CN109619056B - Dual-bearing fishing reel - Google Patents

Abstract

The invention provides a double-bearing fishing reel with a small positioning part used for positioning a cover. When the cover (162) is attached to the case member (161), the cover (162) covers the opening on the upper end side of the case member (161) while aligning the cover (162). When the position is aligned, the position (rotational position, etc.) of the cover (162) is adjusted so that the curved surface (162BBA) of the claw-like projection (162BB) entering the case member (161) and the tip end surface (161BA) of the projection (161B) are aligned. Thus, the cover (162) is positioned by the claw-shaped projections (162BB) and the projections (161B). Sets of projections (161B) and projections (162B) (claw-like projections (162BB)) for positioning of the cover (162) (the sets are also referred to as "positioning portions") are dispersedly provided at positions separated from each other, and therefore, the positioning portions become small.

Description

Dual-bearing fishing reel

Technical Field

The present invention relates to a dual-bearing reel for fishing.

Background

Some dual-bearing fishing reel includes: a case member for forming a housing space for housing the internal components; and a cover fastened to the case member by a fastener to cover the housing space. For example, patent document 1 discloses a dual-bearing reel in which a side plate 10 is used as a case member and a first side cover 13 is used as a cover. In this dual-bearing reel, a stepped portion is provided on the entire circumference of the first side cover 13, and the first side cover 13 is positioned by fitting the stepped portion into the side plate 10.

Documents of the prior art

[ patent document ]

Patent document 1: japanese patent laid-open publication No. 2000-4729

Disclosure of Invention

[ problem to be solved by the invention ]

In the dual-bearing reel described in patent document 1, the stepped portion (positioning portion) used for positioning the first side cover 13 is provided over the entire circumference of the first side cover 13, and is large. If the step portion (positioning portion) is large, for example, a housing space for housing the internal parts becomes correspondingly small, and therefore, a degree of freedom in size and arrangement of the internal parts is reduced. For example, in the case of a component in which the position of the wiring or the like is not completely fixed, when the first side cover 13 is positioned (when the first side cover 13 is attached), the component covers the position of the step portion, and the step portion and the side plate 10 sandwich the component.

In view of the above, an object of the present invention is to provide a dual-bearing reel in which a positioning portion used when positioning a cover is small.

[ technical means for solving problems ]

The dual-bearing reel (for example, dual-bearing reel 100) according to the present invention includes: a case member (e.g., case member 161) for forming a housing space (e.g., housing space S) for housing internal components (e.g., signal lines W); and a cover (e.g., cover 162) fastened and fixed to the case member by a fastener (e.g., bolt B1) and covering the housing space from above (e.g., upward in fig. 2), wherein one of the case member and the cover has a plurality of projections (e.g., claw-shaped projections 162BB) that project in a vertical direction (e.g., vertical direction in fig. 2) at positions separated from each other, and the other of the case member and the cover has a plurality of engagement portions (e.g., projection portions 161B) that engage with the respective projections of the plurality of projections to position the cover.

According to the above configuration, the projections and the engagement portions for positioning are provided in a dispersed manner, and the positioning portion used when positioning the cover can be made smaller (in particular, smaller than the case where the positioning portion is provided over the entire circumference of the cover (for example, see the above-described step portion)).

In the present invention, the following structure may be adopted: the case member has a cylindrical portion (for example, a cylindrical portion 161A) and a plurality of engagement portions (for example, protruding portions 161B) protruding inward from the cylindrical portion (for example, on the center axis side of the cylindrical portion 161A) (for example, see fig. 4), and the plurality of protrusions are provided in the cover, enter the cylindrical portion, and engage with the respective protruding portions of the plurality of protruding portions (for example, see fig. 4).

According to the above configuration, since the engaging portion is provided as a portion protruding inward from the cylindrical portion, the thickness (length between the inner peripheral surface and the outer peripheral surface) of the cylindrical portion of the corresponding portion can be reduced, and the internal space of the cylindrical portion can be increased.

In the present invention, the following structure may be adopted: the case member has a plurality of screw holes (for example, screw hole 161C) to which the fasteners are screwed, and at least a part of each of the screw holes is provided in each of the engaging portions (for example, see fig. 3 and 4).

According to the above configuration, the screw hole is not provided in the cylindrical portion, and the thickness of the cylindrical portion (the length between the inner peripheral surface and the outer peripheral surface) can be reduced accordingly, so that the housing space inside the case member can be increased.

