CN209284043U - A kind of industrialization circulating water culture system - Google Patents

Abstract

The utility model discloses a kind of industrialization circulating water culture systems, including reservoir, standard crude pool, aquaculture pond, train algae pond I, it trains algae pond II and is sequentially connected logical sedimentation basin, anaerobic pond, aeration tank, the reservoir passes through upper hose II respectively, upper hose III and standard crude pool, aquaculture pond is connected, the aquaculture pond is connected by downcomer with sedimentation basin, the aeration tank passes through upper hose V respectively, upper hose VI and training algae pond I, training algae pond II is connected, the training algae pond I is connected by upper hose VII with standard crude pool, the training algae pond II is connected by upper hose VIII with aquaculture pond, it is connected between the upper hose VII and upper hose VIII by connecting tube, algae solution control valve I is installed in the connecting tube.It is not influenced by amblent air temperature using the cultivating system cultured fishes of the utility model, it is suitable for efficient industrialized fish culture that whole appropriate density, water body utilization rate is high, volume increase is more, risk is low, profitable, practicability is wide.

Description

A kind of industrialization circulating water culture system

Technical field

The utility model relates to technical field of aquaculture, and in particular to a kind of industrialization circulating water culture system.

Background technique

China is to be engaged in aquaculture one of country with the longest history in the world." the port of southern " Yu Ponds " and the north Support " as long as mode continued centuries.Since the establishment of the nation, as country is to the attention of agricultural working and exerting for aquatic products worker The aquaculture industry of power, China flourishes, and China Water product total output reaches 59,060,000 tons within 2012, wherein cultured output It 43050000 tons, ranks first in the world within continuous 24 years.Since last century, the nineties introduced China, with full artificial breeding technology With the successive breakthrough of intensive diseases prevention cultural technique, breeding production fast development.But at the same time, tradition is breeded fish quasi-mode pair The dependence of environment and also increasingly severe to the pollution of environment, results in breed fish in recent years and produces difficult, yield and benefit There is serious landslide.Industrializing circulating water cultivation is the state-of-the-art fish production form in the world today, represents the following aquatic products and supports The developing direction for growing industry changes production method to upgrading technologies, and realizes efficient and healthful, environmental-friendly industry development meaning Justice is great.

Utility model content

Technical problem to be solved in the utility model is to be directed to the deficiencies in the prior art, and provide a kind of industry Change circulating water culture system, to improve breeding efficiency.

To achieve the goals above, the utility model adopts the following technical solution:

A kind of industrialization circulating water culture system, including reservoir, standard crude pool, aquaculture pond, training algae pond I, training algae pond II with And it is sequentially connected logical sedimentation basin, anaerobic pond, aeration tank, the outlet end of the reservoir is connected with upper hose I, the upper hose I passes through upper hose II respectively, upper hose III is connected with the input end of standard crude pool, aquaculture pond, and the outlet end of the aquaculture pond is logical It crosses downcomer to be connected with the input end of sedimentation basin, the outlet end of the aeration tank is connected with upper hose IV, the upper hose IV It is connected respectively by upper hose V, upper hose VI with the input end for training algae pond I, training algae pond II, the outlet end of the training algae pond I It is connected by upper hose VII with the input end of standard crude pool, the outlet end of the training algae pond II passes through upper hose VIII and cultivation The input end in pond is connected, and is connected between the upper hose VII and upper hose VIII by connecting tube, is pacified in the connecting tube Equipped with algae solution control valve I.

Further, the sedimentation basin includes sedimentation basin I, sedimentation basin II, sedimentation basin III and the sedimentation basin in the distribution of field word IV, the downcomer are connected with the input end of sedimentation basin I, and the outlet end of the sedimentation basin IV is connected with anaerobic pond；It is described Strainer I is installed between sedimentation basin I and sedimentation basin II, strainer II is installed between the sedimentation basin II and sedimentation basin III, it is described Strainer III is installed between sedimentation basin III and sedimentation basin IV, the strainer I, strainer II, strainer III aperture be sequentially reduced； Construction has the separation pool wall for preventing water flow from directly flowing into sedimentation basin V from sedimentation basin I between the sedimentation basin I and sedimentation basin V.

