CN203675867U - Aquatic animal culture system - Google Patents
Aquatic animal culture system Download PDFInfo
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- CN203675867U CN203675867U CN201320627507.0U CN201320627507U CN203675867U CN 203675867 U CN203675867 U CN 203675867U CN 201320627507 U CN201320627507 U CN 201320627507U CN 203675867 U CN203675867 U CN 203675867U
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Abstract
The utility model aims to provide an aquatic animal culture system capable of adjusting water temperature and improving culture density. Aquatic animals are cultured in a first culture layer, and water is pumped from a water layer below the first culture layer, is delivered to the first culture layer, and outflows after flowing through the first culture layer to bring out culture solid waste produced by the first culture layer; water flow outflowing from the first culture layer is injected into a second culture layer below the first culture layer, and the culture solid waste, brought out by the water flow, produced by the first culture layer is used as feed for aquatic animals cultured in the second culture layer. The aquatic animal culture system is capable of effectively adjusting the water temperature of the first culture layer, and is energy-saving and environmentally friendly.
Description
Technical field
The utility model relates to field of aquaculture.
Background technology
Aquatic livestock is the vegeto-animal general name that ocean and fresh water fishery are produced.The fresh or live aquatic products animal of propagating artificially, mainly comprises fish, shrimp, crab, the large class of shellfish four.
Multiple aquatic animal is in the time propagating artificially, all face the difference of breeding environment and its self-sow environment, for example water temperature, dissolved oxygens etc. relatively change with its spontaneous growth environment facies, thereby impact cultivation success rate and cultivation quality, be limited by the water temperature of real breeding environment simultaneously, the factors such as dissolved oxygen, if improve the cultivation density of aquatic livestock, there will be water temperature to rise, water quality deterioration, dissolved oxygen deficiency, the situations such as disease takes place frequently, therefore the cultivation density of aquatic livestock is also very limited, thereby need to improve cultured area, therefore, traditional breeding technique needs higher cultivation equipment cost and human cost.
Taking sturgeon as example, sturgeon is the famous-particular-excellent treasure of China, meat flavour deliciousness, bone be soft, be of high nutritive value, what is particularly worth mentioning is that the sturgeon caviar of the title with " black gold ", be one of the world's three large cuisines, price is up to 600~2000 dollars/kilogram, and along with the minimizing of sturgeon wild resource, price is also rising steadily, and is the gesture that supply falls short of demand.Past, sturgeon parent population was mainly fished for from wild, and this seriously jeopardizes the existence of sturgeon.Therefore, carry out sturgeon artificial breeding and novel environment friendly cage culture has huge economic benefit and ecological benefits.
Sturgeon just starts to be in recent years used as marketable fish and carries out large-scale cultivation, its cultural technique still has many blank, a large amount of amur sturgeons started to carry out south and moved artificial feeding special nineteen nineties, the weather conditions that south is superior, good water quality, abundant biological feed promotes its Fast Growth, bring opportunity to the exploitation of good aquaculture new varieties, but sturgeon is high to environmental requirement, more than dissolved oxygen in water requires to reach 6mg/L, ammonia-nitrogen content is no more than 0.5mg/L, cultivation optimum water temperature requires to be controlled between 15~22 degree, sexual maturity optimum water temperature requires to be controlled between 0~5 degree, best pH requires to be controlled between 7~8, and it is not comprehensive on southern sturgeon breeding, also to exist artificial propagation techniques, single and the low inferior problem of cultivation density of aquaculture model, particularly for the problem of cultivation density, if tradition cage culture pattern breeding density is too low, because sturgeon belongs to the passive fish that ingest in natural water area, but through artificial feed domestication, can transfer to initiatively and ingesting, in the intensity that it is initiatively ingested and water body, shoal of fish breeding density has much relations, density hour, do not transfer shoal of fish fierceness and rob the desire of food, the sturgeon intensity of feeding is little, growth rate is relatively slow, therefore, improving breeding density is the key that ensures net cage pattern sturgeon growth rate, but promote cultivation density in traditional net cage, easily cause water temperature to raise, dissolved oxygen deficiency, the phenomenons such as water quality deterioration, impact cultivation success rate and culture efficiency, therefore this patent to sturgeon in high density, under scale and intensive condition, carrying out environment-friendly type cultivation conducts in-depth research, obtain good culture efficiency.