In the present invention, the following structure may be adopted: the protrusion has a first curved surface (e.g., a curved surface 162BBA) on a side surface thereof, and the engaging portion has a second curved surface (e.g., a tip end surface 161BA) which is a second curved surface of a shape adapted to the first curved surface and which is fitted to the first curved surface to position the cover.

According to the above configuration, the protrusion and the engaging portion can be smoothly engaged.

In the present invention, the following structure may be adopted: a wiring (e.g., a signal line W) passes through the housing space, and the dual-bearing reel further has a hiding plate (e.g., a hiding plate 168) that hides the wiring by covering a part of the housing space, and the cover covers the housing space and the hiding plate (see, for example, fig. 3).

According to the above configuration, the wiring can be prevented from being pinched by the protrusion and the engaging portion. In addition, the appearance when the cover is removed can be improved.

[ Effect of the invention ]

According to the present invention, it is possible to provide a dual-bearing reel in which a positioning portion used when positioning a cover is small.

Drawings

Fig. 1 is a perspective view of a dual-bearing reel according to an embodiment of the present invention.

Fig. 2 is an exploded perspective view of a second main body of the dual-bearing reel according to the embodiment of the present invention.

Fig. 3 is a perspective view of the dual-bearing reel according to the embodiment of the present invention with the cover removed from the second body.

Fig. 4 is a cross-sectional view for explaining an engagement relationship between a protruding portion of a case member and a claw-like projection of a cover in the dual-bearing reel according to the embodiment of the present invention.

Fig. 5 is a block diagram showing an electrical configuration of a water depth counter included in a dual-bearing reel according to an embodiment of the present invention.

Description of the reference numerals

100: a dual-bearing fishing reel; 110: a fishing reel base; 120: a first main body portion; 130: a handle; 140: a spool; 150: a clutch operation unit; 160: a second main body portion; 161: a case member; 161A: a cylindrical portion; 161B: a protrusion; 161 BA: a top end face; 161C: a threaded hole; 162A: a dome portion; 162B: a protrusion; 162 BA: a protrusion main body; 162 BB: a claw-like protrusion; 162 BBA: a curved surface; 162C: a through hole; 162: a cover; b1: a bolt; 165: a battery case; 165A: a cartridge main body; 165 AA: a bayonet slot; 165B: a cover; 165C: an O-shaped ring; 166: a sensor substrate; 166A: a magnetic sensor; 167: a sensor substrate accommodating section; 168: a hidden plate; 169: a hidden plate mounting section; b2: a bolt; 170: a connecting portion; 171: a display device; 172: a power/reset button; 173: a control substrate; c: a water depth counter; w: a signal line; 200: a button cell.

Detailed Description

Hereinafter, an embodiment in which the present invention is applied to a dual-bearing reel having a water depth counter will be described with reference to the drawings. In the following description, the same or equivalent portions are denoted by the same reference numerals.

(Structure of Dual-bearing reel)

The structure of the dual-bearing reel 100 according to the present embodiment will be described with reference to fig. 1 to 5. As shown in fig. 1 and the like, the dual-bearing reel 100 includes: the reel base 110, the first body 120, the handle 130, the spool 140, the clutch operating unit 150, the second body 160, and the connecting unit 170. The dual-bearing reel 100 is attached to a fishing rod via a reel base 110. The dual-bearing reel 100 further includes a level winding mechanism (not shown) for winding the fishing line around the spool 140.

The first body 120 rotatably supports one end of the spool 140. Further, a handle 130 is attached to the first body 120. The first body 120 includes a rotation transmission mechanism (not shown) for transmitting the rotation of the handle 130 to the spool 140 to rotate the spool 140. The rotation transmission mechanism is configured to include a plurality of gears, for example. The first body portion 120 includes a clutch mechanism, a mechanical brake, a drag mechanism, and the like, in addition to the rotation transmission mechanism. The clutch mechanism transmits the rotation of the handle 130 to the winding reel 140 when engaged, and does not transmit the rotation to the winding reel 140 when disengaged. The engagement/disengagement of the clutch mechanism can be switched by the clutch operating portion 150.

As shown in fig. 2 to 4, etc., the second body 160 includes: the case member 161, the cover 162, the battery case 165, the sensor board accommodating portion 167, the concealing plate 168, the concealing plate attaching portion 169, and the bolts B1 to B2. The second body 160 further includes a plurality of gears for receiving the rotation of the ball bearing rotatably supporting the other end of the spool 140 and the spool 140 to rotate the worm shaft of the level winding mechanism (none of which is shown). In addition, the plurality of gears may be disposed in the first body 120.

