CN203985548U - The cultivating system of a kind of simple and easy high yield and ecological, environmental protective - Google Patents

The cultivating system of a kind of simple and easy high yield and ecological, environmental protective Download PDF

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Publication number
CN203985548U
CN203985548U CN201420050521.3U CN201420050521U CN203985548U CN 203985548 U CN203985548 U CN 203985548U CN 201420050521 U CN201420050521 U CN 201420050521U CN 203985548 U CN203985548 U CN 203985548U
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China
Prior art keywords
pipe
ecological
culturing pool
fish
settling box
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Expired - Fee Related
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CN201420050521.3U
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Chinese (zh)
Inventor
韩永望
张哲勇
唐林凡
罗国强
郑继成
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Tongwei Co Ltd
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Tongwei Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A40/00Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
    • Y02A40/80Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in fisheries management
    • Y02A40/81Aquaculture, e.g. of fish
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P60/00Technologies relating to agriculture, livestock or agroalimentary industries
    • Y02P60/60Fishing; Aquaculture; Aquafarming

Abstract

The utility model proposes the cultivating system of a kind of simple and easy high yield and ecological, environmental protective.It comprises that the fish, dish symbiosis culturing pool, sewage disposal system, water purifying area and the water that are communicated with successively return to culturing pool recycling system; The dirty extraction system in the end is housed in described fish, dish symbiosis culturing pool, dirty extraction system is communicated with sewage disposal system by pipeline at this end, compared with prior art, the beneficial effects of the utility model are the original position ecological treatment technology such as this system integration fish and vegetable symbiotic, microorganism solidify and end dirt extracting, natural sedimentation, microbe filter, plant purification isotonic ecological treatment technology.Can ensure that by original position restoration of the ecosystem and dystopy ecological reestablishment cultivation realizes high yielding culture ecological, environmental protection.

Description

The cultivating system of a kind of simple and easy high yield and ecological, environmental protective
Technical field
The utility model relates to the cultivating system of a kind of simple and easy high yield and ecological, environmental protective.
Background technology
Pond culture is the main breeding way of China, however there is water seriously polluted, yield poorly, product quality can not get the problems such as guarantee.Industrial circulating water cultivating can solve the above several respects problem existing in pond culture, but affected by the factors such as investment, breed variety, operational administrative, at present also cannot large-scale promotion.Population increase, fishery amount of fishing decline and require aquaculture industry to provide more aquatic products to satisfy social needs.Be difficult to expand in industrial aquaculture scale, in the general lower situation of pond culture output, in order to meet the demand of society to aquatic products, often expand cultured area, improve at the cost of the environment aquatic products total amount.
For China's Aquaculture Status, urgent need will be explored a kind of Novel cultivation mode of applicable China, meets people realize ecological, environment-protecting cultivation in to aquatic products gross demand at high yield, does not exchange cultured output for taking resource, environment as cost.
Utility model content
The utility model proposes the cultivating system of a kind of simple and easy high yield and ecological, environmental protective, solved deficiency of the prior art, this system integration fish and vegetable symbiotic, microorganism such as solidify at the original position ecological treatment technology and end dirt extracting, natural sedimentation, microbe filter, plant purification isotonic ecological treatment technology.Can ensure that by original position restoration of the ecosystem and dystopy ecological reestablishment cultivation realizes high yielding culture ecological, environmental protection.
The technical solution of the utility model is achieved in that the cultivating system of a kind of simple and easy high yield and ecological, environmental protective, and it comprises that the fish, dish symbiosis culturing pool, sewage disposal system, water purifying area and the water that are communicated with successively return to culturing pool recycling system; The dirty extraction system in the end is housed in described fish, dish symbiosis culturing pool, dirty extraction system is communicated with sewage disposal system by pipeline at this end, and in described fish, dish symbiosis culturing pool, the aquatic vegetable area of plantation is generally no more than 1/3rd of fish, dish symbiosis culturing pool water surface area.