Along with the fast development of economic society, contemporary water conservancy related fisheries is towards new technology, the future development of new lines, give full play to southern water resource advantage, practice the Scientific Outlook on Development, greatly develop famous-particular-excellent kind, with new lines guide consumption, meet high consumption group need with famous and precious strain.Therefore sturgeon cultivation technology will be transformed to the excellent type of meticulous spy, high-tech type, environment-friendly type by common extensive style, be the high-quality fish population of propagating artificially by artificial domestication technical transform by original wild fish population, can be endangered ancient kind expansion existence procreation vast space and approach is provided, the designs and varieties in southern aquatic livestock market are enriched again, can meet the different requirements of different levels crowd to consumption level, will bring considerable economic benefit to fishery.
Utility model content
The purpose of this utility model is to provide one can regulate water temperature, improves the aquaculture of aquatic animal system of cultivation density, and energy-saving and environmental protecting.
For realizing above-mentioned utility model object, the utility model provides a kind of aquaculture of aquatic animal system, comprises the first cultivation layer and bottom water circle device;
Described the first cultivation layer comprises the first cultivation layer bottom surface and the first cultivation layer side face, described the first cultivation layer side face lower edge and the first cultivation layer bottom surface join, the first cultivation layer side face upper limb, higher than the water surface, is made up of the first cultivation layer border separating mutually with extraneous waters the first cultivation layer bottom surface and the first cultivation layer side face;
The first cultivation layer bottom surface is water-tight structure with two sides relative in the first cultivation layer side face, form with two sides relative in the first cultivation layer side face the water channel that water supply stream passes through by described the first cultivation layer bottom surface, at least one end of water channel is provided with water channel outlet, water channel outlet is provided with permeable mouthful, the pore size of permeable mouthful of water channel outlet intercepts the aquatic livestock cultivating, but the solid livestock waste that can produce by the first cultivation layer;
Described bottom water circle device comprises water inlet, water delivery mechanism and delivery port along water (flow) direction, and described water inlet is positioned under the first cultivation layer bottom surface, and described delivery port is for supplying water to the first cultivation layer.
Preferably, the degree of depth of described water inlet is adjustable.
Preferably, described water channel outlet is positioned on the first cultivation layer side face, and the corresponding water outlet of the first cultivation layer side face is net surface structure, and its mesh is permeable mouthful of water channel outlet.
Preferably, described aquaculture of aquatic animal system also comprises the second cultivation layer, described the second cultivation layer is positioned under the first cultivation layer, comprise the second cultivation layer side and the second cultivation layer bottom surface, the second cultivation layer side, the second cultivation layer bottom surface and the first cultivation layer bottom surface form the second cultivation layer border that aquatic livestock that obstruct cultivates passes through jointly, and the current that described water channel outlet is flowed out inject the second cultivation layer;
Described the second cultivation layer side is provided with mesh with a second cultivation layer bottom surface, and the second cultivation layer bottom surface mesh can hold the solid livestock waste that the second cultivation layer produces to be passed through;
More preferably, described the second cultivation layer below is provided with collecting net, and the mesh of described collecting net bottom surface passes through for the aquatic livestock excreta and the solid debris that intercept the second cultivation layer and produce.
More preferably, described collecting net bottom is provided with the opening that can draw in, collecting net stage casing or back segment are provided with gathering structure, be used for drawing in collecting net, and between gathering structure and collecting net bottom opening, forming discarded object spatial accommodation in the time drawing collecting net in, described collecting net length can be for gathering structure is lifted to the water surface.
