CN217958380U - Three-section type fish, shrimp, fungus and algae aquaculture circulating system - Google Patents

Abstract

The utility model relates to a syllogic fish shrimp fungus algae aquaculture circulation system, including first breed district, second breed district, fungus algae water purification system and filtering mechanism, the delivery port in first breed district is linked together with filtering mechanism's water inlet, and filtering mechanism's delivery port is linked together with the water inlet in second breed district, and the delivery port in second breed district is linked together with fungus algae water purification system's water inlet, and fungus algae water purification system's delivery port is linked together with the water inlet in first breed district, adopts above-mentioned structure to breed and can promote the fish shrimp survival rate and prevent water pollution.

Description

Three-section type fish, shrimp, fungus and algae aquaculture circulating system

Technical Field

The utility model belongs to the technical field of aquaculture, concretely relates to syllogic fish shrimp fungus algae aquaculture circulation system.

Background

At present, the existing large yellow croaker culture has the problems of low survival rate, high fatality rate and low investment return rate of the large yellow croaker due to the problems of extremely bad weather, high culture density, accumulated dung and the like, and the generated dung pollutes water quality.

SUMMERY OF THE UTILITY MODEL

In view of the not enough of prior art, the utility model aims to solve the technical problem that a syllogic fish shrimp fungus algae aquaculture circulation system is provided, it can promote the fish shrimp survival rate and prevent water pollution.

In order to solve the technical problem, the utility model adopts the technical scheme that: three-section type fish, shrimp, fungus and algae aquaculture circulation system, including first breed district, second breed district, fungus and algae water purification system and filtering mechanism, the delivery port in first breed district is linked together with filtering mechanism's water inlet, filtering mechanism's delivery port is linked together with the water inlet in second breed district, the delivery port in second breed district is linked together with fungus and algae water purification system's water inlet, fungus and algae water purification system's delivery port is linked together with the water inlet in first breed district.

The filter mechanism comprises a conveying pipeline and a filter cartridge, wherein an extension pipe is arranged at the lower end of the middle of the conveying pipeline and communicated with the conveying pipeline, a filter blocking net is formed in the conveying pipeline, the extension pipe is positioned on one side, facing the water inlet of the conveying pipeline, of the filter blocking net, a switch valve is formed at the water outlet of the extension pipe, and the filter cartridge is positioned below the water outlet of the extension pipe.

The cartridge filter includes a section of thick bamboo body and filter screen, the filter screen is located a section of thick bamboo body inner chamber and covers the inner chamber.

The first culture area comprises a yellow croaker culture pond.

The second culture area comprises a white prawn culture pond.

The fungus and algae water purification system comprises a purification tank, wherein chlorella and diatom are arranged in the purification tank.

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

the utility model discloses well first breed district is used for cultivating large yellow croaker, the water that has the excrement in the first breed district can flow in filtering mechanism, the excrement of aquatic can be filtered to filtering mechanism, send into the second breed district by the water after filtering and be used for cultivating white prawn, the excrement that is filtered disinfects the breakage and makes the white prawn that the tiny particle thing is used for raising the second breed district, cultivate the produced waste water that has nutritive salts such as ammonia nitrogen and arrange first breed district again after circulating water purification system purifies, form aquaculture hydrologic cycle, adopt above-mentioned structure to breed promotion fish and shrimp survival rate that can be great, can also prevent water pollution.

Drawings

FIG. 1 is a schematic view of the three-stage circulating system for aquaculture of fish, shrimp, bacteria and algae;

fig. 2 is a schematic sectional structure diagram of the middle filter mechanism of the present invention.

The labels in the figure are: 1. a first breeding area; 2. a second culture area; 3. a filtering mechanism; 31. a transport pipeline; 32. a filter cartridge; 321. a cartridge body; 322. filtering with a screen; 33. an extension pipe; 34. filtering and blocking nets; 4. fungus algae water purification system.

Detailed Description

In order to make the aforementioned and other features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

As shown in fig. 1-2, the present embodiment provides a three-stage aquaculture circulation system for fish, shrimp, fungi and algae, which includes a first cultivation area 1, a second cultivation area 2, a fungi and algae water purification system 4 and a filtering mechanism 3.

The water outlet of the first culture area 1 is communicated with the water inlet of the filtering mechanism 3, the first culture area 1 comprises a yellow croaker culture pond, the yellow croaker needs to be placed in another pond for culture in a short time before entering the yellow croaker culture pond, a TOC sensor (for detecting oxygen content), a pH sensor (for detecting pH value), an OPR sensor (for detecting temperature), a turbidity sensor (for detecting flow velocity) and a conductivity sensor (for deducing salinity) are arranged in the yellow croaker culture pond and used for detecting the temperature, the dissolved oxygen content in water, the pH value, the salinity and the flow velocity of water, the optimal culture environment of the yellow croaker is the temperature of 18-28 ℃, the dissolved oxygen content in water of more than 7.0mg/L, the pH value of 7.8-8.4, the salinity of 22-32% and the flow velocity of the water of 10-20cm/s, the water outlet of the first culture area 1 is communicated with the water inlet of the filtering mechanism 3, and the wastewater discharged into the filtering mechanism 3 from the first culture area 1.

