CN214745369U - Novel laser fish gathering lamp based on bionic machine squid - Google Patents

Abstract

The utility model discloses a novel laser fishing lamp based on bionical machine squid. The novel laser fish gathering lamp comprises a buoyancy frame, a lamp body bearing part and a lamp body end, wherein the lamp body bearing part comprises a chassis, a heat dissipation cabin, a waterproof sealing cabin and a control mechanism, the buoyancy frame is connected with the lamp body bearing part through a threaded fastener and fastened outside the lamp body bearing part, the lamp body end comprises a power source and a flexible tail part, and the lamp body end is connected with the rear of the lamp body bearing part through the threaded fastener on the power source. The outer cover of the chassis of lamp body bearing part has the covering, extends to flexible afterbody front end makes a novel fish gathering lamp based on bionical machine squid wholly be streamlined. The utility model discloses utilize transparent ceramic exciting light wick, can regulate and control light intensity in a flexible way, combine bionic technique, regulate and control light control range in a flexible way realizes the fish luring and the integration of fish gathering of directionality, has high efficiency, energy-conservation, high bionic's characteristics.

Description

Novel laser fish gathering lamp based on bionic machine squid

Technical Field

The utility model relates to an equipment and ocean fishery equipment field are traped to the animal, a novel laser fishing lamp based on bionical machine squid of specific design.

Background

The light-induced fishery uses the phototaxis habit of the fishing objects, lures the fishing objects by using lights and then uses a net, a fish pump or a fishing tackle to catch the fishing objects, and the underwater fishing lamp is widely applied to squid fishing operation in the 20 th century and the 90 th year. However, under the background of the lack of energy sources and the high price of fuel oil in the world, the power of a fishing boat host and the light power are continuously increased due to blind competition among enterprises, so that the production cost is greatly increased, the fishing yield is not increased, and great loss is caused.

The existing LED underwater fish gathering lamp has the problems of serious light attenuation, large energy consumption and the like, and is not really applied yet, and the laser transparent ceramic has good material and optical characteristics, has the advantages of high doping concentration, short preparation period, low production cost, large-scale production and the like, and becomes a laser material with better prospect after single crystals and glass. In recent years, the research on ceramic lasers at home and abroad is more concerned and has made a great progress, and with the further development of the preparation process, the ceramic lasers have better development prospects.

In addition, at present, the research on the bionic robot fish at home and abroad is developing at a high speed, the bionics becomes a very hot topic, and the ceramic laser and the technology of the bionic robot fish are combined, so that the outstanding effects of environment co-fusion and fish collection and fish luring integration can be achieved, and the trend of the development of various fish collection lamps in the future is also shown.

Disclosure of Invention

An object of the utility model is to provide a novel laser fishing lamp based on bionical machine squid utilizes transparent ceramic exciting light wick, can regulate and control light intensity and light irradiation range in a flexible way, realizes directional fish luring and fish gathering integrated design to solve among the prior art weak points such as the energy is extravagant, the fish catch volume is not enough.

The utility model discloses a realize through following technical scheme:

the utility model provides a novel laser fishing lamp based on bionical machine squid, includes buoyancy frame, lamp body supporting part, lamp body end, lamp body supporting part includes chassis, heat dissipation cabin, waterproof seal cabin and control mechanism, buoyancy frame passes through threaded fastener and links to each other with lamp body supporting part to fasten in the lamp body supporting part outside, the lamp body end includes power supply and flexible afterbody, and the lamp body end is connected with lamp body supporting part rear through the threaded fastener on the power supply. The outer cover of the chassis of lamp body bearing part has the covering, extends to flexible afterbody front end makes novel fish gathering lamp based on bionic machine squid is whole to be streamlined.

