CN220292846U - Primary and secondary fish bait structure with replaceable, rotatable and swingable primary and secondary fish structure - Google Patents

Abstract

The embodiment of the application discloses a fish bait structure for a parent-child fish, which is replaceable, rotatable and swingable in a parent-child fish structure, and comprises a parent-child fish structure, a parent-child fish structure and a telescopic structure. The expansion structure arranged in the sub-fish structure or the parent fish structure enables the sub-fish structure to be flexibly replaced in the parent fish structure, the overall weight, throwing distance and submergence depth can be changed by replacing different sub-fish structures, the cavity and the impact part are arranged in the rotating blades arranged outside the sub-fish structure, and the sub-fish structure rotates to reflect light and generate sound when moving underwater. The transparent parent fish structure can conceal the appearance and protrude the child fish structure. When the fish shells with the left side and the right side turned upside down rotate, the phenomenon of front-back random channeling or dying and struggling is presented. The inserted shaft part can enable the sub-fish structure provided with the water retaining sheet to swing left and right, the connection hanging ring is arranged to be connected, so that the sub-fish structure is convenient to replace, and the artificial bait is used for attracting fish in a sub-fish body state through the rotation, sounding, swinging, turbulent flow, reflection of light and sub-parent fish structure. The bionic bait is applied to the field of bionic bait production in fishing.

Description

Primary and secondary fish bait structure with replaceable, rotatable and swingable primary and secondary fish structure

Technical Field

The application is applied to the field of bionic bait production in fishing, and particularly relates to a primary-secondary fish bait structure with a replaceable primary-secondary fish structure, a rotatable primary-secondary fish bait structure and a swingable primary-secondary fish bait structure.

Background

In the field of fishing, fishing with a bionic bait (also called a lure) is a fishing method with environmental protection consciousness, and the fishing objects are all fishing methods adopted for predatory fish species (predatory fish/shrimp species) in water, such as middle and large-sized fish such as perk, mandarin fish, larch and the like, to catch small fish. In the bionic bait/lure fishing method, a bionic lure similar to a small fish and a small shrimp is used for throwing into remote water, a fish line connected to the lure is pulled to enable the lure to move in the water, the fish moves in the water, the fish is simulated to be mistakenly considered as a fish/shrimp by a target fish, the fish is engulfed by the target fish, and a fishhook arranged on the lure penetrates into the mouth of the fish, so that the target fish is fished.

The fishing with the bionic bait/the simulated bait is a more effective and environment-friendly fishing entertainment mode, and before actual operation, the fishing effect can be better improved only by comprehensively knowing the habit of the target fish in order to improve the fishing benefit. The wild carnivorous fish species are characterized in that the wild carnivorous fish species are always in a semi-starvation state, part of the fish species are big in gall and curiosity, and meanwhile, the individual fish species have the awareness of the territory. At present, many bionic baits lure fish through reflection generated by metal textures or coatings on the surfaces of the baits, the solid reflection effect is not obvious, the generated reflection range is small, no sound is generated, the fish lure distance is limited in the sight of target fish, and the target fish cannot be trapped at a longer distance, so that the use value of the conventional bionic baits is low.

Disclosure of Invention

The utility model aims at providing a primary and secondary fish bait structure of removable, rotatable, wobbling of secondary fish structure for improve the long-range sound of bionical bait and lure the fish, reflection of light lures fish and vortex lure the fish function, closely applied the bionical form of dynamic and lure the fish function, in order to solve the current problem that bionical bait lures the fish effect poor.

In order to achieve the above object, an embodiment of the present application provides a fish bait structure for a parent fish, which has a replaceable, rotatable and swingable parent fish structure, including; a fish structure and a parent fish structure;

the fish structure comprises a fish shell, wherein the fish shell is a bionic body, and the bionic body comprises bionic aquatic animals and bionic insects;

the external shape of the parent fish structure is a bionic body, the parent fish structure is provided with a fish body cavity, and the fish body cavity is a left-right through/open cavity;

the son fish structure is detachably connected or rotatably connected or movably connected or flexibly connected/flexibly connected with the mother fish structure in the fish body cavity.

On the basis of the technical scheme, the application is further described as follows:

further aspects of the application also comprise a telescopic structure;

the telescopic structure is arranged in the parent fish structure or the child fish structure, the telescopic structure comprises a telescopic shaft rod, a telescopic rod channel, a pressure spring and a spring channel, the telescopic shaft rod is movably arranged in the telescopic rod channel, the telescopic shaft rod is provided with the pressure spring, and the telescopic shaft rod provided with the pressure spring is retracted under the action of external force and is reset under the action of the pressure spring.

As a further scheme of the application, the fish body perforation device further comprises a fish body perforation, a sub-fish perforation and an inserting shaft part, wherein the fish body perforation is correspondingly arranged on the upper wall and/or the lower wall of a fish body cavity, and the sub-fish perforation is arranged at the fish head and/or the fish body of the sub-fish structure and penetrates through the sub-fish structure vertically; the shaft inserting component is rotatably connected with the fish body perforation and the sub-fish perforation;

the shaft insertion component comprises a bolt, a positioning pin, a metal wire/rod and a long rod buckle.

As a further scheme of the application, the upper part of the sub-fish structure and/or the upper part of the parent fish structure can be correspondingly/movably provided with a sub-fish hanging part and/or a fish body hanging part, so that the sub-fish shell is suspended and can swing/shake freely in the fish body cavity;

the sub-fish hanging part and the fish body hanging part comprise: hanging ring/hanging rod/hanging shaft/connecting ring/hanging hook/soft rope/spring/adhesive tape/soft cloth/soft film.