Further, described sewage disposal system comprises the settling box and the biological lauter tub that are communicated with successively by connecting pipe, this connecting pipe is provided with the second communicating valve, on one end of described connecting pipe connection settling box, be connected with the settling box outlet pipe that is positioned at settling box, the top of this settling box outlet pipe is lower than settling box top edge, the bottom of described settling box is connected with the second blow-off pipe, on the second blow-off pipe, be provided with the second blowoff valve, dirt in settling box regularly can be discharged, the dirt of discharge can be used for the uses such as plant organic fertilizer; The one end that is communicated with biological lauter tub on the pipeline of described connection settling box and biological lauter tub enters from the bottom of biological lauter tub, in described biological lauter tub, is provided with aqueduct, and the top of described aqueduct is lower than the top edge of biological lauter tub.
Further, described biological lauter tub is in-built a biologic packing material.
Further, the dirty extraction system in the described end comprises the blow-off pipe of imbedding at the bottom of fish, dish symbiosis culturing pool, fish is stretched out in one end of this blow-off pipe, dish symbiosis culturing pool is outer and be connected with respectively sediment tube and the first blow-off pipe at this end, described sediment tube is communicated with settling box by pipeline, and on the pipeline of this connection, be provided with the first communicating valve, on blow-off pipe, be provided with the first blowoff valve; Be connected with the bend pipe at the bottom of being positioned at pond at the blow-off pipe other end, be connected with dirt and enter pipe on bend pipe, this dirt enters one end of being connected with bend pipe of pipe and has dirt and enter hole, and its other end stretches out on fish, the dish symbiosis culturing pool water surface.
Further, the water inlet of described connecting pipe is 30cm from the distance at the bottom of settling box bucket.
Further, described water returns to the water inlet pipe that culturing pool recycling system comprises that collecting basin and collecting basin are communicated with fish, dish symbiosis culturing pool.
Further, on described water inlet pipe, water pump is housed, can to fish, dish symbiosis culturing pool, re-uses by water pump extracting when the water yield in collecting basin runs up to after a certain amount of.
Further, described water purifying area is duct type growing vegetables district, and the pipeline one end in this duct type growing vegetables district is communicated with the aqueduct in biological lauter tub, and the other end of its pipeline is communicated with collecting basin.
Further, described settling box and biological lauter tub are all directly communicated with collecting basin by pipeline, are provided with third connecting valve on the pipeline of this connection.
Further, in described fish, dish symbiosis culturing pool, biologic packing material is installed.
The biologic packing material using in cultivating system of the present utility model is elastic stereo biologic packing material, mainly utilizes the epontic biomembrane of elastic stereo biologic packing material to remove the harmful substances such as ammonia nitrogen.
In pond culturing system of the present utility model:
(1) fish, dish symbiosis culturing pool: plant the aquatic property vegetables of certain area in fish and vegetable symbiotic technology culturing pool, can directly utilize the nutritive salt in water body, increase cultivation profit when improving breeding environment;
(2) elastic stereo biologic packing material is installed in fish, dish symbiosis culturing pool: microorganism enrichment, technique for fixing are installed elastic stereo biologic packing material (elastic solid filler) in fish, dish symbiosis culturing pool, adhesive substrate can also improve content of microorganisms and bio-diversity greatly by fixing microorganism in water body, forms metastable micro-ecological environment; In water body, content of microorganisms improves the removal that can accelerate harmful substance; In addition the biomembrane of a large amount of the composition of the microorganisms becomes again the good biological feed of cultivated animals;
(3) near the dirty extraction technique in the end: the oxygenation of culturing pool surrounding coordinates and the organic matter in culturing pool can be gathered at the bottom of special pot bottom-shape pond at the bottom of pond middle section, dirt enters and on pipe, has dirt and enter hole, so that dirt can enter, control fish and can't pass this dirt and enter hole by controlling size that dirt enters hole, then can utilize hydraulic pressure that organic matter is discharged to culturing pool by the blowoff valve on control of sewage disposal pipe, improve breeding environment;
(4) Ecology treatment technology: Ecology handling process refers to that the sewage that culturing pool is discharged reduces ammonia nitrogen and nitrite through biological lauter tub again after settling box is removed water body bulky grain organic matter and suspension, purifies and reduces nitrate and content of inorganic phosphorus in water body finally by vegetables.