Especially preferably, described the first cultivation layer, the second cultivation layer are connected with location ball float with collecting net.
Preferably, described the first cultivation layer top is provided with ceiling.
Preferably, described water circle device also comprises oxygen-enriching mechanism, the dissolved oxygen of the water that described oxygen-enriching mechanism flows out for increasing delivery port.
Preferably, described water circle device also comprises ultraviolet disinfection mechanism, and described ultraviolet disinfection mechanism is for carrying out ultraviolet radiation disinfection to water body.
The utility model is by drawing water from deep layer, utilize deep water water temperature to be different from superficial water, and the feature of deep water water temperature stability, water temperature in the first cultivation layer is regulated, and circulate, both effectively regulated the water temperature of the first cultivation layer, also make the renewal that circulates of the water of the first cultivation layer, improve water quality, improved cultivation density, avoided the disease of the aquatic animal that cultivates to occur, and can cultivate the aquatic livestock that temperature of cultivation is had higher requirements, and do not need extra refrigeration plant etc., effectively reduce energy consumption and cost, energy-saving and environmental protecting.
Brief description of the drawings
Fig. 1 is aquaculture of aquatic animal system schematic 1 described in the utility model embodiment;
Fig. 2 is aquaculture of aquatic animal system schematic 2 described in the utility model embodiment;
Fig. 3 is an aquaculture of aquatic animal system first cultivation layer structural representation Fig. 1 described in the utility model embodiment;
Fig. 4 is an aquaculture of aquatic animal system first cultivation layer structure schematic top plan view 1 described in the utility model embodiment;
Fig. 5 is aquaculture of aquatic animal system " L shaped " first cultivation layer structure schematic top plan view described in the utility model embodiment;
Fig. 6 is aquaculture of aquatic animal system " Y shape " first cultivation layer structure schematic top plan view 3 described in the utility model embodiment;
Fig. 7 is an aquaculture of aquatic animal system first cultivation layer structural representation described in the utility model embodiment.
Label declaration:
The first cultivation layer 10;
The first cultivation layer bottom surface 13;
The first cultivation layer side shelves 14,15;
Shelves 11 before the first cultivation layer;
Water channel 19;
The second cultivation layer 20;
The second cultivation layer side 21;
The second cultivation layer bottom surface 22;
Collecting layer 30;
Collecting net 31;
First segment collecting net 311;
Second section collecting net 312;
Discarded object spatial accommodation 32;
Oxygen-enriching mechanism 44;
The solid livestock waste 51 that the first cultivation layer produces;
The solid livestock waste 52 that the second cultivation layer produces;
Stay cord 61;
Ultraviolet lamp tube 63;
The aquatic livestock 81 that the first cultivation layer cultivates;
The aquatic livestock 82 that the second cultivation layer cultivates;
Water surface place horizontal plane L0 outside the first cultivation layer;
Water level L1 in the first cultivation layer.
Embodiment
By describing technology contents of the present utility model, structural feature in detail, being realized object and effect, below in conjunction with embodiment and coordinate accompanying drawing to be explained in detail.
Refer to Fig. 1 and Fig. 2, the present embodiment provides a kind of aquaculture of aquatic animal system, and this cultivating system can be arranged in the waters such as lake, reservoir, rivers or ocean, can cultivate the aquatic livestocks such as fish, shrimp, crab.
Cultivating system comprises the first cultivation layer 10 and bottom water circle device.
In certain embodiment, the first cultivation layer be the cuboid of end face opening, comprises before the first cultivation layer bottom surface 13, the first cultivation layer side shelves 14,15, the first cultivation layer rear grade 12 of shelves 11 and the first cultivation layer.
