CN214654054U - Breeding system - Google Patents

Abstract

The utility model discloses a culture system, which comprises a culture pond, wherein a water channel, a sedimentation well and a plurality of culture cavities are arranged in the culture pond, the water outlet end of the water channel is communicated with the culture cavities, the culture system also comprises a sewage discharge well, and the culture cavities are symmetrically arranged outside the sewage discharge well; the sewage draining well is arranged on one side of the water channel; a filtering pond is also arranged in the culture pond; the sewage draining well is respectively communicated with the culture cavity and the settling well; the sedimentation well is communicated with the filtering tank through a staggered layer water outlet pipe, the water inlet end of the staggered layer water outlet pipe is positioned in the sedimentation well, and the water outlet end of the staggered layer water outlet pipe is positioned in the filtering tank; and a filtering channel is arranged in the filtering tank, the water outlet end of the staggered-layer water outlet pipe is communicated with the water inlet end of the water channel through the filtering channel, and the water outlet end of the staggered-layer water outlet pipe is lower than the water inlet end of the water channel. Can replace a biological purification membrane to realize the filtration of excrement.

Description

Breeding system

Technical Field

The utility model relates to an aquaculture field especially indicates a farming systems.

Background

For the fish farming industry, the quality of the farming water is of great importance. In order to ensure that the fishes can survive in the environment with stable water quality, a water circulation system is usually adopted in the culture pond to realize the cyclic utilization of culture water. In the process of fish culture, a large amount of excrement is generated, and a physical filtering means is needed to filter the excrement. In the prior art, the biological purification membrane is adopted to filter excrement in water, but the biological purification membrane is easy to block during filtering, so that the biological purification membrane needs to be replaced frequently, the cost is high, and the filtering effect is not ideal.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model aims to solve the technical problem that a farming systems is provided, overcome among the prior art not good, the higher defect of cost of filter effect.

(II) technical scheme

In order to achieve the above object, the utility model discloses a main technical scheme include:

a culture system comprises a culture pond, a water passing channel, a sedimentation well and a plurality of culture cavities, wherein the culture pond is internally provided with the water passing channel, the sedimentation well and the culture cavities;

the sewage draining well is arranged on one side of the water channel;

a sedimentation well and a filtering tank are also arranged in the culture pond;

the sewage draining well is respectively communicated with the culture cavity and the settling well;

the sedimentation well is communicated with the filtering tank through a staggered layer water outlet pipe, the water inlet end of the staggered layer water outlet pipe is positioned in the sedimentation well, and the water outlet end of the staggered layer water outlet pipe is positioned in the filtering tank;

a filtering channel is arranged in the filtering tank, the water outlet end of the staggered layer water outlet pipe is communicated with the water inlet end of the water channel through the filtering channel, and the water outlet end of the staggered layer water outlet pipe is lower than the water inlet end of the water channel.

Further, the sewage draining well is communicated with the culture cavity through a first sewage draining pipe;

the sewage draining well is communicated with the settling well through a second sewage draining pipe.

Further, a first drainage part and a second drainage part are arranged in the filter tank;

the first end of the first drainage part and the first end of the second drainage part are both arranged on the inner wall of the filtering tank;

the water inlet end of the water channel is positioned between the first end of the first drainage part and the first end of the second drainage part;

the water outlet end of the staggered-layer water outlet pipe is positioned between the first end of the first drainage part and the inner wall of the filter tank;

the second flow guide does not completely wrap the second end of the first flow guide to form a filter channel.

Further, a third drainage part is arranged in the sedimentation well;

one end of the third drainage part is arranged on the side wall of one side, adjacent to the filter tank, of the sedimentation well, so that the third drainage part and the inner wall of the sedimentation well form a sedimentation channel.

Furthermore, the water inlet end of the staggered-layer water outlet pipe is communicated with the sedimentation channel.

Furthermore, a settling tank is arranged at the bottom of one end of the settling well, which is far away from the filtering tank;

the sedimentation groove is positioned at one side of the sedimentation channel.

Furthermore, the depth of the settling tank is 30 cm-50 cm.

Further, the water channel comprises a first water channel and a second water channel;

the sewage draining well is arranged between the first water passing channel and the second water passing channel;

the first water channel and the second water channel are communicated through a pipeline.

(III) advantageous effects

The utility model has the advantages that: the utility model discloses a blowoff well, and the breed pond intercommunication that sets up blowoff well and a plurality of symmetries, so that the hydroenergy in the breed pond enough flows into in the blowoff well and flows into in the sedimentation tank from the blowoff well and carry out the water quality sediment, excrement or other large granule impurity that make the aquatic sinks into the sedimentation tank bottom, realize preliminary purification, and upper water after the purification further deposits in getting into the filtering ponds through the staggered floor outlet pipe, the water purification gets into different breed ponds after getting into respectively from the end of intaking of raceway, water circulation has been realized, the purification of quality of water has been realized simultaneously, replace the biological purification membrane among the prior art, and the cost is saved, and economic benefits is higher.

