JPH02138930A - Fishing device - Google Patents

Abstract

PURPOSE:To facilitate operation of playing of fishing line by laying a semi- clutch mechanism between a reel wound with a fishing line and a driving shaft, operating a fishing device with linking the device to movement of a fishing rod so as to reversely rotating the reel in strong stretching of fishing line by fish. CONSTITUTION:When a fish swallows a fishing hook and strongly stretches a fishing line 6, a supporting lever 13 is downward inclined, a revolving shaft 15 and a cam plate 17 attached to the revolving shaft are rotated, an engaging pawl 18 is upward raised, engagement between a rotary disc 19 and a step part 20 is released, the rotary disc 19 is rotated in the direction of force of a spring 21, a limit switch 37 of a strike detector 11 works to drive a motor 9 and to engage a solenoid clutch 3 and a reel 1 is turned to lift the fishing line. When a fish strongly stretches the fishing line 6, the supporting lever 13 is greatly inclined, an arm 24 of the revolving shaft is extremely rotated, a wire 23 is pulled, a semi-clutch mechanism 2 is worked, the reel 1 is made in a semi-conductor state and reverse rotation is allowed to play out the fishing line 6.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a device installed on a fishing boat, coast, or riverbank for automatically or semi-automatically catching fish.

(Prior Art) Conventionally, a device for reeling the fishing line of a fishing rod using an electric reel, and a device for automatically operating the reel when a fish hits and automatically catching a fish are already known.

(Problem to be solved by the invention) If a fish is caught and you pull hard, the line will break and the fish will escape unless you loosen the line and let it out.

In this regard, with conventional devices, the electric reel simply winds the line when a fish hits it and retracts it, so it is necessary to manually stop, reverse, and open the electric reel's winding, making automation and labor saving possible. I wasn't able to do it.

Furthermore, attaching electric reels to a large number of fishing rods is wasteful in terms of motor and battery capacity, occupied space, and cost.

The object of the present invention is to overcome these conventional drawbacks and to facilitate the operation by automatically or semi-automatically using remote control to feed out the line in response to the strong pull of the fish when winding up the line. It is also desirable to reduce the capacity and consumption of the motor and battery, occupy less space, and be advantageous in terms of cost.

Furthermore, the device is equipped with a fish hit detector and a mechanism for moving the fishing hook up and down to make it more practical.

(Means for Solving the Problems) The gist of the present invention that solves the problems is as follows: 1) The reel for winding the fishing line of the fishing rod is linked to the drive shaft via a half-clutch mechanism and an electromagnetic clutch, and the reel is connected to the drive shaft to catch the strong pull of the fish. A fishing device comprising a wire system that extracts power from the movement of the rod to operate the half-clutch mechanism to put it in a half-clutch state, and also includes a control panel for remotely controlling the disengagement of the electromagnetic clutch.2) The fishing line of the fishing rod is It is connected to the drive shaft via an electromagnetic clutch with a half-clutch that can set the reel to be wound in three states: off, on, and half-clutch.It also has a control panel that allows you to remotely turn on and off the electromagnetic clutch with half-clutch. 3) A fishing device comprising an electric automatic half-clutch actuating means that extracts the pulling force from the movement of the rod and puts the electromagnetic clutch in a half-clutch state. and a rod support mechanism which is interlocked with the drive shaft via the rod support mechanism and which detachably attaches the fishing rod.

A hit detector that detects fish hits from the movement of the rod.

A support device equipped with a wire system that extracts the strong pulling force of the fish from the movement of the rod and activates the half-clutch mechanism to put it in a half-clutch state is placed at the fishing spot, and a hit sensor detects the hit of the fish. A fishing device equipped with a control circuit that engages an electromagnetic clutch in response to a signal and operates a motor to rotate the drive shaft. 4) A support that supports the rod so as to raise it upward from below as the fish hit sensor operates. The fishing device according to claim 3, further comprising a support arm rotating mechanism in which the arm contacts the rod.5) A detector for detecting when the fishing line loses tension and the rod stands up; The fishing device according to claim 3 or 4, further comprising a timer for operating the motor and interlocking the electromagnetic clutch for a short period of time in response to the detection signal of Claims 1 to 3, wherein the number of motors for driving is smaller than the number of reels so that one motor drives a plurality of reels.
5. It is present in the fishing device described in any of the above.