After shelves 11 before the first cultivation layer, the first cultivation layer side shelves 14,15, the first cultivation layer, shelves 12 enclose the first cultivation layer side face, the namely side face of cuboid, the first cultivation layer side block 14,15 is two opposite faces long in cuboid side face, before the first cultivation layer, after shelves 11, the first cultivation layer, shelves 12 are two shorter opposite faces of cuboid, the first cultivation layer side face and the first cultivation layer bottom surface 13 join, its upper limb is higher than the water surface (water surface place horizontal plane L0 outside the first cultivation layer as shown in Figure 1, 2); Make aquatic livestock 81(fish that the first cultivation layer cultivates etc.) can not swim in extraneous waters by the first cultivation layer side face upper limb, the biologies such as other fish in extraneous waters also can not swum in the first cultivation layer 10 by its upper limb.
As shown in Figure 4, the first cultivation layer structure is specific as follows: the first cultivation layer bottom surface 13 and the first cultivation layer side shelves 14, 15, can be plastic foil or on permeable net surface structure, increase one deck plastic foil and jointly form water-tight structure, the water channel 18 that the first cultivation layer bottom surface becomes water supply stream to pass through the first cultivation layer enclosing with the first cultivation layer side shelves, the end of water channel is water channel outlet 181, water channel outlet 181 be positioned at water channel away from the first cultivation layer before one end of shelves 11, water channel outlet 181 is provided with permeable hole, the pore size of the permeable hole of water channel outlet intercepts the aquatic livestock 81 that the first cultivation layer cultivates, but the solid livestock waste 51 that can produce by the first cultivation layer, arrange permeable hole except export 181 places at water channel, in some embodiment, with permeable rail shape permeable mouthful be also fine into strips, in a word, no matter be the structures such as the grid hole of hole or strip, as long as possessed and intercepted the aquatic livestock 81 that the first cultivation layer cultivates in structure, but the permeable mouth of the solid livestock waste 51 that can produce by the first cultivation layer.
Before the first cultivation layer, shelves 11 can be set to water-tight structure, are beneficial to the directed flow of current.
In certain embodiments, after the first cultivation layer, shelves 12 are wire side, water channel outlet is positioned at after the first cultivation layer on shelves, mesh 121 on wire side is permeable hole, water (flow) direction as shown in Fig. 1 arrow, the current of the first cultivation layer directly flow out from rear shelves wire side, simultaneously by the solid livestock waste 51 producing in the first cultivation layer, as fish faeces, swill etc. are taken out of, but because the mesh 121 on rear shelves wire side is less than the aquatic livestock 81 that the first cultivation layer cultivates, therefore the fish of cultivation, shrimp, crab etc. cannot be swum out of the first cultivation layer 10.
For the ease of flowing of current, water level L1 in the first cultivation layer is set higher than the water surface place horizontal plane L0 outside the first cultivation layer in embodiment.
Certainly, as shown in Figure 2, in some other embodiment, water channel can also be exported to 181 and be arranged at the first cultivation layer bottom surface 13 near rear shelves 12 places.
Bottom water circle device comprises water inlet 42, water delivery mechanism 41 and delivery port 43 along water (flow) direction, water inlet 42 is positioned under the first cultivation layer bottom surface 13, delivery port 43 supplies water for the water channel 18 that the first cultivation layer bottom surface 13 and the first cultivation layer side shelves 14,15 enclosings are become, and before delivery port 43 and the first cultivation layer, the distance of shelves 11 is less than a distance for layer rear grade 12 of delivery port 43 and the first cultivation.Water delivery mechanism 41 can be common water pump, and water pump extracts up undersurface bottom water at low temperature from water inlet, is input in the first cultivation layer 10 by delivery port 43.
Because bottom water water temperature is constant, be difficult for changing, so in certain embodiments, when winter, water pump extracts up undersurface bottom high-temperature water from water inlet, is input in the first cultivation layer 10 by delivery port 43.
