CN114521515A

CN114521515A - Intelligent Australia freshwater lobster hatching system

Info

Publication number: CN114521515A
Application number: CN202210085241.5A
Authority: CN
Inventors: 黄恺; 韦建益; 张秋明; 李芬盛; 黎玉林; 张迅潮; 荣仕屿; 梁时利; 覃翠远; 介百飞; 罗璇
Original assignee: Fusui Breeding Farm Of Guangxi Zhuang Autonomous Region; Aquatic Technology Extension Station Of Guangxi Zhuang Autonomous Region
Current assignee: Fusui Breeding Farm Of Guangxi Zhuang Autonomous Region; Aquatic Technology Extension Station Of Guangxi Zhuang Autonomous Region
Priority date: 2022-01-25
Filing date: 2022-01-25
Publication date: 2022-05-24

Abstract

The invention relates to the technical field of freshwater lobster incubation, and discloses an intelligent Australia freshwater lobster incubation system which comprises an outer frame, a fry collecting device and a tail water treatment box. This intelligent Australia freshwater lobster hatching system, through outer frame, collection seedling device, tail water treatment box, the hatching pond, the inlet tube, the drain pipe, end communicating pipe, collection seedling case, communicating pipe, collection seedling cotton, the drainage hole, the filter cartridge, the outlet, the external pipe, the solenoid valve, the water quality monitoring probe, water constant temperature heating device, mutually support between incubator and the anti-escape net, can provide good hatching water quality condition for Australia freshwater lobster whole journey in the hatching process, and can separate the parent with the shrimp seedling of hatching out in time, the phenomenon that the young shrimp was eaten to the female shrimp avoids appearing, make the young shrimp of hatching out open in time, very big improvement the survival rate of young shrimp, reached the effect that improves the survival rate of young shrimp, it eats the young shrimp to have solved the female shrimp, lead to the lower problem of young shrimp survival rate.

Description

Intelligent Australia freshwater lobster hatching system

Technical Field

The invention relates to the technical field of freshwater lobster incubation, in particular to an intelligent Australia freshwater lobster incubation system.

Background

The Australia freshwater lobster is also called as red crayfish, the red crayfish is crayfish with a bare shell and is originally produced in Australia freshwater area, the Australia freshwater lobster is one of the famous and precious economic shrimp species in the world, the traditional Australia freshwater lobster hatching is mainly characterized in that a shrimp house is placed in the Australia freshwater lobster pond to be hatched, the Australia freshwater lobster is automatically hidden in the shrimp house in the daytime by utilizing the light-proof habit of the Australia freshwater lobster, the small shrimp house is fished to obtain the hatched young shrimps, but the hatching mode is too simple and direct, the female shrimps which are being hatched are easily frightened in the fishing process, if the hatched young shrimps cannot be timely fetched, the phenomena of large eating, small shrimp eating, uneven shrimp size and the like are easily caused, the artificial mistaken shrimp phenomenon is easily caused in the fishing process, so the whole fry treading mode has low emergence rate, and the final fry hatching rate is not high, therefore, after improvement, the current main hatching mode is a mode of sleeving large net cages and small net cages, namely two layers of net cages are built in a hatching pond, the inner layer is a female shrimp net cage, the meshes are generally about 1cm, the outer layer is a young shrimp net cage and are 60 meshes, after the young shrimps are hatched by the female shrimps in the female shrimp net cage, the young shrimps can automatically swim out of the net cages of the female shrimp net cage to the young shrimp net cage, the hatched young shrimps can be separated from the female shrimps in time in the mode, the young shrimps are prevented from eating the young shrimps, workers can fish the young shrimps in the young shrimp net cage, the hatched young shrimps can be separated from the female shrimps in time in the mode, the phenomenon that the female shrimps eat the young shrimps is avoided to a certain extent, but frequent fry fishing operation is easy to disturb the hatching of the female shrimps, and the required investment labor cost is also higher.

