CN219514960U - Solar snakehead spawning workshop - Google Patents

Abstract

The utility model discloses a solar snakehead spawning workshop, belongs to the technical field of snakehead spawning, and solves the problem that a conventional snakehead artificial breeding site is prone to cause breeding failure. The spawning pits are mutually noninterfere, so that the snakehead in the adjacent spawning pits can be prevented from being mutually interfered to influence the failure of spawning snakehead reproduction, and the running water is provided for the spawning pits through the water inlet pipe to improve the fertilization spawning rate of the snakeheads.

Description

Solar snakehead spawning workshop

Technical Field

The utility model relates to the technical field of snakehead spawning, in particular to a solar snakehead spawning workshop.

Background

The snakehead is tender in meat, delicious in taste and high in nutritive value, is popular in domestic and foreign markets, and is a famous fresh water economic fish. In recent years, due to the fact that people are abused and fished, the existing stock of wild snakeheads is continuously reduced, the eating requirements of people on the snakeheads can not be met, and the support of artificial large-scale cultivation is needed for the supply of the snakeheads.

The snakehead is a kind of fish with male and female being strictly paired to spawn, when the snakehead is artificially bred, the snakehead and female snakehead are required to be paired one by one and are placed in the same net cage, if redundant female and male snakeheads are in the net cage or are close to the snakehead breeding net cage, slight swimming of the snakehead is likely to cause injury of parent snakeheads due to collision in the spawning process due to limited space, spawning is further affected, snakeheads are fiercely and fiercely in nature, snakeheads in adjacent net cages can interfere with each other, great influence is caused on spawning of the snakeheads, and even propagation failure is caused.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model provides a solar snakehead spawning workshop, which solves the problem that the existing snakehead artificial breeding field is easy to cause breeding failure.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides a solar energy snakehead spawning workshop, it includes the spawning pond, and one side of spawning pond is provided with the inlet tube, and the opposite side of spawning pond is provided with out the basin, and the inlet tube passes through water pump and external water source intercommunication, and the spawning pond includes a plurality of parallelly connected spawning units, and spawning unit includes a plurality of serial intercommunication's spawning pits each other, inlet tube and play basin all communicate with spawning pit.

According to the scheme, the spawning pits are mutually connected in series to form spawning units, the spawning pits are mutually connected in parallel to form spawning ponds, the spawning pits in the spawning ponds are mutually noninterfere, the snakehead in the adjacent spawning pits is prevented from being mutually interfered, the spawning snakehead propagation failure is influenced, and the running water is provided for the spawning ponds through the water inlet pipe, so that the fertilization spawning rate of the snakeheads is improved.

Further, the bottom of the spawning pit is provided with a water outlet hole and a water inlet hole relatively, and the spawning pits in the spawning unit are communicated with each other through the water outlet hole and the water inlet hole.

In the scheme, spawning pits in spawning units are mutually communicated, water flow in the spawning pits is realized by adopting the scheme, running water is formed in the spawning pits, and the fertilized spawning rate of snakeheads is improved.

Further, an oxygenation branch pipe penetrating through the water outlet hole and the water inlet hole is paved in the spawning unit, the oxygenation branch pipe is communicated with an oxygenation pipe, and the oxygenation pipe is communicated with an oxygenation pump.

In the scheme, the oxygenation branch pipes are paved in the spawning units, and by adopting the scheme, the oxygenation pump increases the oxygen content in spawning pit water through the oxygenation pipes and the oxygenation branch pipes so as to improve the fertilization spawning rate of snakeheads.

Further, a water inlet is formed in a spawning pit, which is close to the water inlet pipe, in the spawning unit, the spawning pit is communicated with the water inlet pipe through the water inlet, a water outlet is formed in a spawning pit, which is close to the water outlet groove, in the spawning unit, and the spawning pit is communicated with the water outlet groove through the water outlet.

In this scheme, spawning pit respectively with inlet tube and play basin intercommunication, adopt above-mentioned scheme, make the water flow in the spawning unit, and then form running water.

Further, a sunshade is arranged above the spawning pond, and a solar energy storage system is arranged on the sunshade.

In this scheme, the spawning pond top is provided with the sunshade, adopts above-mentioned scheme, and on the one hand, the sunshade can prevent that sunlight from insolating, influences snakehead spawning, on the other hand, can collect solar energy to supply the interior use of spawning workshop, the energy saving.

