CN205922507U - Intelligence aquaculture pond based on big data analysis - Google Patents
Intelligence aquaculture pond based on big data analysis Download PDFInfo
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- CN205922507U CN205922507U CN201620467821.0U CN201620467821U CN205922507U CN 205922507 U CN205922507 U CN 205922507U CN 201620467821 U CN201620467821 U CN 201620467821U CN 205922507 U CN205922507 U CN 205922507U
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- big data
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Abstract
The utility model provides an intelligence aquaculture pond based on big data analysis, it is including the main pond of breeding, temperature control apparatus, oxygen equipments, water quality monitoring devices, water quality control equipment, throw edible equipment, the equipment of intaking, the video recording equipment, mobile terminal and central control system, utilize the sensor to gather the aquaculture environment parameter of breeding in the pond in real time, use the big data analysis of network to form the standard of planting through central control system to environmental parameter, carry out contrastive analysis with environmental parameter and breed standard again, central control system is according to analysis result to other each equipment send instruction, control its operation, guarantee best aquaculture environment, the technician can also be through the mobile terminal remote monitoring condition of breeding, the utility model provides an it has the accurate advantage of intellectuality, automation and monitoring to breed the pond.
Description
Technical field
This utility model belongs to technical field of aquaculture equipment, more particularly, to a kind of intelligent water based on big data analysis
Produce culturing pool.
Background technology
Aquaculture is breeding under manual control, cultivates and harvest the production activity of aquatic animals and plants.It is commonly included in people
Form the overall process of aquatic products from seed under work feeding and management.Broadly may also comprise Enhancement of fishery resources.Aquaculture has slightly
Support, the mode such as intensive culture and high density culture.Extensive cultivation is input seed in medium and small natural water area, leans on natural bait to support completely
Become aquatic products, such as lake and reservoir is breeded fish and shellfish etc. is supported in shallow sea.Intensive culture is to form water compared with the bait throwing in that comes into operation in small size pond, fertilizing method
Product, such as aqiuculrue, fish culture in net pen and enclosure culture, net enclosure culture etc..High density culture using flowing water, temperature control, oxygen supplement and feeds high-quality bait
The methods such as material, carry out high-density breeding in small size pond, thus obtaining high yield, such as Running Water Intensive Fish Farming, shrimp etc..
Sensing technology is with regard to obtaining information from natural information source, and information is processed(Conversion)With identification more than one
The modern science of subject crossing and engineering technology, it is related to sensor(Also known as transducer), the planning of information processing and identification sets
Meter, exploitation, system/build, test, application and evaluate improve etc. activity.Sensing technology is claimed together with communicating with computer technology
For three big pillars of information technology, it is one of basis of Internet of Things.
Current aquaculture, especially high density culture, are used for cultivating famous and precious Aquatic product, famous and precious Aquatic product is to breeding environment
Change very sensitive, using artificial adjust, not only workload is very huge to control breeding environment, and longevity of service, right
Staff causes huge workload, then causes unnecessary artificial loss, simultaneously the professional degree to technical staff
Require high, high to the degree of dependence of the professional technician that technology is enriched, and the knowledge background due to each technician and specially
Industry degree is different to be cultivated it is difficult to form standardization, is unfavorable for the development of culture fishery.
Content of the invention
The problems referred to above are had based on prior art, this utility model provides a kind of intelligent Aquatic product based on big data analysis to support
Grow pond, it include main culturing pool, Temperature-controlled appliance, oxygen increasing equipment, water quality monitoring equipment, Water-quality control equipment, feeding equipment,
Enter wetting system, video recording equipment, mobile terminal and central control system, using the breeding environment in sensor Real-time Collection culturing pool
Parameter, uses to ambient parameter the analysis of network big data to form plantation standard by computer, then by ambient parameter and cultivates mark
Standard is analyzed, and computer sends instruction according to analysis result to other each equipment, controls it to run it is ensured that optimal cultivate
Environment, technician can also by mobile terminal remote monitor cultivation situation, this utility model provide culturing pool have intellectuality,
Automatization and the accurate advantage of monitoring.