(Function) In the present invention, a half-clutch mechanism or an electric clutch with a half-clutch is interposed between the reel around which the fishing line is wound and the drive shaft, and these are operated by a wire system or automatic half-clutch actuating means linked to the movement of the fishing rod. When a fish hooks and the line is pulled strongly, the reel becomes a half-clutch state and the reel reverses, allowing the line to be reeled out. This allows you to reliably catch fish without cutting the line. In addition, the electromagnetic clutch can be operated easily and centrally from a distance using a remote control panel, or it can be switched on automatically by a sensor based on the movement of the fishing rod. This made it possible to automate and save labor by moving the line when catching a fish.

Furthermore, by allowing one motor to drive multiple reels rather than reel-to-motor, the number of motors can be reduced and motor costs can be reduced.

Furthermore, when a fish hits, the rotating arm supports the rod to firmly support the rod so that it will not be succumbed to the large pulling force of the fish.

In addition, when the weight of the fishing line descends to the seabed and the tension on the fishing line disappears, the detector detects the rising of the fishing rod, turns on the motor for a short time set on the timer, engages the electromagnetic clutch, and winds up the line. After the set time, the electric clutch disengages and the weight lowers the fishhook again.
When the weight descends and lands on the seabed, the detector and timer operate as before, winding up the line and raising the hook. By repeating this process, the fishing hook moves downwards near the ocean floor, attracting fish.

(Embodiment) The embodiment shown in Figs. 1 to 5 will be explained below based on the drawings. In the embodiment shown in Figs. 1 to 5, a half-clutch mechanism is operated by a wire system that is automatically operated by the movement of the rod, and an electromagnetic clutch is operated by a wire system that is automatically operated by the movement of the fishing rod. It is operated automatically and remotely using a hit detector and a button-operated remote control panel. In addition, on the rod side there is a wire system 1 that operates the rod support mechanism, hit detector, and half-clutch mechanism. A detector and a timer are provided to detect when the support arm rotation mechanism 1 pole is in the upright state and to interlock the motor and electromagnetic clutch for a predetermined period of time. Furthermore, in this example, four reels for winding fishing lines for four rods are driven by two motors.

In the diagram, (1) is the reel, (2) is the half-clutch mechanism, and (3)
is the electromagnetic clutch, (4) is the drive shaft, (5) is the rod, (6)
is the fishing line, (the force is the wire system that operates the half-clutch mechanism,
(8) is a control panel for remotely controlling the disengagement of the electromagnetic clutch;
9) is a motor, (10 is a rod support mechanism, (11) is a hit sensor that detects the hit of a fish, (1'4 is a support device, (13)
) is a support rod, (1→ is a spring that biases the support rod in the upright direction, (11 is a rotating shaft fixed to the base end of the support rod,
(10 is a support rod (13 is attached to the tip of the rod, and the rod (5) is removably fixed with a metal fitting. (1 rod is a rotating shaft (15)
A cam plate attached to the cam plate, (11 is a locking pawl that is swung by the cam plate, (II is a rotary disk having a stepped portion (21) that engages with the locking pawl, and (21) is a rotary disk having the rotary disk attached to the rod. (5) A spring that biases in the upright direction;
→ is the wire of the wire system (7), (2,1) is the arm attached to the rotating shaft (10) to which the tip of the same wire is attached lh, (the rope is the support rod (1 actuates when the stem is slightly erected at about 48 degrees) A limit switch, (a timer that keeps the electromagnetic clutch (3) in an interlocked state for about 80 seconds by operating the limit switch, (2) a timer that detects the movement of the fishing line and activates the motor (9) and the electromagnetic clutch (3). Sarkhan sensor to stop, (2 barrels are the rotation axis of the reel (1), (2 scratches are the universal joint of the reel rotation axis, (30) is the drive shaft (4)
sprocket, (31) is a motor (
9) chain that transmits power, (34 is the casing, (34 is the casing,
The arrogance is the hull of the boat, (3 yoke is the weight of the fishing line (6), (the phantom is the fishhook, (
3G) is a guide reel for the fishing line (6), and (3G) is a limit switch for the hit detector (11).