Further, the sunshade greenhouse comprises triangular ceiling supports, and the ceiling supports are mounted on the spawning pond through the support posts.

In this scheme, the ceiling support passes through the pillar and installs on spawning pond, adopts above-mentioned scheme, and easy to assemble sunshade, also can increase the area that the top received solar energy to accept more solar energy.

Further, the solar energy storage system comprises a solar cell panel, a solar charge and discharge controller and a solar storage battery, wherein the solar cell panel is arranged on the ceiling bracket, the solar charge and discharge controller is respectively and electrically connected with the solar cell panel and the solar storage battery, and the solar storage battery is respectively and electrically connected with the oxygenation pump and the water pump.

In the scheme, a solar energy storage system is formed by adopting a solar cell panel, a solar charge-discharge controller and a solar storage battery, and the received solar energy is stored in the solar storage battery so as to be used by an oxygenation pump and a water pump, so that energy is saved.

Further, a lighting device is arranged in the sunshade, and the lighting device is electrically connected with the solar storage battery.

The utility model discloses a solar snakehead spawning workshop, which has the beneficial effects that:

1. the spawning pits are mutually noninterfere, so that the snakehead in the adjacent spawning pits can be prevented from being mutually interfered to influence the failure of spawning snakehead reproduction, and the running water is provided for the spawning pits through the water inlet pipe to improve the fertilization spawning rate of the snakeheads.

2. According to the utility model, the oxygen is conveyed into the spawning pit by adopting the cooperation of the oxygenation pump and the oxygenation pipe, so that the oxygen in the water in the spawning pit is improved, the produced fertilized eggs are prevented from being killed due to lack of oxygen, and the fertilized spawning rate of the snakeheads is improved.

3. The utility model adopts a solar energy storage system to convert the received solar energy into electric energy for standby, thereby saving energy.

Drawings

FIG. 1 is a schematic structural diagram of a solar snakehead spawning workshop.

FIG. 2 is a schematic structural view of the spawning pond of the present utility model.

FIG. 3 is a schematic view showing the structure of spawning pit of the present utility model

Wherein, 1, spawning pond; 11. a spawning unit; 12. spawning pit; 121. a water inlet hole; 122. a water outlet hole; 13. a water inlet; 14. a water outlet; 2. sunshade greenhouse; 21. a ceiling support; 22. a support post; 3. a solar energy storage system; 31. a solar cell panel; 32. a solar charge-discharge controller; 33. a solar storage battery; 4. a water inlet pipe; 5. a water outlet tank; 6. oxygenation branch pipes; 7. an oxygenation tube; 8. a water pump; 9. an oxygenation pump; 10. an illumination device.

Detailed Description

While specific embodiments of the present utility model have been described in order to facilitate understanding of the present utility model by those skilled in the art, it should be apparent that the present utility model is not limited to the scope of the specific embodiments, and that all the utility models which make use of the inventive concept are within the spirit and scope of the present utility model as defined and defined by the appended claims to those skilled in the art.

Example 1

Referring to fig. 1 and 2, a schematic structural diagram of a solar snakehead spawning workshop according to the present embodiment is provided, so as to solve the problem that the existing site where snakeheads are artificially bred is prone to cause breeding failure, and detailed description will be given below on a specific structure of the present utility model.

A solar snakehead spawning workshop comprises a spawning pond 1, wherein one side of the spawning pond 1 is provided with a water inlet pipe 4, the other side of the spawning pond 1 is provided with a water outlet tank 5, and the water inlet pipe 4 is communicated with an external water source through a water pump 8.

Specifically, the spawning pond 1 includes a plurality of parallelly connected spawning units 11, spawning unit 11 includes a plurality of serial intercommunication spawning pits 12, spawning pit 12's specification can specifically set up according to actual breed scale, and the length and width of spawning pit 12 in this embodiment specifically is 50cm 80cm, and spawning pit 12 can adopt steel sheet or reinforced concrete to make, and spawning pit 12's border width can be 10cm-20cm, adopts this kind of structure, can effectively prevent the snakehead in the adjacent spawning pit 12 from interfering each other, influences spawning snakehead, leads to the propagation failure.

