TW200934381A - Handle knob and handle assembly for fishing reel - Google Patents

Abstract

The present invention provides a handle knob which is integrally formed with a cover made of an elastic body and which prevents raw material of the cover from flowing into the knob in molding the cover. The handle knob 9 includes a mounting section 90, a first knob 92, a second knob 93 and a cover. The mounting section is rotatably mounted to an outer circumference of a knob shaft. The first knob, which is hollow, is mounted on the mounting section and comprises a first opening 92a formed in an end remote from the mounting section and a first jointing section 92b, which is formed by recessing an edge of an outer circumference of the first opening. The second knob, which is hollow, has a second opening 93a opposite to the first opening of the first knob, a second jointing section 93b being formed by recessing an edge of an inner circumference of the second opening to be fit to the outer circumference of the first jointing section. The cover is made of an elastic body that covers at least the first knob and the second knob.

Description

[Technical Field] The present invention relates to an operating lever which is rotatably mounted on a handle shaft fixed to a tip end of an operating lever arm of a fishing reel and an operating lever using the same Assembly. [Prior Art] 0 A lever assembly is fixed to the tip end of the handle shaft of a fishing reel such as a spinning reel or a double-bearing reel. The operating lever assembly includes an operating lever arm that is non-rotatably mounted on the tip end of the handlebar shaft, a handle shaft that is fixed to the tip end of the lever arm, and an operating lever handle that is rotatably mounted on the handle shaft. . Such a lever handle is known to have a shape in which the palm can be gripped as a whole, and for example, the outer shape is formed in a slightly oval shape, and the outer peripheral portion is covered with an elastic body such as synthetic rubber (for example, refer to Patent Document 1). A conventional lever handle is provided to be rotatably mounted on a mounting portion for a hand shaft, a hollow first handle integrally formed with the mounting portion, and a second screw that is screwed to the first handle. A handle portion and a soft elastic cover portion formed to cover the outer peripheral portions of the first and second handles. The first handle and the second handle are abutted against a surface perpendicular to the handle shaft, and the cylindrical boss portions formed on the inner peripheral side thereof are fitted to each other in a concave-convex manner. The first and second handles are fixed by a screw member that penetrates the hub. In the lever handle having such a configuration, the first handle and the second handle including the mounting portion are separately formed by molding, and the first and second handles are fixed by a screw member, and then the cover portion is insert-molded. In this case, generally -4 - 200934381 'The assembly in which the first and second handlebars are fixed is attached to the movable type of the model, and the fluid that becomes the material of the cover from the fixed side flows into the model from the second handle side. Hardened after the interior. Thereby, the lid portion and the handle assembly body are molded. A conventional lever handle of this type is covered with a soft elastic cover portion covering the outer peripheral portion. Therefore, the sliding is not easy and the feeling at the time of grip is good, and it is easy to hold strongly. [Patent Document 1] Japanese Laid-Open Patent Publication No. Hei No. Hei. No. Hei. No. Hei. No. Hei. When the lid portion is insert-molded into the outer peripheral surfaces of the first and second handles, it is possible that the protruding portion is opened by the pressure rise inside the mold. When the protruding portion is opened, the raw material may flow into the inside of the crucible from the opened protruding portion. An object of the present invention is to provide an operation lever handle in which a lid portion of an elastic system is integrally molded, and the material of the lid portion does not flow into the handle when the lid portion is formed. (Means for Solving the Problem) The lever handle of the fishing reel of the first aspect of the invention is an operation lever which is rotatably attached to a handle shaft fixed to the front end of the lever arm of the fishing reel, and is provided with The first portion, the second handle, and the lid portion are provided. The mounting portion is rotatably mounted on the outer circumference of the handle shaft -5-200934381 side. The first handle is hollow and is provided in the mounting portion, and includes a first opening formed at an end portion away from the mounting portion, and a first fitting portion recessed at an edge portion on the outer peripheral side of the first opening portion. . The second handle is hollow, and has a second opening that faces the first opening of the first handle and an edge that is recessed on the inner peripheral side of the second opening and that can be fitted to the first one. The second fitting portion to which the outer peripheral surface of the portion is fitted. The lid portion is an elastic system and is formed to cover at least the first handle and the second handle. 0 In this lever handle, when it is manufactured, the integrally formed mounting portion and the first handle, or the mounting portion and the first handle are separately fixed and fixed together. Further, the first handle and the second handle are fitted to each other by the first and second fitting portions. After the concave-convex fitting, the first handle and the second handle are fixed by an appropriate fixing means such as screwing or screwing or joining of the screw members. When the assembly of the first handle and the second handle is completed, the assembly is placed in a mold for molding the cover portion, and the cover portion and the assembly are integrally molded. At the time of this molding, the fluid which is the material of the lid portion flows from the second handle side to the first handle side. Here, the first fitting portion is formed to be recessed at the edge portion on the outer peripheral side of the first opening portion, and the second fitting portion is recessed at the edge portion on the inner peripheral side of the second opening portion, and can be fitted to the first portion. 1 outer peripheral surface of the fitting portion. Therefore, the second fitting portion is disposed on the outer peripheral side of the first fitting portion, and the second fitting portion is formed to protrude from the outer peripheral side of the first fitting portion, and the first and second fitting portions are from the outer periphery. The portion is formed in a stepwise manner from the first handle to the second handle toward the inner peripheral portion. Therefore, the first and second fitting portions are formed in a stepwise direction from the outer peripheral portion toward the inner peripheral portion in the flow direction of the fluid, and even if the pressure inside the mold rises, the fluid does not easily pass from the first handle and the second handle. The chiseled part enters the interior of -6-200934381. The lever handle of the fishing reel according to the second aspect of the invention is the handle of the first aspect, and the first and second openings are formed in parallel with a plane perpendicular to the handle axis. In this case, since the fitting portions of the first handle and the second handle are formed in parallel with the plane perpendicular to the handle axis, the first and second handles can be easily fitted. The lever handle of the fishing reel of Invention 3 is a handle according to Invention 1 or 0, and the first handle and the second handle are substantially joined to the maximum outer diameter position. In this case, since the first and second handles are joined at the maximum outer shape, the first and second handles are easily molded by molding. The operation lever of the fishing reel according to the fourth aspect of the invention is the handle according to any one of the first to third aspects, wherein the first handle is made of synthetic resin, the mounting portion is made of metal, and the first handle is integrally molded by molding. In the installation department. In this case, the first handle is formed by molding at least a part of the metal mounting portion into a mold and integrally formed with the mounting portion. Therefore, the Q first handle can be strongly fixed to the mounting portion. The lever handle of the fishing reel of Invention 5 is the handle of any one of Inventions 1 to 4, and the second handle has a plurality of screw holes for arranging the handle shaft at the center, and is inserted from the first handle side. The plurality of first screw members that are screwed into the plurality of screw holes are fixed to the first handle. In this case, since the second screw is fixed to the first handle by the first screw member inserted from the first handle side, the lever handle of the fishing reel of the first screw member second handle side invention 6 is