JP2004344047A - Drag adjustment knob of spinning reel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To keep screw strength and to rapidly set desired drag force in a drag adjustment knob having two adjustment bodies. <P>SOLUTION: This drag adjustment knob 61 of a spinning reel is a knob for adjusting the drag force of a drag mechanism for braking a spool mounted on a spool shaft 15 furnished with a first male screw part 15a at the tip and is equipped with a first adjustment body 80, a transmitter 81, a second adjustment body 82 and a pressing body 83. The first adjustment body has a first female screw part 91 to be screwed to the first male screw part. The transmitter is brought into contact with the rear part of the first adjustment body and mounted on the spool shaft 15 unrotatably and movably in the shaft direction and has a second male screw part 98 of a multiple thread screw having a lead larger than that of the first male screw part on the outer periphery. The second adjustment body 82 has a second female screw part 110 to be screwed to the second male screw part 98. The pressing body 83 is arranged between the second adjustment body and the drag mechanism so as to be brought into contact with both of them and is unrotatable on the spool shaft 15 and movable in the shaft direction. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention provides a drag adjustment knob, particularly, a spool shaft that is movable back and forth with respect to the reel body of a spinning reel and has a first male screw portion formed at the tip so as to be rotatable in a state where backward movement is regulated. The present invention relates to a drag adjustment knob of a spinning reel that adjusts a drag force of a drag mechanism that brakes a mounted spool.
[0002]
[Prior art]
As a drag adjustment knob for adjusting a drag force of a front drag mechanism provided on a spool of a spinning reel, a first adjustment body for setting an initial drag force and a second adjustment body for adjusting a drag force that is increased from the first adjustment body are provided. The following is known (for example, see Patent Document 1). The first adjusting body is used to set a minimum initial drag force that does not cause thread trimming, for example. The first adjusting body is screwed into a male screw portion formed at the tip of the spool shaft. The second adjusting member has an operating portion provided radially outward of the first adjusting member, and is screwed to a transmission member non-rotatably mounted on the spool shaft. The forward movement of the transmission member is regulated by the first adjustment body. The second adjusting body is in contact with the drag mechanism, and can set the drag force to a side that is larger than the initial drag force. The screw pitches of the two adjusting bodies are set to be the same or different.
[0003]
In the conventional drag adjustment knob having such a configuration, the initial load of the drag force is set by turning the first adjustment body. Then, the drag force can be increased from the initial drag force by the second adjusting body in a state where the initial drag force is set. This makes it possible to prevent the fish from being missed and the thread from breaking due to the drag force becoming unnecessarily small.
[0004]
[Patent Document 1]
Japanese Utility Model Publication No. 6-29032 (see FIGS. 8 and 10)
[0005]
[Problems to be solved by the invention]
In the conventional drag adjusting knob having the two adjusting members, the screw pitch of the second adjusting member is set to be larger than the screw pitch of the first adjusting member, thereby increasing the increasing ratio of the drag force to the rotation amount of the second adjusting member. Can be quickly set to a desired drag force. However, if the screw pitch is too large, the number of screwed threads decreases, and the strength of the screw decreases. For this reason, in the conventional configuration, when a large drag force is set, the screw may be damaged.
[0006]
It is an object of the present invention to provide a drag adjusting knob having two adjusting bodies so that the strength of a screw can be maintained and a desired drag force can be quickly set.
[0007]
[Means for Solving the Problems]
The drag adjustment knob of the spinning reel according to the first aspect of the present invention is rotatable forward and backward with respect to the reel body of the spinning reel, and is rotated by a spool shaft having a first male screw portion formed at a tip thereof in a state where backward movement is restricted. A knob for adjusting a drag force of a drag mechanism for braking a freely mounted spool, comprising: a first adjusting body, a transmitting body, a second adjusting body, and a pressing body. Has a first female screw portion screwed into the first male screw portion. The transmission body is mounted on the spool shaft so as to be non-rotatably and axially movable in contact with the rear part of the first adjusting body, and has a second male screw part having a first male screw part and a different screw lead on the outer periphery. The second adjusting body has a second female screw portion screwed into the second male screw portion. The pressing body is arranged between the second adjusting body and the drag mechanism so as to be able to contact both, and is non-rotatable with respect to the spool shaft and movable in the axial direction. Of the first male and female threads and the second male and female threads, the one with the larger lead is a multi-start thread.
[0008]
In this drag adjustment knob, the initial drag force is adjusted by an adjusting body having a single-thread screw portion having a small lead among the first adjusting body and the second adjusting body. For example, when the first female screw portion of the first adjusting member is a single thread, the first adjusting member is turned to adjust the initial drag force. When the first adjustment body is turned in the screw tightening direction, at least a portion of the first adjustment body that is screwed to the first male screw portion moves rearward with respect to the spool shaft. Then, the second adjusting body is pressed via the transmitting body, and the drag mechanism is further pressed via the pressing body, so that the drag force of the drag mechanism increases. Turning in the opposite direction decreases the drag force. In a state where the initial drag force is set, when the second adjusting member having the second female screw portion of the multi-threaded screw having a large lead is turned in the screw tightening direction, at least the second female screw portion of the second adjusting member is transmitted. The drag mechanism moves backward with respect to the body, and the drag mechanism is pressed via the pressing body, so that the drag force of the drag mechanism gradually increases from the initial drag force.
[0009]
The same applies to the case where the first adjusting member is a multi-threaded screw. When the second adjusting member is turned, the transmission of the second female screw portion of the second adjusting member with the transmitting member in contact with the first adjusting member is performed. It moves backward with respect to the body, and the drag mechanism is pressed via the pressing body, so that the drag force can be set to a desired initial drag force. When the first adjusting body of the multi-thread screw is turned in this state, the pressing body is pressed backward via the transmission body and the second adjusting body, and the drag force gradually increases from the predetermined drag force.