Further, the buoyancy frame is composed of buoyancy materials, a rubber ring and a connecting piece, the buoyancy materials comprise a first buoyancy material, a second buoyancy material, a third buoyancy material and a fourth buoyancy material, the buoyancy material is in a hollow disc shape, the inner diameter of the buoyancy material is the same as the radius of the lamp body bearing part, the buoyancy material and the lamp body bearing part are oppositely arranged and spaced at the same distance, the connecting piece is in a shape of a long and thin straight rod, six mounting holes are reserved on the buoyancy material, the caliber of each mounting hole is the same as the diameter of the connecting piece, the connecting piece is connected with the buoyancy material through the mounting holes and welded with the buoyancy material, a first rubber ring and a second rubber ring are embedded between the second buoyancy material and the lamp body bearing part, the second buoyancy material is positioned between the first rubber ring and the second rubber ring, the third buoyancy material with it has third rubber circle and fourth rubber circle to inlay between the lamp body portion of bearing, and the third buoyancy material is located between third rubber circle and the fourth rubber circle. And four threaded holes are formed in the fourth buoyancy material and are connected with the sealing cover through threaded fasteners.

Furthermore, the top end of the lamp body bearing part is conical, and the lamp body bearing part is in a cylindrical shape in backward transition and comprises a chassis, a heat dissipation cabin, a waterproof sealing cabin and a control mechanism. The chassis comprises a convex round block, a third sealing ring, a lifting ring, a sealing cover and two waterproof sealing joints. The heat dissipation cabin comprises a shell, a first flange ring, a first sealing ring, a first water jet propeller and a second water jet propeller. The waterproof sealed cabin comprises a pressure-resistant transparent glass cover, a second flange ring and a second sealing ring. The control mechanism is internally provided with a transparent ceramic exciting light wick, a reflecting cup, a control element and a power supply device. The control mechanism is positioned in the waterproof sealed cabin, and the waterproof sealed cabin is positioned in the heat dissipation cabin.

Furthermore, the chassis comprises protruding type circle piece, third sealing washer, rings, closing cap, two waterproof sealing joint. The sealing cover is divided into four circular areas with different sizes from inside to outside by taking the threaded holes as boundaries, the first area is provided with three pairs of threaded holes, the second area is provided with three pairs of threaded holes and through holes with symmetrical axes, and the through holes are used for placing waterproof sealing joints. The third area is provided with three pairs of threaded holes, and two through holes which are symmetrical in longitudinal axis and are used as water outlets. The fourth area is provided with two groups of threaded holes which are mutually symmetrical. The edge of the convex round block is provided with two axisymmetric semicircular holes which are two wiring holes and used for leading out data lines of power supply equipment and control elements, the convex round block is provided with three pairs of mounting holes and is mounted in the first area of the sealing cover through a threaded fastener, and the third sealing ring is positioned between the convex round block and the sealing cover. The bottom of the sealing cover is provided with a rectangular mounting groove and a square mounting groove, four threaded holes are formed in the rectangular mounting groove, a threaded hole is formed in the side wall of the square mounting groove, and the hanging ring is mounted in the square mounting groove through a threaded fastener.

Further, the heat dissipation cabin comprises a shell, a first flange ring and a first sealing ring. The water jet propeller is characterized in that the shell is made of high-pressure-resistant glass, two tangent plane grooves with certain inclination angles are formed in the rear portion of the shell, the tangent plane grooves form an axisymmetric structure relative to the central axis of the shell, and two pairs of threaded holes are formed in the tangent plane grooves and used for mounting a water jet propeller. The water-jet propeller is provided with two pairs of threaded holes, the two pairs of threaded holes are matched and fixed in a tangent plane groove through threaded fasteners, a steering nozzle of the first water-jet propeller is coaxial with the first water outlet, and a steering nozzle of the second water-jet propeller is coaxial with the second water outlet. The conical top end of the shell is provided with three through holes which penetrate in a circumferential array and are water inlets. The caliber of the water inlet is larger than that of the water outlet. The first sealing ring is nested at the bottom of the shell, a mounting hole is formed in the first flange ring, the shell is mounted in a third area of the sealing cover through the first flange ring and the threaded fastener, and the first sealing ring is located between the first flange ring and the sealing cover.