Drawings

FIG. 1 is a schematic structural view of a cultivation system of the present invention from a top view;

fig. 2 is a schematic structural view of the water passing channel and the sewage draining well of the present invention.

Description of reference numerals:

1. a culture pond; 11. a culture cavity;

2. a water channel; 21. the water inlet end of the water channel; 22. the water outlet end of the water channel; 23. a first water passing channel; 24. a second water passing channel; 25. a U-shaped pipe;

3. a sediment well; 30. a sedimentation channel; 31. a third drainage part; 301. a settling tank; 302. a waste discharge pipe;

4. a sewage draining well;

5. a filtration tank; 51. a filtration channel; 52. a first drainage part; 53. a second drainage part; 521. a first end of the first drainage portion; 522. a second end of the first drainage portion; 531. a first end of the second drainage portion;

6. a staggered-layer water outlet pipe; 61. the water inlet end of the staggered-layer water outlet pipe; 62. the water outlet end of the staggered layer water outlet pipe;

7. a first drain pipe;

8. a second sewage draining pipe;

9. and (4) a water inlet pipe.

Detailed Description

For a better explanation of the invention, the invention is described in detail by way of specific embodiments for ease of understanding.

A culture system comprises a culture pond, a water passing channel, a sedimentation well and a plurality of culture cavities, wherein the culture pond is internally provided with the water passing channel, the sedimentation well and the culture cavities;

the sewage draining well is arranged on one side of the water channel;

a filtering pond is also arranged in the culture pond;

the sewage draining well is respectively communicated with the culture cavity and the settling well;

the sedimentation well is communicated with the filtering tank through a staggered layer water outlet pipe, the water inlet end of the staggered layer water outlet pipe is positioned in the sedimentation well, and the water outlet end of the staggered layer water outlet pipe is positioned in the filtering tank;

a filtering channel is arranged in the filtering tank, the water outlet end of the staggered layer water outlet pipe is communicated with the water inlet end of the water channel through the filtering channel, and the water outlet end of the staggered layer water outlet pipe is lower than the water inlet end of the water channel.

From the above description, the utility model discloses a blowoff well, and with the breed pond intercommunication that blowoff well and a plurality of symmetry set up, so that the hydroenergy in the breed pond enough flows into in the blowoff well and flow into in the sedimentation tank from the blowoff well and carry out the water quality sediment, excrement or other large granule impurity that make aquatic sink into the sedimentation tank bottom, realize preliminary purification, and upper water after the purification further deposits in getting into the filtering ponds through the staggered floor outlet pipe, the water purification gets into different breed ponds respectively after getting into from the end of intaking of ditch, water circulation has been realized, the purification of quality of water has been realized simultaneously, replace the biological purification membrane among the prior art, the cost is saved, economic benefits is higher.

Further, the sewage draining well is communicated with the culture cavity through a first sewage draining pipe;

the sewage draining well is communicated with the settling well through a second sewage draining pipe.

According to the description, the sewage draining well is respectively communicated with different breeding cavities through the plurality of first sewage draining pipes, the breeding cavities are symmetrically arranged, and then the sewage draining pipes and the sewage draining well form a communicating device, when the liquid level in one breeding cavity is too low, the second sewage draining pipe is blocked, under the action of air pressure, the liquid level among the breeding cavities is automatically adjusted through the first sewage draining pipes and the sewage draining well, so that the liquid level in each breeding cavity reaches the same height, the method is more efficient, does not need a power device, and has high economic benefit; and the sewage discharge well is communicated with the precipitation well through a second sewage discharge pipe, so that sewage entering the sewage discharge well enters the precipitation well through the second sewage discharge pipe to be primarily precipitated and purified.

Further, a first drainage part and a second drainage part are arranged in the filter tank;

the first end of the first drainage part and the first end of the second drainage part are both arranged on the inner wall of the filtering tank;

the water inlet end of the water channel is positioned between the first end of the first drainage part and the first end of the second drainage part;

the water outlet end of the staggered-layer water outlet pipe is positioned between the first end of the first drainage part and the inner wall of the filter tank;

the second flow guide does not completely wrap the second end of the first flow guide to form a filter channel.

