CN214829746U - Aquaculture circulating water treatment device - Google Patents

Abstract

The utility model relates to the technical field of aquaculture, and discloses an aquaculture circulating water treatment device, which comprises a culture pond, a filter tank, an ecological treatment system, a magnetic coagulation sedimentation tank and a denitrification deep-bed filter tank, wherein the culture pond, the filter tank, the ecological treatment system, the magnetic coagulation sedimentation tank and the denitrification deep-bed filter tank are sequentially communicated, the denitrification deep-bed filter tank is communicated with the culture pond, the filter tank filters large and visible pollutants with the same volume of residual bait and excrement, the ecological treatment system adsorbs, intercepts and biologically flocculates the pollutants, realizes the conversion and absorption of the pollutants, reduces the organic matter content of culture water, the magnetic coagulation sedimentation tank adsorbs and precipitates bacteria, viruses, oil and a plurality of micro-particles in the culture water, and removes SS (suspended solid) to clarify the water, the denitrification deep-bed filter tank has the function of denitrification, and the function of removing suspended matters and nitrate, the organic matter content of the treated water is low, the purification effect is good, and the flowing efficiency is high.

Description

Aquaculture circulating water treatment device

Technical Field

The utility model relates to a water treatment technical field especially relates to an aquaculture circulating water treatment facilities.

Background

Aquaculture usually adopts the breed pond to breed, and aquaculture pond is because its closure to lead to the water in the pond to can't carry out effective circulation, breed under the environment like this, lead to the quality of water deterioration in the breed pond easily, the pH value is unbalanced, and the death of pond aquatic products is caused even to a long time, brings very big loss for breeding.

The total effective nitrogen content in the aquaculture water body increases along with the increase of the aquaculture number, the feed fed in the pond aquaculture accounts for 5-10% of the feed which is not eaten by the fishes, and 25-30% of the feed which is eaten by the fishes is discharged in the form of excrement. The nitrogen input is 90-98% of feed, the nitrogen output is 20-27% of fish, the deposited nitrogen is 54-77%, the phosphorus input is 97-98% of feed, the deposited phosphorus is 72-89% of output, and the fish output is only 8-24%. The contents of nitrogen and phosphorus in the feed are proved to be mostly deposited in the pond except that a small part of the feed is supplied for the growth of the cultured fishes, thereby causing waste and pollution. The artificial feed which is fed in excess, the applied organic fertilizer and the biological excrement lead the pond to contain a large amount of organic substances. The dissolved organic substances are the nutrients of bacteria, provide conditions for the propagation and growth of pathogenic bacteria and increase the possibility of the disease of the cultivated organisms. The decomposition of excessive organic substances needs to consume a large amount of oxygen, so that the pond is easy to generate an anoxic condition and the water quality is easy to deteriorate, thereby directly influencing the growth of cultured organisms.

At present, the aquaculture water treatment mainly comprises the following two modes. The first mode utilizes various filter media with different pore sizes to obstruct or adsorb impurities in water so as to keep the water quality clean, but can only remove pollutants with larger volume through filtering, can not treat organic matters dissolved in the water, and can not improve the water quality. The second mode is to add chemical agents such as calcium chlorate, quicklime and the like as a water quality modifier, but the long-term continuous use is easy to cause drug resistance of bacterial strains and cause secondary pollution to aquaculture environment.

Chinese utility model patent CN210168787U (published as 2029, 04.10) discloses a water circulating soft-shelled turtle culture system, which comprises a conical aquaculture pond and a filter pond, wherein the bottom of the aquaculture pond is provided with a bottom sewage discharge structure, a water layer and a sand layer are arranged in the aquaculture pond, the top of the bottom sewage discharge structure is provided with a sewage discharge inlet, and the bottom of the bottom sewage discharge structure is connected with a sewage pipe and then is connected with the filter pond; the filtering tank is divided into a plurality of units, the filtering unit comprises a filtering unit with a filtering layer in the middle and a sterilizing unit with ultraviolet lamp radiation in the filtering unit, and a water discharge groove is formed between adjacent units through adjacent partition plates; the lower area of the filter layer of the first filter unit in the filter tank is communicated with a sewage pipe to receive sewage in the aquaculture tank; and a water pump is arranged in the sterilization unit and is connected with the conical aquaculture pond through a circulating water pipe. The patent can only filter the larger pollutants in the culture water, and can not purify the water quality, thereby treating the symptoms and the root causes.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an aquaculture circulating water treatment facilities that quality of water purifying effect is good.

