CN111374107A

CN111374107A - Float for angling

Info

Publication number: CN111374107A
Application number: CN201811608863.1A
Authority: CN
Inventors: 王青年
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-12-27
Filing date: 2018-12-27
Publication date: 2020-07-07

Abstract

The invention provides a buoy which can be arranged on a fishing line connected to a fishing rod and comprises a buoy body and a curved channel. The curved passage penetrates through the interior of the buoy body. Therefore, the fish can pull the fish line while hooking, so that the two ends of the fish line are stressed and tightened, and the fish line is pressed against the inner wall surface of the curved channel and the openings at the two ends. When the fish line is tightly pressed against the curved channel, the buoy can be fixed on the fish line by friction force, so that the buoy can sink by slight pulling force after the fish is hooked, the buoy serves as an obvious hooking signal, and the sensitivity of the whole layer (the depth from the water surface to the water bottom) in hooking is improved. In addition, the buoy discharges the bus at an angle of 0-30 degrees of the horizontal plane, so that the resistance and the force of natural wind resistance can be reduced, the bus can be more smoothly discharged, and the bus can reach a fishing shed (swimming layer) as quickly as possible, so that the opportunity of baiting is increased.

Description

Float for angling

Technical Field

The invention relates to a fishing tackle.

Background

Although fishing is a leisure activity close to nature, it involves knowledge and technology, and tools for fishing are becoming more specialized, developing fishing tackle of different characteristics for different environmental conditions. When fishing, instead of standing the fishing rod after casting to wait for the fish to get caught, the fisher swings the fishing rod to move the bait naturally under the water surface, thereby simulating the activity of the living body and attracting the fish to bite the bait.

As shown in fig. 9, when the buoy 9 is installed on the fishing line a (also called as a bus), the fishing line a may be tied to stop the fishing line a to fix the relative position of the fishing line a and the buoy 9, or the buoy 9 may be moved relative to the fishing line a without tying the fishing line a. When the fishing line A is knotted, the buoy 9 always floats on the water surface, so that the maximum depth of the fishhook sinking into the water is limited, the range of the bait capable of moving up and down is limited, the fidelity of the simulated biological activity state is poor, and the bait is difficult to be bitten by the fish. When the fishing line A is not knotted, although the sinking depth of the hook into the water is not limited by the buoy 9, the hook and the bait sink continuously due to the large specific gravity of the hook and the bait, so that the hook and the bait sink to the bottom of the river or the sea after a period of time, and the fish can not notice the bait any more. When the hook and bait are sunk to the bottom, the fisherman needs to take the rod and throw the rod again, and the operation is repeated until the fish is hooked.

In the existing buoy 9, the channel for the fishing line a to pass through is straight, so that the fishing line a and the buoy 9 can easily move relatively without knotting, the speed of the fishing hook sinking to the bottom hook (namely commonly called bottom hanging) can be very fast, fish information is relatively unobvious, and in order to avoid bottom hanging, the frequency of fishing a fisher to take up and then casting a fishing rod is high, and fatigue is easy to occur.

In addition, the fishing rod is provided with a plurality of guide loops through which the buoy 9 does not have to pass when retracting the rod to guide the extending path of the fishing line A; since the buoy 9 is generally rigid and has a certain speed when retracting the rod, the buoy 9 is likely to hit the conductor loop. In addition to the problem of fishing, although the fishing line a is pulled after the fish is caught, the float 9 is driven to sink slightly when the fishing line a is not fixed to the float 9, and thus the fisher may not easily find the fish is caught.

On the other hand, the buoy 9 has a large contact surface with water and large resistance and volume, so that the buoy is easily influenced by water flow, namely called as flow resistance. If the anti-flowing performance is poor, the buoy 9 is easy to float away with the fishing line A and floats far away, so that the pulling-out degree of the fishing line A is large, and the fishing rod is difficult to retract with the ground; because the buoy 9 is far away, and under the influence of waves, the action of the buoy 9 is not easy to observe and judge.

In view of the above, a better solution is proposed, which is a problem to be solved in the art.

Disclosure of Invention

The main object of the present invention is to provide a buoy which can increase the sensitivity of the whole course (from the water surface to the bottom) when hooking, and can prolong the time of sinking the hook to the bottom after casting the rod, thereby increasing the chance of baiting.

To achieve the above object, the present invention provides a float capable of being disposed on a fishing line connected to a fishing rod, and including a float body and a curved passage, wherein the curved passage penetrates through the float body.

Therefore, the invention has the advantages that the fish can pull the fish line when hooking, and the force is tightened, thereby the fish line is tightly pressed on the inner wall surface of the curved channel and the openings at the two ends to generate resistance at the curved section. When the fish line is tightly pressed against the curved channel, the friction force between the fish line and the curved channel is greatly improved, so that the buoy can be fixed on the fish line, and if the fish swims downwards after getting on the hook, the buoy can sink as an obvious hook-up signal, and the sensitivity of the fish in the hook-up process is improved. In addition, because the inside of the buoy of the invention is provided with the curved channel, even before a fish catches a hook, the fish line and the curved inner wall channel still have a certain degree of friction force, so even if the buoy of the invention is not fixed by knotting the fish line, the sinking of the fish hook is still resisted, the sinking to the bottom of a river or the bottom of the sea takes a long time, and the frequency of fishing rod withdrawing and throwing of a fisher is reduced.