A kind of intelligent aquaculture pond based on big data analysis, it includes main culturing pool, Temperature-controlled appliance, oxygen supplement set
Standby, water quality monitoring equipment, Water-quality control equipment, feeding equipment, enter wetting system, video recording equipment, mobile terminal and central authorities and control system
System;
Oxygen increasing equipment includes air exhauster and appendix, and gas transmission pipe surface has air vent and is laid on culturing pool bottom, appendix
It is connected with the air exhauster of cultivation pool side;Temperature-controlled appliance includes heat-generating pipe, positioned at main culturing pool side wall;Oxygen increasing equipment includes increasing
Oxygen machine, positioned at the main culturing pool water surface;The water level prison that water quality monitoring equipment includes sensor, suspension device and is arranged at main cultivation pool side
Survey device, sensor and suspension device are integrally formed and float on the water surface;Water-quality control equipment, feeding equipment and enter wetting system be located at master
Cultivation pool side, and be connected with central control system;Video recording equipment is located above main culturing pool, main culturing pool is recorded a video, by net
Line is connected with central control system;Mobile terminal is connected with central control system by radio communication;Central control system includes
Processor(CPU), random access memory (RAM), read-only memory(ROM)And external storage, central control system is connected to mutually
Network and be connected with other equipment respectively by wireless or wire communication mode.
Sensor in water quality monitoring equipment also include temperature sensor, acidity-basicity sensor, dissolved oxygen sensor, sulfur from
Sub- sensor, carbanion sensor, various sensors are used for the data of Real-time Collection breeding environment, and send data to
Central control system.
Water quality monitoring equipment is by WiFi or one of bluetooth or other wireless communication modes or multiple mixed
Close to use and be connected with central control system.
Wireless connection between central control system and mobile terminal is GSM network, WCDMA network, cdma network, TD-
One or more of cdma network, TD-LTE network and FDD-LTE network mixture of networks connects.
Main culturing pool and the connecting water pipe entering between wetting system have water valve, are capable of the big of regulating water flow by water valve
Little, by computer can control water inlet open with light, inflow number it is ensured that cultivation water level.
On water quality monitoring equipment, also there are electric charge generating meanss, make each monitoring device have identical electric charge, in its week
Enclose generation identical magnetic field, water quality monitoring equipment freely floats in the water surface and can reach randomization, accurate measurements water quality environment
Purpose, make by magnetic field that water quality monitoring equipment is mutually exclusive can to avoid water quality monitoring equipment to be gathered in completely at one, impact
Monitoring accuracy.
The rounded helical form of appendix of oxygen increasing equipment or square spiral shape are arranged in main culturing pool bottom, make oxygen permissible
Equably it is discharged in whole culturing pool.
Heat-generating pipe in Temperature-controlled appliance is electric heating tube, is additionally provided with a protective layer in heat-generating pipe periphery, in heat-generating pipe
Outer setting layer protective layer can prevent heat-generating pipe from damaging because of reasons such as foreign object collisions, can also avoid Aquatic product because too close simultaneously
Heat-generating pipe and causing is scalded even dead.
Brief description
Fig. 1 is a kind of intelligent aquaculture pond overlooking structure figure based on big data analysis.
Fig. 2 is a kind of to understand that water quality monitoring equipment removes it for convenience based on the intelligent aquaculture pond of big data analysis
The structure chart of his equipment.
Fig. 3 is a kind of connection diagram of the intelligent aquaculture pond based on big data analysis.
The main culturing pool of wherein 1-, 3- oxygen increasing equipment, 4- water quality monitoring equipment, 5- Water-quality control equipment, 6- feeding equipment, 7
Enter wetting system, 8- central control system.
Specific embodiment
The utility model will be further described with specific embodiment below in conjunction with the accompanying drawings.