Therefore, a simple, efficient and intelligent Australia crayfish hatching mode needs to be found to promote the benign development of the Australia crayfish breeding industry.

According to the intelligent Australian crayfish hatching system, the problems in the existing Australian crayfish hatching technology can be effectively solved, the death rate of the Australian crayfish during the hatching process can be reduced, the emergence rate and the survival rate of the young crayfish are improved, the labor cost during the hatching process can be reduced, and the economic benefit is remarkably improved.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an intelligent Australia freshwater lobster hatching system which has the advantages of reducing the death rate of the shrimps, improving the emergence rate and the survival rate of the shrimps, reducing the labor cost in the hatching process and improving the economic benefit, and solves the problems that the death rate of the shrimps is higher in the whole hatching process, the emergence rate and the survival rate of the shrimps are lower in the existing hatching mode and the labor cost in the hatching process is higher.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent Australia freshwater lobster incubation system comprises an outer frame, a fry collecting device and a tail water treatment box, wherein an incubation pool is arranged inside the outer frame, the fry collecting device comprises a fry collecting box and a filter box, the bottom of the fry collecting box is fixedly connected with the top of the filter box, a water filtering hole is formed in the inner bottom wall of the fry collecting box, the inside of the fry collecting box is communicated with the inside of the filter box through the water filtering hole, fry collecting cotton cloth is arranged inside the fry collecting box, a communicating pipe is arranged on the inner wall of the fry collecting box and is connected with the incubation pool through a drain pipe, a water outlet is formed in the inner wall of the right side of the filter box and is connected with the tail water treatment box through a bottom communicating pipe, the tail water treatment box is connected with the incubation pool through a water inlet pipe, a water pump is arranged on the inner bottom wall of the tail water treatment box, and the water outlet of the water pump is connected with the bottom end of the water inlet pipe, the inner wall of tail water treatment tank rear side is provided with external pipe, the rear end of external pipe is provided with the solenoid valve, tail water treatment tank front side inner wall is provided with water quality monitoring probe and water constant temperature heating device, the inside of hatching pond is provided with the incubator, the top of incubator is provided with prevents escaping the net.

Preferably, the side surface fixedly connected with shunt tubes of inlet tube, the one end that the inlet tube was kept away from to the shunt tubes is connected with the front side fixed connection of hatching pond, the one end that the hatching pond was kept away from to the shunt tubes is connected with the side surface fixed connection of inlet tube, through mutually supporting of inlet tube and shunt tubes, can be with the moisture of tail water treatment incasement do not leading-in each hatching pond to the effect of reposition of redundant personnel water guide has been played.

Preferably, the collecting pipe is fixedly connected to the side surface of the drain pipe, one end of the collecting pipe, far away from the drain pipe, is fixedly connected with the left side of the hatching pond, one end of the flow dividing pipe, far away from the hatching pond, is fixedly connected with the side surface of the drain pipe, and through the mutual matching of the drain pipe and the flow dividing pipe, sewage in each hatching pond can be intensively guided into the seedling collecting device, so that the effect of intensively guiding the sewage in the hatching pond is achieved.

Preferably, the bottom of incubator all has seted up the hole that leaks all around, has played the lease of the rivers flow of being convenient for, avoids the incubator inner wall to cause the hindrance to the rivers flow.

Preferably, the net of preventing escaping is the polyethylene net piece of mesh 1cm, the top of preventing escaping the net has been seted up and has been thrown the feeding mouth, the inner diapire of incubator is provided with the feeding dish to breed personnel throw bait, thereby avoid bait to leak the hole and scatter outward.

Preferably, the inner bottom wall of the hatching pond is provided with a positioning rod, and the positioning rod is inserted in the hatching box, so that the movement of the hatching box is limited, and the relative position of the hatching box and the hatching pond is limited.