In other embodiments, the structure of the first cultivation layer can change as required, for example:
As shown in Figure 3, similar to the above embodiments, the first cultivation layer is still set to cuboid, but the delivery port 43 of bottom water circle device is positioned at the middle part of cuboid length direction, front shelves are all set to wire side with rear shelves, before the first cultivation layer, after shelves 11, the first cultivation layers, on the wire side of shelves 12, are respectively arranged with mesh 111,121, water (flow) direction as shown by arrows, the water (flow) direction of the first cultivation layer flows to two ends from middle part.
In addition, the first cultivation layer can be set to L-type (see figure 5), Y type (see figure 6), cross etc., similar with embodiment above, the delivery port 43 of bottom water circle device is positioned at the middle part of the first cultivation layer, current are from middle part to being arranged at L-type, Y type, and the water channel outlet 181 of cross end is flowed, and water (flow) direction is as shown in the direction of arrow in figure.
In certain embodiment, as shown in Figure 7, the first cultivation layer has multiple water channels 18 side by side, and each water channel is connected with a water channel 19 respectively, and delivery port 43 is to supplying water to each water channel by water channel.In water channel 19, be provided with ultraviolet lamp tube 63, ultraviolet lamp tube 63 carries out ultraviolet radiation disinfection to the water body of the water channel of flowing through.Meanwhile, also oxygen-enriching mechanism 44 can be arranged among water channel 19.
Therefore, in each embodiment, in the first cultivation layer, the first cultivation layer bottom surface is water-tight structure with two sides relative in the first cultivation layer side face, form with two sides relative in the first cultivation layer side face the water channel 18 that water supply stream passes through by described the first cultivation layer bottom surface, in the first cultivation layer side face, relative two sides are water channel side 182, at least one end of water channel is provided with water channel outlet 181, can be supplied water and formed current in the first cultivation layer by bottom water circle device.
In order to meet the requirement of the first cultivation layer middle-high density cultivation, water circle device also comprises oxygen-enriching mechanism 44, the dissolved oxygen of the water that oxygen-enriching mechanism flows out for increasing delivery port, and then increase by first cultivates the dissolved oxygen in layer water, or be arranged in the first cultivation layer, directly increase the dissolved oxygen in the first cultivation layer water.As shown in Figure 1, can, by aerator is set, play the effect of negative pressure water lift, oxygenation and aeration.
In order to extract the bottom water of different temperatures, in some embodiment, the degree of depth of water inlet 42 is adjustable.For example to extract the water of lower temperature, water-feeding deep can be adjusted deeply, because darker water has lower temperature conventionally.Otherwise, water-feeding deep is adjusted shallow.In a word, the water inlet of depth-adjustable, can meet the needs of different inflow temperatures more neatly, according to actual water layer temperature, cultivates real time temperature temperature required and the first cultivation layer and decides the water inlet degree of depth.In some embodiment, the structure of regulation depth can be sleeve pipe or flexible pipe, can also be the pipeline configuration that can dock prolongation.
In addition, water delivery unit's output of water delivery mechanism can also be set, meet the needs of water temperature adjusting, water quality adjustment.In the time of water quality deterioration, can strengthen the power of water delivery mechanism, supply a large amount of fresh waters, accelerate water velocity in water channel, discharge undesired water.Or, in the time of water temperature over-high, also can strengthen the power of water delivery mechanism, supply a large amount of water at low temperature, reduce the water temperature of the first cultivation layer.
In the first cultivation layer, can cultivate sturgeon breeding, salmon or the high fish of other economic worths, taking sturgeon as example, water exchange capacity is per hour twice, and sturgeon cultivation density is by 4.0~5.0kg/m of original cage culture
3, be increased to 20~40kg/m
3, reach high yield.
Due to highdensity cultivation, in the first cultivation layer, can produce a large amount of solid livestock wastes, comprise aquatic livestock in the first cultivation layer excreta, fail food food-residue that in time feed stays etc., when culturing economic is worth higher aquatic livestock, this type of solid livestock waste contains higher heat conventionally, if be directly drained in water body by water channel outlet, not only causes larger waste, and easily cause water pollution, produce the adverse consequencess such as body eutrophication.