Compared with prior art, the beneficial effects of the utility model are:
(1) high yield: the original position ecological water pack processing in the utility model is containing fish and vegetable symbiotic technology and microorganism enrichment, technique for fixing; Dystopy ecological water treatment technology comprises the links such as water process natural sedimentation, biofiltration and the plant purification that culturing pool is discharged, this original position ecological water is processed with dystopy ecological water and is processed combination, the i.e. comprehensive regulation of the water technology outside water technology and the culturing pool in culturing pool, water quality original position ecological treatment is combined and can be ensured that breeding environment is good with dystopy ecological treatment, adds that the guarantee of dissolved oxygen demand can make unit of water body output reach the doubly left and right of 5-6.5 of only pond culture:
(2) ecological, environmental protection: emphasize material and energy flow in the fish of this pond culturing system, dish symbiosis culturing pool, improving of enriched food chain at utmost utilizes natural resources, realizes ecologic breeding; Fish, dish symbiosis culturing pool use ecological water processing outward, and water after treatment returns to fish, dish symbiosis culturing pool re-uses, and whole breeding process, to extraneous blowdown, is not realized environment-protecting cultivation;
(3) save: cultured output is high, improved unit are cultivation efficiency and played the effect of saving land; Water circulation use, has played water saving effect; Dystopy ecological water is processed and is used microcirculation to greatly reduce energy consumption with regular circulation water ratio, and oxygenation aspect also can be used intermittently oxygenation method to compare same reduction energy consumption with conventional oxygenation, therefore whole system is very energy-conservation.Described intermittence, oxygenation method was for traditional oxygenation method, carry movement pattern of fish condition control oxygenation time and intermittent time according to culturing pool is actual, intermittently in the oxygenation method unit interval, oxygenation time and intermittent time ratio should regulate according to the actual fish loading amount of culturing pool.
Brief description of the drawings
In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, below the accompanying drawing of required use during embodiment is described is briefly described, apparently, accompanying drawing in the following describes is only one of them embodiment of the present utility model, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.
Fig. 1 is the structural representation of the utility model embodiment.
Embodiment
Below the technical scheme in the utility model is clearly and completely described, obviously, described embodiment is only several embodiment wherein of the present utility model, instead of whole embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.
As shown in Figure 1:
1, cultivating system:
A cultivating system for simple and easy high yield and ecological, environmental protective, it comprises that the fish, dish symbiosis culturing pool 1, sewage disposal system, water purifying area and the water that are communicated with successively return to culturing pool recycling system; In described fish, dish symbiosis culturing pool 1, elastic stereo biologic packing material is installed, the dirty extraction system in the end is housed in fish, dish symbiosis culturing pool 1, dirty extraction system is communicated with sewage disposal system by pipeline at this end, and the area of the aquatic vegetable 3 of described fish, the 1 interior plantation of dish symbiosis culturing pool is generally no more than 1/3rd of fish, dish symbiosis culturing pool 1 water surface area
Sewage disposal system: comprise the settling box 4 and the biological lauter tub 5 that are communicated with successively by connecting pipe, this connecting pipe is provided with the second communicating valve 6, on one end of described connecting pipe connection settling box 4, be connected with the settling box outlet pipe 7 that is positioned at settling box 4, the top of this settling box outlet pipe 7 is lower than settling box 4 top edges, the bottom of described settling box 4 is connected with the second blow-off pipe 8, is provided with the second blowoff valve 9 on the second blow-off pipe 8; The in-built flexible stereo biological filler of described biological lauter tub 5, the one end that is communicated with biological lauter tub 5 on the pipeline of described connection settling box 4 and biological lauter tub 5 enters from the bottom of biological lauter tub 5, in described biological lauter tub 5, be provided with aqueduct 10, the top of described aqueduct 10 is lower than the top edge of biological lauter tub 5.