Furthermore, the waterproof sealed cabin comprises a pressure-resistant transparent glass cover, a second flange ring and a second sealing ring. The front end of the pressure-resistant transparent glass cover is in a solid hemispherical shape and becomes a convex lens, and the rear half part of the pressure-resistant transparent glass cover is in a hollow cylindrical shape and is made of transparent glass. The second sealing ring is nested at the bottom of the pressure-resistant transparent glass cover, a mounting hole is formed in the second flange ring, the pressure-resistant transparent glass cover is mounted in a second area of the sealing cover through the second flange ring and the threaded fastener, and the second sealing ring is located between the second flange ring and the sealing cover.

Furthermore, the control mechanism is internally provided with a transparent ceramic exciting light lamp wick, a reflecting cup, a control element and a power supply device. The transparent ceramic exciting light wick is positioned in the reflecting cup, the reflecting cup is fixed on a connecting interface of the pressure-resistant transparent glass cover cylinder and the semicircular convex lens, the transparent ceramic exciting light wick is in an axisymmetric circumferential array, the power supply equipment is formed by stacking a plurality of lithium battery circumferential arrays up and down, the control element is arranged above the power supply equipment and is adhered with the power supply equipment, and the power supply equipment is fixed on the convex round block.

Furthermore, the transparent ceramic exciting light wick is located in a reflecting cup, the reflecting cup is designed by adopting a parabolic curved surface, the reflecting cup is located behind the convex lens, the middle of the convex lens is thick, the two sides of the convex lens are thin, and the convex lens, the reflecting cup and the transparent ceramic exciting light wick are sequentially arranged from front to back.

Further, the lamp body is terminal including power supply and flexible afterbody, flexible afterbody is pour by flexible material and is formed, and the appearance is similar with squid and touches the whole form of wrist, and the front end is the ellipse, extends backward and handing over in a little gradually, overlooks the cross-section and is the toper. The power source comprises a first driver support, a second driver support and a power source main body, the second driver support is fixed with the rectangular mounting groove at the bottom of the sealing cover through a threaded fastener, the first driver support is made to penetrate through a material when the flexible tail is poured and is embedded into the flexible tail, and the lamp body bearing part is connected with the tail end of the lamp body.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) the utility model relates to a novel laser fishing lamp based on bionic machine squid provides a novel underwater fishing device, realizes shoal of fish lures and gathers through carrying on underwater fishing light source.

(2) The utility model discloses applied the biotechnology, created the environment and united the nature strong, can orientate the fish gathering, lure the underwater fish gathering equipment of fish, stronger to the induced ability of shoal of fish, the flexibility is higher.

(4) The utility model discloses the form of imitative biological squid, the totality is streamlined. The cross sections of the floating platform become smaller from the top to the tail end in sequence, so that the resistance in water is reduced, the energy is saved, and the swimming efficiency is improved.

(5) The utility model discloses applied transparent ceramic laser wick, can adjusted the intensity of light, illumination scope, changed luminous flux, realized luring the collection to the high efficiency of shoal of fish.

(6) The utility model discloses fully consider the heat dissipation problem lamp body bearing part designs water inlet and delivery port, through the circulation of hot and cold water, realizes the cooling. Install water jet propulsion additional, through its thrust, promote moving about of novel fishing lamp when carrying out hydrologic cycle, improved the motion efficiency.

Drawings

Fig. 1 is the utility model relates to a novel laser fishing lamp's overall structure schematic diagram based on bionical machine squid.

Fig. 2 is the utility model relates to a structural schematic diagram of novel laser fishing lamp buoyancy frame based on bionical machine squid.

Fig. 3 is the utility model relates to a structure schematic diagram of novel laser fishing lamp body bearing part based on bionic machine squid.

Fig. 4 is the utility model relates to a structural schematic diagram on novel laser fishing lamp chassis based on bionical machine squid.

Fig. 5 is the utility model discloses a structural schematic diagram of novel laser fishing lamp heat dissipation cabin based on bionical machine squid.

Fig. 6 is the utility model relates to a structural schematic of an assembly relation between novel laser fishing lamp shell and water jet based on bionical machine squid.

Fig. 7 is the utility model relates to a novel laser fishing lamp waterproof sealing cabin's structural schematic based on bionical machine squid.

Fig. 8 is the utility model relates to a novel laser fishing lamp control part's structural schematic diagram based on bionical machine squid.

Fig. 9 is the utility model relates to a terminal schematic structure of novel laser fishing lamp body based on bionical machine squid.

