JP2014183763A5 - - Google Patents

Description

Double bearing reel

  The present invention relates to a dual-bearing reel, and more particularly to a dual-bearing reel that can be equipped with a fishing rod and feeds a fishing line forward.

  The dual-bearing reel generally includes a reel body and a spool supported on the reel body by a bearing. 2. Description of the Related Art A dual bearing reel is known in which a display unit called a counter using a liquid crystal display that displays the depth of water mounted on the top or side of a reel body is arranged (see, for example, Patent Document 1). For example, a battery as a power source for the display unit is accommodated in a space between the frame of the reel body of the conventional dual-bearing reel and the first side cover opposite to the handle mounting side.

  The frame has a first side plate opposite to the handle mounting side, and a second side plate arranged to face the first side plate. A spool is disposed between the first side plate and the second side plate. The spool is rotatably supported on the reel body via a spool shaft. The end of the spool shaft opposite to the handle mounting side is supported by a bearing housed in a bearing housing section provided on the first side plate so as to protrude toward the spool.

JP 2007-195433 A

  In such a conventional double-bearing reel, since the end of the spool shaft and the bearing accommodating portion protrude toward the first side plate, the space is limited in order to secure a space for accommodating the power source, and the appearance Design is also limited in design. Furthermore, the space between the first side cover and the first side plate is increased, and thereby the length of the dual-bearing reel in the spool axis direction is increased.

  An object of the present invention is to shorten the length of the dual-bearing reel in the spool axis direction.

  The dual-bearing reel according to the present invention is a dual-bearing reel to which a fishing rod can be attached and which feeds a fishing line forward. The dual-bearing reel includes a handle, a reel body, a spool, and a spool shaft. The reel body includes a frame including a first side plate and a second side plate facing the first side plate, and a fishing rod mounting portion provided on the frame and capable of mounting a fishing rod. The reel body has a handle on the second side plate side. The spool includes a tubular bobbin body around which a fishing line can be wound, a pair of flange portions formed on both sides of the bobbin body so as to have a larger diameter than the bobbin body, and a bobbin body on the inner peripheral side of the bobbin body And a mounting portion integrally formed with the head. The spool shaft is connected to the mounting portion so as to be integrally rotatable, and is rotatably supported by the reel body. The first side plate has a cylindrical bearing housing that extends to the inner peripheral side of the bobbin trunk. The first end of the spool shaft on the first side plate side is rotatably supported by the bearing housing portion by a first bearing housed in the bearing housing portion on the inner peripheral side of the bobbin trunk.

  In this dual-bearing reel, the first end portion of the spool shaft is supported by a first bearing housed in a bearing housing portion that extends to the inner peripheral side of the bobbin trunk. For this reason, the first end on the first side plate side of the spool shaft is supported by the first bearing at a position closer to the handle side than the conventional double-bearing reel. Thereby, the first side plate can be brought as close to the spool as possible, and the length of the dual-bearing reel in the spool axis direction can be shortened.

  The first side plate may further include a side surface housing portion that extends from the bearing housing portion. In this case, since the first side plate approaching the handle side has a side accommodating portion extended to the bearing accommodating portion, even if a component such as a power source is attached to the side accommodating portion, the spool axial direction of the both bearing reels is increased. The length can be shortened.

  A part of the side accommodating portion may be disposed on the inner peripheral side of the flange portion on the first side plate side of the spool. In this case, since a part of the side surface accommodating portion is disposed on the inner peripheral side of the flange portion of the spool, the side surface accommodating portion further approaches the handle side. Thereby, even if a side surface accommodating part is provided, the length of the spool axis direction of both bearing reels can be further shortened.

  The dual-bearing reel may further include a calculation unit that displays fishing line information. The side surface housing unit houses at least a power supply unit that supplies power to the arithmetic unit. In this case, the length of the dual-bearing reel in the spool axis direction can be shortened even if the power supply unit having a relatively large volume is accommodated in the side surface accommodating unit.