For overcoming above-mentioned defect, in some embodiment, aquaculture of aquatic animal system also comprises the second cultivation layer, the second cultivation layer 20 is positioned under the first cultivation layer 10, comprise the second cultivation layer side 21 and the second cultivation layer bottom surface 22, the second 21, the second cultivation layer bottom surface 22, cultivation layer side and the first cultivation layer bottom surface 13 be common to be formed and intercepts the second cultivation layer border that the aquatic livestock 82 of the second cultivation layer cultivation passes through, and the current that water channel outlet 181 is flowed out inject the second cultivation layer 20;
When the solid livestock waste 51 producing for the first cultivation layer that makes the current that reserve in the first cultivation layer and carry secretly flows into the second cultivation layer 20, the current of energy formation and modification, the solid livestock waste 51 that the first cultivation layer is produced is evenly brought in the second cultivation layer by the current of disturbance, the second cultivation layer is being provided with current baffle plate 23 with respect to water channel exit, the solid livestock waste 51 that the current that the first cultivation laminar flow is gone out and the first cultivation layer produce stops, and it is sunk down in the second cultivation layer.In other embodiment, because having intercepted the solid livestock waste 51 that the first cultivation layer produces, the second cultivation layer mesh around appear, therefore current baffle plate is not set, be also feasible.
In addition, in some embodiment, can also be by the modes such as conduit pipe are set, the water that the first cultivation laminar flow is gone out imports to the second cultivation layer 20.
The second cultivation layer can be surrounded by polythene net, cultivation Cyprinidae and ominivore-fish, the fish faeces of feed main source ground floor and residual bait, realize many species by different level, energy circulation.
The second cultivation layer side is provided with mesh with a second cultivation layer bottom surface, and the second cultivation layer bottom surface mesh can hold the solid livestock waste 52 that the second cultivation layer produces to be passed through;
For solid livestock waste 52 contaminated environment that prevent that the second cultivation layer from producing, second cultivation layer 20 below are provided with collecting net 31, form collecting layer 30, and the mesh of collecting net bottom surface passes through for the aquatic livestock excreta and the solid debris that intercept the second cultivation layer and produce.In certain embodiments, collecting net 31 is funnel type screen cloth structure, carries out waste residue recovery, realizes pollution-free environmental protection object.
Reclaim for the ease of the waste residue of collecting in collecting net, collecting net bottom is provided with the opening 313 that can draw in, collecting net stage casing or back segment are provided with and draw structure 314 in, be used for drawing in collecting net, and between gathering structure 314 and collecting net bottom opening 313, form discarded object spatial accommodation 32 in the time drawing collecting net in, collecting net 31 is connected with heavy water sandbag 62 by stay cord 61, with fixed position.For ease of reclaiming, drawing structure 314 in is all connected with ball float 60 by stay cord 61 with collecting net bottom, as shown in Figure 2, collecting net length can, for gathering structure is lifted to the water surface, in the time collecting waste residue, utilize stay cord tension to draw structure in, draw structure in and draw collecting net in, waste residue is gathered and is positioned in discarded object spatial accommodation 32, then with stay cord, collecting net end is promoted to the water surface, by collecting net bottom opening 313, waste residue is emitted.Waste residue can do the purposes such as fertilizer.
In certain embodiments, be fixing each layer, the first cultivation layer, the second cultivation layer, collecting layer is connected with location ball float 60.By ball float buoyancy, each cultivation layer and collecting net are located.Lift by ball float 60 the first cultivation layer bottom, can effective location.Certainly,, except using the mode of ball float, also can be located by the backstay, the positioning rope that are for example fixed on the bottom or its place.