In order to realize the above purpose, the utility model provides an aquaculture circulating water treatment device, including breeding pond, filtering ponds, ecological treatment system, magnetism coagulating sedimentation pond and denitrification deep bed filtering pond, breed the pond the filtering ponds ecological treatment system magnetism coagulating sedimentation pond with the denitrification deep bed filtering pond communicates in proper order, denitrification deep bed filtering pond with breed the pond intercommunication.

As a preferable scheme, the ecological treatment system comprises a water distribution tank, a water drop plate and a biological filter material layer, wherein the water distribution tank is provided with water distribution holes, the water drop plate is positioned below the water distribution tank, the water drop plate is arranged obliquely downwards, and the biological filter material layer is laid on the water drop plate.

As a preferred scheme, the drop plate includes a plurality of first drop plates and a plurality of second drop plates, and a plurality of first drop plates are parallel arrangement from top to bottom in proper order, and are a plurality of second drop plates are parallel arrangement from top to bottom in proper order, first drop plate with the second drop plate is crisscross to be set up, the bottom of first drop plate is located rather than adjacent the clearance that can hold water to pass through in order to form in the top of second drop plate, the extension line of first drop plate with rather than adjacent the second drop plate is crossing.

Preferably, the water dropping plate is positioned above the magnetic coagulation sedimentation tank.

Preferably, a micro-filter is arranged in the filter tank.

Preferably, the microfiltration machine comprises a roller, a filter screen, a frame body and a backwashing device, the roller is rotatably connected to the frame body, the filter screen is connected to the inner wall of the roller, the backwashing device comprises a spray pump and a plurality of washing nozzles, the washing nozzles are connected to the frame body, and the spray pump is communicated with the washing nozzles.

Preferably, the microfiltration machine further comprises a control device, a first liquid level sensor and a second liquid level sensor, wherein the first liquid level sensor and the second liquid level sensor are respectively arranged on the inlet side and the outlet side of the microfiltration machine, and the first liquid level sensor, the second liquid level sensor and the spray pump are respectively in communication connection with the control device.

As preferred scheme, magnetism coagulating sedimentation pond includes reaction tank, depositing reservoir, magnetic separation machine, mud backwash pump and excess sludge pump, be equipped with first flocculating agent in the reaction tank and put in device, coagulant input device and magnetic put in the device, the reaction tank with the depositing reservoir intercommunication, the depositing reservoir with the deep bed filtering pond intercommunication of denitrification, the depositing reservoir passes through the mud backwash pump with the reaction tank with the magnetic separation machine intercommunication, the magnetic separation machine has discharge gate and mud outlet, the discharge gate with the reaction tank intercommunication, mud outlet with the excess sludge pump intercommunication.

As a preferred scheme, the denitrification deep bed filter comprises a filter main body, a micro flocculation tank and an air-water backwashing device, wherein the filter main body, the micro flocculation tank and the magnetic coagulation sedimentation tank are communicated, the filter main body is communicated with the culture tank, the micro flocculation tank is provided with a stirring mechanism, a carbon source feeding device and a second flocculating agent feeding device, and the air-water backwashing device is communicated with the filter main body.