[0010]
Here, even if a screw having the same pitch is used for the adjusting body using the multi-start screw and the adjusting body using the single-start screw, the backward movement amount with respect to the rotation amount of the adjusting body using the multi-start screw is , Which is several times as many as the adjusting body using a single thread. In addition, because of the multi-start thread, the pitch can be the same as that of the adjusting body using the single-start thread, and the number of threads to be screwed can be the same. For this reason, it is not necessary to increase the pitch of the screws, and it is possible to quickly set a desired drag force while maintaining the strength of the screws.
[0011]
A drag adjusting knob for a spinning reel according to a second aspect of the present invention is the knob according to the first aspect, wherein the thread portion having a larger lead has a larger pitch. In this case, since the pitch of the screws is large, the amount of movement of the adjusting body with respect to the amount of rotation is further increased, and the desired drag force can be set more quickly.
A drag adjusting knob for a spinning reel according to a third aspect of the present invention is the knob according to the first or second aspect, wherein the second male and female screw portions are double-start threads. In this case, since the double thread is relatively easy to process, the second thread can be manufactured at low cost.
[0012]
A drag adjusting knob for a spinning reel according to a fourth aspect of the present invention is the knob according to any one of the first to third aspects, wherein the first adjusting member is a cylindrical member protruding forward, and the second adjusting member is a first adjusting member. A cover portion covers the periphery of the body and partially exposes the body, and a bridging portion partially covers the front end of the first adjustment body. In this case, by covering the front end of the first adjusting member, the fishing line is less likely to be caught even if the first adjusting member projects. In addition, since the periphery of the first adjustment body is covered with a part thereof being exposed, the operation of the first adjustment body at the exposed part is enabled, and the fishing line is less likely to be caught on the first adjustment body.
[0013]
A drag adjusting knob for a spinning reel according to a fifth aspect of the present invention is the knob according to any one of the first to fourth aspects, further comprising a first retaining portion for retaining the transmitting member so as to be rotatable relative to the first adjusting member. . In this case, since the transmission body is prevented from being removed from the first adjustment body by the first retaining portion, the transmission body and the first adjustment body are not separated when the knob is removed.
[0014]
A drag adjusting knob for a spinning reel according to a sixth aspect of the present invention is the knob according to the fifth aspect, wherein the first adjusting member has a circular concave portion formed by opening the rear end surface, and a concave portion formed from the front end surface facing the rear end surface. A cylindrical first adjusting body and a plurality of first adjusting bodies having a plurality of locking grooves formed circumferentially at intervals in the circumferential direction to the near side of the rear end surface through the outer edge portion and along the circular axial direction. A nut member having a first female screw portion mounted on the inner peripheral portion thereof in a state where rotation is prevented and forward movement is restricted, and the transmission body has a first flange portion housed in the concave portion; The first retaining portion has a plurality of engaging portions locked by the plurality of locking grooves, and a contact portion integrally formed with the engaging portion and contacting the first flange portion of the transmission body from the opening side. And a spring member having elasticity that can be mounted from the opening side of the concave portion in order to prevent the transmission body from falling off.
[0015]
In this case, the first flange portion of the transmission body is housed from the opening side of the recess of the first adjusting body, and in this state, the first stopper portion is housed in the recess while being compressed from the opening side so as to pass through the opening. Then, the engaging portion is positioned in the locking groove formed on the outer edge of the concave portion, and the compressed state is released. Then, since the locking groove is formed only up to the near side from the first end surface of the concave portion, a step is generated between the groove and the first end surface, the engaging portion is locked to the step, and the retaining member is in the third position. (1) It cannot move to the opening side of the adjustment body. Further, in this state, the contact portion comes into contact with the opening side of the transmission body, and the transmission body cannot move to the opening side. For this reason, the transmission body is prevented from falling off. Since the locking groove is formed from the front end face to the rear end face, it can be formed by a mold at the time of molding. Here, since the structure for locking the first retaining portion can be formed by molding, the retaining structure for the first retaining portion can be realized without machining, and the processing cost can be reduced.
[0016]
A drag adjusting knob for a spinning reel according to a seventh aspect of the present invention is the knob according to any one of the first to sixth aspects, further comprising a second retaining portion for retaining the pressing body so as to be rotatable relative to the second adjusting body. . In this case, since the pressing body is prevented from coming off with respect to the second adjusting body, when the first adjusting body is loosened and detached from the spool shaft, the entire knob can be removed without unraveling.
[0017]
The drag adjusting knob for a spinning reel according to an eighth aspect of the present invention is the knob according to the seventh aspect, wherein the second adjusting member has a circular recess formed in the rear end surface and the pressing member is housed in the recess. The second stopper portion is a screw member that has a head and is screwed into the second adjustment body and can lock the flange with the head. In this case, the pressing body can be easily rotatably prevented from coming off using the head of the screw member.
[0018]
A drag adjustment knob for a spinning reel according to a ninth aspect of the present invention is the knob according to any one of the first to eighth aspects, further comprising a first sounding section that emits sound by a relative rotation between the first adjustment body and the transmission body. In this case, the operation of the first adjusting member can be reliably recognized.
A drag adjustment knob for a spinning reel according to a tenth aspect of the present invention is the knob according to any one of the first to ninth aspects, further comprising a second sounding portion that emits sound by a relative rotation between the second adjustment body and the pressing body. In this case, the operation of the second adjusting body can be reliably recognized.
[0019]
A drag adjusting knob for a spinning reel according to an eleventh aspect of the present invention is the knob according to the tenth aspect, wherein the first sound generator generates a click sound having a finer pitch than the second sound generator. In this case, it is possible to identify which of the two adjusting bodies has been operated by the sound interval.
