CN220606888U - Organic waste recycling unit of industrial circulating water culture system - Google Patents

Abstract

The utility model relates to the technical field of aquaculture waste treatment, and provides an organic waste recycling unit of an industrial circulating water culture system, which comprises a mineralization bucket, wherein the mineralization bucket is used for fermenting and mineralizing organic waste to produce organic liquid; the advanced treatment barrel is connected with the mineralization barrel and is used for carrying out sterilization treatment on the organic liquid; the bacteria and algae pond is connected with the advanced treatment barrel, and uses organic liquid to culture bacteria and algae used for cultivation; and in the planting area, the organic liquid is utilized to produce vegetables and fruits. Therefore, the organic waste is mineralized to obtain the organic liquid, and bacteria and algae used for culturing and breeding are utilized by the organic liquid to be reused in the culture pond, so that high-quality vegetables and fruits are produced. The method has the advantages that the probiotics and algae used for cultivation are obtained while the effective treatment of the organic waste is realized, the cultivation cost is reduced, the cultivation ecological environment is stabilized, and the recycling of the organic waste is realized.

Description

Organic waste recycling unit of industrial circulating water culture system

Technical Field

The utility model belongs to the technical field of waste treatment, and particularly relates to an organic waste recycling unit of an industrial circulating water culture system.

Background

The waste water produced in fish or shrimp culture pond contains a great amount of organic waste, such as feces, residual bait, etc. In order to avoid direct discharge and environmental pollution, the wastewater needs to be subjected to harmless treatment. The current common treatment mode is to carry out solid-liquid separation on the wastewater, separate out the solid organic waste, treat the water body and recycle the water body. The separated solid machine waste is usually discharged, pollutes the environment and is not recycled. Such as the treatment disclosed in chinese patent CN109329174 a.

On the other hand, special substances for culturing algae and probiotics are required to be put into the water body for culturing fishes and shrimps so as to maintain the ecological advantages of algae in the culture water body. The algae quality of the algae purchased in the market is uneven, and the input product for cultivating algae is a part of the aquaculture cost with a large proportion, and is also a part of the aquaculture operation labor with a large proportion.

In summary, it is clear that the prior art has inconvenience and defects in practical use, so that improvement is needed.

Disclosure of Invention

Aiming at the defects, the utility model mainly provides an organic waste recycling unit of a factory circulating water culture system, which solves the technical problems of organic waste pollution and recycling generated by culture.

In order to solve the problems, the utility model provides an organic waste recycling unit of a factory circulating water culture system, which comprises a mineralization bucket, a water tank and a water tank, wherein the mineralization bucket is used for fermenting and mineralizing organic waste to generate organic liquid;

the advanced treatment barrel is connected with the mineralization barrel and is used for carrying out sterilization treatment on the organic liquid;

the algae pond is connected with the advanced treatment barrel, and utilizes organic liquid to culture algae and fungus substances used for cultivation.

According to the organic waste recycling unit of the industrial circulating water culture system, a plurality of filter bags are arranged in the mineralization barrel, and each filter bag is connected with a feed pipe; and a liquid outlet used for being connected with the advanced treatment barrel is also formed in the mineralization barrel.

According to the organic waste recycling unit of the industrial circulating water culture system, a sewage outlet is further formed in the mineralization barrel.

The organic waste recycling unit of the industrial circulating water culture system comprises a planting module which is connected with a deep treatment barrel.

According to the organic waste recycling unit of the industrial circulating water culture system, the advanced treatment barrel is connected with the delivery pump, and the delivery pump is connected with the diverter valve; the diverter valve is also respectively connected with the bacteria and algae pond and the planting module.

The organic waste recycling unit of the industrial circulating water culture system comprises an organic liquid barrel, a deep treatment barrel and a planting module, wherein the organic liquid barrel is connected with the deep treatment barrel and is used for containing organic liquid;

the fruit and vegetable area and the leaf vegetable area are used for consuming the organic liquid in the organic liquid barrel and respectively producing the fruit and vegetable and the leaf vegetable.