Further, the sedimentation basin includes series connection sedimentation basin I, sedimentation basin II, sedimentation basin III and sedimentation basin in a row IV, the downcomer are connected with the input end of sedimentation basin I, and the outlet end of the sedimentation basin IV is connected with anaerobic pond；It is described Strainer I is installed between sedimentation basin I and sedimentation basin II, strainer II is installed between the sedimentation basin II and sedimentation basin III, it is described Strainer III is installed between sedimentation basin III and sedimentation basin IV, the strainer I, strainer II, strainer III aperture be sequentially reduced.

Preferably, the reservoir is 2, and 2 reservoirs are connected.

Preferably, the area ratio of the standard crude pool and aquaculture pond is 1:6.

Preferably, the upper hose I is equipped with water pump I, and the upper hose II is equipped with valve switch I, the upper hose III is equipped with valve switch II.

Preferably, the downcomer is equipped with valve switch III.

Preferably, the upper hose IV is equipped with water pump II, and the upper hose V is equipped with valve switch IV, the upper water Pipe VI is equipped with valve switch V.

Preferably, the upper hose VII is equipped with water pump III and algae solution control in the position close to the training algae pond outlet end I Valve II；The upper hose VIII is equipped with water pump IV and algae solution control valve III in the position of the close training algae pond outlet end II.

Compared with prior art, the utility model has the advantage that

It is not influenced by amblent air temperature using the cultivating system cultured fishes of the utility model, whole appropriate density, water body benefit It is suitable for efficient industrialized fish culture with rate is high, volume increase is more, risk is low, profitable, practicability is wide.

Detailed description of the invention

The utility model is described in further detail with reference to the accompanying drawing；

Fig. 1 is the overall structure diagram of the utility model；

Fig. 2 is the structural schematic diagram of the sedimentation basin of embodiment 1；

Fig. 3 is the structural schematic diagram of the sedimentation basin of embodiment 2；

Appended drawing reference: 1, reservoir；2, standard crude pool；3, aquaculture pond；4, sedimentation basin；401, sedimentation basin I；402, sedimentation basin II；403, sedimentation basin III；404, sedimentation basin IV；5, anaerobic pond；6, aeration tank；7, algae pond I is trained；8, algae pond II is trained；9, upper hose I；10, upper hose II；11, upper hose III；12, upper hose IV；13, upper hose V；14, upper hose VI；15, upper hose VII； 16, upper hose VIII；17, downcomer；18, connecting tube；19, water pump I；20, water pump II；21, water pump III；22, water pump IV；23, Valve switch I；24, valve switch II；25, valve switch III；26, valve switch IV；27, valve switch V；28, algae solution controls Valve I；29, algae solution control valve II；30, algae solution control valve III；31, valve I；32, strainer I；33, strainer II；34, strainer III； 35, separate pool wall.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawings and examples.

Embodiment 1

As shown in Figs. 1-2, a kind of industrialization circulating water culture system, including reservoir 1, standard crude pool 2, aquaculture pond 3, training algae Pond I 7, it trains algae pond II 8 and is sequentially connected logical sedimentation basin 4, anaerobic pond 5, aeration tank 6.The reservoir 1 is 2 with benefit In increasing moisture storage capacity, 2 reservoirs 1 are connected, and the outlet end of one of reservoir 1 is connected with upper hose I 9, the upper water Pipe I 9 is equipped with water pump I 19.The upper hose I 9 is connected by upper hose II 10 with the input end of standard crude pool 2, described Upper hose II 10 is equipped with valve switch I 23.The upper hose I 9 passes through the input end of upper hose III 11 and aquaculture pond 3 It is connected, the upper hose III 11 is equipped with valve switch II 24.The area of the standard crude pool 2 is 50m², the aquaculture pond 3 area is 300m²。