As shown in Figure 1, 2, in order to locate better all parts of cultivating system, can also utilize heavy water sandbag, and connect heavy water sandbag 62 and each cultivation layer, the stay cord 61 of collecting layer positions cultivating system.
In certain embodiments, ceiling has been put up in the first cultivation layer water surface top, for controlling climatic factor, realizes industrial aquaculture.
Taking certain embodiment of sturgeon breeding as example.Long 17 meters of the geomembrane of the water channel employing sealing of the first cultivation layer, wide 11 meters, dark 2.5 meters (dark 2 meters of water purification, exceeds 0.5 meter of the depth of water).The second cultivation layer surrounds with the polythene net of certain order number, and long 18 meters, wide 11 meters, dark 6 meters of water purification.Collecting layer three-dimensional culture equipment is funnel type screen cloth structure, carries out waste residue recovery, realizes pollution-free environmental protection object, dark 12 meters of water purification, as shown in Figure 1, 2, point two joints, first segment collecting net 311 sizes are 11 meters wide, and long 18 meters, dark 6 meters are funnel type, play and collect waste residue effect, second section collecting net 312 is connected in first segment collecting net hopper base, is cylindric, bottom has opening, long 25 meters, 80 centimeters of diameters, play artificial decontamination.The first cultivation layer uses the aerator of 0.75 kilowatt, plays the effect of negative pressure water lift, oxygenation and aeration.
Utilize and of the present utility modelly carry out aquaculture and comprise the following steps:
Aquatic farming animals in the first cultivation layer, and draw water from the water layer of the following degree of depth of the first cultivation layer, first pass through oxygenation step, be delivered to the first cultivation layer, after the first cultivation layer of flowing through, flow out, take the cultivation solid waste that the first cultivation layer produces out of;
The current that go out from the first cultivation laminar flow inject the second cultivation layer of the first cultivation layer below, and aquatic livestock that the cultivation solid waste that its first cultivation layer of taking out of produces cultivates for the second cultivation layer makes feed.
Utilization is arranged at the collecting net of the second cultivation layer below and collects the cultivation solid waste that the second cultivation layer produces.
The foregoing is only embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model specification and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.
Claims (9)
1. an aquaculture of aquatic animal system, is characterized in that, comprises the first cultivation layer and bottom water circle device;
Described the first cultivation layer comprises the first cultivation layer bottom surface and the first cultivation layer side face, described the first cultivation layer side face lower edge and the first cultivation layer bottom surface join, the first cultivation layer side face upper limb, higher than the water surface, is made up of the first cultivation layer border separating mutually with extraneous waters the first cultivation layer bottom surface and the first cultivation layer side face;
The first cultivation layer bottom surface is water-tight structure with two sides relative in the first cultivation layer side face, form with two sides relative in the first cultivation layer side face the water channel that water supply stream passes through by described the first cultivation layer bottom surface, at least one end of water channel is provided with water channel outlet, water channel outlet is provided with permeable mouthful, the size of permeable mouthful intercepts the aquatic livestock cultivating, but the solid livestock waste that can produce by the first cultivation layer;
Described bottom water circle device comprises water inlet, water delivery mechanism and delivery port along water (flow) direction, and described water inlet is positioned under the first cultivation layer bottom surface, and described delivery port is for supplying water to the first cultivation layer.
2. aquaculture of aquatic animal system according to claim 1, is characterized in that, the degree of depth of described water inlet is adjustable.
3. aquaculture of aquatic animal system according to claim 1, is characterized in that, described water channel outlet is positioned on the first cultivation layer side face, and the corresponding water outlet of the first cultivation layer side face is net surface structure, and its mesh is permeable mouthful of water channel outlet.