According to the organic waste recycling unit of the industrial circulating water culture system, the organic liquid barrel is connected with the fertilizer applicator for supplying organic liquid to the fruit and vegetable areas and the leaf vegetable areas.

According to the organic waste recycling unit of the industrial circulating water culture system, the fertilizer applicator is also connected with a water cleaning barrel.

According to the organic waste recycling unit of the industrial circulating water culture system, the planting module further comprises a cultivation pool, the cultivation pool is circularly connected with the leaf vegetable area through a circulating pump, and the cultivation pool is further connected with a fertilizer applicator.

According to the organic waste recycling unit of the industrial circulating water culture system, the leaf vegetable area comprises a plurality of layers of planting pipelines, and two sides of each layer of planting pipeline are respectively connected with a water pipe; the branch water pipes on each side are connected to the vertical water pipe; the vertical water pipes positioned at two sides of the planting pipeline are respectively connected with a water inlet pipe and a water return pipe; the water inlet pipe and the water return pipe are respectively connected with the cultivation pool.

In conclusion, the organic waste is mineralized to obtain the organic liquid, and algae used for cultivation are cultivated by the organic liquid and recycled to the cultivation pool. The algae used for cultivation is obtained while the effective treatment of the organic waste is realized, the cultivation cost is reduced, and the effective recycling of the organic waste is realized.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the internal structure of the mineralization cartridge of FIG. 1;

FIG. 3 is a schematic view of a planting module according to the present disclosure;

FIG. 4 is a schematic view of an embodiment of a leaf vegetable area of the present utility model;

FIG. 5 is a schematic view of the structure in the direction A in FIG. 4;

FIG. 6 is a schematic view of the structure of an embodiment of the fruit and vegetable area of the present utility model;

in the figure: 1, a mineralization barrel, 11-a feed pipe, 12-a filter bag, 13-a liquid outlet and 14-a sewage outlet; 2-deep treatment barrel, 21-delivery pump, 22-diverter valve; 3-bacteria and algae pond, 4-planting module, 41-organic liquid barrel, 42-fertilizer applicator, 43-fruit and vegetable area, 431-planting groove, 432-planting substrate, 433-drip irrigation pipeline; 44-leaf vegetable area, 441-planting pipeline, 442-water inlet pipe, 443-water standing pipe, 444-branch water pipe and 445-water return pipe; 45-cultivation pool, 46-circulating pump, 47-water barrel; 100-a culture pond.

Detailed Description

Referring to fig. 1, the utility model provides an organic waste recycling unit of a factory circulating water culture system, which comprises a mineralization barrel 1, a water treatment tank and a water treatment tank, wherein the mineralization barrel is used for fermenting and mineralizing organic waste to generate organic liquid;

taking a fish and shrimp culture pond as an example, organic wastes such as residual baits, feces and the like extracted from the pond are concentrated into a sewage collecting pond through solid-liquid separation, microfiltration and the like. Then pumping into mineralization barrel 1, and adding heterotrophic bacteria such as composite spore, em bacteria or yeast.

After the organic waste is fermented and mineralized, the produced large-particle organic matters are changed into amino acid small molecules, saccharides, ammonia nitrogen, salts, minerals and the like through hydration, and are dissolved in water to form organic liquid.

As an embodiment of the mineralization barrel 1, referring to fig. 2, a plurality of filter bags 12 are arranged in the mineralization barrel 1, and each filter bag 12 is connected with a feeding pipe 11; the mineralization barrel 1 is also provided with a liquid outlet 13 for connecting with the advanced treatment barrel 2; a body of water is added to the tank to submerge each filter bag 12. The organic waste can be pumped into the feed pipe 11 through a water pump and distributed into each filter bag 12, mineralization fermentation occurs in the bags, and the organic liquid enters the advanced treatment barrel 2 from the liquid outlet 13. The filter bag 12 of the present utility model is preferably made of nonwoven fabric.

Preferably, the mineralizing barrel 1 is also provided with a sewage outlet 14, and after long-time use, the sewage accumulated at the bottom of the barrel can be discharged from the sewage outlet 14 and re-enter the sewage collecting pool.