Referring to fig. 3, the bottom of the spawning pit 12 is relatively provided with a water outlet 122 and a water inlet 121, the spawning pits 12 in the spawning unit 11 are communicated with each other through the water outlet 122 and the water inlet 121, and the spawning pits 12 communicated with each other can flow water so as to form running water in the spawning pond 1, thereby improving the fertilized spawning rate of snakeheads.

The water inlet pipe 4 and the water outlet tank 5 are both communicated with a spawning pit 12, a water inlet 13 is formed in the spawning pit 12, which is close to the water inlet pipe 4, in the spawning unit 11, the spawning pit 12 is communicated with the water inlet pipe 4 through the water inlet 13, a water outlet 14 is formed in the spawning pit 12, which is close to the water outlet tank 5, in the spawning unit 11, and the spawning pit 12 is communicated with the water outlet tank 5 through the water outlet 14.

In this embodiment, the spawning pit 12 in the spawning unit 11 near the water inlet pipe 4 is provided with the water inlet 13 and is communicated with the water inlet pipe 4, the spawning pit 12 in the spawning unit 11 near the water outlet tank 5 is provided with the water outlet 122 and is provided with the water outlet 14 and is communicated with the water outlet tank 5, the spawning pits 12 in other areas in the spawning unit 11 are provided with the water inlet 121 and the water outlet 122, by adopting the structure, the water in the spawning pond 1 can be supplied with the running water through the water inlet pipe 2, and the water in the spawning pond 1 can be discharged through the water outlet tank 3, so that a running water environment is formed in the spawning pond 1, and the fertilization spawning rate of snakeheads is improved.

Example 2

Referring to fig. 2, which is a schematic diagram of the structure of the spawning pond in this example, in order to increase the oxygen content of the water in the spawning pond 1, a further scheme of the spawning pond 1 is shown in this example.

An oxygenation branch pipe 6 penetrating through the water outlet hole 122 and the water inlet hole 121 is paved in the spawning unit 11, the oxygenation branch pipe 6 is communicated with an oxygenation pipe 7, and the oxygenation pipe 7 is communicated with an oxygenation pump 9.

Oxygen is generated by the oxygenation pump 9 and is conveyed into the spawning pit 12 through the oxygenation pipe 7 and the oxygenation branch pipe 6, so that the oxygen content in water in the spawning pit 12 is improved, the produced fertilized eggs are prevented from being anoxic and dying, and the fertilized spawning rate of the snakeheads is improved.

Example 3

Referring to fig. 1, a schematic diagram of a solar snakehead spawning workshop according to the present utility model is provided, in order to prevent insolation and collect solar energy, and a further scheme of a sunshade greenhouse 2 is provided in this embodiment.

A sunshade greenhouse 2 is arranged above the spawning pond 1, and a solar energy storage system 3 is arranged on the sunshade greenhouse 2.

Specifically, sunshade big-arch shelter 2 can prevent sunlight exposure on the one hand, influences the snakehead that spawns, and on the other hand, sunshade big-arch shelter 2 can collect solar energy to supply the inside practicality of spawning workshop, the energy saving.

The sunshade greenhouse 2 comprises a triangular ceiling support 21, the ceiling support 21 is mounted on the spawning pond 1 through a support 22, the triangular ceiling support 21 can be directly mounted on the spawning pond 1 through the support 22, the structure is simple, the mounting is rapid, and the area of solar energy received by the top of the triangular ceiling support 21 can be increased, so that more solar energy can be received.

The solar energy storage system 3 comprises a solar panel 31, a solar charge-discharge controller 32 and a solar storage battery 33, wherein the solar panel 31 is installed on the ceiling bracket 21, the solar charge-discharge controller 32 is respectively and electrically connected with the solar panel 31 and the solar storage battery 33, and the solar storage battery 3 is respectively and electrically connected with the oxygenation pump 9 and the water pump 8.

The sunshade 2 is internally provided with a lighting device 10, and the lighting device 10 is electrically connected with a solar storage battery 33.

The solar cell panel 31, the solar charge-discharge controller 32, the solar storage battery 33, the oxygenation pump 9 and the water pump 8 in the embodiment all adopt the prior art, wherein the model of the solar cell panel 31 is XKD-300W, the model of the solar charge-discharge controller 32 is MPPT100, the model of the solar storage battery 33 is 520ah, the model of the oxygenation pump 9 is XGB-250, and the model of the water pump 8 is WQ100-10-3.