not exposed. The handle of any one of Inventions 1 to 200934381 5, the second handle further has a third opening portion formed in a portion facing the end portion of the handle shaft and further provided with a third opening portion The cap member used. In this case, even if the screw member for preventing the lever handle from being detached from the handle shaft is attached to the tip end of the handle shaft from the second handle side, the screw member can be attached and detached by removing the third opening of the cap member. Exchange lever handles. The lever handle of the fishing reel according to the seventh aspect of the invention is the φ handle according to the sixth aspect of the invention, and the cap member is fixed to the plurality of second screw members by a plurality of screw holes that are screwed from the cap member side. 2 handles. In this case, since the screw holes that are screwed into the first screw member are also screwed to the second screw member, the screw holes of the two types can be screwed into two types of screw members, thereby reducing the number of screw holes and reducing the processing cost. . The operation lever assembly of the fishing reel according to the eighth aspect of the invention is an operation lever assembly mounted on the tip end of the handle shaft of the fishing reel, and has a base end attached to the tip end of the handle shaft, toward the handlebar An operating mast arm extending in a direction in which the axes intersect; and a handle shaft fixed to the front end of the lever arm toward the handle shaft; and an operating lever handle according to any one of claims 1 to 7. . In this lever assembly, the same action as the above-described lever handle and the effects produced thereby can be expected. According to the present invention, the first fitting portion is recessed at the edge on the outer peripheral side of the first opening, and the second fitting portion is at the edge of the inner peripheral side of the second opening - 8 - 200934381 The recess is formed to be fitted to the outer peripheral surface of the first fitting portion. Therefore, the second fitting portion is disposed on the outer peripheral side of the first fitting portion, and the second fitting portion is formed to protrude from the outer peripheral side of the first fitting portion, and the first and second fitting portions are from the outer periphery. The portion is formed in a stepwise manner from the first handle to the second handle toward the inner peripheral portion. Therefore, the first and second fitting portions are formed in a stepwise direction from the outer peripheral portion toward the inner peripheral portion in the flow direction of the fluid, and even if the pressure inside the mold rises, the fluid does not easily pass from the first handle and the second handle. The fitting part Q is entered inside. [Embodiment] [Overall structure and structure of the reel body] Figs. 1 and 2 are a spinning reel according to an embodiment of the present invention, and are provided to be rotatably supported by the operation lever assembly 1. The reel body 2, the rotor 3, and the reel 4. The rotor 3 is a reel-attached fishing line for the reel 4 and is rotatably supported by the front portion of the reel body 2. The φ cylinder 4 is for winding the fishing line on the outer peripheral surface, and is movably disposed forward and backward in the front portion of the rotor 3. Further, the operation lever assembly 1 may be mounted on either the left side of the reel body 2 and the right side of the reel body 2 as shown in Fig. 1. As shown in FIGS. 1 , 2 , and 3 , the operation lever assembly 1 includes a tip end that is attached to the handle shaft 8 a ( FIG. 2 ) and extends in a direction intersecting the handle shaft 8 a . The lever arm 8; and a handle shaft 18 (FIG. 3) fixed to the tip end of the lever arm 8 and extending in the direction of the handlebar shaft 8a; and an operating lever handle 9 rotatably mounted to the handle shaft 18. The handle shaft -9-200934381 18, as shown in Fig. 3, is fixed to the tip end of the lever arm 8. [Structure of Operation Lever Handle] The operation lever handle 9 is a substantially T-shaped member as shown in Figs. 3 and 4 . The lever handle 9 is rotatably mounted to the handle shaft 18. On the proximal end side of the handle shaft 18, a large diameter portion 18a for positioning the handle shaft 18 in the axial direction and for fixing the lever handle 9 is formed. The φ operating lever handle 9 has a mounting portion 90 that is rotatably attached to the outer peripheral side of the handle shaft 18, and a slightly oval section that is fixed to the outer peripheral surface of the mounting portion 90 by integral molding. Shaped handle portion 91. The mounting portion 90 is a tubular member made of metal such as a stainless steel alloy or an aluminum alloy. In the inner peripheral portion of the mounting portion 90, a pair of bearings 96a and 96b for rotatably supporting the lever handle 9 by the handle shaft 18 are attached at intervals in the axial direction. At the tip end of the handle shaft 18, a fall prevention screw 97 for preventing the lever handle 9 from coming off the handle shaft 18 is screwed. The detachment preventing screw 97 prevents the mounting portion 90 from coming off the handle shaft 18 via the bearing 96b in the mounting hole 90a for mounting the bearing 96b on the tip end side of the mounting portion 90. In the outer peripheral surface of the handle portion 91 of the mounting portion 90, when the handle portion 9 1 is integrally molded, the two annular grooves 90b and 90c for reinforcing the grip portion 9 1 are formed at intervals in the axial direction. In the portion where the annular grooves 90b and 90c are formed, a small diameter portion 90d for forming the cover portion 95 and the second handle 92 to be described later and having a smaller diameter than the other portions is formed. The handle portion 91 is a first and second handles 92 and 93 made of a synthetic resin such as a polyamide resin, and an elastic system covering the outer peripheral portions of the first and second handles 92 -10- 200934381 and 93. The lid portion 94 and the cap member 905 are attached to the second handle portion 193. The first handle 92 is a hollow member, and the mounting portion 90 ′ has a first opening 92 a formed at an end portion away from the mounting portion 90 and a recess at an outer peripheral side of the first opening 92 a. The first fitting portion 92b is formed. The first handle 92 is formed by, for example, molding a mold in which at least a part of the mounting portion 90 is placed in a molding mold for insert molding or the like, and is formed on the outer peripheral surface of the metal mounting portion 90. Thereby, the first handle 92 can be strongly fixed to the mounting portion 90. In the first handle 92, the handle shaft 18 is disposed at the center, and a plurality of (for example, two) first fixing screws (an example of the first screw member) 98 for coupling the second handle 93 are permeable (for example, two). The through hole 92c is formed in parallel with the handle shaft 18 around the handle shaft 18. The plurality of first fixing screws 98 are inserted from the first handle 92 side and screwed to the second handle 93. Thereby, the first fixing screw 98 is not exposed on the second handle 93 side. The second handle 93 is a hollow member and has a second opening 93a that is fitted to the first handle 92 in a concave-convex manner, and a recess formed on the inner peripheral side of the second opening 93a. The second fitting portion 93b of the outer peripheral surface of the fitting portion 92b; and the second opening portion 93c formed on the opposite side of the second opening portion 93a. Here, the first to third opening portions 92a, 93a, and 93c are formed in parallel with a plane perpendicular to the handle shaft 18. This makes it easy to fit the first and second handles 92, 93. Further, the first handle 92 and the third handle 93 are joined at the outermost diameter position. Thereby, the first and second handles 92 and 93 are easily formed by molding. -11 - 200934381 Here, as shown in Fig. 3, the first fitting portion 92b of the first handle 92 and the second fitting portion 93b of the second handle 93, and the first fitting portion 92b are in the first opening. The edge portion on the outer peripheral side of the portion 92a is recessed, and the second fitting portion 93b is recessed at the edge on the inner peripheral side of the second opening portion 93a, and is fitted to the outer peripheral surface of the first fitting portion 92b. Therefore, the second fitting portion 93b is disposed on the outer peripheral side of the first fitting portion 92b, and the second fitting portion 93b is formed to protrude from the outer peripheral side of the first fitting portion 92b, and the first and second fittings φ The portions 92b and 92b' are formed stepwise from the outer peripheral portion toward the inner peripheral portion from the first handle 92 toward the second handle 93. In the second handle 93, a female screw hole (an example of a screw hole) 93d to which the first fixing screw 98 is screwed is disposed in the same core