The symbols in the figures represent: a buoyant frame 1000; a lamp body bearing portion 2000; a lamp body end 3000; a first buoyant material 1001; a first rubber ring 1002; a second buoyant material 1003; a second rubber ring 1004; a third rubber ring 1005; a third buoyant material 1006; a fourth rubber ring 1007; a connecting member 1008; a fourth buoyant material 1009; a chassis 2100; a threaded fastener 2101; a male nub 2102; a third seal 2103; a hanging ring 2104; a waterproof sealing joint 2105; a heat dissipating compartment 2200; a threaded fastener 2201; a first flange ring 2202; a first seal ring 2203; a housing 2204; a first waterjet 2205; a second waterjet 2206; a threaded fastener 2207; a waterproof hermetic chamber 2300; a threaded fastener 2301; a second flange ring 2302; a second seal ring 2303; a pressure-resistant transparent glass cover 2304; a control mechanism 2400; a transparent ceramic excitation light wick 2401; a reflective cup 2402; a control element 2403; a control element 2404; a power supply device 2405; a second driver holder 3001; a threaded fastener 3002; a power source main body 3003; a first drive bay 3004; a flexible tail 3005.

Detailed Description

The embodiments of the present invention will be described in detail below with reference to the accompanying drawings: the present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

Referring to fig. 1, fig. 3, fig. 9, this application is based on bionic machine squid's novel laser fishing lamp includes buoyancy frame 1000, lamp body supporting part 2000, lamp body end 3000, lamp body supporting part 2000 includes chassis 2100, heat dissipation cabin 2200, waterproof sealed cabin 2300 and control mechanism 2400, buoyancy frame 1000 links to each other with lamp body supporting part 2000 through threaded fastener, and fasten in the lamp body supporting part 2000 outside, lamp body end 3000 includes power supply and flexible afterbody 3005, lamp body end 3000 is connected with lamp body supporting part 2000 rear through threaded fastener on the power supply. The chassis 2100 of the lamp body bearing part 2000 is externally covered with a skin, and extends to the front end of the flexible tail part 3005, so that the novel fish gathering lamp based on the bionic machine squid is integrally streamline. A novel laser fish gathering lamp based on bionic machine squid is sequentially reduced from the top to the tail end of a cross section, and resistance can be effectively reduced.

Referring to fig. 2, the buoyancy frame 1000 is composed of buoyancy materials, rubber rings and a connecting piece 1008, the buoyancy materials include a first buoyancy material 1001, a second buoyancy material 1003, a third buoyancy material 1006 and a fourth buoyancy material 1009, the buoyancy materials are hollow circular sheets, the inner diameter is the same as the radius of the lamp body bearing part 2000, the buoyancy materials are placed oppositely and spaced at the same distance, the buoyancy materials can be chemical foaming buoyancy materials, hollow glass bead buoyancy materials, composite light buoyancy materials and the like generally, the hollow glass bead buoyancy materials are selected in the embodiment, and therefore the novel laser fish gathering lamp based on the bionic machine squid achieves the leveling effect in different water areas. The connecting piece 1008 is in a long and thin straight rod shape, six mounting holes are reserved in the buoyancy material, the diameter of each mounting hole is the same as that of the connecting piece 1008, the connecting piece 1008 is connected with the buoyancy material through the mounting holes and welded to the buoyancy material, a first rubber ring 1002 and a second rubber ring 1004 are embedded between a second buoyancy material 1003 and the lamp body bearing part 2000, the second buoyancy material 1003 is located between the first rubber ring 1002 and the second rubber ring 1004, a third rubber ring 1005 and a fourth rubber ring 1007 are embedded between a third buoyancy material 1006 and the lamp body bearing part 2000, and the third buoyancy material 1006 is located between the third rubber ring 1005 and the fourth rubber ring 1007. The fourth buoyant material 1009 is provided with four threaded holes, and is connected with the cover 2105 through threaded fasteners. The rubber ring can be made of silicon rubber, fluororubber, polytetrafluoroethylene rubber and the like, and the silicon rubber is adopted in the embodiment and fixed outside the lamp body bearing part 2000200 to achieve buffering and shock absorption. The first rubber ring 1002 and the third rubber ring 1005 are designed into a streamline shape, so that the drag reduction effect is achieved.

