JP2003219774A - Fishing reel spool braking device - Google Patents

Abstract

(57) [Summary] The present invention relates to a spool braking device for a fishing reel, which can quickly respond to a sudden change in conditions, and also eliminates unnecessary braking, thereby improving the flight distance of a tackle and improving the fishing line. An object of the present invention is to provide a spool braking device that improves winding operability and the like. SOLUTION: A spool of a fishing reel in which an electromagnet is arranged opposite to a conductor rotating in conjunction with rotation of the spool and magnetically brakes the rotation of the spool when the fishing line is released by eddy current generated in the conductor. A braking device, comprising: rotation detection means for detecting a rotation speed and a rotation direction of a spool; a memory in which a predetermined value corresponding to the rotation speed of the spool is stored in advance; and control means for controlling energization of the electromagnet. The control means controls the energization of the electromagnet and controls the magnetic force of the electromagnet in accordance with the predetermined value with respect to the actual spool rotation speed obtained from the detection value of the rotation detection means.

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fishing reel spool braking device. 2. Description of the Related Art As is well known in the art, most of fishing reels having a spool rotatably supported between side plates of a reel body are provided with a braking device for preventing backlash due to excessive rotation of the spool when releasing fishing line. Conventionally, this type of braking device has been designed so that the angler can adjust the braking force adjusting knob provided outside the reel body before casting by the angler (casting fish,
It is configured to set a desired braking force by operating in accordance with a mechanism, a wind, a thread to be used, a degree of skill of an angler, and the like. [0003] However, in the conventional braking device as described above, once the braking force is set, unnecessary braking is applied at the beginning and end of the release of the fishing line, so that the flight distance of the tackle is not increased, and the winding operation of the fishing line is not performed. Sometimes, braking force was applied, preventing smooth winding operation. Therefore, recently, instead of the above-described braking device, there has been known a braking device in which the rotational speed of a spool is measured, and a control unit automatically adjusts a braking force based on the measurement result (for example, Japanese Patent Application Laid-Open No. H11-163873). 1,
See 2. ). [0004] These are improvements in a braking device that applies a braking force to a spool by an interaction between a magnetic field caused by an eddy current generated by rotation of a conductor linked to rotation of the spool and a magnetic field of a permanent magnet. The braking device disclosed in Patent Document 1 uses a permanent magnet 1 as shown in FIGS.
A shield plate 7 having an opening 5 is arranged between the motor and the spool 3 serving as a conductor, and the shield plate 7 is rotated by a motor 13 and a gear 15 by operating the up / down switches 9 and 11. By adjusting the amount of magnetic flux of the permanent magnet 1 acting on the spool 3 from the above, and by operating the start switch 17 at the time of casting, the control device according to the characteristics set in the memory 19 in advance based on the rotational speed measurement result of the spool 3 Reference numeral 21 controls the motor 13 to rotate the shielding plate 7, thereby automatically controlling the braking force on the spool 3. Further, as shown in FIG. 6, the braking device disclosed in Patent Document 2 has magnet rings 27, 2 on the inside and outside of a cup-shaped conductor 25 which rotates integrally with a spool 23.
9, when the rotation speed or the rotation acceleration of the spool 23 reaches a preset value, the motor 31 rotates one of the magnet rings 29 by a command from the control means,
The braking force is adjusted by changing the magnetic poles facing each other. [Patent Document 1] Japanese Patent Application Laid-Open No. 4-197123 (pages 3 to 5, FIG. 1) Patent Document 2 Japanese Utility Model Publication No. 3-10867 (page 2)
(Page 3, FIG. 1) Problems to be Solved by the Invention However, according to the conventional example shown in FIG.
Since the initial setting of the braking force must be performed by the manual operation of the above, the setting suitable for the actual fishing conditions cannot be easily performed by a beginner, and the structure in which the shielding plate 7 having the opening 5 is mechanically rotated is required. There remains a problem that it is not possible to respond quickly and reliably to a sudden change in the speed of the spool 3. Further, even in the conventional example shown in FIG. 6, since the structure is such that the magnet ring 29 is mechanically rotated, the magnet ring 29 cannot follow a rapid change in speed and lacks quickness. Since a magnetic force always acts on the conductor 25 interposed between the conductors 29, the braking force cannot be reduced as much as possible, and problems such as lack of spool freeness remain. The present invention has been devised in view of such circumstances, and can respond quickly to a sudden change in circumstances, eliminate unnecessary braking, improve the flight distance of the tackle, and operate the fishing line winding. It is an object of the present invention to provide a spool braking device for a fishing reel that improves the fishing performance. [0010] In order to achieve the above object, according to the first aspect of the present invention, an electromagnet is opposed to a conductor that rotates in conjunction with the rotation of a spool, and the conductor