  The calculation unit may include a rotation detection unit, a rotation direction detection unit, and a yarn length calculation unit. The rotation detector detects the rotation of the spool. The rotation direction detection unit detects the rotation direction of the spool based on the detection result of the rotation detection unit. The line length calculation unit calculates the length of the fishing line that has been wound or unwound based on the detection results of the rotation detection unit and the rotation direction detection unit. In this case, the water depth of the device can be obtained by calculating the yarn length.

  The calculation unit may include a speed calculation unit that calculates a spool winding speed or a feeding speed based on a detection result of the rotation detection unit. In this case, the speed of the spool can be obtained at the time of winding and unwinding the yarn.

Dual-bearing reel further includes a counter case provided at a position away from the fishing rod mounting portion of the reel unit, is accommodated in the counter case, a display unit for displaying the length of fishing line has been calculated by the arithmetic unit, the May be. In this case, the angler can recognize the water depth of the device, and it is easy to place the device at the shelf position where the fish are swarming.

  The calculation unit may be accommodated in the counter case. In this case, since the calculating part does not have to be arranged in the side surface receiving part, even if the calculating part is provided, the length in the spool axis direction of both bearing reels can be shortened.

  The reel body may further include a first side cover that covers the outside of the first side plate and a second side cover that covers the outside of the second side plate. A second end of the spool shaft opposite to the first end is rotatably supported by the second side cover by a second bearing attached to the second side cover. In this case, since the first side cover and the second side cover are provided, the mechanism inside the dual-bearing reel is not exposed to the outside.

  The side housing part may be closed by the first side cover. In this case, even if an electrical component such as a power source is accommodated in the side surface accommodating portion, the electrical component is unlikely to have a defect such as an insulation failure.

  According to the present invention, the first end of the spool shaft on the first side plate side is supported by the first bearing at a position closer to the handle side than the conventional double-bearing reel. Thereby, the first side plate can be brought as close to the spool as possible, and the length of the dual-bearing reel in the spool axis direction can be shortened.

The perspective view of the double bearing reel by one Embodiment of this invention. The top view of a double bearing reel. The back sectional view of a double bearing reel. The side surface partial sectional view of the double bearing reel of the state which removed the 1st side cover. The block diagram which shows the structure of the control system of a double bearing reel.

  1 and 2, a dual-bearing reel 10 that employs an embodiment of the present invention is a small hand-wound reel having a water depth display function.

  The dual-bearing reel 10 mainly includes a reel body 11 attached to a fishing rod, a handle 12, a star drag 13, a spool 14, a spool shaft 26, and a counter case 15. Moreover, the double-bearing reel 10 is further provided with the display unit 20 and the calculating part 30 for control, as shown in FIG.

  As shown in FIGS. 1 and 2, the handle 12 is for spool rotation disposed on the side of the reel body 11. The star drag 13 is for adjusting a drag disposed on the reel body 11 side of the handle 12.

  The spool 14 is for fishing line winding, which is rotatably mounted on the reel body 11. As shown in FIG. 3, the spool 14 includes a cylindrical bobbin trunk 14a around which a fishing line is wound, and a pair of left and right first flange sections 14b and a second flange section formed at both ends of the bobbin trunk section 14a. 14c. The first flange portion 14b is provided on the side opposite to the handle 12, and the second flange portion 14c is provided on the handle 12 side. On the inner peripheral side of the bobbin trunk 14a, a cylindrical mounting portion 14d to which the spool shaft 26 is coupled so as to be integrally rotatable is provided. The attachment portion 14d is integrally formed with the bobbin trunk portion 14a via a disk-like connection portion 14e. Therefore, a space is formed on the inner peripheral side of the spool body 14a of the spool 14. Magnets 27 as detectors are arranged at an interval of 180 degrees on the outer peripheral portion of the first flange portion 14b in order to detect the rotation speed and the rotation direction of the spool 14.