As a further scheme of the application, the front wall and/or the rear wall of the fish body cavity are provided with a front shaft hole and/or a front shaft rod and/or a rear shaft hole and/or a rear shaft rod and/or a telescopic shaft rod;

the front part of the sub-fish shell can be provided with a front shaft rod or a telescopic shaft rod or a front shaft hole of the sub-fish; the rear part of the sub-fish shell can be provided with a rear shaft rod or a sub-fish rear shaft hole or a telescopic shaft rod;

the telescopic shaft rod or the front shaft rod or the rear shaft rod is respectively connected with the front shaft hole or the rear shaft hole in a matching rotation manner or in a detachable manner;

the front shaft hole of the sub-fish is rotationally connected or detachably connected with the front shaft rod or the telescopic shaft rod of the fish body;

the back shaft hole of the sub-fish is rotationally connected or detachably connected with the back shaft rod or the telescopic shaft rod of the fish body.

Further aspects of the present application include a rear rotating structure;

the rear rotating structure comprises a main shaft rod, and the main shaft rod can be connected with the sub-fish shell or the rear shaft rod;

the rear rotating structure is also provided with a turbine disc and rear rotating blades; the turbine disc is connected with the rear part of the main shaft rod, and the rear rotating blades are connected with the turbine disc or the main shaft rod; the rear rotary blade may be provided in one or more.

As a further scheme of the application, a rotary blade or a water retaining sheet is arranged outside the sub-fish shell, and the rotary blade is impacted by water flow to drive the sub-fish shell to rotate;

the shape of the rotating blade and the water retaining piece comprises bionic fish fins, fan blades and geometric shapes;

the rotary blades and the water retaining sheets are arranged outside the sub-fish shell in one or more rows;

as a further scheme of the application, the sub-fish shell is solid or hollow, and the hollow sub-fish shell is internally provided with a cavity;

one or a plurality of impact parts are movably arranged in the cavity, and the impact parts comprise metal geometric bodies and/or nonmetal geometric bodies, natural particles, artificial synthetic particles and bell.

As a further scheme of the application, the left side and the right side of the sub-fish shell are consistent in head-tail correspondence, or the left side and the right side are reversed from head to tail, or the shapes and the forms of the left side and the right side are different.

As a further aspect of the application, the external shape of the son fish structure and the mother fish structure is bionic body and/or geometric body and/or elephant body or combination body thereof; the sub-fish structures, parent fish structures are at least partially transparent and/or reflective and/or fluorescent and/or surface coated.

Compared with the prior art, the embodiment of the application has the following advantages:

this son-mother fish bait structure is through optimizing bait inner structure, through setting up the extending structure in son-fish structure and/or mother fish structure, can change the son-fish structure of locating in the mother fish structure to the kind of lure of bait has been enlarged. The rotor fish structure is rotated to generate dynamic reflection and turbulence in the moving process of the body, and the impact parts in the cavities of the rotating rotor fish shell impact four walls to generate sound; the parent fish structure which can be set as a transparent body can conceal the body in water, the left side and the right side of the child fish shell can also be small fish with the heads and the tails reversed, and when the child fish shell rotates, the visual effect is vivid; when the parent fish structure and the child fish structure are provided with structures such as a fish body perforation/shaft inserting part, a hanging part and the like, the child fish structure provided with the water retaining sheet can swing left and right under the action of water flow, shake/reflect light/sound and generate turbulence at the same time, the fish attracting effect is improved, and the functional practicability is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those of ordinary skill in the art that the drawings in the following description are exemplary only and that other implementations can be obtained from the extensions of the drawings provided without inventive effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only in connection with the structures, proportions, sizes, etc. disclosed in the present specification, and should not be construed as limiting the scope of the utility model, which is defined by the claims, for the purpose of understanding and understanding the utility model, so that any structural modifications, changes in proportions, or adjustments of size, thickness, etc. that are used in the claims, are not intended to be essential to the technical spirit of the present utility model, but are intended to fall within the scope of the technical spirit of the present utility model.

Fig. 1 is a schematic cross-sectional view of a replaceable, rotatable and swingable fish bait structure for a parent fish and a partially replaceable fish structure according to an embodiment of the present application.

Fig. 2 is a schematic illustration of a replaceable, rotatable and swingable fish bait structure with a telescopic structure for a sub-fish structure.

Fig. 3 is a schematic illustration of a replaceable, rotatable and swingable fish bait structure for a parent fish, wherein the fish bait structure is not provided with a telescopic structure, and the rear part of the parent fish structure is provided with a gravity center transfer function integral structure.

Fig. 4 is a perspective schematic view of a replaceable, rotatable and swingable fish bait structure according to an embodiment of the present application, wherein the fish structure is rotated to different positions.

Fig. 5 is a top view of a replaceable, rotatable and swingable fish bait structure for a parent fish according to an embodiment of the present application.

Fig. 6 is a diagram showing the overall appearance of a replaceable, rotatable and swingable fish bait structure for a parent fish according to an embodiment of the present application.

Fig. 7 is a cross-sectional view of a replaceable, rotatable and swingable fish bait structure for a parent fish, provided in an embodiment of the present application, wherein the fish structure is provided with a front shaft hole for the parent fish and a rear shaft hole for the parent fish.