As a preferred scheme, the filter tank is communicated with the bottom of the culture tank through a lift pump, and the denitrification deep-bed filter tank is communicated with the top of the culture tank through a water inlet pump.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model discloses a to breed the pond, the filtering ponds, ecological treatment system, magnetic coagulation sedimentation tank and denitrification deep bed filtering pond communicate in proper order, make the water of breeding the pond through the filtering ponds, it is great with the same volume of incomplete bait and excrement, visible pollutant filters, rethread ecological treatment system, adsorb the pollutant, hold back, biological flocculation etc., the realization is absorbed the conversion of pollutant, reduce the organic matter content of breeding water, magnetic coagulation sedimentation tank is to the bacterium of breeding the aquatic, the virus, oil and multiple small particle adsorb the sediment, get rid of the SS, make the water clarification, be favorable to the sunshine after the water circulation returns the breeding pond to shine, denitrification deep bed filtering pond has the function of denitrogenation, get rid of the function of suspended solid and nitrate. The utility model discloses a nitrogen, phosphorus etc. of aquatic can be got rid of to circulating water treatment facilities, and the organic matter content of aquatic is low, reduces the bacterial reproduction to rivers flow efficiently, make the quality of water clarification that returns the breed pond, purifying effect is good.

Drawings

Fig. 1 is a schematic structural diagram of an aquaculture circulating water treatment device according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an ecological treatment system according to an embodiment of the present invention.

In the figure, 100-culture pond; 200-a filtering tank; 210-a micro-filter; 300-an ecological treatment system; 310-water distribution tank; 320-biological filter material layer; 330-first drop plate; 340-a second drop plate; 400-magnetic coagulating sedimentation tank; 410-a reaction tank; 420-a clarification tank; 430-magnetic separator; 500-denitrification deep bed filter; 510-a filter body; 520-a micro flocculation tank; 530-air water backwashing device.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in FIG. 1 and FIG. 2, the utility model discloses an aquaculture circulating water treatment device of preferred embodiment, including breeding pond 100, filtering ponds 200, ecological treatment system 300, magnetism coagulating sedimentation tank 400 and denitrification deep bed filtering pond 500, breeding pond 100, filtering ponds 200, ecological treatment system 300, magnetism coagulating sedimentation tank 400 and denitrification deep bed filtering pond 500 communicate in proper order, denitrification deep bed filtering pond 500 and breeding pond 100 intercommunication. This embodiment is through breeding pond 100, filtering ponds 200, ecological treatment system 300, magnetic coagulation sedimentation tank 400 and denitrification deep bed filtering pond 500 communicate in proper order, make the water of breeding pond 100 pass through filtering ponds 200, with the isometric great, visible pollutant of incomplete bait and excrement, rethread ecological treatment system 300, adsorb the pollutant, hold back, biological flocculation etc, the realization is absorbed the conversion of pollutant, reduce the organic matter content of breeding water, magnetic coagulation sedimentation tank 400 adsorbs the sediment to the bacterium in the breeding water, the virus, oil and multiple tiny particle, get rid of the SS, make the water body clarify, be favorable to the sunshine after the water circulation returns the breeding pond to shine, denitrification deep bed filtering pond 500 has the function of denitrogenation, get rid of the function of suspended solid and nitrate. The circulating water treatment device of this embodiment can get rid of nitrogen, phosphorus etc. in aquatic, and the organic matter content in aquatic is low, reduces the bacterial reproduction to water flow efficiency is high, makes the quality of water clarification that returns the breed pond, and purifying effect is good.

