JP3872286B2 - Fishing electric reel - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electric fishing reel that rotates a spool by a spool motor mounted on a reel body to wind up a fishing line.
[0002]
[Prior art]
In the case of fishing, such as boat fishing, which is generally performed for a deep fish layer, an electric reel for fishing is widely used.
As is well known in the art, this fishing electric reel (hereinafter referred to as “electric reel”) is a spool motor that rotates a spool with a spool motor mounted on the reel body, and winds a fishing line, as disclosed in JP-A-11-332438. As disclosed in the official gazette, in recent years, a power lever that continuously increases or decreases the motor output from the OFF state to the maximum value (0 to 100%) so that various winding operations can be performed according to the conditions of the fishing ground. There is known an electric reel in which a (motor output adjusting body) is rotatably mounted on a reel body.
[0003]
The electric reel disclosed in the above publication has a function as clutch switching operation means for switching the electric clutch mechanism between a fishing line winding state and a fishing line feeding state to the power lever, and the motor can be operated by operating a single power lever. The output can be adjusted and the clutch can be switched. As shown in Fig. 8, the power lever can be used to quickly and easily perform a series of continuous operations such as feeding, stopping, and winding the device. Yes.
[0004]
That is, in FIG. 8, 1 is a power lever rotatably mounted on the side plate of the reel body over a range of points S to P, and the power lever 1 adjusts the motor output within the range of points Q to P. As the range, the point Q is the motor output OFF state, the point P is the maximum motor output point of the spool motor (motor output 100%), and the range of the initial rotation range from point S to point Q is the electric clutch mechanism. When the clutch is turned off at the point S and the power lever 1 is rotated from the position of the point S to the position of the point Q, the electric clutch mechanism mounted on the reel body is switched to the clutch ON. It has become.
[0005]
Accordingly, the angler can quickly perform a series of continuous operations such as feeding, stopping, and winding the device by rotating the power lever 1 from the point S to the point P.
[0006]
[Problems to be solved by the invention]
By the way, as a fishing method that is required to respond to a wide variety of situation changes, “Fukase fishing” is known in which a mechanism is sent to a point without using a weight. Therefore, when the clutch is turned off, the spool motor is driven to apply a force in the direction of feeding the fishing line to the spool, thereby reducing the rotational resistance at the time of spool free rotation and feeding out the mechanism, so-called “line feed” by motor drive is performed. Has been done.
[0007]
However, the electric reel of the above-mentioned Japanese Patent Application Laid-Open No. 11-332438 has improved operability by enabling a series of continuous operations such as feeding, stopping, and winding of the mechanism by the power lever 1 as shown in FIG. On the other hand, if the power lever 1 is operated from the point S to the point Q in order to operate the spool motor in the clutch OFF state, the electric clutch mechanism is automatically returned to the ON state. It was pointed out that the spool motor could not perform “thread feeding”.
[0008]
The present invention has been devised in view of such circumstances, and an object of the present invention is to provide an electric reel capable of reliably performing “thread feeding” by motor drive.
[0009]
[Means for Solving the Problems]
In order to achieve such an object, the invention according to claim 1 is directed to a spool rotatably supported on a reel body, a spool motor mounted on the reel body, and a spool motor rotatably mounted on a side plate of the reel body. Mounted between a motor output adjuster for increasing or decreasing the motor output and a clutch motor and a spool separately mounted on the spool motor or reel body, and the spool motor or clutch motor is driven to drive the spool motor to the spool. An electric clutch mechanism that switches between a clutch ON state in which transmission is turned on and a clutch OFF state in which it is turned off to switch the spool between a winding-up state and a spool-free state, and a reel body, The spool motor is driven and controlled by rotation, and the spool mounted on the reel unit The electric clutch mechanism by operating the pitch change operation unit At a motorized reel and a control unit for switching control to the clutch ON / OFF state, the control means, the actual fishing mode by a switch operation or the fishing line pay-out state detection Switching control to the thread feed mode is possible, and the control means switching control is performed so that the electric clutch mechanism does not return to the clutch ON state by the operation of the clutch switching operation means when the thread feed mode is set in the clutch OFF state of the electric clutch mechanism. And only the drive control function of the motor output of the spool motor is maintained .