Fig. 8 is a cross-sectional view of a replaceable, rotatable and swingable fish bait structure for a parent fish according to an embodiment of the present application, wherein the fish body is provided with a through hole, and an insertion shaft member.

Fig. 9 is a diagram showing the overall appearance of a fish body through hole, and a shaft inserting component, wherein the fish body through hole, and the shaft inserting component are provided in the fish bait structure of the primary-secondary fish with replaceable, rotatable and swingable structure according to the embodiment of the application.

Fig. 10 is a cross-sectional view of a replaceable, rotatable and swingable fish bait structure for a parent fish, wherein the parent fish structure is provided with a hanging ring type hanging part.

Fig. 11 is an overall appearance diagram of a replaceable, rotatable and swingable fish bait structure for a parent fish and a parent fish structure provided with a hanging ring type hanging part according to an embodiment of the present application.

Fig. 12 is an overall perspective view of a replaceable, rotatable and swingable fish bait structure for a parent fish, the parent fish structure being provided with a hanging shaft type hanging member according to an embodiment of the present application.

Fig. 13 is a perspective view showing a replaceable, rotatable and swingable fish bait structure for a parent fish, wherein the parent fish structure is provided with a cross rod type suspension member.

Fig. 14 is an overall perspective view of a replaceable, rotatable and swingable fish bait structure for a parent fish structure provided with a hanger-type suspension member according to an embodiment of the present application.

Fig. 15 is a schematic diagram of an integral split of a fish shell and front and rear shafts of a replaceable, rotatable and swingable fish bait structure for a parent fish according to an embodiment of the present application.

Fig. 16 is a schematic view of a replaceable, rotatable and swingable fish bait structure with a pictographic geometry, with front and rear shafts being integrally formed.

Fig. 17 is a diagram showing the decomposition of the head and tail reverse arrangement and the rear rotation of the bionic fish at two sides of the fish structure of the fish bait structure of the primary-secondary fish with replaceable, rotatable and swingable structure according to the embodiment of the present application.

Fig. 18 is a perspective view showing a replaceable, rotatable and swingable fish bait structure for a parent fish provided in an embodiment of the present application, with a rear rotary structure.

Fig. 19 is a diagram showing the overall appearance of a replaceable, rotatable and swingable fish bait structure with a rear rotary structure according to an embodiment of the present application.

Fig. 20 is a schematic diagram of a replaceable, rotatable and swingable fish bait structure with a geometric body integrally split.

Fig. 21 is a schematic perspective view of a replaceable, rotatable and swingable fish bait structure with a whole body of a fish structure.

Fig. 22 is a diagram showing the overall appearance of a fish structure of a replaceable, rotatable and swingable fish bait structure of a parent fish according to an embodiment of the present application.

Fig. 23 is a schematic diagram of a semi-closed fish body with a replaceable, rotatable and swingable fish bait structure for a parent fish, wherein the structure of the parent fish is a geometric body and a rear rotary blade is mounted on a main shaft rod.

Fig. 24 is a perspective view of a replaceable, rotatable and swingable fish bait structure for a parent-child fish, wherein the fish bait structure is a geometric body and a rear rotary blade is mounted on a main shaft.

Fig. 25 is a diagram showing the overall appearance of a fish body with a replaceable, rotatable and swingable fish bait structure, wherein the fish body is a geometric body and rear rotary blades are mounted on a spindle rod.

Wherein the reference numerals are as follows:

the fish body hanging device comprises a parent fish structure 1, an open fish body 10, a semi-closed fish body 10A, a fish body cavity 11, a front shaft hole 12A, a rear shaft hole 12B, a main shaft hole 12C, a fish body front shaft rod 12D, a fish body rear shaft rod 12E, a fish body side hole 13, a fish body opening 14, a buoyancy running cavity 15, a fish body cavity 16, a balancing weight 17, a fish body perforation 18, an inserting shaft part 18A and a fish body hanging part 19;

the fish structure 2, the fish shell 20, the cavity 21, the striking component 22, the rotating blade 23, the water retaining piece 23A, the front shaft 24A, the rear shaft 24B, the cavity through hole 25, the fish perforation 26, the fish front shaft hole 26A, the fish rear shaft hole 26B and the fish hanging component 27;

a rear rotating structure 3, a main shaft lever 30, a positioning member 31, a turbine disk 32, and rear rotating blades 33;

the telescopic structure 4, the spring channel 40, the telescopic shaft 41, the stop lever 42, the pressure spring 43 and the telescopic shaft channel 44.

Detailed Description

Other advantages and advantages of the present application will become apparent to those skilled in the art from the following description of specific embodiments, which is to be read in light of the present disclosure, wherein the present embodiments are described in some, but not all, of the several embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

The terms such as "upper", "lower", "front", "rear", "left", "right" and the like are also used herein for descriptive purposes only and are not intended to limit the scope of the present application in which the relative relationship changes or modifications may be practiced without materially altering the technical context.

As shown in fig. 1 to 3 and fig. 8 and fig. 17 and fig. 23, the fish bait structure for a mother-son fish, provided in the embodiment of the present application, comprises a mother-son fish structure 1, a son-son fish structure 2, a rear rotating structure 3 and a telescopic structure 4;

as shown in fig. 1 and fig. 2, the sub-fish structure 2 comprises a sub-fish shell 20, wherein the sub-fish shell 20 is a bionic body, and the bionic body comprises a bionic aquatic animal and a bionic insect; the bionic aquatic animals and bionic insects comprise small fish, shrimp, loach, frog, tadpole, locust, cricket and the like.

