CN211430691U - Bionic bait capable of moving automatically - Google Patents

Abstract

The utility model belongs to the technical field of bionic bait, in particular to a bionic bait capable of swimming automatically, a capsule body is arranged in a main shell, and the capsule body comprises a bottom cavity, a left cavity, a motor cavity and an impeller cavity; the bottom cavity is positioned at the bottom of the whole capsule body, the left cavity is positioned at the left side of the whole capsule body, and the bottom cavity and the left cavity are respectively provided with a counterweight; the motor cavity is positioned in the impeller cavity and close to the head shell, and the upper part and the lower part of the motor cavity are parts of the impeller cavity; the motor and the power supply are fixed in the motor cavity, the motor and the power supply are electrically connected, the tail end of the motor is fixedly connected with the impeller through the output shaft, water inlet holes are uniformly distributed in the part, close to the head shell, of the impeller cavity, and water outlet holes are uniformly distributed in the part, close to the tail shell, of the impeller cavity. Compared with the prior art, the utility model has the following advantages: the utility model discloses in through set up the utricule in main casing internal structure to through reasonable utricule inner structure that sets up, can realize that the emulation bait advances according to certain orbit, operation method is simple, and application scope is wide.

Description

Bionic bait capable of moving automatically

Technical Field

The utility model belongs to the technical field of bionic bait, concretely relates to bionic bait that can move about by oneself.

Background

The lure fishing method is a fishing method for simulating the attack of big fish caused by weak and small living things, usually adopts artificial bait with different shapes of small fish, gecko, maggot and the like, and has sinking and floating properties, the main material of the artificial bait is soft rubber, when a fisher grasps a certain skill, the artificial bait can slowly swim in water like real small fish or worm, the simulation degree is good, but the requirement on the manipulation method of the fisher is higher, and the artificial bait cannot realize the effect of a new hand for fishing, so the simulated bait should be designed for the new hand for fishing with poor manipulation method to expand the application range of the artificial bait.

SUMMERY OF THE UTILITY MODEL

The utility model aims at having the bionic bait to ask for the fisherman to be higher now, the problem that the new hand of fishing can't use provides one kind and can sink the bionic bait to a position, its slow forward motion of remote control realizes moving about by oneself, plays the effect of imitating little fish or worm, and then can effectively attract big fish, provides the bionic bait that can move about by oneself.

The utility model discloses a realize through following technical scheme: a bionic bait capable of swimming automatically comprises a fish-shaped shell, wherein the fish-shaped shell is divided into a head shell, a main shell and a tail shell, annular connecting pieces are arranged at the adjacent positions of the head shell, the main shell and the tail shell, and the annular connecting pieces are connected by a ring body; the front end of the head shell, the lower end of the main shell and the tail end of the tail shell are provided with splayed rings for connecting a hook or a fishing line, a capsule body is arranged in the main shell, and the capsule body is divided into a plurality of inner cavities by interlayers and comprises a bottom cavity, a left cavity, a motor cavity and an impeller cavity; the bottom cavity is positioned at the bottom of the whole capsule body, the left cavity is positioned at the left side of the whole capsule body, and the bottom cavity and the left cavity are respectively provided with a counterweight; the motor cavity is positioned in the impeller cavity and close to the head shell, and the upper part and the lower part of the motor cavity are parts of the impeller cavity; the motor and the power supply are fixed in the motor cavity, the motor and the power supply are electrically connected, the tail end of the motor is fixedly connected with the impeller through the output shaft, water inlet holes are uniformly distributed in the part, close to the head shell, of the impeller cavity, and water outlet holes are uniformly distributed in the part, close to the tail shell, of the impeller cavity.

Specifically, the output shaft of motor is located the right side of fish shape casing, the weight in the end intracavity is heavier than the weight in left intracavity, can guarantee that bionical bait inclines to the left side, because the impeller is on the right side, and the impeller rotates, then can be because the bionical bait of drive moves left, slow motion in certain extent, and then realizes imitating little fish or worm motion.

Specifically, the aperture of the water outlet is larger than that of the water inlet; can ensure that the water in the impeller cavity can be smoothly discharged, thereby ensuring that the simulated bait moves forwards.

Specifically, a control device for controlling the operation of the motor is arranged in the motor cavity; the remote control device is in signal connection with the control device and is used for transmitting control instructions, furthermore, infrared rays are used as a transmission medium between the remote control device and the control device, an infrared transmitter is arranged in the remote control device, and an infrared receiver is arranged in the control device; the infrared communication has the characteristics of simple control, convenient implementation and high transmission reliability.

In practical application, the bionic bait is slightly inclined leftwards, the driving structure is close to the right, and the appearance structure of the bionic bait can be correspondingly adjusted according to actual requirements; the simulated bait is made of soft rubber; the bionic bait is divided into a plurality of parts and connected by the ring body, so that the flexibility of the bionic bait in swimming can be improved.

