CN114938791A

CN114938791A - Wisdom pond circulation farming systems

Info

Publication number: CN114938791A
Application number: CN202210846605.7A
Authority: CN
Inventors: 张曦; 崔国辉; 李天�; 陈国强; 王新鸣; 马俊玲; 黄其泉; 王刚; 侯子顺; 王北洋; 王建康
Original assignee: Fisheries Engineering Research Institute of CAFS
Current assignee: Fisheries Engineering Research Institute of CAFS
Priority date: 2022-07-19
Filing date: 2022-07-19
Publication date: 2022-08-26

Abstract

The invention relates to the field of aquaculture, in particular to an intelligent pond circulating aquaculture system; the device comprises a culture pond, wherein the culture pond comprises a main pond, a culture device is arranged in the main pond, and the main pond is connected with a solid-liquid separation device through a drainage device; an intelligent monitoring subsystem and a pollution discharge device are arranged in the main pond; the solid-liquid separation device is connected with a tail water treatment subsystem, and the tail water treatment subsystem and the main pond form a loop; the bottom of the main pond culture pond is of an arc-shaped structure; the invention can solve the problems of low culture density, low culture yield and low culture benefit.

Description

Wisdom pond circulation farming systems

Technical Field

The invention relates to the field of aquaculture, in particular to an intelligent pond circulating aquaculture system.

Background

The breeding system in the prior art has more defects, which are embodied in the following aspects:

firstly, residual baits and excrement are easy to deposit in each area of the bottom of the traditional pond culture system; secondly, organic matters at the bottom of the traditional pond are subjected to anaerobic fermentation to form black mud, and harmful substances such as ammonia nitrogen and nitrite can be continuously released into the water body of the pond; thirdly, the unit area or unit water cube culture density is low, and the culture yield and the culture benefit are not high; fourthly, the traditional pond is not provided with an automatic oxygenation system, the situation of oxygen deficiency and pond flooding is easy to occur, and certain risks exist in the culture process; fifthly, the problem that tail water discharged from the traditional pond pollutes the surrounding natural water area environment is solved; sixthly, the facility and intelligence degree is not high; seventhly, the quality of the cultured objects fluctuates, and the quality is not guaranteed well.

Disclosure of Invention

The invention provides an intelligent pond circulating aquaculture system and aims to solve a plurality of problems in the prior art.

The invention is realized by the following steps:

an intelligent pond circulating culture system comprises a culture pond, wherein the culture pond comprises a main pond, a culture device is arranged in the main pond, and the main pond is connected with a solid-liquid separation device through a drainage device; an intelligent monitoring subsystem and a pollution discharge device are arranged in the main pond; the solid-liquid separation device is connected with a tail water treatment subsystem, and the tail water treatment subsystem and the main pond form a loop; the bottom of the main pond culture pond is of a pot bottom structure.

Further, the culture device is arranged in the main pond in any one of a fixed mode and a floating mode.

Further, the sewage discharge device comprises a plurality of sewage discharge sub-pipes arranged at the bottom of the main pond, the plurality of sewage discharge sub-pipes are connected with a main sewage discharge pipe, and the main sewage discharge pipe is connected with an external sewage pond through an automatic drainage system; the automatic drainage system comprises a transmission component, the transmission component is arranged in the sewage discharge main pipe, and the sewage discharge main pipe is provided with a sewage discharge valve.

Further, the drainage device comprises a drainage tube connected with the main pond and the solid-liquid separation device and a drainage valve arranged on the drainage tube, and the drainage valve comprises a drainage information receiving module and a valve control module.

Furthermore, the intelligent monitoring subsystem comprises an intelligent bait casting device, an overwater video device, an underwater video device, a water quality monitoring device and a solar automatic oxygen increasing device.

Further, the video device on the water and the video device under the water are electrically connected with the sewage discharge valve.

Further, the water quality monitoring device comprises a water quality monitoring module and a communication module; the communication module is in communication with the drainage information receiving module.

