CN110285370B - Fishing boat trapping lamp - Google Patents

Abstract

The invention provides a fishing boat trapping lamp which comprises a jellyfish wing, wherein the jellyfish wing is in an umbrella shape, an inner cabin is provided with a plurality of sliding grooves, a steering engine is arranged in each sliding groove and fixed with a jellyfish wing framework, a plurality of LED lamp beads are embedded in each jellyfish wing framework, the inner cabin is installed in a telescopic cabin, a group of symmetrically arranged wing assembling gear boxes are arranged in the telescopic cabin, a gear motor is arranged on each wing assembling gear box, a gliding wing is arranged on each gear motor, a circuit board is arranged above each wing assembling gear box, a positioning tracking module is arranged in the top of the inner cabin, and the positioning tracking module is connected with an industrial personal computer arranged on a fishing boat. Through simulating marine animals and utilizing phototaxis principle and different light sources, gather fish, shrimp etc. in the deep sea, then carry out position location through the industrial computer, the location tracking module that sets up on the bionical jellyfish formula trapping lamp moves to under the fishing net according to the position location, traps the operation.

Description

Fishing boat trapping lamp

Technical Field

The invention relates to the field of fishing boat lamps, in particular to a fishing boat trapping lamp.

Background

The purpose of using a fishing lamp in fishery operations is to gather as many target organisms as possible from a wider sea area around a ship into the operating range of a fishing tackle and to catch fish. The operation process of the fishery comprises a process of detecting a target organism (fish detection), a process of attracting and concentrating (fish collection) and a process of catching fish (fish catching), and the light of the fish collecting lamp is an important factor for controlling the fish catching efficiency.

In the prior art, for example, publication numbers are: the patent of "CN 201171318Y" discloses a variety of fish gathering lamp devices, which mainly comprises a hull, a plurality of fish gathering lamps are arranged on the hull along the edge of the hull, the fish gathering lamps are arranged at equal intervals and connected with the hull through a support, the distance between the fish gathering lamps and the side of the hull is 1.0-1.6m, and the distance between the fish gathering lamps and the deck of the hull is 2.0-3.0 m. According to the optical characteristics of the operation sea area and the phototaxis characteristics (namely the minimum illumination intensity of photoreaction) of a fishing object, the maximum suitable illumination range and the shade interface are obtained, the fishing yield is taken as a judgment target, and the optimal configuration of the fish gathering lamps is obtained through the combination and installation modes of different fish gathering lamps, so that the production cost is reduced, and the fishing yield is improved.

As disclosed in publication No.: the patent "CN 101068465A" discloses a fish gathering lamp device capable of gathering squid and the like over a wide range and fishing with high efficiency, and a fishing method using the same. The fish gathering lamp device of the technology is installed on a fishing boat, and utilizes light from the boat to gather squid, fish and the like, and a plurality of light sources with different light-emitting wave bands are arranged, and a light source with long light-emitting wavelength and a light source with short light-emitting wavelength are used for irradiating a sea surface area close to the fishing boat and a sea surface area far away from the fishing boat.

These are offshore or pond traps using light sources, which are not ideal for deep sea fishing.

In the prior art, some released underwater robots have appeared, for example, as disclosed in the publication:

"CN 105059512A" discloses a jellyfish formula bionic robot, characterized by: the device comprises a shell, a motion system and a tide direction judging system, wherein the shell is partitioned into a front water tank and a rear power generating tank by a partition plate, the motion system comprises a power supply, a speed reducing motor, a crank slide rod mechanism, a jellyfish type propeller blade, a steering engine and a rudder, the steering engine is positioned in the front water tank, the rudder is positioned outside the front water tank, the steering engine is connected with the rudder by a rudder rod, the power supply and the speed reducing motor are positioned in the power generating tank, the crank slide rod mechanism comprises a crank, a connecting rod, a slide rod, a first rocker and a second rocker, the speed reducing motor is simultaneously connected with the power supply and the crank, the crank is connected with the connecting rod, the connecting rod is connected with the slide rod, the slide rod is respectively connected with the first rocker and the second rocker, the jellyfish type propeller blade comprises a first propeller blade and a second propeller blade which are identical in structure, the first propeller blade comprises a first small blade and a second small blade, and, the first rocker is connected with the first propeller blade through a pin joint mechanism of the first propeller blade, the second rocker is connected with the second propeller blade through a pin joint mechanism of the second propeller blade, the first propeller blade and the second propeller blade are installed at the tail part of the power generation cabin, the crank and the connecting rod are located in the power generation cabin, the sliding rod extends out of the power generation cabin, the tidal current direction judging system comprises a water inlet cabin, a guide pipe, an impeller shell, an impeller and a drain pipe, the impeller is installed in the impeller shell, the water inlet cabin is communicated with the impeller shell through the guide pipe, the impeller shell is located in the power generation cabin, one part of the guide pipe is located in the preposed water cabin, the rest part of the guide pipe is located in the power generation cabin, the front end of the water inlet cabin extends out of the preposed water cabin and is provided with. The jellyfish type bionic robot aims at researching and developing a jellyfish type bionic robot which can autonomously judge the tide, can be propelled by depending on the tide, can hover for a long time in a fixed area to monitor the water flow change and find suspicious targets. The jellyfish type bionic robot is driven by a low-rotating-speed motor and ocean energy in a mixed mode, the advancing noise is small, the operation range is wide, the energy consumption is low, the multiple robots can achieve dense defense arrangement, long-term monitoring and early warning are conducted on a certain area, the problems of monitoring and environment monitoring of sea areas such as south sea island reefs and the like which are complex in marine environment, sensitive in situation and not suitable for large and medium military ships to enter are solved, the territorial sea and the island reefs in China are protected from being invaded, and ocean resources are prevented from being stolen. Meanwhile, the change of fish information in the area can be monitored, and fish shoals are driven by additionally arranging other equipment, so that fishery activities are smoothly developed.