A kind of intelligent aquaculture pond based on big data analysis as shown in drawings, it includes main culturing pool(1), temperature
Control device, oxygen increasing equipment(3), water quality monitoring equipment(4), Water-quality control equipment(5), feeding equipment(6), enter wetting system(7)、
Video recording equipment, mobile terminal and central control system(8);
Oxygen increasing equipment(3)Including air exhauster and appendix, gas transmission pipe surface has air vent and is laid on culturing pool bottom, gas transmission
Pipe is connected with the air exhauster of cultivation pool side;Temperature-controlled appliance includes heat-generating pipe, positioned at main culturing pool(1)Side wall;Oxygen increasing equipment
(3)Including aerator, positioned at main culturing pool(1)The water surface;Water quality monitoring equipment(4)Including sensor, suspension device be arranged at master
Culturing pool(1)The water level monitor on side, sensor and suspension device are integrally formed and float on the water surface;Water-quality control equipment(5), throw
Food equipment(6)With enter wetting system(7)Positioned at main culturing pool(1)Side, and and central control system(8)Connect;Video recording equipment is located at
Above main culturing pool, main culturing pool is recorded a video, is connected with central control system by netting twine;Mobile terminal pass through radio communication with
Central control system connects;Central control system(8)Including processor(CPU), random access memory (RAM), read-only memory
(ROM)And external storage, central control system(8)It is connected to the Internet and by radio connection and water quality monitoring equipment
(4)Connect, by netting twine respectively with main culturing pool(1), Temperature-controlled appliance, oxygen increasing equipment(3), Water-quality control equipment(5), throw
Food equipment(6), enter wetting system(7)Connect.
As the presently preferred embodiments, water quality monitoring equipment(4)In sensor include temperature sensor, acidity-basicity sensor,
Dissolved oxygen sensor, sulfide ion sensor, carbanion sensor.
As the presently preferred embodiments, water quality monitoring equipment(4)It is to be made by WiFi and two kinds of wireless communication mode mixing of bluetooth
With with central control system(8)Connect.
Central control system(8)Wireless connection and mobile terminal between be GSM network, WCDMA network, cdma network,
Multiple network Hybrid connections in TD-CDMA network, TD-LTE network and FDD-LTE network.
As the presently preferred embodiments, main culturing pool(1)With enter wetting system(7)Between connecting water pipe there is water valve, by water
Valve is capable of the size of regulating water flow.
As the presently preferred embodiments, water quality monitoring equipment(4)On also there are electric charge generating meanss, so that each monitoring device is had
Identical electric charge, is producing identical magnetic field about.
As the presently preferred embodiments, oxygen increasing equipment(3)The appendix helical form that is square be arranged in main culturing pool(1)Bottom.
As the presently preferred embodiments, the heat-generating pipe in Temperature-controlled appliance is electric heating tube, is additionally provided with one in heat-generating pipe periphery
Plastic protective layer.
Aquaculture family first is in central control system(8)The aquatic species that middle setting will cultivate, central control system
It is connected with network data base according to aquatic species information, analyzed according to big data and form cultivation standard, central control system(8)Again
Send enabled instruction to other various equipment, other each equipment enter armed state.
Central control system(8)To entering wetting system(7)Send water inlet instruction, enter wetting system(7)Water valve is controlled to open, to master
Culturing pool(1)Carry out into water, water quality monitoring equipment(4)In level switch monitor that water level reaches and during standard, water level reached
Feedback of the information is to central control system(8), central control system(8)To entering wetting system(7)Send halt instruction, enter wetting system
(7)Stop water inlet.
Central control system(8)To water quality monitoring equipment(4)Send work order, water quality monitoring equipment(4)In various
Sensor starts, and starts to gather main culturing pool(1)In various breeding environment data, and environmental data will be cultivated send to central authorities
Control system(8), central control system(8)After receiving breeding environment data, environmental data and cultivation standard are carried out to score
Analysis, central control system(8)According to analysis result respectively to Water-quality control equipment(5), oxygen increasing equipment(3)And Temperature-controlled appliance
Send instruction, cultivation water is adjusted, work as central control system(8)Analysis water quality monitoring equipment(4)The data of collection obtains
Go out cultivation water and reach to send during standard to throw in seed signal, now raiser can be to main culturing pool(1)Middle input seed, with
When central control system(8)Record all ambient parameters and the instruction being sent, be synchronized to mobile terminal.
Work as central control system(8)Analysis water quality monitoring equipment(4)When the data of collection show that water quality temperature is too low, Xiang Wen
Degree control device sends heating instructions, and Temperature-controlled appliance starts to main culturing pool(1)Water is heated, until central authorities control system
System(8)Analysis water quality monitoring equipment(4)The data of collection show that water temperature returns cultivation standard sending to Temperature-controlled appliance and stops
Till only instructing, central control system(8)Record all ambient parameters and the instruction being sent, be synchronized to mobile terminal.
