CN217694981U - Audiovisual multi-perception fishing identification buoy - Google Patents

Abstract

The utility model relates to the technical field of floats, and discloses an audio-visual multi-perception fish catching identification float, which comprises a float body; the wing part and the floating body can move relatively within a set range and float on the water surface. The utility model discloses a many feelings of seeing and hearing catch discernment is cursory can send the vision that the fishing person can acquire and the sense of hearing catch signal, as the basis that the fishing person carried the pole and played fish. Meanwhile, the audiovisual multi-perception catch identification buoy can provide reverse tension when a fish bites a hook, so that the fish is firmly hooked, the fish is prevented from unhooking, and the probability of catching the fish is increased.

Description

Audiovisual multi-perception fishing identification buoy

Technical Field

The utility model relates to a float technical field specifically relates to an it is cursory to see seeing and hearing multi-sense catch discernment.

Background

Floats are also called floats, etc. Is one of the important fishing gear for fishing. The floating structure generally comprises a floating tail, a floating body and a floating foot. In the fishing process, a fisher judges whether a fish bites the hook according to the up-and-down fluctuation of the float.

During fishing, a fisher is required to observe the fluctuation of the float all the time, otherwise fish leakage can occur. However, looking at the float for a long time can cause visual fatigue of the fisher, and the fluctuation of river/sea water can even cause dizziness of the fisher. Against this background, an invention and creation propose to indicate whether a fish bites a hook or not by sound. Particularly, by arranging the fishing bell, when a fish bites the hook, the fishing bell makes a sound to prompt a fisherman to have the hook. However, such a rod still requires the fisherman to lift the rod at the right moment in time when listening to the sound of the fishing bell.

In night fishing, although the prior art improves on conventional floats, a float capable of emitting light is proposed. However, at night, the change of the float is still difficult to identify by naked eyes, and a fisher easily makes misjudgment to influence the fish catching probability.

In sea fishing, the position of fishhook place and the position of fisher place differ by a long distance, and the distance is bigger, and the fisher just is difficult to see the dynamic change of cursory, obtains the signal to the fish that cursory sent, and the fisher judges the error easily or the pole lifting delays.

Fishing is used as outdoor leisure sports or is used as an outdoor leisure item, sometimes fishing is not complete, and a fisher sometimes leaves a fishing point to do other things. If a fish bites at this time, the angler cannot perceive the biting.

SUMMERY OF THE UTILITY MODEL

The purpose of the utility model is to solve the problem that exists in at least one background art.

In order to achieve the above object, the utility model provides an it is cursory that catch of fishing is discerned to audio-visual multi-sense, include:

floating;

the wing part and the floating body can move relatively within a set range and float on the water surface.

Furthermore, the audio-visual multi-perception catch identification buoy further comprises a buoy tail and a limiting part arranged on the buoy tail; the wing part is arranged on the floating tail and is in sliding connection with the floating tail between the limiting part and the limiting part or between the limiting part and the floating body.

Further, the wing part is rotationally symmetrical by taking the dynamic connection point of the wing part and the floating tail as a center.

Further, the wing portion includes a flap that conforms to and fits the outer shape of the float.

Furthermore, the limiting part comprises at least one sliding block and/or a fixed block.

Further, the wing portion comprises at least two wings; at least two wing pieces are hinged on the outer wall of the float body at intervals along the circumferential direction of the float body; the wing piece can swing along the length direction of the float body;

preferably, the fins are provided in three pieces;

preferably, the maximum angle of upward oscillation of the flap is less than 90 °.

Further, the fin sets up to the curved surface structure, including concave surface and convex surface the fin is under the expanded condition, the concave surface is down, the convex surface is up.

Further, the airfoil satisfies at least one of:

the outer surface of the fin is coated with a luminescent material or provided with a luminophor;

a cavity is arranged in the fin, and the cavity is filled with a luminous material or provided with a luminous body.

Furthermore, a fishing bell is arranged on the float body.