The shape of the parent fish structure 1 is a bionic body, the parent fish structure 1 is provided with a fish body cavity 11, the fish body cavity 11 is an open cavity, the fish body cavities 11 can be corresponding left and right and are communicated with each other to open the outside, and the open fish body cavity 11 can enable the child fish structure to be more obvious;

the son fish structure 2 can be detachably connected or rotatably connected or movably connected or flexibly connected/flexibly connected with the mother fish structure 2 in the fish body cavity 11;

as shown in fig. 1 to 7, a rotary blade 23 or a water blocking piece 23A may be provided outside the sub-fish housing 20, and the rotary blade 23 may be impacted by water flow to drive the sub-fish housing 20 to rotate;

the shapes of the rotating blades 23 and the water retaining sheets 23A comprise bionic fish fins, fan blades and geometric shapes;

the rotary blades 23 and the water retaining sheets 23A can be arranged outside the sub-fish shell 20 in one or more rows;

the rotating blades 23 can rotate the sub-fish structure clockwise or anticlockwise by setting different angles;

as shown in fig. 8 to 14, the water blocking piece 23A can make the sub-fish structure 2 swing/shake under the impact of water flow when the sub-fish structure 2 is movably connected or flexibly connected with the parent fish structure 1;

the water retaining sheet 23A may be disposed at the head, middle or tail of the sub-fish structure 2, or may be disposed in one or more rows; when multiple rows are arranged, different angles can be set, so that different positions are impacted by water flow to form different stress directions, and larger swing/shake is formed.

As shown in fig. 1 and 12; the hollow sub-fish shell 20 is solid or hollow, a cavity 21 is arranged in the hollow sub-fish shell 20, and the cavity can be a closed cavity;

one or a plurality of impact parts 22 are also movably arranged in the cavity 21, and the impact parts 22 comprise metal geometric bodies and/or nonmetal geometric bodies, natural particles, artificial synthetic particles, bell and the like; the sound fish attracting effect is produced by the striking member 22 striking/knocking the walls of the cavity or striking each other.

As shown in fig. 20 and 22; the sub-fish housing 20 may also be a semi-enclosed cavity 21; one or more cavity through holes 25 can be further formed in the sub-fish shell 20 to form a semi-closed cavity 21;

the cavity through hole 25 is internally communicated with the cavity 21, and externally communicated with the outside of the cavity 21, so as to adapt to high pressure during deep sea fishing and increase the water area environment suitable for bait.

As shown in fig. 1 and 17; the left side and the right side of the sub-fish shell 20 can be consistent in head-to-tail correspondence, can be reversed head-to-tail from the left side and the right side, and can also be different in shape and form from the left side and the right side; when the left and right side head-to-tail reversed sub-fish shells 20 are rotated, the target fish sees the biological phenomenon of front-to-back random channeling, dying and struggling, thereby increasing the desire to swallow the bait and improving the fish attracting effect.

The son fish structure 2 and the mother fish structure 1 can be bionic bodies, geometric bodies and/or pictograms and combined bodies thereof;

as shown in fig. 1, 16, 20 and 23; the geometric shapes, pictograms include triangular, rectangular, oval, wavy, polygonal, straight cylindrical, pictographic/abstract biomimetic animal shapes, or combinations thereof, such as shapes of pictograms having geometric shapes;

the sub-fish structures 2 and the parent fish structures 1 are at least partially transparent and/or reflective and/or fluorescent and/or surface coated; different fish attracting effects are produced through different combinations of the appearance, the external coating and the surface characteristics of the sub-fish structures 2 and the parent fish structures 1.

The parent fish structure 1 and the child fish structure 2 can have fluorescence/reflectivity, can be made by coating fluorescent materials/reflective materials on the surfaces, coating, plating films, laminating films and the like, and can be colored or patterned on the surfaces.

When the reflective sub-fish structure 2 rotates, the rotary reflective sub-fish structure attracts the fish with dynamic effect, is easily found by target fish, has large attraction to the fish, and can improve the fishing efficiency. The parent fish structure 1 which is arranged as a transparent body can conceal the body in water, so that the child fish structure 2 is more outstanding, and meanwhile, the smaller child fish structure 2 can enable the target fish to be smaller in withdrawal heart, so that the desire of the target fish for phagocytizing the body is larger.

As shown in fig. 1 to 2; the bait structure also comprises a telescopic structure 4;

the telescopic structure 4 comprises a telescopic shaft lever 41, a telescopic shaft lever channel 44, a pressure spring 43 and a spring channel 40, and also comprises a stop lever 42;

the front part/front wall of the fish body cavity 11 is provided with a front shaft hole 12A and/or a fish body front shaft rod 12D and/or a telescopic shaft rod 41, and the rear part/rear wall of the fish body cavity 11 is provided with a rear shaft hole 12B and/or a fish body rear shaft rod 12E and/or a telescopic shaft rod 41;

the front part of the sub-fish shell 20 can be provided with a front shaft lever 24A or a telescopic shaft lever 41 or a sub-fish front shaft hole 26A; the rear part of the sub-fish shell 20 can be provided with a rear shaft lever 24B or a telescopic shaft lever 41 or a sub-fish rear shaft hole 26B;