A deep treatment barrel 2 connected with the mineralization barrel 1 and carrying out sterilization treatment on the organic liquid; the deep treatment barrel 2 is internally provided with a micro-nano generator, and after the organic liquid generated in the mineralization barrel 1 enters the deep treatment barrel 2, the micro-nano generator kills harmful bacteria in the organic liquid by ozone.

The bacteria and algae pond 3 is connected with the advanced treatment barrel 2 and is used for culturing algae and fungus substances used for cultivation by utilizing organic liquid; the nutrients in the organic liquid are utilized to quickly reproduce in the water body to form algae phases such as diatom or green algae. The cultured algae may be stored in the algae pond 3. The algae pond 3 is connected with the culture pond 100, and algae are put in according to the actual demand of culture.

The utility model mineralizes the organic waste to obtain organic liquid, and cultures algae for cultivation by using the organic liquid, and the algae is recycled to the cultivation pool. The algae used for cultivation is obtained while the effective treatment of the organic waste is realized, natural baits for fishes and shrimps are provided, the ecology of the cultivation water body is stabilized, the cultivation cost is reduced, and the effective recycling of the organic waste is realized.

Further, the utility model also comprises a planting module 4 connected with the deep treatment barrel 2; the mineralized organic liquid is preferentially used for the bacteria-algae pond 3, and the redundant organic liquid is supplied to the planting module 4 for planting vegetables or fruits, so that the discharge of the redundant organic liquid is avoided, and the reutilization degree of organic wastes is improved.

As an embodiment, the deep treatment tank 2 is connected with a delivery pump 21, and the delivery pump 21 is connected with a diverter valve 22; the diverter valve 22 is also respectively connected with the bacteria and algae pond 3 and the planting module 4.

Referring to fig. 3, as an embodiment of the planting module 4, the planting module 4 of the present utility model includes

An organic liquid barrel 41 connected with the deep treatment barrel 2 and used for bearing organic liquid;

a fruit and vegetable area 43 and a leaf vegetable area 44 for consuming the organic liquid in the organic liquid tank 41;

further, the organic liquid barrel 41 is connected with a fertilizer applicator 42, and organic liquid is supplied to the fruit and vegetable area 43 and the leaf vegetable area 44 through the fertilizer applicator 42;

preferably, the fertilizer distributor 42 is further connected with a clean water bucket 47, and a proper amount of clean water is added for concentration adjustment.

The leaf vegetable species planted in the leaf vegetable area 44 of the utility model are: lettuce, shanghai green, lettuce, celery and the like;

the types of fruits and vegetables planted in the fruit and vegetable area 43 are: fructus Lycopersici Esculenti, fructus Cucumidis Sativi, fructus Trichosanthis, cornu Naemorhedi honey, fructus melo, strawberry etc

Further, the planting module 4 of the present utility model further comprises a cultivation pool 45, the cultivation pool 45 is circularly connected with the leaf vegetable area 44 through a circulating pump 46, and the cultivation pool 45 is further connected with the fertilizer distributor 42;

the nutrient solution is temporarily stored or prepared by a cultivation pool 45 and forms an internal circulation with the leaf vegetable area 44.

Referring to fig. 4 and 5, as an embodiment of the leaf vegetable area 44, the leaf vegetable area 44 includes a plurality of planting pipes 441, and two sides of each layer of planting pipes 441 are respectively connected with a water pipe 444; a plurality of planting holes are formed in each planting pipeline 441 at equal intervals, planted plants are inserted from the planting holes, and the roots of the plants absorb nutrients from the planting pipelines 441.

Branch water pipes 444 on each side are connected to the standing water pipe 443; vertical water pipes 443 positioned at both sides of the planting pipeline 441 are respectively connected with a water inlet pipe 442 and a water return pipe 445; the water inlet pipe 442 and the water return pipe 445 are respectively connected with the cultivation pond 45, so that the internal circulation of the nutrient solution is realized.