The case member 161 has a cylindrical shape. The case member 161 is a part of the main frame of the dual-bearing reel 100 (the cylindrical portion on the other end side of the spool 140), and constitutes a case of the second body 160. The cover 162 has a circular dome shape (see also fig. 3), and is fastened to the case member 161 by a bolt B1. Accordingly, the cover 162 covers the opening of one end of the case member 161. The cover 162 can be attached to and detached from the case member 161 by a bolt B1. The case member 161 and the cover 162 define a storage space S in which internal components (components stored in the case of the second body 160) such as the battery case 165, the sensor board storage 167, the hidden plate 168, and the plurality of gears are stored. The storage space S includes an inner space S1 of the box member 161 and an inner space S2 of the dome-shaped cover 162. The case member 161 and the cover 162 will be described in further detail later.

Battery case 165 houses button cell 200 (fig. 5, not shown in fig. 1 to 4). The battery case 165 has a case main body 165A, a lid 165B, and an O-ring 165C (omitted in fig. 3). The case main body 165A forms a housing space for housing the button cell 200 (not shown in fig. 1 to 4 in fig. 5). The case main body 165A is provided with a terminal (not shown) to be in contact with an electrode of the button cell 200. The cartridge main body 165A has three bayonet grooves 165AA, and the cover 165B has three bayonet projections (hidden from view) on the inside that can engage with the three bayonet grooves 165 AA. Therefore, the cover 165B is attached to the cartridge main body 165A by the bayonet system by rotation. O-ring 165C is held between the side of case main body 165A and the side of lid 165B, and prevents seawater and the like from entering battery case 165.

The sensor substrate accommodating section 167 accommodates a sensor substrate 166 (not shown in fig. 1 to 4 in fig. 5). That is, the second body portion 160 further has a sensor substrate 166. The sensor board 166 is mounted with a plurality of magnetic sensors 166A, and detects the rotation (rotation angle and rotation direction) of the bobbin 140 provided with the magnet. The sensor board 166 supplies the detected electric signal indicating the rotation of the winding reel 140 to a control board 173 to be described later via a signal line W (fig. 2 and the like). Although not directly shown, the signal line W connects the sensor board 166 and the control board 173, and passes through the inside of the case member 161, i.e., the inside space S1. The sensor substrate housing 167 is formed integrally with the cartridge main body 165A.

The concealing plate 168 is a plate-shaped member, is disposed closer to the cover 162 than the signal line W, and conceals the signal line W passing through the inside of the case member 161 (see fig. 2 and 3). The concealment plate 168 is attached to the concealment plate attachment portion 169 by a bolt B2. The concealing plate attaching portion 169 is formed integrally with the case main body 165A of the battery case 165. Further, the hiding plate 168 may not be provided.

The coupling portion 170 couples the first body portion 120 and the second body portion 160 spaced apart from each other with the bobbin 140 interposed therebetween. The connection portion 170 includes a display device 171, a power/reset button 172, and a control board 173 (not shown in fig. 5 and 1 to 4). The display device 171, the power/reset button 172, and the control board 173 constitute a water depth counter (hereinafter referred to as a water depth counter C) together with the sensor board 166 of the second body 160.

The electrical structure of the water depth counter C is shown in fig. 5. The water depth counter C operates by a button cell 200 housed in the battery case 165. The display device 171 is a liquid crystal display device or the like, and displays the current water depth (the length of the fishing line to be paid out) of the fishing hook assembly for fishing based on the control of the control board 173. The power/reset button 172 is used to start (power on) or end (power off) the display of the water depth of the hook assembly, or to reset. The control board 173 is mounted inside the connection portion 170. The control board 173 includes a processor such as a microcomputer, and the control of the display device 171 and the like are performed by the processor.

The control board 173 (processor) determines the length of the fishing line paid out from or wound around the spool 140 based on the electric signal from the sensor board 166, and increases or decreases the current water depth of the hook assembly displayed on the display device 171 based on the determined length. When the power/reset button 172 is pressed, an operation signal indicating that the pressing operation is performed is supplied to the control board 173. The control board 173 is activated (display of the start water depth: power on), or deactivated (display of the end water depth: power off), or resets the current water depth of the hook assembly displayed on the display device 171 (reset of the water depth display) (for example, power on or off is performed for a short time, and reset of the water depth is performed for a long time) in response to the operation signal.