The above-mentioned releasing robot has the function of driving fish, and can be used as a novel trapping device by using a conventional trapping lamp, and on the basis of this, it is a research subject to use the above-mentioned bionic robot as a trapping lamp.

Disclosure of Invention

In view of the above, the present invention provides a fishing boat trapping lamp.

The technical scheme adopted by the invention is as follows:

a fishing boat trapping lamp comprises

The jellyfish wing is umbrella-shaped, the top end of the head part of the jellyfish wing is provided with a mounting through hole,

the inner cabin is provided with a plurality of sliding chutes, steering engines are arranged in the sliding chutes,

the steering engine is fixed with the jellyfish wing framework, a plurality of LED lamp beads are embedded in the jellyfish wing framework,

a connecting rod is arranged along the top end of the inner cabin, a push rod is arranged at the bottom of the connecting rod, the bottom of the push rod is arranged on a push rod base, a shaft rod is arranged at the lower part of the push rod base, an air bag is arranged at the upper end of the push rod base along the axis of the connecting rod, the push rod and the shaft rod, a gravity adjusting device is arranged at the lower part of the push rod base by taking the shaft rod as the axis, a gravity adjusting gear is arranged at the lower part of the shaft rod, the gravity adjusting gear is meshed with a gravity power gear, the gravity power gear is arranged on a gravity adjusting motor,

the inner cabin is arranged in the telescopic bin, a group of symmetrically arranged wing assembling gear boxes are arranged in the telescopic bin, a gear motor is arranged on the wing assembling gear boxes, a gliding wing is arranged on the gear motor,

a circuit board is arranged above the wing assembly gear box,

a group of bidirectional shaft brackets are arranged between the wing assembling gear boxes, a bidirectional shaft assembly is arranged between the bidirectional shaft brackets, the bidirectional shaft assembly is fixed with a first gear arranged on the bidirectional shaft brackets, the first gear is meshed with a second gear,

a CTD shell, wherein telescopic positioning grooves are arranged at two sides of the CTD shell, a first rack and a second rack are respectively arranged in the telescopic positioning grooves, the first rack and the second rack are correspondingly engaged with a first gear and a second gear,

the top of the inner cabin is internally provided with a positioning and tracking module which is connected with an industrial personal computer arranged on a fishing boat.

Preferably, jellyfish wing and jellyfish wing skeleton adopt transparent material to make, LED lamp pearl embedding is on jellyfish wing skeleton.

Preferably, the upper end of the jellyfish wing framework is provided with a fixed seat, the fixed seat is used for fixing the steering engine, a fixed pin is arranged on the fixed seat, and the fixed pin is used for being fixed with a mounting frame arranged on the mounting through hole.

Preferably, the bottom in flexible storehouse is provided with the battery, and the waterproofing membrane has been plated to the outside of this battery, the battery passes through waterproof cable and circuit board electric connection, the waterproofing membrane has been plated on the surface of circuit board, and battery and circuit board are respectively through waterproof cable and LED lamp pearl, gravity accommodate motor and gear motor electric connection.

Preferably, the gravity adjusting device comprises a gravity piece shell, the gravity piece shell is provided with a notch, and a plurality of gravity piece assemblies which are arranged in a vertically staggered mode are arranged along the notch.