is attached to the conductor. A spool braking device for a fishing reel that magnetically brakes the rotation of the spool when the fishing line is released by the generated eddy current, the rotation detecting means for detecting the number and direction of rotation of the spool, and the rotation speed of the spool. A memory for setting and storing a predetermined value in accordance with the predetermined value, and control means for controlling energization to the electromagnet, wherein the control means determines the predetermined value with respect to the actual spool rotation speed obtained from the detection value of the rotation detection means. And controlling the magnetic force of the electromagnet by controlling the energization of the electromagnet. (Operation) According to the spool braking device of the first aspect, the control means determines the spool rotation speed at the time of actual fishing obtained from the detection value of the rotation detection means and the predetermined value set and stored in the memory. The energization of the electromagnet is controlled to control the magnetic force of the electromagnet. Therefore, the electromagnet brakes the spool that rotates according to the controlled magnetic force. Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a plan view of a fishing reel provided with a spool braking device according to an embodiment of the present invention, and FIG. 2 is a cutaway front view of the fishing reel. A reel body having side plates 37, 39 mounted on both sides thereof, and bearings 41, 4 mounted on the reel body 33.
3, a spool 47 is rotatably supported via a spool shaft 45. As shown in FIG. 2, a pinion gear 51 which can be engaged with and disengaged from a clutch 49 provided on the spool shaft 45 is rotatable relative to the spool shaft 45 projecting into the side plate 39 and slides in the axial direction. When the clutch plate 55 releases the clutch engagement between the clutch portion 49 and the pinion gear 51 by the operation of the clutch lever 53 attached to the side plate 39, the spool 47 is in a spool free state, and the casting operation is performed. The fishing line 57 is paid out from the spool 47. In the figure, reference numeral 59 denotes a manual handle. A drive gear 63 meshing with the pinion gear 51 is mounted on the handle shaft 61 so as to be relatively rotatable. The rotational force of the manual handle 59 is applied to the drive gear 63 and the pinion gear. The torque is transmitted from the spool shaft 45 to the spool 47 via 51, and the turning force of the manual handle 59 to the spool 47 is cut off by the clutch OFF operation by the clutch lever 53 as described above. The drive gear 63 and the handle shaft 6
Numeral 1 is frictionally coupled by a conventionally known drag device 65, and drag force is adjusted by a drag knob 67 rotatably mounted on the handle shaft 61. Also,
In FIG. 1, reference numeral 69 denotes a level wind mechanism mounted on the upper part of the reel body 33 in front of the spool 47,
Along with the rotation operation, the traverse cam shaft 73 coupled to the pinion 71 meshing with the drive gear 63 rotates,
The fishing line guide member 75 traverses in the axial direction of the spool 47, so that the fishing line 57 is uniformly wound around the spool 47. Further, as the fishing line 57 is released, the fishing line 57 wound around the spool 47 is level-winded. The mechanism 69 uniformly feeds out. Further, in FIG. 2, 79 and 81 are a pair of magnetic sensors mounted on the frame 35, and 83 is a magnet mounted on the outer periphery of one end of the spool 47 opposed thereto. As shown in FIG.
1 is connected to control means 87 in a control box 85 mounted between the side plates 37 and 39 on the upper part of the reel body 33, and these function as rotation detecting means for detecting the number of rotations and the direction of rotation of the spool 47. The control means 87 is disclosed in Japanese Patent Laid-Open No.
Similarly to the line length measuring device disclosed in Japanese Patent No. 3567, a determination signal of the forward rotation and reverse rotation of the spool 47 obtained by turning on / off the magnetic sensors 79 and 81 by the magnet 83 at any point is taken in and the fishing line is taken. In addition to determining whether the reel 57 is being fed or wound, the rotation pulse signal of the spool 47 taken from the magnetic sensors 79 and 81 is counted.
The yarn length calculation formula stored in the memory 89 is calculated based on the count value. The result of this calculation is displayed on a digital display 93 provided on the operation panel 91 of the control box 85 as the amount of feeding (line length) of the fishing line 57. Although the fishing reel 95 according to the present embodiment is constructed as described above, in order to prevent a backlash at the time of releasing the fishing line, the present embodiment has the following structure in addition to the conventional structure as described above. (Hereinafter referred to as "brake device"). That is, in FIG. 2, reference numeral 97 denotes a disk-shaped conductor made of a metal plate such as an aluminum alloy fixed to one side surface of the spool 47.
The conductor 97 rotates integrally with the spool 47 about the spool shaft 45 as a rotation center. The frame 35 of the reel body 33
, One electromagnet 99 is attached so as to face the conductor 97, and the braking device 101 according to the present embodiment is attached to the electromagnet 99.
Also, a magnetic field caused by an eddy current generated in the conductor 97 rotating with the spool 47 and a magnetic field of the electromagnet 99 interact with each other to apply a braking force to the spool 47 to prevent backlash due to excessive rotation of the spool. However, predetermined values α ₁ , α ₂ ,... According to the rotation speed of the spool 47 are set and stored in the memory 89 in advance. When the fishing line is released, the angler operates the operation panel 9.