as the through hole 92c. The second handle 93' is fixed to the first handle 92 by a plurality of first fixing screws 98 inserted from the first handle 92 side. On the outer circumferential surfaces of the first and second handles 92, 93, a plurality of recessed portions 92d and 93e for improving the bonding with the lid portion 94 are formed. The third opening portion 93c' is plugged by the cap member 95. When the cap member 95 is disposed as described above, the third opening portion 93c can be exposed, and the falling prevention screw 97 can be attached to and detached from the handle shaft 18, and the prevention and removal of the lever handle 9 can be released. The lever handle 9 can be exchanged. The cap member 95 is a member made of synthetic resin and formed into an oblong shape. The outer side surface of the cap member 95 is formed by being bent in a manner of being joined to the lid portion 94. The cap member 95' is a cap attaching portion 94a formed by the outer peripheral side of the third opening portion 93c of the second handle being fitted into the lid portion 94 and recessed in an oblong shape. The cap member 95' is inserted from the side of the cap member 95, and is fixed to the second handle 93 by a second fixing screw (an example of a second screw member) 99 screwed to the screw hole 93d. In the screw hole 93d of the first type, the two types of screw members of the first fixing screw 98 and the second fixing screw 99 can be screwed, and the number of the screw holes 93d can be reduced, and the processing cost can be reduced. The lid portion 94 is a member of a soft elastic system such as ACTYMER (Japanese trademark). In the lid portion 94, the second handle 93 is fixed to the first handle 92 that is integrally formed in the mounting portion 90 by the first fixing screw 98, and the outer peripheral surface of those assemblies is borrowed at a certain thickness. It is formed by in-line molding. Further, the lid portion 94 has a cylindrical outer peripheral surface which is flush with the large-diameter portion 90e of the outer peripheral surface of the small-diameter portion 90d adjacent to the annular groove 90b in which the mounting portion 90 is formed. When the lid portion 94 is integrally molded, the fluid which is the material of the lid portion 94 is supplied from the inner peripheral portion of the surface into which the cap member 95 is fitted, for example. Thereby, the trace of the supply port of the fluid of the raw material is blocked by the cap member 95 and cannot be exposed to the outside. Here, the second fitting portion 93b is disposed on the outer peripheral side of the first fitting portion 92b. The second fitting portion 93b is formed on the outer peripheral side of the first fitting portion 92b, and the first and second inserts are formed. The joint portions 92b and 92b are formed stepwise from the outer peripheral portion toward the inner peripheral portion from the first handle 92 toward the second handle 93. Therefore, the first and second fitting portions 92b' to 93b are formed in a stepwise direction from the outer peripheral portion toward the inner peripheral portion in the direction opposite to the flow direction of the fluid, and even if the pressure inside the mold rises, the fluid is less likely to pass from the first handle 92. The fitting portion of the second handle 93 enters the inside. [Structure of the Reel Body] As shown in Fig. 5, the reel body 2 has a reel housing 2a made of, for example, an aluminum alloy, and an opening 2d, which is provided with an opening 2d - 13 - 200934381. A cover member 2b made of, for example, an aluminum alloy, which is detachably attached to the reel housing 2a, and a cymbal mounting leg 2c extending obliquely upward from the reel housing 2a. The reel housing 2a' has a space inside, and is provided with a rotor drive mechanism 5 that rotates the rotor 3 in conjunction with the rotation of the operating lever assembly, and moves the reel 4 forward and backward to the fishing line. The swing mechanism 6 for winding up uniformly. In the reel housing 2a and the cover member 2b, the flange portion 2e' is formed in a shape, and in the reel housing 2a, a cylindrical portion 2f that protrudes further forward from the flange portion 2e is formed. The rear portion of the reel body 2 is covered by a shield member 17. [Structure of Rotor Actuator] As shown in Fig. 2, the rotor drive mechanism 5 has a handle shaft 8a to which the operation lever assembly 1 is fixed, and a main gear shaft 10 that rotates together with the main gear shaft 10 11 and a pinion 12 that meshes with the main gear 11. The main tooth Q axle 1 is, for example, a cylindrical shaft made of a stainless steel alloy. As shown in Figs. 5 and 6, the bearings 26a and 26b attached to the reel housing 2a and the cover member 2b are End support. On the inner peripheral surface of the main gear shaft, a first female screw portion 10a having a right thread is formed at the right end, and a second female screw portion 10b having a left thread is formed at the left end. In the bearing 26b side of the main gear shaft 10, a circular mounting flange 10c for mounting the main gear 11 is integrally formed. The main gear 11 is rotatably attached to the outer peripheral side of the main gear shaft 10. The main gear 1 1 is a gear portion 11a having a spur gear on the outer peripheral side surface, and a cylindrical portion lie that is fitted to the main gear shaft 10 and protrudes toward the bearing -14 - 200934381 26a side in the inner peripheral portion. An annular groove lid to which the spring member 64 constituting the second one-way clutch 52, which will be described later, is attached in a frictional engagement state is formed on the outer peripheral surface of the tubular portion lie. A reinforcing circular plate lib for reinforcing the main gear 11 is attached between the main gear 11 and the mounting flange 10c. The reinforcing circular plate lib is a member made of, for example, a stainless steel alloy having a larger diameter than the mounting flange 10c, and is provided to prevent the falling of the reinforcing circular plate lib side of the main gear 1 1 . The reinforcing circular plate lib is fixed to the main flange 11 of the mounting flange 10c' by a plurality of (for example, six) mounting screws 27a together with the main φ gear 1 1 , and is further outward in the radial direction of the mounting flange i 〇 c The plurality of (for example, six) mounting screws 27b are fixed to the reinforcing circular plate 1 lb. The pinion gear 12' is a tubular member made of, for example, a stainless steel alloy. As shown in Fig. 2, the front portion 12a is a central portion penetrating the rotor 3, and is fixed by the nut 13 so as to be rotatable with the rotor 3. The pinion gear 12 is rotatably supported by the reel housing 2a at its intermediate portion and rear end portion in the axial direction by bearings 14a and 14b which are attached to the reel housing 〇 2a at intervals. [Configuration of the swinging mechanism] The swinging mechanism 6' is a mechanism for moving the moving reel 4 in the same direction in the front-rear direction with the spool shaft 15 coupled to the center portion of the spool 4 via the traction force mechanism 60. As shown in FIGS. 2 and 5, the swing mechanism 6 includes a screw shaft 21 that is disposed in parallel below the spool shaft 15, a slider 22 that moves in the front-rear direction along the screw shaft 21, and a slider 22 that is fixed to The intermediate gear 23 of the tip end of the screw shaft 21. The screw shaft 21 is disposed in the front-rear direction, and the rear end portion -15-200934381 is rotatably supported by a bearing 35 attached to the rear wall surface 2g of the reel housing 2a as shown in Fig. 7. The outer ring of the bearing 35 is prevented from coming off by the pressing plate 2 9b fixed to the outer side surface 2h of the rear wall surface 2g. The pressing plate 29b is a pressing hole 29e for outer wheel gauge having a smaller diameter than the outer ring. Further, a plate-shaped sealing member 29a is disposed between the pressing plate 29b and the outer surface 2h. The sealing member 29a is a through hole 29f having a larger diameter than the outer ring of the bearing 35. A cover plate 29c is attached to the outer side of the pressing plate 29b. These members 29a to 29c are fixed by two screw members 29d screwed into the rear wall surface 2g. Thereby, the outer ring does not contact the sealing portion 29b, the screw shaft 21 does not easily move, and the forward and backward movement of the slider 22 can be stabilized. The rear end of the spool shaft 15 is fixed in the slider 22 so as not to be rotatable. The slider 22 is guided in the front-rear direction by the two guide shafts 28a and 28b which are disposed in the reel housing 2a in the front-rear direction. The intermediate gear 23 is engaged with the pinion gear 12. 