According to the above description, set up first drainage portion and second drainage portion for form filtering channel, after the sewage that gets into filtering tank from the blowwell passes through filtering channel completely, can realize the secondary and deposit and purify, wherein, the end of intaking of crossing the ditch is located high water level department, the end place horizontal plane of intaking of crossing the ditch promptly is higher than the play water end place horizontal plane of staggered floor outlet pipe, can make the end of intaking of crossing the ditch extract and carry to corresponding breed in the pond behind the clear water of filtering tank upper strata, the realization is purified excrement and large granular material's precipitation, and water cycle has been realized.

Further, a third drainage part is arranged in the sedimentation well;

one end of the third drainage part is arranged on the side wall of one side, adjacent to the filter tank, of the sedimentation well, so that the third drainage part and the inner wall of the sedimentation well form a sedimentation channel.

Furthermore, the water inlet end of the staggered-layer water outlet pipe is communicated with the sedimentation channel.

According to the above description, the third drainage part is arranged for forming the sedimentation channel, enough time is reserved for sewage to carry out sedimentation, and water after primary sedimentation can enter the filter tank through the water inlet end of the staggered layer water outlet end.

Furthermore, a settling tank is arranged at the bottom of one end of the settling well, which is far away from the filtering tank;

the sedimentation groove is positioned at one side of the sedimentation channel.

Furthermore, the depth of the settling tank is 30 cm-50 cm.

As can be seen from the above description, the settling tank is provided for enabling the impurities in the settling well to settle in the settling tank, and facilitating the collection and discharge of the impurities.

Further, the water channel comprises a first water channel and a second water channel;

the sewage draining well is arranged between the first water passing channel and the second water passing channel;

the first water channel and the second water channel are communicated through a pipeline.

Example one

Referring to fig. 1 and 2, the cultivation system comprises a cultivation pond 1, wherein a water passing channel 2, a sedimentation well 3 and a plurality of cultivation cavities 11 are arranged in the cultivation pond 1, a water outlet end 22 of the water passing channel is communicated with the cultivation cavities 11, the cultivation system further comprises a sewage draining well 4, and the plurality of cultivation cavities 11 are symmetrically arranged on the outer side of the sewage draining well 4;

the sewage draining well 4 is arranged at one side of the water passing channel 2;

a filtering pond 5 is also arranged in the culture pond 1;

the sewage draining well 4 is respectively communicated with the culture cavity 11 and the settling well 3;

the sedimentation well 3 is communicated with the filtering tank 5 through a staggered layer water outlet pipe 6, the water inlet end 61 of the staggered layer water outlet pipe is positioned in the sedimentation well 3, and the water outlet end 62 of the staggered layer water outlet pipe is positioned in the filtering tank 5;

a filtering channel 51 is arranged in the filtering tank 5, the water outlet end 62 of the staggered layer water outlet pipe is communicated with the water inlet end 21 of the water channel through the filtering channel 51, and the water outlet end 62 of the staggered layer water outlet pipe is lower than the water inlet end 21 of the water channel.

Preferably, the sewage drainage well 4 is in a diamond shape;

preferably, the four culture cavities 11 are distributed in a central symmetry manner, and the settling well 3 is arranged at the symmetric center of the four culture cavities 11;

referring to fig. 1 and 2, the sewage well 4 communicates with the culture chamber 11 through the first sewage pipe 7;

the sewage draining well 4 is communicated with the settling well 3 through a second sewage draining pipe 8.

Preferably, the water inlet of the first sewage discharge pipe 7 is positioned at the bottom of the culture cavity 11, the water outlet of the first sewage discharge pipe 7 and the water inlet of the second sewage discharge pipe 8 are both positioned at the bottom of the sewage well 4, and the water outlet of the second sewage discharge pipe 8 and the water outlet end 62 of the staggered layer water outlet pipe are positioned at the same side in the sedimentation well 3 and positioned at the bottom of one end far away from the water outlet of the second sewage discharge pipe 8, so that enough sedimentation time is reserved for the water body;

referring to fig. 1, a first drainage portion 52 and a second drainage portion 53 are provided in the filtration tank 5;

the first end 521 of the first drainage part and the first end 531 of the second drainage part are both arranged on the inner wall of the filtering tank 5; the water inlet end 21 of the water channel is positioned between the first end 521 of the first drainage part and the first end 531 of the second drainage part; the water outlet end 62 of the staggered-layer water outlet pipe is positioned between the first end 521 of the first drainage part and the inner wall of the filter tank 5; second flow director 53 does not completely wrap around second end 522 of first flow director to form filtration channel 51.

