JP2021097631A - Fishing reel - Google Patents

Abstract

To realize a fishing reel that can be suitably used as both a manual reel and an electric reel.SOLUTION: A fishing reel 100 comprises: a main shaft 30 rotatably inserted at a shaft center of a spool 10; a rotor 40 connected to the main shaft 30, and rotatably supported by a spool body part 20; a bail arm 41 provided integrally with the rotor 40; a screw gear 50 provided on one end side of the main shaft 30; a crown gear 60 engaged with the screw gear 50; a drive shaft 70 rotatably supported by the reel body part 20, and of which one end part 71 is exposed to the outside; a motor power part 80 attachable/detachable to/from the one end part 71 of the drive shaft 70; a handle 90 rotatably supported by the reel body part 20 via a handle shaft 91; a first rotation transmission mechanism 1 for transmitting a drive force by which the handle 90 is rotated, to the crown gear 60; and a second rotation transmission mechanism 2 for transmitting a drive force of the motor power part 80 inputted via the drive shaft 70, to the crown gear 60.SELECTED DRAWING: Figure 1

Description

The present invention relates to a fishing reel that can be used as both a manual reel and an electric reel.

Conventionally, as fishing reels, reels with manual thread winding and reels with electric thread are commercially available, and users can select them according to the fishing method (device) of the target fish and the depth of the target fish. I use it properly.

For example, a manual reel has a spool (pincushion) rotatably provided on the reel body, a handle rotatably mounted on the reel body, and a handle that transmits the driving force of rotating the handle to the spool. It is equipped with a rotation transmission mechanism and the like.
Further, in addition to the above-mentioned manual reel configuration, the electric reel includes a motor arranged on the reel body and a motor rotation transmission mechanism for transmitting the driving force of the motor to the spool (for example, Patent Documents). See 1.).

In addition, a technology that connects a motor to a manual reel so that it can be used as an electric reel (see, for example, Patent Document 2), or an electric driver can be attached to a manual reel so that it can also be used as an electric reel. Techniques for reeling (see, for example, Patent Document 3) are known.

Japanese Unexamined Patent Publication No. 2016-86657 Japanese Unexamined Patent Publication No. 3-187330 Japanese Unexamined Patent Publication No. 2012-79

By the way, the electric reel having a built-in motor as in Patent Document 1 is heavy and tends to be large in size.

Further, in the case of the fishing reel of Patent Document 2, the handle must be removed in order to connect the motor, and switching between the manual type and the electric type is complicated.
Further, in the case of the fishing reel of Patent Document 3, it is difficult to master the fishing rod on which the reel is mounted while operating the electric screwdriver mounted perpendicularly to the reel, which is not practical.

Therefore, the present inventors have diligently studied and have come to develop a fishing reel that can wind a fishing line either manually or electrically without increasing the size of the reel itself.

An object of the present invention is to provide a fishing reel that can be suitably used as both a manual reel and an electric reel.

In order to solve the above problems, the invention according to claim 1 is a fishing reel.
The reel body to which the spool is attached and
A spindle that is rotatably inserted into a hollow portion provided at the center of the spool, and
A rotor connected to the spindle and rotatably supported by the reel body,
A bail arm provided on the rotor so as to rotate around the spool,
A screw gear provided on one end side of the spindle and
A crown gear that meshes with the screw gear and
A drive shaft that is rotatably inserted into the reel body in a direction intersecting the spindle and one end of which is exposed to the outside from the reel body.
A motor power unit that is removable from one end of the drive shaft and is arranged outside the reel body,
A handle rotatably supported on the reel body via a handle shaft whose axis coincides with the drive shaft, and a handle.
A first rotation transmission mechanism that transmits the driving force of the rotation of the handle to the crown gear, and
A second rotation transmission mechanism that transmits the driving force of the motor power unit input via the drive shaft to the crown gear, and
It is characterized by being equipped with.

The invention according to claim 2 is the fishing reel according to claim 1.
The first rotation transmission mechanism and the second rotation transmission mechanism are planetary gear mechanisms, respectively, and the crown gear is provided on the side surface of the internal gear of the planetary gear mechanism.

