 32a of the operation lever 32 is disposed at the spool free operation position as shown by a two-dot chain line in FIG. 3B and the clutch mechanism 26 is in the spool free state, the clutch return mechanism 50 serves as a clutch return member. The engagement protrusion 28b is disposed at an engagement position that has entered the rotation (movement) locus of the engagement protrusion 52 of the output gear 22 as indicated by a two-dot chain line in FIG.
[0072]
After the operation button 32a of the operation lever 32 is disposed at the spool free operation position as shown by a two-dot chain line in FIG. 3B, the clutch mechanism 26 enters the spool free state and the fishing line is released from the spool 10 and then the spool 10 is released. When the fishing line is wound up, the right handle (not shown) is rotated around the handle shaft 18 in a predetermined direction (in this embodiment, the clockwise direction indicated by the arrow R in FIG. 3B). Rotating driving force is input to the handle shaft 18 from the handle. Then, together with the handle shaft 18, the engaging protrusion 52 that rotates in the clockwise direction indicated by the arrow R in FIG. 3B presses the engaged protrusion 28 b of the clutch return mechanism 50 engaged therewith, and the clutch The drive member 28 is rotated counterclockwise in FIG. 3B against the urging force of the distribution spring 34.
[0073]
When the clutch driving member 28 performs such a rotation for a predetermined distance, the direction in which the urging force of the sorting spring 34 acts is changed from the direction in which the clutch driving member 28 is directed toward the spool free operation position to the direction in which the clutch operation member 28 is directed to the clutch operation position. The clutch drive member 28 is automatically returned to the clutch operating position by the urging force of the distribution spring 34. Then, the engaged protrusion 28b is also returned to the disengaged position where it is released upward from the rotation (movement) locus of the engaging protrusion 52 of the output gear 22 of the handle shaft 20. As a result, the clutch plate 36 arranges the input gear 24 on the support shaft 18 at the connecting position where the inner end of the input gear 24 is connected to the spool 10, and the connection of the input gear 24 to the spool 10 is restored. Then, the rotational driving force input from the handle 18 to the handle shaft 18 is transmitted to the spool 10 from the handle shaft 18 via the output gear 22 and the input gear 24, and the spool 10 winds the fishing line on its peripheral surface. I can do it. Further, during this time, since the rotational driving force is transmitted from the auxiliary output gear 42 of the handle shaft 18 to the input gear 40 of the above-described known uniform fishing line winding mechanism, the above-described known uniform fishing line winding mechanism reciprocates. By reciprocating the fishing line guide member between the pair of side plates 12 a and 12 b along the rotation center line of the spool 10 in front of the spool 10, the fishing line is moved to the rotation center line of the spool 10 on the circumferential surface of the spool 10. Wind evenly in the direction along.
[0074]
【The invention's effect】
As described above in detail, according to the fishing reel according to the present invention, the outer dimension of the reel body in the front-rear direction along the direction in which the fishing line is led out from the reel body is made smaller than that of the conventional fishing reel described above. For this purpose, the inertial force generated by the fishing reel of the present invention when operating the fishing rod equipped with the fishing reel of the present invention is operated. The fishing rod attached with the conventional fishing reel described above can be made smaller than the inertial force generated by the conventional fishing reel when the fishing reel according to the present invention is attached. Can be better than
[Brief description of the drawings]
FIG. 1 is a plan view showing a fishing reel according to a first embodiment of the present invention with a part cut away.
2 is a left side view showing various structural members including a clutch mechanism and a clutch return mechanism arranged on the outer side surface of the left side plate of the fishing reel of FIG. 1 with the outer side surface covering of the left side plate removed. FIG. .
FIG. 3 (A) shows various structural members including a clutch mechanism and a clutch return mechanism arranged on an outer surface of a left side plate of a fishing reel according to a second embodiment of the present invention. It is the left view which removes the cover of the outside side of and shows,
(B) shows various constituent members including a clutch mechanism and a clutch return mechanism arranged on the outer surface of the right side plate of the fishing reel according to the third embodiment of the present invention. It is a right view which removes and shows a cover.
[Explanation of symbols]
10 spools
12a, 12a ', 12b Side plate
14 Reel body
18 Support shaft
19 Handle
22 Output gear
24 Input gear
26 Clutch mechanism
28 Clutch drive member
28b Engagement protrusion (clutch drive member)
32 Operation lever (operation member)
36 Clutch plate
44 Clutch return mechanism
46 Claw wheel (engagement protrusion)
48 Clutch drive member
50 Clutch return mechanism
52 Engagement protrusion

Claims (1)

A spool that interrupts transmission of the rotational driving force from the handle to the spool and a winding state that transmits the rotational driving force from the handle that is rotatably supported by the side plate to the spool that is rotatably supported between the side plates of the reel unit. A fishing reel having a clutch mechanism that can be switched between a free state and an operation member of the clutch mechanism supported on the reel body so as to be displaceable between a spool winding operation position and a spool free operation position. In
A handle shaft rotatably supported on the side plate and connected to the handle and having an output gear, and a handle shaft rotatably supported on the side plate and meshed with the output gear of the handle shaft and connected to a spool via a clutch mechanism. An operation button on the upper end portion of the operation lever that is an operation member of the clutch mechanism is arranged between the support shaft having the input gear that is concentrically rotatable and slidable in the longitudinal direction, on the upper portion of the side plate. The operation lever moves between the spool winding operation position and the spool free operation position in the rotation direction of the clutch drive member that is rotatably supported around the support shaft, thereby rotating the clutch drive member. A fishing reel characterized by that.

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