A drag adjusting knob for a spinning reel according to a twelfth aspect of the present invention is the knob according to any of the first to eleventh aspects, wherein the adjusting body having a thread portion with a large lead has a rotation range limited to less than 360 degrees. In this case, the forward / backward movement range of the adjusting body having a large forward / backward movement amount with respect to the rotation amount can be limited to a predetermined amount, and the drag force can be easily changed to the set value.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
[Overall configuration and configuration of reel body]
As shown in FIG. 1, a spinning reel employing one embodiment of the present invention includes a handle 1, a reel body 2 that rotatably supports the handle 1, a rotor 3, and a spool 4. The rotor 3 is rotatably supported at the front of the reel body 2. The spool 4 winds the fishing line around the outer peripheral surface, and is disposed at the front of the rotor 3 so as to be movable back and forth.
[0021]
As shown in FIGS. 1 and 2, the reel body 2 includes a reel body 2 a having an opening on a side portion, a lid 2 d for closing the opening 2 c of the reel body 2 a, and a diagonally upper front from the lid 2 d. And a T-shaped rod mounting leg 2b extending integrally.
The reel body 2a has a space inside, in which space the rotor drive mechanism 5 for rotating the rotor 3 in conjunction with the rotation of the handle 1 and the spool 4 for moving the spool back and forth to make the fishing line uniform. And an oscillating mechanism 6 for rewinding.
[0022]
At the front of the reel body 2a, a circular flange 2e for closing the rear of the rotor 3 is formed by the lid 2d. A circular partition 2g is formed behind the flange 2e on the reel body 2a side, and a circular space is formed behind the partition 2g.
[Rotor configuration]
As shown in FIG. 1, the rotor 3 includes a cylindrical portion 30 having an open rear end, and a first rotor arm 31 and a second rotor arm 32 provided on the sides of the cylindrical portion 30 so as to face each other. are doing. The cylindrical portion 30, the first rotor arm 31, and the second rotor arm 32 are integrally formed.
[0023]
The cylindrical portion 30 is arranged on the outer peripheral side of the flange portion 2e of the reel body 2a. The rear part of the opening of the cylindrical part 30 is closed by the flange part 2e. A front wall 33 is formed at the front of the cylindrical portion 30, and a boss 33 a is formed at the center of the front wall 33. The male screw portion 12e of the pinion gear 12 and the spool shaft 15 pass through the through hole of the boss 33a. A nut 34 is disposed on the front side of the front wall 33, and the nut 34 is screwed to the male screw portion 12 e at the tip of the pinion gear 12 to fix the rotor 3 to the pinion gear 12.
[0024]
A bail arm 44 for guiding the fishing line to the spool 4 is attached to the distal ends of the first rotor arm 31 and the second rotor arm 32 so as to be swingable between a line winding position and a line releasing position.
A reverse rotation prevention mechanism 50 for the rotor 3 is arranged in a space in front of the partition wall 2g of the cylindrical portion 30 of the rotor 3. The reverse rotation prevention mechanism 50 includes a roller-type one-way clutch 51 and an operation mechanism 52 that switches the one-way clutch 51 between an operating state and a non-operating state. In the one-way clutch 51, the outer ring is fixed to the reel body 2a, and the inner ring is non-rotatably mounted on the pinion gear 12. The operation mechanism 52 has an operation lever 53 disposed at the rear of the reel body 2a. By swinging the operation lever 53, the one-way clutch is switched between two states. Cannot rotate in the reverse direction, and the rotor 3 can rotate in the non-operation state.
[0025]
[Structure of spool]
The spool 4 is disposed between the first rotor arm 31 and the second rotor arm 32 of the rotor 3, and is rotatably mounted on the tip of the spool shaft 15 in a state where backward movement is restricted. . As shown in FIG. 3, the spool shaft 15 is a stepped shaft whose diameter gradually decreases toward the tip. The spool shaft 15 has a first male screw portion 15a formed at a small diameter portion at the tip. The first male screw portion 15a is a single thread. Further, on the base end side of the first male screw portion 15a, there are chamfered portions 15b parallel to each other. The spool shaft 15 has a slider mounting portion 15c at the base end to which a slider 22 of the oscillating mechanism 6 described later is rotatably and immovably mounted.
[0026]
The spool 4 is made of, for example, forged aluminum, and has a bobbin trunk 4a around which a fishing line is wound, a large-diameter skirt portion 4b integrally formed at the rear of the bobbin trunk 4a, and a front part of the bobbin trunk 4a. And a large-diameter front flange portion 4c integrally formed with the portion. The bobbin trunk 4a is a cylindrical member extending to the outer peripheral side of the cylindrical portion 30 of the rotor 3. The bobbin trunk portion 4a has a disk-shaped mounting portion 4d having a boss portion mounted on the spool shaft 15 on the inner peripheral side. The mounting portion 4d is rotatably mounted on the spool shaft 15 via a flanged bush 55. On the front surface of the mounting portion 4d, a cylindrical drag storage portion 4e for storing a drag mechanism 60 for braking the spool 4 is formed. A pair of locking grooves 4f is formed on the inner peripheral surface of the drag storage portion 4e along the axial direction.
[0027]
[Structure of drag mechanism]
The drag mechanism 60 brakes the spool 4, and the drag force can be adjusted by a drag adjustment knob 61 screwed into the first male screw portion 15 a of the spool shaft 15. The drag mechanism 60 includes first and second drag washers 70 and 71 non-rotatably locked to the chamfered portion 15 b of the spool shaft 15, and a third drag non-rotatably locked to the locking groove 4 f of the spool 4. And a washer 72. The third drag washer 72 is disposed between the first and second drag washers 70 and 71. For example, between the first drag washer 70 and the third drag washer 72, between the third drag washer 72 and the second drag washer 71, and between the second drag washer 72 and the mounting portion 4d of the spool 4, for example, A drag disk 74 made of felt is interposed. A seal member 56 for preventing foreign matter such as liquid from entering the drag mechanism 60 through the gap is provided between the drag storage portion 4 e and the rear end outer peripheral portion of the drag adjustment knob 61.