〇 The spool shaft 15 is a central portion that is disposed to penetrate the pinion gear 12. The spool shaft 15 reciprocates back and forth inside the pinion gear 12 by the swing mechanism 6. The spool shaft 15 is a bearing 16 provided in the nut 13 by an intermediate portion, and the rear portion is supported by the inner peripheral surface of the rear portion of the pinion gear 12 so as to be rotatable and freely movable in the axial direction. When the spool shaft 15 moves forward and backward while rotating relative to the pinion gear 12, an electroless Ni blade is applied to the surface of the spool shaft 15 in order to prevent the spool shaft 15 from biting the pinion gear 12. At the tip end of the spool shaft 15, a locking surface 15a for preventing rotation and a male screw portion 15b for adjusting the traction force are formed. -16-200934381 [Structure of Rotor] As shown in Fig. 2, the rotor 3' has a rotor main body 33 that is coupled to the pinion gear 12 so as to be rotatable together, and a guide ring that is swingably attached to the rotor main body 33. Arm 34. The rotor main body 33 has a cylindrical connecting portion 30 that is coupled to the pinion gear 12, and a first rotor arm 31 that extends forward from the first side of the rear end portion of the connecting portion 30 and the connecting portion with a gap therebetween. And the second rotor arm 31 that extends forward from the second side of the second side connecting portion that faces the first side of the rear end portion of the connecting portion 30. The rotor body 33 having the coupling portion 30 and the two rotor arms 31, 32 is integrally formed of, for example, an aluminum alloy. The wall portion 30a is formed in the intermediate portion of the joint portion 30, and the hub portion 30b is formed in the center portion of the wall portion 30a. A through hole 3〇c is formed in a central portion of the hub portion 33b, and the front portion 12a and the spool shaft 15 of the pinion gear 12 pass through the through hole 3〇c, and are disposed at the front portion of the wall portion 30a to fix the rotor 3 to the small portion. The nut 12 of the gear 12 is used. The first rotor arm 3 1 is curved forwardly convexly outward from the connecting portion 30 and curved in the circumferential direction of the connecting portion 30. The second rotor arm 32 is curved forwardly from the connecting portion 30 so as to be convex outward. The connecting portion of the connecting portion 30 is curved in the circumferential direction of the connecting portion 30. Further, in the second rotor arm 32, an opening (not shown) is formed for weight reduction, and the rotor 3 further includes first and second covers as shown in Figs. 8 and 9 The first and second -17-200934381 cover members 3 6a and 3 6b of the outer sides of the rotor arms 31 and 32, and the third cover member 37 covering the rear end portion of the coupling portion 30, and for the first and second The first and second engaging projections 38a and 38b provided in the rotor main body 33 are joined to the first and second engaging projections 38a and 38b of the rotor main body 33, and have a three-dimensional curved surface that is convexly curved outwardly. The outer side surface is fixed to the first rotor arm 3 1 by a screw 55 5 a. The joint surface 36c of the first lid member 36a and the first joint projection 38a is Q formed by a flat surface. The second cover member 36b is an outer side surface having a three-dimensional curved surface that is convexly curved outwardly, and is fixed to the second rotor arm 32 by a screw 55b, and is screwed to the third cover member 37 by a screw 55c. It is fixed to the rear of the joint portion 30. In order to fix by the screw 55c, the plate-shaped mounting part 36e which protrudes inward is formed in the 2nd cover member 36b. The joint surface 36f of the second joint projection 38b of the second cover member 36b is formed by a flat surface. The third cover member 37' is formed in such a manner that a circular opening 37a formed in the center of the flange portion Qe of the reel body 2 can be disposed, and the first and second engagement projections 38a and 38b can be contacted. Joint faces 37b, 37c on both sides. The third cover member 37 is fixed to the rear surface of the coupling portion 30 by two screws 55c and 55d. The first engagement projection 38a' has a joint surface 3Sc formed by a plane that is joined to the first lid member 36a, and a joint surface 38d that is formed by a plane that is joined to the third lid member 37. The joint surface 38c is joined to the joint surface 36c of the first lid member 36a, and the joint surface 38d is joined to the joint surface 37b of the third lid member 37. The first joining projection 38a is an end surface between the joining faces 38c and -18-200934381 38d exposed to the outside. The first engaging projection 38a is provided at a boundary portion between the connecting portion 3A and the first rotor arm 31, and has a thickness in a plate shape. The first engaging projection 38a protrudes outward toward the joint portion of the first cover member 36a and the third cover member 37. The end surface exposing the outside of the first joining projection 38a is formed to be curved so as to be flush with the outer surface of the first lid member 36a and the third lid member 37. The second engaging projection 38b has a joint surface 38e formed by a flat surface that is joined to the second lid member 36b, and a joint surface 38f formed by a plane joined to the third lid member 37. The joint surface 38e is joined to the joint surface 36f of the second lid member 36b, and the joint surface 38f is joined to the joint surface 37c of the third lid member 37. The second engagement projection 38b exposes the end surface between the joint surfaces 38c and 38d to the outside. The second engagement projection 38b is provided at a boundary portion between the coupling portion 30 and the first rotor arm 31, and has a thickness in a plate shape. The second engagement projection 38b protrudes outward toward the inclination of the joint portion of the second cover member 36b and the third cover member 37. The outer end surface of the second Q-joining projection 38b is exposed so as to be flush with the outer surface of the second lid member 36b and the third lid member 37. Here, the joint portions of the first and second cover members 36a and 36b and the third cover member 37 are joined to each other by the joint surfaces 38c and 38e and the joint formed by the planes of the first and second joint projections 38a and 38b. Since the surfaces 38d and 38f are the first and second cover members 36a and 36b and the third cover member 37, the first and second engagement projections 38a' to 38b are joined by a plane. Therefore, even if the force is applied to any of the cover members, the force can be absorbed by any of the joint faces 36c to 36f formed by the flat surface without affecting the other cover member. According to -19-200934381, even if a force acts on one of the cover members, deformation or damage of the other cover member can be prevented. Further, the joint faces of the cover members 36a, 36b, 37 and the first and second engagement projections 38a and 38b are flat. Therefore, the shape of the joint portion is simplified, and even the first and second cover members 3 6a and 36b and the third lid member 37 are formed by molding or the like, and the joint portion is easily joined. 0 [Structure of the guide ring arm] The line guide mechanism, that is, the guide ring arm 34, is rotatably mounted between the first and second rotors between the line liberation posture and the take-up position as shown in Fig. 2 The apex of the arms 31, 32. The guide ring arm 34 is separately urged by the guide ring reversing mechanism 39 (Fig. 8) in the line liberation posture and the take-up posture. As shown in FIG. 8, the guide ring arm 34 has a first guide ring support member 40 that is swingably attached to the outer peripheral side of the tip end of the first rotor arm 31, and is swingably mounted to the first The second guide ring support member 42 on the outer circumference side of the tip end of the rotor arm 32 and the linear roller 41 attached to the tip end of the first guide ring support member 40. Further, the guide ring arm 34 has a fixed shaft 43 that is fixed to the tip end of the first guide ring support member 40 and is supported by the first guide ring support member 40 by a cantilever, and a fixed end portion that is disposed on the distal end side of the fixed shaft 43. The shaft cover 44 and the guide ring 45 that connects the fixed shaft cover 44 and the second guide ring support member. The further guide ring arm 34 has a fixed structure 46 that includes a set screw 56 that secures the fixed shaft 43 to the first guide ring support member 40. The first guide ring support member 40 is a member made of an aluminum alloy -20-200934381 which is covered with a metal film formed by chrome plating, for example, as shown in Figs. 10 to 12 . By hardening the surface by the chrome plating, it is possible to prevent the scratch on the outer side caused by the contact of the fishing line. On the distal end side of the outer side surface of the first guide ring support member 40, a first housing recessed portion 40a for receiving the head portion 596a of the fixing screw 56 is formed. Further, on the proximal end side, a circular second housing recess 40b for accommodating the head portion 49a for attaching the first guide ring supporting member 40 to the mounting screw 49 for the first rotor