The ecological treatment system 300 of the embodiment includes a water distribution tank 310, a water drop plate and a biological filter material layer 320, the water distribution tank 310 is provided with water distribution holes, the water drop plate is located below the water distribution tank 310, the water drop plate is arranged obliquely downwards, and the biological filter material layer 320 is laid on the water drop plate. The biological filter material layer 320 is suitable for aerobic, facultative and anaerobic microorganism attachment. The biological filter material layer 320 of the embodiment is a rattan cotton layer, three layers of rattan cotton blocks are stacked from top to bottom to form a first filter material layer, the three rattan cotton blocks are attached by aerobic, facultative and anaerobic microorganisms from top to bottom in sequence, the rattan cotton can improve water quality and filter and clean, and is a warm bed for nitrobacteria culture, which is beneficial to nitrification and denitrification and has physical and biochemical filtering effects. When water flows through the water drop plate, the water surface is in contact with air, oxygen is dissolved in the water flow, the surface layer, the middle layer and the bottom layer of the water flow form an aerobic, facultative and anaerobic relatively stable region, good conditions are provided for removing pollutants such as COD (chemical oxygen demand), total nitrogen and the like with aerobic, facultative and anaerobic microorganisms, biological denitrification is realized, and the formed biological membrane can utilize natural light, is favorable for the production of algae and photosynthetic bacteria, consumes organic matters and promotes the decontamination effect. The three-layer dissolved oxygen gradient is beneficial to nitrification and denitrification, the aged thallus autolysis and anaerobic degradation products provide rich carbon sources for denitrification, the restriction link of biological denitrification is ensured, the denitrification is smoothly carried out, the content of organic matters in the culture water is reduced, and the breeding of bacteria and viruses in the purified water is reduced. Furthermore, the water dropping plates comprise a plurality of first water dropping plates 330 and a plurality of second water dropping plates 340, the plurality of first water dropping plates 330 are sequentially arranged in parallel from top to bottom, the plurality of second water dropping plates 340 are sequentially arranged in parallel from top to bottom, the first water dropping plates 330 and the second water dropping plates 340 are arranged in a staggered manner, the bottom ends of the first water dropping plates 330 are positioned above the adjacent second water dropping plates 340 to form gaps capable of containing water, the extension lines of the first water dropping plates 330 are intersected with the adjacent second water dropping plates 340, the multistage water dropping plates can increase the flowing distance of the aquaculture water, the water flows from the upper water dropping plate to the lower water dropping plate, and the dissolved oxygen in the water is increased due to the water dropping effect. The water dropping plate of the embodiment is positioned above the magnetic coagulation sedimentation tank 400, so that the aquaculture water can fall into the magnetic coagulation sedimentation tank 400 like rain, the dissolved oxygen in the water is further improved, and the aquaculture water can be uniformly distributed in the magnetic coagulation sedimentation tank 400, has hydraulic impact by utilizing height difference and is fully contacted with the flocculating agent, the coagulant and the magnetic powder of the magnetic coagulation sedimentation tank 400.

In this embodiment, the micro-filter 210 is disposed in the filtering tank 200, the micro-filter 210 rotates by itself, and the culture water in the micro-filter 210 is thrown out by centrifugal force, so that the filtering efficiency is high. The microstrainer 210 of this embodiment includes cylinder, filter screen, support body and back flush unit, and the cylinder rotationally connects on the support body, and the filter screen is connected with the inner wall of cylinder, and back flush unit is including spraying pump and a plurality of washing nozzle, and washing nozzle connects on the support body, sprays pump and washing nozzle intercommunication, sprays the breed water after will filtering through spraying the pump on the cylinder, avoids the pollutant to block up the sieve mesh of filter screen. The micro-filter 210 of the present embodiment uses a micro-hole screen of 80-500 mesh/square inch. In addition, the micro-filter 210 further includes a control device, a first liquid level sensor and a second liquid level sensor, the first liquid level sensor and the second liquid level sensor are respectively disposed on the inlet side and the outlet side of the micro-filter, and the first liquid level sensor, the second liquid level sensor and the spray pump are respectively in communication connection with the control device, so that the spray pump is automatically started according to the water level difference of the inlet and the outlet. In addition, the micro-filter 210 of this embodiment is provided with two or more micro-filters, the filter tank 200 is divided into a water inlet tank and a water outlet tank, the water inlet tank is communicated with the culture pond 100, the micro-filters 210 are arranged in the water outlet tank, each micro-filter 210 is sequentially arranged along the length direction of the tank wall between the water inlet tank and the water outlet tank, the water inlet tank is provided with water inlets with the number equal to that of the micro-filters 210, the water inlets are communicated with the water inlets of the micro-filters 210, the water outlet tank is provided with water outlets, the positions of the water outlets are lower than the water inlets, so that water flows independently by the height difference between the inlets and the outlets, power devices are reduced, and the cost is reduced. The use of multiple micro-filters 210 may improve the efficiency of water flow. In addition, the tank bottom of the intake antrum of this embodiment is higher than the tank bottom of play basin, avoids breeding the water and silts up in the intake antrum.