[0010]
(Function)
According to the first aspect of the invention, when the control means is set to the yarn feed mode in the clutch OFF state of the electric clutch mechanism, the switching control of the electric clutch mechanism by the control means is stopped.
For this reason, even if the clutch switching operation means is operated in this yarn feed mode, the electric clutch mechanism is not switched to the clutch ON state , and the yarn feed according to the motor output adjustment of the motor output adjuster is performed.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a plan view of an electric reel according to a first embodiment of claim 1, in which 3 is a frame of the reel body 5, 7 and 9 are side plates attached to the left and right of the frame 1, A spool 11 is rotatably supported between 9 via a spool shaft (not shown).
[0012]
The spool 11 is rotated by the driving force of the spool motor and the winding operation of the handle 13 so that the fishing line is wound. As shown in FIGS. 2 and 3, the spool motor 15 is arranged in front of the spool 11. It is housed in a motor case 17 molded between the frames 3.
Thus, the spool motor 15 is configured to be rotatable in both the forward and reverse directions, similar to the electric reel disclosed in Japanese Patent Application No. 11-287753 and Japanese Patent Application No. 2000-49745. As shown in FIG. 2, a power transmission mechanism 23 composed of a plurality of gear trains is connected to the left motor shaft 19 of the spool motor 15 through a one-way clutch 21 between the spool shaft and the right motor shaft 25. In addition, a planetary gear type clutch control mechanism (deceleration mechanism) 29 is connected via a one-way clutch 27.
[0013]
The one-way clutch 27 attached to the right motor shaft 25 of the spool motor 15 is in a free state when the spool motor 15 rotates forward, and does not transmit the driving force of the right motor shaft 25 to the clutch control mechanism 29. When the spool motor 15 rotates in the reverse direction, the driving force is transmitted, and the driving force of the spool motor 15 is transmitted to the clutch control mechanism 29. Then, as will be described later, when a power lever (motor output adjusting body) 31 that is rotatably mounted in front of the side portion of the side plate 9 is operated, the control means shown in FIG. The microcomputer 35 sends a command to the motor drive circuit 37 to reversely rotate the spool motor 15, and the drive force of the spool motor 15 is mounted in the side plate 9 via the clutch control mechanism 29. The clutch mechanism (not shown) is switched to clutch ON / OFF.
[0014]
As described above, the electric reel 39 according to the present embodiment is mounted with the electric clutch mechanism including the power lever 31, the spool motor 15, the clutch control mechanism 29, and the clutch mechanism portion.
On the other hand, the one-way clutch 21 attached to the left motor shaft 19 of the spool motor 15 is in a driving force transmission state when the spool motor 15 rotates forward, and transmits the driving force of the spool motor 15 to the power transmission mechanism 23. When the spool motor 15 rotates in the reverse direction, the spool motor 15 is in a free state so that the driving force of the spool motor 15 is not transmitted to the power transmission mechanism 23.
[0015]
The forward rotation of the spool motor 15 refers to a state in which the spool 11 is rotated in the fishing line winding direction via the power transmission mechanism 23, and the reverse rotation of the spool motor 15 refers to the clutch control mechanism 29 as described above. The state which operates a clutch mechanism part via.
Although not shown, the spool shaft passes through the center of the spool 11 and the other end projects into the side plate 9. A known reduction mechanism (not shown) including a first and a second planetary gear mechanism is provided at the protruding end, and this reduction mechanism rotates the spool shaft during normal rotation of the spool motor 15. After the movement is decelerated by the first planetary gear mechanism, the movement is further decelerated by the second planetary gear mechanism to transmit the driving force of the spool motor 15 to the spool 11.
[0016]
In FIG. 1, 13 is a handle, and the handle 13 is connected to a projecting end of a handle shaft (not shown) that is rotatably mounted between the side plate 9 and the frame 3, and a drive shaft is connected to the handle shaft. A gear (not shown) is rotatably mounted.