Furthermore, the solar automatic oxygen increasing device comprises an oxygen content monitoring module and an oxygen increasing control module communicated with the oxygen content monitoring module.

Furthermore, the tail water treatment subsystem comprises an adjusting tank, a sedimentation tank, a disinfection tank, an aeration tank and a biological purification tank which are connected in sequence, wherein the biological purification tank is connected with the main pond to form a loop.

Further, the regulating tank is a water level regulating tank and is used for regulating the water level; the sedimentation tank is used for settling particulate matters, the disinfection tank is connected with an external disinfection device, the aeration tank is connected with an external aeration device, and the biological purification tank is connected with an external biomass purification device.

The beneficial effect of above-mentioned scheme:

according to the intelligent pond circulating aquaculture system, the structure of the bottom of the pond is improved to form a pot bottom structure or a structure beneficial to drainage and sewage collection, the bottom in the intelligent pond is respectively connected with a plurality of sewage outlets through a main pipe, residual bait and excrement are timely drained away, and the problem of deposition of the residual bait and excrement at the bottom of the pond is solved. According to the intelligent monitoring system, the intelligent monitoring subsystem is arranged to realize real-time acquisition of the state in the pond, the determination of the environment in the pond can be realized based on the data acquired in real time, and intelligent pollution discharge and cultivation are realized. The intelligent pond circulating culture system is provided with a fixed or floating culture device inside the pond in a matching way, a main culture object is cultured in a fish culture facility, and a water body from the fish culture facility is purified for a long time in the solid-liquid separation device through the arranged solid-liquid separation device and the drainage system arranged on the solid-liquid separation device, so that the purified water body returns to the fish culture facility, and the problems of low culture density, culture yield and culture benefit are solved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic diagram of a frame of an intelligent pond circulation aquaculture system provided by the present invention;

FIG. 2 is a schematic structural diagram of a top view of a main pond provided by the invention;

fig. 3 is a schematic sectional view of the main pond provided by the invention.

Icon:

100-an intelligent pond circulating culture system;

110-a culture pond; 120-a farming plant; 130-an intelligent monitoring subsystem; 140-a waste fitting; 150-a tail water treatment subsystem; 160-an external lagoon; 170-a drainage device; 180-automatic drainage system;

111-main pond; 112-a solid-liquid separation device; 131-intelligent bait casting device; 132-video over water device; 133-underwater video device; 134-a water quality monitoring device; 135-solar automatic oxygen increasing device; 141-blowdown subduct; 142-a main blowdown pipe; 151-regulating reservoir; 152-a sedimentation tank and 153-a disinfection tank; 154-an aeration tank; 155-biological purification tank; 171-a drainage tube; 181 — transmission means.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The following is a detailed description of an intelligent pond circulation aquaculture system 100 according to an embodiment of the present invention:

example 1

Referring to fig. 1, the present embodiment provides an intelligent pond circulating aquaculture system 100 for aquaculture, specifically for circulating aquaculture ponds, which realizes the circulating treatment of water in the aquaculture pond 110 by intelligent monitoring of water and pipeline arrangement.

In this embodiment, the culture pond 110 is firstly modified, and the purpose of the modification is to realize the division of the functional area in the culture process, the culture pond 110 is divided into a culture part and a water treatment part, wherein the culture part is mainly the main pond 111 for culturing the fry, and the solid-liquid separation device 112 is used for performing solid-liquid separation treatment on the water body drained from the main pond 111, wherein the solid treatment is to treat large-particle solids and obtain a water body from which large-particle substances are removed, so that the treatment realizes the purification effect. In addition, in this embodiment, in order to collect other impurities such as feces of the fry during the culture process, the structure of the main pond 111 is improved, and the improved idea is to collect the feces and the impurities in a centralized manner. In the existing pond structure, the bottom of the pond is of a plane structure, and impurities discharged to the bottom of the pond cannot be collected in a centralized manner due to the structural characteristics of the plane structure. In this embodiment, the structure of the main pond 111 is set to be a pan bottom structure, and impurities can be collected by the bottom of the pan bottom structure by concentrating the impurities falling to the bottom of the pond through a deformation curved surface formed by the pan bottom structure.