In the foregoing float, the diameter of the curved channel is no less than 0.6 mm and no greater than 2.0 mm.

In the foregoing buoy, the curvature of the curved channel is not less than 30 degrees and not more than 90 degrees.

In the foregoing buoy, the curved passage comprises:

a first straight line section penetrating into the buoy body from a first end of the buoy body;

a second straight line section penetrating into the buoy body from a second end of the buoy body; and

and the two ends of the bent section are respectively communicated with the first straight section and the second straight section.

In the foregoing buoy, the diameters of the first straight section, the second straight section and the curved section of the curved channel are all no less than 0.6 mm and no more than 2.0 mm.

In the foregoing buoy, the curvature of the curved section of the curved channel is not less than 30 degrees and not more than 90 degrees.

In the foregoing buoy, the total length of the buoy body is not less than 3 cm and not more than 6 cm.

The buoy further comprises an elbow, and the elbow channel is formed in the elbow; wherein, the buoy body can be various floating materials, and the bent pipe is fixedly arranged in the floating materials.

The buoy further comprises an elbow, and the elbow channel is formed in the elbow; wherein, the buoy body is a hollow shell, and the bent pipe is fixedly arranged in the hollow shell.

In the foregoing buoy, the buoy body has a first arm and a second arm, the first arm is connected with the second arm, and an included angle is formed at a joint of the first arm and the second arm; the float body also has a weight which is arranged in the end part of the second arm and keeps the float in the pipe in the state of 0-30 degrees to send out the line A.

In the foregoing buoy, the buoy body forms a plane, and if the first arm extends in the horizontal direction and the second arm extends downward, the plane is located on the second arm and faces upward, so as to form a lever principle, which is a streamlined buoy with resistance.

In the above-mentioned buoy, the buoy body has a first end and a second end, and the first end is closer to the fishing rod than the second end; the buoy also has a buffer piece which is fixedly arranged at the first end of the buoy body, and the bending channel penetrates through the anti-collision buffer piece.

Drawings

FIG. 1 is a schematic diagram of the present invention.

FIG. 2 is a side view of the present invention.

Fig. 3 is a schematic end view of the present invention.

Fig. 4 is a schematic top view of the present invention.

Fig. 5 is a side sectional view of the present invention.

Fig. 6 is a schematic top view of the present invention submerged in water.

Fig. 7 is a schematic view of a fish prior to being hooked in use of the invention.

Fig. 8 is a schematic view of a fish after being hooked in use according to the present invention.

Fig. 9 is a schematic view of the use of a prior art buoy.

Detailed Description

Please refer to fig. 1 to 5 first. The present invention provides a float 1 which can be installed on a fishing line A connected to a fishing rod, and the fishing line A can be left unknotted after being installed on the fishing line A, so that the float 1 of the present invention can move relative to the fishing line A. The float 1 of the present invention comprises a float body 10 and a curved channel 20, optionally with a bumper 30.

The buoy body 10 may be of a curved shape and may have a first arm 11 and a second arm 12, the first arm 11 being closer to the fishing rod than the second arm 12. The first arm 11 is connected to the second arm 12, and an included angle is formed at the joint of the first arm 11 and the second arm 12, and the included angle is not less than 90 degrees and not more than 150 degrees. In this embodiment, the first arm 11 tapers from the joint to the first end, and the second arm 12 has a plane 121 on the upward side, and the second arm 12 may have a weight 122 inside, so that when the buoy 1 of the present invention is placed in water, the second arm 12 of the buoy body 10 extends downward, and the first arm 11 can still float on the water surface and is horizontal or slightly raised by pulling the fish line a. When the buoy 1 of the present invention is placed in water, the first arm 11 of the buoy body 10 tapers and the second arm 12 is formed with a flat surface so that the profile interfacing with the water surface is narrower adjacent the first end and wider adjacent the second end, thereby increasing the resistance to flow and reducing the speed at which the buoy 1 floats off as water flows. In other embodiments, the contour of the water interface of the buoy body 10 is not limited thereto, and may be a triangle or a streamline shape with two narrow ends and a wide middle for increasing the flow resistance.

The overall length L of the float body 10 is not less than 3 cm and not more than 6 cm, and may be 4.5 cm in this embodiment. The total length L can be measured at the two longest ends of the float body 10, or at the two openings of the curved channel 20 on the float body 10, or at the two ends of the float body 10 on one of the straight portions parallel to the curved channel 20.