[0028]
[Configuration of drag adjustment knob]
As shown in FIGS. 4 to 6, the drag adjusting knob 61 has a first adjusting body 80 having a first female screw portion 91 screwed to the first male screw portion 15a, and is relatively rotatable with respect to the first adjusting body 80. A transmission body 81, a second adjustment body 82 that is rotatable relative to the transmission body 81, and a pressing body 83 that is attached to the transmission body 81 so as to be relatively non-rotatable. In addition, the drag adjustment knob 61 emits a first knob sounding section 84 that emits sound by the relative rotation between the first adjustment body 80 and the transmission body 81 and a second knob that emits sound by the relative rotation between the second adjustment body 82 and the pressing body 83. It has a knob sound generator 85.
[0029]
The first adjusting body 80 includes a first adjusting body main body 90 having a cylindrical shape, and a first nut 92 having a first female screw portion 91 formed on an inner peripheral surface.
The first adjustment body main body 90 is for rotating the first adjustment body 80. The first adjusting member main body 90 includes a circular transmission body housing concave portion 90b formed in the rear end surface 90a so as to be concentric with the spool axis, and a transmission body housing concave portion 90b from the front end surface 90c facing the rear end surface 90a. It has, for example, four locking grooves 90d formed along the circular axial direction at intervals in the circumferential direction to the front side of the rear end face 90a through the outer edge. A retaining spring 95 described later is mounted in the locking groove 90d. A first nut storage portion 90e for mounting the first nut 92 in a non-rotatable manner while restricting forward movement is formed in the inner peripheral portion of the first adjusting body 90. Further, a shallow ring groove 90f is formed on the front end surface at the opening of the locking groove 90d, and a nameplate seal 93 for covering the opening of the locking groove 90d is attached to the ring groove 90f. . By closing the opening with such a nameplate seal 93, invasion and adhesion of foreign substances such as liquid can be prevented, and the appearance can be improved. Further, on the bottom surface of the transmission body housing recess 90b of the first adjusting body main body 90, two circular pin housing recesses 90g for housing the first knob sounding portion 84 are formed at two places in diameter. A center hole 90h is formed at the center of the front surface.
[0030]
The first nut 92 is a hexagon nut having a first female screw portion 91 formed on an inner peripheral surface. The first nut 92 is mounted on the nut storage portion 90e of the first adjusting portion main body 90 in a state where the first nut 92 cannot rotate and the forward movement is restricted. The first nut 92 is in contact with the transmission body 81 which is prevented from falling out of the first adjustment body main body 90 via the washer 96. Therefore, the first nut 92 is held between the first adjusting body main body 90 and the transmission body 81.
[0031]
The transmission body 81 is mounted on the spool shaft 15 so as to be non-rotatably and axially movable in contact with the rear portion of the first adjusting body 80, and has a second male screw part 98 having a different screw lead from the first male screw part 15a on the outer periphery. It is a generally cylindrical member. The transmission body 81 has a large-diameter first flange 81a at the front end. The outer diameter of the first flange portion 81a is smaller than the inner diameter of the transmitting body housing recess 90b of the first adjusting body main body 90, and can be inserted into the transmitting body housing recess 90b. The front end surface of the first flange portion 81a is arranged in contact with the bottom surface of the transmission body housing recess 90b. A large number of sound output concave portions 84a constituting the first knob sounding portion 84 are formed on the front end surface of the first flange portion 81a at intervals in the circumferential direction. A second male screw portion 98 is formed rearwardly at an interval from the first flange portion 81a. The second male screw part 98 is a double thread having a larger pitch than the first male screw part 15a. Therefore, the lead of the second male screw portion 98 is larger than the lead of the first male screw portion 15a. A small diameter retaining recess 81b is formed between the first flange portion 81a and the second male screw portion 98. The retaining recess 81b is provided for mounting the retaining spring 95. Behind the second male screw portion 98, a rotation locking portion 81d provided with a parallel chamfered portion 81c is provided. The rotation locking portion 81d is provided for mounting the pressing body 83 so as to be non-rotatable and axially movable. An engagement hole 81e having an oval cross section is formed on the inner peripheral surface of the transmission body 81 so as to non-rotatably engage with the chamfered portion 15b of the spool shaft 15.
[0032]
The retaining spring 95 is formed by bending a metal wire. The retaining spring 95 can be attached from the opening side of the transmitting body housing concave portion 90b in order to prevent the transmitting body 81 from being rotatable and rotatable with respect to the first adjusting body 80. The retaining spring 95 includes an engaging portion 95a formed of a corner portion which is locked in a state where the backward movement is restricted by the four locking grooves 90d, and a transmitting body 81 formed integrally with the engaging portion 95a. And a contact portion 95b that comes into contact with the rear surface of the first flange portion 81a from the opening side of the transmission body housing concave portion 90b to restrict the rearward movement of the first flange portion 81a. Here, since the structure for locking the retaining spring 95 can be formed by circular molding, the retaining structure for the retaining spring 95 can be realized without machining, and the processing cost can be reduced.
[0033]
The second adjusting body 82 has a disk-shaped second adjusting body 100, a second nut 102 having a second female thread 101 screwed to the second male screw 98, and a front surface of the second adjusting body 1000. And a fixed handle portion 103.
The second adjustment body main body 100 includes a knob body 100a, a pair of handle connecting portions 100b protruding forward from the knob body 100a, and a cover portion 100c that projects to the knob body 100a in a tapered cylindrical shape between the handle connecting portions 100b. And Further, the second adjustment body 100 has a cylindrical second nut storage portion 100d projecting rearward from the knob body 100a, and a pressing body storage recess formed by projecting rearward on the outer peripheral side of the second nut storage portion 100d. 100e.