  One end (the left end in FIG. 3) of the spool shaft 26 is rotatably supported by a first side plate 17a (to be described later) of the reel body 11 by a first bearing 25a. The other end (the right end in FIG. 3) of the spool shaft 26 is rotatably supported by a second bearing 25b on a boss portion 18c provided on a second side cover 18b (to be described later) of the reel body 11.

  As shown in FIG. 3, the reel unit 11 includes a frame 17, a first side cover 18 a and a second side cover 18 b that cover the left and right side surfaces of the frame 17, and a front cover 19 that covers the front portion of the frame 17 (see FIG. 2). ) And a fishing rod mounting portion 17d for mounting the double-bearing reel 10 on the fishing rod. The frame 17 is integrally formed with a pair of left and right first side plates 17a and second side plates 17b, and first side plates 17a and second side plates 17b, and a plurality of connecting portions that connect the first side plates 17a and the second side plates 17b. 17c. The fishing rod mounting portion 17d is integrally formed with the lower connecting portion 17c. A spool 14 connected to the handle 12 is disposed between the first side plate 17a and the second side plate 17b.

  As shown in FIGS. 3 and 4, the first side plate 17 a includes a side plate main body 22 having a circular opening 22 a through which the spool 14 can pass, and a shaft support portion 24 detachably fixed to the opening 22 a of the side plate main body 22. And having.

Shaft support portion 24 includes a mounting portion 24a to be attached to the opening 22a, a cylindrical bearing accommodating portion 24b extending to an inner peripheral side of the bobbin trunk 14a of the spool 14 (see FIG. 3), the bearing accommodating portion 24b integrally And a formed power supply accommodating portion 24c. The power supply accommodating portion 24 c is an example of a side surface accommodating portion provided on the first side plate 17 a that is the side surface of the frame 17. The mounting portion 24a is formed in a circular shape so as to fit into the opening 22a, and is fixed to the side plate body 22 by a plurality of (for example, four) screw members 28 (see FIG. 4). As shown in FIG. 4, magnetic detectors 36a and 36b constituting a spool sensor 36 for detecting the rotational speed and direction of the spool 14 are arranged on the outer surface of the mounting portion 24a. The magnetic detectors 36a and 36b are sensors capable of detecting magnetic force such as a reed switch or a Hall element. The magnetic detectors 36 a and 36 b are arranged side by side in the rotational direction of the spool 14 at a position that can face the magnet 27. Here, the magnetic detector 36a is disposed upstream of the magnetic detector 36b in the yarn winding rotation direction indicated by the arrow R of the spool 14. Magnetic detector 36a by passing through the magnet 27, by one has either turned on earlier 36b, can detect the rotational direction of the spool 14. Further, the number of revolutions of the spool can be detected by counting the output pulses of the magnetic detectors 36a and 36b. The spool rotation speed is not the rotation speed of the spool 14, but represents how many times the spool 14 has rotated since the start of fishing line winding, and indicates the rotation position of the spool. Further, the rotational speed of the spool 14 can be detected by the number of output pulses per unit time.

  A first bearing 25a that supports one end of the spool shaft 26 is accommodated in the inner peripheral portion of the bearing accommodating portion 24b. The bearing accommodating portion 24 b extends to the inner peripheral side of the spool body 14 a of the spool 14. Accordingly, the first bearing 25a is disposed on the inner peripheral side of the bobbin trunk 14a.

  The power supply accommodating part 24c is extended in the bearing accommodating part 24b. The power supply accommodating part 24c is a cylindrical member having a bottom part 24d and having a larger diameter than the bearing accommodating part 24b. The power supply accommodating portion 24c opens toward the first side cover 18a. A part of the power supply accommodating portion 24c, specifically, the bottom portion 24d on the bearing accommodating portion 24b side of the power supply accommodating portion 24c is disposed on the inner peripheral side of the first flange portion 14b. The power supply accommodating portion 24c is closed by the first side cover 18a. A battery case 35 containing a button-type secondary battery 31b (see FIG. 5), for example, a lithium ion rechargeable battery, which constitutes the power supply section 31, is housed and fixed in the power supply housing section 24c.