Compared with the prior art, the utility model has the following advantages: the utility model can realize the advance of the simulated bait according to a certain track by arranging the capsule in the main shell and reasonably arranging the internal structure of the capsule, and can remotely control the simulated bait after sinking the simulated bait to a certain depth when a novice fishes, so that the simulated bait simulates the movement of small fishes or insects; the power of the motor can generate weak water waves and sound, can attract different big fish, and simultaneously avoids scare of the big fish caused by overlarge sound or overlarge vibration, and the operation method is simple and wide in application range.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a right side view of the present invention.

Fig. 3 is a bottom view of fig. 2.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1-3, a bionic bait capable of swimming automatically comprises a fish-shaped shell, wherein the fish-shaped shell is divided into a head shell 1, a main shell 2 and a tail shell 3, the adjacent positions of the head shell 1, the main shell 2 and the tail shell 3 are provided with an annular connecting piece 12, and the annular connecting pieces 12 are connected by a torus; the front end of the head shell 1, the lower end of the main shell 2 and the tail end of the tail shell 3 are provided with splayed rings 11 for connecting a hook or a fishing line, the main shell 2 is internally provided with a capsule 4, and the capsule 4 is internally divided into a plurality of inner cavities by interlayers, wherein each inner cavity comprises a bottom cavity 41, a left cavity 42, a motor cavity 43 and an impeller cavity 44; the bottom cavity 41 is positioned at the bottom of the whole capsule body, the left cavity 42 is positioned at the left side of the whole capsule body 4, and the bottom cavity 41 and the left cavity 42 are respectively provided with a weight member (not shown in the figure); the motor cavity 43 is positioned in the impeller cavity 44 and close to the head shell 1, and the upper part and the lower part of the motor cavity 43 are parts of the impeller cavity 44; the motor 5 and the power supply 6 are fixed in the motor cavity 43, the motor 5 is electrically connected with the power supply 6, the tail end of the motor 5 is fixedly connected with the impeller 7 through an output shaft, water inlet holes 441 are uniformly distributed on the part, close to the head shell 1, of the impeller cavity 44, and water outlet holes 442 are uniformly distributed on the part, close to the tail shell 3, of the impeller cavity 44; the output shaft of the motor 5 is positioned on the right side of the fish-shaped shell, the weight member in the bottom cavity 41 is heavier than the weight member in the left cavity 42, so that the bionic bait can be ensured to incline to the left side, and the impeller 7 rotates due to the fact that the impeller 7 is positioned on the right side, so that the bionic bait is driven to move leftwards and slowly moves within a certain range, and further small fish or insect motion simulation is realized; the aperture of the water outlet hole 442 is larger than that of the water inlet hole 441; the water in the impeller cavity 44 can be discharged smoothly, and the simulated bait can move forwards; a control device for controlling the operation of the motor 5 is arranged in the motor cavity 43; the remote control device is in signal connection with the control device and is used for transmitting control instructions, infrared rays are used as a transmission medium between the remote control device and the control device, an infrared transmitter is arranged in the remote control device, and an infrared receiver is arranged in the control device; the infrared communication has the characteristics of simple control, convenient implementation and high transmission reliability.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. A bionic bait capable of swimming automatically comprises a fish-shaped shell, wherein the fish-shaped shell is divided into a head shell, a main shell and a tail shell, annular connecting pieces are arranged at the adjacent positions of the head shell, the main shell and the tail shell, and the annular connecting pieces are connected by a ring body; the fishing line bag is characterized in that a bag body is arranged in the main shell, and the bag body is divided into a plurality of inner cavities by interlayers, wherein each inner cavity comprises a bottom cavity, a left cavity, a motor cavity and an impeller cavity; the bottom cavity is positioned at the bottom of the whole capsule body, the left cavity is positioned at the left side of the whole capsule body, and the bottom cavity and the left cavity are respectively provided with a counterweight; the motor cavity is positioned in the impeller cavity and close to the head shell, and the upper part and the lower part of the motor cavity are parts of the impeller cavity; the motor and the power supply are fixed in the motor cavity, the motor and the power supply are electrically connected, the tail end of the motor is fixedly connected with the impeller through the output shaft, water inlet holes are uniformly distributed in the part, close to the head shell, of the impeller cavity, and water outlet holes are uniformly distributed in the part, close to the tail shell, of the impeller cavity.

2. The self-swimming bionic bait according to claim 1, wherein the output shaft of the motor is positioned at the right side of the fish-shaped shell.

3. The self-swimming biomimetic fishing lure according to claim 1, wherein the weight member in the bottom chamber is heavier than the weight member in the left chamber.

4. The self-swimming bionic bait according to claim 1, wherein the diameter of the water outlet is larger than that of the water inlet.

5. The self-swimming bionic bait according to claim 1, wherein a control device for controlling the operation of the motor is arranged in the motor cavity.

6. The self-swimming bionic fishing lure according to claim 5, further comprising a remote control device in signal connection with the control device for transmitting control instructions.

7. The self-swimming bionic bait according to claim 6, wherein infrared rays are used as a transmission medium between the remote control device and the control device.

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