Referring to fig. 3, 4, 5, 7, and 8, the top end of the lamp body bearing part 2000 is conical, and transitions backward to a cylinder, and includes a chassis 2100, a heat dissipation compartment 2200, a waterproof sealing compartment 2300, and a control mechanism 2400. The chassis 2100 includes a male dome 2102, a third seal 2103, a lifting ring 2104, a cover 2105, and two watertight fittings 2106. The thermal pod 2200 includes a housing 2204, a first flanged ring 2202, a first sealing ring 2203, a first water jet 2205, and a second water jet 2206. The waterproof sealing cabin 2300 comprises a pressure-resistant transparent glass cover 2304, a second flange ring 2302 and a second sealing ring 2303. The control mechanism 2400 includes a transparent ceramic excitation light wick 2401, a reflective cup 2402, a control element 2403 and a power supply 2404. The control mechanism 2400 is located in the waterproof sealed cabin 2300, and the waterproof sealed cabin 2300 is located in the heat dissipation cabin 2200.

Referring to fig. 4, the chassis 2100 is composed of a male dome 2102, a third seal 2103, a hanging ring 2104, a cover 2105, and two watertight fittings 2106. The sealing cover 2105 is divided into four circular areas with different sizes from inside to outside by taking the threaded holes as boundaries, three pairs of threaded holes are formed in the first area, three pairs of threaded holes and two symmetrical through holes are formed in the second area, and the through holes are used for placing the waterproof sealing joint 2106. In this embodiment, the connector of the underwater radio frequency coaxial connector is selected, the deep water withstand voltage can reach 10-30MPa, the waterproof depth reaches 3000m, the underwater work is facilitated, the design of the waterproof sealing connector 2106 can be switched to the working modes of the cable and the cable-free, and under the condition of the cable, the electric control part of the novel laser fish gathering lamp can complete the wired communication of the power carrier through a zero-buoyancy line. The power conversion and the information transmission can be realized. The third area is provided with three pairs of threaded holes, and two through holes which are symmetrical in longitudinal axis and are used as water outlets. The fourth area is provided with two groups of threaded holes which are mutually symmetrical. The edge of the convex round block 2102 is provided with two axisymmetric semicircular holes which are two wiring holes for leading out data wires of the power supply device 2405 and the control element 2404, and the control element 2404 can be charged and information can be transmitted in time. The male block 2102 is provided with three pairs of mounting holes and is mounted to the first region of the cover by threaded fasteners, and the third seal 2103 is located between the male block 2102 and the cover 2105. The bottom of the sealing cover 2105 is provided with a rectangular mounting groove and a square mounting groove, four threaded holes are formed in the rectangular mounting groove, a threaded hole is formed in the side wall of the square mounting groove, and the hanging ring 2104 is mounted in the square mounting groove through a threaded fastener. In this embodiment, adopt D type shackle for carry fishing lamp through the hawser from the surface of water, imbed the mounting groove when not using, reduce the resistance.

Referring to fig. 5, 6, the heat dissipating compartment 2200 is comprised of a housing 2204, a first flange ring 2202, and a first sealing ring 2203. The outer shell 2204 is made of high-pressure-resistant glass, two tangent plane grooves with a certain inclination angle are formed in the rear portion of the outer shell 2204, the tangent plane grooves form an axisymmetric structure relative to the central axis of the outer shell 2204, and two pairs of threaded holes are formed in the tangent plane grooves and used for installing the water jet propeller. Two pairs of threaded holes are formed in the water jet propeller and are fixed in the tangent plane groove in a matched mode through threaded fasteners, the steering nozzle of the first water jet propeller 2205 is coaxial with the first water outlet, and the steering nozzle of the second water jet propeller 2206 is coaxial with the second water outlet. The two steering nozzles form a certain angle outwards, and when the first water jet propeller 2205 acts, the device can be controlled to move rightwards; when the second water jet propeller 2206 acts, the device can be controlled to move leftwards; when the first water jet impeller 2205 and the second water jet impeller 2206 act simultaneously, the device can be controlled to move forwards. The water-jet propeller not only can provide power, but also can discharge water flowing in from the water inlet in time, thereby achieving the effect of heat dissipation of the device. The conical top end of the outer shell 2204 is provided with three through holes which penetrate in a circumferential array and are water inlets. The caliber of the water inlet is larger than that of the water outlet. The uninterrupted water flow supply is ensured in the working process of the water jet propeller, and the effects of heat dissipation and power supply are achieved. The first sealing ring 2203 is nested at the bottom of the outer casing 2204, a mounting hole is formed in the first flange ring 2202, the outer casing 2204 is mounted in the third area of the cover 2105 through the first flange ring 2202 and a threaded fastener, and the first sealing ring 2203 is located between the first flange ring 2202 and the cover 2105.