Work as central control system(8)Analysis water quality monitoring equipment(4)The data of collection obtains dense carbon dioxide in water outlet and spends
Gao Shi, to Water-quality control equipment(5)Send carbon dioxide control instruction, Water-quality control equipment(5)Throw in Calx to main cultivation, directly
To central control system(8)Analysis water quality monitoring equipment(4)The data of collection show that carbon dioxide returns cultivation standard and to water
Quality Control control equipment(5)Till sending halt instruction, central control system(8)Record all ambient parameters and the instruction being sent,
It is synchronized to mobile terminal.
Work as central control system(8)Analysis water quality monitoring equipment(4)When the data of collection obtains that in water outlet, ammonia concentration is too high,
To Water-quality control equipment(5)Send ammonia control instruction, Water-quality control equipment(5)Throw in Maifanitum to main cultivation, until central authorities
Control system(8)Analysis water quality monitoring equipment(4)The data of collection show that ammonia returns cultivation standard and to Water-quality control equipment
(5)Till sending halt instruction, central control system(8)Record all ambient parameters and the instruction being sent, be synchronized to movement
Terminal.
Work as central control system(8)Analysis water quality monitoring equipment(4)It is too high that the data of collection obtains concentration of hydrogen sulfide in water outlet
When, to Water-quality control equipment(5)Send hydrogen sulfide control instruction, Water-quality control equipment(5)Throw in ferrous sulfate to main cultivation, directly
To central control system(8)Analysis water quality monitoring equipment(4)The data of collection show that hydrogen sulfide returns cultivation standard and to water quality
Control device(5)Till sending halt instruction, central control system(8)Record all ambient parameters and the instruction being sent, with
Walk mobile terminal.
Work as central control system(8)Analysis water quality monitoring equipment(4)The data of collection show that oxygen in water concentration is too low
When, to oxygen increasing equipment(3)Send Oxygen control instruction, oxygen increasing equipment(3)To main cultivation release oxygen, until central control system
(8)Analysis water quality monitoring equipment(4)The data of collection show that dissolved oxygen returns cultivation standard and to oxygen increasing equipment(3)Send stopping
Till instruction, central control system(8)Record all ambient parameters and the instruction being sent, be synchronized to mobile terminal.
Work as central control system(8)When separating out the arrival feeding time according to cultivation standard scores, to feeding equipment(6)Send throwing
Forefinger order and feeding amount, feeding equipment(6)According to instruction and feeding amount to main culturing pool(1)Throw in feedstuff, central control system
(8)Record feeding time, feeding amount and the instruction being sent, and it is synchronized to mobile terminal.
The main culturing pool of video recording equipment captured in real-time(1)Situation, and video recording is sent to central control system(8), central authorities
Control system(8)By video recording storage, the instruction according to mobile terminal can be synchronized on mobile terminal at any time.
Technical staff passes through mobile terminal and remote monitoring can cultivate situation at any time, finds central control system(8)Run
Mistake, or because other situations need cultivation situation is adjusted when, can be sent out to central control system by mobile terminal
Send instruction, central control system(8)Other each equipment are controlled according to instruction.
Embodiment described above only have expressed a kind of embodiment of the present utility model, and its description is more concrete and detailed,
But therefore can not be interpreted as the restriction to this utility model the scope of the claims.It should be pointed out that it is common for this area
For technical staff, without departing from the concept of the premise utility, some deformation can also be made and improve, these all belong to
In protection domain of the present utility model.Therefore, the protection domain of this utility model patent should be defined by claims.
Claims (6)
1. a kind of intelligent aquaculture pond based on big data analysis it is characterised in that it include main culturing pool, temperature control sets
Standby, oxygen increasing equipment, water quality monitoring equipment, Water-quality control equipment, feeding equipment, enter wetting system, video recording equipment, mobile terminal and in
Centre control system;
Oxygen increasing equipment includes air exhauster and appendix, and gas transmission pipe surface has air vent and is laid on culturing pool bottom, appendix with support
The air exhauster growing pool side connects;Temperature-controlled appliance includes heat-generating pipe, positioned at main culturing pool side wall;Oxygen increasing equipment includes oxygen supplement
Machine, positioned at the main culturing pool water surface;The water level monitoring that water quality monitoring equipment includes sensor, suspension device and is arranged at main cultivation pool side
Device, sensor and suspension device are integrally formed and float on the water surface;Water-quality control equipment, feeding equipment and enter wetting system and be located at main supporting
Grow pool side, and be connected with central control system;Video recording equipment is located above main culturing pool, main culturing pool is recorded a video, by netting twine
It is connected with central control system;Mobile terminal is connected with central control system by radio communication;Central control system includes locating
Reason device(CPU), random access memory (RAM), read-only memory(ROM)And external storage, central control system connect respectively with
Other equipment connects.