In this embodiment, the pan bottom structure is provided with a certain cambered surface, wherein the angle range of the cambered surface is 3% -8%.

In the present embodiment, in order to solve the problem of low culture density in the unit space of the pond in the prior art, the fry is cultured intensively in the main pond 111 by providing the culture apparatus 120. Wherein the cultivation devices 120 are arranged in the main pond 111 in a fixed or floating manner, referring to fig. 2, the cultivation devices 120 are uniformly distributed in the main pond 111 with a circular cage as a main structure.

For impurities deposited at the bottom of the pond, the present embodiment discharges them to the automatic drainage system 180 through the sewage discharge device 140, and the automatic drainage system 180 discharges the impurities to the external wastewater tank 160 to collect and subsequently treat the impurities and wastewater containing the impurities.

In this embodiment, referring to fig. 1 and 3, the drainage apparatus includes a plurality of sewage discharging sub-pipes 141 disposed at the bottom of the main pond 111, wherein the sewage discharging sub-pipes 141 are connected with a sewage discharging main pipe 142, and the sewage discharging main pipe 142 is connected with an automatic drainage system 180. Since the impurities are particles and are not completely mobile phase in the actual treatment process, and the main sewage pipe 142 is blocked by the impurities due to the incomplete mobile phase in the sub sewage pipe 141, the impurities are discharged through the automatic drainage system 180.

Therefore, the automatic drainage system 180 mainly comprises a transmission component, the transmission component is arranged in the main sewage discharge pipe 142 in a fitting manner, the transmission component can be in a caterpillar structure or in other structures for bearing impurities, the impurities entering the main sewage discharge pipe 142 from the main sewage discharge pipe 141 are transported through the transmission component, the transportation path is from one end of the main sewage discharge pipe 142 close to the main sewage discharge pipe 141 to the other end of the main sewage discharge pipe 142, and the other end of the main sewage discharge pipe is connected with the external sewage pool 160 to transport the impurities.

In addition, in order to realize output controllability of impurities and avoid idle running of the conveying device 181 when a small amount of impurities are required, a blowdown valve is arranged in the blowdown main pipe 142, and control processing of blowdown operation is realized by controlling the blowdown valve.

And the control logic for the waste valves is implemented based on an intelligent monitoring subsystem 130 disposed within the main pond 111. In this embodiment, the intelligent monitoring subsystem 130 comprises an intelligent bait casting device 131, an above-water video device 132, an underwater video device 133, a water quality monitoring device 134 and a solar automatic oxygen increasing device 135. In the present embodiment, the basic logic of the treatment for the sewage discharge work is that the impurities in the main tank 111 reach the level at which the sewage discharge can be performed, that is, the sewage discharge is performed. The determination of the sewage discharge degree is realized through the underwater video device 133 and the water quality monitoring device 134, the underwater video device 133 can acquire the condition of the underwater main pond 111 in real time, the water quality monitoring device 134 monitors the condition of the water body in the main pond 111 in real time, impurity information is acquired based on the two devices, and the opening and closing of the sewage discharge valve are triggered based on the acquired information.

In this embodiment, the waste gate valve is in signal communication with the underwater video unit 133 and the water quality monitoring unit 134. The underwater video device 133 and the water quality monitoring device 134 include not only monitoring functions but also communication functions.

Aiming at the main pond 111, in order to realize the purification and recycling of the water body, a solid-liquid separation device 112 is connected through drainage, namely the main pond 111 is used for cultivation, the solid-liquid separation device 112 is used for purification of the water body, the solid-liquid separation device 112 is connected with a tail water treatment subsystem 150, and the water body treated by the solid-liquid separation device 112 is purified by the tail water treatment subsystem 150 and forms a loop with the main pond 111 through a pipeline. Namely, the effluent in the main pond 111 is diverted by the solid-liquid separation device 112 and is subjected to a purification cycle by the tail water treatment subsystem 150.