Further, the air conditioner is provided with a fan,

the audiovisual multi-sensing catch identification buoy further comprises a fishing line, one end of the fishing line is connected with the buoy body, and the other end of the fishing line is connected with a plumb bob and a fishing hook;

or the like, or, alternatively,

the audiovisual multi-sensing catch identification buoy further comprises a buoy foot, the tail end of the buoy foot is connected with a fishing line, and the tail end of the fishing line is provided with a plumb bob and a fishhook.

Compared with the prior art, the utility model discloses a many feelings of seeing and hearing are known catch identification and are cursory can send the vision and the sense of hearing catch signal that fishing person can acquire, as fishing person's basis of fishing rod fishing. Meanwhile, the audiovisual multi-perception catch identification buoy can improve reverse tension when a fish bites a hook, so that the fish is firmly hooked and prevented from unhooking.

Other features and advantages of the present invention will be described in detail in the detailed description which follows.

Drawings

FIG. 1 is a schematic structural view of an embodiment of the audiovisual multi-sensing catch identification buoy of the present invention;

FIG. 2 is a schematic structural view of another embodiment of the audiovisual multi-perception catch identification buoy of the present invention;

FIG. 3 is a schematic view of the wing of FIG. 2 in a stowed condition;

fig. 4 is a schematic structural view of another embodiment of the audiovisual multi-perception catch identification float of the present invention.

Description of the reference numerals

10, floating; 21 a fin; 30 floating the tail; 40 a limiting part; 21 a fin; 50 fishing line.

Detailed Description

The following describes the embodiments of the present invention in detail. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

In the present invention, unless otherwise specified, the use of the terms "upper and lower" as used herein generally refers to the orientation in the assembled and used state. "inner and outer" refer to the inner and outer contours of the respective component itself.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged as appropriate in order to facilitate the embodiments of the invention described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The utility model provides a multi-sense of seeing and hearing catches discernment is cursory. The audiovisual multi-perception catch identification float comprises a float body 10 and wing parts. The float body 10 can be either hollow or solid. The wing part and the floating body 10 can move relatively within a set range and float on the water surface.

The first embodiment is as follows:

as shown in fig. 1, the multi-sense-of-view catch identification float further comprises a float tail 30 and a limiting part 40 arranged on the float tail 30. The wing part is arranged on the floating tail 30 and is in sliding connection with the floating tail 30 in the range of the interval formed by the limiting part and the floating body 10.

The limiting part can be selected from structures such as a fixed block, a sliding block and the like. The fixed block means: is fixedly connected with the float tail 30. The fixed block can be theoretically disposed at any position of the floating tail 30, such as the end of the floating tail 30, the center of the floating tail 30, and the like.

The limiting part can be arranged in one or two. In the case where one of the stopper portions is provided, the movable range of the wing portion is between the stopper portion and the float 30. The limit position is used as a limiting structure for the further upward movement of the wing part, and the float body 10 is used as a limiting structure for the further downward movement of the wing part. In the case that two limiting parts are provided, the movable range of the wing part is between the two limiting parts, and the two limiting parts are respectively used as limiting structures for further upward and downward movement of the wing part.

When the sliding block is selected as the limiting part, the sliding block and the floating tail 30 are preferably in interference fit or the sliding block can be tightly held on the floating tail 30. For example, a rubber sleeve/ring with two open ends and a hollow interior can be sleeved on the floating tail 30 and tightly hold the floating tail 30. That is, only when a large force is applied to the sliding block or floating tail 30, the sliding block can be driven to slide on the floating tail 30 to adjust the position of the sliding block on the floating tail 30. In other words, the sliding block is fixed on the floating tail 30 based on the friction force between the sliding block and the floating tail 30, and when the force applied to the sliding block along the length direction of the floating tail 30 is larger than the friction force between the sliding block and the floating tail 30, the position of the sliding block on the floating tail 30 can be adjusted, so as to adjust the moving range of the wing part.

It should be noted that, although only the fixed block and the sliding block are listed as the structures for limiting the sliding range of the wing part, other structures capable of achieving the same function are within the protection range of the "limiting part", such as a clip, a component that can be adhered on the floating tail 30, and the like.