as shown in fig. 1, 2, 8-25; the sub-fish structure 2 can be detachably connected or rotatably connected or movably connected or flexibly connected/flexibly connected with the parent fish structure 1 in the fish body cavity 11;

the telescopic shaft 41 or the front shaft 24A and/or the rear shaft 24B are/is connected with the front shaft hole 12A and the rear shaft hole 12B in a matching rotation/movable way;

the front shaft hole 26A of the sub-fish is rotatably connected or detachably connected with the front shaft rod 12D of the fish body or the telescopic shaft rod 41; the fish tail shaft hole 26B is rotatably connected or detachably connected with the fish tail shaft rod 12E or the telescopic shaft rod 41;

as shown in fig. 2, the telescopic shaft 41 provided on the sub-fish housing 20 may be rotatably connected or detachably connected to the front shaft hole 12A, and may also be rotatably connected or detachably connected to the rear shaft hole 12B, and simultaneously, the rear shaft 24B may be rotatably/movably connected to the rear shaft hole 12B and may also be rotatably/movably connected to the front shaft hole 12A; namely, the son fish structure 2 can be arranged in the matched mother fish structure in a front-back mode;

the front wall and the rear wall of the fish body cavity 11 are provided with shaft holes which are correspondingly arranged and can be arranged at the middle position above and below the front wall and the rear wall so that the rotatably connected sub-fish structure 2 can smoothly rotate;

as shown in fig. 3, the front shaft 24A and the rear shaft 24B may be respectively connected to the front and rear of the sub-fish housing 20;

as shown in fig. 15, the front shaft 24A and the rear shaft 24B may be integrally formed with the sub-fish body 20, and extend outwardly from the front and rear portions of the sub-fish body 20 to form the front shaft 24A and the rear shaft 24B of the sub-fish body 20, respectively.

As shown in fig. 16, the front shaft 24A and the rear shaft 24B may be integrally connected together, and extend out of the sub-fish housing 20 after penetrating through the sub-fish housing 20, so as to form the front shaft 24A and the rear shaft 24B.

As shown in fig. 1, in an embodiment in which the sub-fish structure 2 is detachably connected in the fish body cavity 11, a sub-fish front shaft hole 26A and a sub-fish rear shaft hole 26B are respectively provided at the front end and the rear end of the sub-fish shell 20, a fish body front shaft rod 12D is provided at the front end of the fish body cavity 11, and the telescopic structure 4 is provided in the rear part of the parent fish structure 1.

As shown in fig. 1 and 2, the telescopic structure 4 can be arranged in the parent fish structure 1 or in the child fish structure 2; the telescopic structure 4 can be arranged at the rear part of the parent fish structure 1 as an example, the telescopic shaft rod 41 is movably arranged in the telescopic shaft rod channel 44, the telescopic shaft rod 41 is connected with the stop lever 42, the rear part of the stop lever 42 is connected with the pressure spring 43, and the elastic force of the pressure spring 43 pushes the telescopic shaft rod 41 into the telescopic shaft rod channel 44. The back shaft hole 26B of the sub-fish is inserted into the telescopic shaft rod 41 and is propped against the telescopic shaft rod 41, the telescopic shaft rod 41 partially retracts into the telescopic shaft rod channel 44, the front shaft hole 26A of the sub-fish in the structure of the sub-fish is aligned with/inserted into the front shaft rod 12D of the fish body, the telescopic shaft rod 41 is automatically reset, and the reset telescopic shaft rod 41 is inserted into the back shaft hole 26B of the sub-fish, so that the installation of the structure 2 of the sub-fish is completed. The reverse operation will unload the sub-fish structure 2.

Referring to fig. 2, as an example, the telescopic structure 4 may be disposed at the front portion of the sub-fish structure 2, and the sub-fish structure 2 with the telescopic structure 4 is adapted to the parent fish structure 1 with front axle holes 12A and rear axle holes 12B respectively disposed in front of and behind the hollow fish body 11; the telescopic shaft 41 of the telescopic structure 4 arranged on the fish structure 2 extends to the outer end of the telescopic shaft channel 44 under the action of the internal pressure spring 43. The telescopic shaft rod 41 is inserted into the front shaft hole 12A of the parent fish structure 1 to be pushed by force, the rear shaft rod 24B of the child fish structure 2 is aligned with the rear shaft hole 12B of the parent fish structure 1, the rear shaft rod 24B is inserted into the rear shaft hole 12B, the child fish structure 2 is movably connected into the parent fish structure 1 under the action of the pressure spring 43 in the telescopic structure 4, and the pressure spring 43 is an adapting part.

The detachable connection of the sub-fish structure 2 with the telescopic structure 4 and the parent fish structure 1 comprises that the telescopic structure 4 on the sub-fish structure 2 can be inserted into the rear shaft hole 12B and the rear shaft rod 24B is inserted into the front shaft hole 12A, and the functions are the same. The telescopic structure 4 can also be arranged at the front part of the fishing lure parent fish structure 1 according to the requirement so as to leave a space for arranging the gravity transfer structure for the rear part.

Referring to fig. 1, the detachable sub-fish structure 2 may take a variety of forms, either hollow or solid, and may contain different impact members 22 to create different sounds to attract different target fish. The solid sub-fish structure 2 is not provided with the cavity 21, but the weight 17 can be assembled to improve the weight of the sub-fish structure 2, and the sub-fish structures 2 with different weights ensure the stability of the bait structure, and simultaneously can enable the bait structure to be in different water depths to further improve the functionality of the bait structure.