In the present embodiment, the drainage device 170 includes a drainage tube 171 connected to the main pond 111 and the solid-liquid separation device 112, and a drainage valve provided on the drainage tube 171, wherein the drainage valve includes a drainage information receiving module and a valve control module. The drainage information receiving module is configured to receive an operation signal for drainage processing, where the operation signal for drainage processing is determined based on data acquired by the intelligent monitoring subsystem 130 disposed in the main pond 111, that is, when the data acquired by the intelligent monitoring subsystem 130 is within a value range of valve control, the valve is opened.

In the present embodiment, the data of determining whether to open the drain valve is water quality data, which is implemented by the water quality monitoring device 134 provided in the main pond 111. The water quality monitoring device 134 includes a water quality monitoring module and a communication module, the communication module being electrically connected to the flow-diverting valve. The drainage valve is provided with a drainage information receiving module, and the communication module is communicated with the drainage information receiving module to realize connection of a control path.

In this embodiment, the tail water treatment subsystem 150 comprises a primary connected adjusting tank 151, a sedimentation tank 152, a disinfection tank 153, an aeration tank 154 and a biological purification tank 155, wherein the biological purification tank 155 is connected with the main pond 111 to form a loop. The adjusting tank 151 is used for adjusting the water level, the sedimentation tank 152 is used for precipitating particulate matters, the disinfection tank 153 is used for disinfecting and sterilizing microorganisms and the like in the water body, the aeration tank 154 is used for carrying out aeration treatment on the water body, and the biological purification tank 155 is used for purifying biomass in the water body.

In this embodiment, be provided with disinfection bacteria removing device in the disinfection pond 153, disinfection bacteria removing device is general to carry out disinfection bacteria removing treatment with the water after the temperature is stable. The water disinfection device specifically comprises a disinfection and sterilization part, wherein a disinfection medium is stored in the disinfection and sterilization part and used for disinfecting the water body, and the disinfection medium in the embodiment is a commercially available medicine. The disinfection and sterilization device provided by the embodiment can control harmful microorganisms in water at a lower level, and reduce the frequency of diseases of the cultured objects.

In this embodiment, include the automatic oxygen device that dissolves of solar energy in intelligent monitoring subsystem 130, the automatic oxygen device that dissolves of solar energy is for providing the oxygen device that dissolves of energy source based on solar energy, solar cell panel and with solar cell panel energy storage unit, still include that main work unit is dissolved oxygen automatic control part, and the dissolved oxygen monitoring part and the oxygen release part of being connected with dissolved oxygen automatic control part electricity, wherein connect the system oxygen part at the oxygen release part, the system oxygen part can be the oxygen jar of peripheral hardware or the oxygen making equipment among the prior art. The using mode of the automatic dissolved oxygen device of solar energy that this embodiment provided is the dissolved oxygen content in monitoring the water through the dissolved oxygen monitoring part that sets up the automatic dissolved oxygen device box of solar energy, and send the data that acquire in real time to the dissolved oxygen automatic control part in through the mode of communication, the dissolved oxygen automatic control part is provided with dissolved oxygen control threshold value, when the dissolved oxygen content of monitoring in real time is less than the threshold value promptly when the dissolved oxygen content in the water is unusual, send the system oxygen part in control command to the oxygen release part, realize system oxygen, and the stop of making oxygen when the dissolved oxygen content through real-time monitoring surpasss threshold value high value scope.