The outlet end of the aquaculture pond 3 is connected by downcomer 17 with the input end of sedimentation basin 4, on the downcomer 17 Equipped with valve switch III 25.The sedimentation basin 4 includes sedimentation basin I 401, the sedimentation basin II 402, sedimentation basin in the distribution of field word III 403 and sedimentation basin IV 404, the downcomer 17 are connected with the input end of sedimentation basin I 401, the sedimentation basin IV 404 outlet end is connected with anaerobic pond 5.Strainer I 32, institute are installed between the sedimentation basin I 401 and sedimentation basin II 402 It states and strainer II 33 is installed between sedimentation basin II 402 and sedimentation basin III 403, the sedimentation basin III 403 and sedimentation basin IV Strainer III 34 is installed between 404, the strainer I 32, strainer II 33, strainer III 34 aperture be sequentially reduced.It is described Construction has the separation pool wall for preventing water flow from directly flowing into sedimentation basin V from sedimentation basin I 401 between sedimentation basin I 401 and sedimentation basin V 35.It is equipped with valve I 31 between the sedimentation basin IV 404 and anaerobic pond 5, valve is equipped between the anaerobic pond 5 and aeration tank 6 II (not shown).

The outlet end of the aeration tank 6 is connected with upper hose IV 12, and the upper hose IV 12 is equipped with water pump II 20. The upper hose IV 12 is connected by upper hose V 13 with the input end of training algae pond I 7, and the upper hose V 13 is equipped with water Threshold switch IV 26.The upper hose IV 12 is connected by upper hose VI 14 with the input end of training algae pond II 8, the upper water Pipe VI 14 is equipped with valve switch V 27.The outlet end of the training algae pond I 7 by upper hose VII 15 and standard crude pool 2 into Mouth end is connected, and the outlet end of the training algae pond II 8 is connected by upper hose VIII 16 with the input end of aquaculture pond 3, institute It states and is connected between upper hose VII 15 and upper hose VIII 16 by connecting tube 18.Algae solution is installed in the connecting tube 18 Control valve I 28, the upper hose VII 15 are equipped with water pump III 21 and algae solution in the position of close training 7 outlet end algae pond I Control valve II 29；The upper hose VIII 16 is equipped with water pump IV 22 and algae in the position of close training 8 outlet end algae pond II Hydraulic control valve III 30.

The operational process of the utility model:

(1) start upper hose I 9 on water pump I 19, by control upper hose II 10 on valve switch I 23 and/or The opening and closing of valve switch II 24 on upper hose III 11 makes the water body in reservoir 1 selectively flow into standard crude pool 2 and/or support Grow pond 3.

(2) the valve switch III 25 on downcomer 17 is opened, the sewage generated in aquaculture pond 3 automatically flows into sedimentation basin I Water body in 401, sedimentation basin I 401 with strainer I 32, strainer II 33, strainer III 34 filter process in successively flow into Sedimentation basin II 402, sedimentation basin III 403 and sedimentation basin IV 404, and due to strainer I 32, strainer II 33, strainer III 34 successively filtering intercepts, sedimentation basin I 401, sedimentation basin II 402, sedimentation basin III 403, sedimentation basin IV 404 water body in Impurity particle degree be sequentially reduced, precipitating after a certain period of time, open the valve I between sedimentation basin IV 404 and anaerobic pond 5 31, the water after making precipitating flows into anaerobic pond 5.

(3) after the anaerobic fermentation of certain time, valve II is opened, the water body after making anaerobic fermentation flows into aeration tank 6. After the aeration of certain time makes the intracorporal organic metallic substance of water carry out certain degradation, opens upper hose IV 12 and be equipped with Water pump II 20, and the valve switch IV 26 on the upper hose V 13 and/or valve switch V 27 on upper hose VI 14 is opened, Make selectively to flow into training algae pond I 7 and/or training algae pond II 8 by the water body of Air Exposure.

(4) according to supporting in training algae pond I 7, the algae culture situation for training algae pond II 8 and standard crude pool 2 and aquaculture pond 3 Breeding fish carries out chosen below the conditions of demand of algae solution:

1. being closed when the algae solution that only standard crude pool 2 requires supplementation in algae solution and training algae pond I 7 can satisfy 2 demand of standard crude pool The algae solution control valve I 28 in connecting tube 18 is closed, starts water pump III after opening the algae solution control valve II 29 on upper hose VII 15 21, make to train the algae solution in algae pond I 7 and flows into standard crude pool 2.