arm 31 is formed. The shape of the first housing recess 40a is a circle having two small diameters which are formed in a non-circular shape and which are arranged in an axisymmetric relationship with a circle having a large diameter. Therefore, the first housing recess 40a is formed in an axisymmetric shape. A through hole 40c through which the fixing screw 56 penetrates is formed at the center of the large diameter circle of the first housing recess 40a. Further, at the center of the circle of the small diameter, two female screw portions 59a and 59b constituting the fixing structure 46 are formed. The line that does not come into contact with the fishing line on the inner side surface of the linear roller 41 on which the first guide ring support member 40 is disposed is for preventing the fishing line from entering the linear roller 4! The line entry preventing rib 4 0 e for the inner side is A range of about 180 degrees is formed to protrude from the outer peripheral surface of the linear roller 41. An annular thin-walled portion 40f for achieving weight reduction is formed in the inner peripheral side of the entry prevention rib 40e. The fixed shaft 43 is formed separately from the fixed shaft cover 44. The fixed shaft 43 is provided to fix the fixed shaft cover 44 to the first guide ring support member 40, and to rotatably support the linear roller 41. The fixed shaft 43 is a head portion 43a having a large diameter, a first locking portion 43b that is continuous with the head portion 43a and smaller than the head portion 43a, and a support portion 43c that supports the linear roller 41, and is formed on the support. The second locking portion 43d of the tip end of the portion 43c. A female screw portion 200934381 43e for screwing the fixing screw 46 is formed at the tip end portion of the fixing shaft 43. The first locking portion 43b is a card-synthesis fixed shaft cover 44, first. The locking portion 43d is a card-combined first guide ring support member 40, and the fixed shaft cover 44 and the fixed shaft 43 and the first guide ring support member 40 are fixed to the fixed shaft cover 44 by the engagement thereof. As shown in Fig. 8, the guide ring 45 bent into a substantially U shape is integrally formed, for example, by forging. In the fixed shaft cover 44, a mounting recess 44a to which the fixing shaft 43 can be attached is formed, and in the bottom portion of the recessed portion 44a, a groove 44b for engaging the first locking portion 43b is formed. The tip end of the guide ring 45 is falsely fixed to the second guide ring support member 42. As shown in Figs. 10 and 12, the linear roller 41 is rotatably supported by the fixed shaft 43 by two bearings 48a and 48b which are arranged at intervals in the axial direction. In the linear roller 41, the first tubular portion 41b and the second tubular portion 41c are formed on both sides of the small-diameter guide groove 41a located at the center in the axial direction. The first tubular portion 41b is fitted into the fixed shaft cover 44 and has a smaller diameter than the second tubular portion 41c. The second tubular portion 41c is disposed to face the outer peripheral portion of the first Q end of the first guide ring supporting member 40, and is covered by the wire entry preventing rib 40e at a position where it is not in contact with the fishing line. Inside the linear roller 41, a collar or a spacer or a washer for mounting the bearings 48a, 48b is provided. [Structure of the fixed structure] The fixing structure 46 includes a fixing head 56 that has a head portion 56a that is a non-circular portion provided with an outer peripheral surface, and a fixing screw 43 that fixes the fixing shaft 43 to the first guide ring supporting member 40. At least a part of the cover member 57 is disposed on the outer peripheral side of the portion 56a; and the through cover member 57 can be screwed into the first guide ring support member 4〇-22-200934381, and the cover member 57 is fixed to the first guide ring support member 40. Screws 5 8 ; and two female screw portions 59a, 59b of the small screws 5 8 can be screwed into the same radial position from the center of the fixing screws 56; and at least one of the small screws 58 and the cover member 57 can be fixed. The rotation preventing portion 61 in which the screw 56 is stopped. The fixing screw 56 has a non-circular head portion 56a and a thread portion 56b having a smaller diameter than the head portion 56a and screwed to the female screw portion 43e of the fixed shaft 43. Further, the head portion 56a, in this embodiment, has eight rotation preventing concave portions 56c which allow the octagonal shaped pieces to be concave. The rotation preventing concave portion 56c is formed, for example, by an arc that substantially coincides with the center of the circle of the small diameter. The rotation preventing concave portion 56c is formed into a circular head portion 58a that is contactably engaged with the small screw 58. Therefore, the head portion 58 8 a of the small screw 58 has a function of the rotation preventing portion 61. On the surface of the head portion 56a, a sliding groove 56d for locking a screwdriver or the like along the diameter is formed. The cover member 57 has a first engagement surface 57a for the rotation preventing portion 61 that is engaged with the rotation preventing concave portion 56c of the fixing screw 56, and an arrangement portion that is engaged with the head portion 56a of the 〇 fixing screw 56. The second engagement surface 57b for the inner wall surface of the first housing recess 40a. The cover member 57 is a plate-like member that is long along the outer peripheral side of the head portion 56a of the fixed screw 56, and a through hole 5 7 c through which the small screw 58 is inserted is formed in one of the longitudinal directions. The cover member 579 is formed in a shape that can cover the female screw portion (the female screw portion 59b in this embodiment) in which the small screws 58 of the two female screw portions 59a and 59b are not screwed. The first engagement surface 57a is symmetrical with respect to the center line L of the central angle α of the center of the fixing screw 56 of the two female screw portions 59a and 59b. Nothing. Therefore, when the first engaging surface 57a is engaged with the rotation preventing concave portion 56c and the fixing screw -23-200934381 wire 56 is stopped, the cover member 57 can be stopped depending on any of the table/back reversal. The fixing screws 56 are stopped by different phases. Here, since the first housing recess 40a is formed on the outer surface (surface) of the first guide ring supporting member 40, the head portion 56a of the fixing screw 56 does not protrude from the surface of the first guide ring supporting member 40. Further, since the cover member 57 having the small screw 58 attached to the first housing recess 40a is engaged with the second engagement surface 57b of the first housing recess 40a, the cover member 57 can cover the head substantially φ. The first housing recess 4 0 a other than 5 6 a. The small screw 5 8 ' is, for example, a head portion 5 8 a having a round head provided with a sliding groove 5 8 c, and a thread portion 5 8 b having a smaller diameter than the portion 5 8 a. The small screw 5 8 can be screwed into any of the two female screw portions 59a, 59b. The two female screw portions 59a and 59b are formed such that the head portion 58a of the small screw 58 is in contact with the rotation preventing concave portion 56c of the fixing screw 56 at a position having the same radius from the center of the fixing screw 56. Therefore, the head portion 58a of the small screw 58 also contacts the rotation preventing concave portion 56c to stop the fixing screw 56. The number of sides of the fixing screw 56 (the embodiment is 8) It is Ν (Ν' is an integer of 3 to 10, and in this embodiment, 8), it is configured as an angle of an odd multiple of 360/(2χΝ). When the two female screw portions 59a and 59b are disposed at such a position, when the positive-angled fixing screws 56 are screwed into the small screws 5 8 of the two female screw portions 59a and 59b, The fixing screw 56 can be stopped by different phases depending on any one of the two female screw portions 59a, 59b. Further, since the two female spiral portions 59a and 59b are at an angle of 120 degrees or less, the fixing screws 56 can be stopped by 2xN phases in a narrow space from -24 to 200934381. Further, in this embodiment, the head 58a of the small screw 58 and the first engaging surface 57a of the cover member 57 all have the function of the rotation preventing portion 61. However, as long as one of them has the function of the rotation stop portion, can. [Fixed Program of Fixed Screw Fixing Shaft] When the fixed shaft 43 is fixed by the fixing screw 56, the fixed shaft 43 is fixed from the fixed shaft so that the first locking portion 43b of the fixed shaft 43 0 is engaged with the fixed shaft cover 44. The cover 44 is inserted. Further, a member such as a linear roller 41 is attached around the fixed shaft 43. When the mounting of the component is completed, the second locking portion 43d of the tip end of the fixed shaft 43 is engaged with the