[0034]
The knob body 100a is a dish-shaped portion having a through hole formed at the center. The handle connecting portion 100b projects slightly forward toward the center from both ends in the diameter of the knob body 100a. The handle connecting portion 100b is formed with a through hole 100f for mounting the handle portion 103, and the handle portion 103 is screwed and fixed to the handle connecting portion 100b. A circular pin storage recess 100g for storing the second knob sounding portion 85 is formed on the rear surface of one handle connecting portion 100b. The cover portion 100c is formed so as to cover the periphery of the first adjustment body main body 90 of the first adjustment body 80 and partially expose the first adjustment body 80. Specifically, by forming a pair of notches 100h on both sides of the tapered cylindrical portion, the periphery of the first adjusting body 90 is partially exposed. The first adjustment body 80 can be pinched and rotated at the exposed portion. The second nut storage portion 100d is mounted so that the second nut 102 cannot rotate and is restricted from moving forward. A second flange 110a, which will be described later, of the pressing body 83 is housed in the pressing body housing recess 100e in a state where the second flange 110a is rotatably prevented. Further, a C-shaped rotation restricting groove 100i for restricting the rotation of the second adjusting member 82 in a range of approximately 330 degrees is formed concentrically with the spool shaft on the inner peripheral side of the pressing member housing concave portion 100e. Have been.
[0035]
The second nut 102 is a hexagonal nut having the second female thread portion 101 formed on the inner peripheral surface. The second nut 102 is mounted on the nut storage portion 100d of the second adjustment portion main body 100 in a state where the second nut 102 cannot rotate and is restricted from moving forward. The second nut 102 is in contact with the pressing body 83 which is prevented from falling off by the second adjusting body 82. Therefore, the second nut 102 is held between the second adjustment body 100 and the pressing body 83.
[0036]
The handle 103 is for rotating the second adjusting body 82. The handle portion 103 includes a bridging portion 103a extending on the diameter of the second adjusting body 100, a pair of mounting cylinder portions 103b extending rearward from the bridging portion 103a, and a rearward extending from the center of the bridging portion 103a. It has a shaft portion 103c that is inserted into the center 90f of the first adjustment body 90, and an extension portion 103d that expands in a bowl shape from the center portion of the bridge portion 103a. The pair of mounting cylinder portions 103b are slightly recessed from the rear surface of the handle connecting portion 100b and pass through the through hole 100f. A screw 105 is screwed into the rear end surface of the mounting cylinder 103b, and the handle 103 is fixed to the second adjustment body 100. The bridge portion 103a partially covers the front end surface of the first adjustment body 90 of the first adjustment body 80 with the expansion portion 103d. Here, by partially covering the front end of the first adjusting member 80, even when the first adjusting member 80 projects, the fishing line is less likely to be caught. In addition, since the periphery of the first adjusting body 80 is covered with the cover 100c in a state where a part of the first adjusting body 80 is exposed, the fishing line can be operated by the first adjusting body 80 in the exposed part. More difficult to catch.
[0037]
The pressing body 83 is disposed between the second adjusting body 82 and the drag mechanism 60 so as to be in contact with them, and is non-rotatable with respect to the spool shaft 15 and movable in the axial direction. The pressing body 83 is used to non-rotatably connect the pressing body 110 with a disc-shaped pressing body 110 having the second flange 110a and the transmitting body 81 non-rotatably mounted on the spool shaft 15. And a toothed washer 111.
[0038]
The pressing body 110 is rotatably mounted on the transmission body 81, and has a second flange 110a at the front end, the outer periphery of which is stored in the pressing body storage recess 100e. The second flange portion 110a is rotatably retained on the second adjustment body 100 by two screws 105 for fixing the handle 103 to the second adjustment body 100. An engagement recess 110 b is formed on the inner peripheral portion of the pressing body 110 so as to be non-rotatably engaged with the toothed washer 111. Further, on the front end surface of the second flange 110a, a regulating protrusion 110c that engages with the rotation regulating groove 100i is formed so as to protrude forward. The rotation range of the second adjustment body 82 is restricted by the engagement of the restriction protrusion 110c with the rotation restriction groove 100i. By regulating the rotation range in this way, it is easy to change the drag force to the set value. Further, on the front end surface of the second flange portion 110a except for the portion where the regulating protrusion 110c is formed, a large number of sound output concave portions 85a constituting the second knob sounding portion 85 are formed at intervals in the circumferential direction.
[0039]
The toothed washer 111 is provided to prevent the pressing body 110 from rotating with respect to the spool shaft 15. Specifically, it is non-rotatably mounted on a transmission body 81 that cannot rotate with respect to the spool shaft 15, so that the pressing body 83 cannot rotate with respect to the spool shaft 15. The toothed washer 111 has a plurality of locking teeth 111a formed on the outer circumference so as to protrude in the radial direction at intervals in the circumferential direction. The locking teeth 111a are formed at equal intervals, but there are some places where only one is not formed. Thereby, the pressing body 83 can be attached to the second adjusting body 82 at a predetermined rotation phase. On the inner peripheral surface of the toothed washer 111, an elongated locking hole 111b is formed which is non-rotatably engaged with the rotation locking portion 81d of the transmission body 81. The locking hole 111b is formed at a predetermined rotation phase with respect to the locking tooth 111a.
[0040]
The first knob sounding section 84 includes a sound output recess 84a formed in the transmission body 81, two sound output pins 115 housed in the two pin storage recesses 90g so as to be able to advance and retreat toward the sound output recess 84a, and a sound. A sound output spring 116 is provided for urging the output pin 115 toward the sound output recess 84a.
The second knob sounding portion 85 includes a sounding recess 85a formed in the handle connecting portion 100b, a sounding pin 120 housed in the pin housing recess 100g so as to be able to advance and retreat toward the sounding recess 85a, and a sounding pin 120. And a sound output spring 116 for urging the sound toward the sound output recess 85a.