Based on the above arrangement, when a fish bites the hook, the float body 10 is forced to move underwater, and since the wing part is slidably connected with the float tail 30, the wing part is still kept above the water surface until it interferes with the position limiting part. It can be seen that the buoyancy experienced by the wing should be greater than the friction with the float tail 30. Therefore, in a preferred embodiment, the wing portion is disposed on the floating tail 30, and the diameter of the channel of the wing portion for the floating tail 30 to pass through is slightly larger than the diameter of the floating tail 30.

When the wing part is in contact with the stopper part, the wing part is drawn into the water. In this process, the wing will provide resistance to the float sinking, and this resistance source is based on the buoyancy and resistance of the water to the wing. Based on this resistance, a reverse pulling force can be applied to the hook, which is greatest at the moment when the wing portion is in contact with the water surface. This process will have the effect of slowing or stopping the hook down so that it can be inserted deeper into the mouth of the fish, preventing the fish from unhooking when escaping or rising.

Expectable, will the utility model discloses an it is big-scale that seeing and hearing is many perception catch discernment is cursory after to this cursory to the fish of general size, when the pulling force that the fish exerted to cursory reduces or is zero, based on the buoyancy that this cursory produced, can float to the surface of water again. Thereby realizing automatic fishing without the interference of a fisher. On this basis, in an alternative embodiment, as shown in fig. 4, the audiovisual multi-sensing catch identification float further comprises a fishing line, one end of the fishing line 50 is connected with the float body 10, and the other end of the fishing line 50 is connected with a plumb bob and a fishing hook. The fishing line on the fishing rod of the hand of the fisherman is connected with the float. In another alternative embodiment, the audiovisual multi-sensing catch identification float further comprises a float foot, the tail end of the float foot is connected with a fishing line 50, and the tail end of the fishing line 50 is provided with a plumb bob and a fishing hook. Similarly, the fishing line on the fishing rod of the hand of the fisherman is connected with the float.

In the embodiment using the sliding block as the limiting part, the moving range of the wing part on the float tail 30 can be adjusted by adjusting the position of the sliding block. The meaning of this arrangement is or the meaning of adjusting the position of the wing on the float tail 30 is: the point in time at which the wing portions provide a reverse pulling force to the hook can be adjusted. Specifically, the smaller the range of sliding movement of the wing portion on the float tail 30, the faster the wing portion contacts the stop portion when a fish bites, the more timely it is to provide a counter-pulling force, and the less timely it is to provide a counter-pulling force. It should be noted that the occurrence of the reverse pulling force is not necessarily the better in time, nor the better in time, and the point in time of occurrence thereof needs to be determined according to the actual situation, for example, according to the type of fish being fished.

The generation of the reverse pulling force is based on the resistance of the wing portions with water and the buoyancy provided thereto by the water. Thus, in an alternative embodiment, the wing portion is a flap 21 (shown in fig. 1) to increase its contact area with the water. The fins 21 may be either hollow or solid. However, whether solid or hollow, the overall density of the fins 21 should be less than that of water to ensure that they float on the surface of the water.

In a preferred embodiment, the wing is rotationally symmetric about its dynamic point of attachment to the drift tail 30. Such a structural arrangement can on the one hand filter out the fishing signals that the utensil that results in the cursory swing because of stormy waves has misleading fishermen. On the other hand, the stability of the whole buoy can be improved.

The second embodiment is as follows:

as shown in fig. 2 and 3, the wing portion includes at least two fins 21. At least two of the wings 21 are hinged on the outer wall of the float body 10 at intervals along the circumference of the float body 10. The wing 21 can swing along the length direction of the float 10.

When a fish bites the hook, the float 10 moves underwater, and the fins 21 are turned upward by the buoyancy, thereby emitting a signal of the fish biting the hook (the turning action is a biting signal). The fisherman lifts the rod based on the signal to fish. Compared with the traditional buoy, the utility model discloses a buoy provides more obvious fishing harvesting signal for the fishing person in the vision. On one hand, the success rate of fishing is improved, and on the other hand, the visible distance of a fisher is prolonged.

It should be explained that the "extending the visible distance of the fisher" is relative to the traditional float. The tail that floats of traditional cursory is general all thinner, and when cursory distance fisherman when far away, the bite hook signal that traditional cursory embodied is not enough to let fisherman notice. Therefore, the utility model discloses a seeing and hearing multi-sense catch discerns cursory provides stronger impact for the fisherman in the vision, has prolonged fisherman's visible distance.