The first side cover 18a opposite to the handle 12 includes a cover body 18e having a circular opening 18d, and a lid member 18f that is detachably attached to the opening 18d. The lid member 18f covers the power supply accommodating portion 24c. The lid member 18f is detachably attached to the opening 18d by screw coupling, for example.
A counter case 15 is provided on an upper portion of the reel body 11 that is away from the fishing rod mounting portion 17d. The counter case 15 is positioned and placed on the upper surface of the front portion of the frame 17 and is fixed to the frame 17 by a screw member (not shown). The counter case 15 is surrounded on three sides by the first side cover 18 a, the second side cover 18 b and the front cover 19.

  The handle 12 is made of, for example, a carbon fiber reinforced resin, and has a structure having a substantially same thickness and slightly protruding outward in the rotation axis direction of the handle 12 to enhance rigidity.

  A clutch lever 23 is swingably attached to the rear part (lower part in FIG. 1) of the reel body 11. The clutch lever 23 is a member for operating in a clutch-on state in which the spool 14 is connected to the handle 12 and a clutch-off state in which the connection of the spool 14 with the handle 12 is released. When a clutch mechanism (not shown) is turned on by the clutch lever 23, the yarn unwinding operation can be stopped during the unwinding of the device due to its own weight.

  In addition, a level wind mechanism (not shown) that operates in conjunction with the spool 14 and a rotation transmission mechanism (not shown) that transmits the rotation of the handle 12 to the spool 14 are provided inside the reel body 11. Yes.

  As shown in FIG. 4, the counter case 15 has a generally box-shaped case 16 that is divided into upper and lower portions. The inside of the case 16 is sealed watertight with respect to the outside. As shown in FIGS. 2 and 4, the case 16 includes a display unit 20 composed of a liquid crystal display for displaying the depth of the device and the position of the shelf on the basis of two criteria, from the water surface and from the bottom, and an operation key unit 21. And are provided. The operation key unit 21 has a first switch SW1 and a second switch SW2 arranged on the right side of the display unit 20 in FIG. The first switch SW1 is mainly used for operating the on / off of the display unit 20 and switching the display mode from the top mode to the bottom mode. The second switch SW2 is mainly used for setting the shelf position and the bottom position and setting the water depth to 0 when the device is arranged on the water surface. Various operations can be performed by a single long pressing operation of the first switch SW1 and the second switch SW2, a long pressing operation of both, and the like. For example, when the display unit 20 is turned on, the display unit 20 can be turned off by pressing the first switch SW1 for 3 seconds or longer. In addition, when the display unit 20 is on, if the first switch SW1 and the second switch SW2 are pressed for 3 seconds or longer, for example, a bobbin winding mode that sets the relationship between the spool rotation speed and the thread length Can enter.

  As shown in FIG. 4, the case 16 includes a display unit 20, a calculation unit 30 connected to the display unit 20 and the operation key unit 21, power supply to the calculation unit 30 and the display unit 20, A solar battery 31a used for charging the secondary battery 31b is disposed. The solar cell 31a and the secondary battery 31b constitute a power supply unit 31. The solar cells 31a are arranged side by side on the side of the display unit 20 (left side in FIG. 4). The arithmetic unit 30 includes a microcomputer including a CPU, a RAM, a ROM, an I / O interface, and the like, and executes various control operations such as display control according to a control program.