As in the prior art, the drive gear and the handle shaft are frictionally coupled by a drag device (not shown), and the drag force of the drag device can be adjusted by a drag knob 41 attached to the handle shaft.
[0017]
Further, as shown in FIG. 1, a magnet 43 is mounted on one side of the spool 11 as a means for detecting the number of rotations, and a pair of reed switches 45 are mounted on the frame 3 so as to face the magnet 43. As shown in FIG. 4, each reed switch 45 is connected to the control means 35.
The ROM of the control means 35 incorporates a yarn length measuring device similar to the electric reel disclosed in Japanese Patent Laid-Open No. 5-103567, and the control means 35 is a spool 11 output from the reed switch 45. The forward / reverse determination signal is taken into the CPU to determine whether the fishing line is fed out or taken up, and the rotation pulse signal of the spool 11 taken in from the reed switch 45 is counted by an up / down counter. Based on this, the CPU calculates and executes the yarn length calculation formula stored in the ROM. The calculation result is displayed as a yarn length measurement value on the display unit 49 on the operation panel 47 shown in FIG.
[0018]
Further, on the operation panel 47, a mode change switch 53 and a reset switch 55 are mounted adjacent to the display device 49. As shown in FIG. "Length measurement mode (actual fishing mode)" and "thread feed mode" are switched, and in conjunction with this, the characters "thread length measurement" and "thread feed" are displayed on the display unit 49. Yes.
[0019]
In both modes, the control means 35 performs the yarn length measurement based on the rotation pulse signal of the spool 11 taken from the reed switch 45 as described above, and displays the yarn length measurement value on the display 49. It is supposed to let you.
On the other hand, as shown in FIGS. 1 to 3, the motor output of the spool motor 15 is increased or decreased in the front of the side portion of the side plate 9 to which the handle 13 is attached, like the electric reel disclosed in Japanese Patent Laid-Open No. 11-332438. The power lever 31 is rotatably mounted over a predetermined range, and the output increase direction of the power lever 31 is the same as the winding rotation direction of the handle 13.
[0020]
The power lever 31 is connected to a potentiometer 57 built in the side plate 9, and the change in the resistance value of the potentiometer 57 due to the operation of the power lever 31 is input to the control means 35. In this embodiment, the yarn length described above is used. In the measurement mode, the power lever 31 is also used as a clutch switching operation means for switching the electric clutch mechanism between the fishing line winding state and the fishing line feeding state, and the motor output can be adjusted by operating the single power lever 31. The clutch can be switched.
[0021]
That is, as shown in FIG. 3, the power lever 31 is rotatably mounted on the side plate 9 over a range of points A to C. The initial rotation range (the range from point A to point B in FIG. 3) that rotates the motor output in the increasing direction is set as the switching range of the electric clutch mechanism, and the remaining range from point B to point C is set as the range. The motor output adjustment range. In the switching range from point A to point B, the clutch is turned off at point A, and when the power lever 31 is rotated from point A to point B, the operation signal is The input control means 35 reversely rotates the spool motor 15 via the motor drive circuit 37 and switches the clutch mechanism portion to the clutch ON via the clutch control mechanism 29 by the driving force of the spool motor 15. When the power lever 31 is rotated from the position to the position of the point A, the control means 35 that has input the operation signal turns off the clutch mechanism by the driving force of the spool motor 15. So that the switches.
[0022]
In the motor output adjustment range from point B to point C, point B is set to the motor output OFF state, and point C is set to the maximum motor output point of the spool motor 15 (motor output 100%). 35, the duty ratio of the pulse signal according to the operation amount of the power lever 31 is variably controlled by the power moss connected to the switching power supply circuit of the spool motor 15 as the duty ratio of the pulse current, and the motor output of the spool motor 15 is controlled. The adjustment is continuously performed from the OFF state to the maximum value (0 to 100%).
[0023]
Therefore, the fisherman can quickly perform a series of continuous operations such as feeding, stopping and winding the device by rotating the power lever 31 from the point A to the point C in the yarn length measurement mode. Become.