Optionally, the magnetic coagulation basin 400 of this embodiment is a treatment system that integrates the functions of a fast mixing zone, a magnetic mixing zone, a flocculation zone, a sedimentation zone, sludge concentration, sludge backflow, magnetic powder recovery, sludge discharge, and the like. The magnetic coagulation sedimentation tank 400 of the embodiment comprises a reaction tank 410, a clarification tank 420, a magnetic separator 430, a sludge reflux pump and a residual sludge pump, wherein a flocculating agent feeding device, a coagulant feeding device and a magnetic powder feeding device are arranged in the reaction tank 410, the reaction tank 410 is communicated with the clarification tank 420, the clarification tank 420 is communicated with a denitrification deep bed filter 500, the clarification tank 420 is communicated with the reaction tank 410 and the magnetic separator 430 through the sludge reflux pump, the magnetic separator 430 is provided with a discharge port and a sludge outlet, the discharge port is communicated with the reaction tank 410, and the sludge outlet is communicated with the residual sludge pump. The magnetic powder is added in the conventional coagulating sedimentation process, and the coagulated flocs and the magnetic powder are effectively combined. The specific gravity of the magnetic powder is 5.0-6.0, so that the specific gravity of the coagulated flocs is greatly increased, and the settling speed of the flocs is greatly accelerated. The sludge and the magnetic powder are separated by the magnetic separator 430, so that the magnetic powder can be recycled. The magnetic coagulation sedimentation tank 400 has the following characteristics: (1) the hydraulic load is high, and the ascending flow rate is 20-50m/h, so that the occupied area is greatly reduced; (2) the removal rate of SS is high, the effluent quality is good, and the stability is high; (3) the hydraulic load change influence is small, and the water resistance change capability is strong; (4) the sensitivity to temperature and water quality changes is low, and the low-temperature operation is stable; (5) the sludge concentration rate is high, the discharged concentration is high, and the sludge conveying amount is reduced; (6) the sludge flows back, so that the medicament can be recycled, and the operation cost is effectively reduced; (7) the treatment process is fully automatically controlled, and the labor intensity is low; (8) the system is started quickly, and the equipment maintenance is less; (9) the proper medicament is flexibly added to adapt to the change of water quality.

In addition, the denitrification deep bed filter 500 of the embodiment comprises a filter body 510, a micro-flocculation tank 520 and an air-water backwashing device 530 which are communicated, wherein the micro-flocculation tank 520 is communicated with a clarification tank 420 of the magnetic coagulation sedimentation tank 400, the filter body 510 is communicated with the culture pond 100, the micro-flocculation tank 520 is provided with a stirring mechanism, a carbon source feeding device and a second flocculant feeding device, and the air-water backwashing device 530 is communicated with the filter body 510. The denitrification biofilm formation medium of the filter body 510 is quartz sand with the particle size of 2-3 mm, the specific surface area is large, the efficiency of intercepting suspended matters is high, and the deep bed is an excellent structure for removing nitric acid nitrogen (NO3-N) and suspended matters. In the back washing period interval, the filtering area per square meter can ensure that solid suspended matters larger than or equal to 7.3kg are intercepted. The depth of the filter body 510 is 1.83 m, so that the phenomenon of channeling or penetration is avoided, and the filter bed is not penetrated by water power even if the sludge is expanded or abnormal in the front-stage treatment process. The characteristic of high solid load of the filter body 510 greatly prolongs the filter period, reduces the back washing times, and can easily cope with abnormal conditions such as peak flow or sludge bulking in a treatment plant. Continued entrapment of suspended matter increases head loss, thus requiring backwash to remove the entrapped solids. High solids loading, deep bed, requires high strength backwash. The denitrification filter tank adopts gas and water for back flushing in a synergic manner, and can meet the strength requirement. The backwash wastewater is generally returned to the front-end biological treatment unit. Because of the high load rejection of the filter bed solids, the backwash water usage is no more than 4% of the process plant water, typically < 2%.