The dirty extraction system in the end: comprise the first blow-off pipe 11 of imbedding fish, 1 end of dish symbiosis culturing pool, fish is stretched out in one end of this first blow-off pipe 11, dish symbiosis culturing pool is outer and be connected with respectively sediment tube 12 and the first dirt dump valve 13 at this end, described sediment tube 12 is communicated with settling box 4 by pipeline, and the water inlet of this connecting pipe is 30cm from the distance at the bottom of 4 barrels of settling boxs, and on the pipeline of this connection, is provided with the first communicating valve 14; Be connected with the bend pipe 15 at the bottom of being positioned at fish, dish symbiosis culturing pool 1 pond at first blow-off pipe 11 other ends, on bend pipe 15, be connected with dirt and enter pipe 16, this dirt enters pipe 16 one end that are connected with bend pipe 15 and has dirt and enter hole, and its other end stretches out on fish, dish symbiosis culturing pool 1 water surface.
Water returns to culturing pool recycling system: comprise collecting basin and collecting basin and the water inlet pipe that fish, dish symbiosis culturing pool are communicated with, water pump is housed on water inlet pipe.
Water purifying area: be duct type growing vegetables district 19, the pipeline one end in this duct type growing vegetables district 19 is communicated with the aqueduct 10 in biological lauter tub, and the other end of its pipeline is communicated with collecting basin 17.
Described settling box 4 and biological lauter tub 5 are all directly communicated with collecting basin 17 by pipeline, are provided with third connecting valve 2 on the pipeline of this connection.
2, concrete operations:
Whole water cycle process: in the cultivating system of the utility model embodiment, in the time of concrete operation, open the first communicating valve 14 and carry out substrate extracting general morning, approximately after one barrel of water of extracting, close the first communicating valve 14, precipitate about 30 minutes, controlling the first communicating valve 14 makes water trace in culturing pool enter settling box 4, when settling box 4 middle water level risings start slowly to flow into settling box outlet pipe 7 to cask deposit bucket outlet pipe 7 upper end positions, then enter biological lauter tub 5 bottoms, the interior water level of the biological lauter tub 5 of increase with rate of water added constantly rises, after reaching the position of the interior aqueduct of biological lauter tub 5 10 upper ends, water level will enter duct type growing vegetables district 19 by aqueduct 10, after purifying, vegetables import collecting basin 17, when the water yield in collecting basin 17 run up to a certain amount of after can by water pump extracting to fish, in dish symbiosis culturing pool 1, re-use.This process is whole water cycle process.
In the cultivating system of the utility model embodiment:
(1) sedimentation effect ensures: by controlling the first communicating valve 14, extracting is carried out in fish, 1 end of dish symbiosis culturing pool, and the about 150L of each extracting amount left and right, complete first communicating valve 14 of closing of extracting, precipitates.Precipitate and after 30 minutes, control the first communicating valve 14 switch size, make micro-current enter settling box 4 from fish, dish symbiosis culturing pool 1, because settling box 4 water inlets add that from about 30cm at the bottom of bucket inflow is less, therefore can not stir and sedimentaryly suspend again, a small amount of current enter from settling box 4 middle and lower parts, being drained to biological lauter tub 5 from surface, is also a kind of precipitation in the process that water body rises in settling box 4, therefore lower from the water content of organics of settling box 4 surperficial carrying-offs.
(2) biological lauter tub 5: in the cultivating system in the present embodiment, biological lauter tub 5 is consistent with settling box 4 specifications, for the cylinder barrel of the high 100cm of diameter 50cm, in biological lauter tub 5, fill elastic stereo biologic packing material, mainly utilize the epontic biomembrane of elastic stereo biologic packing material to remove the harmful substances such as ammonia nitrogen.