Compared with the prior art, the invention provides an intelligent Australia crayfish hatching system which has the following beneficial effects:

1. this intelligent Australia freshwater lobster hatching system, through outer frame, collection seedling device, tail water treatment box, the hatching pond, the inlet tube, the drain pipe, end communicating pipe, collection seedling case, communicating pipe, collection seedling cotton, the drainage hole, the filter cartridge, the outlet, the external pipe, the solenoid valve, the water quality monitoring probe, water constant temperature heating device, mutually support between incubator and the anti-escape net, can provide good hatching water quality condition for Australia freshwater lobster whole journey in the hatching process, and can separate the shrimp seedling of hatching out in time the parent, the phenomenon that the shrimp was eaten to the shrimp is avoided appearing in the mother, make the young shrimp of hatching out open in time, very big improvement the survival rate of young shrimp, reached and reduced young shrimp stress reaction, improve the effect of young shrimp survival rate, the problem that young shrimp eaten by the mother shrimp and the shrimp stress reaction and lead to the young shrimp survival rate lower has been solved.

2. This intelligent Australia freshwater lobster hatching system, through outer frame, collection seedling device, tail water treatment box, the hatching pond, the inlet tube, the drain pipe, end communicating pipe, collection seedling case, communicating pipe, collection seedling cotton, the drainage hole, the filter cartridge, the outlet, the external pipe, the solenoid valve, the water quality monitoring probe, water constant temperature heating device, mutually support between incubator and the anti-escape net, the female shrimp that has hatched can in time be discover, and adopt simple and convenient mode to take away the female shrimp that has hatched from hatching system and in time strengthen raising, make the female shrimp get into the new round fast and breed the stage, greatly improved the survival rate and the utilization ratio of breeding the female shrimp, reached and reduced stress response, improve the effect of female shrimp survival rate and utilization ratio, the problem of female shrimp taking place the stress death because of external intervention in accomplishing the hatching process has been solved.

3. This intelligent Australia freshwater lobster hatching system, through outer frame, collection seedling device, tail water treatment box, the hatching pond, the inlet tube, the drain pipe, end communicating pipe, collection seedling case, communicating pipe, collection seedling cotton, the drainage hole, the filter cartridge, the outlet, the external pipe, the solenoid valve, the water quality monitoring probe, water constant temperature heating device, the shunt tubes, the pressure manifold, the incubator, prevent escaping mutually supporting between net feeding mouth and the feed tray, manual operation processes such as artifical shrimp and artifical soil pick-up have been reduced at whole hatching in-process, greatly avoid the artificial intervention of hatching in-process, when reducing labour cost, the hatchability has also been improved to a certain extent, shrimp fry survival rate and the effect that has reduced the mortality of kind of shrimp, the effect that has reduced labour cost has been reached, the higher problem of artifical labour cost in the young shrimp hatching process has been solved.

4. This intelligent Australia freshwater lobster hatching system, through outer frame, collection seedling device, tail water treatment box, the hatching pond, the inlet tube, the drain pipe, end communicating pipe, collection seedling case, communicating pipe, collection seedling cotton, the drainage hole, the filter cartridge, the outlet, the external pipe, the solenoid valve, the water quality monitoring probe, water body constant temperature heating device, the shunt tubes, the pressure manifold, the hatching box, prevent escaping mutually supporting between net feeding mouth and the feed tray, because of this hatching system is intensive multi-level hatching system, and this system hatching efficiency is traditional hatching efficiency 6 to 10 times, extremely apparent economic benefits has, the effect that improves economic benefits has been reached, the lower problem of traditional hatching system economic benefits has been solved.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic view of the structure of the seedling-collecting device of the present invention;

FIG. 3 is a schematic view of a finishing water treatment tank configuration according to the present invention;

FIG. 4 is a schematic structural diagram of a hatching tank of the present invention;

FIG. 5 is a schematic view of the incubator of the present invention;

fig. 6 is a schematic view of the anti-escape net according to the present invention.