When the control unit 87 is started by operating the ON / OFF switch 103 on the control unit 1, the control unit 87 calculates the actual rotation speed of the spool 47 from the detection value of the rotation detection unit and the clock value of the timer 105, and the predetermined value alpha ₁ stored in the memory 89 according to the rotation speed, alpha _2, from ..., and duty control of energization of the electromagnet 99 in the range of 0 to 100%, controls the magnetic force of the electromagnet 99 In this embodiment, when the rotation speed of the spool 47 is less than the predetermined value α ₂ , the electromagnet 99 is turned off by energization control by the control means 87, and the rotation of the spool 47 is magnetically braked. Is not applied. Since the braking device 101 according to the present embodiment is configured as described above, when the angler operates the ON / OFF switch 103 on the operation panel 91 to start the control means 87 when releasing the fishing line, the control means 87 is activated. 87 is a spool 4 based on the detected value of the rotation detecting means and the time measured by the timer 105
7 is calculated. Then, the control means 87
, According to the predetermined values α ₁ , α ₂ ,...
The magnetic force of the electromagnet 99 is controlled by duty control within a range of 100%, and when the rotation speed of the spool 47 is less than the predetermined value α ₂ , the power supply to the electromagnet 99 is stopped and the electromagnet 99 is turned off. Thus, when the electromagnet 99 is turned off in this manner, magnetic braking is not applied to the rotation of the spool 47 and unnecessary braking is eliminated, so that the spool 47 has improved spool freeness. As described above, according to the present embodiment, the electromagnet 99 acting on the conductor 97 in accordance with the spool rotation state during actual fishing
With adjusting the braking force of the magnetic force is automatically controlled to act on the spool, when the rotational speed of the spool 47 is less than the predetermined prescribed value alpha ₂ is, OFF the electromagnet 99 to stop energization of the electromagnet 99 Since it was configured to be in a state,
Compared to the prior art, it is possible to respond quickly to a sudden change in the situation without structural transmission loss, perform a smooth winding / unwinding operation of the fishing line, and it is not necessary for the angler to set the braking force in advance, so beginners However, there is an advantage that the casting operation can be easily performed. Further, according to the present embodiment, the spool 47
The duty of the electromagnet 99 is controlled in the range of 0 to 100% in accordance with the rotation speed of the fishing line 57. Therefore, even when the rotation speed of the spool 47 is low due to the strength of the casting, the fishing line 57 does not stall due to braking, and the flight distance is ensured. It has the advantage that it can be secured. In the above embodiment, the magnetic force of the electromagnet 99 is controlled by duty control. However, the magnetic force of the electromagnet 99 may be controlled by using a circuit capable of controlling the current flowing through the electromagnet 99. is there. As described above, according to the braking device of the first aspect, the magnetic force of the electromagnet acting on the conductor is automatically controlled to act on the spool according to the spool rotation state during actual fishing. The braking force is adjusted so that it is possible to respond quickly to a sudden change in the situation without structural transmission loss as compared with the prior art, and to perform a smooth winding / unwinding operation of the fishing line. However, since there is no need to set a braking force, there is an advantage that even a beginner can easily perform a casting operation. Further, since the magnetic force of the electromagnet is controlled in accordance with the rotation speed of the spool, even when the rotation speed of the spool is low due to the strength of the casting, there is no risk of the fishing line stalling due to braking, and the flight distance can be reliably ensured. Has advantages.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view of a fishing reel provided with a braking device according to an embodiment of the present invention. FIG. 2 is a cutaway front view of the fishing reel shown in FIG. FIG. 3 is a block diagram of a braking device according to an embodiment of the present invention. FIG. 4 is a block diagram of a conventional braking device. FIG. 5 is a side view of a main part of a conventional braking device. FIG. 6 is a cutaway front view of a fishing reel provided with another conventional braking device. [Description of Symbols] 33 Reel body 35 Frame frame 45 Spool shaft 47 Spool 57 Fishing line 79, 81 Magnetic sensor 83 Magnet 87 Control means 89 Memory 95 Fishing reel 97 Conductor 99 Electromagnet 101 Braking device 105 Timer

Claims (1)

Claims: 1. An electromagnet is disposed opposite a conductor rotating in conjunction with rotation of a spool, and magnetic braking is applied to the rotation of the spool when the fishing line is released by an eddy current generated in the conductor. A spool braking device for a fishing reel to be applied, a rotation detecting means for detecting a rotation speed and a rotation direction of the spool, a memory in which a predetermined value corresponding to the rotation speed of the spool is stored in advance, and a power supply to the electromagnet. Control means for controlling the power supply to the electromagnets to control the magnetic force of the electromagnets in accordance with the predetermined value with respect to the actual spool rotation speed obtained from the detection value of the rotation detection means. A spool braking device for a fishing reel characterized by the above-mentioned.