Referring to fig. 7, the waterproof and airtight chamber 2300 is composed of a pressure-resistant transparent glass cover 2304, a second flange ring 2302, and a second packing 2303. The front end of the pressure-resistant transparent glass cover 2304 is hemispherical and becomes a convex lens, and the rear half is hollow cylindrical and made of transparent glass. A second sealing ring 2303 is nested at the bottom of the pressure-resistant transparent glass cover 2304, a mounting hole is formed on the second flange ring 2302, the pressure-resistant transparent glass cover 2304 is mounted to a second region of the cover 2105 through the second flange ring 2302 and a threaded fastener, and the second sealing ring 2303 is located between the second flange ring 2302 and the cover 2105.

Referring to fig. 8, the control mechanism 2400 includes a transparent ceramic excitation light wick 2401, a reflective cup 2402, a control element 2403, and a power supply unit 2404. The transparent ceramic exciting light wick 2401 is positioned in the beam expander 2402, and the transparent ceramic exciting light wick 2401 can flexibly regulate and control the light intensity and the light irradiation range, so that the light emitting efficiency is improved, and directional fish collection and fish luring are realized. The transparent ceramic exciting light wick 2401 is located in a reflecting cup 2402, the reflecting cup 2402 adopts a parabolic curved surface design, light loss can be reduced more effectively, the reflecting cup 2402 is fixed on a connecting interface of a pressure-resistant transparent glass cover 2304 cylinder and a semi-convex lens, the transparent ceramic exciting light wick 2401 is in an axisymmetric circumferential array, and the power supply device 2404 is formed by stacking a plurality of lithium battery circumferential arrays up and down, in the embodiment, a 18650 lithium battery is selected. The control element 2403 is arranged above the power supply device 2404 and is adhered to the power supply device 2404, in the embodiment, the control element 2404 selects a raspberry type, and is sealed by using a pouring sealant, the commonly used pouring sealant mainly comprises an epoxy resin pouring sealant, a silicone rubber pouring sealant, a polyurethane pouring sealant, a UV pouring sealant and a hot-melt pouring sealant, and in the embodiment, the epoxy resin pouring sealant is selected, so that the sealing material has the advantages of good performance, long applicable period, low viscosity, strong infiltration property, flame retardancy, weather resistance, heat conduction, high and low temperature alternation resistance and the like, and a good sealing effect can be achieved. The power supply 2404 is fixed to the male block 2102.

Referring to fig. 3 and 8, the transparent ceramic excitation light wick 2401 is located in the reflective cup 2402, the reflective cup 2402 is designed by adopting a parabolic curved surface, the reflective cup 2402 is located behind the convex lens, the middle of the convex lens is thick, and two sides of the convex lens are thin, and the convex lens, the reflective cup 2402 and the transparent ceramic excitation light wick 2401 are sequentially arranged from front to back. When light is emitted, the light passes through the reflecting cup 2402 and the convex mirror, so that the reflecting efficiency is high, the light-gathering performance is good, and the long-distance emission effect is good.