The invention according to claim 3 is the fishing reel according to claim 2.
The internal gear is a member shared by the first rotation transmission mechanism and the second rotation transmission mechanism.

According to the present invention, a fishing reel that can be suitably used as both a manual reel and an electric reel can be obtained.

It is sectional drawing which shows the fishing reel of this embodiment, and shows the aspect (a) of the manual type reel, and the aspect (b) of the electric type reel. It is sectional drawing which shows the modification of the fishing reel, and shows the mode (a) of a manual reel, and the mode (b) of an electric reel. It is sectional drawing which shows the modification of the fishing reel, and shows the mode (a) of a manual reel, and the mode (b) of an electric reel.

Hereinafter, embodiments of the fishing reel according to the present invention will be described in detail with reference to the drawings. However, although the embodiments described below are provided with various technically preferable limitations for carrying out the present invention, the scope of the present invention is not limited to the following embodiments and illustrated examples.

(Embodiment 1)
The fishing reel 100 of the present embodiment has, for example, as shown in FIGS. 1A and 1B, a reel main body portion 20 to which the spool 10 is attached and a hollow portion provided at the axial center of the spool 10. A spindle 30 rotatably inserted into 10a, a rotor 40 connected to the spindle 30 and rotatably supported by the reel body 20, and a rotor 40 so as to rotate around the spool 10 are provided. The bail arm 41, the screw gear 50 provided on one end side of the main shaft 30, the crown gear 60 that meshes with the screw gear 50, and the crown gear 60 that mesh with the screw gear 50 are rotatably inserted into the reel body 20 in a direction intersecting the main shaft 30. A drive shaft 70 whose one end 71 is exposed to the outside from the reel main body 20 and a motor power unit 80 which is detachable from one end 71 of the drive shaft 70 and is arranged outside the reel main body 20. A handle 90 that is rotatably supported by the reel body 20 via a handle shaft 91 whose axis coincides with the drive shaft 70, and a first gear that transmits the rotated driving force of the handle 90 to the crown gear 60. The rotation transmission mechanism 1 and the second rotation transmission mechanism 2 for transmitting the driving force of the motor power unit 80 input via the drive shaft 70 to the crown gear 60 are provided.
The fishing reel 100 is a so-called spinning reel.

A fishing line (line) is tied to the spool 10, and the fishing line (not shown) is wound around the spool 10 by a bail arm 41 that goes around the spool 10.

The reel body 20 rotatably supports the spindle 30 via bearings, for example.
Further, the reel main body 20 rotatably supports a drive shaft 70 in a direction orthogonal to the main shaft 30, and rotatably supports a handle shaft 91 whose axis coincides with the drive shaft 70. There is. That is, the drive shaft 70 and the handle shaft 91 are arranged in a straight line on the reel main body 20.

A rotor 40 is connected to the main shaft 30, and a bail arm 41 integrated with the rotor 40 that rotates around the main shaft 30 rotates around the spool 10.
A drag knob 30a is attached to the other end of the main shaft 30.

A screw gear 50 (worm) is provided at one end of the spindle 30, and a crown gear 60 (face gear) rotated by a handle 90 and a motor power unit 80 is meshed with the screw gear 50.
The rotation of the crown gear 60 is transmitted to the screw gear 50 so that the spindle 30 rotates.

The handle 90 is attached to the reel main body 20.
Specifically, the handle 90 is attached to one end of the handle shaft 91 which is pivotally supported by the reel main body 20, and the first rotation transmission mechanism 1 is arranged at the other end of the handle shaft 91. ing.
The rotational force that rotates the handle 90 is transmitted to the first rotation transmission mechanism 1 via the handle shaft 91.
The first rotation transmission mechanism 1 disposed at the other end of the handle shaft 91 transmits the driving force of the rotation of the handle 90 to the crown gear 60 meshing with the screw gear 50. It is configured.