Referring to fig. 6, as an example of the fruit and vegetable area 43, the fruit and vegetable area 43 includes a planting groove 431 and a drip irrigation pipe 433; the planting groove 431 is filled with a planting matrix 432 for planting fruits and vegetables; the drip irrigation pipeline 433 is connected with the fertilizer distributor 42, and a plurality of drip holes are uniformly distributed on the pipe body of the drip irrigation pipeline 433, and organic liquid is conveyed in a drip irrigation mode.

As an embodiment, drip irrigation pipes 433 may be laid on the surface of the planting substrate 432 and near the roots of the planted fruit and vegetable, facilitating drip irrigation of the organic liquid.

In summary, the utility model provides an organic waste recycling unit of a factory circulating water culture system, which is used for mineralizing organic waste to obtain organic liquid, culturing algae for culture by using the organic liquid and recycling the algae to a culture pond. The algae used for cultivation is obtained while the effective treatment of the organic wastes is realized, the cultivation cost is reduced, and meanwhile, the organic nutrient solution converted from the cultivation manure is converted into high-value fruits and vegetables through the arrangement of the planting areas of leaf vegetables and fruit vegetables; realizing the effective recycling of the organic waste.

Of course, the present utility model is capable of other various embodiments and its several details are capable of modification and variation in light of the present utility model, as will be apparent to those skilled in the art, without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (10)

1. An organic waste recycling unit of an industrial circulating water culture system is characterized by comprising

The mineralization barrel is used for fermenting and mineralizing the organic wastes to generate organic liquid;

the advanced treatment barrel is connected with the mineralization barrel and is used for carrying out sterilization treatment on the organic liquid;

the algae pond is connected with the advanced treatment barrel, and utilizes organic liquid to culture algae and fungus substances used for cultivation.

2. The organic waste recycling unit of the industrial circulating water culture system according to claim 1, wherein a plurality of filter bags are arranged in the mineralization barrel, and each filter bag is connected with a feed pipe; and a liquid outlet used for being connected with the advanced treatment barrel is also formed in the mineralization barrel.

3. The organic waste recycling unit of the industrial circulating water culture system according to claim 2, wherein a sewage outlet is further arranged on the mineralization barrel.

4. The organic waste recycling unit of the industrial circulating water culture system according to any one of claims 1 to 3, further comprising a planting module connected to the advanced treatment tank.

5. The organic waste recycling unit of the industrial circulating water culture system according to claim 4, wherein the advanced treatment barrel is connected with a delivery pump, and the delivery pump is connected with a diverter valve; the diverter valve is also respectively connected with the bacteria and algae pond and the planting module.

6. The organic waste recycling unit of the industrial circulating aquaculture system according to claim 4, wherein the planting module comprises

The organic liquid barrel is connected with the advanced treatment barrel and is used for bearing organic liquid;

the fruit and vegetable area and the leaf vegetable area are used for consuming the organic liquid in the organic liquid barrel and respectively producing the fruit and vegetable and the leaf vegetable.

7. The organic waste recycling unit of the industrial circulating water culture system of claim 6, wherein the organic liquid bucket is connected to a fertilizer applicator for supplying organic liquid to the fruit and vegetable area and the leaf vegetable area.

8. The organic waste recycling unit of the industrial circulating aquaculture system of claim 7, wherein the fertilizer applicator is further connected to a water-cleaning tank.

9. The organic waste recycling unit of the industrial circulating water culture system of claim 6, wherein the planting module further comprises a cultivation pool, the cultivation pool is circularly connected with the leaf vegetable area through a circulating pump, and the cultivation pool is further connected with a fertilizer applicator.

10. The organic waste recycling unit of the industrial circulating water culture system according to claim 9, wherein the leaf vegetable area comprises a plurality of layers of planting pipelines, and two sides of each layer of planting pipeline are respectively connected with a water pipe; the branch water pipes on each side are connected to the vertical water pipe; the vertical water pipes positioned at two sides of the planting pipeline are respectively connected with a water inlet pipe and a water return pipe; the water inlet pipe and the water return pipe are respectively connected with the cultivation pool.