In this embodiment, when bait is attached to the fishing side and dropped into the sea, the weight (34) lowers the bait.At this time, both the motor (9) and the electromagnetic clutch (3) are stopped at +hL, and the support rod (11
is maintained at about 45°. Next, when the weight (34) reaches the seabed, the tension on the fishing line (6) disappears and the support rod (1
■ is erected by a spring (14), and when it reaches 48 degrees or more, the rotating shaft (an arm protruding from one) rotates, the limit switch (2→ activates, and the timer (20 motors (9), The electromagnetic clutch (3) operates, and the reel (11) rotates through the half-clutch mechanism (2), which is not in operation, to wind up the thread (6) for about 80 seconds, which is the time set on the timer. 1) winds the fishing line (6) and
Raise the fishing hook (phantom) by about 100 ft. When the set time of the timer (26) ends and the motor (9) and electromagnetic clutch (3) stop working, the fishing line (6) is lowered again by the weight (3) and reaches the seabed. When it falls and the tension on the fishing line (6) is lost, the support rod (1,) will stand up slightly as described above, the limit switch (251) will be turned on, the reel (1) will rotate again, and the fishing line ( 6).By repeating this, the fishhook (35) moves up and down between the seabed and about 10m above it, attracting fish.

Next, when the fish swallows the fishing hook (3→) and pulls the fishing line (6) more strongly, the support rod (13) collapses downward by approximately 38 degrees. The cam plate (1) pivoted on rotates, pushes the locking claw (ceramic) upwards, releases the lock from the step (20) of the rotary disk (19), and moves the rotary disk (1!J to its spring ( 21). When the rotating disk (IL body) rotates, the locking claw (18) rides on the h surface of the stepped portion (20) and is held in a rotated state. The locking claw (18) ), the limit switch (3η) of the hit detector (11) is activated, turning on the motor (9) and electromagnetic clutch (3) to rotate the reel (1) and wind up the fishing line (6). nail(
By maintaining the rotated state of 1→, it will be maintained thereafter. At the same time, the rod auxiliary support arm (22) attached to the rotary disk (1) rotates to strongly support the support rod (13). If the support rod (I
The arm (9) of 0 rotates greatly and pulls the wire (2) to activate the half-clutch mechanism (2), putting the reel (1) in a half-clutch state, allowing the reel (1) to reverse and release the fishing line (
6). By letting out the fishing line (6),
) to avoid excessive tension and prevent thread breakage. When the pulling force of the fish loosens, the wire (23) loosens and the half-clutch mechanism (2) stops working, causing the reel (1) to rotate forward to reel in the fishing line (6) and pull up the fish.The fish pulls strongly again. Then, the half-clutch mechanism (2) is activated in the same way as described above, and the reel () is reversed to let out the fishing line (6).While repeating this, the fish is pulled up to the sea surface.

Here, the fish hit is not automatically detected by the hit detector (11) marked -F, but by remotely controlling the control panel (8) with the fishing rod (5).
), it is also possible to open and close the motor (9) and electromagnetic clutch (3) directly and electrically by operating a button while watching the movement of the float.

Another embodiment shown in FIG. 6 uses an electromagnetic clutch (3) capable of being in a half-clutch state instead of the half-clutch mechanism in the previous embodiment, and an automatic half-clutch operating means (50) for operating the electromagnetic clutch (3). A current limiting variable resistor (51) linked to the rotating shaft (11) is provided as a current limiting variable resistor (51), and the variable resistor is provided in the middle of the power supply line of the electromagnetic clutch (3), and when the support rod (13 is at an angle of about 45 degrees, the resistance is zero). When the support rod (13) is tilted significantly to around 5 degrees, the resistance becomes high and the electromagnetic clutch (3) is placed in a half-clutch state.This resistance value is continuously changed.