4. aquaculture of aquatic animal system according to claim 1, it is characterized in that, described aquaculture of aquatic animal system also comprises the second cultivation layer, described the second cultivation layer is positioned under the first cultivation layer, comprise the second cultivation layer side and the second cultivation layer bottom surface, a second cultivation layer side, the second cultivation layer bottom surface and the first cultivation layer bottom surface form the second cultivation layer border that aquatic livestock that obstruct cultivates passes through jointly, and the current that described water channel outlet is flowed out inject the second cultivation layer;
Described the second cultivation layer side is provided with mesh with a second cultivation layer bottom surface, and the second cultivation layer bottom surface mesh can hold the solid livestock waste that the second cultivation layer produces to be passed through.
5. aquaculture of aquatic animal system according to claim 4, is characterized in that, described the second cultivation layer below is provided with collecting net, and the mesh of described collecting net bottom surface passes through for the aquatic livestock excreta and the solid debris that intercept the second cultivation layer and produce;
Described collecting net bottom is provided with the opening that can draw in, collecting net stage casing or back segment are provided with gathering structure, be used for drawing in collecting net, and between gathering structure and collecting net bottom opening, forming discarded object spatial accommodation in the time drawing collecting net in, described collecting net length can be for gathering structure is lifted to the water surface.
6. aquaculture of aquatic animal system according to claim 1, is characterized in that, described the first cultivation layer top is provided with ceiling.
7. according to the aquaculture of aquatic animal system described in claim 1 to 6 any one, it is characterized in that, described water circle device also comprises oxygen-enriching mechanism or ultraviolet disinfection mechanism, the dissolved oxygen of water in the water that described oxygen-enriching mechanism flows out for increasing delivery port or the first cultivation layer, described ultraviolet disinfection mechanism is for carrying out ultraviolet radiation disinfection to water body.
8. according to the aquaculture of aquatic animal system described in claim 1 to 6 any one, it is characterized in that, described the first cultivation layer, the second cultivation layer are connected with location ball float with collecting net.
9. according to the aquaculture of aquatic animal system described in claim 1 to 6 any one, it is characterized in that, described the first cultivation layer, the second cultivation layer are connected with heavy water sandbag for location with collecting net.
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103651231A (en) * | 2013-10-11 | 2014-03-26 | 福建省农业科学院中心实验室 | Aquatic livestock breeding system and method |
| CN105230551A (en) * | 2015-10-28 | 2016-01-13 | 中国水产科学研究院淡水渔业研究中心 | Low-carbon efficient pond circulating flow water culture system |
| CN105766611A (en) * | 2016-04-05 | 2016-07-20 | 嵊泗县冠岛水产有限公司 | Device, system and method for three-dimensional cultivation of gracilaria lemaneiformis and oysters |
| CN106665453A (en) * | 2016-12-13 | 2017-05-17 | 大连海洋大学 | Scallop seaborne temporary culture purification system based on aquaculture area bottom seawater development and utilization |
-
2013
- 2013-10-11 CN CN201320627507.0U patent/CN203675867U/en not_active Withdrawn - After Issue
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103651231A (en) * | 2013-10-11 | 2014-03-26 | 福建省农业科学院中心实验室 | Aquatic livestock breeding system and method |
| CN103651231B (en) * | 2013-10-11 | 2016-02-17 | 福建省农业科学院中心实验室 | Aquaculture of aquatic animal System and method for |
| CN105230551A (en) * | 2015-10-28 | 2016-01-13 | 中国水产科学研究院淡水渔业研究中心 | Low-carbon efficient pond circulating flow water culture system |
| CN105766611A (en) * | 2016-04-05 | 2016-07-20 | 嵊泗县冠岛水产有限公司 | Device, system and method for three-dimensional cultivation of gracilaria lemaneiformis and oysters |
| CN106665453A (en) * | 2016-12-13 | 2017-05-17 | 大连海洋大学 | Scallop seaborne temporary culture purification system based on aquaculture area bottom seawater development and utilization |
| CN106665453B (en) * | 2016-12-13 | 2019-08-13 | 大连海洋大学 | The marine temporarily feeding purification system of scallop based on the development and utilization of aquaculture sea area bottom seawater |
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