Referring to fig. 9, the tail end 3000 of the lamp body comprises a power source and a flexible tail 3005, the flexible tail 3005 is formed by pouring a flexible material, in this embodiment, the flexible tail is poured by using bi-component vulcanized silicone rubber, the shape of the flexible tail is similar to the overall shape of the squid wrist, the front end of the flexible tail is oval, the flexible tail gradually intersects with a point after extending backwards, and the overlooking cross section is conical. The power supply comprises first driver support 3004, second driver support 3001 and power supply main part 3003, and second driver support 3001 is fixed with the rectangle mounting groove of closing cap 2105 bottom through threaded fastener, and first driver support 3004 crosses the material when flexible afterbody 3005 pours, imbeds flexible afterbody 3005, makes lamp body carrier 2000 and lamp body end 3000 link to each other. In this embodiment, the flexible afterbody 3005 luffing motion can be controlled to the power supply, makes a novel laser fishing lamp based on bionical machine squid realize various angle rotations, enlarges light irradiation range.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a novel laser fishing lamp based on bionical machine squid, a serial communication port, novel laser fishing lamp includes buoyancy frame, lamp body supporting part, lamp body is terminal, lamp body supporting part includes chassis, heat dissipation cabin, waterproof seal cabin and control mechanism, buoyancy frame passes through threaded fastener and links to each other with the lamp body supporting part to fasten in the lamp body supporting part outside, the lamp body is terminal to include power supply and flexible afterbody, and the lamp body is terminal to be connected with lamp body supporting part rear through the threaded fastener on the power supply, the chassis cladding of lamp body supporting part has the covering, extends to flexible afterbody front end makes novel fishing lamp based on bionical machine squid is whole to be streamlined.

2. The novel laser fish gathering lamp based on the bionic machine squid as claimed in claim 1, wherein the buoyancy frame is composed of a buoyancy material, a rubber ring and a connecting piece, the buoyancy material comprises a first buoyancy material, a second buoyancy material, a third buoyancy material and a fourth buoyancy material, the buoyancy material is in a hollow disc shape, the inner diameter of the buoyancy material is the same as the radius of the lamp body bearing part, the buoyancy material, the rubber ring and the connecting piece are oppositely arranged and spaced at the same distance, the connecting piece is in a long and thin straight rod shape, six mounting holes are reserved on the buoyancy material, the calibers of the mounting holes are the same as the diameter of the connecting piece, the connecting piece is connected with the buoyancy material through the mounting holes and is welded, the first rubber ring and the second rubber ring are embedded between the second buoyancy material and the lamp body bearing part, the third rubber ring and the fourth rubber ring are embedded between the third buoyancy material and the lamp body bearing part, the third buoyancy material is located between the third rubber ring and the fourth rubber ring, and the fourth buoyancy material is provided with four threaded holes and is connected with the sealing cover through threaded fasteners.

3. The novel laser fish gathering lamp based on bionic machine squid as claimed in claim 1, wherein the top end of the bearing part of the lamp body is conical, the lamp body is in a cylindrical shape in backward transition, and comprises a chassis, a heat dissipation cabin, a waterproof sealing cabin and a control mechanism, the chassis comprises a convex round block, a third sealing ring, a lifting ring, a sealing cover and two waterproof sealing joints, the heat dissipation cabin comprises a shell, a first flange ring, a first sealing ring, a first water jet propeller and a second water jet propeller, the waterproof sealing cabin comprises a pressure-resistant transparent glass cover, a second flange ring and a second sealing ring, the control mechanism internally comprises a transparent ceramic exciting light wick, a reflective cup, a control element and a power supply device, the control mechanism is located in the waterproof sealing cabin, and the waterproof sealing cabin is located in the heat dissipation cabin.

4. The novel laser fish gathering lamp based on bionic machine squid as claimed in claim 3, wherein the base plate is composed of a convex round block, a third sealing ring, a hanging ring, a sealing cover and two waterproof sealing joints, the sealing cover is divided into four circular areas with different sizes from inside to outside by taking the threaded hole as a boundary, the first area is provided with three pairs of threaded holes, the second area is provided with three pairs of threaded holes and two axisymmetric through holes, the through holes are used for placing the waterproof sealing joints, the third area is provided with three pairs of threaded holes which are provided with two axisymmetric through holes and used as water outlets, the fourth area is provided with two groups of mutually symmetric threaded holes, the edge of the convex round block is provided with two axisymmetric semicircular holes which are two wiring holes and used for leading out data lines of power supply equipment and control elements, the convex round block is provided with three pairs of mounting holes and is mounted on the first area of the sealing cover through a threaded fastener, the third sealing ring is located between the convex round block and the sealing cover, a rectangular mounting groove and a square mounting groove are formed in the bottom of the sealing cover, four threaded holes are formed in the rectangular mounting groove, a threaded hole is formed in the side wall of the square mounting groove, and the lifting ring is mounted in the square mounting groove through a threaded fastener.