Preferably, the gravity piece assembly comprises a fixed gravity piece and a movable gravity piece, the fixed gravity piece and the movable gravity piece are arranged at intervals and in a staggered mode from top to bottom, a gravity piece mounting hole is formed in the middle of the fixed gravity piece and the movable gravity piece, and the gravity piece mounting hole is formed in the shaft rod.

Preferably, a thermohaline is arranged inside the CTD shell.

Preferably, two axial motion motors are arranged inside the bidirectional shaft assembly, transmission shafts are arranged on the axial motion motors, and the transmission shafts are respectively fixed with the first gear or the second gear.

Preferably, the inner wall of the telescopic bin is provided with a sliding rail matched with the sliding groove, and the sliding groove is internally provided with a positioning groove.

Preferably, a group of the symmetrically arranged sliding rails is provided with a gliding wing fixing groove.

The bionic jellyfish type trapping lamp is different from the traditional trapping lamp in that the bionic jellyfish type trapping lamp can gather fish, shrimps and the like in deep sea by simulating marine animals and utilizing a phototaxis principle and different light sources, then the position of the fish, the shrimps and the like is positioned by an industrial personal computer, and a positioning tracking module arranged on the bionic jellyfish type trapping lamp moves to a position below a fishing net according to the position positioning to perform trapping operation.

Drawings

In order to more clearly illustrate the embodiments of the present invention 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 is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of the explosive structure of the present invention;

FIG. 3 is a schematic view of the internal structure of the present invention;

FIG. 4 is a schematic view of the upper portion of the internal structure of the present invention;

FIG. 5 is a schematic view of the combination of the inner chamber and the telescopic bin of the present invention;

fig. 6 is a schematic view of a lower portion of the internal structure of the present invention.

Detailed Description

The present invention will now be described in detail with reference to the drawings and specific embodiments, wherein the exemplary embodiments and descriptions of the present invention are provided to explain the present invention without limiting the invention thereto.

Referring to fig. 1-6, the invention specifically discloses a fishing boat trapping lamp.

The technical scheme adopted by the invention is as follows:

a fishing boat trapping lamp comprises

A jellyfish wing 1, the jellyfish wing 1 is umbrella-shaped, the top end of the head of the jellyfish wing 1 is provided with a mounting through hole,

the inner cabin 2 is provided with a plurality of sliding chutes 20, the steering engine 50 is arranged in the sliding chutes 20,

the steering engine 50 is fixed with the jellyfish wing framework 51, a plurality of LED lamp beads 520 are embedded in the jellyfish wing framework 51, the LED lamp beads 520 are a plurality of light sources with different light-emitting wave bands, and by means of the phototaxis principle, fish, shrimps and the like in deep sea can be gathered. In the invention, the jellyfish wing 1 and the jellyfish wing framework 51 are made of transparent materials, and the LED lamp beads 520 are embedded in the jellyfish wing framework 51, so that the sealing property and the light conductivity of the jellyfish wing framework can be optimal, and preferably, the jellyfish wing framework is made of transparent glass. The upper end of jellyfish wing framework 51 is provided with the fixing base, the fixing base is used for steering wheel 50 fixed, is provided with the fixed pin on the fixing base, the fixed pin is used for with set up the mounting bracket on the mounting hole fixed.

A connecting rod is arranged along the top end of the inner chamber 2, a push rod 52 is arranged at the bottom of the connecting rod, the bottom of the push rod 52 is arranged on a push rod base 53, a shaft rod 60 is arranged at the lower part of the push rod base 53, and an air bag 5 is arranged at the upper end of the push rod base along the connecting rod, the push rod 52 and the shaft rod 53 as an axis and realizes the elastic action by utilizing the mobility of seawater.

A gravity adjusting device 6 is arranged at the lower part of the push rod base 53 by taking a shaft rod 60 as an axis, a gravity adjusting gear 61 is arranged at the lower part of the shaft rod 60, the gravity adjusting gear 61 is meshed with a gravity power gear 70, the gravity power gear 70 is arranged on a gravity adjusting motor 7,

the inner cabin 2 is arranged in the telescopic bin 3, a group of wing assembling gear boxes 101 which are symmetrically arranged are arranged in the telescopic bin 3, a gear motor 100 is arranged on the wing assembling gear boxes 101, a gliding wing 10 is arranged on the gear motor 100,

above the wing-mounted gear box 100 is provided a circuit board 8,

a set of bidirectional shaft brackets are arranged between the wing assembly gear boxes 100, a bidirectional shaft assembly 9 is arranged between the bidirectional shaft brackets, the bidirectional shaft assembly 9 is fixed with a first gear 93 arranged on the bidirectional shaft brackets, the first gear 93 is meshed with a second gear 92,

a CTD shell 90, wherein the two sides of the CTD shell 90 are provided with telescopic positioning grooves, a first rack 94 and a second rack 91 are respectively arranged in the telescopic positioning grooves, the first rack 94 and the second rack 91 are correspondingly engaged with a first gear 93 and a second gear 92,

the top of the inner cabin 2 is internally provided with a positioning and tracking module which is connected with an industrial personal computer arranged on a fishing boat.