  As shown in FIG. 5, the arithmetic unit 30 includes an operation key unit 21, a spool sensor 36, an alarm 40 including a buzzer for generating various alarms, a display unit 20, and a nonvolatile memory such as an EEPROM for storing various information. A storage unit 41 including a memory is connected. In addition, a voltage detection unit 42 that detects the voltage of the secondary battery 31b, a solar cell 31a, and a secondary battery 31b are connected to the calculation unit 30. The arithmetic unit 30 operates with electric power supplied from the solar cell 31a and the secondary battery 31b. The arithmetic unit 30 is normally driven by the solar battery 31a, but is driven by the secondary battery 31b when the power generation amount of the solar battery 31a is not sufficient. The solar battery 31a charges the secondary battery 31b with excess power.

  As shown in FIG. 4, the solar cell 31 a supplies power generated by two output terminals 38 having a coil spring shape and elasticity to the calculation unit 30. The output terminal 38 urges the surface opposite to the light receiving surface of the solar cell 31a (the lower surface in FIG. 4). A carbon electrode is formed on the lower surface of the solar cell 31a in contact with the output terminal 38 in order to prevent the output terminal 38 from being rusted. Below the solar cell 31a and the display unit 20, a circuit board 45 on which the arithmetic unit 30 is mounted is provided. Above the solar cell 31 a and the display unit 20, a window member 16 a made of a transparent resin that is fitted into an opening provided in the case 16 is provided. The output terminal 38 is disposed in a compressed state between the circuit board 45 and the solar cell 31a, and biases the solar cell 31a toward the window member 16a.

  The storage unit 41 stores the relationship between the spool rotation speed and the yarn length in the full length of different lengths of a plurality of types of fishing line when the bobbin winding mode to be described later is the designated mode. For example, spool data of a so-called PE line No. 4, 100 m, No. 3, 150 m, and No. 2, 200 m made of ultra high molecular weight polyethylene strands are stored. Further, the spool 41 of reels with different model numbers is also stored in the storage unit 41, and the counter case 15 is designed to be shared with both bearing reels with different model numbers.

Next, the configuration of the control system including the calculation unit 30 will be described with reference to FIG.
The calculation unit 30 includes a rotation detection unit 51, a rotation direction detection unit 52, a yarn length calculation unit 53, and a speed calculation unit 54 as functional configurations realized by software. The rotation detector 51 detects whether or not the spool 14 is rotating based on the pulse output of the spool sensor 36. When the rotation detection unit 51 detects the rotation of the spool 14, the rotation direction detection unit 52 determines the rotation direction of the spool 14 depending on which one of the magnetic detectors 36 a and 36 b outputs a pulse signal first. Is detected in the yarn winding direction or the yarn unwinding direction. The yarn length calculation unit 53 detects the spool rotation number based on the pulse output from the spool sensor 36 detected by the rotation detection unit 51 and the rotation direction detected by the rotation direction detection unit 52, and the detected spool rotation The yarn length in the number is calculated from the relationship between the spool rotation number stored in the storage unit 41 and the yarn length, and this is displayed on the display unit 20 as the water depth of the device. Velocity calculating section 54 calculates the rotational speed of the spool 14 by the number of pulses or units during wears the pulse output rotation detector 51 has detected.

In the dual-bearing reel 10 configured as described above, the bearing housing portion 24 b is disposed on the inner peripheral side of the spool body 14 a of the spool 14. Therefore , the first end of the spool shaft 26 on the first side plate 17a side is supported by the first bearing 25a at a position closer to the handle 12 side than the conventional double bearing reel. Thus, the first side plate 17a can be brought as close to the spool 14 as possible without the end of the spool shaft 26 and the bearing accommodating portion 24b projecting toward the first side plate 17a. The axial length can be shortened.

<Features>
The above embodiment can be expressed as follows.