5. The novel laser fish gathering lamp based on bionic machine squid as claimed in claim 3, wherein the heat dissipation chamber is composed of a shell, a first flange ring and a first sealing ring, the shell is made of high pressure resistant glass, two tangent plane grooves with certain inclination angles are formed in the rear part of the shell, the tangent plane grooves form an axisymmetric structure with respect to the central axis of the shell, two pairs of threaded holes are respectively formed in the tangent plane grooves and used for mounting a water jet propeller, two pairs of threaded holes are formed in the water jet propeller and are fixed in the tangent plane grooves in a matched mode through threaded fasteners, the steering nozzle of the first water jet propeller is coaxial with the first water outlet, the steering nozzle of the second water jet propeller is coaxial with the second water outlet, three through holes penetrating in a circumferential array are formed in the conical top end of the shell and are water inlets, and the caliber of the water inlets is larger than that of the water outlets, the first sealing ring is nested at the bottom of the shell, a mounting hole is formed in the first flange ring, the shell is mounted in a third area of the sealing cover through the first flange ring and the threaded fastener, and the first sealing ring is located between the first flange ring and the sealing cover.

6. The novel laser fish gathering lamp based on bionic machine squid as claimed in claim 3, wherein the waterproof sealed cabin is composed of a pressure-resistant transparent glass cover, a second flange ring and a second sealing ring, the front end of the pressure-resistant transparent glass cover is solid and hemispherical and becomes a convex lens, the rear half part of the pressure-resistant transparent glass cover is hollow and cylindrical and is made of transparent glass, the second sealing ring is nested at the bottom of the pressure-resistant transparent glass cover, the second flange ring is provided with a mounting hole, the pressure-resistant transparent glass cover is mounted in a second area of the sealing cover through the second flange ring and a threaded fastener, and the second sealing ring is located between the second flange ring and the sealing cover.

7. The novel laser fish gathering lamp based on the bionic machine squid as claimed in claim 3 or 4, wherein the control mechanism comprises a transparent ceramic excitation light wick, a reflection cup, a control element and a power supply device, the transparent ceramic excitation light wick is positioned in the reflection cup, the reflection cup is fixed on the connecting interface of the pressure-resistant transparent glass cover cylinder and the semicircular convex lens, the transparent ceramic excitation light wick is in an axisymmetric circumferential array, the power supply device is formed by stacking a plurality of lithium battery circumferential arrays up and down, the control element is arranged above the power supply device and is adhered to the power supply device, and the power supply device is fixed on the convex circular block.

8. The novel laser fish gathering lamp based on bionic machine squid as claimed in claim 6, characterized in that the reflecting cup is designed by a parabolic curved surface, the reflecting cup is positioned behind the convex lens, the convex lens is thick in the middle and thin at two sides, and the convex lens, the reflecting cup and the transparent ceramic exciting light wick are sequentially arranged from front to back.

9. The novel laser fish gathering lamp based on the bionic machine squid as claimed in claim 1, wherein the flexible tail part is formed by pouring a flexible material, the shape of the flexible tail part is similar to the overall shape of a squid tentacle, the front end of the flexible tail part is oval, the flexible tail part gradually intersects with the squid tentacle in a backward extending mode, the overlooking cross section of the flexible tail part is conical, the power source consists of a first driver support, a second driver support and a power source main body, the second driver support is fixed with a rectangular mounting groove at the bottom of the sealing cover through a threaded fastener, the first driver support does not pass through the material when the flexible tail part is poured, and the flexible tail part is embedded into the flexible tail part, so that the lamp body bearing part is connected with the tail end of the lamp body.

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