In this embodiment, the buoy body 10 is solid, but the curved passage 20 extends through the interior of the buoy body 10. The curved channel 20 may include a first straight section 21, a second straight section 22, and a curved section 23. The first straight line section 21 penetrates into the buoy body 10 from a first end (i.e., an end of the first arm 11) of the buoy body 10, the second straight line section 22 penetrates out of the buoy body 10 from a second end (i.e., an end of the second arm 12) of the buoy body 10, and the bent section 23 is located between the first straight line section 21 and the second straight line section 22 and two ends of the bent section are respectively communicated with the first straight line section 21 and the second straight line section 22. The diameter D of the curved channel 20 is not less than 0.6 mm and not more than 2.0 mm, and further the diameters D of the first straight line segment 21, the second straight line segment 22 and the curved segment 23 are not less than 0.6 mm and not more than 2.0 mm. For example, if fishing line a is a model below the third line, diameter D may be 0.76 mm; if the fishing line A is a model above the third line, the diameter can be 1.82 mm. The Curvature θ (Degree of Curvature) of the curved channel 20 is not less than 30 degrees and not more than 90 degrees, and further the Curvature of the curved section 23 is not less than 30 degrees and not more than 90 degrees. Preferably, the degree of curvature θ may be 58 degrees, thereby facilitating the passage of the fishing line a without being caught in the curved passage 20. However, other embodiments are not limited to the above dimensions. In other examples, the curved channel 20 may have other shapes, such as only having the curved section 23 without straight sections, or having the curved section 23 in a spiral shape.

The buffer member 30 is fixed to the end of the first arm 11 of the buoy body 10, and may have a through hole for the fishing line a to pass through. In particular, the through hole may be part of the meandering channel 20.

In other embodiments, the buoy body 10 may be a hollow housing and a weighted metal object with a curved tube secured therein and the curved passage 20 formed therein. Thereby facilitating manufacture and reducing processing costs.

Please refer to fig. 1, fig. 2, fig. 7 and fig. 8. With the structure, when a fish hooks, the fish line A is pulled, and the buoy 1 sinks to generate fish information due to the slight pulling force of the fish line A, so that the two ends of the fish line A are stressed and tightened, and the fish line A is pressed against the inner wall surface of the curved channel 20 and the openings at the two ends. When the fishing line A is tightly pressed against the curved channel 20, the friction between the fishing line A and the curved channel is greatly increased, so that the buoy 1 of the invention can be fixed on the fishing line A, and therefore, if a fish swims downwards after being hooked, the buoy 1 can sink as an obvious hooking signal and the sensitivity of the fish during hooking is improved. In addition, the bent channel 20 is arranged in the buoy 1, and the generatrix is discharged at an angle of 0-30 degrees, so that the resistance and the force of natural wind resistance can be reduced, the generatrix outlet is smoother, and the probability of increasing baits in a fishing shed (swimming layer) is reached as soon as possible. When a guest takes a fishing rod, even if the buoy 1 of the present invention hits a line guide ring (not shown) on the fishing rod, the buoy 1 of the present invention enters the line guide ring on the fishing rod first from the first arm 11, and the buffer 30 is provided on the first arm 11, so the buffer 30 hits the line guide ring on the fishing rod. The buffering member 30 prevents the line guiding ring on the fishing rod from being damaged by the impact, so that the service life of the fishing rod is long.

In conclusion, the buoy 1 of the present invention can improve the hand feeling when hooking, serve as an obvious hooking signal, prolong the time for the fishing hook to sink to the bottom after casting, and prevent the buoy 1 from hitting the line guide ring on the fishing rod when retracting the rod.

Claims

1. A float that can be placed on a fishing line attached to a fishing rod, comprising:

a buoy body; and

a curved passage extending through the interior of the float body.

2. The float of claim 1, wherein the diameters of the curved channels are no less than 0.6 mm and no greater than 2.0 mm.

3. The float of claim 1, wherein the curvature of the curved channel is not less than 30 degrees and not more than 90 degrees.

4. The float of claim 1, wherein the tortuous passage comprises:

5. The float of claim 4, wherein the diameters of the first straight section, the second straight section, and the curved section of the curved passage are each no less than 0.6 mm and no more than 2.0 mm.

6. The float of claim 4, wherein the curvature of the curved section of the curved channel is not less than 30 degrees and not greater than 90 degrees.

7. The buoy of any one of claims 1 to 6, wherein the overall length of the buoy body is not less than 3 centimeters and not more than 6 centimeters.

8. The buoy of any one of claims 1-6, further having an elbow, the curved passage being formed in the elbow; wherein, the buoy body is a hollow shell, and the bent pipe is fixedly arranged in the hollow shell.

9. The buoy of any one of claims 1 to 6, wherein the buoy body has a first arm and a second arm, the first arm being connected to the second arm and the first arm forming an angle with the second arm at the connection; the buoy body also has a weight disposed within the end of the second arm.

10. The float of claim 9, wherein the float body defines a flat surface that is upwardly oriented on the second arm if the first arm extends horizontally and the second arm extends downwardly.

11. The buoy of any one of claims 1 to 6, wherein the buoy body has a first end and a second end, the first end being closer to the fishing rod than the second end; the buoy also has a buffer piece which is fixedly arranged at the first end of the buoy body, and the bent channel penetrates through the buffer piece.