The motor power unit 80 includes, for example, a motor 81, a flexible shaft 82 and a controller 83 connected to the motor 81, a power supply (not shown), and the like.
The flexible shaft 82 is a well-known long member that transmits the rotational power of the motor 81 to a distant position, and has flexibility. The end portion 82a of the flexible shaft 82 is configured to be connectable to one end portion 71 of the drive shaft 70.
A second rotation transmission mechanism 2 is arranged at the other end of the drive shaft 70.
The controller 83 includes an operation switch for switching the motor 81 on / off.
The rotational power of the motor 81 of the motor power unit 80 is transmitted to the second rotation transmission mechanism 2 via the flexible shaft 82 and the drive shaft 70.
The second rotation transmission mechanism 2 arranged at the other end of the drive shaft 70 is configured to transmit the rotational power of the motor 81 to the crown gear 60 meshing with the screw gear 50. There is.

The length of the flexible shaft 82 and the length of the cable of the controller 83 are arbitrary, and those having a length corresponding to the location where the motor 81 and the controller 83 are installed by the user may be used.
Further, although the wired type controller 83 connected to the motor 81 via a cable is shown here, of course, the wireless communication type controller 83 may be used.

The first rotation transmission mechanism 1 is a planetary gear mechanism, and includes a sun gear 11 fixed to the other end of a handle shaft 91, a plurality of planetary gears 12, a planetary carrier 13, and the like. ..
The first rotation transmission mechanism 1 (planetary gear 12) is meshed with the internal gear 3. The internal gear 3 is one of the elements of the first rotation transmission mechanism 1 (planetary gear mechanism). The internal gear 3 is shared with the second rotation transmission mechanism 2.
The first rotation transmission mechanism 1 here is a star-shaped planetary gear mechanism.
Further, a one-way clutch (not shown) such as a one-way bearing is arranged between the sun gear 11 and the handle shaft 91. With this one-way clutch, the rotational force in one direction of the handle 90 can be transmitted to the internal gear 3, and the rotational force in the opposite direction can be cut off.

The second rotation transmission mechanism 2 is a planetary gear mechanism, and includes a sun gear 21 fixed to the other end of the drive shaft 70, a plurality of planetary gears 22, a planetary carrier 23, and the like. ..
The second rotation transmission mechanism 2 (planetary gear 22) is meshed with the internal gear 3. The internal gear 3 is one of the elements of the second rotation transmission mechanism 2 (planetary gear mechanism). The internal gear 3 is shared with the first rotation transmission mechanism 1.
The second rotation transmission mechanism 2 here is a star-shaped planetary gear mechanism.
Further, a one-way clutch (not shown) such as a one-way bearing is arranged between the sun gear 21 and the drive shaft 70. By this one-way clutch, the rotational force in one direction by the motor power unit 80 can be transmitted to the internal gear 3, and the rotational force in the opposite direction can be cut off.

As described above, the internal gear 3 is a member shared by the first rotation transmission mechanism 1 and the second rotation transmission mechanism 2, and is one of the elements of the planetary gear mechanism.
A crown gear 60 is provided on the side surface of the internal gear 3, and the crown gear 60 meshes with the screw gear 50.
The internal gear 3 is rotatably supported in the reel main body 20 by a support (not shown).

When the fishing reel 100 having such a configuration is used as a manual reel, the motor power unit 80 is removed from the drive shaft 70 as shown in FIG. 1 (a).
Then, when the handle 90 of the fishing reel 100 is rotated in a predetermined direction, the rotational force is transmitted in order to the handle shaft 91, the first rotation transmission mechanism 1 (internal gear 3), and the crown gear 60, and the crown gear Since the rotation of 60 is transmitted to the screw gear 50, the rotor 40 (bail arm 41) can be rotated by rotating the spindle 30 provided with the screw gear 50.
In this way, the driving force for rotating the handle 90 of the fishing reel 100 is transmitted to the main shaft 30, and the rotor 40 (bail arm 41) can be rotated, so that the fishing line can be wound around the spool 10.