The bottom in flexible storehouse 3 is provided with battery 4, and the waterproofing membrane has been plated to this battery 4's outside, battery 4 passes through waterproof cable and circuit board 8 electric connection, the waterproofing membrane has been plated on circuit board 8's surface, and battery 4 and circuit board 8 are respectively through waterproof cable and LED lamp pearl 520, gravity accommodate motor 7, axial motion motor and gear motor 100 electric connection.

The gravity adjusting device 6 comprises a gravity piece shell, the gravity piece shell is provided with a notch, and a plurality of gravity piece assemblies which are arranged in a vertically staggered mode are arranged along the notch.

The gravity piece subassembly includes decides gravity piece and dynamic gravity piece 62, decide interval and dislocation set about gravity piece and dynamic gravity piece 62, be provided with the gravity piece mounting hole in the middle of gravity piece and the dynamic gravity piece 62, the gravity piece mounting hole is installed on axostylus axostyle 60.

The inside of CTD shell 90 is provided with the warm salt depth appearance. The CTD is a detecting instrument for detecting information such as temperature, salinity, depth and the like of seawater.

Two axial motion motors are arranged inside the bidirectional shaft assembly 9, a transmission shaft 96 is arranged on each axial motion motor, and the transmission shaft 96 is fixed with the first gear 93 or the second gear 92 respectively.

The inner wall of the telescopic bin 3 is provided with a slide rail 30 matched with the slide groove, and a group of slide rails 30 which are symmetrically arranged are provided with gliding wing fixing grooves 31.

A positioning groove 21 is arranged in the sliding groove, and the positioning groove 21 is used for positioning and limiting the sliding rail 30.

The specific motion principle is as follows: when trapping is carried out, a plurality of bionic jellyfish type trapping lamps are placed underwater, position positioning is carried out through an industrial personal computer, when underwater moves, the axial movement motor is controlled to drive the transmission shaft 96 to rotate forwards and backwards at intervals, the first rack 94 and the second rack 91 move up and down at intervals, the inner cabin 2 is propped against to move in the telescopic cabin 3 in a telescopic mode, the telescopic motion enables the jellyfish wing 1 to move back and forth, a jellyfish-like motion mode is formed, and the motion of the bionic jellyfish type trapping lamps at the water bottom can be accelerated by utilizing the gear motor 100 to drive the gliding wings 10 to move.

In addition to the above arrangement, the present invention provides an air bag 5 in the inner chamber, which utilizes the fluidity of seawater and its own elasticity to achieve the elastic action. The protection of the internal components is ensured during the telescopic movement. The air bag 5 is cylindrical and wraps a connecting rod, a push rod, a shaft rod and components on the shaft rod, wherein the connecting rod, the push rod and the shaft rod are arranged at the upper end of the air bag.

In order to ensure the motion balance of the bionic jellyfish type trapping lamp under water, the bionic jellyfish type trapping lamp is further provided with a gravity adjusting device 6 which comprises a gravity piece shell, wherein the gravity piece shell is provided with a gap, and a plurality of gravity piece assemblies which are arranged in a vertically staggered mode are arranged along the gap. The gravity piece subassembly includes decides gravity piece and dynamic gravity piece 62, decide interval and dislocation set about gravity piece and dynamic gravity piece 62, decide the middle gravity piece mounting hole that is provided with of gravity piece and dynamic gravity piece 62, the gravity piece mounting hole is installed on axostylus axostyle 60.

The gravity adjusting motor 7 acts to drive the gravity power gear 70 to rotate, the gravity power gear 70 drives the gravity adjusting gear 61 to rotate, the gravity adjusting gear 61 rotates to drive the shaft rod to rotate, the fixed gravity piece arranged on the shaft rod does not move, the dynamic gravity piece 62 swings around the shaft rod, gravity adjustment is carried out through swinging, and a balance effect is kept.

The bionic jellyfish type trapping lamp is different from the traditional trapping lamp in that the bionic jellyfish type trapping lamp can gather fish, shrimps and the like in deep sea by simulating marine animals and utilizing a phototaxis principle and different light sources, then the position of the fish, the shrimps and the like is positioned by an industrial personal computer, and a positioning tracking module arranged on the bionic jellyfish type trapping lamp moves to a position below a fishing net according to the position positioning to perform trapping operation.