The filtering mechanism 3 comprises a conveying pipeline 31 and a filter cylinder 32, an extension pipe 33 is arranged at the lower end of the middle of the conveying pipeline 31, the extension pipe 33 is communicated with the conveying pipeline 31, a filtering blocking net 34 is formed in the conveying pipeline 31, the extension pipe 33 is positioned on one side, facing the water inlet of the conveying pipeline 31, of the filtering blocking net 34, a switch valve is formed at the water outlet of the extension pipe 33, the filter cylinder 32 is positioned below the water outlet of the extension pipe 33, the filter cylinder 32 comprises a cylinder body 321 and a filter screen 322, the filter screen 322 is positioned in the inner cavity of the cylinder body 321 and covers the inner cavity, wastewater from the first culture area 1 enters the conveying pipeline 31, when passing through the filtering blocking net 34, excrement can be blocked in front of the filtering blocking net 34 and fall into the extension pipe 33 under the action of gravity, after the excrement is accumulated to a certain degree, the switch valve of the extension pipe 33 is opened, the excrement falls into the filter screen 322 of the filter cylinder 32, and water flows into the cylinder body 321 and is discharged back to the first culture area 1 again.

The water outlet of the filtering mechanism 3 is communicated with the water inlet of the second culture area 2, filtered water is discharged into the second culture area 2, the second culture area 2 comprises a white prawn culture pond, a TOC sensor, a pH sensor, an OPR sensor, a turbidity sensor and a conductivity sensor are arranged in the white prawn culture pond and used for detecting the temperature, the dissolved oxygen content in water, the pH value, the salinity and the flow rate of water in the yellow croaker culture pond, the optimal culture environment of white prawn is 25-32 ℃, the dissolved oxygen content in water of more than 5.0mg/L, the pH value is 7.8-8.3, the salinity is 10% -20% and the flow rate of water of 10-20cm/s, the water outlet of the second culture area 2 is communicated with the water inlet of the microalgae water purification system 4, and waste water of the second culture area 2 is discharged into the microalgae water purification system 4.

The bacteria-algae water purification system 4 comprises a purification tank, wherein probiotics, photosynthetic bacteria, nitrobacteria, activated carbon, chlorella and diatom are contained in the purification tank, are treated by the probiotics, the photosynthetic bacteria, the nitrobacteria and the activated carbon and are absorbed by the chlorella and the diatom.

The working principle is as follows: first breed district 1 is used for breeding large yellow croaker, the water that has the excrement in first breed district 1 can flow into filter mechanism 3, the excrement of aquatic blocks the net 34 and can fall into extension pipe 33 and realize filtering through filter mechanism 3's filtration, the water after being filtered is sent into second breed district 2 and is used for breeding white prawn, the excrement that is filtered is disinfected breakage and is made the tiny particle thing and be used for raising the white prawn of second breed district 2, breed produced waste water that has nutritive salts such as ammonia nitrogen and purify through circulating water purification system (purify through the interact of probiotic in the purifying pond, photosynthetic bacteria, nitrobacteria, active carbon, chlorella and diatom), discharge first breed district 1 again after the purification, form aquaculture hydrologic cycle, adopt above-mentioned structure to breed the promotion fish and shrimp survival rate that can be great, can also prevent water pollution.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (6)

1. Three-section type fish, shrimp, fungus and algae aquaculture circulation system, its characterized in that: the water purifier comprises a first culture area, a second culture area, a bacteria and algae water purification system and a filtering mechanism, wherein a water outlet of the first culture area is communicated with a water inlet of the filtering mechanism, a water outlet of the filtering mechanism is communicated with a water inlet of the second culture area, a water outlet of the second culture area is communicated with a water inlet of the bacteria and algae water purification system, and a water outlet of the bacteria and algae water purification system is communicated with a water inlet of the first culture area.

2. The three-stage fish, shrimp, fungus and algae aquaculture circulation system of claim 1, wherein: the filter mechanism comprises a conveying pipeline and a filter cartridge, an extension pipe is arranged at the lower end of the middle of the conveying pipeline and communicated with the conveying pipeline, a filter blocking net is formed in the conveying pipeline, the extension pipe is located on one side, facing a water inlet of the conveying pipeline, of the filter blocking net, a switch valve is formed at a water outlet of the extension pipe, and the filter cartridge is located below a water outlet of the extension pipe.

3. The three-stage fish, shrimp, fungus and algae aquaculture circulation system of claim 2, wherein: the cartridge filter includes a section of thick bamboo body and filter screen, the filter screen is located a section of thick bamboo body inner chamber and covers the inner chamber.

4. The three-stage fish, shrimp, fungus and algae aquaculture circulation system of claim 1, wherein: the first culture area comprises a yellow croaker culture pond.

5. The three-stage fish, shrimp, fungus and algae aquaculture circulation system of claim 1, wherein: the second culture area comprises a white prawn culture pond.

6. The three-stage fish, shrimp, fungus and algae aquaculture circulation system of claim 1, wherein: the fungus and algae water purification system comprises a purification tank, wherein chlorella and diatom are arranged in the purification tank.

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