When the fishing reel 100 is used as an electric reel, the motor power unit 80 is connected to the drive shaft 70 as shown in FIG. 1 (b).
Then, when the controller 83 is operated to operate the motor 81 of the motor power unit 80, the rotational force of the motor 81 is the flexible shaft 82, the drive shaft 70, the second rotation transmission mechanism 2 (internal gear 3), and the crown gear. Since the rotation of the crown gear 60 is transmitted to the screw gear 50 in this order, the rotor 40 (bail arm 41) can be rotated by rotating the spindle 30 provided with the screw gear 50.
In this way, the driving force that operates the motor power unit 80 (motor 81) of the fishing reel 100 is transmitted to the main shaft 30, and the rotor 40 (bail arm 41) can be rotated. Can be wound up.
When using the fishing reel 100 as an electric reel, the place where the motor 81 is installed is arbitrary, and even if the motor 81 is housed in the user's waist bag, it is placed at the user's feet. You may.
Further, the controller 83 may be installed at any place, and may be attached to the outer surface of the reel main body 20 or placed at the user's feet as long as it is easy for the user to operate.

As described above, the fishing reel 100 of the present embodiment can be suitably used as both a manual reel and an electric reel.

In particular, by arranging the motor 81 (motor power unit 80) on the outside of the reel main body 20, the weight of the reel 100 for fishing can be reduced and the operability of the reel can be improved. it can.
Further, when a motor is built in the reel body like a conventional electric reel, the heat generated by the motor may be trapped inside and cause seizure. However, the fishing reel 100 of the present embodiment may have seizure. Since such an external motor 81 (motor power unit 80) can easily dissipate heat, it is possible to reduce the occurrence of problems such as seizure.
Further, when a motor is built in the reel body like a conventional electric reel, the size of the motor may be limited according to the size of the reel body, but the fishing of the present embodiment If it is an external motor 81 such as the reel 100, it is not limited by the size of the reel main body 20, so that any motor 81 can be easily used. For example, a motor 81 of any size or a motor 81 of any performance can be used.

The present invention is not limited to the above embodiment.
For example, as shown in FIGS. 2A and 2B, the first rotation transmission mechanism 1 may be a solar type planetary gear mechanism.
The first rotation transmission mechanism 1, which is a solar type planetary gear mechanism, includes a planetary carrier 13 fixed to the other end of the handle shaft 91, a plurality of planetary gears 12 supported by the planetary carrier 13, and the sun. It is configured to include gears 11 and the like. The sun gear 11 is attached to a shaft extending from the planet carrier 23 of the second rotation transmission mechanism 10.
In this way, in the fishing reel 100, the first rotation transmission mechanism 1 and the second rotation transmission mechanism 2 are connected.
The fishing reel 100 having such a configuration can be suitably used as both a manual reel and an electric reel.

(Embodiment 2)
Next, the second embodiment of the fishing reel according to the present invention will be described. The same parts as those in the first embodiment are designated by the same reference numerals, and only different parts will be described.

The fishing reel 100 of the second embodiment has, for example, as shown in FIGS. 3A and 3B, a reel main body portion 20 to which the spool 10 is attached and a hollow portion provided at the axial center of the spool 10. A spindle 30 rotatably inserted into 10a, a rotor 40 connected to the spindle 30 and rotatably supported by the reel body 20, and a rotor 40 so as to rotate around the spool 10 are provided. The bail arm 41, the screw gear 50 provided on one end side of the main shaft 30, the first crown gear 61 and the second crown gear 62 that mesh with the screw gear 50, and the reel main body portion in a direction intersecting the main shaft 30. It is rotatably inserted into the drive shaft 70, and one end portion 71 is detachable from the drive shaft 70 exposed to the outside from the reel main body portion 20 and the one end portion 71 of the drive shaft 70, and is attached to the outside of the reel main body portion 20. A motor power unit 80 to be arranged, and a handle 90 rotatably supported by the reel body 20 via a handle shaft 91 rotatably inserted into the reel body 20 in a direction intersecting the main shaft 30. , The first rotation transmission mechanism 1 that transmits the driving force rotated by the handle 90 to the first crown gear 61, and the driving force of the motor power unit 80 input via the drive shaft 70 to the second crown gear 62. It is provided with a second rotation transmission mechanism 2 or the like for transmission.
The drive shaft 70 and the handle shaft 91 here are orthogonal to the main shaft 30. Further, it is preferable that the axes of the drive shaft 70 and the handle shaft 91 are aligned.