The son fish structure 2 is rotationally connected with the mother fish structure 1, including being rotationally connected around a shaft or being rotationally connected with the shaft together;

the rotating connection around the shaft is that the inside of the sub-fish structure 2 can be provided with a through hole for accommodating a rotating shaft, the through hole of the rotating shaft is internally provided with a through shaft/rotating shaft, and the sub-fish structure 2 rotates around the through shaft/rotating shaft.

As shown in fig. 8 and 9, the upper wall and/or the lower wall of the fish body cavity 11 are provided with fish body perforations 18 corresponding to the structure of the sub-fish, and the fish body perforations 18 may be disposed at the front part of the fish body cavity 11 or at the middle position; simultaneously, an inserting shaft component 18A is also arranged, and the parent fish structure 1 provided with the fish body through hole 18 and the child fish structure 2 provided with the fish body through hole 18 are rotatably/movably connected through the inserting shaft component 18A;

the shaft insert 18A includes a bolt, a locating pin, a wire/rod, and a long rod catch.

Referring to fig. 8 and 15, for example, the shaft lever may be disposed to penetrate through the upper end and/or the lower end or the front end and/or the rear end of the sub-fish structure 2, and the shaft lever of the sub-fish structure 2 is fixedly connected to rotate together.

The rotation around the shaft and/or the rotation together with the shaft comprises 360-degree rotation along the shaft;

the vertical shaft of the upper shaft and the lower shaft rotates to swing and/or rotate left and right around a vertical shaft/shaft inserting component 18A, the vertical shaft/shaft inserting component 18A can be installed according to the fish body penetrating hole 18, the fish body cavity 11 can be installed near the front part or the middle part, the installation front part can enable the rear part of the sub-fish shell 20 to swing left and right with larger amplitude, and the installation middle part can rotate around the vertical shaft/shaft inserting component 18A;

as shown in fig. 10 to 14; the sub-fish structures 2 and the parent fish structures 1 may be provided with sub-fish suspension members 27 and/or body suspension members 19, respectively.

The soft connection/flexible connection comprises a connection of the sub-fish hanging part 27, the fish body hanging part 19 with each other, the sub-fish hanging part 27, the fish body hanging part 19 comprises: hanging rings/hanging rods/hanging shafts/connecting rings/hooks/soft ropes/springs/adhesive tapes/soft cloth/soft sheets and the like;

the soft connection also comprises the steps of arranging springs in front of, behind or above and/or below the sub-fish structure 2, connecting the springs with the fish body cavity 11, and elastically supporting and/or stretching the sub-fish structure 2 to be suspended in the fish body cavity 11; meanwhile, the flexible connection is formed by the mutual connection of soft materials such as cloth strips, adhesive tapes, films and the like;

the fish hanging parts 27 are arranged above the fish structure 2, and the fish hanging parts 19 are correspondingly arranged on the upper wall of the fish cavity 11 above the fish hanging parts;

when the son fish hanging part 27 and the fish body hanging part 19 are hanging rings/connecting rings/hooks/hanging rods, one or more connecting rods/hanging rods with two fixing points can be arranged on the mother fish structure 1 so as to hang the son fish structure 2 below, the hanging rings/connecting rings can also be hooks so as to facilitate the replacement and hanging of the son fish structure 2, and the positions of the hanging rings/connecting rings are adapted according to the swing amplitude required by the son fish structure.

Referring to fig. 10-11, the sub-fish hanging parts 19 and the fish body hanging parts 27 are hanging ring connection embodiments; the upper wall of the fish body cavity 11 and/or the upper part of the sub-fish structure 2 are/is provided with a connecting ring, a notch can be reserved at the connecting ring, the sub-fish structure 2 is suspended on a hanging ring/hanging rod which is matched and arranged on the upper part of the fish body cavity 11 through the detachable notch of the connecting ring, and the replaceable suspension of the sub-fish structure 2 is formed.

Referring to fig. 12, the movable connection further includes connection in which the sub-fish hanging component 27 and the fish body hanging component 19 are hanging shafts, where the sub-fish hanging component 27 and the fish body hanging component 19 form a shaft-shaft connection form, so that the sub-fish structure 2 is suspended and can swing freely.

Referring to fig. 13, the parent fish structure 1 is provided with a horizontal rod type fish body hanging part 19 movably connected with a hanging ring type child fish hanging part 27;

referring to fig. 14, the movable connection further includes a sub-fish hanging member 27, and a fish body hanging member 19, where the hanging member is a hanging rod, and an embodiment of the hanging rod connection may be that the sub-fish hanging member 27 on the upper portion of the sub-fish structure 2 is a hanging ring, and the hanging ring may be provided with a notch so as to replace the sub-fish structure 2, where the upper wall of the fish body cavity 11 of the parent fish structure 1 corresponds to the sub-fish hanging member 27 (hanging ring) of the sub-fish structure 2, and the sub-fish hanging member 19 (hanging rod) is bent and extended downwards, and the sub-fish hanging member 27 (hanging ring) is movably/detachably connected with the fish body hanging member 19 (hanging rod), so that the sub-fish structure 2 is suspended and can swing freely.