The technical solutions disclosed in the embodiments of the present invention are described in detail above, and the principles and embodiments of the present invention are explained in the present document by using specific embodiments, and the descriptions of the embodiments are only used to help understanding the principles of the embodiments of the present invention; meanwhile, for a person skilled in the art, according to the embodiments of the present invention, there may be variations in the specific implementation manners and application ranges, and in summary, the content of the present description should not be construed as a limitation to the present invention.

Claims (10)

1. A fishing boat trapping lamp is characterized by comprising

The jellyfish wing is umbrella-shaped, the top end of the head part of the jellyfish wing is provided with a mounting through hole,

the inner cabin is provided with a plurality of sliding chutes, steering engines are arranged in the sliding chutes,

the steering engine is fixed with the jellyfish wing framework, a plurality of LED lamp beads are embedded in the jellyfish wing framework,

a connecting rod is arranged along the top end of the inner cabin, a push rod is arranged at the bottom of the connecting rod, the bottom of the push rod is arranged on a push rod base, a shaft rod is arranged at the lower part of the push rod base, an air bag is arranged at the upper end of the push rod base along the axis of the connecting rod, the push rod and the shaft rod, a gravity adjusting device is arranged at the lower part of the push rod base by taking the shaft rod as the axis, a gravity adjusting gear is arranged at the lower part of the shaft rod, the gravity adjusting gear is meshed with a gravity power gear, the gravity power gear is arranged on a gravity adjusting motor,

the inner cabin is arranged in the telescopic bin, a group of symmetrically arranged wing assembling gear boxes are arranged in the telescopic bin, a gear motor is arranged on the wing assembling gear boxes, a gliding wing is arranged on the gear motor,

a circuit board is arranged above the wing assembly gear box,

a group of bidirectional shaft brackets are arranged between the wing assembling gear boxes, a bidirectional shaft assembly is arranged between the bidirectional shaft brackets, the bidirectional shaft assembly is fixed with a first gear arranged on the bidirectional shaft brackets, the first gear is meshed with a second gear,

a CTD shell, wherein telescopic positioning grooves are arranged at two sides of the CTD shell, a first rack and a second rack are respectively arranged in the telescopic positioning grooves, the first rack and the second rack are correspondingly engaged with a first gear and a second gear,

the top of the inner cabin is internally provided with a positioning and tracking module which is connected with an industrial personal computer arranged on a fishing boat.

2. The fishing boat trapping lamp according to claim 1, wherein the jellyfish wings and the jellyfish wing framework are made of transparent materials, and the LED lamp beads are embedded in the jellyfish wing framework.

3. The fishing boat trapping lamp according to claim 1, wherein a fixing seat is arranged at the upper end of the jellyfish wing framework, the fixing seat is used for fixing the steering engine, and a fixing pin is arranged on the fixing seat and is used for fixing with a mounting rack arranged on the mounting through hole.

4. The fishing boat trapping lamp according to claim 1, wherein the bottom of the telescopic bin is provided with a battery, the outside of the battery is plated with a waterproof film, the battery is electrically connected with the circuit board through a waterproof cable, the surface of the circuit board is plated with the waterproof film, and the battery and the circuit board are electrically connected with the LED lamp bead, the gravity adjusting motor and the gear motor through the waterproof cable respectively.

5. A fishing boat trap light of claim 1, wherein the gravity adjustment device comprises a gravity piece housing having a gap along which a plurality of gravity piece assemblies are disposed in an offset up and down arrangement.

6. The fishing boat trapping lamp according to claim 5, wherein the gravity piece assembly comprises a fixed gravity piece and a movable gravity piece, the fixed gravity piece and the movable gravity piece are arranged in a staggered manner at intervals from top to bottom, a gravity piece mounting hole is formed between the fixed gravity piece and the movable gravity piece, and the gravity piece mounting hole is mounted on the shaft rod.

7. A fishing vessel trapping light according to claim 1, wherein inside the CTD housing is provided a thermohaline gauge.

8. The fishing boat trapping lamp according to claim 1, wherein two axial movement motors are arranged inside the bidirectional shaft assembly, and transmission shafts are arranged on the axial movement motors and are respectively fixed with the first gear or the second gear.

9. A fishing boat trapping lamp according to claim 1, wherein the inner wall of the telescopic bin is provided with a sliding rail matching with a sliding groove, and a positioning groove is arranged in the sliding groove.

10. A fishing vessel trapping lamp according to claim 9, wherein a set of symmetrically arranged said sliding rails are provided with glider wing fixing slots.

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