In a preferred embodiment, at least two of the wings 21 are rotationally symmetrical around the float body 10. Such a configuration also filters out signals that could mislead the fisherman's catch and improve float stability. Further preferably, the fins 21 are provided in three pieces. The three fins 21 have better stability than two fins or a plurality of fins 21, can effectively prevent the float from swinging in the horizontal direction, and prevent the fisherman from mistakenly considering that the swinging caused by the stormy waves is a fishing catch signal. Of course, the fins 21 can be four, five or more, but the increased number of fins 21 will increase the production cost and the complexity of the structure, and the low cost, simple structure and convenient operation are the pursuits of product design. Thus, in a more preferred embodiment, the fins 21 are provided in three pieces.

Similar to the first embodiment, the fins 21 may be solid or hollow (i.e. a closed cavity is provided in the fins 21). However, whether solid or hollow, the overall density of the fins 21 should be less than that of water to ensure that they float on the surface of the water.

In a preferred embodiment, the fins 21 are curved, as shown in figure 2. Specifically, the curved structure includes a concave surface and a convex surface, and in the horizontally expanded state of the fin 21 (as shown in fig. 2), the concave surface faces downward and the convex surface faces upward. Such a structural configuration may serve to limit further flipping of the flap 21. In particular, since the tab 21 is arched upwards, the extent of its upturning is limited, and when the convex surface of the tab 21 abuts against the float 10, its continued upturning is limited.

When a fish bites the hook, the float may move downward or upward. When the float 10 moves downwards, the fins 21 are turned upwards by buoyancy, and a fish bite signal is sent. The float 10 moves upward and turns downward due to the gravity applied to the wing 21 itself. This flipping action is similar to a bird waving a wing. Compared with the traditional float, the fishing information embodiment mode brings greater visual impact to the fisherman, so that the fisherman can see the dynamic change of the float more clearly, and the fish catching probability is improved.

As with the first embodiment, the fins 21 provide resistance to the sinking of the float, the source of this resistance being based on the buoyancy and resistance of the water to the fins 21. On the basis of this resistance, it is possible to exert a reverse pulling force on the hook, this reverse pulling force being greatest at the moment of contact of the wing with the water. This process has the effect of slowing down or stopping the hook so that it is more deeply inserted into the mouth of the fish to prevent the fish from escaping and unhooking when the rod is being raised.

Similarly, the audiovisual multi-perception catch identification float of the utility model can realize automatic fishing after being enlarged, and does not need the intervention of a fisher. The angler does not need to keep staring at the float all the time, and can even leave the fishing point to do other things.

It should be noted that the angle of upward rotation of the tab 21 should be less than 90 °. The reason for this is that: there may be a case where the wing 21 cannot naturally fall down based on its own weight when the float is re-floated on the water surface after the wing 21 is turned upward.

Further, the flaps 21 are configured to conform to and fit the outer shape of the float 10. Such a structure can facilitate the downward folding of the wing 21, fit on the outer surface of the float body 10, reduce the occupied space, and facilitate the storage and carrying.

In order to further enhance the visual appearance of the catch signal. In an alternative embodiment, the outer surface of the fins 21 is coated with a luminescent material or provided with a luminophore. The luminescent material can be fluorescent powder, and the luminophor can be a fluorescent lamp or an LED lamp. The float is suitable for night fishing. In another alternative embodiment, a cavity is provided in the fin 21, and the cavity is filled with a luminescent material or provided with a luminescent body.

Further, a fishing bell is arranged on the float body 10. When a fish bites the hook, the fishing bell makes a sound, and the sound is used as the representation of a fishing catch signal in the sense of hearing.

In actual fishing, a plurality of fishing rods can be used together for fishing, and if the fishing signals are only presented in an audible mode, the specific fishing rod is inevitably confused about having a fish bite. Therefore, in a preferred embodiment, the fin 21 is provided with a luminous material or a luminous body, and a fishing bell is arranged on the float. Meanwhile, a catch signal in the form of auditory sense and visual sense is sent to a fisherman, the fisherman is assisted to distinguish which fishing rod contains fish, and meanwhile, the probability of fish culture can be improved.