The denitrification deep bed filter 500 can realize the following functions: (1) removal of TN (Total Nitrogen, Total amount of various forms of inorganic and organic Nitrogen in water): using proper amount of high-quality carbon source to adsorb and grow denitrifying bacteria on the surface of quartz sand to remove NO_x-N to N₂Engineering experience and historical data show that the deep bed filter can stably achieve the effluent TN less than or equal to 3mg/l under the condition that the front end nitration reaction is more complete. In the denitrification process, as nitric acid nitrogen is continuously reduced into nitrogen, a large amount of nitrogen can be collected in the deep-bed filter, and the nitrogen can cause sewage to flow around media, so that the contact between microorganisms and water flow is enhanced, and the filtering efficiency is improved. When excessive nitrogen bubbles are accumulated in the tank body, head loss is caused, and nitrogen must be dispersed and the head recovered at the moment, wherein the nitrogen bubbles are accumulated every 1 hour for 1 time and each time lasts for 5 minutes; (2) removal of SS (suspended matter): each milligram of SS contains 0.4-0.5 milligram of BOD5 (biochemical oxygen demand), so that suspended solid in the effluent is removed, and the BOD5 in the effluent is also reduced. In addition, the solid suspended substances in the effluent contain nitrogen, phosphorus and other heavy metal substances, and the removal of the solid suspended substances can reduce the impurities by more than 1mg/l generally, and the total phosphorus in the effluent can be stably reduced to less than 0.3mg/l by matching with proper chemical treatment. The denitrification filter tank can easily meet the turbidity<2NTU or SS<5mg/l (usually SS)<2 mg/l); (3) removing TP (Total Phosphorus, which refers to the result of determination after various forms of Phosphorus are converted into orthophosphate after a water sample is digested, and the determination is measured by the number of milligrams of Phosphorus contained in each liter of water sample): the micro-flocculation direct filtration dephosphorization, the deep bed filter technology is a contact flocculation filtration technology which omits the precipitation process and synchronously completes the coagulation and filtration processes in the filter.

In addition, the filtering ponds 200 of this embodiment are communicated with the bottom of the culture pond 100 through the lift pump, and the denitrification deep-bed filtering pond 500 is communicated with the top of the culture pond 10 through the water inlet pump, so that pollutants precipitated at the bottom of the culture pond 100 are discharged, the water purification utilization rate of the culture pond 100 is improved, the smelly bottom and the black bottom are avoided, the purified water is introduced into the culture pond 100 from the top, the flow of the culture pond 100 can be improved, and the dissolved oxygen amount of the inflowing water is provided.

To sum up, the embodiment of the utility model provides an aquaculture circulating water treatment device, it is through breeding pond 100, filter tank 200, ecological treatment system 300, magnetism coagulating sedimentation tank 400 and denitrification deep bed filtering pond 500 and communicate in proper order, the water in breeding pond 100 flows through filter tank 200 in proper order, ecological treatment system 300, magnetism coagulating sedimentation tank 400 and denitrification deep bed filtering pond 500, flow back to breeding pond 100 finally, make the water of breeding pond 100 pass through filter tank 200, the isovolumic great, visible pollutant of residual bait and excrement is filtered, rethread ecological treatment system 300, adsorb, hold back, biological flocculation etc. the pollutant, realize the conversion absorption to the pollutant, reduce the organic matter content of breeding water, magnetism coagulating sedimentation tank 400 adsorbs the bacterium in the breeding water, the virus, oil and multiple tiny particle and deposits, remove the SS, make the water body clarify, is beneficial to the sunlight irradiation after the water is circulated back to the culture pond, and the denitrification deep bed filter 500 has the functions of denitrification and removal of suspended matters and nitrates. The circulating water treatment device of this embodiment can get rid of nitrogen, phosphorus etc. in aquatic, and the organic matter content in aquatic is low, reduces the bacterial reproduction to water flow efficiency is high, makes the quality of water clarification that returns the breed pond, and purifying effect is good.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides an aquaculture circulating water treatment facilities, its characterized in that, including breed pond (100), filtering ponds (200), ecological treatment system (300), magnetism coagulating sedimentation pond (400) and denitrification deep bed filtering pond (500), breed pond (100) filtering ponds (200) ecological treatment system (300) magnetism coagulating sedimentation pond (400) with denitrification deep bed filtering pond (500) communicate in proper order, denitrification deep bed filtering pond (500) with breed pond (100) intercommunication.