Now, the details of the case member 161 and the cover 162 will be described with reference to fig. 3 and 4. In the following description, the cover 162 side (left side when viewed from a user holding a fishing rod with the dual-bearing reel 100 attached thereto) is referred to as "up", and the handle side (right side when viewed from the user) is referred to as "down" (see also fig. 2). Further, a central axis of the case member 161 and a central axis of the cover 162 (both of which coincide) are set as a central axis D (see also fig. 2). These definitions are also used as appropriate in other configurations (the up-down direction may not be the actual world direction).

The case member 161 has: a cylindrical portion 161A; three projecting portions 161B projecting inward (in the direction of the central axis D) from the inner wall of the cylindrical portion 161A; and three screw holes 161C to which three bolts B1 are screw-coupled, respectively. The cylindrical portion 161A and the three protruding portions 161B are integrally formed.

The three projections 161B are arranged at positions separated from each other. Here, the three projections 161B are arranged at 120-degree intervals around the central axis D. An upper surface of each protruding portion 161B and a part of an upper surface of the cylindrical portion 161A (a surface continuous with the upper surface of the protruding portion 161B) are formed to be coplanar, and an upper surface M1 of the case member 161 constituted by these surfaces is formed to be a flat surface without steps. Each protruding portion 161B has a tip end surface 161BA formed of a curved surface recessed toward the outside of the cylindrical portion 161A (the direction opposite to the direction of the central axis D) at the tip end in the protruding direction. Each distal end surface 161BA is provided toward the inside (the direction of the central axis D).

The three screw holes 161C are provided in the upper surface M1 of the case member 161. Each screw hole 161C is located in the vicinity of each tip end surface 161 BA. The screw holes 161C and the tip end surfaces 161BA located in the vicinity thereof are arranged in the radial direction of the cylindrical portion 161A. The screw hole 161C is located outside the distal end surface 161BA (on the outer peripheral surface side of the cylindrical portion 161A). Each screw hole 161C is located at a position inside each protruding portion 161B, but the screw hole 161C may be located at a position across the protruding portion 161B and the cylindrical portion 161A. That is, at least a part of the screw hole 161C may be provided in the projection 161B. With this configuration, the thickness of the cylindrical portion 161A (the length between the inner circumferential surface and the outer circumferential surface) at the portion corresponding to the screw hole 161C does not need to be ensured, and the thickness of the cylindrical portion 161A can be reduced.

The cover 162 is attached to the case member 161 from above. The cover 162 has: a dome portion 162A which is circular when viewed from above and has a dome shape; three protruding portions 162B protruding inward (in the direction of the central axis D) from the inner wall of the dome portion 162A; and through holes 162C through which three bolts B1 pass, respectively. The dome portion 162A and the three protrusions 162B are integrally formed.

The three projections 162B correspond one-to-one to the three projections 161B of the case member 161. Therefore, the three projections 162B are also located at positions separated from each other, and are arranged at 120-degree intervals around the central axis D.

The three projections 162B each have: a protrusion main body 162BA that protrudes inward (in the direction of the central axis D) from the inner wall of the dome 162A; and a claw-like projection 162BB projecting in the up-down direction (here, downward) from the projection main body 162 BA. The lower surface of the protrusion main body 162BA (the surface without the claw-like projection 162BB) and a part of the lower surface of the dome portion 162A (the surface continuous with the lower surface of the protrusion main body 162BA) are formed to be coplanar, and the lower surface M2 of the cover 162 constituted by the respective surfaces is formed to be a flat surface without a step. The lower surface M2 is adapted to the upper surface M1 of the box member 161. The claw-like projection 162BB is formed in a shape obtained by cutting out a column in the axial direction (also referred to as a substantially semi-cylindrical shape), and has a curved surface 162BBA as a surface (side surface) formed by the cutting-out. The curved surface 162BBA is a curved surface, and bulges outward toward the dome portion 162A (the outer circumferential direction of the dome portion 162A).

Since the claw-like projections 162BB project downward from the lower surface M2 of the cover 162 that fits over the upper surface M1 of the case member 161, when the cover 162 is attached to the case member 161 at the correct position, the claw-like projections 162BB enter the cylindrical portion 161A (the internal space S1). Each curved surface 162BBA is in one-to-one contact with each distal end surface 161 BA. Here, the shapes (curvature, etc.) of the corresponding curved surface 162BBA and the tip end surface 161BA (curved surface) of the protruding portion 161B are fitted to each other. Therefore, when the cover 162 is attached to the case member 161 at the correct position, the curved surface 162BBA is fitted to the distal end surface 161BA on a one-to-one basis, and the curved surface 162BBA (the claw-shaped projection 162BB) is engaged with the distal end surface 161BA (the projection 161B) on a one-to-one basis. Therefore, in this embodiment, the positioning of the cover 162 when the cover 162 is attached to the case member 161 is performed by the claw-like projections 162BB and the projections 161B.