2. being beaten when the algae solution that only standard crude pool 2 requires supplementation in algae solution but training algae pond I 7 is not able to satisfy 2 demand of standard crude pool The algae solution control valve I 28 in connecting tube 18 is opened, starts water pump after opening the algae solution control valve III 30 on upper hose VIII 16 IV 22 makes to train the algae solution in algae pond II 8 and flows into standard crude pool 2, at this point, selection turns on or off water pipe according to the actual situation Algae solution control valve II 29 and water pump III 21 on VII, so that the algae solution that selection only makes to train in algae pond II 8 flows into standard crude pool 2 Or the algae solution in training algae pond I 7, the algae solution in training algae pond II 8 is made to flow into standard crude pool 2 together.

3. when the algae solution that only aquaculture pond 3 requires supplementation in algae solution and training algae pond II 8 can satisfy its demand, the company of closing Algae solution control valve I 28 on adapter tube 18 starts water pump IV 22 after opening the algae solution control valve III30 on upper hose VIII 16, Make to train the algae solution in algae pond II 8 and flows into aquaculture pond 3.

4. when the algae solution that only aquaculture pond 3 requires supplementation in algae solution and training algae pond II 8 can satisfy its demand, the company of opening Algae solution control valve I 28 on adapter tube 18 starts water pump III 21 after opening the algae solution control valve II 29 on upper hose VII 15, Make to train the algae solution in algae pond I 7 and flow into aquaculture pond 3, at this point, selection turns on or off on water pipe VIII according to the actual situation Algae solution control valve III 30 and water pump IV 22, so that the algae solution that selection only makes to train in algae pond I 7 flows into aquaculture pond 3 or makes to train algae The algae solution in algae solution, training algae pond II 8 in pond I 7 flows into mark aquaculture pond 3 together.

5. the algae solution control valve II when not needing supplement algae solution in standard crude pool 2 and aquaculture pond 3, on upper hose VII 15 Algae solution control valve III 30, water pump IV 22 on 29 and water pump III 21, upper hose VIII 16 are in closed state.

6. the algae solution when being required to supplement algae solution in standard crude pool 2 and aquaculture pond 3, in training algae pond I 7 and training algae pond II 8 When sufficient, training algae pond I 7, training algae pond II 8 are respectively standard crude pool 2 respectively, aquaculture pond 3 provides algae solution；Only one training algae pond When interior algae solution abundance, the training algae pond of algae solution abundance is selected to provide algae solution or two training algaes simultaneously for standard crude pool 2, aquaculture pond 3 Pond is standard crude pool 2, the mixing of aquaculture pond 3 for algae simultaneously, is closed in time when one of training algae pond cannot continue for algae corresponding Water pump and algae solution control valve.

More than, two training algae ponds, connecting tube 18 and corresponding water pump and algae solution control valve are in addition to being able to carry out institute as above The selectivity stated be aquaculture pond 3, standard crude pool 2 supplement sufficient amount algae solution demand；User (can also use according to standard crude pool 2 In larval rearing) and aquaculture pond 3 (being bred for adult) to the variety requirement of algae respectively in training algae pond I 7 and training algae pond II 8 It inside carries out cultivating different algae, and is supplemented or mixed respectively benefit according to the actual needs in standard crude pool 2 and aquaculture pond 3 It fills.

Embodiment 2

Unlike the first embodiment, as shown in figure 3, the sedimentation basin 4 includes series connection sedimentation basin I 401 in a row, sinks Shallow lake pond II 402, sedimentation basin III 403 and sedimentation basin IV 404, the downcomer 17 are connected with the input end of sedimentation basin I 401 Logical, the outlet end of the sedimentation basin IV 404 is connected with anaerobic pond 5；Between the sedimentation basin I 401 and sedimentation basin II 402 Strainer I 32 is installed, strainer II 33, the sedimentation basin are installed between the sedimentation basin II 402 and sedimentation basin III 403 Strainer III 34, the hole of the strainer I 32, strainer II, strainer III 34 are installed between III 403 and sedimentation basin IV 404 Diameter is sequentially reduced.The arrangement in a row compared to the series connection of embodiment 2,4 sedimentation basins of embodiment 1 make each in matrix pattern distribution Structure is more compact on spatial arrangement, reasonable.