inner side surface of the first guide ring supporting member 40, and the phase of the shaft cover 44 and the first guide ring supporting member 40 is fixed. In this state, the fixing screw 56 is tightened until the rotation preventing recess 56c of the fixing screw 56 is engaged with, for example, the position of the head portion 58 a of the small screw 58 screwed into the female screw portion 59a. Further, the cover member 57 is placed in the first housing recess 40a. Therefore, when the fixing screws 56 are in phase, the small screw is screwed into the female screw portion 59, and the cover member 57 is fixed to the first housing recess 40a by the small screw 58. At this time, the phase of the rotation preventing concave portion 56c is not When the head 58a of the small screw 58 is fitted, the cover member 57 cannot be disposed. In this case, the fixing screw 56 is loosened or tightened so that the phase conforms to a position where the head 58a of the small screw 58 that can be screwed into the female thread portion 5 9b is engaged. In the state shown in Fig. 11, the reverse cover member 57 is disposed in the first housing recess 40a and is fixed by the small screw 58. In the case where the female screw portions 59a and 59b which are not screwed into the small screws 58 are covered by the cover member 57, it is possible to prevent foreign matter from entering the female screw portions 59a and 59b which are not screwed into the small screws 58. Thereby, the problem that foreign matter penetrates into the female thread portion 59a or 59b can be prevented in advance. Further, the fixing shaft 43 is fixed to the first guide ring supporting member 40 by a fixing screw 56 having a non-circular head portion 56a. The linear roller 41 is rotatably supported by the fixed shaft 43 and guides the fishing line to the spool 4. Here, 0 is on the outer circumferential surface of the non-circular head portion 56a of the fixing screw 56, and the rotation preventing portion 61 comes into contact with the fixing screw 56 to stop. Therefore, the fixing screw 56 that fixes the fixed shaft 43 to the first guide ring support member 40 is less likely to be loosened, and it is possible to suppress the problem that the fixing screw 56 is loosened, for example, the movement of the linear roller 4 1 . In the case of a spinning reel, the linear roller 41 will move and its position will be unstable, which may cause the wire to oscillate and may cause a bite. Further, by screwing the small screw 58 into either of the two female screw portions 59a and 59b, the fixing screw 56 can be stopped by the phase of 2xN, and the phase at which φ can be stopped can be doubled. [Structure of the reverse rotation preventing mechanism] As shown in Fig. 2, the reverse rotation preventing mechanism 50 for prohibiting the reverse rotation of the rotor 3 is disposed inside the coupling portion 30 of the rotor 3. The reverse rotation preventing mechanism 50 is a first one-way clutch 51 having a roller type in which the inner wheel can swim, and a claw-type second one-way clutch 52 disposed on the outer peripheral side of the pinion gear 12. The first one-way clutch 51' is provided in the cylindrical portion 2f of the reel housing 2a, and is rotatably mounted on the outer ring 51a of the cylindrical portion 2f; -26-200934381 and rotatably mounted on The inner ring 51b of the pinion gear 12; and the rotating body 51c which is hard to enter between the two wheels 51a and 51b when the inner ring 5 1 b rotates in the line discharge direction between the two wheels 5 1 a and 5 1 b. Since the first one-way clutch 51 is of the roller type, the reverse rotation of the rotor 3 can be instantaneously prohibited. However, the first one-way clutch 51 of the roller type has a small allowable transmission torque. Here, the second one-way clutch 52 that allows the transmission of the torque to be large is provided. The second one-way clutch 52 is a gear tooth 12c that is close to the pinion gear Q as shown in Fig. 2 . When the first one-way clutch 52 is in the direction of the rotor 3, the first one-way clutch 52 is a one-way clutch for assisting when the first one-way clutch 51 is slid in reverse. As shown in Fig. 5, the second one-way clutch 52 includes a ratchet roller 62 disposed on the pinion gear 12, a claw member 63 engaged with the ratchet roller 62, and a pinion gear 12 (rotor 3) wound toward the wire. The claw member 63 is moved away from the spring member 64 for the ratchet roller 62 when the direction is rotated. The ratchet roller 62' is rotatably mounted in front of the teeth Q teeth 12c of the pinion gear 12. The ratchet roller 62 has a ratchet tooth 62a having a zigzag shape on the outer circumference, and a slightly elongated groove 6 2b engaged with the rotation preventing surface 12b formed on the outer peripheral surface of the pinion gear 12 at the inner peripheral portion. In this embodiment, in order to form the ratchet teeth 62a of the ratchet roller 62 by punch forming, two ratchet rollers 62 formed by punching a thin metal plate are used. When a ratchet roller is produced by another means such as cutting or laser processing, the thickness of two points may be obtained. The claw member 63 is attached to the reel housing 2a as shown in Fig. 13 for restricting the swinging range from being engaged with the ratchet roller 62 (position -27-200934381 13) and away from The distance between the ratchet roller 62 (solid line in Fig. 13). As shown in FIGS. 13 and 14, the claw member 63 has a claw main body 65, a cover 66 that is swingably locked to the claw main body 65, and a claw body 65 and a cover 66 that are integrally swung. An attachment collar 67 for support and a fixing screw 68 for fixing the claw member 63 to the reel housing 2a. The claw main body 65' has a metal disk-shaped support portion 65a that is supported by the fixing screw 68 via the collar 67, and a claw portion 65b that protrudes from the support portion 65a in the radial direction Q and is engaged with the ratchet tooth 62a. And two engaging projections 65c and 65d which are engaged with the cover 66 and protrude from the support portion 65a in the radial direction. The cover 66' has a circular plate which is formed by punching and forming a thin metal plate and is similar to the support portion 65a. The main body portion 66a of the shape and the swing connecting portion 66b that protrudes from the main body portion 66a in the radial direction and engages with the side surfaces of the engaging projection 65c to swing the claw main body 65: and protrudes in the same direction as the engaging projection 65d. A spring erecting portion 6 6c for the spring member 64. A spring mounting hole 66d to which the spring member 64 is engaged is formed in the spring mounting portion 〇 66c '. The collar 67 is a tubular portion 67b having a large diameter dam portion 67a and a support claw body 65 and allowing the fixing screw 68 to pass therethrough. The collar 67 is pressed by the fixing screw 68 to press the lid 66 by the weir portion 67a, and the lid 66 is brought into close contact with the claw body 65. The fixing screw 68 is screwed into the reel housing 2a, and the claw member 63 is rotatably fixed. The spring member 64 is formed by bending a metal spring wire. The spring member 64' is provided to dispose the claw member 63 at a distant position. The spring member -28-200934381 is attached in a state in which the friction member is frictionally engaged with the annular groove lid of the tubular portion lie as described above. The spring member 64 has a C-shaped engaging portion 64a that is frictionally engaged with the annular groove lid, and a connecting portion 64b that is bent in the radial direction from the engaging portion 64a and that is bent in parallel with the main gear shaft 1〇, and The locking portion 64c is bent and locked by the connecting portion 64b to the locking portion 64c of the spring mounting hole 66d. When the first one-way clutch 51 slides to rotate the main gear shaft 10 in the line discharge direction, the spring member 64 rotates clockwise in Fig. 13, and the claw member 63 swings from the 0-distance position toward the engagement position of the ratchet roller 62. When the second one-way clutch 52 having such a configuration rotates in the winding direction of the operation lever assembly ' in the winding direction, the spring member 64 rotates counterclockwise in FIG. 13 and transmits through the collar. 