2. The aquaculture circulating water treatment device according to claim 1, wherein the ecological treatment system (300) comprises a water distribution tank (310), a water drop plate and a biological filter material layer (320), the water distribution tank (310) is provided with water distribution holes, the water drop plate is positioned below the water distribution tank (310), the water drop plate is arranged obliquely downwards, and the biological filter material layer (320) is laid on the water drop plate.

3. The aquaculture circulating water treatment device according to claim 2, wherein the drop plates comprise a plurality of first drop plates (330) and a plurality of second drop plates (340), the plurality of first drop plates (330) are sequentially arranged in parallel from top to bottom, the plurality of second drop plates (340) are sequentially arranged in parallel from top to bottom, the first drop plates (330) and the second drop plates (340) are arranged in a staggered manner, the bottom ends of the first drop plates (330) are positioned above the second drop plates (340) adjacent to the first drop plates to form gaps through which water can pass, and the extension lines of the first drop plates (330) intersect with the second drop plates (340) adjacent to the first drop plates.

4. An aquaculture circulating water treatment apparatus according to claim 2, wherein said drop plate is located above said magnetic coagulation sedimentation basin (400).

5. An aquaculture circulating water treatment apparatus according to claim 1, wherein a micro-filter (210) is arranged in the filter tank (200).

6. An aquaculture circulation water treatment apparatus according to claim 5, wherein said micro-filter (210) comprises a drum rotatably connected to said frame, a filter screen connected to the inner wall of said drum, a frame and a back-flushing device comprising a spray pump and a plurality of flushing nozzles, said flushing nozzles being connected to said frame, said spray pump being in communication with said flushing nozzles.

7. The aquaculture circulating water treatment device of claim 6, wherein the micro-filter (210) further comprises a control device, a first liquid level sensor and a second liquid level sensor, the first liquid level sensor and the second liquid level sensor are respectively arranged on the inlet side and the outlet side of the micro-filter (210), and the first liquid level sensor, the second liquid level sensor and the spray pump are respectively in communication connection with the control device.

8. The aquaculture circulating water treatment device according to claim 1, wherein the magnetic coagulation sedimentation tank (400) comprises a reaction tank (410), a clarification tank (420), a magnetic separator (430), a sludge reflux pump and a residual sludge pump, a first flocculant feeding device, a coagulant feeding device and a magnetic powder feeding device are arranged in the reaction tank (410), the reaction tank (410) is communicated with the clarification tank (420), the clarification tank (420) is communicated with the denitrification deep bed filter (500), the clarification tank (420) is communicated with the reaction tank (410) and the magnetic separator (430) through the sludge reflux pump, the magnetic separator (430) is provided with a discharge hole and a sludge outlet, the discharge hole is communicated with the reaction tank (410), and the sludge outlet is communicated with the residual sludge pump.

9. The aquaculture circulating water treatment device of claim 1, wherein the denitrification deep-bed filter (500) comprises a filter body (510), a micro-flocculation tank (520) and an air-water backwashing device (530) which are communicated, the micro-flocculation tank (520) is communicated with the magnetic coagulation sedimentation tank (400), the filter body (510) is communicated with the culture tank (100), the micro-flocculation tank (520) is provided with a stirring mechanism, a carbon source feeding device and a second flocculating agent feeding device, and the air-water backwashing device (530) is communicated with the filter body (510).

10. An aquaculture circulating water treatment device according to claim 1, wherein the filter tank (200) is communicated with the bottom of the culture tank (100) through a lift pump, and the denitrification deep-bed filter (500) is communicated with the top of the culture tank (100) through a water inlet pump.

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