The first rotation transmission mechanism 1 is a planetary gear mechanism, and includes a sun gear 11 fixed to the other end of a handle shaft 91, a plurality of planetary gears 12, a planetary carrier 13, and the like. ..
The first rotation transmission mechanism 1 (planetary gear 12) is meshed with the internal gear 31. The internal gear 31 is one of the elements of the first rotation transmission mechanism 1 (planetary gear mechanism). The internal gear 31 is rotatably supported in the reel main body 20 by a support (not shown).
A first crown gear 61 is provided on the side surface of the internal gear 31, and the crown gear 61 meshes with the screw gear 50.
The first rotation transmission mechanism 1 here is a star-shaped planetary gear mechanism.
Further, a one-way clutch (not shown) such as a one-way bearing is arranged between the sun gear 11 and the handle shaft 91. With this one-way clutch, the rotational force in one direction of the handle 90 can be transmitted to the internal gear 31, and the rotational force in the opposite direction can be cut off.

The second rotation transmission mechanism 2 is a planetary gear mechanism, and includes a sun gear 21 fixed to the other end of the drive shaft 70, a plurality of planetary gears 22, a planetary carrier 23, and the like. ..
The second rotation transmission mechanism 2 (planetary gear 22) is meshed with the internal gear 32. The internal gear 32 is one of the elements of the second rotation transmission mechanism 2 (planetary gear mechanism). The internal gear 32 is rotatably supported in the reel main body 20 by a support (not shown).
A second crown gear 62 is provided on the side surface of the internal gear 32, and the crown gear 62 meshes with the screw gear 50.
The second rotation transmission mechanism 2 here is a star-shaped planetary gear mechanism.
Further, a one-way clutch (not shown) such as a one-way bearing is arranged between the sun gear 21 and the drive shaft 70. By this one-way clutch, the rotational force in one direction by the motor power unit 80 can be transmitted to the internal gear 32, and the rotational force in the opposite direction can be cut off.

When the fishing reel 100 of the second embodiment is used as a manual reel, the motor power unit 80 is removed from the drive shaft 70 as shown in FIG. 3A.
Then, when the handle 90 of the fishing reel 100 is rotated in a predetermined direction, the rotational force is transmitted to the handle shaft 91, the first rotation transmission mechanism 1 (internal gear 31), and the first crown gear 61 in this order. Since the rotation of the first crown gear 61 is transmitted to the screw gear 50, the rotor 40 (bail arm 41) can be rotated by rotating the spindle 30 provided with the screw gear 50.
In this way, the driving force for rotating the handle 90 of the fishing reel 100 is transmitted to the main shaft 30, and the rotor 40 (bail arm 41) can be rotated, so that the fishing line can be wound around the spool 10.

When the fishing reel 100 of the second embodiment is used as an electric reel, the motor power unit 80 is connected to the drive shaft 70 as shown in FIG. 3 (b).
Then, when the motor 81 of the motor power unit 80 is operated by operating the controller 83, the rotational force of the motor 81 is the flexible shaft 82, the drive shaft 70, the second rotation transmission mechanism 2 (internal gear 32), and the second. The rotation of the second crown gear 62 is transmitted to the crown gear 62 in order, and the rotation of the second crown gear 62 is transmitted to the screw gear 50. Therefore, the spindle 30 provided with the screw gear 50 is rotated to rotate the rotor 40 (bail arm 41). be able to.
In this way, the driving force that operates the motor power unit 80 (motor 81) of the fishing reel 100 is transmitted to the main shaft 30, and the rotor 40 (bail arm 41) can be rotated. Can be wound up.

As described above, the fishing reel 100 of the second embodiment can be suitably used as both a manual reel and an electric reel.

In the above embodiments, the case where the fishing reel 100 is used as a manual reel and the case where the fishing reel 100 is used as an electric reel have been described, but the present invention is not limited thereto. For example, when the fishing reel 100 is manually used with the motor power unit 80 connected to the drive shaft 70, the driving force of the motor 81 (motor power unit 80) is used as an auxiliary force when the user turns the handle 90. It may be used as a fishing reel with an electric assist function.