The solar panel 31 is used for receiving solar energy, and the solar charge-discharge controller 32 converts the received solar energy into electric energy and stores the electric energy in the solar storage battery 33 for other devices to use.

The working principle of the solar snakehead spawning workshop is as follows:

in practical application, as shown in fig. 1-3, the sunshade greenhouse 2 is installed on the spawning pond 1, the solar panel 31 of the sunshade greenhouse 2 is used for receiving solar energy, and the solar charge-discharge controller 32 converts the received solar energy into electric energy to be stored in the solar storage battery 33.

The solar storage battery 33 provides power for the water pump 8, and the water pump 8 pumps an external water source into the spawning pond 1 through the water inlet pipe 2, and the spawning pond 1 is communicated with the water outlet groove 5, so that a running water environment is formed in the spawning pond 1 to improve the fertilization spawning rate of snakeheads, spawning pits 12 in the spawning pond 1 can effectively prevent the snakeheads in adjacent spawning pits 12 from interfering with each other, so that spawning snakeheads are affected, and the breeding failure is caused.

The solar storage battery 33 provides power for the oxygenation pump 9, and the oxygenation pump 9 conveys oxygen into the spawning pit 12 through the oxygenation pipe 7 and the oxygenation branch pipe 6, so that the oxygen content in water in the spawning pit 12 is improved, the produced fertilized eggs are prevented from being anoxic and dying, and the fertilized spawning rate of the snakeheads is improved.

Although specific embodiments of the utility model have been described in detail with reference to the accompanying drawings, it should not be construed as limiting the scope of protection of the present patent. Various modifications and variations which may be made by those skilled in the art without the creative effort are within the scope of the patent described in the claims.

Claims (8)

1. A solar snakehead spawning workshop is characterized in that: comprises an oviposition pond (1);

a water inlet pipe (4) is arranged on one side of the spawning pond (1), and a water outlet groove (5) is arranged on the other side of the spawning pond (1); the water inlet pipe (4) is communicated with an external water source through a water pump (8);

the spawning pond (1) comprises a plurality of spawning units (11) which are connected in parallel, and the spawning units (11) comprise a plurality of spawning pits (12) which are connected in series and communicated with each other;

the water inlet pipe (4) and the water outlet groove (5) are communicated with the spawning pit (12).

2. The solar snakehead spawning plant according to claim 1, wherein: the bottom of the spawning pit (12) is provided with a water outlet hole (122) and a water inlet hole (121) relatively; the spawning pits (12) in the spawning units (11) are communicated with each other through the water outlet holes (122) and the water inlet holes (121).

3. The solar snakehead spawning plant according to claim 2, wherein: an oxygenation branch pipe (6) penetrating through the water outlet hole (122) and the water inlet hole (121) is paved in the spawning unit (11), the oxygenation branch pipe (6) is communicated with an oxygenation pipe (7), and the oxygenation pipe (7) is communicated with an oxygenation pump (9).

4. The solar snakehead spawning plant according to claim 1, wherein: a water inlet (13) is formed in a spawning pit (12) in the spawning unit (11) close to the water inlet pipe (4), and the spawning pit (12) is communicated with the water inlet pipe (4) through the water inlet (13); a water outlet (14) is formed in a spawning pit (12) in the spawning unit (11) close to the water outlet tank (5), and the spawning pit (12) is communicated with the water outlet tank (5) through the water outlet (14).

5. A solar snakehead spawning plant according to claim 3, characterized in that: a sunshade greenhouse (2) is arranged above the spawning pond (1), and a solar energy storage system (3) is arranged on the sunshade greenhouse (2).

6. The solar snakehead spawning plant according to claim 5, wherein: the sunshade greenhouse (2) comprises triangular ceiling supports (21), and the ceiling supports (21) are arranged on the spawning pond (1) through struts (22).

7. The solar snakehead spawning plant of claim 6, wherein: the solar energy storage system (3) comprises a solar panel (31) arranged on the ceiling bracket (21), a solar charge-discharge controller (32) and a solar storage battery (33); the solar charge-discharge controller (32) is respectively and electrically connected with the solar cell panel (31) and the solar storage battery (33); the solar storage battery (33) is respectively and electrically connected with the oxygenation pump (9) and the water pump (8).

8. The solar snakehead spawning plant of claim 7, wherein: an illumination device (10) is arranged in the sunshade greenhouse (2), and the illumination device (10) is electrically connected with a solar storage battery (33).