[0041]
In the two sounding portions 84 and 85, the diameter of the head of the sounding pins 115 and 120 is smaller in the sounding pin 115. Further, the interval of the sounding recess 84a is smaller than that of the sounding recess 85a. For this reason, the first knob sounding section 84 emits a finer click sound than the second knob sounding section 85.
At the rear of the spool 4, as shown in FIG. 3, a drag sound generating portion 62 that emits sound when the drag mechanism 60 operates and the spool 4 rotates with respect to the spool shaft 15 is arranged in close contact with the spool 4. As shown in FIG. 3, the drag sounding portion 62 swings on the spool 4 so as to be able to contact the sounding member 125 mounted on the rear surface of the flange portion of the flanged bush 55 via the washer 65 and the sounding member 125. It has a bottomed cylindrical sounding claw 126 that is freely mounted, and a coil spring (not shown) that urges the sounding claw 126 to a position where it contacts the sounding member 125. The sound output member 125 is rotatably mounted on the spool shaft. The sound producing member 125 is non-rotatably locked to a spool washer 66 non-rotatably mounted on the rear end of the chamfered portion 15b of the spool shaft 15 in a state where the rearward movement is restricted. As a result, the sound output member 125 cannot rotate with respect to the spool shaft 15. The spool washer 66 regulates the rearward movement of the spool 4 via the sound output member 125 and the washer 65. The sound output member 125 has a sound output tube portion 125a arranged on the outer periphery of the boss portion of the mounting portion 4d of the spool 4, and a sound output protrusion 125b is provided on the outer peripheral surface of the sound output tube portion 125a in the circumferential direction. Are formed in large numbers.
[0042]
The sounding claw 126 is swingably supported by a swing pin 127 that is pressed into and fixed to an end face of a cylindrical mounting tube portion 4 g that projects rearward from the mounting portion 4 d of the spool 4. A washer 128 is interposed between the sounding claw 126 and the end surface of the mounting cylinder 4g. By interposing the washer 128 in this manner, the sounding claw 126 can be supported by the washer 128 so as not to touch in a direction intersecting with the swinging direction, and the surface supporting the sounding claw 126 is attached to the mounting cylinder. There is no need to provide 4 g. For this reason, the radial thickness of the mounting cylinder portion 4g can be reduced, and the weight of the aluminum forged spool 4 can be reduced.
[0043]
[Configuration of rotor drive mechanism]
As shown in FIGS. 1 and 2, the rotor drive mechanism 5 includes a main gear shaft 10 on which the handle 1 is non-rotatably mounted, a main gear 11 that is a face gear that rotates together with the main gear shaft 10, And a pinion gear 12 that meshes with the pinion gear 11.
[0044]
The pinion gear 12 is rotatably mounted on the reel body 2 a around a position different from the main gear 11. As shown in FIG. 1, the pinion gear 12 is a cylindrical member that rotates in conjunction with the rotation of the handle 1, and a spool shaft 15 that extends in the front-rear direction passes through the center. The pinion gear 12 includes a gear portion 12a that meshes with the main gear 11 and a large-diameter gear 19, which will be described later, a cylindrical portion 12b that is formed on the distal end side of the gear portion 12a, and an axial front (left side in FIG. 2) of the gear portion 12a. And a notch portion 12c that is arranged and has a smaller diameter than the gear portion 12a. The pinion gear 12 is rotatably supported by the reel body 2a via bearings 14a and 14b on the cylindrical portion 12b and the rear side of the gear portion 12a. The gear portion 12a is a screw gear that meshes with the main gear 11, which is a face gear. A male screw portion 12e is formed at the tip of the cylindrical portion 12b. The rotor 3 is fixed to the tip of the cylindrical portion 12b of the pinion gear 12 by a nut 34 screwed into the male screw portion 12e. The notch 12c is an annular groove formed in the circumferential direction, and the axial length of the groove is longer than the axial length of a gear portion of the driven gear 16 described later.
[0045]
[Configuration of oscillating mechanism]
The oscillating mechanism 6 is a mechanism that reciprocates the spool 4 back and forth via the spool shaft 15 in conjunction with the rotation of the handle 1. The oscillating mechanism 6 has a large-diameter gear 19 and a small-diameter gear 20, a stepped gear 13 rotatably mounted on the reel body 2 around an axis different from the main gear 11, and a driven gear meshing with the small-diameter gear 20. 16, a screw shaft 21 on which the driven gear 16 is non-rotatably mounted, a slider 22 that engages with the screw shaft 21 and moves back and forth, and the pinion gear 12 described above.
[0046]
The stepped gear 13 is provided for greatly reducing the rotation of the pinion gear 12 and transmitting the rotation to the driven gear 16. The driven gear 16 is a right-tooth gear that meshes with the small-diameter gear 20, and has an outer peripheral portion disposed in the notch 12 c of the pinion gear 12. The outer peripheral portion of the driven gear 16 is arranged with a slight gap from the bottom of the cutout portion 12c formed by an annular groove.
[0047]
By forming the notch portion 12c in the pinion gear 12 and arranging the outer peripheral portion of the driven gear 16 in the notch portion 12c, the driven gear 16 and the screw shaft 21 can be brought closer to the spool shaft 15. Various gears can be compactly arranged on the reel body 2 while maintaining the reduction ratio.
The screw shaft 21 is arranged parallel to the spool shaft 15 and is rotatably supported by the reel body 2a. A spirally intersecting groove 21a is formed on the outer peripheral portion of the screw shaft 21. The driven gear 16 is non-rotatably mounted on the tip of the screw shaft 21 as described above.