  (A) The double-bearing reel 10 is a double-bearing reel 10 to which a fishing rod can be attached and which feeds a fishing line forward. The double-bearing reel 10 includes a handle 12, a reel body 11, a spool 14, and a spool shaft 26. The reel body 11 includes a frame 17 including a first side plate 17a and a second side plate 17b facing the first side plate 17a, and a fishing rod mounting portion 17d provided on the frame 17 and capable of mounting a fishing rod. The reel body 11 is provided with a handle 12 on the second side plate 17b side. The spool 14 includes a cylindrical bobbin trunk 14a around which a fishing line can be wound, a first flange part 14b and a second flange part 14c formed on both sides of the bobbin trunk 14a to have a larger diameter than the bobbin trunk 14a, and An attachment portion 14d integrally formed with the bobbin trunk 14a is provided on the inner peripheral side of the bobbin trunk 14a. The spool shaft 26 is coupled to the mounting portion 14d so as to be integrally rotatable, and is rotatably supported by the reel body 11. The first side plate 17a has a cylindrical bearing accommodating portion 24b extending to the inner peripheral side of the bobbin trunk 14a. A first end portion of the spool shaft 26 on the first side plate 17a side is rotatably supported by the bearing housing portion 24b by a first bearing 25a housed in the bearing housing portion 24b on the inner peripheral side of the bobbin trunk 14a.

  In the dual-bearing reel 10, the first end portion of the spool shaft 26 is supported by a first bearing 25a accommodated in a bearing accommodating portion 24b extending on the inner peripheral side of the bobbin trunk portion 14a. Therefore, the first end of the spool shaft 26 on the first side plate 17a side is supported by the first bearing 25a at a position closer to the handle 12 side than the conventional double bearing reel. Thus, the first side plate 17a can be brought as close to the spool 14 as possible without the end of the spool shaft 26 and the bearing accommodating portion 24b projecting toward the first side plate 17a. The axial length can be shortened.

(B) The 1st side plate 17a may further have the power supply accommodating part (an example of a side surface accommodating part) 24c extended in the bearing accommodating part 24b. In this case, the end portion of the spool shaft 26 and the bearing accommodating portion 24b do not protrude toward the first side plate 17a, and the first side plate 17a approaching the handle 12 is extended to the bearing accommodating portion 24b. Since the housing portion 24c is provided, components such as a power source can be freely housed in the power supply housing portion 24c, and not only the length of the dual-bearing reel 10 in the spool axis direction is shortened even when the power source or the like is mounted. The appearance design can be made more compact, and the degree of freedom in the appearance design can be increased.

  (C) A part of the power supply accommodating portion 24 c may be disposed on the inner peripheral side of the first flange portion 14 b on the first side plate 17 a side of the spool 14. In this case, since a part of the power supply accommodating portion 24c is disposed on the inner peripheral side of the first flange portion 14b of the spool 14, the power supply accommodating portion 24c further approaches the handle 12 side. Thereby, even if the power supply accommodating part 24c is provided, the length of the dual-bearing reel 10 in the spool axis direction can be further shortened.

  (D) The double-bearing reel 10 may further include a calculation unit 30 that displays fishing line information. The power supply accommodating part 24c accommodates at least a power supply part 31 that supplies power to the arithmetic unit 30. In this case, even if the power supply unit 31 having a relatively large volume is accommodated in the power supply accommodation unit 24c, the length of the dual-bearing reel 10 in the spool axis direction can be shortened.

  (E) The calculation unit 30 may include a rotation detection unit 51, a rotation direction detection unit 52, and a yarn length calculation unit 53. The rotation detector 51 detects the rotation of the spool 14. The rotation direction detection unit 52 detects the rotation direction of the spool 14 based on the detection result of the rotation detection unit 51. The line length calculation unit 53 calculates the length of the fishing line that has been wound or unwound based on the detection results of the rotation detection unit 51 and the rotation direction detection unit 52. In this case, the water depth of the device can be obtained by calculating the yarn length.

  (F) The calculation unit 30 may include a speed calculation unit 54 that calculates the winding speed or the feeding speed of the spool 14 based on the detection result of the rotation detection unit 51. In this case, the speed of the spool can be obtained at the time of winding and unwinding the yarn.