Wherein: 1. an outer frame; 2. a seedling collecting device; 3. a tail water treatment tank; 4. a hatching pond; 5. a water inlet pipe; 6. a drain pipe; 7. a bottom communicating pipe; 8. a seedling collecting box; 9. a communicating pipe; 10. collecting cotton cloth; 11. water filtering holes; 12. a filter cartridge; 13. a water outlet; 14. an external connection pipe; 15. an electromagnetic valve; 16. a water quality monitoring probe; 17. a water body constant temperature heating device; 18. a shunt tube; 19. a header pipe; 20. positioning a rod; 21. an incubator; 22. an escape-proof net; 23. feeding; 24. a feeding tray.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, an intelligent australian crayfish hatching system comprises an outer frame 1, a fry collecting device 2 and a tail water treatment tank 3, wherein the outer frame 1 is called a hatching pond frame, the outer frame 1 is made of steel materials, the size of the outer frame is 4m, the width of the outer frame is 0.84m, the height of the outer frame is 2.2m, the fry collecting device 2 is made of polyethylene plastic plates, the tail water treatment tank 3 is made of polyethylene plastic plates, the size of the tail water treatment tank is 1m, the width of the tail water treatment tank is 1m, the height of the tail water treatment tank is 1m, the hatching pond 4 is arranged in the outer frame 1, the specific number of the hatching ponds 4 is set according to the use requirement, the hatching pond 4 is an octagonal structure made of polyethylene plastic plates, the size of the octagonal structure is 3.92m, the width of the tail water treatment tank is 0.84m, the height of the tail water treatment tank is 0.3m, the fry collecting device 2 comprises a fry collecting tank 8 and a filter box 12, the bottom of the fry collecting tank 8 is fixedly connected with the top of the filter box 12, the length of the seedling collecting tank 8 is 1.2m, wide 0.6m, high 0.3m, the size of filter cartridge 12 is long 1.2m, wide 1.6m, high 0.8m, inside contains and contains filtering material such as cotton and biological fungus ring, water drainage hole 11 has been seted up to the inner diapire of collection seedling case 8, the inside intercommunication of water drainage hole 11 and filter cartridge 12 is passed through to the inside of collection seedling case 8, the inside of collection seedling case 8 is provided with collection seedling cotton 10, collection seedling cotton 10 is the cotton of the water-carrying nature of thick 1cm, the inner wall of collection seedling case 8 is provided with communicating pipe 9, communicating pipe 9 passes through drain pipe 6 and is connected with hatching pond 4, drain pipe 6 is the PVC pipe of diameter 15 cm.

A collecting pipe 19 is fixedly connected to the side surface of the drain pipe 6, one end of the collecting pipe 19, which is far away from the drain pipe 6, is fixedly connected with the left side of the hatching pond 4, one end of the flow dividing pipe 18, which is far away from the hatching pond 4, is fixedly connected with the side surface of the drain pipe 6, each hatching pond 4 is provided with an independent collecting pipe 19 corresponding to the collecting pipe, a water outlet 13 is formed in the inner wall of the right side of the filter box 12, the diameter of the water outlet 13 is 15cm, the water outlet 13 is connected with the tail water treatment box 3 through a bottom communicating pipe 7, the bottom communicating pipe 7 is a PVC pipe with the diameter of 15cm, the inside of the filter box 12 can be communicated with the inside of the tail water treatment box 3 through a water inlet pipe 5, the tail water treatment box 3 is connected with the hatching pond 4 through a water inlet pipe 5, a water pump is arranged on the inner bottom wall of the tail water treatment box 3, the water outlet of the water pump is connected with the bottom end of the water inlet pipe 5, so that the water in the tail water treatment box 3 is guided into the inside of the hatching pond 4, side surface fixedly connected with shunt tubes 18 of inlet tube 5, shunt tubes 18 keep away from the one end of inlet tube 5 and the front side fixed connection of hatching pond 4, shunt tubes 18 keep away from the one end of hatching pond 4 and the side surface fixed connection of inlet tube 5, each hatching pond 4 all is furnished with an solitary shunt tubes 18, the inner wall of tail water treatment box 3 rear side is provided with external pipe 14, external pipe 14's rear end is provided with solenoid valve 15, external pipe 14 diameter is 10 cm's PVC plastic tubing, solenoid valve 15's rear end and external water piping connection, can control external pipe 14's break-make through solenoid valve 15, when external pipe 14 inside water course is unobstructed, can send external clear water into tail water treatment box 3 inside.