The above detailed description describes the preferred embodiments of the present invention, however, the present invention is not limited to the specific details of the above embodiments, and the technical concept of the present invention can be modified to various simple modifications, and these simple modifications all belong to the protection scope of the present invention.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the invention. In order to avoid unnecessary repetition, the present invention does not separately describe various possible combinations.

In addition, various embodiments of the present invention can be arbitrarily combined with each other, and the disclosed content of the present invention should be considered as the same as long as it does not violate the idea of the present invention.

Claims (17)

1. An audio-visual multi-perception catch identification buoy, characterized by comprising:

a float body (10);

the wing part and the floating body (10) can move relatively within a set range and float on the water surface;

the wing comprises a flap (21) conforming to and fitting the external shape of the float (10);

the audiovisual multi-perception catch identification buoy further comprises a buoy tail (30) and a limiting part (40) arranged on the buoy tail (30); the wing part is arranged on the floating tail (30) and is in sliding connection with the floating tail (30) between the limiting part and the limiting part or between the limiting part and the floating body (10).

2. An audiovisual multi-perception catch identification float according to claim 1, wherein said wing is rotationally symmetric around its dynamic connection point with the float tail (30).

3. An audiovisual multi-perception catch identification float according to claim 1, wherein said limiting part (40) comprises at least one sliding and/or fixing block.

4. An audiovisual multi-perception catch identification float according to claim 1, wherein the fin (21) is coated with a luminescent material or provided with a light.

5. An audiovisual multi-perception catch identification float according to claim 1, wherein a cavity is arranged in the fin (21), and the cavity is filled with a luminescent material or provided with a luminophor.

6. An audiovisual multi-perception catch identification float according to claim 1, wherein a fishing bell is provided on the float body (10).

7. An audiovisual multi-perception catch identification float according to any of claims 1-6, wherein: the audiovisual multi-perception catch identification float further comprises a fishing line, one end of the fishing line (50) is connected with the float body (10), and the other end of the fishing line (50) is connected with a plumb bob and a fishhook.

8. An audiovisual multi-sensing catch identification float according to any one of claims 1-6, further comprising a float foot, wherein a fishing line (50) is connected to the end of the float foot, and the end of the fishing line (50) is provided with a plumb bob and a fishing hook.

9. An audio-visual multi-perception catch identification buoy, characterized by comprising:

a float body (10);

the wing part and the floating body (10) can move relatively within a set range and float on the water surface; the wing part comprises at least two wings (21) which are conformed and adapted to the external shape of the float body (10); at least two wings (21) are hinged on the outer wall of the float body (10) at intervals along the circumferential direction of the float body (10); the wing (21) can swing along the length direction of the float body (10).

10. An audiovisual multi-perception catch identification float according to claim 9, wherein the flaps (21) are provided in three pieces.

11. An audiovisual multi-perception catch identification float according to claim 9, wherein the maximum angle of upward swing of the flap (21) is less than 90 °.

12. An audiovisual multi-perception catch identification float according to claim 9, wherein the flaps (21) are provided as a curved structure comprising a concave surface and a convex surface, the concave surface facing downwards and the convex surface facing upwards in the unfolded state of the flaps (21).

13. An audiovisual multi-perception catch identification float according to claim 9, wherein the outer surface of the flap (21) is coated with a luminescent material or provided with a light.

14. An audiovisual multi-perception catch identification float according to claim 9, wherein a cavity is arranged in the fin (21), and the cavity is filled with a luminescent material or provided with a luminophor.

15. An audiovisual multi-perception catch identification float according to claim 9, wherein a fishing bell is provided on the float body (10).

16. An audiovisual multi-sensing catch identification float according to any of claims 9-15, further comprising a fishing line, one end of the fishing line (50) being connected to the float body (10), the other end of the fishing line (50) being connected to a plumb bob and a fishing hook.

17. An audiovisual multi-sensing catch identification float according to any of claims 9-15, further comprising a float foot, a fishing line (50) connected to the end of the float foot, and a plumb and a fishhook arranged at the end of the fishing line (50).

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