(3) water purifying area: the water purifying area in the present embodiment is duct type growing vegetables district 19, mainly utilize pvc pipe planting vegetable, on pvc pipe, open a diameter 5cm hole for planting vegetable every 15cm, the two ends of pipe are used benefit core to add stifled, (mouth of pipe is upwards to ensure holding back a certain amount of water body in pipe), use elbow with pipeline, pvc pipe successively head and the tail to be connected, make current pass through successively each planting tube, daytime, photosynthesis of vegetables was grown, this process plant absorbs inorganic nutrient salt and grows, thereby reaches the effect purifying water.
(4) settling box 4 belows have the second blow-off pipe 8 interior settling box 4 dirt regularly can be discharged, and the dirt of discharge can be used for the uses such as plant organic fertilizer.
(5) water trace circular (open morning, closes at dusk) only by day, because there is no photosynthesis night, plant purification effect is faint.The Chi Dishui of the first communicating valve 14 major control fishes, dish symbiosis culturing pool 1 enters settling box 4; The interior organic matter of the second blowoff valve 9 major control settling box 4 is arranged (can do vegetable fertilizer) outward; Open the first communicating valve 14 and the second communicating valve 6 and can ensure microcirculation operation; Take out the interior settling box outlet pipe 7 of settling box 4, open all the other valve closings of third connecting valve 2() settling box 4 supernatants directly can be put into collecting basin 17; Plug settling box outlet pipe 7, open the second communicating valve 6 and all the other valve closings of third connecting valve 2() supernatant in biological lauter tub 5 can be put into collecting basin 17.
(6) intermittently oxygenation: for example culturing pool fish loading amount 75kg left and right in pond culturing system in the present embodiment, from at 20 in evening to 8 lasting oxygenation the next morning, night, dissolved oxygen was comparatively steady, average content is 6.0mg/L, use intermittently oxygenation, from 20 in evening to the next morning 8 aerators per hour open half an hour, stop half an hour, between dissolved oxygen comparatively steady, average content is 5.4mg/L.Oxygenation time decreased 1 half, and the average dissolved oxygen 0.6mg/L that only declines, and it is long to meet sashimi (raw fish), and this oxygenation method is feasible, ensures normally cultivation to reduce again energy consumption minimizing aquaculture cost.
(7) high production: in the prior art, the per mu yield of pond culture Tilapia mossambica single cropping is in about 1000kg, and cultivating system cultivating tilapia single cropping per mu yield is in the present embodiment in 5000kg left and right.According at present Tilapia mossambica pond culture of fishery modernization (car pavilion, 2010) year cultivation density only for 17400kg/hm2(is 1160kg/ mu), therefore native system high yield comparatively on cultivating.1 meter of the native system depth of water, 1.5~2 meters of fish, the dish symbiosis culturing pool depth of waters, therefore native system unit of water body output is about the doubly left and right of 5-6.5 of pond culture.