As shown in fig. 17 to 25, the sub-fish structure 2 is rotatably connected with the parent fish structure 1, and further includes an embodiment in which the fishing lure structure is provided with a rear rotating structure 3;

the rear rotating structure 3 comprises a main shaft lever 30, and the main shaft lever 30 can be connected with the sub-fish shell 20 or the rear shaft lever 24B;

the rear rotating structure 3 comprises a turbine disc 32 and rear rotating blades 33; the turbine disc 32 is connected with the rear part of the main shaft 30, and the rear rotating blades 33 are connected with the turbine disc 32 or the main shaft 30; the rear rotary vane 33 may be provided as one or more;

the spindle rod 30 may be provided with a positioning member 31, where the positioning member 31 includes a positioning protrusion, a snap ring, a latch, and the like.

As shown in fig. 17, the turbine disk 32 or the main shaft 30 is driven to rotate by the impact of the water flow from the rear rotating blade 33, so as to drive the sub-fish shell 20 or the rear shaft 24B connected to the main shaft 30, and drive the sub-fish structure 20 to rotate in the fish cavity 11.

As shown in fig. 1 and fig. 5 and fig. 17, turbulence is also generated during the rotation of the rotating blade 23 and/or the rear rotating blade 33, and the water flow fluctuation/turbulence stimulates the remote target fish side line to attract the remote target fish.

As one of several alternatives of the present embodiment, as shown in fig. 23 to 25, the parent fish structure 1 may also be provided as a semi-closed fish body 10A.

The semi-closed fish body 10A is provided with a fish body cavity 16, two sides of the fish body cavity 16 can be provided with fish body side holes 13, and one or more fish body side holes 13 can be arranged; the inner side of the fish body side hole 13 is communicated with the fish body cavity 16, and the outer side of the fish body side hole is communicated with the environment of an external water area;

the upper part and/or the lower part and/or the two sides of the fish body cavity 16 can be provided with a fish body opening 14, the inner side of the fish body opening 14 is communicated with the fish body cavity 16, and the outer side of the fish body opening 14 is communicated with the outside of the fish body structure;

the provision of the body side hole 13 and/or the body opening 14 facilitates the transmission of sound generated by the impact of the impact member 22 to the outside through which fish is lured.

As a deepwater use alternative of the embodiment, the sub-fish shell 20 may further be provided with a cavity through hole 25, and one or more cavity through holes 25 may be provided; i.e. the sub-fish housing 20 may be provided with a semi-closed cavity of cavity through-holes 25;

the inside of the cavity through hole 25 is communicated with the cavity 21, and the outside of the cavity through hole is communicated with the outside of the cavity 21; the cavity through holes 25 allow the cavity 21 to be filled with water under water to resist the pressure of water during use in deep sea.

As another deep water use alternative of the present embodiment, as shown in fig. 20 to 22, the fish body cavity 11 and/or the front shaft hole 12A, the rear shaft hole 12B and/or the main shaft hole 12C are provided, and can be matched with the sub-fish shell 20 provided with the cavity through hole 25, so as to jointly overcome the huge water pressure generated by the deep water during deep sea use.

It should be noted that, as shown in fig. 1, 7 and 23, the female fish structure 1 is further provided with a balancing weight 17 and a buoyancy cavity 15 correspondingly, so as to effectively ensure the predetermined gravity required by the fishing lure when the fishing lure is balanced under water on the basis of optimizing the structure, thereby ensuring the functional practicability of the structure.

As shown in fig. 1 and 2, the rear part of the parent fish structure 1 can be further provided with a gravity center transfer system, and the gravity center transfer system has a plurality of technical methods, namely that a gravity block moves backwards or impacts backwards in the bait structure throwing process so as to obtain a longer bait throwing distance. The conventional general technology can be used for adapting and installing a proper gravity center transfer technical system according to requirements.

As shown in fig. 1 and 8, the replaceable sub-fish structure step in the present application includes: the upper wall and/or the lower wall of the fish body cavity 11 and the sub-fish structure 2 are correspondingly provided with the fish body through holes 18, the shaft inserting component 18A is inserted into the fish body through holes 18 and the sub-fish through holes 26 corresponding to the parent fish structure 1 and the sub-fish structure 2 through the shaft inserting component 18A which is inserted/pulled out, and the shaft inserting component 18A extending outside the fish body through holes 18 is bent and fixed (when the shaft inserting component is a metal long rod), so that the sub-fish structure 2 is detached/replaced in the parent fish structure 1 and can be rotatably/movably connected; the fish body perforation 18 is arranged at the front or middle position of the fish body cavity 11, and the swing amplitude of the structure of the sub fish 2 can be different by combining the water stop of the rotary water stop piece 23A to stop water flow;

the shaft inserting part 18A swings/rotates as the axis under the action of the water blocking sheet 23A blocking the water flow;

when the sub-fish hanging parts 27 and the fish body hanging parts 19 are correspondingly hooks and hanging rods or hanging rings, the sub-fish structure 2 is convenient to replace and hang in the parent fish structure 1 through the detachable connection of the hooks and the hanging rods or the hanging rings; the hooks are positioned at the front or middle position of the fish body cavity, and the water flow is blocked by the water blocking sheet 23A, so that the swing amplitude of the sub-fish structure 2 is different.

The telescopic structure 4 can be arranged on the parent fish structure 1 or the child fish structure 2, the telescopic structure 4 is provided with a telescopic rod 41 and a pressure spring 43, the telescopic rod 41 stretches out and draws back under the action of external force, and the child fish structure 2 is detachably/replaceably connected in the parent fish structure 1; the sub-fish structure 2 provided with the telescopic structure 4 can be used back and forth in a reversed manner.