2. a kind of intelligent aquaculture pond based on big data analysis according to claim 1 is it is characterised in that described water quality
Sensor in monitoring device includes temperature sensor, acidity-basicity sensor, dissolved oxygen sensor, sulfide ion sensor, carbonic acid
Radical ion sensor.
3. a kind of intelligent aquaculture pond based on big data analysis according to claim 1 is it is characterised in that described master supports
Grow pond and the connecting water pipe that enters between wetting system has water valve, be capable of the size of regulating water flow by water valve.
4. a kind of intelligent aquaculture pond based on big data analysis according to claim 1 is it is characterised in that described water quality
Electric charge generating meanss are also had on monitoring device.
5. a kind of intelligent aquaculture pond based on big data analysis according to claim 1 is it is characterised in that described oxygen supplement
The rounded helical form of appendix of equipment or square spiral shape are arranged in main culturing pool bottom.
6. a kind of intelligent aquaculture pond based on big data analysis according to claim 1 is it is characterised in that described temperature
Heat-generating pipe in control device is electric heating tube, is additionally provided with a protective layer in heat-generating pipe periphery.
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CN201620467821.0U CN205922507U (en) | 2016-05-21 | 2016-05-21 | Intelligence aquaculture pond based on big data analysis |
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CN201620467821.0U CN205922507U (en) | 2016-05-21 | 2016-05-21 | Intelligence aquaculture pond based on big data analysis |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107667960A (en) * | 2017-11-22 | 2018-02-09 | 四川通服智能科技有限公司 | A kind of high-density ecological intelligence fish pond system |
CN107817857A (en) * | 2017-12-12 | 2018-03-20 | 济宁景泽信息科技有限公司 | A kind of fishery cultivating dynamic monitoring system |
CN107917997A (en) * | 2017-11-16 | 2018-04-17 | 桂林市安琪玫瑰农业发展有限公司 | A kind of aquaculture detection method |
CN107943172A (en) * | 2017-11-29 | 2018-04-20 | 深圳市亿兆互联技术有限公司 | A kind of aquaculture hydrology environment automatic control system based on LoRa |
CN109090009A (en) * | 2018-09-12 | 2018-12-28 | 湖州日晨生态农业开发有限公司 | A kind of freshwater fish culturing management system |
CN110476839A (en) * | 2019-07-24 | 2019-11-22 | 中国农业大学 | A kind of optimization regulating method and system based on fish growth |
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2016
- 2016-05-21 CN CN201620467821.0U patent/CN205922507U/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107917997A (en) * | 2017-11-16 | 2018-04-17 | 桂林市安琪玫瑰农业发展有限公司 | A kind of aquaculture detection method |
CN107667960A (en) * | 2017-11-22 | 2018-02-09 | 四川通服智能科技有限公司 | A kind of high-density ecological intelligence fish pond system |
CN107943172A (en) * | 2017-11-29 | 2018-04-20 | 深圳市亿兆互联技术有限公司 | A kind of aquaculture hydrology environment automatic control system based on LoRa |
CN107817857A (en) * | 2017-12-12 | 2018-03-20 | 济宁景泽信息科技有限公司 | A kind of fishery cultivating dynamic monitoring system |
CN109090009A (en) * | 2018-09-12 | 2018-12-28 | 湖州日晨生态农业开发有限公司 | A kind of freshwater fish culturing management system |
CN110476839A (en) * | 2019-07-24 | 2019-11-22 | 中国农业大学 | A kind of optimization regulating method and system based on fish growth |
CN110476839B (en) * | 2019-07-24 | 2020-07-31 | 中国农业大学 | Optimal regulation and control method and system based on fish growth |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170208 Termination date: 20170521 |
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CF01 | Termination of patent right due to non-payment of annual fee |