[0048]
The slider 22 has a slider body 25 and an engagement member 26 housed in the slider body 25. The slider body 25 is guided in parallel with the spool shaft 15 by two guide shafts 24a and 24b. The engagement member 26 is rotatably mounted in the slider body 25, and the tip of the engagement member 26 meshes with the groove 21 a of the screw shaft 21.
[0049]
[Reel operation and operation]
In this spinning reel, a drag force is adjusted according to a fishing method and a fishing target fish before fishing. When adjusting the drag force, first, the first adjusting member 80 is turned to set an initial drag force. When the first adjusting member 80 is turned in the screwing direction, the first nut 92 moves rearward to press the drag mechanism 60 via the transmitting member 81, the second nut 102, and the pressing member 83, and the drag force increases. Conversely, drag force decreases. At this time, since the first male screw portion 15a and the first female screw portion 91 are single-threaded screws having a fine pitch, the initial drag force can be set finely.
[0050]
When the setting of the initial drag force is completed, the second drag member 82 is turned to set a normal drag force when a fish is hit. When the second adjusting body 82 is turned in the screwing direction, the second nut 102 moves rearward to press the drag mechanism 60 via the pressing body 83, and the drag force increases. At this time, since the second male screw portion 98 and the second female screw portion 101 are double-threaded screws and have a coarse pitch, the second nut 102 is smaller than the first nut 92 with respect to the rotation of the second adjusting body 82. Move backwards greatly. Therefore, the drag force can be largely changed only by slightly moving the second adjusting body 82.
[0051]
Here, even if the screws having the same pitch are used for the second adjusting member 82 using the double thread and the first adjusting member 80 using the single thread, the second adjusting member 82 using the two screws is used. The amount of backward movement with respect to the amount of rotation is a multiple of the number of first adjusting bodies 80 using a single-thread screw. In addition, since the pitch is the same as that of the adjusting body using a single thread, the number of threads to be screwed can be the same because of the two threads. For this reason, it is not necessary to make the pitch of the screw so large, and the strength of the screw can be maintained and the desired drag force can be quickly set.
[0052]
At the time of casting, the bail arm 44 is moved from the line winding position to the line releasing position. Then, the fishing rod is shaken to cast the device. Then, the fishing line is spirally discharged from the tip of the spool 4. At this time, since the fishing line is densely wound around the spool 4, the release resistance is reduced.
When winding the fishing line, the bail arm 44 is lowered to the line winding position. This is automatically performed by the action of a cam and a spring (not shown) when the handle 1 is rotated in the line winding direction. When the handle 1 is rotated in the line winding direction, this rotational force is transmitted to the pinion gear 12 via the main gear shaft 10 and the main gear 11. The torque transmitted to the pinion gear 12 is transmitted to the rotor 3 via the front part of the pinion gear 12, and the rotor 3 rotates in the line winding direction.
[0053]
On the other hand, the stepped gear 13 is rotated by the large diameter gear 19 meshing with the pinion gear 12, and the rotation is transmitted to the driven gear 16 via the small diameter gear 20. As a result, the screw shaft 21 rotates at a rotation speed lower than the rotation speed of the pinion gear 12, that is, the rotation speed of the rotor 3. Then, by the rotation of the screw shaft 21, the slider 22 meshing with the groove 21a of the screw shaft 21 is guided by the guide shafts 24a and 24b and moves in the front-rear direction. Then, the fishing line guided to the spool 4 by the bail arm 44 is wound around the bobbin trunk 4a of the spool 4, and the fishing line is densely wound around the spool 4. Therefore, the fishing line is efficiently wound around the spool 4.
[0054]
[Other embodiments]
(A) In the above-described embodiment, the initial drag force is set finely by the first adjusting member, and the normal drag force is set by the second adjusting member. That is, the second adjusting member may be a single-thread screw and the first adjusting member may be a multi-thread screw.
7, the drag adjustment knob 161 has a first adjustment body 180, a transmission body 181, a second adjustment body 182, and a pressing body 183.
[0055]
The first adjusting member 180 has a disk-shaped first adjusting member main body 190 having a protrusion 190a along the front surface and a non-rotatable state in which the forward movement is restricted inside the first adjusting member main body 190. And a first nut 192 attached to the first nut 192. The first male thread 15a at the tip of the spool shaft 15 is a double thread, and the first female thread 191 of the first nut 192 screwed to the first male thread 15a is naturally a double thread.
[0056]
The transmission body 181 is rotatably retained by the first adjustment body main body 190. Since this retaining structure is the same as that of the above-described embodiment, the description is omitted. The second male screw portion 198 formed on the outer peripheral surface of the transmission body 181 is a single-thread screw having the same pitch as the first male screw portion 15a.
The second adjusting member 182 is a disk-shaped member formed on the rear surface of the first adjusting member 180 to have a large diameter so as to cover the outer peripheral surface of the first adjusting member 180. The second adjusting body 182 has a disk-shaped second adjusting body main body 200 and a second nut 202 having a second female screw part 201 screwed to the second male screw part 198. The second adjusting body 200 has the same configuration as that of the above-described embodiment except for the shape.
[0057]
The pressing body 183 has a disc-shaped pressing body 210 and a toothed washer 211 for non-rotatably connecting the pressing body 210 to a transmission body 181 non-rotatably mounted on the spool shaft 15. The configuration is similar to that of the above embodiment.
In the drag adjustment knob 161 having such a configuration, when the initial drag force is set, the adjustment is performed by turning, for example, the outer peripheral surface of the second adjustment body 182 instead of the first adjustment body 180. In addition, when setting the normal drag force, the user adjusts the first adjustment body 180 by pinching the projection 190a. In such an embodiment, the same effect as in the above embodiment can be obtained.
[0058]
(B) In the above-described embodiment, the transmission body 81 is prevented from coming off by the retaining spring 95 and the pressing body 83 is prevented from coming off by the screw 105, but the retaining structure is not limited to the retaining spring or the screw. For example, a projection that elastically locks may be provided on the first and second adjustment bodies, the transmission body, and the pressing body to prevent the projection from coming off.