While the application has been described in detail with respect to the general description and specific embodiments thereof, it will be apparent to those skilled in the art that certain modifications and improvements may be made thereto based upon the application. Accordingly, such modifications or improvements may be made without departing from the spirit of the application and are intended to be within the scope of the utility model as claimed.

Claims (10)

1. The utility model provides a primary-secondary fish bait structure that seed fish structure is removable, rotatable, swingable, its characterized in that includes: a fish structure and a parent fish structure; the fish structure comprises a fish shell, wherein the fish shell is a bionic body, and the bionic body comprises bionic aquatic animals and bionic insects;

the parent fish structure is provided with a fish body cavity, and the fish body cavity is a left-right through/open cavity;

the son fish structure is detachably connected or rotatably connected or movably connected or flexibly connected/flexibly connected with the mother fish structure in the fish body cavity.

2. A replaceable, rotatable, swingable fish bait structure for a parent fish according to claim 1, further comprising a telescoping structure;

the telescopic structure is arranged in the parent fish structure or the child fish structure, the telescopic structure comprises a telescopic shaft rod, a telescopic rod channel, a pressure spring and a spring channel, the telescopic shaft rod is movably arranged in the telescopic rod channel, the telescopic shaft rod is provided with the pressure spring, and the telescopic shaft rod provided with the pressure spring is retracted under the action of external force and is reset under the action of the pressure spring.

3. A replaceable, rotatable, swingable fish bait structure for a parent fish according to claim 1, wherein,

the fish body perforation device is characterized by further comprising a fish body perforation, a sub-fish perforation and an inserting shaft part, wherein the fish body perforation is correspondingly arranged on the upper wall and/or the lower wall of a fish body cavity, and the sub-fish perforation is arranged at the fish head and/or the fish body of the sub-fish structure and penetrates through the sub-fish structure up and down; the shaft inserting component is rotatably connected with the fish body perforation and the sub-fish perforation; the shaft insertion component comprises a bolt, a positioning pin, a metal wire/rod and a long rod buckle.

4. A replaceable, rotatable, swingable fish bait structure for a parent fish according to claim 1, wherein,

the upper part of the son fish structure and/or the upper part of the mother fish structure are/is also provided with a son fish hanging part and/or a fish body hanging part correspondingly/movably, so that the son fish shell is suspended and can swing/rock freely in the fish body cavity;

the sub-fish hanging part and the fish body hanging part comprise: hanging ring/hanging rod/hanging shaft/connecting ring/hanging hook/soft rope/spring/adhesive tape/soft cloth/soft film.

5. A replaceable, rotatable, swingable fish bait structure for a parent fish according to claim 1, wherein,

the front wall and/or the rear wall of the fish body cavity are provided with a front shaft hole and/or a front shaft rod and/or a rear shaft hole and/or a rear shaft rod and/or a telescopic shaft rod; the front part of the sub-fish shell is provided with a front shaft rod or a telescopic shaft rod or a front shaft hole of the sub-fish; the rear part of the sub-fish shell is provided with a rear shaft rod or a sub-fish rear shaft hole or a telescopic shaft rod;

the telescopic shaft rod or the front shaft rod or the rear shaft rod is respectively connected with the front shaft hole or the rear shaft hole in a matching rotation manner or in a detachable manner;

the front shaft hole of the sub-fish is rotationally connected or detachably connected with the front shaft rod or the telescopic shaft rod of the fish body;

the back shaft hole of the sub-fish is rotationally connected or detachably connected with the back shaft rod or the telescopic shaft rod of the fish body.

6. A replaceable, rotatable, swingable fish bait structure for a sub-fish according to claim 1, further comprising a rear swivel;

the rear rotating structure comprises a main shaft rod, and the main shaft rod is connected with the sub-fish shell or the rear shaft rod;

the rear rotating structure is also provided with a turbine disc and rear rotating blades; the turbine disc is connected with the rear part of the main shaft rod, and the rear rotating blades are connected with the turbine disc or the main shaft rod; the rear rotary blade is provided in one or more.

7. A replaceable, rotatable, swingable fish bait structure for a parent fish according to claim 1, wherein,

the rotor fish shell is provided with a rotary blade or a water retaining sheet outside, and the rotary blade is impacted by water flow to drive the rotor fish shell to rotate;

the shape of the rotating blade and the water retaining piece comprises bionic fish fins, fan blades and geometric shapes;

the rotary blades and the water retaining sheets are arranged outside the sub-fish shell in one or more rows.

8. A replaceable, rotatable, swingable fish bait structure for a parent fish according to claim 1, wherein,

the hollow sub-fish shell is solid or hollow, and a cavity is formed in the hollow sub-fish shell;

one or a plurality of impact parts are movably arranged in the cavity, and the impact parts comprise metal geometric bodies and/or nonmetal geometric bodies, natural particles, artificial synthetic particles and bell.

9. A replaceable, rotatable, swingable fish bait structure for a sub-fish according to claim 1, 5 or 8, wherein,

the left side and the right side of the sub-fish shell are consistent in correspondence with each other in terms of head and tail or the left side and the right side are reversed from head to tail, or the shapes and the forms of the left side and the right side are different.

10. A replaceable, rotatable, swingable fish bait structure for a sub-fish according to claim 1, wherein the sub-fish structure, the mother fish structure profile comprises a biomimetic and/or geometric and/or elephant shape or a combination thereof; the sub-fish structures, parent fish structures are at least partially transparent and/or reflective and/or fluorescent and/or surface coated.