Examples detailed above is only the technical conception and technical characteristics for illustrating the utility model, can not limit this reality with this With novel protection scope.The equivalent transformation or modification that all essence according to the present utility model is done, should all cover in this reality Within novel protection scope.

Claims (9)

1. a kind of industrialization circulating water culture system, it is characterised in that: including reservoir, standard crude pool, aquaculture pond, training algae pond I, training Algae pond II and it is sequentially connected logical sedimentation basin, anaerobic pond, aeration tank, the outlet end of the reservoir is connected with upper hose I, institute State that upper hose I passes through upper hose II respectively, upper hose III is connected with the input end of standard crude pool, aquaculture pond, the aquaculture pond Outlet end is connected by downcomer with the input end of sedimentation basin, and the outlet end of the aeration tank is connected with upper hose IV, described Upper hose IV passes through upper hose V, upper hose VI respectively and is connected with the input end for training algae pond I, training algae pond II, the training algae pond I Outlet end be connected by upper hose VII with the input end of standard crude pool, it is described training algae pond II outlet end pass through upper hose VIII is connected with the input end of aquaculture pond, is connected between the upper hose VII and upper hose VIII by connecting tube, described Algae solution control valve I is installed in connecting tube.

2. industrialization circulating water culture system according to claim 1, it is characterised in that: the sedimentation basin includes in field word The sedimentation basin I of distribution, sedimentation basin II, sedimentation basin III and sedimentation basin IV, the downcomer are connected with the input end of sedimentation basin I, The outlet end of the sedimentation basin IV is connected with anaerobic pond；Strainer I is installed between the sedimentation basin I and sedimentation basin II, it is described Strainer II is installed between sedimentation basin II and sedimentation basin III, strainer III is installed between the sedimentation basin III and sedimentation basin IV, The strainer I, strainer II, strainer III aperture be sequentially reduced；Construction has prevention water flow between the sedimentation basin I and sedimentation basin V The separation pool wall of sedimentation basin V is directly flowed into from sedimentation basin I.

3. industrialization circulating water culture system according to claim 1, it is characterised in that: the sedimentation basin includes being connected into The sedimentation basin I of one row, sedimentation basin II, sedimentation basin III and sedimentation basin IV, the downcomer are connected with the input end of sedimentation basin I, The outlet end of the sedimentation basin IV is connected with anaerobic pond；Strainer I is installed between the sedimentation basin I and sedimentation basin II, it is described Strainer II is installed between sedimentation basin II and sedimentation basin III, strainer III is installed between the sedimentation basin III and sedimentation basin IV, The strainer I, strainer II, strainer III aperture be sequentially reduced.

4. industrialization circulating water culture system according to claim 2 or 3, it is characterised in that: the reservoir be 2,2 A reservoir is connected.

5. industrialization circulating water culture system according to claim 2 or 3, it is characterised in that: the standard crude pool and cultivation The area ratio in pond is 1:6.

6. industrialization circulating water culture system according to claim 2 or 3, it is characterised in that: the upper hose I is equipped with Water pump I, the upper hose II are equipped with valve switch I, and the upper hose III is equipped with valve switch II.

7. industrialization circulating water culture system according to claim 2 or 3, it is characterised in that: the downcomer is equipped with Valve switch III.

8. industrialization circulating water culture system according to claim 2 or 3, it is characterised in that: set on the upper hose IV There are water pump II, the upper hose V to be equipped with valve switch IV, the upper hose VI is equipped with valve switch V.

9. industrialization circulating water culture system according to claim 2 or 3, it is characterised in that: the upper hose VII is in leaning on The position of the nearly training algae pond outlet end I is equipped with water pump III and algae solution control valve II；The upper hose VIII is in close to training algae pond II The position of outlet end is equipped with water pump IV and algae solution control valve III.