When the angler operates the mode changeover switch 53 to set the control means 35 to the line feed mode, the function of the power lever 31 as the clutch changeover operation means stops and only the function of adjusting the motor output is maintained. It has become.
[0024]
Therefore, when the mode changeover switch 53 is operated in the clutch OFF state and the control means 35 is set to the thread feed mode, the electric clutch mechanism does not operate even if the power lever 31 is operated in the range of the points A to B. When the power lever 31 is operated within the motor output adjustment range from point B to point C, the spool 11 rotates in the same direction as the fishing line winding rotation direction with the motor output corresponding to the operation amount, and the mechanism associated with the spool free operation is increased. The feeding speed will change.
[0025]
If the control means 35 is set to the yarn feed mode instead of the above-described configuration, the range of points A to C shown in FIG. 3 becomes the motor output adjustment range so that the electric clutch mechanism does not operate. May be programmed.
In addition, the setting to the line feed mode may be configured to automatically switch when the fishing line feed state is detected (detection of clutch mechanism OFF or detection of a predetermined feed amount) instead of the operation of the mode switch 53. .
[0026]
Furthermore, the yarn feeding mode, cancellation predetermined amount of payout detection or by an external switch signal input due line length measuring device, ON clutch mechanism of the electric clutch mechanism from OFF (fishing line feeding state) (fishing line winding Configured to switch to (status).
Since the present embodiment is configured as described above, when the mode changeover switch 53 is operated to set the control means 35 to the yarn length measurement mode, the power lever in the change range of points A to B shown in FIG. 31, the spool motor 15 rotates in the reverse direction, the electric clutch mechanism is switched to clutch ON / OFF, and the spool motor 15 is operated by the operation of the power lever 31 in the motor output adjustment range from point B to point C. The fishing line is wound around the spool 11 in the normal direction, and the motor energization current time rate is variably controlled according to the operation amount of the power lever 31 to adjust the motor output of the spool motor 15.
[0027]
Accordingly, by rotating the power lever 31 from the point A to the point C, a series of continuous operations such as feeding, stopping, and winding of the device are performed.
As described above, when the mode changeover switch 53 is operated to set the control means 35 to the yarn feed mode, the function of the power lever 31 as the clutch changeover operation means stops and only the motor output adjustment function is maintained. Therefore, by rotating the power lever 31 in the motor output increasing direction from the clutch OFF state at the point A, the spool is generated with the motor output corresponding to the operation amount of the power lever 31 within the motor output adjustment range from the point B to the point C. 11 rotates in the same direction as the fishing line winding rotation direction, and “line feeding” by motor driving is performed.
[0028]
Thus, since the yarn length is measured in both the yarn length measurement mode and the yarn feed mode and the measured value of the yarn length is displayed on the display unit 49, the fisherman in accordance with the display in the yarn feed mode has a predetermined water depth. If it is determined that the vicinity has been reached, the mode selector switch 53 is operated to switch the control means 35 to the yarn length measurement mode and return the power lever 31 to the position of point A, and then the power lever 31 is rotated to point B. In this case, when the spool motor 15 is driven, the clutch mechanism portion of the electric clutch mechanism is switched from the clutch OFF to the clutch ON, and the feeding of the device is stopped.
[0029]
If there is a fish hit, the spool 11 is rotated by the operation of the handle 13 or the power lever 31 and the fishing line is wound around the spool 11.
Thus, according to this embodiment, in the yarn length measurement mode, the power lever 31 is rotated from the point A to the point C shown in FIG. When the continuous operation can be quickly performed and the "thread feed" by the motor drive is required, the control means 35 is switched to the thread feed mode by operating the mode changeover switch 53. Since the electric clutch mechanism does not return from the clutch OFF to the clutch ON even if the power lever 31 in the clutch OFF state of A is rotated in the direction of increasing the motor output, the motor by the power lever 31 is configured. While maintaining smooth operation of output adjustment and clutch switching operation, “thread feed” operation by motor drive such as “Float fishing” can be easily performed. Fruit, has enabled a wide range of fishing operations compared with the prior art.