Three through holes 162C are provided in the lower surface M2 of the cover 162. The through holes 162C correspond to the screw holes 161C of the case member 161 one by one. The corresponding through hole 162C and the screw hole 161C communicate with each other. The bolt B1 is screwed into the screw hole 161C through the through hole 162C, thereby fastening and fixing the cover 162 to the case member 161. The three through holes 162C are located in the vicinity of each of the three claw-like projections 162BB (or the protruding portion 161B). The through hole 162C and the claw-like projection 162BB located in the vicinity thereof are aligned along the radial direction of the dome portion 162A (also referred to as the radial direction of the cylindrical portion 161A) when viewed from below. Each through hole 162C is located outward of each claw-like projection 162BB (on the outer peripheral side of the dome portion 162A). The through holes 162C are located across the protrusion 162B (particularly, the protrusion main body 162BA) and the dome 162A, respectively. The through hole 162C may also be provided at the position of the projection 162B (particularly, the projection main body 162 BA). The through hole 162C may be provided at least partially in the protruding portion 162B (particularly, the protruding portion main body 162 BA). According to the above configuration, the thickness (the length between the inner peripheral surface and the outer peripheral surface) of the dome portion 162A at the portion corresponding to the through hole 162C does not need to be ensured, and the thickness can be reduced.

When the cover 162 is attached to the case member 161, the cover 162 covers the opening on the upper end side of the case member 161 from above while aligning the cover 162. At the time of the positional alignment, the position (rotational position or the like) of the cover 162 is adjusted so that the curved surface 162BBA of the claw-like projection 162BB entering the inside of the case member 161 and the tip end surface 161BA of the projection 161B are aligned. Thus, the cover 162 is positioned by the claw-like projection 162BB and the projection 161B. Further, the bolt B1 is screwed into the screw hole 161C via the through hole 162C. Accordingly, the cover 162 is screwed and fixed to the case member 161.

As described above, the cylindrical case member 161 forms the internal space S1, and the dome-shaped cover 162 forms the internal space S2. In the internal space S1, a sensor substrate housing section 167, a hidden plate 168, a ball bearing for supporting the other end of the winding reel 140, not shown, and a signal wire W are housed. Battery case 165 protrudes upward from case member 161 (see fig. 3 and the like), and is housed in internal space S2. The case member 161 is also referred to as a member for forming the housing space S together with the cover 162. The cover 162 covers the sensor board storage 167, the concealing plate 168, the battery case 165, and the like from above in a state of being attached to the case member 161. That is, since the cover 162 covers the internal space S2 in a state where the cover 162 is attached to the box member 161, the cover 162 is also referred to as a member that covers the storage space S including the internal space S2 from above.

(effects on embodiment)

In this embodiment, a plurality of sets of projections 161B and projections 162B (claw-like projections 162BB) (hereinafter, each set is also referred to as a "positioning portion") for positioning of the cover 162 are dispersedly provided at positions separated from each other, and therefore, the positioning portions become small. Accordingly, the storage space S becomes large. Further, when the cover 162 is attached to the case member 161, the signal line W (particularly, when the hidden plate 168 is not provided) or the like does not easily cover the positioning portion, and the possibility of being sandwiched between the positioning portions is low.

When the cover 162 is attached to the box member 161, the claw-like projection 162BB (a projection projecting downward from the dome portion 162A) of the cover 162 enters the inside of the cylindrical portion 161A and engages with the projecting portion 161B projecting inward from the cylindrical portion 161A, so that the thickness (the length between the inner peripheral surface and the outer peripheral surface) of the cylindrical portion 161A is reduced, and the internal space S1 can be increased.

Further, since at least a part of the screw hole 161C is provided in the protruding portion 161B, it is not necessary to increase the thickness (the length between the inner peripheral surface and the outer peripheral surface) of the cylindrical portion 161A at the portion corresponding to the screw hole 161C, and the thickness can be reduced. Further, by providing at least a part of the through hole 162C in the protruding portion 162B (particularly, the protruding portion main body 162BA), the thickness (the length between the inner peripheral surface and the outer peripheral surface) of the dome portion 162A at the portion corresponding to the through hole 162C (particularly, the thickness of the lower end portion) does not need to be increased, and thus the thickness can be reduced.