The wisdom pond circulation farming systems 100 that this embodiment provided is through forming the bottom of a boiler structure or doing benefit to drainage and the dirty structure of collection in main pond 111 bottom to through being responsible for with a root in main pond 111 bottom and connecting a plurality of drain respectively, in time arrange the residual bait excrement and urine, solve residual bait excrement and urine and deposit the problem in pond bottom. And this embodiment is according to the pond water color condition of video system on water, video system feedback under water, regularly drains off water and adds water to add the algae kind to the pond and include chlorella, diatom etc. the bacterial includes saccharomycetes, bacillus, lactic acid bacteria, fruit and vegetables ferment etc. supporting breeding device 120 of certain area simultaneously, the bottom material of the multi-measure regulation and control pond, quality of water, prevent that the bottom organic matter fermentation of pond from turning black, reduce harmful substance content such as ammonia nitrogen, nitrite in the water, construct stable, reliable aquaculture water, in order to obtain high-quality aquatic products. In the embodiment, the cultivation device 120 which is fixed or floats in the main pond 111 and has the circular or square structure is matched with the main cultivation object and the main cultivation object is cultivated in the cultivation device 120, the solid-liquid separation device 112 is provided with the drainage device 170, the water body coming out of the cultivation device 120 is subjected to solid-liquid separation treatment in the solid-liquid separation device 112 through the drainage system to obtain the primarily purified water body, and the purified water body is returned to the fish cultivation facility, so that the problems of low cultivation density, cultivation yield and cultivation benefit are solved. In this embodiment, supporting intelligent feeding machine, video system, water quality monitoring system, automatic oxygenation system of solar energy and intelligent sewage system etc. wisdom equipment, solve the not high problem of the institutionalization and intelligent degree, also solve the risk that the farming process exists. In this embodiment, the tail water treatment system, such as the adjusting tank 151, the sedimentation tank 152, the disinfection tank 153, the aeration tank 154, the biological purification tank 155, is matched to solve the problem that the tail water pollutes the surrounding natural water environment.

In the present embodiment, the above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention. In the present embodiment, the above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An intelligent pond circulating culture system is characterized by comprising a culture pond, wherein the culture pond comprises a main pond, a culture device is arranged in the main pond, and the main pond is connected with a solid-liquid separation device through a drainage device; an intelligent monitoring subsystem and a sewage discharge device are arranged in the main pond; the solid-liquid separation device is connected with a tail water treatment subsystem, and the tail water treatment subsystem and the main pond form a loop; the bottom of the main pond culture pond is of a pot bottom structure.

2. The intelligent pond circulation aquaculture system of claim 1 wherein the aquaculture apparatus is disposed in the main pond in either a fixed and floating manner.

3. The intelligent pond circulation culture system according to claim 1, wherein the sewage draining device comprises a plurality of sewage draining sub-pipes arranged at the bottom of the main pond, the plurality of sewage draining sub-pipes are connected with a main sewage draining pipe, and the main sewage draining pipe is connected with an external sewage tank through an automatic drainage system; the automatic drainage system comprises a transmission component, the transmission component is arranged in the sewage discharge main pipe, and the sewage discharge main pipe is provided with a sewage discharge valve.

4. The intelligent pond circulation aquaculture system of claim 3 wherein the drainage device comprises a drainage tube connected to the main pond and the solid-liquid separation device and a drainage valve disposed on the drainage tube, the drainage valve comprising a drainage information receiving module and a valve control module.

5. The intelligent pond circulating aquaculture system of claim 4 wherein the intelligent monitoring subsystem comprises an intelligent bait casting device, an above-water video device, an underwater video device, a water quality monitoring device, and a solar automatic oxygen increasing device.

6. The intelligent pond circulation aquaculture system of claim 5 wherein the above water video and the under water video are electrically connected to the blowdown valve.

7. The intelligent pond circulating aquaculture system of claim 5 wherein the water quality monitoring device comprises a water quality monitoring module and a communication module; the communication module is in communication with the drainage information receiving module.

8. The intelligent pond circulation aquaculture system of claim 5 wherein the solar automatic oxygen aeration device comprises an oxygen content monitoring module and an oxygen aeration control module in communication with the oxygen content monitoring module.

9. The intelligent pond circulating aquaculture system of claim 1 wherein the tail water treatment subsystem comprises a regulating tank, a sedimentation tank, a disinfection tank, an aeration tank and a biological purification tank which are connected in sequence, wherein the biological purification tank is connected with the main pond to form a loop.

10. The intelligent pond circulation aquaculture system of claim 9 wherein the conditioning tanks are water level conditioning tanks.