(C) In the above-described embodiment, a multi-start thread is exemplified as a multi-start thread, but a multi-start thread of three or more turns may be used.
[0059]
【The invention's effect】
According to the present invention, even if the adjusting body using the multi-threaded screw and the adjusting body using the single-threaded screw have the same pitch, the backward movement with respect to the amount of rotation of the adjusting body using the multi-threaded screw. The amount of movement is a multiple of the number of adjustment bodies using a single-thread screw. In addition, because of the multi-start thread, the pitch can be the same as that of the adjusting body using the single-start thread, and the number of threads to be screwed can be the same. For this reason, it is not necessary to increase the pitch of the screws, and it is possible to quickly set a desired drag force while maintaining the strength of the screws.
[Brief description of the drawings]
FIG. 1 is a left side sectional view of a spinning reel employing one embodiment of the present invention.
FIG. 2 is a sectional view taken along line II-II of FIG.
FIG. 3 is a sectional view of a spool including a drag mechanism.
FIG. 4 is an exploded perspective view of a drag adjustment knob.
FIG. 5 is a front view of a drag adjustment knob.
FIG. 6 is a sectional view taken along the line VI-VI in FIG. 5;
FIG. 7 is a diagram corresponding to FIG. 6 of the various embodiments.
[Explanation of symbols]
2 reel body
4 spool
6 Oscillating mechanism
15 Spool shaft
15a 1st male thread
60 Drag mechanism
61 Drag adjustment knob
80,180 First adjustment body
81,181 Transmitter
81a First collar
82,182 Second adjustment body
83,183 Pressing body
84 1st sounding part
85 Second sound generator
90, 190 First adjustment body
90b Transmitter storage recess
90d locking groove
91,191 2nd male screw part
92, 192 First nut
95 Retaining spring (first retaining part)
95a engaging part
95b Contact part
100, 200 Second adjusting body
100c cover
100e pressing body storage recess
101,201 Second female screw part
102,202 2nd nut
103 Handle
103a Bridge
105 screw (second retaining part)
110a Second collar

Claims (12)

A drag mechanism that brakes a spool rotatably mounted on a spool shaft that is movable back and forth with respect to a reel body of a spinning reel and has a first male screw portion formed at a tip thereof in a state where backward movement is restricted. It is a drag adjustment knob of the spinning reel that adjusts the drag force,
A first adjusting member having a first female screw portion screwed to the first male screw portion;
A transmission body having a second male screw portion, which is mounted on the spool shaft so as to be non-rotatably and axially movable in contact with a rear portion of the first adjusting member and has a first male screw portion and a screw lead different from each other on the outer periphery;
A second adjusting body having a second female screw portion screwed to the second male screw portion;
A pressing member that is arranged between the second adjusting member and the drag mechanism so as to be able to contact the both, and that is non-rotatable with respect to the spool shaft and is axially movable;
A drag adjustment knob for a spinning reel, wherein the larger lead portion of the first male and female threads and the second male and female threads is a multi-start thread. The drag adjustment knob of a spinning reel according to claim 1, wherein the thread portion having the larger lead has a larger pitch. The drag adjustment knob of a spinning reel according to claim 1 or 2, wherein the second male and female screw portions are double-start threads. The first adjustment body is a cylindrical member protruding forward,
The said 2nd adjustment body has the cover part which covers the circumference | surroundings of the said 1st adjustment body, and partially exposes, and the bridge part which covers the front end part of the said 1st adjustment body partially. 3. The drag adjustment knob of the spinning reel according to any one of 3. The drag adjusting knob for a spinning reel according to any one of claims 1 to 4, further comprising a first retaining portion for retaining the transmission body so as to be rotatable relative to the first adjusting body. , The first adjusting body includes:
A circular recess formed by opening in the rear end face, and a circumferentially spaced and circular axial direction from the front end face facing the rear end face to the front side of the rear end face through the outer edge of the recess. A first cylindrical body having a plurality of locking grooves formed along the first adjusting body;
A nut member mounted on the inner peripheral portion of the first adjustment body main body in a state where rotation is prevented and forward movement is restricted, and the nut member has the first female screw portion;
The transmission body has a first flange portion housed in the recess,
The first retaining portion,
A plurality of engagement portions engaged with the plurality of engagement grooves, and a contact portion formed integrally with the engagement portion and in contact with the first flange portion of the transmission body from the opening side; The drag adjusting knob of a spinning reel according to claim 5, wherein the drag adjusting knob is a spring member having elasticity that can be attached from an opening side of the concave portion to prevent the body from coming off. The drag adjustment knob for a spinning reel according to any one of claims 1 to 6, further comprising a second retaining portion for retaining the pressing body so as to be rotatable relative to the second adjusting body. The second adjusting body has a circular concave portion formed by opening to the rear end surface,
The pressing body has a second flange portion housed in the concave portion,
The drag adjusting knob for a spinning reel according to claim 7, wherein the second retaining portion is a screw member having a head and screwed into the second adjusting body and capable of locking the flange with the head. . The drag adjustment knob for a spinning reel according to any one of claims 1 to 8, further comprising a first sound generator that emits sound by a relative rotation between the first adjustment body and the transmission body. The drag adjustment knob for a spinning reel according to any one of claims 1 to 9, further comprising a second sounding section that emits sound by a relative rotation between the second adjustment body and the pressing body. The drag adjustment knob of a spinning reel according to claim 10, wherein the first sounding unit generates a click sound having a finer pitch than the second sounding unit. The drag adjustment knob for a spinning reel according to any one of claims 1 to 11, wherein the adjusting body having a thread portion with a large lead has a rotation range limited to less than 360 degrees.

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