(G) dual-bearing reel 10 includes a counter case 15 provided at a position away from the fishing rod mounting portion 17d of the reel body 11 is housed in the counter case 15, a length of fishing line has been calculated by the arithmetic unit 30 You may further provide the display unit 20 to display. In this case, the angler can recognize the water depth of the device, and it is easy to place the device at the shelf position where the fish are swarming.

  (H) The computing unit 30 may be accommodated in the counter case 15. In this case, since the calculating part 30 does not need to be arranged in the power supply accommodating part 24c, even if the calculating part 30 is provided, the length of the dual-bearing reel 10 in the spool axis direction can be shortened.

(I) the reel body 11, a first side cover 18a for covering the outside of the first side plate 17a, a second side cover 18 b which covers the outside of the second side plate 17b, may further include a. A second end of the spool shaft opposite to the first end is rotatably supported by the second side cover 18b by a second bearing 25b attached to the second side cover 18b. In this case, since the first side cover 18a and the second side cover 18b are provided, the mechanism inside the dual-bearing reel 10 is not exposed to the outside.

  (J) The power supply accommodating portion 24c may be blocked by the first side cover 18a. In this case, even if an electrical component such as a power supply is stored in the power supply accommodating portion 24c, the electrical component is unlikely to have a defect such as an insulation failure.

<Other embodiments>
As mentioned above, although one Embodiment of this invention was described, this invention is not limited to the said embodiment, A various change is possible in the range which does not deviate from the summary of invention. In particular, a plurality of embodiments and modifications described in this specification can be arbitrarily combined as necessary.

  (A) In the above-described embodiment, the present invention has been described by taking a dual-bearing reel having a manual-winding water depth display function as an example, but the dual-bearing reel is not limited to this. For example, the present invention can also be applied to a manually wound double-bearing reel that does not have a water depth display function and an electric reel that can drive a spool in a yarn winding direction by a motor.

  (B) In the said embodiment, although the power supply was accommodated in the side surface accommodating part, this invention is not limited to this. For example, you may accommodate a calculating part and a display unit in a side surface accommodating part. Further, an actuator such as a solenoid may be accommodated for driving the clutch mechanism to the on state at the shelf position to stop the mechanism at the shelf position.

  (C) In the embodiment, the display of the speed calculation unit is not clearly shown, but the rotation speed of the spool calculated by the speed calculation unit may be displayed on the display unit 20. Thereby, even in the case of manual winding, the angler can wind up or feed out the fishing line at a constant speed.

  (D) In the said embodiment, although a part of side surface accommodating part (power supply accommodating part 24c) was arrange | positioned at the inner peripheral side of the 1st flange part 14b, this invention is not limited to this. You may arrange | position a side surface accommodating part to the axial direction outer side of a 1st flange part.

  (E) In the above embodiment, the side surface accommodating portion (power source accommodating portion 24c) is provided on the first side plate 17a, but the side surface accommodating portion may not be provided.

DESCRIPTION OF SYMBOLS 10 Dual bearing reel 11 Reel main body 12 Handle 14 Spool 14a Bobbin trunk part 14b 1st flange part 14c 2nd flange part 14d Attachment part 15 Counter case 17 Frame 17a 1st side plate 17b 2nd side plate 20 Display unit 24b Bearing accommodating part 24c Power supply Housing unit 25a First bearing 25b Second bearing 26 Spool shaft 20 Calculation unit 31a Solar cell 31b Secondary battery 31 First power source 51 Rotation detection unit 52 Rotation direction detection unit 53 Thread length calculation unit 54 Speed calculation unit

Claims (2)

It further includes an arithmetic unit for displaying fishing line information,
The dual-bearing reel according to claim 2 or 3, wherein at least one power supply unit that supplies electric power to the arithmetic unit is accommodated in the side surface accommodating unit. A counter case provided at a position away from the fishing rod mounting portion of the reel body,
A display unit that is housed in the counter case and displays the length of the fishing line calculated by the calculation unit;
The dual-bearing reel according to claim 4, wherein the calculation unit is accommodated in the counter case.

Images