Separately, calculate for unit of water body output multiple, calculate as follows:
This cultivating system single cropping per mu yield Tilapia mossambica 5000kg, and in prior art, the per mu yield of pond culture Tilapia mossambica calculates by 1160kg that (the year cultivation density according at present Tilapia mossambica pond culture of fishery modernization (car pavilion, 2010) is only 17400kg/hm 2(being 1160kg/ mu)).The native system depth of water is 1 meter, and pond is on average at 1.5 meters.Be converted into unit of water body output as follows:
Native system unit of water body output=5000kg ÷ 667m 2÷ 1m=7.5kg/m 3
Pond unit of water body output=1160kg ÷ 667m in prior art 2÷ 1.5m=1.2kg/m 3
Multiple conversion relation: 7.5 ÷ 1.2=6.25 doubly.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (9)

1. a cultivating system for simple and easy high yield and ecological, environmental protective, is characterized in that: it comprises that the fish, dish symbiosis culturing pool, sewage disposal system, water purifying area and the water that are communicated with successively return to culturing pool recycling system; The dirty extraction system in the end is housed in described fish, dish symbiosis culturing pool, and dirty extraction system is communicated with sewage disposal system by pipeline at this end;
Described sewage disposal system comprises the settling box and the biological lauter tub that are communicated with successively by connecting pipe, this connecting pipe is provided with the second communicating valve, on one end of described connecting pipe connection settling box, be connected with the settling box outlet pipe that is positioned at settling box, the top of this settling box outlet pipe is lower than settling box top edge, the bottom of described settling box is connected with the second blow-off pipe, is provided with the second blowoff valve on the second blow-off pipe;
The dirty extraction system in the described end comprises the blow-off pipe of imbedding at the bottom of fish, dish symbiosis culturing pool, fish is stretched out in one end of this blow-off pipe, dish symbiosis culturing pool is outer and be connected with respectively sediment tube and the first blow-off pipe at this end, described sediment tube is communicated with settling box by pipeline, and the water inlet of this connecting pipe is 20-35cm from the distance at the bottom of settling box bucket, and on the pipeline of this connection, be provided with the first communicating valve, on blow-off pipe, be provided with the first blowoff valve; Be connected with the bend pipe at the bottom of being positioned at pond at the blow-off pipe other end, be connected with dirt and enter pipe on bend pipe, this dirt enters one end of being connected with bend pipe of pipe and has dirt and enter hole, and its other end stretches out on fish, the dish symbiosis culturing pool water surface.
2. the cultivating system of a kind of simple and easy high yield according to claim 1 and ecological, environmental protective, it is characterized in that: the one end that is communicated with biological lauter tub on the pipeline of described connection settling box and biological lauter tub enters from the bottom of biological lauter tub, in described biological lauter tub, be provided with aqueduct, the top of described aqueduct is lower than the top edge of biological lauter tub.
3. the cultivating system of a kind of simple and easy high yield according to claim 2 and ecological, environmental protective, is characterized in that: described biological lauter tub is in-built biologic packing material.
4. the cultivating system of a kind of simple and easy high yield according to claim 1 and ecological, environmental protective, is characterized in that: the water inlet of described connecting pipe is 30cm from the distance at the bottom of settling box bucket.
5. the cultivating system of a kind of simple and easy high yield according to claim 2 and ecological, environmental protective, is characterized in that: described water returns to the water inlet pipe that culturing pool recycling system comprises that collecting basin and collecting basin are communicated with fish, dish symbiosis culturing pool.
6. the cultivating system of a kind of simple and easy high yield according to claim 5 and ecological, environmental protective, is characterized in that: on described water inlet pipe, water pump is housed.
7. the cultivating system of a kind of simple and easy high yield according to claim 5 and ecological, environmental protective, it is characterized in that: described water purifying area is duct type growing vegetables district, the pipeline one end in this duct type growing vegetables district is communicated with biological lauter tub, and the other end of its pipeline is communicated with collecting basin.
8. the cultivating system of a kind of simple and easy high yield according to claim 5 and ecological, environmental protective, is characterized in that: described settling box and biological lauter tub are all directly communicated with collecting basin by pipeline.
9. according to a kind of simple and easy high yield described in any one in claim 1 to 8 and the cultivating system of ecological, environmental protective, it is characterized in that: in described fish, dish symbiosis culturing pool, biologic packing material is installed.
CN201420050521.3U 2014-01-26 2014-01-26 The cultivating system of a kind of simple and easy high yield and ecological, environmental protective Expired - Fee Related CN203985548U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104996354A (en) * 2015-07-30 2015-10-28 四川川锦养殖有限责任公司 Ecological and environment-friendly cycling farming system
CN110122398A (en) * 2019-05-16 2019-08-16 贵州省水产研究所 A kind of transposition recirculated water ecological cultivation system

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104996354A (en) * 2015-07-30 2015-10-28 四川川锦养殖有限责任公司 Ecological and environment-friendly cycling farming system
CN110122398A (en) * 2019-05-16 2019-08-16 贵州省水产研究所 A kind of transposition recirculated water ecological cultivation system

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