The inner wall of the front side of the tail water treatment box 3 is provided with a water quality monitoring probe 16 and a water body constant temperature heating device 17, the water quality monitoring probe 16 can monitor the water temperature, ammonia nitrogen and sub-salt condition of the water body in the tail water treatment box 3 in real time, the water body constant temperature heating device 17 can heat the water body, the inside of the incubation pool 4 is provided with an incubation box 21, the incubation box 21 is composed of a polyethylene plastic basket, the size of the plastic basket is 30cm long, 20cm wide and 15cm high, the inner bottom wall of the incubation pool 4 is provided with a positioning rod 20, the positioning rod 20 is a cylindrical vertical rod with the diameter of 1cm, the top end of the vertical rod is provided with a mechanism connected with the incubation box 21, the positioning rod 20 is inserted with the inside of the incubation box 21, namely, the positioning rod 20 is inserted with the inside of a water leakage hole, the bottom and the periphery of the incubation box 21 are both provided with water leakage holes, the top of the incubation box 21 is provided with an anti-escape net 22, the anti-escape net 22 is a polyethylene net with the mesh of 1cm, the top of the escape-proof net 22 is provided with a feeding opening 23, the inner bottom wall of the incubator 21 is provided with a feeding disc 24, and the feeding disc 24 is positioned under the feeding opening 23.