By fitting the curved surface 162BBA of the claw-shaped projection 162BB to the distal end surface 161BA of the projection 161B, the claw-shaped projection 162BB and the projection 161B are engaged with each other, and the cover 162 can be smoothly positioned.

Further, since the projection 161B (the distal end surface 161BA) and the screw hole 161C are disposed adjacent to each other and aligned in the radial direction of the case member 161 and the claw-like projection 162BB (the curved surface 162BBA) and the through hole 162C are disposed adjacent to each other and aligned in the radial direction of the cover 162 (the radial direction of the case member 161), when the cover 162 is attached, the user can easily grasp the positions of the distal end surface 161BA and the curved surface 162BBA (the positioning portion) from the positions of the screw hole 161C and the through hole 162C, and can smoothly position the cover 162.

Further, since the concealing plate 168 is provided to conceal the signal wire W passing through the housing space S (here, the internal space S1) and the cover 162 covers the housing space S and the concealing plate 168 (see, for example, fig. 3), the signal wire W is pressed by the concealing plate 168, and the signal wire W can be prevented from being caught between the positioning portions. Further, since the signal line W is not easily visible, the appearance of the inside of the second body 160 when the cover 162 is removed can be improved.

(modification example)

The present invention is not limited to the above embodiments, and modifications of the above embodiments are also included in the scope of the present invention. For example, the present invention is also applicable to other dual-bearing reels such as dual-bearing reels that do not have a water depth counter.

The case member 161 may have a projection 162B (convex engaging portion) (of course, the projection direction of the claw-like projection 162BB is opposite to the vertical direction), and the cover 162 may have a projection 161B (concave engaging portion).

The shapes and the like of the components and the like described above can be changed as appropriate. For example, the claw 162BB may have a polygonal prism shape. The various components such as the case member 161 may be a part of a certain component or may be constituted by a plurality of components. The case member 161 may be closed at the end opposite to the cover 162. The case member 161 may be a cylinder having a polygonal cross section (the cylinder includes a shape having a non-circular cross section). The cover 162 may have a polygonal dome shape when viewed from above. The cover 162 may be a cylindrical shape (a shape like a plastic bottle cap) having a closed upper end. The cover 162 may have a disc shape. The case member 161 and the cover 162 may have any shape as long as the internal components of the dual-bearing reel 100 can be housed therein by combining them.

The internal components housed in the housing space S formed by the case member 161 and the cover 162 are not limited to the battery case 165 described above. The internal components housed in the housing space S may be any of various boards, various gears, and other wiring other than the signal line W. Examples of the other wiring include an electric wire for supplying power from the battery case 165 to the control board 173 and the sensor board 166. The signal line W may be a wiring line formed by bundling an electric wire and a signal line for connecting the control board 173 and the sensor board 166. These wirings may be hidden by the hiding plate 168. The internal components housed in the housing space S may be springs or the like.

Claims (4)

1. A dual-bearing reel is characterized in that,

comprising: a case member for forming a housing space for housing the internal components; and

a cover screwed and fixed to the case member by a fastener, covering the housing space from above,

one of the case member and the cover has a plurality of protrusions that protrude in an up-down direction at positions separated from each other,

the other of the case member and the cover has a cylindrical portion and a plurality of engaging portions projecting inward from the cylindrical portion,

the plurality of protrusions enter the inside of the cylindrical portion, and the plurality of engagement portions engage with the respective protrusions of the plurality of protrusions to position the cover.

2. The dual-bearing reel of claim 1,

the case member has a plurality of screw holes to which the fasteners are screw-coupled,

at least a part of each of the plurality of screw holes is provided in each of the plurality of engaging portions.

3. The dual-bearing reel of claim 1 or 2,

the protrusion has a first curved surface on a side surface thereof,

the clamping part is provided with a second curved surface, the second curved surface is in a shape matched with the first curved surface, and the second curved surface is matched with the first curved surface to position the cover.

4. The dual-bearing reel of claim 1 or 2,

the wiring passes through the receiving space and is provided with a plurality of wires,

the dual-bearing reel further includes a hiding plate for hiding the wiring by covering a part of the housing space,

the cover covers the storage space and the hidden plate.

Images