67, the claw body 65 is swung, and the claw member 63 is swung from the engagement position shown by the two-point lock line in Fig. 13 to the distant position shown by the solid line. Thereby, the claw member 63 does not collide with the ratchet roller 62 when the rotor 3 rotates in the wire take-up direction, no sound is generated and the rotational resistance can be reduced. Q On the other hand, the first one-way clutch 51 slides so that the rotor 3 faces When the wire is spouted, the main gear shaft 10 will rotate clockwise toward Fig. 13, and the spring member 64 will rotate clockwise toward Fig. 13, and the claw member 63 will swing from the distant position toward the engagement position of the ratchet roller 62. . Thereby, the rotation of the rotor 3 in the line discharge direction is stopped. This reverse rotation preventing mechanism 50' prohibits the reverse rotation of the rotor 3 in the direction in which the wire is discharged, and does not permit the reverse rotation. [Structure of Reel] -29- 200934381 The reel 4 is disposed between the rotor arm 31 and the second rotor arm 32 as shown in Fig. 2, and is rotatably 15 at the tip end. The reel 4 has a winding bobbin portion 4a made of, for example, an aluminum alloy, which is attached to a reel shaft, and a front and rear flange portion 4c integrally formed with a front portion and a rear portion of the 4a. Cylindrical skirt 4d. In the present invention, the traction mechanism 60 that causes the set traction force to act on the reel 4 Q cylinder 4 and the sounding mechanism 85 when the traction force is actuated are accommodated. [Structure of Traction Mechanism] The traction mechanism 60 is a mechanism 60 for applying a traction force to the reel 4 as shown in FIG. 2, and includes a traction body 70 for adjusting the traction force by hand, and borrowing Pressing by the traction adjusting knob assembly 70: Q The front and rear friction portions 71 and 72 for adjusting the traction force are adjusted. The tractor 70 is disposed at the front of the spool 4. Front friction portion The inside of the winding portion 4a of the spool 4 and the rear friction portion 72 are behind the flange portion 4c. [Structure of Traction Adjusting Button Assembly] The traction adjusting knob assembly 70 is provided with a adjusting knob portion 73 for the first member 76 and the first member 76 relative to the knob 77, and a seal adjusting knob portion 73 and a roll as shown in Fig. 15. The first rotor of the third rotor is supported by the winding mechanism of the traction yoke 4 of the brake drum of the spool shaft 15 which is wound around the outer circumference and the winding rims 4b and 4c and the inside of the spool 4. The traction force adjustment knob assembly & reel 4 side force adjustment knob assembly 71 is disposed, and is disposed rearward, and has a sealing member 74 of -30-200934381 for the gap of the second member cylinder 4 to be rotated. And an adjustment knob sounding mechanism 78 (FIG. 10) that sounds by the relative rotation of the first member 76 and the second member 77. The adjustment knob portion 73 is a fall prevention spring 79 that is rotatably coupled to the first and second members 76 and 77 in the axial direction. The first member 76' is a metal member such as an aluminum alloy having a ring-shaped crotch portion 76a and a cylindrical portion 76b having a smaller diameter than the crotch portion 76a. The first member 76 is non-rotatable and is movably provided in the axial direction in the 0 spool shaft 15. A plurality of sound-emitting recesses 80 constituting the adjustment knob sounding mechanism 78 are formed on the front end surface of the crotch portion 76a. In the inner peripheral portion of the rear portion of the cylindrical portion 76b, an oblong locking groove 76c that is non-rotatably engaged with the locking surface 15a of the spool shaft 15 is formed. An annular groove 76d of the sealing member 74 on which the outer peripheral surface of the cylindrical portion 76b is attached is formed. The rear end surface of the cylindrical portion 76b abuts against the front friction portion 71. The second member 77' is disposed facing each other! The member 76 is disposed to be rotatable relative to the first member 76. The second member 77 is a member that is screwed to the Q reel shaft 15 and that protrudes in a cylindrical shape toward the first member 76 so as to cover the crocodile portion 76a. The second member 77 includes an adjustment knob body 81 and a nut portion 82 that is rotatably and axially movably attached to the adjustment knob body 81 and screwed to the spool shaft 15, and the nut portion 82 and The first member 76 is a spring member 83 composed of a coil spring disposed in a compressed state. The adjustment knob body 81 has a circular plate portion 81a and a cylindrical projecting portion 8 1 b having a smaller diameter than the disk portion 81a, and a metal body fixed in the radial direction on the front surface of the disk portion 8 1 a. The operation adjustment button 81c. The protruding portion 81b protrudes in a tubular shape toward the first member 76 toward -31 - 200934381 so as to cover the crotch portion 76a of the first member 76. The crotch portion 76a of the first member 76 covered by the protruding portion 81b is prevented from coming off by the fall prevention spring 79 attached to the inner peripheral surface of the protruding portion 81b. Thereby, the first member 76 and the second member 77 are rotatably and movably coupled in the axial direction. In the inner peripheral portion of the adjustment knob body 81, a nut housing portion 81d for accommodating the nut portion 82 so as to be rotatable in the axial direction is formed. The fall prevention spring 7.9 is a spring member that bends the elastic metal wire to form a Q. The fall prevention spring 79 is, for example, a pentagonal corner, and is engaged with an annular projection 81e that is annularly formed at a rear end surface of the protruding portion 81b of the adjustment knob body 81, and the sheet portion between the corner portions is in contact with the first one. The rear surface of the flange portion 76a of the member 76 prevents the first member 76 from coming off. The fall prevention spring 79 is covered by the disc-shaped stencil 86 disposed inside the second member 77, and is not visible from the rear. The nut portion 82 is, for example, a hex nut, and is screwed to the male screw portion 15b formed on the outer peripheral surface of the tip end of the spool shaft 15, and the spring member 83 is compressed in response to the rotation of the knob body 81. The sealing member 74 is, for example, a disk-shaped member made of synthetic rubber. The sealing member 74 is disposed between the inner circumferential surface of the spool 4 and the outer circumferential surface of the cylindrical portion 76b of the first member 76. The sealing member 74 has a tubular portion 74a that is fitted into the cylindrical portion 76b, and a locking portion 74b that is formed by projecting an annular groove 66d on the inner circumferential surface of the tubular portion 74a, and a cylindrical portion The outer peripheral surface of the portion 74a is a seal portion 74c that extends in the radial direction on the inner circumferential surface of the spool 4. The front end of the tubular portion 74a is a stencil 86 for pressing the detachment prevention spring 79. The tip end of the sealing portion 74c is a lip shape having a thin tip end, which reduces the resistance to the inner peripheral surface of the reel 4 of -32-200934381. [Operation and Operation of the Reel] Adjust the traction with the size or type of the fish before fishing. When the traction is adjusted, the rotary traction adjustment knob assembly 70 is used. When the traction adjusting knob assembly 70 is rotated clockwise, for example, the first member 76 is biased toward the front and rear rubbing portions 71 by the spring member 83 by the nut portion 8 2 screwed to the spool shaft 15 72 side presses. Thereby, the traction force becomes large. At this time, the relative rotation of the first member 76 and the second member 77 causes the adjustment knob sounding mechanism 78 to rattle. During the throwing, the bail arm 34 is reversed in the line open position. Thereby, the first guide ring support member 40 and the second guide ring support member 42 are swung. In this state, the forefinger of the hand for holding the fishing rod hooks the fishing line for throwing. In this case, the fishing line is quickly released by the weight of the bait. When the operation lever assembly 1 is rotated in the wire winding direction in this state, the rotor 3 is rotated in the wire winding direction by the rotor drive mechanism 5, and the guide ring arm 34 is returned to the guide ring reversing mechanism 39. At the wire take-up position, the fishline moves from the guide ring 45 toward the linear roller 41 and is wound around the spool 4. When the fish is hooked and the load on the linear roller 41 is increased, the fixed shaft 53 supported by the cantilever arm to the first guide ring supporting member 40 is slightly tilted by the load fluctuation. In this case, in the present embodiment, since the fixing screw 56 for fixing the fixing shaft 53 to the first ring support member 40 is stopped by the small screw 58 and the cover member 57, the fixing screw 56 becomes difficult to loosen. Take off. Further, in the -33-200934381 of the female screw portions 59a and 59b, the female screw portion of the small screw 58 is not covered by the cover member 57, so that foreign matter does not easily intrude into the female screw portion. [Other Embodiments] (a) In the above embodiment, the first handle 92 of the mounting portion 90 and the grip portion 91 may be separate but integrated. (b) In the above embodiment, the third opening portion 93c is provided in the second H-hand 93, and the cap member 95 is attached thereto, but the cap member 95 may be attached. (c) In the above embodiment, the cap member is fixed to the second handle 93 by the two second fixing screws 99, but the screw member is formed in the cap member itself, and is screwed to the second handle or the mounting portion. can. BRIEF DESCRIPTION OF THE DRAWINGS [Fig. 1] A side view of a spinning reel according to an embodiment of the present invention. φ [Fig. 2] A side cross-sectional view thereof. [Fig. 3] A cross-sectional view of the lever handle. [Fig. 4] Side view of the lever handle [Fig. 5] A partially exploded ttotti ΓαΤ 1L body diagram of the spinning reel including the reel body. [Fig. 6] A sectional view of the main gear. [Fig. 7] An enlarged view of a cross-sectional portion of a rear portion of the reel body. [Fig. 8] An exploded perspective view of the rotor. [Fig. 9] A cross-sectional side view of the rotor body and the first to third cover members - 34 - 200934381 [Fig. 3 is an exploded perspective view of the vicinity of the first guide ring support member of the guide arm. [Fig. 11] An enlarged view of the outer side surface of the first guide ring support member. [Fig. 12] The xhuhu surface view of Fig. 11. [Fig. 13] A cross-sectional front view of a part of the second one-way clutch. [Fig. 14] An exploded perspective view of the second one-way clutch. 