When the hatching system is used, the device is connected, the system is disinfected integrally by using related disinfectants, fresh water is introduced for running for two days after disinfection is finished, hatching operation is started after the system runs stably, female shrimps with eggs are placed in a hatching box 21, the female shrimps with eggs are divided according to the maturity of eggs of Australian freshwater lobster shrimps, the male shrimps with eggs with the same development degree are placed into the hatching box 21 as a group, fresh fish blocks, feed and the like are fed into a feeding tray 24 through a feeding port 23 according to the ingestion condition of the female shrimps, after a period of time, part of the female shrimps are opened, and residual baits generated by the hatched male shrimps and female shrimps and feces generated by the hatched male shrimps are discharged into a fry collecting device through a drainage pipe under the action of water inlet and water outlet of the hatching tank 4, so that the residual baits generated by the hatched male shrimps and female shrimps in the hatching process are taken out of the fry collecting device, and can realize the timely separation of the female shrimps and the young shrimps, a good hatching environment is created for the hatching of the female shrimps, when tail water in the hatching pond 4 flows through the fry collecting device 2, the food and excrement generated during the hatching of the young shrimps and the female shrimps can be intercepted by the fry collecting cotton cloth 10 in the fry collecting box 8, the young shrimps in the fry collecting cotton cloth 10 can swim to the periphery of the fry collecting cotton cloth under the action of water flow, and the residual bait and excrement are concentrated below the water inlet of the fry collecting device 2, so that the rapid separation of the young shrimps and the residual bait and excrement is realized, the young shrimps can be rapidly separated, at the moment, breeding workers can easily collect the young shrimps on the fry collecting cotton cloth 10 in time and carry the residual bait and excrement generated by the female shrimps away from the breeding system, then the tail water flows into the filter box 12 of the fry collecting device 2, the filter box 12 contains a filter component, the filter component contains microorganisms, under the action of the filter component, impurities in the hatching tail water are filtered and separated, harmful substances such as ammonia nitrogen, nitrite and the like in the tail water are converted into nontoxic substances such as nitrate and the like by microorganisms, then the hatching tail water passing through the seedling collecting device 2 enters the tail water treatment box 3 through the bottom communicating pipe 7, then a water quality monitoring probe in the tail water treatment box 3 can automatically detect whether water quality indexes such as water temperature, dissolved oxygen, ammonia nitrogen, nitrite and the like of a water body reach the standard or not, when the water quality is abnormal, the water constant-temperature heating device 17 and the electromagnetic valve 15 can be started as required, external clean water flow is guided into the tail water treatment box 3, when the water quality in the box reaches the standard, the water pump is started to enable the water quality reaching the standard to flow into the hatching pond 4, so that the water quality entering the hatching pond 4 is the ideal water quality required by the incubation of the Australian freshwater lobster, and during the whole operation process, workers only need to classify the breeding shrimps, The whole system is simple and convenient to operate, saves time and labor, reduces the stress reaction of the female shrimps and the young shrimps, and greatly improves the survival rate of the young shrimps and the egg-carrying shrimps.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an intelligent australia freshwater lobster hatching system, includes outer frame (1), collection seedling device (2) and tail water treatment case (3), its characterized in that: the hatching pond (4) is arranged in the outer frame (1), the seedling collecting device (2) comprises a seedling collecting box (8) and a filtering box (12), the bottom of the seedling collecting box (8) is fixedly connected with the top of the filtering box (12), a water filtering hole (11) is formed in the inner bottom wall of the seedling collecting box (8), the inside of the seedling collecting box (8) is communicated with the inside of the filtering box (12) through the water filtering hole (11), cotton cloth (10) is arranged in the seedling collecting box (8), a communicating pipe (9) is arranged on the inner wall of the seedling collecting box (8), the communicating pipe (9) is connected with the hatching pond (4) through a water discharging pipe (6), a water discharging port (13) is formed in the inner wall on the right side of the filtering box (12), the water discharging port (13) is connected with the tail water treatment box (3) through a bottom communicating pipe (7), the tail water treatment box (3) is connected with the hatching pond (4) through a water inlet pipe (5), the interior diapire of tail water treatment box (3) is provided with the water pump, the delivery port of water pump is connected with the bottom of inlet tube (5), the inner wall of tail water treatment box (3) rear side is provided with outer takeover (14), the rear end of taking over outer takeover (14) is provided with solenoid valve (15), tail water treatment box (3) front side inner wall is provided with water quality monitoring probe (16) and water constant temperature heating device (17), the inside of hatching pond (4) is provided with incubator (21), the top of incubator (21) is provided with prevents escaping net (22).

2. The intelligent Australian crayfish hatching system of claim 1, wherein: side surface fixedly connected with shunt tubes (18) of inlet tube (5), the one end of inlet tube (5) and the front side fixed connection of hatching pond (4) are kept away from shunt tubes (18), the one end of hatching pond (4) and the side surface fixed connection of inlet tube (5) are kept away from in shunt tubes (18).

3. The intelligent Australian crayfish hatching system of claim 1, wherein: the side surface of the drain pipe (6) is fixedly connected with a collecting pipe (19), one end, far away from the drain pipe (6), of the collecting pipe (19) is fixedly connected with the left side of the hatching pond (4), and one end, far away from the hatching pond (4), of the flow dividing pipe (18) is fixedly connected with the side surface of the drain pipe (6).

4. The intelligent Australian crayfish hatching system of claim 1, wherein: and water leakage holes are formed in the bottom and the periphery of the incubator (21).

5. The intelligent Australian crayfish hatching system of claim 1, wherein: the anti-escape net (22) is a polyethylene net piece with meshes of 1cm, a feeding opening (23) is formed in the top of the anti-escape net (22), and a feeding disc (24) is arranged on the inner bottom wall of the incubator (21).

6. The intelligent Australian crayfish hatching system of claim 1, wherein: the inner bottom wall of the hatching pond (4) is provided with a positioning rod (20), and the positioning rod (20) is inserted in the hatching box (21).