[0030]
In addition, in the patent No. 2978025 or the Japanese Patent No. 2813690, the present applicant attaches the power lever 63 to the side plate 61 of the reel body 59 so as to be rotatable as shown in FIGS. The power output of a spool motor (not shown) can be increased or decreased by rotating the power lever 63, and a clutch motor 67 of an electric clutch mechanism 65 is mounted in front of the reel body 59 separately from the spool motor. An electric reel 73 is disclosed in which a clutch ON / OFF switch 71 is provided on the panel 69 and the electric clutch mechanism 65 is switched to ON / OFF by the operation of the clutch motor 67 by the operation of the clutch ON / OFF switch 71. The invention can be applied to such an electric reel 73 as shown by a two-dot chain line in FIG. A mode changeover switch 75 is mounted on the operation panel 69, and the control means (not shown) is operated by operating the mode changeover switch 75 in the same manner as in the above-described embodiment. The function as the clutch switching operation means of the clutch ON / OFF switch 71 may be stopped by setting the control means to the yarn feed mode by operating the mode switching switch 75.
[0031]
Thus, according to the second embodiment of the invention according to claim 1, the “thread feeding” operation of the motor drive by the operation of the power lever 63 is performed by the switching operation to the clutch OFF by the clutch ON / OFF switch 71. Of course, there is an advantage that “thread feed” operation can be performed by operating the power lever 63 also by setting the thread feed mode by the mode changeover switch 75.
[0032]
【The invention's effect】
As described above, according to the electric reel of the first aspect, when the control means is set to the thread feed mode in the clutch OFF state of the electric clutch mechanism , the electric clutch mechanism is turned on even if the clutch switching operation means is operated. Without switching to the state , it is possible to reliably perform “thread feeding” according to the motor output adjustment of the motor output adjuster .
[Brief description of the drawings]
1 is a plan view of an electric reel according to a first embodiment of claim 1;
FIG. 2 is a cutaway plan view of a main part of the electric reel shown in FIG.
3 is a side view of the electric reel shown in FIG. 1. FIG.
4 is a control block diagram of the electric reel shown in FIG. 1. FIG.
FIG. 5 is a flowchart showing switching of the mode of the control means by operation of a mode switch.
FIG. 6 is a plan view of an electric reel according to a second embodiment of claim 1;
7 is a side view of the main part of the electric reel shown in FIG.
FIG. 8 is an explanatory diagram of an operation range of a power lever mounted on a conventional electric reel.
[Explanation of symbols]
5, 59 Reel body 11 Spool 15 Spool motor 29 Clutch control mechanism 31, 63 Power lever 35 Control means 39, 73 Electric reel 49 Display 53, 75 Mode changeover switch 65 Electric clutch mechanism 67 Clutch motor 71 Clutch ON / OFF switch

Claims (1)

A spool rotatably supported on the reel body;
A spool motor mounted on the reel body ;
A motor output adjuster that is rotatably mounted on the side plate of the reel unit and adjusts the motor output of the spool motor;
The clutch motor mounted between the spool motor or the reel body and the spool is mounted between the spool motor and the spool motor, and the clutch motor is turned on and off by driving the spool motor or the clutch motor. An electric clutch mechanism that switches to a clutch-off state and switches the spool between a winding-up state and a spool-free state;
Control means mounted on the reel body and controlling the drive of the spool motor by the rotation operation of the motor output adjusting body, and controlling the switching of the electric clutch mechanism to the clutch ON / OFF state by operating the clutch switching operation means mounted on the reel body. When,
In the fishing electric reel with
The control means can be set to be switched between the actual fishing mode and the line feeding mode by switch operation or fishing line feeding state detection,
When the thread feed mode is set in the clutch-off state of the electric clutch mechanism, the switching control of the control unit is stopped so that the electric clutch mechanism does not return to the clutch-on state by the operation of the clutch switching operation unit, and the motor output of the spool motor is reduced. An electric fishing reel characterized in that only the drive control function is maintained .

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