Further, in the first embodiment, the first rotation transmission mechanism 1 and the second rotation transmission mechanism 2 are star-type planetary gear mechanisms, and the first rotation transmission mechanism 2 is a solar-type planetary gear mechanism. The case where the second rotation transmission mechanism 2 is a star-type planetary gear mechanism has been described as an example, but the present invention is not limited to this, and each rotation transmission mechanism (1, 2) is another planetary gear. It may be a mechanism. For example, a planetary gear mechanism in which the first rotation transmission mechanism 1 and the second rotation transmission mechanism 2 are integrated (in other words, the first rotation transmission mechanism 1 and the second rotation transmission mechanism 2 are one planetary gear mechanism). It may be.

Further, the first rotation transmission mechanism 1 and the second rotation transmission mechanism 2 are not limited to the planetary gear mechanism, and may be other gear mechanisms.

In addition, it goes without saying that the specific detailed structure and the like can be changed as appropriate.

1 1st rotation transmission mechanism 11 Sun gear 12 Planetary gear 13 Planet carrier 2 2nd rotation transmission mechanism 21 Sun gear 22 Planet gear 23 Planet carrier 3 Internal gear 31, 32 Internal gear 10 Spool 10a Hollow part 20 Reel body part 30 Main shaft 40 Rotor 41 Bail arm 50 Screw gear 60 Crown gear 61 1st crown gear 62 2nd crown gear 70 Drive shaft 71 One end 80 Motor power unit 81 Motor 82 Flexible shaft 83 Controller 90 Handle 91 Handle shaft 100 Fishing reel

To solve the above problems, the invention according to claim 1,
The reel body to which the spool is attached and
A spindle that is rotatably inserted into a hollow portion provided at the center of the spool, and
A rotor connected to the spindle and rotatably supported by the reel body,
A bail arm provided on the rotor so as to rotate around the spool,
A screw gear provided on one end side of the spindle and
A crown gear that meshes with the screw gear and
A drive shaft that is rotatably inserted into the reel body in a direction intersecting the spindle and one end of which is exposed to the outside from the reel body.
A motor power unit that is removable from one end of the drive shaft and is arranged outside the reel body,
A handle rotatably supported on the reel body via a handle shaft whose axis coincides with the drive shaft, and a handle.
A first rotation transmission mechanism that transmits the driving force of the rotation of the handle to the crown gear, and
A second rotation transmission mechanism that transmits the driving force of the motor power unit input via the drive shaft to the crown gear, and
It is a fishing reel equipped with
The first rotation transmission mechanism and the second rotation transmission mechanism are planetary gear mechanisms, respectively, and the crown gear is provided on the side surface of the internal gear of the planetary gear mechanism .

The invention according to claim 2 is the fishing reel according to claim 1.
The internal gear is a member shared by the first rotation transmission mechanism and the second rotation transmission mechanism.

Claims (3)

The reel body to which the spool is attached and
A spindle that is rotatably inserted into a hollow portion provided at the center of the spool, and
A rotor connected to the spindle and rotatably supported by the reel body,
A bail arm provided on the rotor so as to rotate around the spool,
A screw gear provided on one end side of the spindle and
A crown gear that meshes with the screw gear and
A drive shaft that is rotatably inserted into the reel body in a direction intersecting the spindle and one end of which is exposed to the outside from the reel body.
A motor power unit that is removable from one end of the drive shaft and is arranged outside the reel body,
A handle rotatably supported on the reel body via a handle shaft whose axis coincides with the drive shaft, and a handle.
A first rotation transmission mechanism that transmits the driving force of the rotation of the handle to the crown gear, and
A second rotation transmission mechanism that transmits the driving force of the motor power unit input via the drive shaft to the crown gear, and
A reel for fishing that is characterized by being equipped with. According to claim 1, the first rotation transmission mechanism and the second rotation transmission mechanism are planetary gear mechanisms, respectively, and the crown gear is provided on the side surface of the internal gear of the planetary gear mechanism. The listed fishing reel. The fishing reel according to claim 2, wherein the internal gear is a member shared by the first rotation transmission mechanism and the second rotation transmission mechanism.

Images