All of these examples have four rods (5).

Two motors (9) are used for the reel (1) so that one motor (9) can drive the two reels (1). In this way, the number of motors (9) is reduced, and the horsepower does not need to be increased, thereby reducing battery consumption.

In addition, when fishing with the weight (3→) stationary in the sea,
Depending on the number 34, the fishing line will not pay out, and depending on the reel (+), the fishing line may be reeled in.
).

(Effects of the Invention) As described above, according to the present invention, hitting a fish can be performed semi-automatically by remote control or automatically using a hit detector. In addition, the reel can be reversed in a half-clutch state in response to a strong pull of a fish, allowing the fishing line to be let out, thereby preventing the line from breaking and ensuring that the fish that have been caught can be reeled in. In addition, in the case where two or more reels are borne by one motor, there is an advantage that the cost and area occupied by the motor and the consumption of battery capacity can be reduced.

[Brief explanation of the drawings] Figure 1 is a plan view showing the electromagnetic clutch, half-clutch mechanism and reel transmission mechanism of the embodiment, Figure 2 is an explanatory diagram showing the arrangement on a ship, and Figure 3 is the drive mechanism. FIG. 4 is an explanatory diagram showing the usage state of the rod support device, FIG. 5 is an explanatory diagram showing the internal mechanism of the rod support device, and FIG. 6 is an explanatory diagram showing the internal mechanism of the rod support device. It is an explanatory view showing an example of. (2): Half-clutch mechanism (4): Drive shaft (6): Fishing line (8): Operation panel (10): Rod support mechanism (l■: Support rod (2): Wire (1): Reel ( 3): Electromagnetic club (5): Rod (7): Wire system (9): Motor (II): Hit sensor (Rotary shaft (2!9.(3″h): Limit force
Itchi: Timer patent applicant Kunimasa Matsushita Agent, Ministry of Toshima Department 4

Claims (1)

[Scope of Claims] 1) A reel around which the fishing line of a fishing rod is wound is linked to a drive shaft through a half-clutch mechanism and an electromagnetic clutch, and the tensile force of the strong pull of the fish is extracted from the movement of the rod to operate the half-clutch mechanism. This fishing device is equipped with a wire system for turning the clutch into a half-clutch state, and a control panel for remotely controlling the on/off of the electromagnetic clutch. 2) The reel on which the fishing rod is wound is linked to the drive shaft through an electromagnetic clutch with a half-clutch that can be set in three states: off, on, and half-clutch, and the electromagnetic clutch with half-clutch can be set in three states:
The fishing device is provided with an operation panel for remotely turning on the fishing rod, and an electric automatic half-clutch actuating means for bringing the electromagnetic clutch into a half-clutch state by extracting the pulling force of the fish from the movement of the rod. 3) A rod support mechanism that connects the reel around which the fishing line of the fishing rod is wound to the drive shaft via a half-clutch mechanism and an electromagnetic clutch, and that attaches the fishing rod in a detachable manner, and a hit detector that detects the hit of a fish from the movement of the rod. and a wire system that extracts the strong pulling force of the fish from the movement of the rod and activates the half-clutch mechanism to bring it into a half-clutch state. A fishing device equipped with a control circuit that engages an electromagnetic clutch in response to a sensing signal and operates a motor to rotate a drive shaft. 4) The fishing device according to claim 3, further comprising a support arm rotation mechanism in which a support arm that supports the rod so as to raise it from below to above when the fish hit sensor is activated comes into contact with the rod. 5) A detector was installed to detect when the fishing line lost its tensile force and the fishing rod was in an upright state, and a timer was installed to operate the motor and engage the electromagnetic clutch for a short period of time based on the detection signal from the detector. A fishing device according to claim 3 or 4. 6) A plurality of reels are gathered in one place, and the number of motors that drive their drive shafts is smaller than the number of reels, so that one motor drives the plurality of reels.
5. The fishing device according to any one of the above.