〇 [Fig. 15] A cross-sectional view of the traction adjustment knob assembly. [Description of main component symbols] 1 : Operation lever assembly 2 : Reel body 2a : Reel housing 2 b : Cover member 2 c : 竿 mounting pedal 2d : Opening: flange portion 2 f : cylindrical portion 2 g : rear wall surface 2 h : Outer side 3 : Rotor 4 : Reel 4a : Winding flange portion 4 b ' 4c : Flange portion - 35 - 200934381 4c : Rear flange portion 4d : Skirt 5 : Rotor drive mechanism 6 : Swing mechanism 8 : Operating lever arm 8a: handle shaft 9: lever handle ❹ 1 〇: main gear shaft 10a: first female thread portion 10b: second female thread portion l〇c: mounting flange 1 1 : main gear 1 1 a : gear portion 1 1 b : reinforcing disk 1 lc : cylindrical portion U 1 1 d : annular groove 1 2 : pinion 1 2 a : front portion 12b: rotation stop surface 1 2 c : gear tooth 1 3 : nut 14a, 14b : bearing 15 : reel shaft 15 a : locking surface - 36 - 200934381 15b : male thread portion 1 6 : bearing 1 7 : guard member 18 : handle shaft 1 8 a : large diameter portion 21 : screw shaft 22 : slide ❹ 23: intermediate gear 26a: bearing 26b: bearing 2 7 a : mounting screw 2 7 b : mounting screw 28a, 28b: guide bow shaft 2 9 a : sealing member 29b: pressing plate ❹ 29c: cover plate 29d: screw member 29e :Pressing hole 29f: through hole 3 〇: connection portion 3 0 a : wall portion 3 〇 b : hub portion 3 0 c : through hole 31 : first rotor arm - 37 - 200934381 32 : second rotor arm 33 : rotor body 33 b : hub portion 34 : guide Ring arm 3 5 : bearing 36a : first cover member 3 6b : second cover member q 3 6c : joint surface 3 6 e : mounting portion 3 6 f · joint surface 3 7 : third cover member 3 7a : opening 37b: Joint surface 37c: joint surface 38a: first joint protrusion Q 38b: second joint protrusion 3 8 c. Joint surface 38 d - joint surface 38e : joint surface 38 f : joint surface 3 9 : guide ring reversing mechanism 40 : first guide ring support member 4 0 a : first housing recess 40 b : second housing recess portion 200934381 4 0 c : through hole 40e : wire entry prevention rib 4 〇 f : thin portion 4 1 : linear roller 4 1a : guide groove 41b : first cylindrical portion 4 1 c : second tubular portion H 42 : second guide ring support Member 43: fixed shaft 4 3 a : head 4 3 b : first locking portion 43 c : supporting portion 43 d : second locking portion 4 3 e : female thread portion 44 : fixed shaft cover Q 44a : mounting recess 44 b : Slot 45: Guide ring 46: Fixed structure (fixing screw) 48a, 48b: Bearing 4 9 : Mounting screw 4 9 a : Head 5 0 : Reverse prevention mechanism 51 : 1st one-way clutch -39- 200934381 5 1 a : outer wheel 51b: inner wheel 51c: embedded rotor 52: second one-way clutch 53: fixed shaft 5 5 a : screw 5 5 b : screw ❹ 5 5 c : screw 5 5 d : screw 5 6 : fixing screw 5 6 a : head 5 6 b : thread portion 56c : rotation preventing recess 56d : sliding groove 5 7 : cover member Q 57a : first engaging surface 57b : second engaging surface 5 7 c : through hole 5 8 : small screw 5 8 a : head 5 8 b : threaded part 5 8 c : sliding groove 5 9 : female thread Portion 5 9 a : Female thread portion - 40-200934381 5 9 b : Female thread portion 60 : Traction mechanism 61 : Anti-rotation portion 62 : Ratchet roller 62 a : Ratchet tooth 62 b : Groove 6 3 : Claw member @ 64 : Spring member 64a : engaging portion 6 4 b · connecting portion 64c : locking portion 65 : claw body 6 5 a : supporting portion 6 5 b : claw portion 6 5 c : engaging projection Q 65d: engaging projection 66 : cover 6 6 a . Main body portion 66b: swing connection portion 66c: spring mounting portion 66d: spring mounting hole 67: attachment collar 67a: crotch portion 67b: tubular portion 200934381 6 8 : screw 6 8 : fixing screw 70: traction adjusting knob assembly 7 1 : front friction portion 72 : rear friction portion 73 : adjustment knob portion 74 : sealing member ❹ 7 4 a · same portion 74b : locking portion 74c : sealing portion 76 : first member 76 a : jaw portion 7 6 b : cylinder Part 7 6c: locking groove 76d: annular groove 77: second member 78: adjustment button sounding mechanism 79: fall prevention spring 8 0: sounding concave portion 8 1 : adjustment knob body 8 1 a : disk portion 8 1 b: protrusion 8 1 c : operation adjustment knob 8 1 d : nut housing portion - 42 200934381 81e : annular projection 8 2 : nut portion 83 : spring member 85 : traction sounding mechanism 86 : stereotype 90 : mounting portion 90a: mounting hole Q 90b: annular groove 90c: annular groove 9 0 d : small diameter portion 9 0 e : large diameter portion 9 1 : grip portion 92 : first handle 92 a : first opening portion 92 b : first Fitting portion Q 9 2 c : through hole 92d , 93e : recess portion 9 3 : second handle portion 93 a : second opening portion 93 b : second fitting portion 93 c : third opening portion 93 d : screw hole 94 : cover portion 94 a :Cap Mounting Department-43- 200934381 9 5: Cap member 9 6a : Bearing 9 6b : Bearing 9 7 : Preventing the falling-off screw 9 8 : 1st fixing screw 9 9 : 2nd fixing screw

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Claims (1)

200934381 X. Patent application scope 1. An operating lever handle for a fishing reel is a lever handle that is rotatably mounted on a handle shaft fixed to a front end of an operating lever arm of a fishing reel, and has: The installation portion is rotatably attached to the outer peripheral side of the handle shaft, and the hollow first handle is provided in the mounting portion, and has a first opening formed at an end portion away from the mounting portion, and The first fitting portion 0 formed by recessing the edge portion on the outer peripheral side of the first opening portion and the hollow second handle portion 2 have a second opening portion that faces the first opening portion of the first handle And a second fitting portion that is recessed in the edge portion on the inner peripheral side of the second opening and that is engageable with the outer peripheral surface of the first fitting portion; and a cover portion that is elastically formed to cover at least the first portion 1 handle and the second handle. 2. The first and second opening portions of the operating lever handle of the fishing reel of the fishing line reel according to claim 1 are formed in parallel with a plane perpendicular to the handle axis. Q3. The operating lever handle of the fishing reel according to claim 1 or 2, wherein the first handle and the second handle are substantially in contact with a maximum outer diameter position. 4. The operating lever handle of the fishing reel according to claim 1 or 2, wherein the first handle is made of synthetic resin, and the mounting portion is made of metal. The first handle is molded by molding. The molded part is integrally formed. 5. The operating lever handle of the fishing reel of claim 1 or 2, wherein the second handle is a plurality of screw holes having the handle shaft arrangement -45-200934381 at the center, The first handle side is inserted into and screwed to the plurality of first screw members of the plurality of screw holes, and is fixed to the first handle. 6. The operating lever handle of the fishing reel according to claim 1 or 2, wherein the second handle further has a third opening formed in a portion facing the end of the handle shaft Further, a cap member for plugging the third opening is further provided. The operating lever handle of the fishing reel according to claim 6, wherein the cap member is a plurality of second screws that are attached to the cap member side and screwed to the plurality of screw holes. The member is fixed to the second handle. 8. An operation lever assembly for a fishing reel, which is an operation lever assembly mounted on a tip end of a handle shaft of a fishing reel, and has a base end attached to a tip end of the handle shaft, facing The lever arm extending in a direction in which the handle shaft intersects; and the handle shaft fixed to the front end of the lever arm toward the handle shaft in the Q; and the claims 1 to 7 Any of the aforementioned lever handles. -46-