Specifically, the staggered-layer water outlet pipe 6 is a Z-shaped pipe, and the staggered-layer water outlet pipe 6 is positioned at the lower side of the water channel 2 and is arranged in the side wall of the filtering tank 5 adjacent to the settling well 3;

specifically, the water inlet end 21 of the water passing channel is communicated with the filtering tank 5 through a water inlet pipe 9, the water outlet end of the water passing channel 2 is positioned at the bottom of the water passing channel 2, the water outlet end of the water passing channel 2 is communicated with the culture cavity 11 through an L-shaped pipe, and the water inlet end of the L-shaped pipe is communicated with the water passing channel 2 through a gas-water circulating device;

floating plants such as water spinach and water hyacinth and decomposition microorganisms such as green algae and diatoms can be cultivated in the settling well 3 and used for decomposing ammonia nitrogen substances in the water channel 2 so as to achieve the effects of purifying the water body and improving the disease resistance of the ecological environment in the cultivation pond 1, and then organic suspended matters in the water body are further separated through the air-lift water circulating device;

wherein the liquid inlet end of the water inlet pipe 9 is positioned below the liquid level of the upper layer of purified water, and the height difference between the liquid inlet end of the water inlet pipe 9 and the liquid level is 2-4 cm;

referring to fig. 1, a third drainage portion 31 is provided in the settling well 3; one end of the third drainage part 31 is installed on the side wall of the adjacent side of the sedimentation well 3 and the filter tank 5, so that the sedimentation channel 30 is formed by the third drainage part 31 and the inner wall of the sedimentation well 3.

Specifically, the height of the third drainage portion 31 is equal to the depth of the settling well 3;

referring to fig. 1, the inlet end 61 of the staggered outlet pipe is in communication with the sedimentation channel 30.

Referring to fig. 2, a settling tank 301 is arranged at the bottom of one end of the settling well 3, which is far away from the filtering tank 2; the precipitation tank 301 is located one side of precipitation passageway 30, and the export of arranging waste pipe 302 is opened in the impurity deposit after a period of time in precipitation tank 301 to precipitation tank 301 outer wall and a row of waste pipe 302 intercommunication, and the impurity in the precipitation tank 301 is discharged through arranging waste pipe 302. Optionally, the depth of the precipitation tank 301 is 30 cm-50 cm, preferably 50 cm.

Referring to fig. 2, the raceway 2 includes a first raceway 23 and a second raceway 24; the sewage draining well 4 is arranged between the first water passing channel 23 and the second water passing channel 24; the bottom of the first water passing channel 23 and the bottom of the second water passing channel 24 are communicated through a U-shaped pipe 25.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (8)

1. A culture system comprises a culture pond, wherein a water passing channel, a sedimentation well and a plurality of culture cavities are arranged in the culture pond, and the water outlet end of the water passing channel is communicated with the culture cavities;

the sewage draining well is arranged in the water passing channel;

a filtering pond is also arranged in the culture pond;

the sewage draining well is respectively communicated with the culture cavity and the settling well;

the sedimentation well is communicated with the filtering tank through a staggered layer water outlet pipe, the water inlet end of the staggered layer water outlet pipe is positioned in the sedimentation well, and the water outlet end of the staggered layer water outlet pipe is positioned in the filtering tank;

and a filtering channel is arranged in the filtering tank, the water outlet end of the staggered-layer water outlet pipe is communicated with the water inlet end of the water channel through the filtering channel, and the water outlet end of the staggered-layer water outlet pipe is lower than the water inlet end of the water channel.

2. The farming system of claim 1, wherein the sewerage well communicates with the farming cavity via a first sewerage pipe;

the sewage draining well is communicated with the settling well through a second sewage draining pipe.

3. The culture system of claim 1, wherein a first drainage portion and a second drainage portion are arranged in the filter tank;

the first end of the first drainage part and the first end of the second drainage part are both arranged on the inner wall of the filtering tank;

the water inlet end of the water channel is positioned between the first end of the first drainage part and the first end of the second drainage part;

the water outlet end of the staggered-layer water outlet pipe is positioned between the first end of the first drainage part and the inner wall of the filter tank;

the second flow director does not completely wrap outside the second end of the first flow director to form the filter channel.

4. The culture system of claim 1, wherein a third drainage portion is arranged in the sedimentation well;

one end of the third drainage part is arranged on the side wall of the adjacent side of the sedimentation well and the filtering tank, so that a sedimentation channel is formed between the third drainage part and the inner wall of the sedimentation well.

5. The culture system of claim 4, wherein the water inlet end of the staggered floor water outlet pipe is communicated with the sedimentation channel.

6. The culture system of claim 4, wherein a settling tank is arranged at the bottom of one end of the settling well, which is far away from the filter tank;

the sedimentation groove is positioned at one side of the sedimentation channel.

7. The culture system of claim 6, wherein the depth of the settling tank is 30 cm-50 cm.

8. The farming system of claim 1, wherein the raceway comprises a first raceway and a second raceway;

the sewage draining well is arranged between the first water passing channel and the second water passing channel;

the first water channel and the second water channel are communicated through a pipeline.

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